Sportswear system, sports equipment and sports system formed therefrom with anti-static function

专利摘要:
The invention relates to a sports system (1) with antistatic function, in particular for winter sports or mountaineering, comprising a shoe (2) with at least one arranged on its outer side (6) or first contact element (7), which with the in the shoe (2) to be included Foot of a user electrically conductively connected, and a sports device (3). The first contact element (7) of the shoe (2) is electrically conductively connected via a discharge path to at least one contacting surface (14) which can be turned over to the terrain. The invention further relates to a sportswear system (26) and a sports device (3), each with anti-static function for the sports system (1).
公开号:AT515266A2
申请号:T50503/2014
申请日:2014-07-18
公开日:2015-07-15
发明作者:Markus Harml；Rupert Huber
申请人:Markus Harml；
IPC主号:

专利说明:

The invention relates to a sports system, a sports clothing system for the sports system and a sports equipment for the sports system each with anti-static function, as described in the preambles of claims 1,20 and 30.
DE 2 147 904 A describes an antistatic running shoe in which an electrically conductive, non-marking resistive material is incorporated from the foot support plane in the shoe through all the layers of the sole through to the immediate ground contact. The material incorporated in the sole may be an electrically conductive plastic or a correspondingly made conductive natural product or an electrically conductive cell polyurethane. Preferably, a cellular, impregnated with a carbon black plastic dispersion polyurethane elastomer is used, the cell structure is held so that a water absorption is not possible. This makes it possible for a user of such an antistatic running shoe to be able to derive even on modern sports facilities, such as synthetic turfs or on synthetic tracks, due to the movement rhythms particularly strong electrostatic charge by frictional electricity through a "foot-ground contact" from the body ,
Another shoe, in particular a safety shoe or leisure shoe, with an antistatic function has become known from EP 2 005 851 B1. This comprises a sole with a footrest and an outsole region, wherein the footrest is formed integrally with the sole of a plastic. Furthermore, at least one continuous, extending from the footrest to the outsole area channel is provided, which channel is filled with an electrically conductive material. The electrically conductive material is encapsulated or encapsulated in the channel.
DE 297 00 693 U1 describes an electrostatic discharge device for the human body. In this case, the discharge device comprises an outer electrode which is formed in the running surface of the shoe. Furthermore, an inner electrode is provided, wherein the inner electrode is galvanically connected to the outer electrode for discharge. Thus, the inner electrode can be arranged on the footprint of the shoe, preferably in the region of the heel. The outer electrode is also preferably arranged in the region of the shoulder, wherein the galvanic connection may also be designed resiliently.
An additional grounding of the human body by current-conducting shoes, socks and stockings is described in DE 102 55 408 A1. Thus, it is provided here that in the shoes completely or partially electrically conductive soles and wholly or partially electrically conductive insoles are inserted. In these soles or insoles non-insulated conductor are inserted. In the soles of the socks and stockings further electrically conductive threads or current-conducting sections of woven fabrics are braided. As a result, starting from the foot of the user accommodated in the shoe, the discharge of the electrostatic charge is made possible by the electrical contact with the earth which can be produced in this way.
In the clothing used today and the usually insulating trained footwear can not prevent a high electrostatic charge of the body. As a result, the derivation of the electrostatic charge and thus an equipotential bonding with the earth is not possible even when using sports systems in which the user is connected via a shoe, in particular a sports shoe, with the sports equipment. Grounding restores and maintains the body's natural electrical ground state. This grounded, electrical ground state in turn promotes health and performance in everyday life. In ancient times, people have walked the earth, sat on it and slept, with the skin of their body touched the earth and so the natural electrostatic potential equalization is done. The fact that nowadays mainly insulating shoes are worn with plastic soles or slept in raised beds in insulating materials, the skin of humans, especially the bare feet with their wide-branched nerve endings, very rarely touches the ground. As a result of this contact, the body usually adjusts itself immediately to the energy level or energy potential of the earth. Through the earth, the most diverse reactions are caused or caused in the body. For example, the symptoms of many inflammatory diseases can be alleviated or completely eliminated. In addition, chronic pain can be reduced or eliminated, the energy level increased and natural body rhythms regulated. On the other hand, an accelerated healing process as well as an accelerated regeneration after intense physical exercise can be achieved. In addition, the blood pressure can be regulated or improved and the consistency of the blood can be diluted.
The present invention has for its object to provide a sports system, which enables an equipotential bonding starting from the users using the sports system towards the earth. However, it should also be a sports clothing system for the sports system and / or sports equipment for the sports system to be created, each of which also allow potential equalization.
This object of the invention is solved by the features of claim 1. The advantage achieved by the features of claim 1 lies in the fact that now even when using a sports equipment in combination with a shoe equipped for the user always an electrical contact via the continuous electrical contacting of the skin surface of the foot to the ground and thus the Potential of the earth is made possible. By providing at least one contact surface on the sports equipment, such a user of such a sports system can always dissipate its static charge via this electrical line connection to the earth. At the present time, the garment industry mainly uses materials in which a wearer, while carrying a static charge, charges himself to a higher charge potential with respect to the earth. In order to improve the health and performance of the user, can be done with this consistently electrically conductive sports system always a potential equalization and thus immediately take place in sports practice, the desired derivative.
Also advantageous is a further embodiment according to claim 2, as a result, the user can always dissipate the electrostatic charge immediately to the earth even with a variety of board-shaped sports equipment during their use and thereby minimizes the influence of the electrostatic charge acting on the body or even turned off can be.
It is also advantageous embodiment according to claim 3, as this can already be used in the board-like sports equipment on existing components and allow this by a corresponding, conductive connection with the first contact element of the shoe potential equalization. This makes it possible to dispense with additional components which form the contact surface.
Due to the design according to claim 4, it is possible to use a likewise already existing component of the sports equipment to form the contacting surface. This will often be the case if no side edge formed of an electrically conductive material is present. As a result of the fact that the tread covering forms the contacting surface or contacting surfaces at least in partial sections or sections, the contacting of the sports device with the terrain can also take place over a larger area proportion.
According to another embodiment according to claim 5, the possibility is created in board-like sports equipment to connect the shoe via a coupling device with the sports equipment during use or to couple, this is done via their own mostly helical or helical trained fasteners. As a result, a secure attachment of the coupling device on the sports equipment can be achieved.
Also advantageous is a development according to claim 6, since so the connection element can be used in certain applications as an electrically conductive transmission element. This can be used in this case on existing and conventional components.
In the embodiment according to claim 7, it is advantageous that a simple electrically conductive connection can thus be created within the sports device between its contacting surfaces and the fastening element (s) in board-like sports equipment.
The development according to claim 8 ensures that a simple electrically conductive connection in the coupled position of the shoe on the coupling device and thus a continuous electrical line connection between the shoe interior and the contacting surface can be created. This can be found with few additional components Auslangen, creating a simple and inexpensive production of the sports system is achieved.
Due to the design according to claim 9 can be easily created in the mounting area for the coupling device on and / or within the board-type sports equipment an electrical contacting possibility, which can be realized easily and without protruding components on the sports equipment. Thus, for example, the corresponding line connection can already be realized by the connection process of the coupling device with the appropriate connection elements. In addition, however, the application element can also serve to reinforce the attachment region of the coupling device on the sports device.
Also advantageous is an embodiment according to claim 10, characterized in that also on the coupling device at a predetermined location in accordance with the arranged on the shoe, the first contact element, a secure and continuous electrical line connection can be created.
According to one embodiment, as described in claim 11, as a safe, electrical line connection in the field of sports equipment is provided with a coupling device thereon.
In this case, an embodiment according to claim 12 proves advantageous because it can be used for the most part on existing components, which can be brought together by appropriate arrangement and design of the electrical line connection with each other or with each other. Thus, in turn can be created in a simple manner without a large amount of additional components a continuous electrical line connection.
According to an advantageous embodiment according to claim 13, the possibility is created, regardless of the connection area to form a direct, electrical contact between the contacting surface and the second contact element of the coupling device. Thus, the most diverse binding systems can be used as a coupling device in a simple manner.
But also advantageous is an embodiment according to claim 14, because this is not only in the common use with the sports equipment contacting with the earth, but also in that case, when the shoe is used without a coupled sports equipment or used. Thus, the duration of the electrically conductive connection between the user and the earth can be additionally increased.
According to claim 15, the possibility is thus created to be able to use already existing coupling elements for the electrically conductive connection on the shoe. This is only within the shoe, especially its shell, to take into account the line connection to be made.
In the embodiment according to claim 16, a surface area larger contact area and thus a better dissipation of the electrostatic charge from the user to the earth can be done so even during the ascent. It is also possible an embodiment according to claim 17 since this can be done even safer derivation of the electrostatic charge from the user to the earth.
The embodiment according to claim 18 makes it possible, in the case of an arrangement of the skiff or the electrically conductive fur pile, in particular, if a receiving opening or recess is arranged in the board-shaped sports device such that a simple, direct contact with the application element can be produced. This makes it possible to dispense with the additional equipment or design of otherwise provided on the sports equipment contacting surfaces, whereby the Schifell or the insert element forms the contact surface.
Finally, however, a training, as described in claim 19, possible, as well as unlike board-like sports equipment can be used in conjunction with a shoe as a sports system for electrical dissipation. Thus, the possibility is created here, during the entire sports exercise with such sports equipment always to achieve an electrically conductive connection between the foot of the user and the terrain, namely the earth.
The object of the invention may optionally be achieved independently of or in combination with a sports device but also by the features of claim 20. The advantages resulting from the combination of features of this claim are that such a sportswear system can be created for a sports system in which a continuous electrical discharge path for the dissipation of electrostatic charge can be created from the outerwear to the user's shoe. In this way, it is always possible for the user to make electrical contact during the entire exercise of the sport towards the terrain and thus the potential of the earth. Since electrical contacting surfaces are already arranged or formed on at least one of the shoes on its outer side, reliable discharge of the electrostatic charge is ensured at each contact with the earth. Thus, the health and performance of the user, especially during exercise can be significantly improved.
However, an embodiment according to claim 21 is also advantageous since, depending on the choice and design of the outerwear, a reliable discharge path for the electrical energy can always be created by the contact element arranged or formed on the shoe. Thus, a proper dissipation of the electrostatic charge can take place in the foot area.
In accordance with claim 22, starting from the shoe interior, a secure electrical line connection is thus created towards the first contact element or elements arranged on the outside of the shoe.
In the embodiment according to claim 23, a secure derivation in the case of a divided formation of the outerwear from the upper body to the legs and subsequently to the first contact elements formed on the shoe or the shoes can thus also take place. It is also possible an embodiment according to claim 24, since thereby also in the use of the finger covering clothing pieces, such as gloves or finger cots, can also be created from here electrical discharge path over the outerwear.
The embodiment according to claim 25 also allows for the use of a protective helmet, a continuous dissipation of electrostatic charges by the provision or arrangement of electrically conductive layers in the region of the outer surface and / or in the region of the head receiving space.
The embodiment according to claim 26 is advantageous, as it also allows a possible electrostatic charge to be dissipated when using protective goggles over the protective helmet, subsequently through the outer clothing towards the contact element of the shoe.
Of advantage, however, is also an embodiment according to claim 27, since so the electrically conductive layer does not come directly to the skin of the user to the plant. This creates the opportunity to use skin-friendly materials on the inside of the outerwear.
In this case, an embodiment according to claim 28 proves advantageous because thereby the electrically conductive layer can be covered by an additional, the upper material forming outer layer. Thus, the electrically conductive layer can be better protected against external environmental influences. In addition, but also a diverse layer structure of outerwear for a variety of sports can be provided.
The object of the invention can optionally be solved independently of or in combination with a sportswear system but also by the features of claim 29. The advantages resulting from the combination of features of this claim are that it also sports equipment can be created, which in the course of their use in sports practice always allow grounding and thus dissipation of electrostatic charges. In this case, an electrostatic charge occurring by friction, in particular air friction, occurring at high speeds can be derived immediately. But this can also prevent electrostatic charging of the user of the respective sports equipment and thus the performance in sports practice can be improved. Due to the always possible potential equalization also a negative influence by the static charge for the user is reduced or even avoided.
Due to the configuration according to claim 30 can be dispensed with the additional arrangement or training of Kontaktierungsflächen, as can be done directly on the base element of the equipotential bonding and thus the dissipation of electrostatic charge.
The embodiment according to claim 31 is advantageous, since the cladding element which is part of the main body is grounded in a simple manner and therefore an equipotential bonding is made possible. As a result, occurring during exercise, electrostatic charges can be derived immediately, which can otherwise be transferred to the user.
Of advantage, however, is an embodiment according to claim 32, as well as with the appropriate use of sports clothing systems with anti-static function an occurring electrostatic charge of the user can be forwarded directly from the outer clothing on the sports equipment at the contacting surface and thus derived.
Finally, however, an education, as described in claim 33, possible, since thus an additional derivation possibility in sports exercise on the or the poles used can be created. Thus, in addition to the derivation of the shoe on the stock-shaped sports equipment, a corresponding derivation path can be created.
For a better understanding of the invention, this will be explained in more detail with reference to the following figures.
In each case, in a highly simplified, schematic representation:
Fig. 1 shows a first embodiment of a sports system, wherein the
Sports equipment is designed as Alpinschi, in plan view with arranged thereon coupling device, but removed shoe;
FIG. 2 shows the sports system according to FIG. 1 with sports equipment and shoe, cut in side view according to the lines II-II in FIG. 1; FIG.
Fig. 3 shows a second embodiment of a sports system in which the sports equipment is designed as a touring ski, in plan view without coupling device and without shoe;
4 shows the sports system according to FIG. 3 with sports equipment and the shoe before the coupling with the coupling device, cut in side view according to the lines IV-IV in FIG. 3;
5 shows a third embodiment of a sports system in which the
Sports equipment is designed as ski jump, cut in side view;
6 shows a fourth embodiment of a sports system in which the
Sports device is designed as a snowboard, in plan view with thereon mounted coupling device, but removed shoe;
FIG. 7 shows the sports system according to FIG. 6 with sports equipment and shoe, cut in side view according to the lines VII-VII in FIG. 6; FIG.
Fig. 8 shows a fifth embodiment of a sports system, wherein the
Sports equipment is designed as a cross country ski or back country ski, cut in side view;
9 shows a sixth embodiment of a partial section of a sports system in which the sports equipment is designed as a cross-country ski or back-country ski and a coupling device fastened thereon and shown in a stylized manner, partially cut away in view;
10 shows a seventh embodiment of a sports system in which the
Sports equipment is designed as a crampon, cut in side view;
11 shows an eighth embodiment of a sports system in which the
Sports equipment is designed as a snowshoe, cut in side view;
12 shows a ninth embodiment of a sports system in which the
Sports equipment is designed as a skating skate cut in side view;
13 shows a further embodiment of a sports system with a sports clothing system and a sports device with a continuous anti-static function;
Fig. 14 shows a first possible embodiment of a sportswear system with antistatic function;
Fig. 15 shows a second possible embodiment of a sportswear system with antistatic function;
Fig. 16 shows a third possible embodiment of a sportswear system with antistatic function;
Fig. 17 shows a fourth possible embodiment of a sportswear system with antistatic function;
Fig. 18 shows a fifth possible embodiment of a sportswear system with antistatic function;
Fig. 19 shows a possibility of connecting a protective helmet to the outer clothing of a sportswear system;
Fig. 20 shows a possible embodiment of a finger garment with antistatic function;
Fig. 21 shows another embodiment of a finger garment with antistatic function;
FIG. 22 shows a first layer structure of the outer clothing with antistatic function, in section; FIG.
FIG. 23 shows a second layer structure of the outer clothing with antistatic function, in section; FIG.
FIG. 24 shows a third layer structure of the outer clothing with antistatic function, in section; FIG.
25 shows a fourth layer structure of the outer clothing with antistatic function, in section;
FIG. 26 shows a fifth layer structure of the outer clothing with antistatic function, in section; FIG.
27 shows a possible embodiment of a sports device with antistatic function, in cross section;
FIG. 28 shows a further embodiment of a sports device with antistatic function; FIG.
FIG. 29 shows another possible embodiment of a sports device with antistatic function; FIG.
FIG. 30 shows a further possible embodiment of a sports device with antistatic function, in cross-section; FIG.
31 shows another embodiment of a sports device with antistatic function;
Fig. 32 shows a further embodiment of a sports device with anti-static function.
By way of introduction, it should be noted that in the differently described embodiments, the same parts are provided with the same reference numerals or the same component names, wherein the disclosures contained in the entire description can be mutatis mutandis to the same parts with the same reference numerals or component names. Also, the location information chosen in the description, such as top, bottom, side, etc. related to the immediately described and illustrated figure and these position information in a change in position mutatis mutandis to transfer to the new location.
Various examples of sports systems 1 are shown and described in FIGS. 1 to 12, wherein it should be mentioned that there are also other areas of application in which a user wears shoes 2 and the shoe or shoes 2 are connected to a sports equipment 3, in particular coupled, or directly provided with it. If the sports equipment 3 comprises several components, this can also be referred to as a sports equipment system. This especially if components are present or used to achieve an antistatic function for the user. The exemplary embodiments described below and given by way of example only for a multiplicity of possibilities can be combined with a sports clothing system 26 described in FIGS. 13 to 26 and / or the different sports equipment 3 according to FIGS. 1 to 12 and FIGS. 27 to 32.
The sports systems 1 are preferably winter sports systems, ball sport systems and systems for other sports leisure activities, such as hiking, mountaineering, climbing, X-Country, Nordic walking and many other sports, all sports systems 1 having an antistatic function. This means that the user of such a system is in electrically conductive contact with the earth even when using the sports equipment 3.
In the first embodiments of the sports system 1 different combination options of the shoe 2 are described with one of the sports equipment 3, in which case there is always an electrical discharge path from the interior of the shoe 2 on the sports equipment 3 towards the earth.
The user of the shoe 2, in particular if it is a shoe intended for winter sports, usually wears a sock or a stocking and thus does not come in direct skin contact with a arranged in the shoe interior 4 electrical discharge element 5. Therefore, in such a case already pay attention in that the sock or stocking allows electrical conduction connection between the skin of the user and the at least one electrical discharge element 5. For this, a wide variety of known electrically conductive systems can be used in the footwear worn directly on the skin.
The electrical discharge element 5 may be e.g. be formed by electrical conductors in the shoe insert, a shoe insert formed of an electrically conductive material or arranged directly on the shoe inner surface electrical conductor. However, it would also be possible if the shoe 2 comprises a shoe shell and an inner shoe accommodated therein, that the inner shoe has, at least in sections, an electrically conductive layer at least in sections on its inner surface facing the shoe interior 4 and / or the inner shoe.
As already known for shoes, in particular also for sports shoes, the electrical discharge element 5 arranged or formed in the shoe interior 4 is in electrically conductive connection with at least one first contact element 7 arranged or formed on an outer side 6 or an outer surface of the shoe 2. The outer side 6 or outer surface of the shoe 2 is understood to be that region on this which delimits the shoe 2 on the side facing away from the shoe interior 4. The one or more first contact elements 7 may be arranged or formed on the outer side 6 or outer surface and / or extending into it. Thus, the first contact element 7 is electrically connected to a male in the shoe 2 foot of a user. This is true even if the shoe 2 comprises a fixed outer shell 8 and an inner boot 9 accommodated in its interior.
All subsequently described components or elements, which serve for the electrically conductive connection between the shoe interior 4 and the sports equipment 3, in particular its contacting surface 14, can be referred to in their entirety as electrical discharge device.
The sports equipment 3 can be formed very different. If this is e.g. board-like, this may e.g. be selected as a winter sports equipment from the group of alpine ski, cross country ski, back country ski, ski jump, touring ski, snowboard.
Regardless, however, the sports equipment 3 can be selected from the group of snowshoes, crampons, skating.
Thus, in FIGS. 1 and 2, a first possible embodiment of the sports system 1 is shown, which is formed in the present embodiment by a ski boot and a alpine ski as a sports device 3.
At the here formed as alpine ski sports equipment 3, a coupling device 10 for holding the shoe 2 in a coupled position on the board-like sports device 3 is arranged. The coupling device 10 is referred to in the present embodiment as a ski binding, which comprises a toe and a heel cheek and optionally plate-like formed intermediate elements. The coupling device 10 can furthermore be connected to the sports device 3 by means of at least one connecting element 11. The two connecting elements 11 shown here in FIG. 2 are indicated schematically as screws and protrude beyond the coupling device 10 in the direction of the sports device 3 so that they protrude into the board-like sports device 3 in a known manner and effect the support.
The arrangement of the coupling device 10 on the board-like sports device 3 takes place in at least one attachment region 12, which is provided at least in the region of the toe and / or heel baking on sports equipment 3 and can also extend continuously over the entire length of the coupling device 10.
Furthermore, it is also provided here that an application element 13 formed from an electrically conductive material is provided or arranged on and / or within the board-type sports equipment 3 at least in the attachment area 12 of the coupling device 10 on the board-shaped sports equipment 3. In the present exemplary embodiment, the application element 13 is arranged, for example, in the region of the upper belt of the ski and can additionally serve to increase the tear-out strength of the connecting elements 11 during the attachment of the coupling device 10. In order to be able to form the connecting element or elements 11 as electrical conductors, these are to be formed from an electrically conductive material.
The here board-like sports device 3 has at its zuwendbaren a terrain of the sports equipment 3 bottom at least one contacting surface 14. In the board-like sports equipment 3, the contacting surface 14 may be formed, for example, by at least one side edge 15 formed of an electrically conductive material. This is usually formed of a metallic material.
As can be seen further from FIG. 2, the discharge element 5 arranged in the shoe interior 4 is connected in an electrically conductive manner to the first contact element 7 arranged on the shoe 2 in an electrically conductive manner. At the coupling device 10, a second contact element 16 can be arranged or provided in the region of the first contact element 7 opposite or directly adjacent thereto. The second contact element 16 may be formed, for example, by a part of a footprint for the shoe 2 on the coupling device 10. The at least second contact element 16 is contacted at a coupled with the shoe 2 position with the first contact element 7 of the shoe 2 and thus electrically connected.
In order to achieve an electrically conductive connection between the second contact element 16 of the coupling device 10 and the contacting surface 14, a conductive connection is also to be made here. So here is the second contact element 16 of the coupling device 10 electrically conductively connected to the application element 13 in connection. This can for example be realized in that at least individual components of the coupling device 10 itself are formed of an electrically conductive material. The second contact element 16 is further electrically connected to these electrically conductive components. The electrically conductive components of the coupling device 10 extend at least up to the one or more connecting elements 11, which are electrically conductively connected to the application element 13 in the present embodiment. The fact that, as already described above, the application element 13 in turn is electrically conductively connected to the contacting surface 14, so a continuous electrical line connection between the arranged in shoe interior 4 discharge element 5 and the contacting surface 14, which is here designed as a side edge 15, created ,
Irrespective of or in addition to this, in the case of board-type sports equipment 3, the contacting surface 14 could also be formed by at least one partial section of a tread covering 17 formed from an electrically conductive material. Since running surface coverings 17 are mostly made of a plastic material, this material may itself have electrically conductive properties and / or the material may be mixed with electrically conductive particles. In order to provide an electrically conductive connection between the tread surface 17 formed as contacting surface 14 and the application element 13, a line connection is shown schematically simplified in dotted lines. The electrical connection between the contact surfaces 14 formed as side edges 15 and the application element 13 is indicated on both sides of the side cheeks of the ski as a schematic line connection. It should be noted that the electrical line connection can be formed by cables, special adhesives, insert parts or the like, which connect the corresponding component electrically conductively.
Regardless of this, it would also be possible to dispense with the arrangement or provision of the application element 13 in the attachment region 12 and one or more of the contacting surfaces 14 of the board-shaped sports device 3 by means of a cable shown in simplified dash-dotted lines directly with the second contact element 16 of the coupling device 10 to connect electrically conductive. An additional contacting of the formed as a side edge 15 contacting surface 14 would also be possible. Furthermore, it would also be possible independently of this, however, to electrically connect the contacting surface 14 designed as a side edge 15 directly to the second contact element 16 of the coupling device 10. This could also be done with a cable.
In the present embodiment, the first contact element 7 is arranged or formed on the shoe 2 in the sole region thereof. This is preferably done in the front sole portion, usually below the ball area.
FIGS. 3 and 4 show a further and optionally independent second embodiment of the sports system 1, again using the same reference numerals or component designations for the same parts as in the preceding FIGS. 1 and 2. In order to avoid unnecessary repetition, reference is made to the detailed description in the preceding Figs. 1 and 2 or reference.
In this embodiment shown and described here, the sports equipment 3 is designed as a touring ski with a designed as a touring binding coupling device 10. The shoe 2 is e.g. designed as a so-called touring boot, which depending on the binding system itself may have attachment parts or inserts in its shell 8, which can serve for direct coupling with the coupling device 10.
This sports system 1 is fundamentally constructed very similar to that described above in detail in FIGS. 1 and 2. Thus, the coupling device 10 is secured thereto in the designated attachment area 12 on the sports equipment 3 by means of the connecting elements 11. In the form of a board-like sports device 3, the application element 13 is again arranged or provided in the region of the upper belt. The contacting surface or contacting surfaces 14 may be formed by the side edge 15 and / or the tread surface 17. The electrically conductive connection between the connecting elements 11 optionally with the interposition of the application element 13 to the contacting surfaces 14 can be carried out analogously, as has already been explained in detail previously.
In contrast to the previously described embodiment and the arrangement of the first contact element 7 on the shoe 2, it is provided here that the first contact element 7 is not formed in the sole region of the shell 8 but by at least one coupling element 18 arranged or formed on the shoe 2. These coupling elements 18 may be formed, for example, each by a so-called metal insert, which are integrated in the manufacturing process of the shell 8 in this and recorded and thus held stationary. The coupling elements 18 each have cylindrical receiving openings into which coupling pins 19 of the coupling device 10 engage in the position coupled to the shoe 2.
In the shoe 2, a first electrically conductive connection is thus formed between the discharge element 5 and the coupling elements 18.
Since the one or more coupling pins 19 and at least individual other components of the coupling device 10 are formed from electrically conductive materials, in turn, a conductive connection between the arranged in the shoe interior 4 discharge element 5 can be created towards the contacting surface 14. When the position of the shoe 2 is engaged with the coupling device 10, the conductive connection to the contacting surfaces 14 is created via parts of the coupling device 10, the connecting elements 11 and optionally with the interposition of the application element 13.
Furthermore, it would also be possible to arrange or provide at least one additional first contact element 7 in the sole region of the shoe 2, in order to achieve a grounding of the user when the user does not use the sports device 3.
Furthermore, it is shown here schematically simplified that in the area of the tread 17 a schifell 20 connectable to the sports equipment 3 can be arranged, which, however, is still shown distanced from the tread surface 17 and is detachably secured in a known manner. The schifel 20 applied to the tread surface 17 is used in the use of touring skis in the so-called ascent mode to increase the retention of the sports equipment 3 on the terrain formed by the snow.
Thus, there is the possibility that trained as a touring ski sports device 3 with its side edges 15 and / or tread surface 17 at least one of the contacting surfaces 14 is formed. In order to achieve additional contact with the terrain via the skip 20 covering the tread surface 17 at least in regions, the skiff 20 may be electrically formed at least in sections and / or provided with an electrically conductive fur pile. Thus, a large-area contact surface for the conductive connection between the earth and the foot of the user can be created during the ascent movement. In order to provide an even better electrical line connection, the electrically conductive section of the skiff 20 and / or the electrically conductive Fellflor be electrically conductively connected to at least one of the contacting surfaces 14.
Regardless, it would also be possible that the electrically conductive portion of the skiff 20 and / or the electrically conductive Fellflor is electrically connected directly to the application element 13.
FIG. 5 shows a further and optionally independent third embodiment of the sports system 1, again using the same reference numerals or component designations for the same parts as in the preceding FIGS. 1 to 4. To avoid unnecessary repetition, reference is made to the detailed description in the preceding Figs. 1 to 4 or reference.
In this embodiment shown here, the sports equipment 3 of the sports system 1 is formed by a ski jump. Accordingly, the shoe 2 is formed, which in turn can be coupled via a coupling device 10, not shown, in turn with the sports equipment 3 for its use.
In the shoe inner space 4, the discharge element 5 is in turn arranged for contacting with the user, which is electrically conductively connected to the first contact element 7 arranged here in the sole region of the shoe 2. This is simply indicated by dashes. In the region of the coupling device 10 and the first contact element 7 directly opposite the second contact element 16 is provided, which is in the present embodiment directly with the connecting elements 11 in electrically conductive contact.
Within the sports device 3, the application element 13 may be arranged, with which by the attachment of the coupling device 10, the second contact element 16 is in electrically conductive contact via the connecting elements 11.
In the case of the sports device 3 embodied here as a ski, the running surface covering 17 is provided as the contacting surface 14, this contacting surface 14 being connected in an electrically conductive manner to the application element 13.
But it would also be possible to provide a receiving opening 21 in the region of the running surface covering 17, which serves to receive an insert part 22. Thus, the indicated here in dashed lines insert 22 may form the contacting surface 14 as an electrically conductive element and may in turn be electrically conductively connected to the application element 13 and / or the connecting elements 11 electrically conductive. The insert 22 and the insert member may also be formed by the Schifell 20 or provided therewith. These different embodiments of the skiff 20, the insert 22 and their electrically conductive properties can also be found in other board-like sports equipment application or used there.
Furthermore, a separate, but not shown, coupling element 18 could be arranged or provided on the shoe 2, which is connectable to a part of the coupling device 10 in the coupling position. The coupling element 18 could e.g. be arranged in the toe or ball area on the shoe 2 and be formed itself from an electrically conductive material.
FIGS. 6 and 7 show a further and, if appropriate, separate fourth embodiment of the sports system 1, wherein the same reference numerals or component designations are used again for the same parts as in the preceding FIGS. 1 to 5. To avoid unnecessary repetition, reference is made to the detailed description in the preceding Figs. 1 to 5 or reference.
This possible here further embodiment of the sports system 1 comprises as sports equipment 3, a so-called snowboard, which may be formed both in one-piece and split shape. Since this board-shaped sports device 3 usually also has side edges 15, these in turn can form the contacting surfaces 14. In such sports equipment 3, it is common for at least one fastening element 23 to be arranged or formed in the board-shaped sports device 3 in its fastening region 12. Since such fastening elements 23 are usually sleeve-shaped components with an internal thread and these can be formed from an electrically conductive material, a direct electrically conductive connection with the contacting surface 14, in particular the side edge 15 and / or the tread surface 17 is possible.
The one or more connecting elements 11 serve to connect the coupling device 10 with the sports device 3 and are connected to the respective fastening element 23, in particular screwed therein. Thus, in this present exemplary embodiment, the connecting element 11 can be contacted directly with a coupled to the shoe 2 position with the first contact element 7 of the shoe 2. As a result, the second contact element 16 of the coupling device 10 could be omitted.
In addition, or independently of this, it would also be possible to provide the previously described second contact element 16 on the coupling device 10 in order to achieve a better contacting with the first contact element 7 of the shoe 2.
FIG. 8 shows a further and, if appropriate, independent fifth embodiment of the sports system 1, again using the same reference numerals or component designations for the same parts as in the preceding FIGS. 1 to 7. In order to avoid unnecessary repetition, reference is made to the detailed description in the preceding Figs. 1 to 7 or reference.
The further possible embodiment of the sports system 1 comprises as sports equipment 3 so-called cross-country skis or back-country skis and as a shoe 2 a cross-country boot or a sports shoe designed for this purpose. About the coupling device 10 is for the use of the sports equipment 3, the shoe 2 to connect to this via known binding systems. In the shoe interior 4, in turn, the at least one discharge element 5 is arranged. Again, in the region of the sole of the shoe 2, the first contact element 7 could be arranged, which is electrically contacted at a coupled with the sports equipment 3 position of the shoe 2 with the second contact element 16 in the region of the coupling device 10.
As already described above, in the sports device 3, in turn, the application element 13 can be arranged. The second contact element 16 of the coupling device 10 is connected via the or the connecting elements 11 with the application element 13 in electrically conductive connection. Since in the designed as a cross-country ski sports device 3 usually no side edge 15 is present, at least a portion of the tread surface 17 is to be formed as a contacting surface 14, which in turn is in electrically conductive connection with the application element 13.
Additionally or independently of this, it would also be possible to provide a receiving opening 21 in the area of the running surface covering 17, as has already been described previously in FIG. 5 in the sports device 3 designed as ski jumping ski. This version is shown in dotted lines. In this receiving opening 21, for example, in turn, the schifel 20 and / or the insert 22 may be added, which then forms the contacting surface 14. A correspondingly electrically conductive connection between the skip 20 and / or the insert part 22 and the application element 13 towards the connecting elements 11 is again provided in a corresponding manner.
FIG. 9 shows a further and optionally independent sixth embodiment of the sports system 1, again using the same reference numerals or component designations for the same parts as in the preceding FIGS. 1 to 8. To avoid unnecessary repetition, reference is made to the detailed description in the preceding Figs. 1 to 8 or reference.
Also in this embodiment shown here is shown as a sports device 3 a cross country ski or back country ski, in which the shoe 2 via the coupling device 10 with the sports equipment 3 in the coupled and contacted position with the arranged in the region of the tread surface 17 or trained Contacting surface 14 is shown.
In the shoe interior 4, in turn, the discharge element 5 is arranged, which is in electrically conductive contact with the coupling element 18 arranged on the shoe 2. Thus, again, the coupling element 18 forms the first contact element 7, which may be formed as a pin or pin-shaped element. In order to enable on the one hand a stable attachment or coupling of the shoe 2 to the coupling device 10 and on the other hand, a certain pivotal movement of the coupling element 18 in the coupled position in the holding receptacle of the coupling device 10, in this embodiment, the coupling element 18 in the vertical direction with respect to the longitudinal extent of Sports equipment 3 and preferably in parallel orientation. "" I / 'ΊI ϊ / -Ίο λΙλρ I οι fl fl N N / h k k Ί k k k k k k k k k k k k k k k k k k k k k k k k k
To couple the shoe 2 with the coupling device 10, the coupling element 18 is to be inserted in a corresponding, known and schematically illustrated holding receptacle of the coupling device 10 and held there locked. In this case, the second contact element 16 may be formed by a part of the coupling device 10, in particular its holding receptacle. Since the coupling element 18 is preferably formed of an electrically conductive material, an electrically conductive connection between the foot of the user starting from the discharge element 5 via the contact elements 7, 16 can be easily made to the contacting surface 14.
As already described above in FIGS. 3 and 4, parts of the coupling device 10 can also be formed from an electrically conductive material or material. As a result, an electrically conductive connection to the tread surface 17 can subsequently be produced via the one or more connecting elements 11, optionally with the interposition of the application element 13. Again, it would be possible again to provide the receiving opening 21 in the area of the running surface covering 17 in order to arrange the slip 20 and / or the insertion part 22 therein and thus to contact the connecting elements 11.
FIG. 10 shows a further and, if appropriate, separate seventh embodiment of the sports system 1, again using the same reference numerals or component designations for the same parts as in the preceding FIGS. 1 to 9. To avoid unnecessary repetition, reference is made to the detailed description in the preceding Figs. 1 to 9 or reference.
In the sports system 1 shown here, a so-called crampon is shown as sports equipment 3, which itself is usually formed from an electrically conductive metallic material. The shoe 2 is a mountaineering boot or a touring boot, but also a touring boot or ski boot can be used.
In the shoe interior 4, in turn, the discharge element 5 is provided, wherein in the region of the sole of the shoe 2 or the first contact elements 7 is arranged or formed. The first contact elements 7 are electrically conductively connected to the discharge element 5 in contact.
Since, as already described above, the sports equipment 3 itself is formed of an electrically conductive material, is only for contacting the first contact elements 7 with the sports equipment 3, for example, a web or the like, to provide. However, it would also be possible to provide the sports equipment 3 with its own, but not shown, second contact element 16, which ensures a more independent contacting with the sports equipment 3.
When using the shoe 2 with the sports device 3 arranged thereon, in turn, the grounding of the user takes place starting from the shoe interior 4 towards the sports equipment 3 and the contacting surface 14 formed by the shoe itself.
FIG. 11 shows a further and optionally independent eighth embodiment of the sports system 1, again using the same reference numerals or component designations for the same parts as in the preceding FIGS. 1 to 10. To avoid unnecessary repetition, reference is made to the detailed description in the preceding Figs. 1 to 10 or reference.
The sports equipment 3 shown here is designed as a snowshoe. As the shoe 2, the most widely different shoes can be used, which again in the shoe interior 4, the discharge element 5 is provided and is connected via an electrical line connection with the arranged in the sole region first contact elements 7 in electrically conductive connection.
Most snowshoes also have claw-like and mostly formed of an electrically conductive material components, which can be referred to in the broadest sense as crampons. These are used to prevent slipping on the surface with snowshoes on a harder snow cover. Thus, once again, as has already been described previously in FIG. 10, a grounding of the user from the discharge element 5 via the at least first contact element 7 towards the claw-like component of the snowshoe as a sports device 3 is possible. The contacting surface 14 thus form at least the claw-shaped projections or the entire claw-like component, as is also the case with a crampon or the crampon.
Regardless, it would also be possible to form an outer frame part 24 of the sports device 3 made of an electrically conductive material. In the area of a shoe support 25 on the sports equipment 3, at least one second contact element 16 could be arranged or provided opposite to the one or more first contact elements 7. This can be electrically conductively connected to the outer frame part 24, for example via a line or a cable. This embodiment is indicated here in the left portion of Fig. 11 in dashed lines. In this embodiment, the outer frame part 24 would then at least partially form the contacting surface 14.
In order to achieve even better contact with the terrain, a combination of the two previously described embodiments for forming the mutually distanced contacting surfaces 14 would be possible.
FIG. 12 shows a further and optionally independent ninth embodiment of the sports system 1, again using the same reference numerals or component designations for the same parts as in the preceding FIGS. 1 to 11. To avoid unnecessary repetition, reference is made to the detailed description in the preceding Figs. 1 to 11 or reference.
In this embodiment shown here, the sports equipment 3 is designed as skating and can for example be attached directly to the shoe 2 and so form a related assembly as a sports system 1. But it would also be possible to connect the skating over a coupling device 10, not shown, with the underside of the shoe 2. This could be arranged on the shoe 2 depending on the application skating skids different and thus connected for sports.
Again, the Ableitungselement 5 is again arranged or provided in the shoe inner space 4 and is in electrically conductive contact with the arranged in the sole first contact element 7. Since the trained here as a skating exercise device 3 itself is formed of an electrically conductive material, could the additional arrangement of the second contact element 16 are dispensed with and the first contact element 7 can be contacted directly with the sports device 3 in an electrically conductive manner.
If an additional coupling device 10 is provided, in turn, as already described above, at least one second contact element 16 may be provided in the region of the coupling device 10, which may be connected to the runner-shaped sports device 3 with the interposition of connecting elements 11 and thus contacted in an electrically conductive manner.
The sports system 1 with a corresponding design or execution of the anti-static function also aims to provide an overall system in which not only an electrical discharge path from the shoe 2, optionally with the interposition of the coupling device 10, to the contacting surface 14 of the sports device 3 is formed is also to create a sportswear system 26, which also has a consistently formed electrical discharge path. Thus, depending on the individual items of clothing used, an electrical discharge of the electrostatic charge of the body of the user and / or clothing via the electrical discharge path of the sportswear system 26 to his shoe 2 and subsequently to the contacting surface 14 of the sports device 3 can be achieved. The following are some possible examples of a variety of conceivable sportswear systems 26 are shown and described. The shoe 2 is considered as part of the sportswear system 26 in the various embodiments.
In this case, a sole use of the sportswear system 26 in the mutually different embodiments is possible, wherein the electrical contact takes place directly with the terrain (earth) through the at least one first contact element 7 of the shoe 2.
Regardless of or in addition to the common use of the sportswear system 26 with one of the sports equipment 3 is possible, in which case the electrical contact with the ground (earth) by at least one arranged on the sports equipment 3 or trained contacting surface 14 takes place.
FIG. 13 shows a possible embodiment of the sports system 1, which comprises the sportswear system 26 and the sports equipment 3. The sports equipment 3 is shown here only by way of example and formed by ski in the present embodiment. The shoe interior 4, which serves to receive the foot of a user, is electrically conductively connected in an electrically conductive manner to the at least one first contact element 7 arranged or formed on the outside 6 of the shoe 2. When the position of the shoe 2 is coupled via the coupling device 10, the first contact element 7 comes into electrically conductive contact with the second contact element 16. At least one of the above-described contacting surfaces 14 is arranged or formed on the sports device 3.
The entire sportswear system 26 preferably also has a continuous antistatic function in order to be able to derive electrostatic charges which occur in this way via a continuous discharge path to the terrain or the earth. The sportswear system 26 comprises in this embodiment completely illustrated here an outer garment 27, the or the shoes 2, a protective helmet 28, optionally a protective goggles 29 and finger clothing 30. It should be noted that the aforementioned components or components of the sportswear system 26 below different sports are described in more detail. Furthermore, the sportswear system 26 may also include different footwear pieces 31, which are not shown here in detail but shown in one of the following figures and described. These are socks, stockings or the like understood.
In the present embodiment, the outer garment 27 is formed of an upper body garment 32 and a leg garment 33. The
Outerwear is mainly worn on the torso, arms and legs.
The outerwear 27 has at least in sections at least one electrically conductive layer 34, which is indicated schematically by a dashed crosshatch. The at least one electrically conductive layer 34 is further electrically conductively connected via a discharge path shown in a simplified manner with the contact element 7 arranged or formed on the shoe 2. Also shown here shoe 2 and the shoes 2 have on the outside 6 at least one arranged or trained thereon, the first contact element 7, which is electrically conductively connected to the male foot 2 in the shoe.
If the outer garment 27, as in the present exemplary embodiment, is formed by the upper body garment 32 and the leg garment 33, both garments 32, 33 have the at least one electrically conductive layer 34 at least in sections. Furthermore, then the upper body garment 32 with the leg garment 33, in particular each of its electrically conductive layers 34 are electrically conductively connected to each other, as can be done with a direction indicated by a line connecting line 35. Thus, a direct electrical line connection is provided as a drainage path from the upper body garment 32 to the leg garment 33, such as the pants.
Starting from the outer garment 27, in particular the leg garment 33, the electrical discharge path can be formed towards the first contact element 7 of the shoe 2.
In the left region of the leg clothing piece 33, a possible embodiment is shown in which the electrically conductive connection takes place from the outer garment 27 via the inner shoe 9, which is accommodated in the shoe 2 and is at least partially electrically conductive, to the first contact element 7. For this purpose, again, the line connection via the connecting line 35 can take place. It should be noted that the connecting line 35 can be arranged or formed between the most diverse items of clothing.
In the area of the stump of the leg garment 33 shown on the right, a further possibility of connecting the drainage path from the outer garment 27 to the first contact element 7 is shown. For this purpose, the connecting line 35, starting from the outer clothing 27, in particular its conductive layer 34, extends to the discharge element 4 arranged in the shoe interior 5. In the present embodiment, the discharge element 5 may be formed, for example, by the insole. The insole is also electrically conductive and is in turn connected to the first contact element 7 of the shoe 2 in electrical line connection.
As another garment of the sportswear system 26, this may also include the finger garments 30. Thus, the finger garments 30 may at least partially comprise at least one electrically conductive layer 36 or be formed by this electrically conductive layer 36, as indicated in a subsection. The electrically conductive layer 36 of the finger garment 30 can in turn form the discharge path towards the outer garment 27 with a variety of trained cable connections.
In the left-hand region of the sleeve of the upper garment 32, it is shown that the at least one electrically conductive layer 36 of the finger garment 30 is connected in an electrically conductive manner to the outer garment 27, in particular to its electrically conductive layer 34, via the connecting line 35.
If the finger garment 30 itself formed by the electrically conductive layer 36, can be dispensed with the separate arrangement of the connecting line 35, in which case the electrically conductive connection to form the Ableitungspfades an electrically conductive sleeve 37 toward the electrically conductive layer 34 of the outer clothing 27 takes place. For this purpose, the sleeve end 37 is provided on the inside of the sleeve with the electrically conductive layer 34 formed or formed by this. The electrically conductive layer 34 of the sleeve finish 37 in turn is in electrically conductive connection with the layer 34 of the outer garment 27, in particular of the upper body garment 33rd
As previously described, the sportswear system 26 may also include the protective helmet 28. In order to provide an electrically conductive connection to the formation of the discharge path, the protective helmet 28 may be provided on its outer surface 38 at least in sections with an electrically conductive layer 39 or be equipped with it. In the right shoulder region of the outer garment 27 is shown in simplified form that the electrically conductive layer 39 of the protective helmet 28 via at least one connecting line 35 is electrically conductively connected to the outer garment 27, in particular its electrically conductive layer 34.
The protective goggles 29 may comprise a spectacle strap 40 or eyeglass temple. The eyeglass band 40 or the eyeglass temple may also be designed to be electrically conductive and are in proper use with the arranged on the outer surface 38 of the protective helmet 28 or formed electrically conductive layer 39 in electrically conductive connection. This makes it possible to produce from the protective goggles 29, in particular their spectacle lenses, on the spectacle belt 40 or the temple a continuous electrically conductive connection to form the Ableitungspfades up to the electrically conductive first contact element 7 of the shoe 2.
Two possible embodiments of the outer garment 27 for forming the sportswear system 26 are shown in FIGS. 14 and 15, wherein the same reference numerals or component designations are again used for the same parts as in the preceding FIGS. 1 to 13. To avoid unnecessary repetition, reference is made to the detailed description in the preceding Figs. 1 to 13 or reference. The only difference is that in FIG. 14 a two-part and in FIG. 15 a one-part construction of the outer garment 27 is shown and described.
The outer garment 27 shown in both FIGS. 14 and 15 has at least in turn the electrically conductive layer 34 described above or is formed by it. In the case of a two-part design of the outer garment 27, namely the own upper body garment 32 and the own leg garment 33, the electrical connection between these two garments 32, 33 through the connecting line 35. It should be noted that the connecting line 35 only schematically is indicated and can be realized by any arbitrarily formed embodiment. For Fierstellung the connecting line 35, in particular their contact with the upper body garment 32 and the leg garment 33 arranged electrically conductive layers 34 can be found corresponding known from the prior art electrical plug and / or coupling connections use.
In the area of the right shoulder of the outer garment 27, in particular of the upper body garment 32, it is shown that, if the protective helmet 28 is to be optionally used with the safety glasses 29 for sports practice, an electrically conductive connecting device 41 designed for the production of the electric line connection is arranged or can be trained. The connecting device 41 may be formed, for example, by a plug connection or the like, with which the connecting cable 35 connected to the protective helmet 28 can be electrically conductively connected, in particular coupled.
In the area of the leg ending, the connecting line 35 for connection to the shoe 2 and / or the inner shoe 9 is also simplified.
Again, an appropriately designed electrical connection device 41 may be arranged or formed again. The same also applies to the mutual connection between the upper body garment 32 and the leg garment 33. The electrically conductive layer 34 is also shown here by a simplified cross-hatching indicated.
In contrast to the embodiment of FIG. 14, in FIG. 15 the outer garment 27 is formed in one piece, that is to say in the form of an overalls or the like. Thus, the separate electrical connection line 35 between the upper body garment 32 and the leg garment 33 can be omitted. This requires that the electrically conductive layer 34 is preferably formed over the entire surface of the outer garment 27. In the area of the leg-leg garment 33 of the outer garment 27 shown on the right, the electrical connecting device 41 with the connecting line 35 connected thereto for the further electrically conductive connection toward the first contact element 7 is still simplified.
The outerwear 27 shown here in both FIGS. 14 and 15 can be used, for example, for alpine skiing, touring, for expeditions or the like.
FIG. 16 shows a further possible embodiment of the outer garment 27 for forming the sportswear system 26, again using the same reference numerals or component designations for the same parts as in the preceding FIGS. 1 to 15. To avoid unnecessary repetition, reference is made to the detailed description in the preceding Figs. 1 to 15 or reference.
The embodiment of the outer garment 27 shown here is similar in construction to that described previously in FIG. 15. The outerwear 27 is formed in one piece and has the at least one conductive layer 34. This can in turn extend over the entire outer garment 27 over its entire surface. It is advantageous if the electrically conductive layer 34 itself forms the outer clothing 27.
In the region of the shoulder shown on the right, the previously described connecting device 41 is again arranged or formed, wherein it can be connected to the protective helmet 28 and / or the safety goggles 29 via the connecting line 35, if necessary.
This outerwear 27 shown here can be used for example for alpine racing, touring races and for bobsleigh and tobogganing or ähnli che sports. Furthermore, it is shown here that 37 additional straps, in particular for the thumb are arranged or formed in the sleeve closure. As a result, a better fixation of the sleeve on the arm, in particular the thumb of the user can be achieved.
Furthermore, it is shown here even in the region of the leg shown on the right, that in this case as well the connecting device 41 with the connectable connecting line 35 can be arranged or provided. Thus, via the layer 34, a corresponding electrical line connection can be made to the first contact element 7 of the shoe 2.
17 and 18 show two further possible embodiments of the sportswear system 26 comprising the outer garment 27, footwear 31 and shoes 2, again using the same reference numerals or component designations for the same parts as in the preceding FIGS. 1 to 16 , To avoid unnecessary repetition, reference is made to the detailed description in the preceding Figs. 1 to 16 or reference.
The embodiments of the outerwear 27 shown here each have a two-part form and comprise the upper body garment 32 and the leg garment 33. The two garments 32 and 33 forming the outer garment 27 are themselves formed by the electrically conductive layer 34. Thus, a contact in the form of the connecting line 35 between the upper body garment 32 and the leg garment 33 can be omitted. The footwear pieces 31 may be formed as a sock or neck. This material for forming the foot clothing pieces 31 may itself be formed in an electrically conductive manner by a further electrically conductive layer 42. Thus, a direct contacting of the foot-garment 31 with the arranged in the shoe interior 4 electrical discharge element 5 can be made.
In the embodiment shown in Fig. 17, the leg garment 33 is formed as pants with long legs. This embodiment may also be referred to as "longpant".
In contrast, in Fig. 18, the leg garment 33 is formed as pants with short trouser stubs. This version can be referred to in sports as so-called "short pants".
Since, according to FIG. 17, both the leg garment 33 and the foot garment 31 itself are electrically conductive, an arrangement of connecting lines 35 can also be dispensed with here.
In contrast, as shown in Fig. 18, between the short trouser stubs of the leg garment 33 and the foot garments 31, one connecting line 35 is indicated by double-dashed lines. This may be, for example, arranged directly on the body of the user, in particular glued, electrical connection lines. These then ensure that a continuous discharge path can be established starting from the upper body garment 32 towards the first contact element 7 of the shoe 2.
Furthermore, in the area of the shoes 2 in the two FIGS. 17 and 18, the shoe 2 illustrated on the right is respectively formed with spikes or stubbles, which protrude respectively over the sole of the shoe 2. These spikes or stubble make in training the first contact element 7 or form this.
In the shoes 2 shown on the left in both FIGS. 17 and 18, no spikes or stubble are provided, but at least a partial section of the sole of the shoe 2 is designed to be electrically conductive. This at least electrically conductive portion of the sole forms the first contact element 7.
Thus, even with no additional use of a sports device 3 always a continuous electrically conductive discharge path can be formed.
The sportswear system 26 shown in Figs. 17 and 18 can be used for a variety of ball sports, such as football, rugby, football, golf, cricket or baseball. This can also be used for tennis, badminton, squash, indoor football, handball, basketball or the like. However, it can be applied to other, not explicitly mentioned sports.
FIG. 19 shows a further possible embodiment of the outer garment 27 for forming the sportswear system 26, again using the same reference numerals or component designations for the same parts as in the preceding FIGS. 1 to 18. In order to avoid unnecessary repetition, reference is made to the detailed description in the preceding Figs. 1 to 18 or reference.
This illustrated embodiment of the sports system 1, in particular its sportswear system 26, shows a part of the outer garment 27 and a part of the protective helmet 28, which has been shown in section and enlarged.
The outerwear 27 may be formed, as has already been shown and described above in FIGS. 13 to 16. In this case, every possible combination with the differently configured outer clothing 27 is possible.
The protective helmet 28 may have a different structure, wherein in this embodiment shown here by an outer helmet shell 43, optionally a layer of a damping material 44, and a head receiving space 45 facing electrically conductive layer 46 may be formed. The electrically conductive layer 46 may be connected to the damping material 44. By arranging the electrically conductive layers 39 and 46 on both sides, an electrostatic charge from both the outer surface 38 and the region of the head receiving space 45 via the electrical connection line 35, optionally inter mediate circuit of the electrical connection device 41 and the outer clothing 27, in particular its conductive Layer 34 are derived.
The electrical contact of the protective helmet 28 and optionally arranged thereon goggles 29 with the electrically conductive spectacle strap 40 can be used, for example, for alpine skiing and touring, snowboarding, expeditions, bobsleigh, skeleton and tobogganing.
The electrically conductive layer 39 described above can be formed as required from a wide variety of materials. Thus, it would also be possible to form the layer 39 from an electrically conductive lacquer and / or a plastic layer with electrically conductive properties. The head receiving space 45 facing electrically conductive layer 46 may be formed of a textile, sheet-formed component. The textile component can also be formed, for example, by a so-called spacer structure, in particular a spacer fabric. Furthermore, this could also be formed by single-layer and / or multi-layer fabric, knitted fabric, knitted fabrics, nonwovens or the like.
FIGS. 20 and 21 show two further possible embodiments of the sportswear system 26, namely different embodiments of finger clothing pieces 30, again using the same reference numerals or component designations for the same parts as in the preceding FIGS. 1 to 19. To avoid unnecessary repetition, reference is made to the detailed description in the preceding Figs. 1 to 19 or reference. The finger garment 30 may be formed by a flat-shoe, mittens or the like.
As previously described in FIG. 13, the finger garment 30 itself may be formed by the electrically conductive layer 36. Therefore, a detailed illustration of the finger garment 30 for this embodiment will be omitted. It is essential in this embodiment that both the inner surface and the outer surface of the finger garment 30 by common has the electrically conductive layer 36 and / or is formed by them. If, for example, two continuous electrically conductive layers 36 are provided and arranged between them an insulating layer, the two electrically conductive layers 36, which are arranged on the inner surface and the outer surfaces or form, to contact each other.
The finger garment 30 shown in FIG. 20 may also be part of the sportswear system 26 for forming the sports system 1.
In contrast to the previously described embodiment of the finger piece of clothing 30, it is provided in this embodiment shown here that only partially the electrically conductive layers 36 are arranged or formed on the side of the finger piece of clothing 30 facing the user's flat surface. In this case, the electrically conductive layers 36 arranged distributed over the surface can be arranged or formed, for example, only on the finger inner sides and / or in the region of the flat surface. In the hinge region of the finger garment 30, it is further shown that the above-described electrical connection device 41 can be arranged. Starting from this, a corresponding electrical discharge path to the outer garment 27, in particular its electrically conductive layer 34, can be produced via the connecting line 35.
The distributed over the surface electrically conductive layers 36 are electrically conductively connected in the present embodiment via own Kontaktierungsleitungen 47 with the connecting device 41. The arrangement and design of the Kontaktierungsleitungen 47 can be arbitrary, but preferably an arrangement within the material for forming the finger-garments 30 is selected.
In the embodiment of the finger garment 30 shown in FIG. 21, only the type of contacting of the electrically conductive layers 36 arranged distributed in the area of the flat surface to the garment of the outer garment 27, in particular the upper garment 32, to which in FIG Fig. 20 described embodiment selected differently. In the embodiment of FIG. 21, the wrist portion of the finger garment 30 is also provided with or formed by the electrically conductive layer 36 in the region of its outer surface. The electrically conductive layers 36 arranged in the area of the palm and / or the fingers are again in electrically conductive connection via the contacting lines 47 with the electrically conductive layer 36 arranged in the wrist area. In this case, it is possible to electrically connect the individual contacting lines 47 directly to the electrically conductive layer 36 arranged or formed in the wrist area. However, it would also be possible to provide the electrically conductive connection device 41, which is connected electrically conductively on the one hand to the contacting lines 47 and on the other hand to the electrically conductive layer 36 arranged in the wrist area. The connecting device 41 is shown simplified in dotted lines.
With the finger garment 30 shown in FIG. 21, the contacting with the garment of the outer garment 27, in particular the upper garment 32, can take place as shown in FIG. 13 in the region of the sleeve shown on the right.
22 to 26 different configurations and arrangements of the electrically conductive layer 34 for forming garments of the outer garment 27, in particular of upper body garments 32 and / or leg clothing pieces 33, shown, again for like parts, the same reference numerals or Component names as used in the preceding Figs. 1 to 21. To avoid unnecessary repetition, reference is made to the detailed description in the preceding Figs. 1 to 21 or reference.
In the embodiment shown in FIG. 22, the material for forming the garment of the outer garment 27 itself is formed by the electrically conductive layer 34. Thus, both from the user and thus the inside of the material, as well as from the outside of the material, a continuous electrical discharge path can be created. In this
Embodiment, the electrically conductive layer 34 may also be referred to as an upper material.
In the exemplary embodiment illustrated in FIG. 23, the at least one electrically conductive layer 34 of the outer clothing 27 is underlaid, at least in sections, by an inner material 48 on an inner side facing the user. The material of the inner material 48 can be chosen arbitrarily, wherein this has no electrically conductive properties. Also in this embodiment shown here, the electrically conductive layer 34 forms the upper of the garment of the outer garment 27th
In the embodiment shown in Fig. 24, the at least one electrically conductive layer 34 of the outer garment 27 does not form the upper of the garment. Thus, the at least one electrically conductive layer 34 of the outer garment 27 is covered by an outer layer 49. If appropriate, the at least one electrically conductive layer 34 may also be underlaid, at least in sections, by the inner material 48 described above, on the inner side facing away from the outer layer 49.
The embodiments of the layer structure for forming garments of outerwear 27 described in FIGS. 22 to 24 are mostly used in alpine racing, bobsleigh, skeleton sports, tobogganing and optionally in cross-country skiing.
In the embodiment shown in Figs. 25 and 26, a multilayer construction for forming garments of the outer garment 27, particularly upper body garments 32 and / or leg garments 33, is shown. Due to the multi-layer or multi-layer structure better insulation and / or damping properties can be achieved especially in winter sports.
In the embodiment shown in FIG. 25, the outer layer and thus the upper material is formed by the electrically conductive layer 34. The innermost layer facing the body again forms the inner material 48. On the side of the upper material formed by the electrically conductive layer 34 facing the inner material 48, one, but preferably also a plurality of intermediate layers 50 can be arranged. These can be different "blocker layers". These may, for example, provide protection to the user when exposed to air flow and / or moisture.
In addition, it is additionally shown here that at least one insulating layer 51 can be arranged on the side of the inner material 48 facing the electrically conductive layer 34. Thus, a layer structure starting from the upper material, namely the electrically conductive layer 34, the at least one intermediate layer 50, the insulating layer 51 and the inner material 48 is created.
In the exemplary embodiment shown in FIG. 26, it is shown that the layer construction for forming garments of the outer garment 27 is selected to be the same, as described above in FIG. 25. The previously forming the upper electrically conductive layer 34 is here additionally covered by the outer layer 49, which forms the upper material in the present embodiment. The entire layer structure thus comprises starting from the outer material toward the inner side, the outer layer 49, the electrically conductive layer 34, at least one intermediate layer 50, the insulating layer 51 and the inner material 48 as the innermost layer or layer. This can also be referred to as feed position.
FIGS. 27 to 32 show possible embodiments of different sports equipment 3 for forming the sports system 1, with a combined use with the sports clothing system 26 also being advantageous here. Again, the same reference numerals or component names are used as in the preceding Figs. 1 to 26 for the same parts. To avoid unnecessary repetition, reference is made to the detailed description in the preceding Figs. 1 to 26 or reference. These subsequent further sports equipment 3 also have an antistatic function and are therefore likewise equipped with an electrically conductive discharge path. This can be a grounding can be achieved.
In order to ground a user during the use of various sports equipment 3 and thus to create an electrically conductive discharge path, other sports equipment 3 are shown and described in addition to the already previously shown in FIGS. 1 to 12 sports equipment 3. Since in these sports equipment 3 described below usually no direct contact can be made starting from the user on the or the shoes 2 to the sports equipment 3 and its contacting surface 14, here are further examples of ways to form the electrical discharge path given by way of example.
FIG. 27 shows the sports equipment 3 in the form of a bobsled, which may also be referred to as a "bobsleigh". Depending on the number of people and the size of the bobsleigh is formed. In this embodiment, the sports device 3 embodied as a bobsleigh comprises a base body 52 and at least one base element 53 arranged or formed on the base body 52. The base element 53 serves at least temporarily during use by the user to be supported on a terrain.
In the present embodiment, the base body 52 comprises at least one cladding element 54 and struts, stiffening parts and connecting components, not shown. The base body 52, in the present embodiment, the cladding element 54, at least in sections, at least one electrically conductive layer 55 or at least partially formed by the electrically conductive layer 55. In this case, the electrically conductive layer 55 is preferably arranged or formed over its entire area in the region of the outer surface of the main body 52.
The base member 53 is formed in the present embodiment by so-called runners. An electrically conductive material is preferably selected for the base element 53, wherein the latter forms the at least one contacting surface 14. If the runners forming the base element 53 are formed from no electrically conductive material, the contact surfaces 14 are to be formed, for example, by electrically conductive insert elements or the like.
In order to form the electrical discharge path, the at least one electrically conductive layer 55, which is arranged or formed on the base body 52, is to be connected in an electrically conductive manner to the contacting surface 14 of the base element 53. This line connection is indicated in a simplified manner by dashes.
For connection or mounting between the main body 52 and the base member 53 may still be arranged a support frame 57, which is also part of the sports equipment 3. The support frame 57 may also be referred to as a so-called chassis.
In addition, the main body 52 may also comprise at least one support element 58 for the user or users. The support element 58 has a user-facing or zuwendbare support surface 59. The support surface 59 has an electrically conductive layer 60 or is at least partially formed by the electrically conductive layer 60.
When using the antistatic sportswear system 26 described above, in particular when the upper material is formed by or comprises the electrically conductive layer 34, the user can be contacted while he is being supported on the support surface 59 with the electrically conductive layer 60. Subsequently, the electrically conductive layer 60 of the support member 58 is also electrically connected to the contacting surface 14 of the base member 53. Thus, both an electrostatic charge of the main body 52 and the user via the support member 58 are derived towards the contacting surface 14 and thus to the earth.
In FIGS. 28 and 29 it is shown that the sports equipment 3 can be formed, for example, by a skeleton carriage - FIG. 28 - or a toboggan, in particular luge - FIG. 29. These two sports equipment 3 may in turn be part of the antistatic sports system 1.
Trained as a skeleton slide sports equipment 3 also has the base body 52, which is at least partially provided with the electrically conductive layer 55 or at least partially formed by the electrically conductive layer ting 55. On the base body 52, the base element 53 in the form of runners, in particular made of an electrically conductive material, arranged in particular attached thereto on the side facing away from the zuwendbaren or side. On the side facing the user, the skeleton slide can in turn also have at least one support element 58, whereby this, in turn, is provided with the electrically conductive layer 60 at least in sections on its support surface 59 facing the user or is formed in sections thereof.
In the present exemplary embodiment, the electrically conductive layer 55 of the base body 52 and the electrically conductive layer 60 of the support element 58 are in electrically conductive connection with one another. The electrically conductive layers 55, 60 are in turn connected in an electrically conductive manner to the contacting surface 14 arranged and formed on the base element 53.
Since the embodiment of the sports device according to FIG. 29 is very similar to that which has already been described previously in FIG. 28, it will not be discussed in more detail here.
The embodiments of the sports equipment 3 previously described in FIGS. 27 to 29 are directly in contact with the terrain via their runners, the runners being formed from an electrically conductive material, in particular a metallic material. This usually suffices for a single contact per skid.
In FIG. 30, the sports equipment 3 embodied as a board-shaped type is shown simplified in cross-section, whereby it too is formed from the base body 52 and the base element 53 with the contacting surfaces 14 arranged and formed thereon. For the sake of simplicity, a detailed description of the internal layer structure has been dispensed with. The contacting surface 14 may be formed here by at least one of the side edges 15 and / or the tread surface 17, which form the base member 53.
On the outer surface 56 of the main body 52, in turn, the electrically conductive layer 55 is arranged or formed, which is electrically conductively connected to at least one of the contacting surfaces 14, for example via the application element 13 arranged in the interior.
The electrically conductive layer 55 described above may be formed as required from a variety of materials. It would thus also be possible for the layer 55 to be formed from an electrically conductive lacquer, a plastic layer, a mesh, knitted fabric, knitted fabric and / or fabric arranged in the region of the outer surface 56 of electrically conductive threads or fibers. Since the base body 52, in particular its cladding element 54, is usually formed from a plastic material which may also be reinforced with at least one insert layer, the electrically conductive layer 55 formed from a sheet material may be embedded in or held by the plastic material ,
In FIGS. 31 and 32, the sports device 3 of the sports system 1 is designed as a pole, in particular a ski pole.
According to the illustration of FIG. 31, the main body 52 is of a stick-shaped design and additionally comprises a grip element 61 arranged thereon or a loop 62. In the present exemplary embodiment, both the grip element 61 and the loop 62 are electrically conductive or have an electrically conductive , unspecified, provided layer.
The stick-shaped basic body 52 preferably has a tip 63 at its end remote from the grip element 61, which tip is preferably formed from an electrically conductive material. Thus, in the present exemplary embodiment, the tip 63 forms the base element 53, which in turn forms the contacting surface 14. As indicated schematically by a dash, the grip element 61 is electrically conductively connected via the base body 52 to the base element 53 formed by the tip 63 in an electrically conductive connection.
Thus, it would be possible, for example, to form the main body 52 itself from an electrically conductive material or to create a separate electrically conductive connection, as represented by the connecting line 35 indicated by the dash.
In the embodiment of the sports device 3 shown in FIG. 32 with the main body 52 in the form of a stick, the electrically conductive connecting device 41 already described above is arranged only in the region of the loop 62. This makes it possible to create an electrically conductive connection from the region of the loop 62 to the contacting surface 14 via the electrical connection line 35, which is optionally arranged and / or formed in the base body 52.
The contacting of the electrically conductive connection device 41 in the region of the loop 62 can be done, for example, with the finger garment 30 or another own electrical connection line 35 with one of the garments of the outer garment 27, in particular the upper body garment 32.
In the region of the end facing away from the handle member 61 of the stick-shaped base body 52 is still indicated that the contacting surface 14 may be formed by a contact element 64 mounted on the tip 63. This contact element 64 may for example be formed of an electrically conductive plastic so as to avoid a direct hard contact of the tip 63 formed mostly of a metallic material with the terrain. The contact element 64 can be used, for example, in so-called walking sticks.
The embodiments show possible embodiments of the sports system 1, wherein it should be noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but also various combinations of the individual embodiments are possible with each other and this variation possibility due to the teaching of technical action representational invention in the skill of those skilled in this technical field.
Furthermore, individual features or combinations of features from the different exemplary embodiments shown and described can also represent independent, inventive or inventive solutions.
The task underlying the independent inventive solutions can be taken from the description.
Above all, the individual in Figs. 1, 2; 3, 4; 5; 6, 7; 8th; 9; 10; 11; 12; 13; 14; 15; 16; 17; 18; 19; 20; 21; 22; 23; 24; 25; 26; 27; 28; 29; 30; 31; 32 embodiments form the subject of independent solutions according to the invention. The relevant objects and solutions according to the invention can be found in the detailed descriptions of these figures.
For the sake of order, it should finally be pointed out that for a better understanding of the construction of the sports system 1, this or its components have been shown partly out of scale and / or enlarged and / or reduced in size.
REFERENCE SIGNS 1 sports system 31 foot clothing 2 shoe 32 upper body garment 3 sports equipment 33 leg garment 4 shoe interior 34 layer 5 dissipation element 35 connecting line 6 outside 36 layer 7 first contact element 37 sleeve end 8 shell 38 surface 9 inner shoe 39 layer 10 coupling device 40 spectacle strap 11 connecting element 41 connection device 12 attachment region 42 layer 13 application element 43 helmet shell 14 contacting surface 44 damping material 15 side edge 45 head receiving space 16 second contact element 46 layer 17 running surface covering 47 contacting line 18 coupling element 48 inner material 19 coupling pin 49 outer layer 20 Schifell 50 intermediate layer 21 receiving opening 51 insulating layer 22 insert part 52 base body 23 fastening element 53rd Base element 24 outer frame part 54 cladding element 25 shoe support 55 layer 26 sportswear system 56 outer surface 27 Oberbek 57 Support frame 28 Protective helmet 58 Support element 29 Protective goggles 59 Support surface 30 Finger garment 60 Layer 61 Grip element 62 Loop 63 Tip 64 Contact element

权利要求:
Claims (33)
[1]
1. Sports system (1), in particular for winter sports, mountain sports, with anti-static function, comprising a shoe (2) with at least one on its outer side (6) arranged or formed first contact element (7), which first contact element (7) with a in Shoe (2) of a user's foot is electrically conductively connected, and a sports device (3), characterized in that the first contact element (7) of the shoe (2) via a discharge path with at least one terrain of the sports equipment (3) zuwendbaren contacting surface (14) is electrically connected.
[2]
2. sports system (1) according to claim 1, characterized in that the provided with the contacting surface (14) sports equipment (3) is board-like and is selected from the group of alpine ski, cross country ski, back country ski, ski jump, touring ski, snowboard ,
[3]
3. Sports system (1) according to claim 1 or 2, characterized in that the contacting surface (14) in the board-like sports device (3) is formed by at least one of an electrically conductive material formed side edge (15).
[4]
4. Sports system (1) according to any one of the preceding claims, characterized in that the contacting surface (14) in the board-like sports device (3) by at least one formed from an electrically conductive material portion of a tread surface (17) is formed.
[5]
5. Sports system (1) according to one of the preceding claims, characterized in that the board-like sports device (3) at least one fastening region (12) is provided in which mounting region (12) at least one coupling device (10) for holding the shoe (2 ) is arranged in a coupled position on the board-like sports device (3), wherein by means of at least one connecting element (11), the coupling device (10) is connected to the sports device (3).
[6]
6. Sports system (1) according to claim 5, characterized in that the connecting element (11) is formed of an electrically conductive material.
[7]
7. Sports system (1) according to any one of the preceding claims, characterized in that in the board-shaped sports device (3) in the fastening region (12) at least one fastening element (23) is arranged, which is electrically conductively connected to the contacting surface (14).
[8]
8. Sports system (1) according to one of claims 5 to 7, characterized in that the connecting element (11) of the coupling device (10) with the fastening element (23) is connected and the connecting element (11) in one with the shoe (2). coupled position with the first contact element (7) of the shoe (2) is contacted.
[9]
9. sports system (1) according to one of claims 1 to 6, characterized in that on and / or within the board-like sports equipment (3) at least in the attachment region (12) of the coupling device (10) on the board-like sports device (3), one an application element (13) formed of an electrically conductive material is provided, which application element (13) is electrically conductively connected to the contacting surface (14).
[10]
10. Sports system (1) according to one of claims 1 to 6 or 9, characterized in that on the coupling device (10) at least a second contact element (16) is arranged or formed, which in the shoe with the (2) coupled position with the first contact element (7) of the shoe (2) is contacted.
[11]
11. Sports system (1) according to claim 9 or 10, characterized in that the second contact element (16) of the coupling device (10) is electrically conductively connected to the application element (13).
[12]
12. Sports system (1) according to any one of claims 5, 6 or 9 to 11, characterized in that the second contact element (16) of the coupling device (10) via electrically conductive components of the coupling device (10) and on the at least one connecting element ( 11) is electrically conductively connected to the application element (13).
[13]
13. Sports system (1) according to one of claims 1 to 6, characterized in that the contacting surface (14) of the board-like sports device (3) by means of a cable directly to the second contact element (16) of the coupling device (10) is electrically connected ,
[14]
14. Sports system (1) according to any one of the preceding claims, characterized in that the first contact element (7) on the shoe (2) in the sole region, in particular in the front sole portion, is arranged or formed.
[15]
15. Sports system (1) according to one of claims 1 to 13, characterized in that the first contact element (7) by at least one on the shoe (2) arranged or formed coupling element (18) is formed, with which coupling element (18) of the shoe (2) is held in the coupled position on the board-like sports device (3) arranged coupling device (10).
[16]
16. Sports system (1) according to any one of the preceding claims, characterized in that the board-like sports equipment (3) in the region of his zuwendbaren the terrain tread (17) at least partially a Schifell (20) is arranged, which Schifell (20) at least in Partial sections formed electrically conductive and / or provided with an electrically conductive Fellfloor and this forms the contacting surface (14).
[17]
17. Sports system (1) according to claim 16, characterized in that the electrically conductive portion of the skiff (20) and / or the electrically conductive Fellfloor with at least one of the contacting surfaces (14) of the sports device (3) is electrically connected or are ,
[18]
18 sports system (1) according to claim 16, characterized in that the electrically conductive portion of the Schifells (20) and / or the electrically conductive Fellfloor directly to the application element (13) is electrically connected.
[19]
19. sports system (1) according to claim 1, characterized in that the sports equipment (3) is selected from the group of snowshoe, crampons, skating, and at least a portion thereof is formed of an electrically conductive material and this portion of the contacting surface (14 ) trains.
[20]
20 sports clothing system (26) for a sports system (1) with anti-static function, especially for winter sports, mountain sports, ball sports, comprising an outer clothing (27) and at least one shoe (2) with at least one on its outer side (6) arranged or trained first contact element (7), which first contact element (7) is electrically conductively connectable to a foot of a user to be accommodated in the shoe (2), in particular according to one of the preceding claims, characterized in that the outer clothing (27) at least partially has at least one electrically conductive layer ( 34) or is formed by these and at least one layer (34) via a discharge path with the shoe (2) arranged or formed first contact element (7) is electrically connected.
[21]
21. Sportswear system (26) according to claim 20, characterized in that the discharge path, starting from the outer clothing (27) via an electrically conductive trained Fuß-garment piece (31) or in the shoe (2) and at least partially electrically conductive formed liner (9) extends to the first contact element (7).
[22]
22. sports clothing system (26) according to claim 20 or 21, characterized in that in a shoe interior (4) at least one electrically conductive discharge element (5) is arranged or formed, which discharge element (5) to the first contact element (7) electrically conductively connected is.
[23]
23. Sportswear system (26) according to any one of claims 20 to 22, characterized in that the outer clothing (27) comprises a upper body garment (32) and a leg garment (33) and both garments (32, 33) at least partially the at least one electrically conductive layer (34), and that the upper body garment (32) with the leg garment (33) is electrically connected.
[24]
24. sports clothing system (26) according to any one of claims 20 to 23, characterized in that said finger-clothing pieces (30) and the finger-garments (30) at least partially comprise at least one electrically conductive layer (36) or are formed by them and said at least one layer (36) in each case with the electrically conductive layer (34) of the outer garment (27), in particular a sleeve of the upper body garment (32) is electrically conductively connected.
[25]
25 sports apparel system (26) according to any one of claims 20 to 24, characterized in that this comprises a protective helmet (28), wherein the protective helmet (28) on its outer surface (38) at least partially an electrically conductive layer (39) and / or in the region of its head receiving space (45) at least partially an electrically conductive layer (46), and the at least one electrically conductive layer (39, 46) of the protective helmet (28) with the electrically conductive layer (34) of the outer clothing (27) electrically is conductively connected.
[26]
26. Sportswear system (26) according to claim 25, characterized in that it comprises a protective goggle (29) with an electrically conductive spectacle band (40) and the spectacle band (40) with the on the outer surface (38) of the protective helmet (28). arranged or formed electrically conductive layer (39) is electrically conductively connected.
[27]
27. sports clothing system (26) according to any one of claims 20 to 26, characterized in that the at least one electrically conductive layer (34) of the outer clothing (27) on an inner side facing a user is at least partially underlaid by an inner material (48).
[28]
28. Sportswear system (26) according to any one of claims 20 to 26, characterized in that the at least one electrically conductive layer (34) of the outer clothing (27) is covered by an outer layer (49) and optionally on one of the outer layer (49). averted inside at least partially lined by an inner material (48).
[29]
29 sports equipment (3) for a sports system (1), in particular bobsled, Skeletonschlitten, toboggan, board-like slider, stick, with antistatic function, comprising a base body (52) and at least one on the base body (52) arranged or formed base member (53), which base element (53) is at least temporarily supportable during use by a user on a terrain, in particular according to one of the preceding claims, characterized in that the base body (52) at least partially at least one electrically conductive layer (55) or at least partially through at least one electrically conductive layer (55) is formed, that the base element (53) has at least partially a contact surface (14) which can be turned over to the terrain, and the at least one electrically conductive layer (55) of the base body (52) is connected via a discharge path to the contacting surface (55). 14) is electrically connected.
[30]
30. Sports device (3) according to claim 29, characterized in that the base element (53) is at least partially formed of an electrically conductive material and this forms the contacting surface (14).
[31]
31. Sports device (3) according to claim 29 or 30, characterized in that the base body (52) comprises at least one cladding element (54) and the at least one cladding element (54) on its outer surface (56) the at least one electrically conductive layer (54). 55).
[32]
32. Sports device (3) according to one of claims 29 to 31, characterized in that the base body (52) comprises at least one support element (58) for the user or users and the support element (58) at least in sections on its user-facing support surface (58). 59) has an electrically conductive layer (60) or is at least partially formed by an electrically conductive layer (60), wherein the electrically conductive layer (60) of the support element (58) is electrically conductively connected to the contacting surface (14).
[33]
33. Sport apparatus (3) according to any one of claims 29 to 32, characterized in that the base body (52) is formed stock-shaped and additionally comprises a grip element (61) and a loop (62), wherein the grip element (61) and / or the loop (62) is or are designed to be electrically conductive, and the grip element (61) and / or the loop (62) is electrically conductively connected to the contacting surface (14) via the discharge path (14) formed or arranged in the base body (52).

类似技术:

---

公开号 | 公开日 | 专利标题

---

DE69832091T2|2006-07-20|SHOES

---

DE2752239A1|1978-08-03|SPORTS SHOE

---

DE1685246A1|1971-04-08|Sports shoe

---

DE3115488A1|1982-02-25|SPORTSHOE

---

DE7914197U1|1980-07-03|Sports shoe

---

DE102015200523A1|2016-07-21|Modular shoe

---

AT515266B1|2016-03-15|Sportswear system, sports equipment and sports system formed therefrom with anti-static function

---

DE102015202169A1|2016-08-11|Sole for a shoe

---

DE2725699A1|1977-12-22|TRAINING AND SPORTSHOES

---

CH624303A5|1981-07-31|

---

DE202015106771U1|2016-01-14|Shoe with increased frictional contact

---

WO1990004933A1|1990-05-17|Sports boot, especially basketball boot, with supination support

---

EP0985359A1|2000-03-15|Skate and standing-up aid for a skate

---

DE2030737A1|1971-12-30|Ski boots with separate shaft parts

---

DE3929352A1|1991-03-14|LATERAL GUIDE DEVICE OF A SKI SHOE

---

AT515094B1|2015-06-15|Sports system with anti-static function

---

EP2548464B1|2018-02-21|Boot for ski jumping.

---

DE202016101291U1|2016-03-21|Construction of a sports footwear, in particular a ski boot

---

DE202007001072U1|2008-05-29|Protective and support elements for footwear and hosiery and footwear and hosiery provided therewith

---

AT413785B|2006-06-15|Entry and exit assistance for shoes, e.g. SPORTSCHUHE, ESPECIALLY SKISCHUHE

---

EP3669684A1|2020-06-24|Body protection device for athletes, in particular shinguard

---

EP3144039A1|2017-03-22|Locomotion device, in particular a sports equipment

---

DE202012007002U1|2012-08-13|Foot sole protection for running and walking

---

DE102012013931B4|2018-11-15|Stocking, in the form of a knee or arm stocking, in particular knee socks with or without foot

---

DE10000581B4|2009-02-26|Combined, divisible climbing aid for snowboarders for touring

同族专利:

---

公开号 | 公开日

---

AT515266A3|2015-12-15|

---

US10143262B2|2018-12-04|

---

EP3622841A1|2020-03-18|

---

EP3104947B1|2019-11-06|

---

AT515266B1|2016-03-15|

---

EP3104947A2|2016-12-21|

---

WO2015100463A2|2015-07-09|

---

US20160324258A1|2016-11-10|

---

WO2015100463A3|2015-09-24|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

---

US318172A|1885-05-19|Patrick is |

---

US2712099A|1955-06-28|G legge |

---

US2162888A|1938-08-31|1939-06-20|Held Benjamin|Ski creeper|

---

US2279094A|1941-03-22|1942-04-07|Donnell Shoe Company O|Conductive footwear|

---

US2765373A|1951-02-20|1956-10-02|Alonzo L Smith|Hearing aid, construction and support therefor|

---

US2904724A|1956-07-19|1959-09-15|Mendoza Manuel|Shoe sole|

---

US3293494A|1964-04-24|1966-12-20|Us Rubber Co|Conductive shoe method of making same|

---

US3317650A|1965-03-29|1967-05-02|Univ Iowa State Res Found|Electrical ground net|

---

US3498626A|1967-12-14|1970-03-03|George C Sullivan|Metal ski and method of fabrication|

---

US3544841A|1967-12-14|1970-12-01|Conductive Research Corp The|Static discharging footwear|

---

US3596134A|1968-10-08|1971-07-27|Frederick D Burke|Apparatus for discharging electrostatic energy|

---

US3541389A|1968-12-30|1970-11-17|Endicott Johnson Corp|Electrically conductive foot wear|

---

DE2147904A1|1971-09-24|1973-03-29|Reuter Maschinen|Antistatic shoe - with cylindrical electrically conductive elements in the sole|

---

US4360218A|1980-06-02|1982-11-23|Spademan Richard George|Step-in electrical releasable ski binding|

---

US4415626A|1982-01-08|1983-11-15|Eastman Kodak Company|Antistatic composition and elements and processes utilizing same|

---

JPH0327641B2|1986-10-27|1991-04-16|Shimizu Kensetsu Kk|

---

US4769856A|1987-07-16|1988-09-13|Reed Robert L|Anti-static gloves|

---

US5056807A|1987-10-21|1991-10-15|Norton Company|Ski construction|

---

AT400679B|1990-03-09|1996-02-26|Atomic Austria Gmbh|SKI|

---

US5448840A|1991-05-16|1995-09-12|Cheskin; Melvyn|Shoe containing electrically conductive integral elements|

---

US5271640A|1992-05-29|1993-12-21|Patrick Potochick|Lighted ski pole|

---

DE4322300C2|1992-07-16|2002-12-19|Atomic Austria Gmbh Altenmarkt|Ski with a shell, a lower flange and an upper flange, preferably integrated into the shell, and method for producing a ski|

---

IT1257677B|1992-09-18|1996-02-01|Means for reducing electrostatic charges for skis, sledges or the like|

---

US5687983A|1994-10-27|1997-11-18|Gsi, Inc.|Light weight ballet skis and method of manufacture|

---

US5653047A|1995-09-28|1997-08-05|Lucent Technologies Inc.|Solid state ESD footwear|

---

JP3760507B2|1996-05-30|2006-03-29|日新電機株式会社|Sled and manufacturing method thereof|

---

JPH10165202A|1996-12-13|1998-06-23|Tekunosutaa:Kk|Electrostaticity dissipating-type shoes|

---

CA2219848C|1996-12-26|2001-07-31|David L. Banks|Static electricity dissipation garment|

---

DE29700693U1|1997-01-16|1997-04-10|Luettke Reinhold|Electrostatic discharge device for the human body|

---

GB9803927D0|1998-02-26|1998-04-22|Fenland Laundries Limited|Dissipation of static electricity in workwear|

---

US6147854A|1999-01-29|2000-11-14|Kirschner; Garry William|Electricity shunting and rerouting device and method|

---

JP2000312601A|1999-04-28|2000-11-14|Nosakkusu:Kk|Two-layered shoes for electrostatic shoes|

---

US6349961B1|1999-06-15|2002-02-26|Jumbo Snowboards, Llp|Composite molded snowboard with metal edges|

---

US6421222B1|2000-01-11|2002-07-16|Warson Group, Inc.|Precision fail-safe electrostatic dissipating device|

---

US6338162B1|2000-08-23|2002-01-15|Superior Glove Works Ltd|Electrostatic grounding glove|

---

US20060287126A1|2001-02-15|2006-12-21|Thomas Aisenbrey|Sporting equipment manufactured from conductively doped resin-based materials|

---

JP2003052429A|2001-08-20|2003-02-25|Kakuyuu:Kk|Antistatic stick|

---

DE10255408A1|2002-11-28|2004-07-08|Lubenskiy, Gavrylo|Additional earthing of the human body by the wearing of conducting shoes, socks and or stockings, in order to reduce the build up of positive charge on the body|

---

GB2402061A|2003-05-30|2004-12-01|Paul Franklin Steel|A lightning conductor for use by pedestrians|

---

US7232243B1|2004-03-08|2007-06-19|Nassif Claude L|Sporting apparatus|

---

WO2005092454A1|2004-03-26|2005-10-06|El Petit Món D'en Ricard, S.C.P.|Autonomous electromagnetic control system for binding boots to a snowboard, skis or similar|

---

ITSV20040027A1|2004-06-18|2004-09-18|Tn & Co Di Lucio Righetto|ANTI-STATIC FOOTWEAR|

---

GB0418288D0|2004-08-17|2004-09-15|High Voltage Pulse Technology|Protective article of outer clothing|

---

US7635517B2|2005-02-10|2009-12-22|Mystic MD, Inc.|Antistatic fabrics and protective device|

---

US20070000155A1|2005-07-01|2007-01-04|Mark Laufer|Shoes with electrostatical grounding|

---

JP3898215B1|2006-04-29|2007-03-28|株式会社リバーフィールド|snow board|

---

FR2904431B1|2006-07-31|2008-09-19|Essilor Int|OPTICAL ARTICLE WITH ANTISTATIC AND ANTI-ABRASION PROPERTIES, AND METHOD OF MANUFACTURE|

---

US7869182B1|2006-08-23|2011-01-11|Western Digital Technologies, Inc.|Monitoring device for use with an insulated dual portion garment|

---

US7900272B1|2006-08-23|2011-03-08|Western Digital Technologies, Inc.|Static control garment|

---

US9161393B2|2006-10-04|2015-10-13|T+Ink, Inc.|Heated textiles and methods of making the same|

---

RU2006135796A|2006-10-10|2008-04-20|Владимир Анатольевич Стоцкий |HUMAN STOP EARTHING MEANS|

---

EP2142023B1|2007-03-22|2015-05-13|Carraro S.R.L.|Anti-electric-shock garment|

---

US7471497B1|2007-04-16|2008-12-30|Knight Sr William C|Electrostatic discharge prevention device|

---

US20080289217A1|2007-05-24|2008-11-27|Rasmussen Footwear, Llc|Footwear|

---

DE202008002745U1|2007-06-20|2008-05-08|Kronwitter, Christoph|Shoe, in particular safety shoe or leisure shoe with anti-static function|

---

US20090032517A1|2007-08-01|2009-02-05|Michael Dominic Sopuch|Ski integrated solar power system|

---

TWM335517U|2008-01-16|2008-07-01|Hung Mao Neng Liang Technology Corp|Structure of energy hygienic socks|

---

US20090290279A1|2008-05-23|2009-11-26|3M Innovative Properties Company|Grounding electrode|

---

AT507579B1|2008-12-11|2011-01-15|Atomic Austria Gmbh|SCHI OR SNOWBOARD WITH A PLATE-TYPE POWER TRANSMISSION ELEMENT|

---

US20110012319A1|2009-07-14|2011-01-20|Chris Kuczynski|Recreational Board|

---

CN201557574U|2009-10-28|2010-08-25|国网运行有限公司宜昌超高压管理处|Ultrahigh-voltage alternating and direct current electrostatic protective suit|

---

CN201541805U|2009-11-30|2010-08-11|深圳市新纶科技股份有限公司|Antistatic or conductive shoe conductively connected with antistatic trousers or integrated clothing|

---

US8612181B2|2010-03-04|2013-12-17|Ipcomm|Wireless system for monitoring and analysis of skiing|

---

DE202010005450U1|2010-05-17|2010-07-15|Xie, Tianhong|Shoe and stocking to dissipate electrostatic charges|

---

DE102010022729A1|2010-06-04|2011-12-08|Kroschke Sign-International Gmbh|Antistatic footwear i.e. boot, for wearing over full-fledged electrostatic dissipative shoe that is utilized by employee during manufacturing microelectronic products, has contacting area forming part of tread surface|

---

US8414343B2|2010-08-06|2013-04-09|Red Oaks Development, LLC|Techniques to discharge static electricity in water sliders|

---

AT512213B1|2011-11-24|2015-05-15|Atomic Austria Gmbh|STEIGHILFE FOR THE REQUIRED REMOVABLE ATTACHMENT TO THE BOTTOM OF A SCI, AND SCHI IN COMBINATION WITH A STEIGHILFE|

---

US20130247288A1|2012-03-23|2013-09-26|John Louis Kotos|Electrically conductive protective garment ensemble to protect against electric stun device misuse|

---

US20170188640A1|2012-05-10|2017-07-06|Dan Schlager|Simplified cardiopulmonary lightning protection garment|

---

US9301558B2|2012-05-10|2016-04-05|Dan Schlager|Cardiopulmonary lightning protection garment|

---

US8945328B2|2012-09-11|2015-02-03|L.I.F.E. Corporation S.A.|Methods of making garments having stretchable and conductive ink|

---

US9817440B2|2012-09-11|2017-11-14|L.I.F.E. Corporation S.A.|Garments having stretchable and conductive ink|

---

FR3001898B1|2013-02-11|2015-04-03|Fabrice Devaux|SECURE ATTACHMENT OF SHOE ON A SKI|

---

US9254759B1|2013-03-15|2016-02-09|Arx Pax, LLC|Propulsion and control for a magnetically lifted vehicle|

---

US9366404B1|2013-05-28|2016-06-14|45Th Parallel Lighting, Llc|Decorative lighting system for sporting equipment|US9772168B2|2015-01-27|2017-09-26|Anthony Patrick Russomanno|Power grip zapper glove|

---

DE102019000109A1|2019-01-09|2020-07-09|Kastriot Merlaku|Device against muscle spasm|

法律状态:

优先权:

---

申请号 | 申请日 | 专利标题

---

ATA50002/2014A|AT515094B1|2014-01-02|2014-01-02|Sports system with anti-static function|

---

ATA50503/2014A|AT515266B1|2014-01-02|2014-07-18|Sportswear system, sports equipment and sports system formed therefrom with anti-static function|ATA50503/2014A| AT515266B1|2014-01-02|2014-07-18|Sportswear system, sports equipment and sports system formed therefrom with anti-static function|

---

EP19205258.7A| EP3622841A1|2014-01-02|2014-11-26|Sports garment system with antistatic function for sports system|

---

EP14830370.4A| EP3104947B1|2014-01-02|2014-11-26|Sports system having an anti-static function|

---

PCT/AT2014/050280| WO2015100463A2|2014-01-02|2014-11-26|Anti-static sports equipment, sports system having an anti-static function and sports clothing system for a sports system|

---

US15/109,470| US10143262B2|2014-01-02|2014-11-26|Anti-static sports equipment, sports system having an anti-static function and sports clothing system for a sports system|