• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Perforating accessory for glove that allows the activation of a capacitive type touch device (1), of the type that is inserted in the fingers of a glove (0) in order to act on a capacitive type touch screen, which mainly consists of: To. An inner envelope (11) composed of electrically conductive material to be inserted inside a finger of the glove (01); B. An outer sheath (12) with a finger shape formed of an electrically conductive elastic material to be placed on the outside of the finger of the glove (01). (Machine-translation by Google Translate, not legally binding)
    公开号:ES2629522A1
    申请号:ES201700525
    申请日:2017-03-30
    公开日:2017-08-10
    发明作者:Juan Carlos Sáenz-Díez Muro;Emilio Jiménez Macías;Julio Blanco Fernández
    申请人:Universidad de La Rioja;
    IPC主号:
    专利说明:

    Perforating complement for glove that allows the operation of a tactile device of type ca pacific. 5 Object and sector of the technology to which the invention relates
    The present invention relates to a perforating glove complement that allows the actuation of a capacitive touch device.
    The object of the invention is a complement that is inserted inside and outside the fingers of a glove; for gloves preferably of wool or textile material that have interstices in the fabric, although it is also suitable for use in sanitary latex gloves or similar for single use.
    15 Being applied to gloves in the manufacturing phase or already manufactured both new and used.
    The invention is located in the technical sector of industrial engineering and, more specifically, in the field of textile manufacturing.
    Generalities and prior state of the art closest
    The glove is a garment whose purpose is to wrap your hands or protect them from bumps,
    25 cuts, abrasions, infections, high temperatures, etc. Many activities, both in medicine and industry, require the mandatory use of gloves; among them: surgical gloves and healthcare professionals, their materials are: latex, nitrile and vinyl, for welders, for firefighters. Many times it is not only used to protect the hand, but it is also used to protect the product (memories,
    30 screens crystals, food, etc.). It is included as Personal Protective Equipment (PPE), based on the definition of Royal Decree 1407/1992, dated November 20, which regulates the conditions for the commercialization and free intra-community circulation of personal protective equipment. BOE no. 3 11, of December 28, protecting the pane of the body that suffers the most injuries as it is
    35 hand.
    The currently most popular touch screens used in smart mobile phones or touch panels of touch computers are "capacitive", because the image quality is better, they have 4 or better response and some allow the use of several fingers at once (multitouch). However, they are more expensive and cannot be used with a normal pointer. but with a special one for capacitive screens. Based on capacitive sensors, they consist of a layer of electrical insulation, such as glass, coated with a transparent conductor, such as tin-doped jlldium oxide (lTO). As the human body is not insulating but is an electrical conductor. touching the surface of the screen results in a distortion of the electrostatic field of the screen, which is measured by the
    capacitance change (electrical capacity). Different technologies can be used to determine where the touch was made on the screen; The position is sent to the controller for processing.
    5 The unexpected side effect of capacitive screens of having to remove gloves to use any function of the phone has become a problem.
    Different types of solutions to the aforementioned technical problem are known in the state of the art.
    10 Special gloves for touch screens (touchscreen g / m'es) are known as e.g. those that we can find in the following web page: httos: //www.muiio.comltouchscrccn-l! lovcs. made of fabric that incorporates conductive fibers of electricity. being the problem that we can only find
    15 a small range of gloves. also with high cost, and that remains the problem for gloves already manufactured; In addition, the electrically conductive fibers are heat conductive, reducing the thermal insulation capacity of the glove.
    Special gloves are known for touch screens such as those we can
    2 Or find.-on the following website: hups: //www.amazon.es/OUTAD-GuantesCiclismo-Funci%C3%B3n-Calicntcldn! BOI9IFGRPO. which incorporate conductive fibers in the thumb and index finger, the problem being that we can only find a small range of gloves, and that the problem for already manufactured gloves remains unresolved. in addition to the one indicated above.
    25 Gloves are also known that allow the actuation of a capacitive touch device such as the one included in the patent document with publication number ES-2552214_T3 and priority date 09.12.2011, which refers to a glove that It has a coating part of a user's palm and at least one housing to cover at least one finger of said user. being the problem that is described glove is complex and that the problem for already manufactured gloves remains unsolved. in addition to the one indicated above.
    Accessories (gadgets) are known for gloves such as those we can
    35 found on the following website: https: //www.kickslarter.comlproiects/nanotips! Taps-touchscreen · stick er · w -Iouch-idships-before-x Token-5b586aa6. It incorporates a flexible film that sticks to the gloves. where our fingerprints should be and we can register them in the mobile as one more footprint among those we have authorized to unlock 4 OR the equipment; They are waterproof, so nothing happens because it rains, and they can stick to any type of fabric from which the gloves are made. being the problem that have complex and expensive nanotechnology that once stuck can not be taken off for change to a new glove.
    Technical problem raised
    The prior art systems present a problem that focuses primarily on the following aspects:
    X require gloves specially manufactured with fabric that incorporates conductive fibers, having a small range of high cost and not being applied in gloves already manufactured;
    10 X require gloves that incorporate conductive fibers in the thumb and index finger, having a small range and not being applied in already manufactured gloves;
    X incorporate electrically conductive fibers that reduce the capacity of thermal insulation of the glove, especially in the area of the fingers that is where it is most required;
    'X requires complex and expensive nanotechnology that once glued cannot be detached for change to a new glove. 20 Technical advantage provided by the ¡n, 'ención
    The device (1) that the invention advocates solves in a fully satisfactory manner the aforementioned problem, in each and every one of the different aspects mentioned.
    Rre 'and description of the figures
    To complement the description and in order to help a better understanding of the characteristics of the invention, it is accompanied as an integral part of said description, a set of figures with an illustrative and non-limiting nature.
    Reference Glossary, or
    3S <Glove ID, any of the prior art;
    (01) Finger of the glove; Perforating glove complement that allows the actuation of a
    W
    capacitive type touch device, object of the invention;
    (11) Inner envelope; 4 0 (111) Hollow body;
    ( 112) Thimble;
    ( 113) Tab;
    (12) outer wrap;
    4S Figure 01 (Fig, OI). · Shows a perspective view of a glove (O), any of the prior art;
    Figure 02 (Fig. 02) .- shows a perspective view of a glove that incorporates several accessories for a glove that allows the operation of a capacitive touch device (1);
    5 Figure 03 (Fig. 03) .- shows a schematic view of assembling a complement
    (one );
    Figure 04 (Fig. 04) .- shows a view in longitudinal section according to the cut line 10 "AB";
    Figure 05 (Fig. 05) .- shows an elevation view of an inner envelope (11);
    Figure 06 (Fig. 06) .- shows an elevation view of an outer envelope (12); 15 Figure 07 (Fig. 07) .- shows a sectional view of detail "C".
    Detailed description of the invention and detailed presentation of a preferred embodiment of the invention
    A preferred embodiment of the invention is described in detail, among the different possible alternatives, by enumerating its components as well as its functional relationship based on references to the figures, which have been included, for illustrative and non-limiting purposes, according to the principles of the claims.
    25 Reference is made to the figures as necessary according to a better understanding of what is shown therein.
    A perspective view of a glove (O), any of the 3 O prior art state, is shown in Fig. As described, gloves (O) of the closest prior art suffer from a number of drawbacks.
    In Fig. 02 a perspective view of a glove that incorporates several accessories for glove that allows the activation of a touch device of
    35 capacitive type (1). As described, gloves (O) incorporating various accessories (1), object of the invention, solve said drawbacks. The complement (J) can be arranged on each of the fingers of the glove, although preferably it will be placed on the thumb and index finger.
    - 4 O A schematic assembly view of a complement (1) is shown in Fig. 03. in which you can see the parts it contains:
    to. an inner envelope (1 1), Fig. OS, to insert inside a finger of a glove (O 1), which consists of a hollow body (111) fused with conductive material
    - 45 of electricity with a cylindrical interior and external shape composed of a succession of truncated conical sections. which has in each union of said sections a plurality of tabs (113), inserted with a certain inclination to favor the introduction, formed of electrically conductive material. and that said hollow body () 1 1) is finished off at one of its ends by a thimble (1 t2) composed of electrically conductive elastic material.
    s In a preferred embodiment the hollow body (111) is formed of doped plastic to be conductive of electricity.
    In a preferred embodiment the tabs (11 3) are formed of doped transparent plastic 10 so that it is a conductor of electricity; In another preferred embodiment the tabs (113) are formed of metal.
    In a preferred embodiment, the thimble (1 12) is formed of doped latex to be a conductor of electricity. fifteen
    h. an outer shell (12), Fig. 06, to be placed on the outside of the finger of the glove (O 1) shaped like a spring formed of elastic material that conducts electricity.
    In a preferred embodiment, the outer shell (12) is formed of doped transparent latex 2 O to be conductive of electricity.
    The mounting procedure of the perforating glove complement that allows the operation of a capacitive type touch device (1) is as follows. Fig. 03
    04: 25
    to. insert the inner envelope (1 J) into the intent of a finger of the glove (01) until it stops; the inclination of the plurality of eyelashes (113) allows the advance through the inside of the finger of the glove (O);
    30 b. go back a little until you see the eyelashes (1 13) coming out of the finger of the glove (01); Depending on the type of glove, it is preferable that the eyelashes (1 3) are made of plastic material, such as wool or metal, such as latex;
    C. insert the outer wrap (12) on the outside of the glove finger (01) until
    35 make a stop; the elastic material of which it is made will cause it to remain attached to the succession of frustoconical sections of the inner shell (11);
    d. Operate on a capacitive touch screen, since especially the tip of the finger will make contact with the thimble (112) And this with the plurality of tabs
    40 (113) through the hut body: co (111), and said tabs (113) with the outer envelope (12), and since they are all electrically conductive material the capacitive screen will recognize a change in the capacity of the area in which contact is made with it.
    45 Fig. 07 shows a sectional view of detail "e". It can be seen how the eyelashes (11 3) have pierced the tissue or material of the glove finger (01) and electrically communicate the hollow body (111) with the outer envelope (12). The tabs (113) have a flat flange shape with a base equipped with harpoons so that once they are stuck in the body (11 1) they are maintained.
    5 The procedure for disassembling the perforating glove complement that allows the actuation of a capacitive type touch device (1) is as follows, Fig. 03-04:
    to. remove the outer wrap (12) from the outside of the glove finger (O 1); if it is damaged, for new uses, it will be replaced by a new one;
    bl. in the case of latex gloves or similar of a single use, break the finger of the glove to extract intact the inner envelope (1 1);
    lS b2. in the case of textile gloves or similar of continuous use that want to be discarded because they are damaged. break the finger of the glove to extract intact the inner envelope (11);
    b3. in the case of textile gloves or similar of continuous use that are wanted
    20 keep, if the eyelashes are Oexible, remove the inner wrap (JI) by dragging the eyelashes (1 13) countercurrently;
    h4. in the case of textile or similar gloves for continuous use that you want to keep, if the eyelashes are rigid, first remove the plurality of eyelashes (113)
    2 S And second the inner envelope (11) to subsequently reinsert the tabs (11 3).
    权利要求:
    Claims (6)
    [1]
    1. Perforating glove complement that allows the activation of a capacitive type touch device (1), of the type that is inserted into the fingers
    S of a glove (O) in order to act on a capacitive touch screen, which is characterized by:
    to. an inner envelope (11) for inserting inside a finger of a glove (01), which consists of a hollow body (111) shaped with a conductive material of electricity with cylindrical interior shape and exterior shape composed of a succession of truncated conical sections, which have in each union of said sections a plurality of tabs (113), inserted with a certain inclination to favor the introduction, formed of electrically conductive material. and that said hollow body (11 I) is finished off in one of its
    1 5 ends by a thimble (1 12) composed of elastic conductor of electricity;
    b. an outer wrap (12) to place on the outside of the glove finger (01)
    shaped like a grooved dedil made of elastic material that conducts electricity. twenty
    [2]
    2. Perforating glove complement that allows the actuation of a capacitive type touch device (1), according to claim 1, characterized in that the hollow body (111) is formed of doped plastic to be conductive of the electricity.
    [3]
    3. Perforating glove complement that allows the actuation of a tactile device of capacitive type (1), according to any one of claims I or 2, characterized in that the thimble (112) is formed of latex doped to be a conductor of electricity.
    [4]
    4. Perforating glove complement that allows the actuation of a capacitive type touch device (1), according to any one of claims I to 3, characterized in that the outer shell (12) is formed of transparent latex doped to be a conductor of
    35 electricity.
    [5]
    5. Perforating glove complement that allows the actuation of a capacitive lipa touch device (1), according to any one of claims I to 4, characterized in that the tabs (113)
    4 Or they are formed of doped transparent plastic to be a conductor of electricity.
    [6]
    6. Perforating glove complement that allows the activation of a capacitive type touch device (1). according to any one of the
    Claims I to 4, characterized in that the tabs (113) are formed of metal.
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    同族专利:
    公开号 | 公开日
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    引用文献:
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    WO2012036402A2|2010-09-13|2012-03-22|Nah Do-Jin|Input pen for manipulating a touch screen and glove including the input pen|
    CN202680583U|2012-05-28|2013-01-23|无锡新亚安全用品有限公司|Touch screen glove|
    CN203149493U|2013-01-31|2013-08-21|北京百纳威尔科技有限公司|Finger cot for operating touch screen|
    CN203234077U|2013-04-18|2013-10-16|李富升|Multifunctional touch screen glove|
    CN204930472U|2015-07-09|2016-01-06|刘艳艳|A kind of touch screen type gloves|
    法律状态:
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    优先权:
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