• 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:
    Glove complement that allows the activation of a capacitive type tactile device (1) of the type that adhere in the area of the fingerprint and fingernail of a glove (0) that mainly consists of: To. A conductive surface (10), arranged in the area of the fingerprint of the glove, composed of electrically conductive material. B. An electrochemical device (20), arranged in the area of the finger nail of the glove, consisting of a filling (21) of electrically conductive material whose purpose is to make electrical contact between the conductive surface (10) and a conductive envelope (22) from the negative pole of the anode (24), and which also consists of a liquid ionic electrolyte (25) and a cathode (26), isolated positive pole, all encapsulated in an insulating shell (23). (Machine-translation by Google Translate, not legally binding)
    公开号:ES2640751A1
    申请号:ES201700523
    申请日:2017-03-30
    公开日:2017-11-06
    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:

    Supplement for glove that allows the activation of a capacitive touch device. 5 Object and sector of the technique to which the invention relates
    The present invention relates to a glove complement that allows the actuation of a capacitive type touch device.
    The object of the invention is a complement that adheres to the area of the fingerprint and fingernail of a glove; For all types of gloves.
    Being applied in 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.
    2 O Generalities and closest prior state of the art
    The glove is a garment whose purpose is to wrap your hands or protect them from bumps, cuts, abrasions, infections, high temperatures, etc. Many activities, both in medicine and industry, require the mandatory use of gloves; Among them: 25 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, screens, glass, food, etc.). It is included as Personal Protective Equipment (PPE), according to the definition of Royal Decree 1407/1992, of 20
    November 3, which regulates the conditions for the commercialization and free intra-community circulation of personal protective equipment. BOE no. 311, of December 28, protecting the part of the body that suffers the most injuries such as the hand.
    35 The most popular touch screens currently used in smart mobile phones or touchpad panels of laptops are "capacitive", because the image quality is better, they have a 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.
    4 O 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 lin-doped indium 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 change in capacitance
    4 5 (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.
    The unexpected side effect of the capacitive screens of having to remove the 5 gloves to use any function of the phone has become a problem.
    Different types of solutions to said technical problem are known in the state of the art.
    Special gloves for touch screens (touchscreen g / oves) are known, such as those found on the following website: https://www.mujjo.com/touchscreen-gloves. made of fabric that incorporates electrically conductive fibers, the problem being that we can only find a small range of gloves, also with high cost, and that remains unresolved.
    15 problem for already manufactured gloves; 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 that can be found on the following website: https://www.amazon.es/OUTAD-Guantes
    20 Cycling-Funci% C3% B3n-Warm / dp / 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 gloves is still unsolved manufactured, 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 covering part of a user's palm and at least one housing to cover at least one finger of said user, the problem being that
    3 O is described glove is complex and that the problem for already manufactured gloves remains unresolved, in addition to that indicated above.
    Accessories (gadgets) for gloves are known, such as those found on the following website:
    35 https://www.kickstarter.com/projects/nanotips/taps-touchscreen-sticker-w-touch-idships-before-x token=5b586aa6, which incorporates a flexible film that sticks to the gloves, where they should be our fingerprints, and we can register them on the mobile as one more fingerprint among those we have authorized to unlock the device; they are waterproof, so nothing happens because it rains, and capable of
    4 Or stick to any type of fabric from which the gloves are made, the problem being that they have complex and expensive nanotechnology that once glued cannot be detached 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 thermal insulation capacity of the glove, especially in the area of the fingers that is where it is most required;
    X require complex and expensive nanotechnology;
    2 O X some accessories require piercing the glove tissue. Technical advantage provided by the invention
    The device (1) that the invention advocates fully resolves in a satisfactory manner the aforementioned problem, in each and every one of the different aspects mentioned. Brief description of the figures
    3 O To complement the description and in order to help a better understanding of the characteristics of the invention, a set of figures with an illustrative and non-limiting nature is attached as an integral part of said description.
    Glossary of references
    35 (ID Glove, any of the prior art; (O 1) Finger of the glove; (!) Supplement for glove that allows the operation of a touch device
    capacitive type, object of the invention; 4 O (10) Conductive surface, fingerprint area of the glove;
    (twenty) Electrochemical device, fingernail area of the glove finger;
    (twenty-one) Filling;
    (22) Conductive envelope, negative conductor pole;
    (23) Insulating envelope, positive pole isolated; 45 (24) Anode, (-) of the electrochemical device;
    (25) Ionic liquid electrolyte;
    (26) Cathode, (+) of the electrochemical device;
    (30) Adhesive surface;
    Figure 01 (Fig. Ol) .- 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 (1) for a glove that allows the activation of a touch device of the capacitive type (1);
    10 Figure 03 (Fig. 03) .- shows an arrangement profile view of a complement (1) on a finger of the glove (O 1);
    Figure 04 (Fig. 04) .- shows a bottom plan view of the arrangement of a complement (1) on a finger of the glove (01);
    Figure 05 (Fig. OS) .- shows a profile view of a complement (1);
    Figure 06 (Fig. 06) .- shows a detail view HA "
    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
    25 possible alternatives, by enumerating their components as well as their functional relationship based on references to the figures, which have been included, by way of illustration and not limitation, according to the principles of the claims.
    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 prior art, is shown in Fig. As described, gloves (O) of the closest prior art suffer from a number of drawbacks.
    35 Fig. 02 shows a perspective view of a glove that incorporates several accessories for a glove that allows the activation of a capacitive touch device (1). As described, gloves (O) incorporating various accessories (1), object of the invention, solve said drawbacks. He
    4 O complement (1) can be arranged on each of the fingers of the glove, although preferably it will be placed on the thumb and index finger.
    An arrangement profile view of a complement (1) on a finger of the glove (O 1) is shown in Fig. 03, in which the parts it contains can be seen:
    to. a conductive surface (10), Fig. 04, disposed in the area of the fingerprint of the glove, composed of electrically conductive material.
    b. an electrochemical device (20), Fig. 05-06, arranged in the area of the nail of the
    5 finger of the glove, which consists of a filling (21) of electrically conductive material whose fine quality is to make electrical contact between the conductive surface
    (10) and a conductive envelope (22) from the negative pole of the anode (24), and also consisting of an ionic liquid electrolyte (25) and a cathode (26), isolated positive pole, all encapsulated in an envelope insulator (23).
    C. optionally an adhesive surface (30) to adhere the conductive surface
    (10) and the electrochemical device (20) to the glove finger (0 1).
    An operation scheme is shown in Fig. 06 to the right of detail "A"
    15 of the electrochemical device (20) in which the positive pole makes contact with the insulating envelope (23), so that it will remain insulated, and the negative pole makes contact with the conductive envelope (22) that will make contact with the conductive surface (10)
    2 O In a preferred embodiment the conductive surface (10) is formed of doped plastic to be conductive of the electricity adhered to an adhesive surface
    (30) and the filler (21) is formed of doped plastic so that it is conductive of electricity whereby the electrochemical device (20) adheres to an adhesive surface (30), and the entire adhesive surface (30) adheres to the finger of the glove (O 1).
    In another preferred embodiment, the conductive surface (10) is formed on the basis of an electrically conductive paint that adheres to the glove finger (O 1) and the filling (21) is formed on the basis of a conductive paint on the electricity that adheres the electrochemical device (20) to the glove finger (O 1).
    In a preferred embodiment the electrochemical device (20) is constructed on a millimeter scale, consisting of an anode (24) of tin dioxide (Sn02), an ionic liquid electrolyte (25), and a cathode (26) of cobalt dioxide -litium (LiCo02).
    35 When operating on a capacitive touch screen, the conductive surface (10) that is attached to the anode (24), negative pole, of the electrochemical device (20) will activate the capacitive screen that will recognize a change in the capacity of the area in which makes contact with it. It has been proven in an experiment with different prototypes that the battery charge does not influence the activation so even though
    4 Or it lacks charge (electrochemical device discharged) as long as potential is available, which is always given, the device (1) will work in perpetuity. One of the great advantages of the device (1) is that there is no need to make contact with the finger by piercing the glove with an insert, the potential of the electrochemical device (20) makes contact unnecessary.
    权利要求:
    Claims (4)
    [1]
    1. Supplement for a glove that allows the actuation of a capacitive type touch device (1), of the type that adheres to the fingers of a glove (O) with
    5 in order to act on a capacitive touch screen, which is characterized by:
    to. a conductive surface (10), arranged in the fingerprint area of the
    glove, composed of electrically conductive material. 10
    b. an electrochemical device (20), disposed in the area of the fingernail of the glove, consisting of a filling (2 1) of electrically conductive material whose purpose is to make electrical contact between the conductive surface (10) and an envelope conductive (22) from the negative pole of the anode (24), and that
    15 also consists of an ionic liquid electrolyte (25) and a cathode (26), isolated positive pole, all encapsulated in an insulating envelope (23).
    [2]
    2. Supplement for a glove that allows the actuation of a capacitive type touch device (1), according to claim 1, characterized in that
    2 Or the conductive surface (10) is formed of doped plastic to be conductive of the electricity adhered to an adhesive surface (30) and the filling (21) is formed of doped plastic to be conductive of the electricity so that the electrochemical device (20) adheres to an adhesive surface (30), and the entire adhesive surface (30) adheres to the finger of the glove (O 1).
    [3]
    3. Glove complement that allows the actuation of a capacitive type touch device (1), according to claim 1, characterized in that the conductive surface (10) is formed based on conductive paint of the electricity that is adheres to the glove finger (O]) and the padding (21) is formed on the basis
    3 O of electrically conductive paint that adheres the electrochemical device
    (20) to the finger of the glove (O 1).
    [4]
    4. Glove complement that allows the actuation of a capacitive type touch device (l), according to any one of claims 1 to 3, which is
    35 characterized by the fact that the electrochemical device (20) is constructed on a millimeter scale, consisting of an anode (24) of tin dioxide, Sn02, an ionic liquid electrolyte (25), and a cathode (26) of cobalt-lithium, LiC002.
     FIG. 01 
     FIG. 02 
     FIG. 03 
     FIG. 04 
     FIG. 
    30
     FIG. 06 
    + I; 2. 3
    - ~ 22
    类似技术:
    公开号 | 公开日 | 专利标题
    US10139938B2|2018-11-27|Mobile terminal
    US9593969B2|2017-03-14|Concealed electrical connectors
    ES2874158T3|2021-11-04|A capacitive force and / or pressure sensor
    CN204048340U|2014-12-31|Wearable projector equipment
    JP2015127951A5|2017-12-14|Display device
    TW200937273A|2009-09-01|Touch panel and driving method of touch panel
    US10754378B2|2020-08-25|Touch sensor and bracelet-type device
    EP2386214A3|2012-06-06|Glove for operating a capacitive touch panel
    CN104345997B|2017-08-25|Contact panel
    EP3626791A1|2020-03-25|Protective film for mobile phone with game function
    CN107003740A|2017-08-01|Belt sensor and the Wearable equipment with belt sensor
    ES2640751B2|2018-07-05|Supplement for glove that allows the activation of a capacitive touch device
    TWM374617U|2010-02-21|Double-layered resistive touch panel
    KR20110000060U|2011-01-05|Touch panel touch sticker of capacitive overlay
    CN208532680U|2019-02-22|A kind of safeguard film for cellular phone with game function
    ES2629522B2|2018-02-15|Perforating glove complement that allows the activation of a capacitive touch device
    CN108733271A|2018-11-02|A kind of touch conductor of capacitance touch screen
    KR101138035B1|2012-04-20|Gloves for input data into capacitive type touch panel
    WO2013048343A3|2013-05-23|Mitten / glove combination including electrically conductive portions
    JP3195752U|2015-01-29|Suction cup type switch for touch panel
    KR20120044676A|2012-05-08|Gloves for operating capacitive touch screen
    CN209248504U|2019-08-13|A kind of touch conductor of capacitance touch screen
    CN203353739U|2013-12-25|Warm-keeping health-care gloves
    ES2586290B1|2017-07-24|Writing optimizer accessory for touch screen.
    CN207410408U|2018-05-25|For the handle rocker device coordinated with mobile phone screen
    同族专利:
    公开号 | 公开日
    ES2640751B2|2018-07-05|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US20090066658A1|2007-09-12|2009-03-12|Earl Steven R|Glove attachment for touch sensitive data entry|
    US20120308806A1|2009-06-03|2012-12-06|Gerald Leto|Material for use with a capacitive touch screen|
    US20110289654A1|2010-05-29|2011-12-01|Thomas Lovell Williams|Electrically conductive device to be applied to a portion of a glove for use with touch screen device|
    US20130168222A1|2011-07-11|2013-07-04|Alice Ning|Conductive Composites|
    US20130036529A1|2011-08-08|2013-02-14|Ford Global Technologies, Llc|Glove having conductive ink and method of interacting with proximity sensor|
    US20130291280A1|2012-05-03|2013-11-07|Randy Cheng|Finger glove for electronics device|
    法律状态:
    2018-07-05| FG2A| Definitive protection|Ref document number: 2640751 Country of ref document: ES Kind code of ref document: B2 Effective date: 20180705 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201700523A|ES2640751B2|2017-03-30|2017-03-30|Supplement for glove that allows the activation of a capacitive touch device|ES201700523A| ES2640751B2|2017-03-30|2017-03-30|Supplement for glove that allows the activation of a capacitive touch device|
    [返回顶部]