Embossing stamp and printing plate holder for the embossing stamp

专利摘要:
The invention describes an embossing punch (1) comprising at least one base body (2) in which on one side a receiving device (3) for receiving a printing plate holder (5) and on another side an actuating device (4) is arranged. The actuating device (4) is designed such that it acts directly or indirectly on the receiving device (3), wherein in the base body (2) an axis of rotation (6) of the actuating device (4) is arranged. The base body (2) and / or the actuating device (4) are module-like, in which side walls (10, 11, 18, 19, 48-51) are at least partially formed by plates which are provided via half shells (20, 21, 43) and / or connecting means (22, 52) are positioned and secured to each other.
公开号:AT514302A1
申请号:T341/2013
申请日:2013-04-23
公开日:2014-11-15
发明作者:
申请人:Trodat Gmbh；
IPC主号:

专利说明:

23/04 2013 Tue 12:47 FAX +43 7242 239 945 Trodat Innovation Center @ 004/067 «♦ ··························································································· * · «« ·· ··· ♦ · - I -
The invention relates to an embossing die, comprising a base body in which a receiving device is arranged on one side and an actuating device on another side, and the actuating device is designed such that it acts directly or indirectly on the receiving device, wherein in the base body, an axis of rotation of the actuating device is arranged, 10 and a pressure plate holder, comprising an upper and lower die plate, which are interconnected via a guide tape, as described in the claims 1, 9,14, 20, 23-26 and 31 is.
There are already known embossing dies or so-called embossing pliers, which are used to produce a 15 relief image without color on document / paper or photo. The document / paper or photo is positioned between two sealing plates. Subsequently, the embossing forceps is compressed so that a relief is formed on the document / paper or photo by the seals arranged in the embossing forceps. There are a number of applications for the dies 20 and embossing pliers. They give documents, certificates, brochures, invitations, business cards, etc., or even napkins an exclusive look. Many produce their own invitations and create monograms and designs. Another aspect is the increased anti-counterfeiting security so that appropriate seals are designed, manufactured and applied to companies, notaries, organizations, architects or engineers.
For example, from DE 20 2011 100 743 U a stamping die is generally known, which comprises a base body (base), an actuating device (pressing lever) and a printing plate holder (embossing unit). In this case, the actuating device is rotatably connected via an axis of rotation with the base, wherein the actuating device is designed such that it acts directly in a receiving device arranged in the base. The actuator will be released from a lever, Troadat Innovation Center 0005/067. 12/04/2013 12:47 am {65 R336 P. 004/067 23/04 2013 Tue 12:48 FAX +43 7242 239 945 Trodat Innovation Center 0005/067
-2- formed on two power arms aufteiit. For embossing, the object to be embossed (paper) is inserted into the printing plate holder, which is positioned in the receiving device on the base body, in which case the user exerts downward pressure force P1 on the first end of the actuating device via the actuating device. Thus, it follows that the first force arm is formed from the distance between the first downward pressure force P1 and the rotational axis. In this case, when turning the actuator down a second pressure force P2 is applied, wherein the distance between the second downward pressure force P2 and the axis of rotation corresponds to the second force arm. The 10 moment of force of the first compressive force P1 and the moment of force of the second compressive force P2 are identical.
The disadvantage here is that the interpretation / dimensioning of the actuator is such that both downward pressure forces P1 and P2 are the same size, and thus a very large amount of force is necessary to produce a relief in a document / paper or photo.
Moreover, DE 20 2011 100 743 U1 discloses an embossing stamp comprising a base body (base), an actuating device (pressing lever) and a printing plate holder (embossing unit). In this case, the actuating device is rotatably connected via an axis of rotation with the base, wherein the actuating device is designed such that it now acts indirectly via a contact pressure element which is mounted on the actuating device and on the base body, arranged on a base receiving device. 25
The disadvantage of such a solution that a very high production cost is necessary because many items must be assembled.
BR 8404986 A shows an embossing punch, which in turn is formed from a base body with a receiving device, an actuating device in the form of a lever and a printing plate holder. The lever is mounted via a rotation axis above the receiving device in the base body. The main body is made up of two 23/04/2013 12:48 3/65 iv r. : R336 P.005 / 067 23/04 2013 DI 12:49 FAX +43 7242 239 945 Trodat Innovation Center 0006/067 • ············································································································· are connected. For this purpose, corresponding recesses, slots, bores or the like are in the plate-shaped side walls. available. The actuating device, in particular the one-piece formed 5 lever, is thereby mounted rotatably between the two plate-shaped side walls via a continuous axis. The parts of the embossing stamp are made of metal, so that they can withstand high pressure forces.
The disadvantage here is that in such a structure again a very large amount of items are required, which must be built together manually. Thus, a very high production cost and thus very high production costs is essential. Another major disadvantage is that the die must be provided with outwardly directed feet, so that it can be placed, since due to the thin plate-shaped side walls only a small footprint is present. Due to the outwardly projecting feet of the die is again very user-unfriendly, as take in the hand, the feet are in the way.
Due to the high forces acting on an embossing process, the 20 screw connections can often loosen or loosen, whereby the structure is very shaky. The user then has to create his own hand to tighten the screw again firmly to make the die again operational. Also, by the complete design of the parts made of metal, a very high weight of the stamping die is present, whereby the handling 25 is deteriorated.
From US Pat. No. 1 646 612 A an embossing die is known in which recessed grips are arranged on the main body. This allows the user to hold the embossing pliers securely in his hand. The disadvantage here, however, that the installation of the embossing forceps on a flat surface is not possible. Thus, it is also not possible that a so-called table embossing can be performed, in which the die is placed on the table and the user prints the lever down. This embossing process will be carried out automatically. P.006 / 067 23/04/2013 12:49 Ϊ / .6.5 R336 23/04 2013 Tue 12:50 FÄX +43 7242 239 945 Trodat Innovation Center 0007/067
-4- then used when very high pressure forces are needed because the user can also use his body weight in this type of embossing process. However, in order to be able to do this, a secure position of the embossing tongs is necessary. Furthermore, US Pat. No. 2,187,773 A discloses an embossing stamp in which a receiving device for a printing plate holder is arranged at an angle to the contact surface. In addition, it can be seen that the printing plate holder is inserted into the body. The disadvantage here is that no optimal attachment of the printing plate holder is given in the recording device. A further disadvantage lies in the fact that in an arrangement of the pressure plate carrier in the base body, this is not secured against slipping out.
The object of the invention is to provide an embossing die and a printing plate holder, in which an improved handling is achieved and the production is substantially simplified. At the same time, the aforementioned disadvantages should be avoided.
The object of the invention is achieved by an embossing stamp, in which the base body and / or the actuating device are designed like a module, wherein the 20 side walls are at least partially formed by plates which are positioned and secured to each other via half shells and / or connecting means. The advantage here is that a considerable weight saving is achieved by the modular structure, whereby the operator comfort is significantly increased. At the same time it is achieved that a very high stability of the stamping die is created, since in those 25 areas where a high force occurs or high stress occurs, appropriate materials are used that can withstand these effects. Thus, a very high quality of the stamping can be ensured at very low weight and small size. Another advantage is that the production by the use of half-shells in which the plates, in particular 30 side walls, only need to be used, is greatly simplified and only a few, in particular the axis of rotation and a connecting means or additional cross-connection are required on the body whereas in the prior art 23/04/2013 12:49
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Variety of such cross connections must be made manually. Another important advantage of the plate construction is that it allows an ergonomic design of the plate elements are easy to produce, which is usually not possible from the prior art by the bending or Kantvorgänge or cause a very high cost. Thus, by appropriate adaptation of the plate elements and the associated half-shells, which are preferably formed from a plastic, a substantial improvement in the handling properties can be achieved. Also, this can improve the force input for an embossing process, so that the user has to apply less force to produce a perfect imprint imprint.
It is also advantageous if the side walls of the base body and / or the actuating device is formed from a metal plate, carbon plate or aluminum plate, as a result, a high rigidity of the die is achieved. Thus, the deformation of the body is prevented or minimized so that the best possible power transmission is achieved by the actuating lever on the printing plate holder. The more stable the pliers are formed, the higher the printing or stamp quality. Since the use of plate elements no bending or bending operation must be performed, it is also possible that brittle non-bendable materials 20 can be used.
In one embodiment, in which the half-shells and / or connecting means are formed of plastic and are formed in one or more parts, is achieved in an advantageous manner that thereby weight savings is achieved by the use of plastic parts. This increases the handling and handling of the embossing stamp. Also, the grip properties for the user are significantly improved, as this no longer has to attack the cold metal.
It is also advantageous if the half-shells have cross-connections, and the 30 half-shells, in particular the cross-connections are pluggable, as a result, a very quick installation is easily possible. This is not necessary 23/04/2013 12:50 6/65 No .: R336 P.008 / 067 23/04 2013 DI 12! 51 FAX +43 7242 239 945 Trodat Innovation Center @ 009/067
t · · · · 00 0 0 0 0
0 0 0 0 0 0 0 -6- specially trained persons for the assembly of the embossing stamp train or use, so that the assembly costs can be reduced.
But it is also advantageous that the cross connections, for example, as 5 locking connection, spacers, bearing elements, guide element, etc., are formed, so that for assembly, the items only have to be plugged together and by simply merging or mating a fixation and positioning of the items he follows. An embodiment in which the base body is made of a plastic
Metal combination is formed, in which the half-shells are formed of plastic, in which one or more metal parts, in particular side wall, can be inserted, for this purpose corresponding receptacles for the metal parts, for example in the form of guides, recesses or latching connections are arranged, since thereby the best possible 15 stability is achieved with the lowest weight of the die and at the same time the assembly cost is reduced.
Furthermore, an embodiment is advantageous in which one or more reinforcing elements are integrated in the half-shells and / or connecting means for stabilization and reinforcement, as this can further increase the stability and thus improve the stamp quality. By special deposits in certain areas, a stability improvement can thus be selectively carried out, wherein the weight gain is minimized. This can however be saved elsewhere often excess material. 25
In an embodiment in which the half-shells extend over the entire side wall, it is advantageously achieved that thereby the reinforcing elements arranged in the side walls are protected. Thus impact-sensitive materials can also be used.
The objects of the invention are achieved by an embossing stamp, wherein in the main body a handle for receiving a plurality, in particular three, fingers of a 23/04/2013 12:51 7/65 No .: R336 P. 009/067 30 23/04 2013 Tue 12:52 FAX +43 7242 239 945 Trodat Innovation Center 0010/067 • · · > 99 -7-
User is arranged, and the handle, in particular the grip position, preferably at least partially disposed above the receiving device. The advantage here is that a compact design is created by the arrangement of the handle in the body. This also ensures that the grip is possible even for smaller hands 5, since the distance between the actuating device, in particular lever, and handle is designed to be smaller than is usually the case with a recessed grip in the footprint of the embossing die. Another significant advantage, however, is that the position of the fingers above the receiving device or the printing plate holder is arranged so that when inserting a document / paper 10 or photos this no longer with the hand or the fingers of the operator in
Contact may occur, as is known from the prior art by the grip position below, as in the area of the footprint. In the prior art, the dies are preferably held such that the user between the lever and the bottom, so the footprint of the base body in 15 the hand will be taken and thus during insertion of the paper this can come into contact with the hand, which Cuts can occur. This is avoided by the positioning of the grip position above the printing plate holder in the embossing die according to the invention. In a further advantageous embodiment, in which the handle is formed by a handle hole, and that the handle hole is preferably formed oval, and is adapted to receive a plurality of fingers of a user, it is achieved that thus a secure grip for the fingers of the user Body is achieved. The elongated design of the handle hole is advantageous because it provides sufficient space for the fingers 25 available. At the same time, however, the user can freely choose the position according to his preferences within the handle hole. In principle, however, it is possible for gripping recesses, position recesses or holding positions for the fingers to be arranged in the grip hole, so that the position for the different fingers is roughly specified.
Another advantage is an embodiment in which a footprint is arranged on the base body, on the recessed grips for receiving a plurality of fingers of a 23/04/2013 12:51 8/65 No.: R336 P.010 / 067 30 23/04 2013 Dl 12:52 FAX +43 7242 239 945 Trodat Innovation Center 0011/067 -8-
User are arranged, as a further option for holding the stamping die is offered.
But it is also an embodiment of advantage in which two 5 different handle positions are formed for actuating, wherein the first handle position by the operating lever and the handle formed for several fingers in the base body and the second handle position by the operating lever and arranged on the footprint grip recesses is formed, since this allows the operator depending on his preferences use the die in the handle hole or with the recessed grips. A further significant advantage is that this additional second holding position has created a greater distance to the lever, so that persons with large hands can preferably use this position, while in persons with smaller hands, as is often the case with women, the Position with the handle hole is preferred. Thus, the handling properties for both men and women 15 has been significantly improved.
However, it is also advantageous that the footprint is formed such that together with the operating lever a table embossing is feasible, thus to the two above-mentioned handle positions an additional actuation option 20 is created so that three different actuation possibilities can be realized with a die or a stamping forceps. The table embossing has the advantage that upon actuation of the lever, the user can additionally use his body weight. Thus, the greatest possible force can be introduced. 25
However, the objects of the invention are also achieved by an embossing stamp, in which a lever movement of the lever is limited by a stop, which is preferably formed by the locking lever or an axis or a stop pin in conjunction with a recess on the lever. It is advantageous here that, for example, during an embossing process, the user can only move the lever 7 up to a certain position, so that no destruction of the embossing punch or injury to the user's hand can occur. Simultaneously 23/04/2013 12:52 9/65 No .: R336 P.011 / 067 23/04 2013 Tue 12:53 FAX +43 7242 239 945 Trodat Innovationscenter @ 012/067
··· ♦ * · -9- The lever can not be pressed too far forward or up. The exact definition of the lever movement ensures safe operation of the stamping die. In an embodiment in which the locking lever is formed by a cover formed of plastic and an axis, is achieved in an advantageous manner that thereby the locking lever has two functions, one function is the limitation of the lever movement and the other function locking the Handles in a certain position. 10
An advantage is an embodiment in which the recess is formed by an approximately horizontally extending guide recess and an approximately vertically extending locking recess, as are used by the special course of the recess of the locking lever for the stop and the lock of the lever can. 15
It is advantageous that the locking lever, in particular the axis, the lever movement over the guide recess upwardly and downwardly limited, and that the locking lever, in particular the axis, in the stamping position in the locking recess is pushed. 20
In an embodiment in which the axle is hingedly mounted on one side on the main body, it is advantageous, since thereby the operation is only required from one side. In addition, the objects of the invention are also achieved by an embossing stamp, in which the base body is designed to receive a pressure plate holder and the lever is designed to fix the pressure plate holder arranged in the base body. The advantage here is that it creates a space-saving storage option. At the same time, the size of the embossing die for transport can be significantly reduced. In particular, this training is also suitable for a sales presentation, especially in a Plisterverpackung. One major advantage is that it can be controlled by the lever of the P.012 / 067 23/04/2013 12:53 ™ ° r7 5R336 23/04 2013 Tue 12:54 FAX +43 7242 239 945 Trodat Innovation Center 0013/067 • · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · ·
Pressure plate holder is fixed in the body so that it can not fall out more, as is the case in the prior art. This can be done in a simple manner in which the user simply fixes the lever in the stamping position. At the same time, it is advantageous that the recessed grip is additionally used for receiving the 5 printing plate holder, so that a considerable space saving is achieved.
An advantage is an embodiment in which the lever has a pressure plate holder, in particular the embossing plate receiving holding portion, since 10 thereby an optimal and secure fixation is achieved. At the same time the size can be reduced accordingly.
In the embodiment in which the lever rests when the printing plate holder and fixing the lever in a locking division on the printing plate holder and the pressure plate holder is achieved in an advantageous manner that slide back and forth 15 of the printing plate holder is prevented in the body.
However, the objects of the invention are also achieved by a printing plate holder in which the printing plate holder is formed as a hybrid structure, in which the embossing plate recording of plastic and the guide band made of resilient material or made of plastic, in particular a high performance plastics with elastic and Abreibarmen properties is. It is advantageous here that an optimal adaptation to the corresponding tasks is made possible by the combination of different materials. For this purpose, for example, a high elastic material can be used to ensure that in the rest position, the printing plates are correspondingly widely spaced from each other, whereas the plastic part can be made an optimal adjustment for inclusion in the receiving device. Since the die plate is formed from an injection molded part, it is much easier to create special shapes than when made of a metallic material.
The objects of the invention are achieved by a printing plate holder but also in which, at least at a front region or in particular circulating on the 23/04/2013 12:53
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Embossing plate recordings, in particular for enlarging an inlet opening, an angularly extending surface and / or a projection with angled guide web or guide surface is arranged. It is advantageous hereby that in a simple manner, the inlet openings between the embossing plate recordings and the 5 printing plates is increased. At the same time a guide is provided by the angled or oblique course, in which the document to be introduced is guided into the space between the printing plates. As a result, it is now possible for the printing plates to be positioned as close as possible to one another so that an optimum embossing stroke is achieved. Namely, the printing plates have to be arranged far apart from each other 10 to achieve a correspondingly sufficient inlet opening, so a very long adjustment for the lever is necessary to perform an embossing process, whereas in closely spaced printing plates only a small adjustment is needed. Thus, such a simulated enlargement of the inlet opening is a significant advantage for the user. 15
However, a printing plate holder also solves the objects of the invention, in which an embossing plate holder, in particular the lower, guide slots and preferably has a transverse web for guiding and fixing in an embossing die. The advantage here is that this is already performed in the initial phase when inserting the 20 printing plate holder in the die of the printing plate holder, so that a simplified and safe insertion is achieved. Thus, the same position of the printing plate holder is always achieved, so that always an optimal embossing position is present. But the objects of the invention are also achieved by a printing plate holder, wherein the printing plate holder is integrally formed of plastic, in particular a high-performance plastic, wherein on the preferably upper embossing plate receiving a metallic insert for the action of a lever of the embossing die is arranged. Thus, it is possible that a simple cost-30 production of the printing plate holder is achieved, wherein by the metallic
Characteristics of the frictional resistance is reduced during an embossing process. It is also achieved that a destruction of the surface of the plastic by a P.014 / 067 12/65 23/04/2013 12:54 No .: R336 23/04 2013 Tue 12:55 FAX +43 7242 239 945 Trodat Innovation Center 0015/067 • · ···· «• · ·
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Variety of embossing processes is prevented. Thus, the life of a pressure plate holder formed of plastic is substantially increased.
Of advantage, however, is an embodiment in which the embossing plate recording has positioning means 5 for aligning the printing plates, since thereby in the manufacture of the
Pressure plate holder by inserting, in particular gluing, the pressure plates can be precisely positioned.
In one embodiment, in which the insertable 10 printing plates via an adhesive layer, in particular a double-sided adhesive tape is fixed in the stamping recordings, it is achieved that thereby a simple removal of the printing plates is possible. Also, the positioning is much easier, since often in a pressing operation, the printing plates are easily moved, while gluing this can be prevented. 15
However, it is also an embodiment of advantage in which a ring element with angled guide webs or guide surfaces can be attached to the embossing plate receptacles for simulating an enlarged inlet opening, as this subsequently results in an extension of the inlet opening. Such a solution can also be done, for example, retroactively with existing printing plate holder 5 20.
However, the objects of the invention are also achieved by a printing plate holder, in which an index disk for the embossing impression and / or for identifying the printing plates is arranged on an embossing plate holder or is removable. In this case, it is advantageous that it is thus possible to display an embossed image or an identification of the printing plates or of the embossed image via this index disk so that the user can identify the embossing stamp by viewing the index disk. This is of particular importance when a person has to use several embossing dies, since these are not known in the prior art 30 apart from each other without a test embossing, whereas this is now possible via the index disk. 23/04/2013 12:55
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Of advantage, however, is an embodiment in which the embossing plate holder has a fastening means for the index disk, as this is visible even when inserted pressure plate holder, the image on the index disk. Finally, a design is advantageous in which the fastening means for the index disk is formed by a pivoting and locking joint, as this different positions of the index disk are adjustable. Thus, with removed printing plate holder, the index disk can be folded to the housing so that a small design is achieved and at the same time a good readability is given 10, whereas with inserted printing plate holder the index disk is placed so that an embossing process is possible and in addition the figure is visible on the index disk.
For a better understanding of the invention, this will be explained in more detail with reference to the following figures. 15
Show it:
1 shows a perspective view of a stamping die with inserted printing plate holder;
2 shows an exploded view of the embossing stamp, in a simplified, schematic representation 20;
3 is a sectional view through the assembled punch, in a simplified, schematic representation;
4 shows another embodiment of an embossing stamp in the
Rest position, in side view and simplified, schematic representation; FIG. 5 shows a further side view of the exemplary embodiment according to FIG. 4 in one
Marking, in a simplified, schematic representation;
Fig. 6 is an exploded view of the embodiment of FIG. 4 or 5, in a simplified, schematic representation;
FIG. 7 shows a plan view of an exemplary embodiment of a printing plate holder, in a simplified, schematic representation in FIG. 30;
8 shows a bottom view of the embodiment of the printing plate holder according to
7, in a simplified, schematic representation; 23/04/2013 12:55 14/65 No .: R336 P.016 / 067 23/04 2013 DI 12! 56 FAX +43 7242 239 945 Trodat Innovation Center 0017/067 ·· ·· ·· «· · · · · · · · · ♦ «· · · ·
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9 is an exploded view of the embodiment of
Printing plate holder of Figure 7 or 8, in a simplified, schematic representation. 10 shows a rear view of the embossing stamp according to FIGS. 4 to 9, in a simplified, schematic illustration; 5 shows a further rear view of the embossing punch according to FIGS. 4 to 10 with inserted pressure plate carrier in the rest position, in a simplified, schematic representation;
12 shows a side view of the stamping die according to FIGS. 4 to 11 with inserted printing plate carrier in fixed actuation position, in a simplified, schematic representation;
13 is a perspective view of the stamping die with inserted printing plate holder on which an index disk is arranged;
Fig. 14 is a perspective view of the printing plate holder with applied index disk; Fig. 15 is a further perspective view of the printing plate holder according to F 14 with the index disk set up;
16 is a detail of the embossing die for the operation of a double-acting locking lever and to form a stop for a lever. 17 another embodiment of a detailed representation for a further operation of a one-sided operated locking lever and for forming a stop;
FIG. 18 is an exploded view of the lock lever of FIG. 17; FIG.
19 shows a further embodiment of the embossing stamp with a modified design of the half-shell, in a simplified, schematic representation; FIG. 20 an embodiment of the embossing stamp with enlarged recessed grip, simplified, schematic representation.
By way of introduction, it should be noted that in the different embodiments, the same parts are provided with the same reference numerals, wherein the disclosures contained throughout the description can be mutatis mutandis to identical parts with the same reference numerals. Also, the positional information contained in the description, such as, top, bottom, side, etc., to the immediate 23/04/2013 12:56 15/65 No.: R336 P.017 / 067 23/04 2013 DI 12 : 57 FAX +43 7242 239 945 Trodat Innovationscenter 0018/067 • ····· • • • <• • • • • • • • • • • • • • • • • • • • • • • • • • The figure described and illustrated is referred to and must be correspondingly transferred to the new position in the case of a change of position.
In FIGS. 1 to 3, an embossing stamp 1 or a so-called embossing pliers for the production of relief images (not shown) on documents, paper or photos, etc., is shown, the formation of the reliefs taking place without color. In order for the formation of reliefs is possible, it is necessary that the die 1 exerts high pressures on the document, paper or photo, etc., so that it must be constructed very robust. In the prior art, therefore, the dies 1 are always made of metal 10 in order to avoid deformation of the die 1 at the high forces acting. However, this suffers the handiness or handling due to the high weight of such a stamp. The dies are also bent from a piece of sheet metal / steel to obtain the appropriate rigidity. 15 The embossing punch 1 according to the invention is now made of a plastic
Metal combination formed in panel construction. At the same time value is placed in the novel embossing pliers or the new embossing die 1 that the assembly cost is kept as low as possible and thus the die 1 is formed from as few items as possible, but the maximum 20 flexural rigidity and stability is to be achieved at very low weight ,
The embossing stamp 1 comprises a base body 2 in which on one side a receiving device 3 and on the opposite side an actuating device 4 is arranged. The actuating device 4 acts directly 25 or indirectly in the receiving device 3, in particular on a pressure plate holder 5 arranged therein, that is to say that upon actuation of the actuating device 4, ie during a pressing / embossing process, the printing plate holder 5 is pressed together. In order for such a pressing process / embossing process is possible, the actuating device 4 is mounted on a rotation axis 6 in the base body 2 or the axis of rotation 6 of the actuator 4 is arranged on the base body 2. The
Rotational axis 6 is thereby positioned at the edge region or entrance area of the base body 2 above the receiving device 3. 23/04/2013 12:57
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In the illustrated embodiment, the actuator 4 is formed by a lever 7, which is composed of several items together, as will be explained later in more detail. It is essential in the design of the lever 7 that this includes two functions or sections. This means that the lever 7 is divided into two sections, which once a push lever 8 and once a lifting lever 9 is formed, as best seen in Fig. 3. The actuating device 4 is thus formed by the lever 7, which at the same time forms at least the thrust lever 8 and the lifting lever 9 with a common pivot point (the axis of rotation 6). The individual sections or individual parts of the lever 7 are rigidly connected to each other and thus form a common structural unit, which is mounted rotatably in the main body 2 only about the axis of rotation 6.
Due to the design of the lever 7 in sections an exact definition of the formation of the lever 7 is possible so that little force or energy is lost with as little einzubringender force or energy and the maximum force or energy in the receiving device 3 acts or on the printing plate holder 5 is exercised. By an exact design of the lever 7 and by an optimal positioning in the base body 2 ensures that an optimal force on the pressure plate holder 5 is created.
When lever 7 according to the invention is achieved by the special design that an increase in force takes place, that is, with a defined force on the thrust lever 8, a higher force on the lifting lever 9 in the receiving device 3, in particular on the printing plate holder 5, is achieved. Preferably, the lever 7, in particular the push lever 8 to the lifting lever 9, is designed to form a force ratio of 1:10 or better, that is, at least a tenfold increase of the introduced force is performed. This is achieved insofar as the lifting lever 9 is shorter than is known from the prior art. As a result, a special structure in the region of the axis of rotation 6 is necessary, since this must be positioned as close as possible to the receiving device 4, so that the short lifting lever 9 can act properly on the printing plate holder 5. 23/04/2013 12:57 17 / 65ποολ iu.: R336 P.019 / 067 23/04 2013 Tue 12:58 FAX +43 7242 239 945 Trodat Innovation Center / 067 • · · · · · «« «* ·«
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In the exemplary embodiment according to the invention, the lever 7 has two plate-shaped side walls 10, 11 which are positioned or held by a grip element 12 at a defined distance. For this purpose, fastening means 13 are provided on the side walls 10, 11 and on the gripping element 12, wherein, for example, fastening holes and, correspondingly, corresponding fastening pins are provided on the 5 side walls 10, 11. Furthermore, it is possible that on the grip element 12 a guide groove (not shown) for insertion of the side walls 10,11 is arranged to additionally improve the lateral guidance of the lever 7. To form the lever 7, the handle member 12 and the side walls 10 10,11 simply plugged together, so that the mounting pins in the
Engage mounting holes and thus the two side walls 10,11 are fixed to each other via the handle member 12 and supported. Preferably, the side walls 10,11 are formed of metal and the handle member 12 made of plastic.
This ensures that very high forces can be exerted on the lever 7 15 and at the same slipping is avoided by a non-slip or non-slip plastic. For the storage of the lever 7, the side walls 10,11 each have a bearing bore 14 into which a shaft member 15 can be inserted. The shaft member 15 20 simultaneously forms a spacer element in order to keep the two side walls 10,11 in the region of the axis of rotation 6 to a defined distance. It is possible, for example, that the end regions of the axle element 15 have a smaller diameter than the region between the side walls 10, 11 and the bearing bore 14 is correspondingly adapted to the smaller diameter. Thus, when inserting the axle element 15, the end regions with the smaller diameter can be inserted through the bearing bores 14, with the side walls 10, 11 subsequently resting against the larger diameter of the axle element 15 and can not be pushed further together. In order to achieve a bearing in the base body 2, the axle element 15, 30 projects, in particular the ends, through the side wall 10, 11, so that the
Shaft element 15 in turn in another corresponding bearing bore 16 in the 23/04/2013 12:58 18/65 i r. : R336 P. 020/067 23/04 2013 DI 12:59 FAX +43 7242 239 945 Trodat Innovation Center 0021/067
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Main body 2 is inserted or plugged. Of course, it is possible that the axle element 15 is designed in several parts.
The lever 7 is preferably L-shaped, so that the two sections 5 for the thrust lever 8 and the lifting lever 9 result, wherein the longer side, in particular the thrust lever 8, may have a special course or shaping. In this case, that portion forms with the grip element 12 from the thrust lever 8, which thus extends from the axis of rotation 6 to the end of the handle member 12, whereas the second portion extends for the lifting lever 9 from the rotation axis 6 in the direction 10 to the receiving device 3 and to act is formed in the receiving device 3, that extends to the contact point with the printing plate holder 5.
As shown, it is also possible that the shape of the push lever 8 may be ergonomic, as can be seen with a kink. This ensures that the distance between the grip element 12, in particular the surface of the grip element 12, and the base body 2 is reduced and thus the handling of the embossing die 1 is substantially improved. Furthermore, it is possible that in the end region of the lifting lever 9, a pressure element 17, in particular a pressure roller, is arranged. This ensures that upon actuation of the embossing die 1, in particular during a pressing process, when 20 the action of the lifting lever 9 on the printing plate holder 5, this can roll or slide on the surface, whereby friction losses are minimized. At the same time a gentle printing process is performed when compressing the printing plate holder 5, whereby destruction of the surface on the printing plate holder 5 is prevented. 25
The main body 2 is like the actuator 4, in particular the lever 7, modular, in particular in plate design, formed and in turn consists of several items together, as better seen in Fig. 2 can be seen. In this case, a plastic-metal combination for the main body 2 is also formed to achieve a very high rigidity at very low weight. In the illustrated embodiment according to Figures 1 to 3 side walls 18,19 of the main body 2 are each formed by a plate, the half shells 20, 21 and / or 23/04/2013 12:59 19/65 rar .: R336 P. 021/067 23/04 2013 DI 13s00 FAX +43 7242 239 945 Trodat Innovation Center 0022/067
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Connecting means 22 are positioned to each other, fixed and held. The side walls 10,11,18,19 of the main body 2 as well as the actuator 4 are formed of a metal plate or carbon plate or aluminum plate, etc., are preferably used for this purpose materials which have a high rigidity or flexural rigidity 5 and resilience, so that the user can exert as much force on the die 1 during a pressing operation, without this deformed. If the stamping die 1, in particular the base body 2, deformed because of the force effect, the quality of the relief to be formed would suffer greatly, because then the force required to form the relief 10 is not generated over the entire surface. However, in order to save weight, the half-shells 20, 21 and / or connecting means 22 are formed from plastic, which parts preferably form the contact surfaces for the user, ie that those areas which the user takes in the hand are made of plastic, thereby a secure grip is achieved when using a non-slip plastic. Another advantage of using plastic is that the embossing punch 1 does not feel cool to the user when taken in hand, as is the case with the metal stamping dies 1 known from the prior art. Thus, ease of use is increased by using appropriate materials in the respective areas. Also, the production of the individual parts is significantly simplified, 20 since no bending processes must be performed. The individual parts, in particular the side walls 10, 11, 18, 19, the half shells 20, 21 and the grip element 12, are preferably produced by a stamping or cutting operation and by an injection molding process. As can now be seen better from FIG. 2, the half-shells 20, 21 are arranged on the opposite side of the receiving device 3. The half-shells 20, 21 in this case have cross-connections 23, so that when the two half shells 20, 21 are brought together via these cross-connections 23, the half-shells 20, 21 are held together. For this purpose, the cross-connections 23 may be designed, for example, as a latching connection, spacers, bearing elements, guide element, etc., and be integrally connected to the plastic part or form independent parts of metal or plastic, which are correspondingly positioned during assembly. 23/04/2013 13:00 20/65 No .: R336 P.022 / 067
23/04 2013 TU 13:00 FAX +43 7242 239 945 Trodat Innovation Center 0023/067 ························································································· · »· · · · · · · · · · · · · · I
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It is essential in the formation of the half-shells 20, 21, that at least partially the side walls 18,19 of the base body 2 are received, fixed and held. In the illustrated embodiment, the side wall 18, 19 extends over the entire inner region of the half-shell 20, 21, so that the 5 side wall 18,19 serves as a support body for the half-shell 20,21, ie, that the side wall 18,19 in the areas The cross connections 23 have corresponding recesses 24 and at the same time via the cross connections 23, the side walls 18,19 are positioned over the half shells 20, 21, so that when merging or mating the two half shells 20, 21, the side walls 18,19 in a defined distance held each other. Since the side walls 18,19 are completely integrated in the half-shells 20, 21, the material thickness of the half-shells 20, 21 can be reduced, since the rigidity and load capacity on the side walls 18.19 is increased. 15 The half-shells 20, 21 further have an over the outer contours extending end surface 25 which is formed such that when joining the two half-shells 20, 21 these frontally to each other and form a flat surface over the entire width of the base body 2. This ensures that a gap 26 between the side walls 18,19, which arises due to the plate-shaped 20 side walls 18,19, is at least partially covered by the half-shells 20,21 or closed, which in turn to improve the grip properties and thus the handling properties leads, since the half-shells 20, 21 are arranged in the grip areas. 25 The fixation of the side walls 18,19 takes place in the illustrated
Embodiment on one side of the base body 2 (holding side) by the half-shells 20, 21, so that the other side (receiving side) in turn with corresponding elements, in particular the connecting means 22, reinforced or held in order to increase the stability. For this purpose, for example, a cover 30 27 and a riot member 28 are provided, which are designed such that they are simply plugged onto the end regions, in particular the front side of the side walls 18,19 and then corresponding latch and the side walls 18,19 23/04 / 2013 13:00 21/65 No .: R336 P.023 / 067 23/04 2013 Tue 13:01 FAX +43 7242 239 945 Trodat Innovation Center 0024/067 ♦ »·
• · • ·
-21 - fasten to each other. In this case, the cover 27 and the riot element 28 are integrally formed and extend over the entire width of the body 2. Of course, it is possible that these elements or on this side of the body 2 further shell-shaped elements used or used 5 can be.
The cover 27 is mounted above the receiving device 3, which preferably extends beyond the axis of rotation 6 and the axis of rotation 6 includes. This ensures that a lateral guide 10 is provided for the axis of rotation 6 and thus can no longer fall out of the main body 2 or protrude. Furthermore, the cover 27 has an elongated opening 29 in which a locking lever 30 can be inserted. This locking lever 30 has the task to fix the lever 7 in a certain position. In this case, the lever 7 is pressed down into the pressing or stamping position, so that the locking lever 30 in the direction of the holding side 15, in particular in the direction of the half shells 20,21, can be pushed and thus prevents pivoting back of the lever 7, since the locking lever 30 in the blocking position the lever 7 locks. For the release of the lever 7, the locking lever 30 needs to be moved only in the opposite direction, so that it can then move freely again. 20
Below the receiving device 3 in the region of the receiving side, the uprising element 28 is attached to the end faces of the side walls 18,19. This extends, for example, to below the receiving device 3 and over a defined length at the contact area, ie on the underside of the base body 2. 25 The Aufstandsselement 28 forms with the half-shells 20, 21 on the underside of the base body 2, a footprint 31, so that the Embossing stamp 1 can be placed on a flat surface, without this falls over, so tilts to the side. The plastic elements simultaneously form a slip protection. Of course, it is possible that additional slip protection elements can be plugged into the plastic elements 30 or they are integrated directly during the production, ie a so-called two-component plastic for the plastic parts 23/04/2013 13:01 22/65 No.: R336 P.024 / 067 23/04 2013 DI 13:02 FAX +43 7242 239 945 Trodat Innovation Center 0025/067 ······················································································································································································································ % 44 44 44 4 44 4 -22- is used. This is also possible for the grip elements 12 and / or the half shafts 20, 21.
In order to increase the rigidity even further, it is possible that in addition to the 5 side walls 18, 19 further insert elements 32 made of this or highly rigid / high-strength material are integrated. For this purpose, in the embodiment in the area of the footprint 31, a bottom element 33 is inserted. This can be fixed for example via the half-shells 20, 21 and the riot element 28 or be connected directly to one of the side walls 18,19. It is also possible that corresponding Einiageelemente 33 can be used for the plastic elements made of plastic or other materials.
In the solution according to the invention care is taken to ensure that all elements are easy to assemble, so that screw can be avoided. The 15 dargestefiten items are preferably plugged together or riveted, so that a quick and easy installation is possible. It is only important here that the individual parts or reinforcing parts are designed in such a way that deformation of the embossing punch 1, in particular of the individual parts, is to be avoided during an embossing process in order to obtain a very high quality for the relief formation. 20
As can now be seen from the exemplary embodiment, the embossing punch 1, in particular the base body 2, has a special grip 34, so that three different embossing operations or gripping positions are possible with such an embossing punch 1 according to the invention. 25
The handle 34 is formed in the form of a preferably oval handle hole 35 in the base body 2, wherein the handle 34 for receiving a plurality of fingers of a user, in particular of three fingers, is formed. The handle 34 in combination with the actuating device 4, in particular the lever 7, the first grip position, 30 wherein for this purpose the user takes the die 1 in the hand, that the thumb or palm on the lever 7 and the fingers in the handle 34th lie, so that by closing the hand, the actuator 4, in particular the lever 7, in 23/04/2013 13:02 23/65 No .: R336 P.025 / 067 23/04 2013 DI 13:02 FAX +43 7242 239 945 Trodat Innovation Center 0026/067 -23-
Direction of the body 2 is pulled or moved. In this case, the handle 34, in particular the handle hole 35, at least partially disposed above the receiving device 3, that is, the handle portion, in particular the handle position, for the handle 34 in the base body 2 is at least partially above the receiving device 3 5 and behind the receiving device 3, wherein it should preferably be ensured that the position of the fingers, ie the grip position, is always above the receiving device 3 in the base body 2. This ensures that the user when holding the stamping die 1 in the first grip position, ie with the lever 7 and the handle 34, the user's fingers are positioned above the receiving device 3, even if the handle hole 35 laterally behind and below the Receiving device 3 extends, since the fingers are always in the upper region of the handle hole 35 during compression.
This is a significant advantage over the prior art in that, when the document, paper or photo etc. is placed in the receiving device 3 or in the printing plate holder 5 positioned in the receiving device 3, the user is introduced to the document, paper or photo, etc. no longer comes into contact and thus can no longer hurt, since the grip position is located above the printing plate holder 5. From the prior art, the dies 1 are always held in such a way that the thumb is located on the lever 7 and the fingers of the bottom of the
Embrace stamp 1, so that when inserting the paper this often comes into contact with the palm or a finger and it can cause injury, especially cutting the skin, which is no longer possible with this handle position according to the invention. 25
Such a holding, as known from the prior art, is also possible with the embossing punch 1 according to the invention and thereby forms the second grip position. For this purpose, it is provided that on the underside of the embossing die 1, in particular on the contact surface 31, the half-shells 20, 21 recessed grips 36 for the fingers 30, so that the user holds in the second gripping position the die 1 such that this the thumb or Handballen on the actuator 4, in particular the lever 7, and the fingers below the body 2 in the 23/04/2013 13:02 24/65 No .: R336 P.026 / 067 23/04 2013 DI 13:03 fax + 43 7242 239 945 Trodat Innovation Center 0027/067 23/04 2013 DI 13:03 fax +43 7242 239 945 Trodat Innovation Center 0027/067
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Grips 36 sets. However, this grip position creates the risk of injury, as previously mentioned.
Thus, it is possible that two different grip positions 5 are formed for actuating, wherein the first grip position by the actuating device 4 and formed for multiple fingers handle 34 in the base body 2 and the second handle position by the actuator 4 and arranged on the footprint 31 recessed grips 36th is formed. It can be said that the first grip position is preferably used by persons with smaller hands, in particular women, 10, whereas the second grip position is used for persons with large hands, in particular men.
The third position, in particular also called table position, for producing a relief, can be embodied such that the embossing stamp 1 is placed on a flat surface, in particular a table or desk, so that the user actuates the device 4, in particular the lever 7 , with the hand, especially the palm of your hand, can push down. It is often only the palm of the hand on the handle, in particular lever 7, placed and then pressed down so that the person can use the full body weight. The 20 positions two and three are already known from the prior art, whereas the first position is possible for the first time.
Furthermore, it is possible that the handle 34 is formed instead of the handle hole 35 by integrating or attached to the base body 2 bracket for the fingers. In this case, the bracket may be formed slightly curved, such as the upper portion of the handle hole 35. The bracket is in turn positioned above the receiving device 3 or behind the receiving device 3 in order to avoid contact with an inserted document. It is only important that for the embossing punch 1 according to the invention again three embossing positions, in particular the first and second handle position and the table position, are present. The main advantage is that thereby the embossing forceps 1 is suitable for male and female persons with big and small hands. Does die 1 use a person with small .027 / 067 25/65 23/04/2013 13:03 No .: R336 23/04 2013 Tue 13:04 FAX +43 7242 239 945 Trodat Innovationscenter 0028/067 • · · « Thus, the first grip position is particularly suitable because the lever 7 for the thumb or palm of the hand and the grip 34 for the fingers are as close together as possible. However, if the same embossing stamp 1 is used by a person with large hands, then this can use the second grip position, in which the distance between lever 7 and 5 recessed grips 36 is farther away. Thus, each person can optimally hold the die 1 and bring the greatest possible force for him. In the third position, in particular the table position, the size of the hands play no role, since the die 1 is simply placed and pressed from above on the lever 7 in the direction of the base body 2 and footprint 31. 10
However, in order to be able to carry out an embossing process at all, it is necessary for the printing plate holder 5 with printing plates 37 arranged therein to be inserted into the embossing stamp 1. The printing plate holder 5 comprises an upper and lower embossing plate holder 38, 39 which are connected to each other via a guide belt 40, wherein the embossing plate holder 38, 39 for the pressure plates 37 and the guide belt 40 is formed from plastic. The pressure plate holder (5) is integrally formed of plastic, in particular a high-performance plastic, wherein on the preferably upper embossing plate receptacle (38,39,75,76) a metallic insert for the action of the lever (7) of the embossing punch (1) is arranged , Preference is given to using 20 as a plastic, in particular high-performance plastics with the name PEEK, PPS, PSU, PES, PTFE, etc., of course, other non-mentioned plastics can be used, especially if they have similar properties. It is also possible that the pressure plate holder 5 is formed as a hybrid structure, in which the 25 embossing plate receptacle (38,39) made of plastic and the guide strip 40 made of resilient material or plastic, in particular a high performance plastics with elastic and Abreibarmen properties has. 30, the width of the guide strip 40 is formed such that this in the
Interspace 26 between the two side walls 20, 21 of the base body 2 fit. The side walls 20, 21 simultaneously form the lateral guide for the 23/04/2013 13:04 26/65 No .: R336 P.028 / 067 23/04 2013 DI 13s05 FAX +43 7242 239 945 Trodat Innovation Center 12) 029 / 067 • · · • · • · '' ·
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Printing plate holder 5. Preferably, the embossing plate holder 38, 39 and the corresponding pressure plates 37 are formed round and project on both sides laterally as the main body 2, as can be seen in Fig. 1. 5 Through the connection of the embossing plate holder 38, 39 on the guide belt 40, the two embossing plate receivers 38, 39 and thus also the pressure plates 37 disposed therein at a certain distance from each other. However, if one introduces the printing plate holder 5 into the receiving device 3, then the predetermined slide path of the receiving device 3 in the base body 2 is designed such that the two embossing plate receivers 38, 39 are pressed together slightly. Thus, a corresponding force is generated on the lever 7, in particular on the lifting lever 9, so that the lever 7 is pushed upwards. This ensures that after an embossing process at the end of the application of force to the lever 7 this is automatically driven back to the starting position and immediately 15 again a new embossing process can be performed, ie that on the pressure plate holder 5, the provision of the lever 7 in the Starting position, ie rest position is performed. Furthermore, the slide track is formed so that it opens easily and thus the pressure plates 37 in the front area, in which the document, paper or photo, etc. is introduced, have a greater distance, 20 than in the rear area. This makes it much easier to import a document, paper or photo, etc.
In principle, it can therefore be said that upon actuation of the lever 7, ie when carrying out an embossing process, the lever 7 presses on the upper side of a 25 embossing plate holder 38 and this is thus pressed down in the direction of the second embossing plate holder 39, whereby the pressure plates 37 relief is in the inserted document, paper or photo, etc. is pressed.
So that the printing plate holder 5 can not be used in the wrong direction, it is possible for a positioning means, for example in the form of a projection (not shown), to be arranged on one of the two surfaces of the embossing plate receptacles 38, 39. Corresponding to this, in the main body 2, a corresponding P.029 / 067 27/65 23/04/2013 13:04 No .: R336 23/04 2013 Tue 13:05 F +43 7242 239 945 Trodat Innovationscenter 0030/067 ·· ···· ·· «« • ·· -27-
Cover arranged or fixed so that when inserting the positioning can be taken in the cover and thus the pressure plate holder 5 can be fully inserted. Another way of preventing rotation can be done via the formation of the guide band 40, which must have a 5 corresponding course in order to be inserted into the slide track of the receiving device 3 can.
In general, it should be mentioned in general that the plastic elements, in particular the grip element 12, the half shells 20, 21 of the cover hood 27 and the 10 resistance element 28, deformable fastening means, guide elements,
Can have locking elements, etc., which are deformed for the assembly of the elements, but then back to swing back to the original position and thus fix the side walls 20, 21 or plate-shaped elements, fasten, lock or clamp, etc. 15th
It should also be mentioned that the base body 2 is formed from the two half-shells 20, 21, and in the half-shells 20, 21 partially or completely a plate in the form of the side wall 18,19 is inserted for reinforcement, that is, the plastic formed Half shells 20,21 at the same time the side walls 18,19 of the body 2 20 training and within the half-shells 20, 21 in sections one or more or over the entire side plates of metal or other materials are inserted, ie, that a complete or selective reinforcement over one or more plates can be made. It is also possible that correspondingly large recess in the half-shells 20, 21 are present and thus the therein ev. 25 arranged plates are visible. This type of training has the advantage that first all elements, such as the lever 7, reinforcing plates, etc. are inserted into the half-shells 20, 21 and in one step by joining the two half-shells 20,21 of the die 1 is formed. It is also possible that, for example, the lever 7 is formed from a single injection molded part, in which a 30 corresponding reinforcing insert is injected or subsequently inserted into corresponding recesses or guides or inserted. 23/04/2013 13:05 28/65 No .: R336 P.030 / 067 TU 13:06 FAX +43 7242 239 945 Trodat Innovation Center 0031/067 ··· # ···· ··· · • ♦ · ··· · · · · · · · · · · · · · &gt; FIGS. 4 to 12 show a further exemplary embodiment of a stamped stamping die 1, wherein the essential difference in the construction of the plastic parts and the design of the Embossing stamp 1 is located.
In this case, in FIG. 4, the embossing stamp 1 is shown in a rest position 41, in which the printing plate support 5 presses the lever 7 upwards and the printing plate support 5 is open for importing a document (not shown), ie, the printing plate support 5 has a resilient property has, so that in the rest position 5, the lever 7 is pushed upwards and the pressure plate carrier 5 is opened. In contrast, in FIG. 5 the embossing stamp 1 is shown in a stamp position 42 or stamping position 42, wherein the index is not inserted into the closed printing plate carrier 5, ie that due to a pressure exerted on the lever 7, the resilient printing plate carrier 5 is pressed together is and thus the lever 7 is pressed down, so that after the completion of the application of pressure, the lever 7 is again moved from the pressure plate carrier 5 in the rest position 5.
The base body 2 in the embodiment shown now has a substantially different structure with respect to the design and the arrangement of the plastic parts, in this embodiment, the handle 34, in particular the handle hole 35, is no longer used, that is, in this embodiment only two handle positions are still present, since the first position on the handle hole 35, according to embodiment of Figures 1 to 3, deleted.
The main body 2 is now formed with a one-piece half shell 43, as can be seen from Fig. 6, which now forms the lower portion of the base body 2, wherein it may of course be possible that the half-shell 43 is again formed in several parts The half-shell 43rd extends below the receiving device 3 via a footprint 44, a recessed grip 45 to a support point 46 in the end of the embossing stamp 1. Thus, all essential areas for the embossing process are provided with plastic, ie that, for example, in the first position of the user the die 1 via the recessed grip 45 and the lever 7 23/04/2013 13:06 29/65 No.: R336 P.031 / 067 23/04 2013 Tue 13:07 FAX +43 7242 239 945 Trodat Innovationscenter 0032/067 ·· ♦ ··· «· ♦ · · · · · · · · · · · · · · · · · · · · · · · · · ·········································································· takes in the hand, so through the Kunststoffau formation of the recessed grip 45 is given a safe and pleasant grip. If the embossing stamp 1 is placed, for example, on a table for the second embossing position, in turn all supporting points, in particular the supporting surface 44 and the supporting point 46, are provided with 5 plastic, so that slippage of the embossing stamp 1 is prevented.
So that the user finds in the first grip position on the lever 7 a safe non-slip handling, the lever 7 is in turn provided with a grip element 47 formed from plastic. As has already been described, the plastic parts have l () corresponding means, in particular grooves, detents, snap connections, etc., around the side walls 48 to 51 or plate elements 48 to 51 made of metal or high-strength materials for the lever 7 and to form the main body 2. These side walls 48 to 51 correspond to the side walls 10, 11 and 18, 19 in the exemplary embodiment according to FIGS. 1 to 3. 15
However, in order for the side walls 48 to 51 to acquire additional stability, connecting means 52, which are preferably in the form of spacer bolts 53, are arranged at predetermined points, for which purpose corresponding openings 54 are provided on the side walls 48 to 51. In this case, it is also provided that a spacer tube 55, preferably made of plastic, into which the spacer axis 53 is inserted, is disposed above the spacer bolts 53. In the embodiment shown, only an additional connecting means 52 is provided on the base body 2, since for the lever 7, the additional connection via the necessary axis of rotation 6 takes place. The axis of rotation 6 are thus in the obem front region of both the lever 7 and the base body 2 additional stability.
The lever 7 is again formed from a one-piece half-shell 56 and the side walls 48 and 49. The half shell 56 formed of plastic serves as a lever surface 57, so that the user no longer has to resort directly to the metallic surface, but a non-slip secure and above all comfortable grip is achieved. The half-shell 56 has an angled extension 58 in the end region, which covers the lever 7 at the end face. Thus, it is achieved, 23/04/2013 13:07 30/65 No .: R336 P.032 / 067 23/04 2013 Tue 13: 07 FAX +43 7242 239 945 Trodat Innovation Center 0033/067 ·· · 4 ··· · · · · · · · · · · · · · · · · · · · · · · · · · ·
The view between the two side walls 48,49 is covered and the stability is increased. Furthermore, on the opposite side in the end region, the half-shell 56 is provided with an axle receptacle 59, which has an opening for receiving the axis of rotation 6. The Achsaufnahme 59 acts as a plastic disc, 5 in particular as a so-called washer so that ev. Noise that might occur during a stamping process is prevented. Such noise often occurs with inter-metal friction, which is thereby prevented. Due to the one-piece design of the assembly effort is further significantly reduced. In addition, it is provided that the lever 7 has a special lever shape 60, in which this was deformed in the direction of the base body 2 downwards, that is, has a kink. This ensures that in the rest position 41 of the lever 7 is closer to the base body 2 and thus reduces the reach.
Corresponding to the special lever shape 60 of the base body 2 is formed corresponding to 15, so that the lever 7 in the stamping position 42 mögiichst far out of the main body 2 protrudes out to obtain an optimal grip position. This is achieved in that the base body 2 has a special chamfer 61 adapted to the lever shape 60, in particular the bend, ie that the chamfer 61 is formed on the base body 2, in particular on the side walls 50, 51 in the upper region a steeper drop of the top of the
Side walls 50, 51 causes, so that in the embossing 42, the largest possible gripping surface of the lever 7 is present outside of the main body 2. This chamfer 61 has a further advantage since it prevents the user from being injured during an embossing process, since no side walls 50, 51 extend beyond the lever 25 7, in particular the lever surface 57.
A further essential embodiment of the embossing punch 1 according to the invention lies in the arrangement of the receiving device 3 for the printing plate holder 5. This is now arranged obliquely opposite the contact surface 44, ie, that the lower 30 receiving plane 62 is formed at an angle to the contact surface 44, whereas an upper receiving plane 63rd aligned parallel to the footprint 44. Thus, it is now achieved that the printing plate holder 5 obliquely or angularly in the main body 2 23/04/2013 13:07 31/65 No .: R336 P. 033/067 0034/067 23/04 2013 Tues 13:08 FAX +43 7242 239 945 Trodat Innovation Center • · -31 - is arranged when the stamp 1 is placed on a surface. This has the advantage that automatically when lifting the die 1 the user compensates for this angle position for inserting a document so that he can just insert a document, resulting in the optimal grip position for the embossing process 5 and the user can thus muster the most strength. Furthermore, the angular arrangement ensures that the length of the embossing punch 1 is shortened.
Furthermore, the receiving device 3 was formed such that the lower receiving plane 62 is formed longer than the upper receiving plane 63, that is, 10, the lower receiving plane 62 projects beyond the upper receiving plane 63, so that a larger bearing surface for the printing plate holder 5 at the bottom Recording level 62 was created. In particular, this creates a pressure point for the embossing process in the front region, so that over the entire surface a constant Reiiefabbildung is achieved. So that the printing plate holder 5 is always inserted in the same way in the receiving device 5, a positioning means 64, which is preferably in the form of a depression 65 or notch, is arranged on the lower receiving plane 62. The positioning means 64 also serves as a holding element, so that due to the angular position of the printing plate holder 5 can not slide out of itself from the receiving device 3 out. 20
In order to carry out a gentle for the printing plate holder 5 embossing process is provided in the embodiment of the invention that the lever 7, in particular between the side walls 48, 49, in the contact area to the printing plate holder 5, a pressure element 66 is arranged, for example, a metal or low-friction material formed pressure roller 67 and arranged therein made of metal or high-strength material pressure axis 68 is formed. This ensures that during an embossing process, the pressure roller 67 slides on the surface of the printing plate holder 5 and thus minimizes the frictional resistance and at the same time prevents damage to the surface.
As in the previously described embodiments of FIGS. 1 to 3, this embodiment also has a locking lever 30, which is closed by a plastic 23/04/2013 13:08 32/65 Nos .: R336 P. 034/067 30 23 / 04 2013 DI 13:09 FAX +43 7242 239 945 Trodat Innovation Center 0035/067 -32- formed covers 69 and an axle 70 is formed. In order for the die 1 can be fixed again in the stamping position 42 by the user pushes the locking lever 30 in the locked position. This becomes possible because corresponding recesses 71, 72 are provided in the base body 2 and in the lever 7, 5 so that a horizontal displacement of the lever 7 is possible. In particular, the recess 72 in the lever 7 on a special L-shaped profile, whereas the recess 71 is formed horizontally. The lever 7 in the illustrated embodiment is preferably operated on both sides, so that it can be moved horizontally over two fingers, in particular thumb and forefinger 10.
Essential in the formation of the locking lever 30 here is that the lock, in particular the locking lever 30, at the same time as a stop for the lever movement of the lever 7 is formed. This is achieved in that the axis 70 of the locking lever 15 30 in the specially formed recess 72 which is formed by an approximately horizontally extending guide recess 72 a and an approximately vertically extending locking recess 72, is arranged so that the Sperrhebei 30, in particular the axis 70, limits the lever movement over the guide recess 72a upwards and downwards. If, however, the lever 7 is moved downwards, that is to say into the imprinting position 42, and the axle 70 hits the end of the guide recess 72a, the locking lever 30, in particular the axle 70, can still travel along the locking recess 72b, in particular horizontally, be moved, ie, that in the stamping position 42 of the locking lever 30, in particular the axis 70, in the locking recess 72b is slidable. Thus, the lever 7 can not swing back into the starting position, ie rest position 42 25 back, since the vertical movement is prevented. This is only possible again when the locking lever 30 with the axis 70 is again displaced in the opposite direction, that is to the guide recess 72a, so that the lever 7 can be moved along the approximately horizontally oriented guide recess 72a. It can therefore be said that the locking lever 30, in particular the axis 70 passing through the lever 730, is in constant engagement with the lever 7 and along a guideway formed by the lever movement, in particular the guide 23/04/2013 13:09 33 / 65 No.: R336 P.035 / 067 23/04 2013 DI 13:09 FAX +43 7242 239 945 Trodat Innovation Center 0036/067
-33-
Recess 72a, limited pivot. The lever movement is thus limited in both directions via the lock, in particular the locking lever 30.
Of course, it is possible that the stop for limiting the lever movement of the lever 7 can also be realized independently of the lock, for which purpose an axis or a stop pin extends into or through an approximately horizontally formed recess on the lever 7 or therethrough is stored in the body. Thus, the lever 7 can be moved up or down until the axis abuts the end of the recess. At the same time, as known from the prior art, the lock, in particular the locking lever 30 may be arranged outside of the lever 7 and engage in the locking position in a corresponding recess of the lever 7 to lock. That Thus, in the inventive embodiment, the lever movement of the lever 7 is limited by a stop, which is preferably formed by the locking lever 30 or an axis or stop pin 15 in conjunction with a recess on the lever 7, as schematically by a partial section of the embossing forceps 1 in Fig. 16 can be seen.
Basically, it should be mentioned that, due to weight savings, the side walls 48 to 51 have recesses 73, wherein care must be taken in the arrangement that the correspondingly acting forces can still be absorbed without the embossing punch 1 or the side walls 48 to 51 deform. It is also possible that additional reinforcing inserts could be used in certain areas. Referring now more particularly to Figs. 7-9, the printing plate holder 5 is shown in more detail. The printing plate holder 5 is constructed in this embodiment of FIGS. 4 to 12 as a hybrid component, ie, that a part of the printing plate holder 5 is made of plastic and another part of a resilient material, which are preferably plugged together without screw, preferably together for which 30 corresponding snap-in and / or snap-in connections 74 are provided. Of course, it is possible to use this hybrid structure also in Figs. 1 to 3 or other counting of the prior art embossing die 1. 23/04/2013 13:09 34/65 No .: R336 P.036 / 067 23/04 2013 Tue 13:10 FAX +43 7242 239 945 Trodat Innovation Center 0037/067 • ·· ·· · · · · «« • · · · T · · · · · · ·
The hybrid structure is designed in such a way that a stamping plate receptacle 75, 76 made of plastic is formed and a guide strip 77 made of resilient material, in particular of metal, is formed. The embossing plate receptacles 75, 76 are designed in the form of a shell and preferably have the shape of the pressure plates 37. In this case depressions 78 are provided, in the end regions 79 of the elastic guide band 77 can be inserted. The end portions 79 are plate-shaped and are connected via a connecting web 80, which is shaped so that it has the resilient properties, that is, that the connecting web 80 is angled so that the two end portions 79 are correspondingly spaced. Preferably, the end portions 79 and the connecting web 80 are integrally formed of a resilient material. It is essential in the embodiment that a width of the connecting web 80 is approximately equal to or smaller than the plate spacing between the side walls 50, 51, so that the connecting web 80 15 can be received between the side walls 50, 51.
Due to the Flybrid structure, it is advantageous if the upper embossing plate receptacle 75 has an opening 81 through which the pressure roller 67 of the lever 7 protrudes and thus rests on the preferably metallic end portion 79 of the guide belt 77. Thus, the friction, in particular the frictional resistance, can be substantially reduced if the rolling movement takes place directly on a metallic material when the lever 7 is actuated, so that a hybrid structure is possible on account of this solution. It is particularly advantageous if the metallic surface of the end portion 79 is formed chromed, at the same time the pressure roller 67 is also 25 as chromed, since this the lowest frictional resistance is achieved.
Such an opening 81 is not required on the lower embossing plate holder 76, since no rolling movement of an acting element takes place here.
The lower embossing plate receptacle 76, in contrast, has two guide slots 82 (in accordance with FIG. 8) which corresponds approximately to a width of the material thickness of the side walls 50, 51, so that when the printing plate holder 5 is inserted, it can be inserted exactly over the guide slots 82. The arrangement of this guide slot 82 is 23/04/2013 13:10 35/65 No .: R336 P.037 / 067 23/04 2013 Tue 13:11 FAX +43 7242 239 945 Trodat InnovationsCenter 0038/067
In turn, it is only possible by the hybrid structure that the embossing plate holder 76 is produced as an injection-molded part and thus such guide slots 82 can be formed in a simple manner. As can be seen from FIG. 8, the lower embossing plate receptacle 76 has a transverse web 83 which can be inserted into the indentation or notch 65 on the side walls 50, 51, that is to say that exact and repeatedly identical positioning of the printing plate carrier 5 is achieved is, as when inserting the pressure plate carrier 5 snaps into the recesses 65, so that the user can deliberately push over these 10 wells 65 away. In this case, the recording and locking, in particular the recess 65 was added to the rear, so that the best possible guidance and support is given.
Furthermore, the printing plate holder 5, in particular the two 15 stamping plate receptacles 75, 76, still has a special inlet opening 84. For this purpose, an angularly extending surface and / or a projection 85 with angled guide web 86 or guide surface is arranged at the front region of the two embossing plate receptacles 75, 76, which simulates a very wide inlet opening 84, that is, far apart embossing plate receptacles 75, 76. In other words, this creates a wider insertion region 20 for the document to be embossed, the document being deflected over the angled surface or the angled guide web 86 in such a way that it guides embossing plates or printing plates 37 positioned between the two in the embossing plate receptacles 75, 76 become. It is also possible that the edge region of the embossing plate receiving 75,76 is formed correspondingly angular to facilitate the insertion of the documents. At the same time it is envisaged that the
Projection 85 is provided on the outer surface with grip grooves 87, so that a secure hold is given. Thus, the user can securely take the pressure plate holder 5 at these projections 85 with two fingers and insert it into the receiving device 3 30
In the illustrated embodiment of the printing plate holder 5, the embossing plates or dies (not shown) are no longer in the 23/04/2013 13:11 36/65 wr. : R336
P .038 / 067 23/04 2013 Tue 13:12 FAX +43 7242 239 945 Trodat Innovation Center 0039/067 23/04 2013 Tue 13:12 FAX +43 7242 239 945 Trodat Innovation Center 0039/067
···· ···· · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · ·
Embossing plate mounts 75.76 pressed, but the embossing plates or printing plates 37 are glued into the stamping recordings 75,76. For this purpose, a double-sided adhesive tape (not shown) is preferably used. 5 Since now an exact positioning of the pressure plate carrier 5 is achieved via the recess 78, it is advantageous if a Positäonierskalierung 88 is applied to the half-shell 43, in particular in the area below the receiving device 3. This can be done for example by simple arrows, as shown, or by a metric scaling. This ensures that the user can specify exactly the position 10 for embossing a document. Of course, it is also possible that corresponding means for positioning, in particular such a positioning scale 88, are also printed or arranged on the embossing plate holders 75, 76, so that exact positioning for the pressure plates 37 can be carried out. Furthermore, in the illustrated exemplary embodiment of FIGS. 4 to 12, in particular of FIGS. 10 to 12, a transport position 90 is shown in which the printing plate carrier 5 is inserted into the base body 2, ie, that the embossing punch 1, in particular the base body 2 , is designed for receiving the pressure plate carrier 5. For this purpose, Fig. 10 shows the rear view of the stamping die 1, wherein a clearance 91 between the 20 side walls 50,51 is present. In addition, the half-shell 43 has an opening 92 in the region of the recessed grip 45, so that sufficient space is created for the embossing-plate receptacles 75, 76. The recessed grip 45 extends from the contact surface 44 into the base body 2, so that the clearance 91 would be limited, but this is overcome by the opening 92 for receiving the pressure plate holder 5 25.
The die 1 is in the rest position 41, so that the printing plate holder 5 can be removed from the receiving device 3. Subsequently, the pressure plate holder 5 is inserted from behind under the lever 7 in the free space 91, so that the connecting web 80 in the region of
Receiving device 3 is arranged and the embossing plate receiving 75,76 are positioned through the opening 92 in the recessed grip 45, as shown in Fig. 11 can be seen. Thus 23/04/2013 13:11 37/65 No.: R336 P.039 / 067 23/04 2013 DI 13s12 FAX +43 7242 239 945 Trodat Innovation Center 0040/067 • • • • • • • • • · ·· · · · · · · ·
If the pressure plate carrier 5 is prevented from falling out, the embossing punch 1 is displaced or brought into the stamping position 42 and blocked by the blocking lever 30, so that pivoting back into the rest position 41 is prevented. In addition the lifting points! 7 a the printing plate holder 5, in particular the embossing plate receiving 75,76, 5 having holding portion 93 which abuts when printing plate holder 5 and fixing the lever 7 in the blocking position 42 on the printing plate holder 5 and holds before falling out of the main body 2 in position, that is, falling out of the pressure plate holder 5 from the base body 2 is prevented by the lever 7. In addition, it is possible that the half-shell 43 is formed accordingly, that this forms a rear wall 94, which prevents slipping out. Thus, when
Inserting without fixing the lever 7 prevents an easy falling out or slipping out immediately, so that with the subsequent fixation of the lever 7 in the blocking position 42 of the printing plate holder 5 is fixed. Furthermore, the embossing stamp 1 in the illustrated embodiments of Figures 4 to 12 may be formed such that the recessed grip 45 is formed with corresponding indentations for the fingers (not shown), so that an optimal handling and a firm grip of the embossing stamp are guaranteed. A further embodiment is possible in which the printing plate holder 5, in particular the 20 embossing plate receiving 38,39,75,76 positioning means for aligning the printing plates 37, ie, that, for example, on the side walls or the surface of the embossing record 38,39,75,76 Notches, protrusions or imprint is placed so that they can be aligned when inserting the printing plates 37 thereafter. For this purpose, it is also possible that, for example, the pressure plate 37 has a notch corresponding to a protrusion or nub on the embossing plate holder 38, 39, 75, 76, so that this pressure plate 37 is always used the same.
FIGS. 13 to 15 show a further exemplary embodiment with a different embodiment or design of the plate-like embossing stamp 1. The difference between the embodiment variant shown in FIG. 13 and the previously described figures, in particular the embodiments according to FIGS. 4 to 12, lies in the fact that now a special design of the recessed grip 45 in the area of the footprint 44 has been achieved. 12 38/65 No.: R336 P.040 / 067 23/04 2013 DI 13! 13 FAX +43 7242 239 945 Trodat Innovation Center 0041/067 23/04 2013 DI 13! 13 FAX +43 7242 239 945 Trodat Innovation Center 0041 / 067. In this case, the recessed grip 45 is designed such that circular sections 95-97, in particular three sections 95-97, are arranged for receiving the fingers of the user, which extend into the base body 2 in the direction of the lever 7. However, so that the pressure plate holder 5 can be accommodated in the main body 2, in turn, the opening 92 is arranged in the region of the recessed grip 45 so that the embossing plate receptacles 75,76 are inserted and in the recessed grip 45 can protrude. 10 Furthermore, a special inventive design of the printing plate holder 5 is shown in which now an index plate 98 is arranged for the embossing impression and / or identification of the printing plate holder 5, wherein the embossing plate holder 75 has a fastening means for the index plate 98. In this case, the fastening means for the index disk 98 is formed, for example, by a pivoting and locking joint 99 and is connected to the pressure plate holder 5, in particular the embossing plate holder 75, as best seen in FIG. 14. By this arrangement of the pivoting and locking joint 99, the index plate 98 can be pivoted with removed printing plate holder 5 on the embossing plate holder 75, in which case a first latching can take place. In this case, the pivot 20 and locking joint 99 preferably covers the opening 81 of the embossing plate holder 75.
If the printing plate holder 5 is inserted with the index disk 98 in the die 1, so the index plate 98 is first pivoted into a preferably second latching connection high, so that it is arranged at an angle of approximately 90 ° to the surface 25 of the embossing plate 75 as shown in FIG. 15. At the same time, the opening 81 is thereby released, so that the pressure element 66 of the lever 7 can act on the metallic guide belt 77 through the opening 81. By positioning is further achieved that now the printing plate holder 5 in turn can be easily inserted or inserted into the receiving device 3 of the 30 stamping die 1. The position of the index plate 98 with inserted printing plate holder 5 is parallel to the lever 7, so that an undisturbed embossing can be performed. 23/04/2013 13:13 39/65 No .: R336 P.041 / 067 23/04 2013 Tue 13:14 FAX +43 7242 239 945 Trodat Innovation Center 0042/067 9 9 ·· ···· • 9 • * • * 9 9 99 9 · • • • • 9 9 • • • • • • 99 · 9 • · 9 • 9 9 9 9 99 99 • 9 9 9 9 9 -39-
Such an arrangement of an index disk 98 ensures that the user can now easily recognize the embossing impression or the identification of the embossing stamp 1, since this can be imaged on the index disk 98, that is, the index disk 98 Embossed impression reproduces or a special identification is present, that is, a label with preferably the embossed impression or an identification figure or number can be pasted.
It is also possible that the index plate 98 is formed of several parts 10, so that for example a removable frame (not shown) is used and thus the embossing impression or identification can be inserted. It is also possible that, instead of the pivoting and locking joint 99, the indexing disk 98 is detachable, so that it can be fixed in the opening 81 on the surface of the embossing plate holder 75 (as shown in FIG. 14) and on the other hand 15 in a further recess (not shown) can be inserted, so that the index plate 98 is positioned at an angle of about 90 ° to the surface of the embossing plate holder 75 (as shown in FIG. 15). It is also possible for the index disk 98 to be smaller than the embossing impression, that is to say the printing plates 37. 20 But it is also an education possible in which the index disk 98 from
Pressure plate holder 5 can be removed and is attached, for example, on the lever 7 or on the die 1. For this purpose, the lever 7, in particular the half-shell 56 of the lever 7, a recess in which the index plate 98 can be fastened via a locking pin, ie, that the user removes the index plate 98 from the 25 printing plate holder 5 and this simply on the lever 7 can be plugged so that the imprint on the index plate 98 is visible.
However, since in the arrangement of the printing plate holder 5 in the die 1 on one side of the locking lever 30 is covered, it is necessary that for an optimal 30 functional lock a modified structure is used, as shown in FIGS. 17 and 18, wherein the lever 7 was not shown with the recess 72 of the review. In the case of a one-sided operation of the previously shown and described 23/04/2013 13:14 40/65 No.: R336 P.042 / 067 23/04 2013 Tue 13:14 FAX +43 7242 239 945 Trodat Innovationscenter) 43/067 • · It can namely come to difficulties because it can be misjudged in a one-sided sliding movement ev.
For this purpose, on the opposite side to the index plate 98, the locking lever 30 5 is again formed by the cover 69, which is connected to the axis 70. The axis 70 in turn extends through the recess 71 in the base body 2 in the recess 72 on the lever 7, but mounted on the opposite side, ie on the side with the index plate 98, the axis 70 hinged on one side on the base body 2 is. For this purpose, the axis 70 has a rounded end region 100, as can be seen in FIG. Thus, now on one side of the axis 70 may be movably mounted, and on the opposite side of the recess 71 to be approximately horizontally displaceable. This in turn ensures that the lever movement of the lever 7 is limited by a stop, which is preferably formed by the locking lever 30 or an axle 70 and a stop pin in connection with the recess 15 on the lever 7 7, wherein now the operation of the Locking lever 30 takes place only from one side.
Another embodiment is shown in FIG. In this case, now the half-shell 43 is formed such that they cover all end edges of the base body 20 2, in particular the plate elements 50,51. Basically, it is possible that the half-shell 43 may be formed in several parts. Thus, a peripheral edge of plastic is formed, in which the metallic plate elements 50,51 are inserted. Furthermore, in the illustrated Ausführungsbeispie! the lever 7 is formed such that the plate elements 48,49 is completely integrated into the half-shell 56 25 or is already injected during the production of the half-shell 56. It is also possible that corresponding symbols, such as for example on the locking lever 30 for locking and arranged underneath or below the receiving device 3 Positionierskalierung 88 (not shown), are punched onto the plate members 48 to 51.
In an exemplary embodiment according to FIG. 18, it can be seen that the recessed grip 45 now projects further, in particular deeper, into the main body 2. At the same time the 23/04/2013 13:14 41/65 No .: R336 P.043 / 067 30 23/04 2013 DI 13:15 FAX +43 7242 239 945 Trodat Innovation Center 12) 044/067 • · · · · ···· · · · «···· ················ ··· ····································································································································································· As can be seen from this embodiment, the plate elements 48, 49 are completely integrated in the half-shell 56. 5
For the sake of order, it should finally be pointed out that for a better understanding of the construction of the system 1 and its components or their components, they have been shown partially unevenly and / or enlarged and / or reduced in size. 10
Furthermore, individual features or combinations of features from the illustrated and described different embodiments may form separate, inventive or inventive solutions. 15 23/04/2013 13:15 42/65 No .: R336 P.044 / 067

权利要求:
Claims (33)
[1]
23/04 2013 Tue 13:15 FAX +43 7242 239 945 Trodat Innovationscenter 0045/067 f «· ♦ # ··· · · ················································································ 1. Embossing punch (1), comprising at least one base body (2) in which on one side a receiving device (3 ) is arranged for receiving a printing plate holder 10 (5) and on another side an actuating device (4), and the actuating device (4) is designed such that it acts directly or indirectly on the receiving device (3), wherein in the base body ( 2) an axis of rotation (6) of the actuating device (4) is arranged, characterized in that the base body (2) and / or the Betätigungsvorriehtung (4) 15 are formed like a module, in the side walls (10,11,18,19,48 51) are at least partially formed by plates which enter via half-shells (20, 21, 43) and / or connecting means (22, 52) are positioned and fixed in each other.
[2]
2. embossing stamp (1) according to claim 1, characterized in that the 20 side walls (10,11,18,19,48-51) of the base body (2) and / or the actuating device (4) made of a metal plate, carbon plate or aluminum plate is formed.
[3]
3. embossing die (1) according to claims 1 or 2, characterized in that the half-shells (20,21,43) and / or connecting means (22,52) are formed from plastic and are formed in one or more parts.
[4]
4. stamp (1) according to one of the preceding claims 1 to 3, characterized in that the half-shells (20,21,43) cross-connections (23) 30, and the half-shells (20,21,43), in particular the cross-connections ( 23) are designed pluggable. 23/04/2013 13:15 43/65 nt .: K336 P .045 / 067 23/04 2013 Tue 13:16 FÄX +43 7242 239 945 Trodat Innovationceriter 0046/067 t ··· ···· · · · · • * ·· ·· · · · ·

-43-
[5]
5. embossing die (1) according to one of the preceding claims 1 to 4, characterized in that the transverse connections (23), for example, as a latching connection, spacers, bearing elements, guide element, etc. "are formed. 5
[6]
6. stamp (1) according to one of the preceding claims 1 to 5, characterized in that the base body (2) is formed of a plastic * metal combination, in which the half-shells (20,21,43) are formed of plastic, in the one or more metal plate, in particular side wall 10 (10, 11, 18, 19, 48-51), can be inserted * with corresponding receptacles for the metal parts being arranged, for example, in the form of guides, depressions or latching connections.
[7]
7. stamp (1) according to one of the preceding claims 1 to 6, 15 characterized in that in the half-shells (20,21,43) and / or connecting means (22,52) for stabilization and reinforcement one or more Verstärküngselemente are integrated.
[8]
8. embossing punch (1) according to one of the preceding claims 1 to 7, 20 characterized in that the half-shells (20,21,43) over the entire side wall (10,11,18,19,48-51) extends.
[9]
9. embossing punch (1), comprising at least one base body (2) in which on one side a receiving device (3) for receiving a printing plate holder 25 (5) and on another side an actuating device (4) is arranged, and the actuating device (4 ) is designed such that it acts directly or indirectly on the receiving device (3), wherein in the base body (2) an axis of rotation (6) of the actuating device (4) is arranged, characterized in that in the base body (2) has a handle (34 ) is arranged for receiving a plurality of, in particular three, fingers of a user, and the handle (34), in particular the grip position, preferably at least partially above the receiving device (3) is arranged. P.046 / 067 44/65 23/04/2013 13:16 7.7 '' * 336 23/04 2013 Tue 13:17 FAX +43 7242 239 945 Trodat InnovationsCentex © 047/067 ·· ···· • • • • • • • • • • '' '• • • • • · ·. * '• • • • • • • • • • • • • • • • • • • • • • • • • • ··································
[10]
10. stamp (1) according to claim 9, characterized in that the Grift (34) by a grip hole (35) is formed, and that the handle hole (35) is preferably formed oval, and is adapted to receive a plurality of fingers of a user. 5
[11]
11. stamp (1) according to claim 9 or 10, characterized in that the base body (2) has a footprint (31,44) is arranged on the recessed grips (36) for receiving a plurality of fingers of a user.
[12]
12. embossing punch (1) according to any one of the preceding claims 9 to 11, characterized in that for actuating two different grip positions are ausgebildei, wherein the first handle position by the actuating lever (4) and the handle formed for several fingers (34) in the body and the second grip position is formed by the operating lever (4) and the recessed grips (36) arranged on the contact surface (31) 15.
[13]
13. embossing punch (1) according to any one of the preceding claims 9 to 12, characterized in that the contact surface (31,44) is designed such that together with the actuating lever (4) a table embossing is feasible. 20
[14]
14. embossing punch (1), comprising at least one base body (2) in which on one side a receiving device (3) for receiving a printing plate holder (5) and on a further side an actuation ung gsvorrieht ung (4) in the form of a lever (7) is arranged, and the actuating device (4) is äusgebildet such that this acts directly or indirectly on the receiving device (3), wherein in the base body (2) an axis of rotation (6) of the actuating device (4) is arranged, and that a Lock, in particular a locking lever (30) for fixing the lever (7) is arranged in a certain pitch, characterized in that a lever movement of the lever (7) by a stop, preferably by the 30 Sperrhebei (30) or an axis or . A stop pin in conjunction with a recess (72) on the lever (7) is limited. 23/04/2013 13:17 45 / n r. : ft 33 6 P.047 / 067 23/04 2013 Tue 13:17 FAX * 43 7242 239 945 Trodat Innovation Center 0048/067 • · • · · · · · · · «· · · · · · · 9 · · · · · · · · · · · · · · · · · · · · · ···················································
[15]
15. stamp (1) according to claim 14, characterized in that the locking lever (30) formed by a plastic cover (69) and an axis (70) is formed.
[16]
16. embossing punch (1) according to claim 14 or 15, characterized in that the recess (72) by an approximately horizontally extending guide recess (72 a) and an approximately vertically extending locking recess (72) is formed.
[17]
17. Stamper (1) according to one of the preceding claims 14 to 16, characterized in that the locking lever (30), in particular the axis (70), the lever movement over the guide recess (72 a) upwardly and downwardly limited.
[18]
18. Embossing punch (1) according to one of the preceding claims 14 to 17, characterized in that the locking lever (30), in particular the axis (70), in the stamping position (42) in the locking recess (72b) is slidable.
[19]
19, embossing stamp (1) according to one of the preceding claims 14 to 18, characterized in that the axle (70) is articulated on one side on the base body (2).
[20]
20. embossing punch (1), comprising at least one base body (2) in which on one side a receiving device (3) for receiving a printing plate holder 25 (5) and on another side an actuating device (4) in the form of a lever (7) is, and the actuating device (4) is designed such that it acts directly or indirectly on the receiving device (3), wherein in the base body (2) an axis of rotation (6) of the actuating device (4) is arranged, characterized in that the Base body (2) for receiving a 30 Druckpiattenhälters (5) is formed and the lever (7) for fixing the in the base body (2) arranged pressure plate holder (5) is ausgebiidet. 23/04/2013 13:17 46 / 65R336 P. 048/067 23/04 2013 ΟΙ 13:18 FAX +43 7242 239 945 Trodat Innovation Center 0049/067 23/04 2013 ΟΙ 13:18 FAX +43 7242 239 945 Trodat Innovation Center 0049/067 ·· ···· · ·. · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · ··································
[21]
21 embossing punch (1) according to claim 20, characterized in that the Hebei (7) has a the pressure plate holder (5), in particular the embossing plate receiving (75,76) having holding portion (93).
[22]
22 embossing die (1) according to claim 20 or 21, characterized in that the lever (7) in pressure plate holder (5) and when fixing the lever (7) in a blocking division on the printing plate holder (5) is applied and the printing plate holder (5). fixed.
[23]
23. Printing plate holder (5) for an embossing stamp, comprising at least one upper and lower embossing plate receptacle (38, 39, 75, 76), which are connected to one another above a guide strip (40), characterized in that the printing plate holder (5) is used as a hybrid Structure is formed, in which the embossing plate (38,39,75,76) made of plastic and the guide strip (40) of 15 spring-elastic material or plastic, in particular a high performance plastics with elastic and Abreibarmen properties is formed.
[24]
A printing plate holder (5) for an embossing stamp, comprising at least one upper and lower embossing plate receptacles (38, 39, 75, 76), which are connected to one another above a guide strip (40), characterized in that at least at a front region or in particular circumferentially on the embossing plate receptacles (38, 39, 75, 76), in particular for enlarging an inlet opening (84), an angularly extending surface or a projection with angled guide web (86) or guide surface is arranged.
[25]
25. printing plate holder (5) for an embossing stamp, comprising an upper and lower embossing plate receptacle (38,39,75,76), which are connected to each other via a guide strip (40), characterized in that a 30 embossing plate receptacle (38,39,75 , 76), in particular the lower, guide slots (82) and preferably a transverse web (83) for guiding and fixing in an embossing punch (1). P.049 / 067 23/04/2013 13:18 Vv65R336 23/04 2013 Tue 13119 FAX +43 7242 239 945 Trodat ίanovatioienter 0050/067 '·· ···· ·. • • :· • · 1 * ·. · · · *: · · · · · · · · ··· «·. • · «·············· - 47 -
[26]
26. A printing plate holder (5) for an embossing stamp (1), comprising an upper and a lower embossing plate receptacle (38, 39, 75, 76) which are connected to one another via a guide strip (40), characterized in that the printing plate holder 5 (5) one piece of plastic, in particular a Hoehleistungskunststoff, is formed, wherein on the preferably upper embossing mat receiving (38,39,75,76) a metallic insert for the action of a lever (7) of the embossing punch (1) is arranged.
[27]
27. The printing plate holder (5) according to one of the preceding claims 23 to 26, characterized in that the embossing plate sewing means (38, 39 * 75, 76) has positioning means for aligning the printing plates (37).
[28]
28, printing plate holder (5) according to one of the preceding claims 23 to 27, characterized in that the guide strip (40) between the side surfaces (10,11) of a stamping die (1) can be inserted.
[29]
29. printing plates haiter (5) according to any one of the preceding claims 23 to 28, characterized in that in the embossing plate recordings (38,39,75,76), the 20 insertable printing plate (37) via an adhesive layer, in particular a double-sided adhesive tape is attached ,
[30]
30. printing plate holder (5) according to any one of the preceding claims 23 to 29, characterized in that the embossing plate receptacles (38,39,75,76) for simulating 25 an enlarged entrance opening (84) a ring element with angled guide webs (86) or guide surfaces is pluggable.
[31]
31. Printing plate holder (5) for an embossing stamp, comprising at least one upper and lower embossing plate receptacle (38, 39, 75, 76), which are connected to one another via a guide strip 30 (40), characterized in that an embossing plate receptacle (38, 39 , 75, 76), an index disk (98) for the embossing impression and / or for identifying the printing plates (37) is arranged or removable. 23/04/2013 13:18 i8, / 65R336 .0507067 23/04 2013 DI 13s19FAX +43 7242 239 945 Trodat InnovationCenter 0051/067 ·· ···· • • • • • • • • • • • • · • • »• • • • • • •« · • ···· I * · • • • • • • • ·························································
[32]
32. printing plate holder (5) according to claim 31, characterized in that the embossing plate holder (75) has a fastening means for the index disk (98).
[33]
33. printing plate holder (5) according to claim 31 or 32, characterized in that the fastening means for the index plate 98 by a pivoting and locking joint (99) is formed. 23/04/2013 13:19 49/65 in i. , R336 P.051 / 067

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同族专利:

---

公开号 | 公开日

---

US10029510B2|2018-07-24|

---

AT514302B1|2015-09-15|

---

CN104139617A|2014-11-12|

---

CN104139617B|2018-11-09|

---

US9475337B2|2016-10-25|

---

US20140311366A1|2014-10-23|

---

US20150246574A1|2015-09-03|

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

---

ATA341/2013A|AT514302B1|2013-04-23|2013-04-23|Embossing stamp and printing plate holder for the embossing stamp|ATA341/2013A| AT514302B1|2013-04-23|2013-04-23|Embossing stamp and printing plate holder for the embossing stamp|

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US14/258,682| US10029510B2|2013-04-23|2014-04-22|Embossing stamp and die plate holder for the embossing stamp|

---

CN201410165626.8A| CN104139617B|2013-04-23|2014-04-23|Marking press and stamp fixed seat for marking press|

---

US14/712,402| US9475337B2|2013-04-23|2015-05-14|Embossing stamp and die plate holder for the embossing stamp|