CN210742890U - Intelligent wearable finger contact information collection equipment - Google Patents

Abstract

The utility model discloses an intelligence wearing formula finger touches first information collecting equipment, including flexible touch first switch array gloves, attached flexible interface saddle and controller, flexible touch first switch array gloves include the gloves main part, the finger tripe of gloves main part, the finger back, equally divide on palm center and the palm back and distribute the circuit return circuit that constitutes by the conductive flexible cord, interface circuit and switch contact cover each finger region, and form multi-way switch array return circuit, the circuit return circuit, interface circuit and switch contact symmetry extend to rule arrangement on the back of the hand and the palm, attached flexible interface saddle is attached above flexible touch first switch array gloves and is fixed with the controller, the controller sets up the electric signal flexible connection transmission through attached flexible interface saddle and flexible touch first switch array gloves, the utility model discloses simple structure, the simple operation, adopt the wearing formula structure can wear convenient control with oneself, the physical buttons and the operating rod are abandoned, and a touch element set is adopted, so that various different controls can be realized without watching eyes.

Description

Intelligent wearable finger contact information collection equipment

Technical Field

The utility model relates to an electron device technical field especially relates to an intelligence wearing formula finger contact information equipment.

Background

At present, for the control of the switching value signal, in order to meet the control requirements of people in the prior art, a special controller is generally adopted. Some controllers adopt physical buttons or operation rods, some controllers adopt touch screens, and buttons or operation rod icons are arranged on the screens. When the switch valve is used, the switch value signal is controlled by using fingers and palms to perform pointing, pressing or pushing the buttons or the operating rods under the fixation of eyes. However, the controller adopts an indirect interaction mode to participate in control, is usually fixed at a designated position when in use, is inconvenient to carry about, has a single control mode and poor flexibility, cannot watch the scene of the controller by eyes (such as blind people or inconvenient watching by eyes) when controlling under virtual scenes (AR and VR), and is extremely inconvenient to finely operate and control under a small-size screen. Therefore, it is urgently needed to develop an intelligent wearable finger contact set information device with a sensing mode, which has a simple structure, is convenient to carry, is flexible in mode, is convenient to operate, and can still realize accurate positioning under the conditions of no visual feedback and direct vision.

In view of this, the present invention is especially provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an intelligence wearing formula finger touches first information equipment, simple structure, the simple operation adopts the wearing formula structure can hand-carry and wear convenient control, has abandoned entity button and action bars, adopts and touches first set, does not need eyes to watch the controller and can realize multiple different control, has wide application prospect, is favorable to popularizing and applying.

In order to achieve the above object, the utility model provides an intelligence wearing formula finger touches first information collecting equipment, including flexible touch first switch array gloves, attached flexible interface saddle support and controller, flexible touch first switch array gloves includes the gloves main part, equally divide cloth on the finger tripe of gloves main part, the back of the finger, palm center and the back of the palm have the circuit return circuit that constitutes by the conductive flexible cord, interface circuit and switch contact, cover each finger region, and form multi-way switch array return circuit, circuit return circuit, interface circuit and switch contact symmetry extend to back of the hand and palm rule arrangement on the heart, interface circuit as switching signal is used for cooperating with the conductive cushion on the attached flexible interface saddle support, through flexible, elastic conductive contact, accomplish the transmission to switching signal, attached flexible interface saddle support is attached above flexible touch first switch array gloves and is fixed with the controller, the controller establishes electric signal flexible connection transmission with the flexible touch element switch array glove through the attached flexible interface saddle support.

Preferably, the controller is composed of a plurality of electronic function modules and input/output interfaces, the central processor/information generator and the audio/video acquisition module for acquiring sound and image environment signals around the hand, the image judgment/scanning decoding module for identifying human faces, patterns, characters, numbers and bar code signals, the left and right hand setting switch for identifying which hand the signals come from, the loop judgment module for judging which loops the touch element signals come from, the waveform frequency/coding/decoding module and the switch parameter judgment module for judging the array region of the touch element signals, the motion parameter judgment module and the orientation parameter judgment module for further generating motion, posture and orientation signals of the hand and the wireless/wired data/information output/input interface module for carrying out information and control quantity exchange with other equipment are in two-way transmission, the central processor/information generator, the illumination/light supplement module, the sound/light display module and the vibration feedback module are in one-way transmission.

Preferably, the attached flexible interface saddle comprises a saddle main body, a saddle platform is arranged at the upper part of the saddle main body, the saddle platform is provided with a clamping groove and a locking structure for fixing the controller and a platform contact interface electrically connected with the controller, the bottom of the saddle main body is of an arc structure which is attached to the back of a hand, a layer of conductive soft cushion is attached to the saddle main body, the conductive soft cushion is made of soft elastic conductive materials, the flexible touch element switch array glove is used for being in contact with a conductive flexible wire of an interface circuit on the flexible touch element switch array glove so as to establish flexible connection transmission of electric signals between the flexible touch element switch array glove and an attached flexible interface saddle, the upper part of the conductive soft cushion is in contact connection with an interface PCBA at the bottom of a saddle main body, and the connector is connected with a POGOPIN platform contact interface on the saddle platform through an interface PCBA, and signals are transmitted into the controller through contacts and contact pins of the interface.

Preferably, the conductive cushion is made of a flexible and elastic strip, block or sheet-like conductive material, and the material of the conductive cushion can be conductive foam, shielding foam, conductive cloth, conductive rubber, conductive silica gel or conductive adhesive.

Preferably, two sides of the saddle main body are connected with a flexible saddle buckle belt, two ends of the saddle buckle belt respectively penetrate through the long holes at two ends of the saddle main body to form an annular sleeve on the palm of the hand, and the saddle buckle belt is tightened and buckled by adjusting the penetrating length of the saddle buckle belt, so that the saddle main body is completely bound, tensioned and fixed on the back of the hand.

Preferably, the palm surface of the flexible touch element switch array glove is provided with 14 finger element areas, the back surface of the hand is provided with 14 finger element areas, the finger joint position is taken as a natural boundary, the side edge of a finger is taken as the edge of a palm or back finger element area, the thumb on the palm surface and the back surface of the hand is respectively provided with 2 finger element areas, the index finger, the middle finger, the ring finger and the little finger are respectively provided with 3 finger element areas, the 28 finger element areas are arranged as switch contact areas, and the operation method during switch control adopts a finger touch element collection method.

Preferably, the conductive flexible wire is made of a soft and flexible wire-like conductive material, such as a wire, a thread, a rope, a strip, and a belt, and the material of the conductive flexible wire can be a silver fiber wire, a metal sewing twisted wire, a metal yarn, a conductive fiber wire, a conductive sewing wire, a conductive yarn, an anti-static sewing wire, an anti-static yarn, a touch screen conductive sewing wire, a touch screen conductive yarn, a carbon fiber wire, a carbon fiber cloth tape, a multi-strand fine metal conductive wire, a conductive cloth tape, a conductive rubber thread, a conductive rubber strip, or a conductive rubber belt.

Preferably, the conductive flexible wires are embedded and integrated into the glove body and the surface of the glove body in a certain wiring way according to finger element and contact element set requirements, switch function requirements, signal transmission requirements and interface requirements by a sewing process method or an adhesion attaching process method or a partial weaving process method or a mixed use of the above methods to form a conductive wiring loop, an interface circuit and a switch contact.

Preferably, the glove body is a fabric, cloth, leather or rubber glove.

Preferably, the circuit loop, the interface circuit and the switch contact are made of flexible conductive materials, and are integrally formed by die cutting or molding according to a determined routing in advance and then are attached to the glove main body together.

The utility model provides a pair of intelligence wearing formula finger contact element information equipment has following beneficial effect.

1. The utility model discloses under the wearable design based on wear with oneself, can let the utility model discloses an operation use and the work operation of hand conveniently go on in step and switch, each other do not influence, have greatly improved work, operation and control efficiency. Traditional entity button, switch, action bars etc. have been abandoned, have merged into the working glove with the hardware switch senseless ground, realize the integration of diversified flexibility (flexible contact, flexible line, flexonics, flexible carrier), let the utility model discloses hardly any sense of violating the law and the sense of encumbrance when using to realized soft next to the shin, durable, can be crooked repeatedly and resist kneading and stretching of certain dynamics, especially adapted dress to can be used for the direct manipulation capacitive touch screen.

2. The utility model discloses inside switch array gloves module and flexible interface saddle support module have realized flexonics and flexible fixed, have solved the easy broken of interface between the dress product module, the easy disconnected problem of circuit to can tear the trade in a flexible way. The switch array glove module, the flexible interface saddle support module and the controller module can be freely detached, and the switch array glove module can be repeatedly cleaned, disinfected, dried, aired and the like, so that the sanitation requirements of solving the problems of cross infection and cleaning after pollution when the same wearable device is used among different operators can be met.

3. The utility model discloses a touch the first technique of collection, do not need eyes to watch and just can realize abundant trigger information under the control, raise the efficiency, realize blind operation. And because the contact element set is composed of a plurality of contact elements, the multi-point touch control operation can be realized, the mode is flexible, the finger touch control operation habit of various personnel can be adapted, and after one-point touch control is damaged, other points can be utilized for continuous use, so that the redundancy is great, and the service life of the equipment is prolonged. The controller adopts intelligent technology, can interpret richer touch element set combination and gather the surrounding environment of hand and data, synthesizes and forms abundant data information and control information for AR, VR, intelligent glasses, intelligent wrist-watch, virtual scene, hand simulation, keyboard, direction controller, many (single) way switch etc. multiple information equipment's application.

4. The utility model discloses a flexible first switch array gloves of touching, attached flexible interface saddle of formula and controller adopt the modular design, can freely split assembly combination multiple function module to adapt to different operation demands. And the damaged module can be replaced independently, the whole set of updating of the equipment is avoided, and the cost is reduced. Wherein flexible touch first switch array gloves adopt the symmetric design, support the arbitrary dressing of left and right hands to overall structure is simple, and the cost is practiced thrift to the simple operation.

Drawings

Fig. 1 is a schematic structural diagram of a palm surface and a back surface of a glove of a flexible touch element switch array glove of an intelligent wearable finger touch element information collecting device (without dividing left and right hands);

fig. 2 is a schematic view of a combined structure of an attached flexible interface saddle and a controller of an intelligent wearable finger contact information collection device provided by the present invention;

fig. 3 is the utility model provides a pair of intelligence wearing formula finger contact information equipment's working principle diagram.

In the figure:

1. the flexible touch element switch array glove 101, the glove main body 102, the conductive cord interface area 103, the conductive cord switch contact area 104, the conductive cord 2, the attached flexible interface saddle 201, the saddle main body 202, the saddle platform 203, the conductive cushion 204, the interface PCBA 205, the platform contact 206, the locking structure 207, the saddle buckle 3, the controller 301 and the interface contact pin.

Detailed Description

The present invention will be further described with reference to the following specific embodiments and accompanying drawings to facilitate understanding of the present invention.

As shown in fig. 1, for the utility model provides a pair of flexible touch element switch array glove palm face and the structural sketch map at the back of the hand (do not divide left and right hands) of intelligence wearing formula finger touch element information collecting equipment. This intelligence wearing formula finger touches first information equipment of collection includes flexible touch first switch array gloves 1, attached flexible interface saddle support 2 of formula and controller 3, flexible touch first switch array gloves 1 includes gloves main part 101, the finger tripe of gloves main part 101, the back of the finger, it has electrically conductive patchcord switch contact area 103 and electrically conductive patchcord interface area 102 to divide cloth equally on palm center and the palm back of the body, covers each finger region to form multiple switch array circuit under electrically conductive patchcord 104 is connected, contact, return circuit and interface symmetry extend to regularly arrange on back of the hand and the palm, this kind of symmetry when the left and right hands trade dress, played the exchange of the palm back of the hand and exchanged. The interface circuit used as the switch signal is used for being matched with the attached type flexible interface saddle support 2, the transmission of the switch signal is completed through flexible conductive contact, the attached type flexible interface saddle support 2 is attached to the surface of the flexible touch element switch array glove 1 and is fixedly provided with the controller 3 in a bearing mode, and the controller 3 establishes electric signal flexible and elastic connection transmission with the flexible touch element switch array glove 1 through the attached type flexible interface saddle support 2.

The controller 3 is composed of a plurality of electronic function modules and input/output interfaces, a central processor/information generator, an audio/video acquisition module for acquiring sound and image environment signals around the hand, an image judgment/scanning decoding module for identifying human faces, patterns, characters, numbers and bar code signals, a left-hand and right-hand setting switch for identifying the hand from which the signals come, a loop judgment module for judging which loops the touch element signals come from, a waveform frequency/coding/decoding module and a switch parameter judgment module for judging the array region of the touch element signals, a motion parameter judgment module and an orientation parameter judgment module for further generating motion, posture and orientation signals of the hand, and a wireless/wired data/information output/input interface module for carrying out information and control quantity exchange in a two-way manner, the central processor/information generator, the illumination/light supplement module, the sound/light display module and the vibration feedback module are in one-way transmission.

As shown in fig. 2, for the utility model provides a pair of attached flexible interface saddle of intelligence wearing formula finger contact information equipment and the integrated configuration sketch of controller. The attached flexible interface saddle 2 comprises a saddle main body 201, a saddle platform 202 is arranged at the upper part of the saddle main body 201, a clamping groove and a locking structure 206 for fixing the controller 3 and a platform contact 205 interface electrically connected with the controller 3 are arranged on the saddle platform 202, the bottom of the saddle main body 201 is an arc structure attached to the back of the hand and is attached with a layer of conductive cushion 203, the conductive cushion 203 is made of a soft elastic planar conductive material and is used for contacting with a conductive cord interface area 102 of an interface circuit on the flexible contact switch array glove 1, the planar conductive cushion 203 covers and presses on a linear conductive cord 104 to establish electric signal flexible connection transmission between the flexible contact switch array glove 1 and the attached flexible interface saddle 2, and the upper part of the conductive cushion 203 is in contact connection with an interface PCBA204 at the bottom of the saddle main body 201, and interfaces with POGOPIN platform contacts 205 on the saddle platform 202 through an interface PCBA204, conducting signals into the controller 3 through interface contact pins 301.

The two sides of the saddle main body 201 are connected with a flexible saddle buckle belt 207, two ends of the saddle buckle belt 207 respectively penetrate through the long holes at two ends of the saddle main body 201 to form a ring shape to be sleeved on the palm of a hand, and the saddle buckle belt 207 is tightened and buckled by adjusting the penetrating length of the saddle buckle belt 207, so that the saddle main body 201 is completely bound, tensioned and fixed on the back of the hand. The palm surface of the flexible touch element switch array glove 1 is provided with 14 finger element areas, the back surface of the hand is provided with 14 finger element areas, finger joints are used as natural boundaries, the side edges of fingers are the edges of palm or back finger element areas, the thumb on the palm surface and the back surface of the hand is respectively provided with 2 finger element areas, and the index finger, the middle finger, the ring finger and the little finger are respectively provided with 3 finger element areas. The 28 finger areas are arranged as switch contact areas, and the operation method in the switch control adopts a finger contact set method.

Preferably, the conductive flexible wire 104 is made of a conductive material in the form of a soft and flexible thread, wire, rope, strip, or tape, and the material may be a silver fiber thread, a metal sewing twisted thread, a metal yarn, a conductive fiber thread, a conductive sewing thread, a conductive yarn, an antistatic sewing thread, an antistatic yarn, a touch screen conductive sewing thread, a touch screen conductive yarn, a carbon fiber thread, a carbon fiber tape, a carbon fiber cloth tape, a stranded fine metal conductive wire, a conductive cloth tape, a conductive rubber thread, a conductive rubber tape, or a conductive rubber tape. The conductive flexible wires 104 are embedded and integrated into the glove main body 101 and the surface thereof in a certain wiring way according to finger element and contact element set requirements, switch function requirements, signal transmission requirements and interface requirements by a sewing process method or an adhesion attaching process method or a partial weaving process method or a mixed use of the above methods, so as to form a conductive wiring loop, an interface circuit and a switch contact. The conductive cushion 203 is made of a soft and elastic strip, block or sheet-like conductive material, and the material of the conductive cushion can be conductive foam, shielding foam, conductive cloth, conductive rubber, conductive silica gel or conductive adhesive. The glove body 101 is a fabric, cloth, leather, or rubber glove. The circuit loop, the interface circuit and the switch contact are made of flexible conductive materials, are molded into a whole by die cutting or a mold according to determined routing in advance, and are attached to the glove main body 101 together.

The utility model discloses a theory of operation does:

as shown in fig. 3, for the utility model provides a pair of intelligence wearing formula finger contact information equipment's working principle diagram. According to the finger touch element technology, the position of the flexible touch element switch array glove 1 corresponding to the finger element area is used as a contact area of a switch, namely a conductive cord switch contact area 103, and the wiring mode in the figure 1 is that each area of a thumb finger element, each area of an index finger element, each area of a middle finger element, each area of a ring finger element and each area of a little finger element on the glove penetrate through to be covered and connected with each other. In this case, the finger regions have a conductive function and also have a contact performance of the switch. And these contacts also form an array due to the connection of the traces of the conductive cords 104. Basically, the contacts of the thumb form an array, the contacts of the index finger, the middle finger, the ring finger and the little finger form other four arrays, each array is equivalent to a loop and is also equivalent to a plurality of contacts on a common switch, and the loop extends to the circuits on the back of the hand and the palm and is also equivalent to an interface of the common switch. The finger touch between some finger elements is difficult to achieve or accurately achieved, and such invalid touch elements without practical value are called invalid touch elements. The rest touch elements which can be used are called effective touch elements and usable touch elements, wherein the touch elements with poor accuracy, convenience, flexibility and human body power are called finger-usable touch elements, and the touch elements which are accurate, flexible, easy to realize, high-frequency repeatable and accord with the human body power are called effective finger-usable touch elements. These touch elements can be used alone or in combination with other touch elements to form a touch element set. When the glove fingers are in the open position, there is no touch, i.e. the conductive cord switch contact area 103 is in a corresponding open position, when the switch contact area is in an open or high impedance state similar to a conventional switch. When the finger of the glove touches according to the touch element mode, whether one touch element touches or a combination (touch element set) of several touch elements touches, the corresponding conducting state of the conductive cord switch contact area 103, namely the touch element conducts, is brought, and at the moment, the switch contact area corresponding to the position of the finger element is in the conducting or low-resistance state similar to a common switch. When the touch element of the touch action adopts an effective touch element, some touch elements of the touch switch can even realize 2-4 times/second high-frequency actions for a long time and correspondingly generated switch signal output. In specific implementation, different contact set combinations can be reasonably and flexibly selected to define different functions according to functional requirements, and different contact conduction state signal parameters can be formed.

The controller 3 firstly obtains glove touch element signals from the saddle interface, the signals enter the loop judging module to obtain which loops the touch element signals come from, and simultaneously enter the switch parameter judging module and the waveform frequency/coding and decoding module, and the array area of the touch element signals is judged according to returned electrical parameters (such as resistance, voltage, current, inductance, capacitance, frequency, waveform, code and the like). The decision information of the two sides is transmitted to a central processing unit for generating the position of the touch element set, and further generating the well-defined key value information of the touch element, and an application developer can further make the following steps by utilizing the information: multiple switch control signals, direction control signals, various keyboard signals, finger posture signals and the like. Meanwhile, a motion parameter module and an orientation parameter module (such as an accelerometer, a gravity sensor, an ambient light sensor, a Hall sensor, a gyroscope, a compass, a barometer, a proximity light sensor, a color temperature sensor, an infrared sensor, an attitude sensor, a positioning chip and the like) in the controller 3 can further generate motion and orientation signals (such as a track, a speed, an acceleration, an attitude, a direction, a positioning and the like) of the hand and transmit the signals to a central processing unit, so that richer hand information is generated and provided for application developers. The controller 3 is also provided with a left-right hand setting switch for identifying which hand the signal originates from, especially when both hands are simultaneously performing touch operations. Meanwhile, the audio and video acquisition module can acquire sound and image environment signals around the hand and transmit the sound and image environment signals to the central processing unit. The image judging, scanning and decoding module can also transmit signals such as recognized human faces, patterns, characters, numbers, bar codes and the like to the central processing unit. The central processor combines these various hand-related signals to provide rich hand information. The application developer can complete various information devices such as complex devices such as AR and VR, common devices such as a keyboard and a direction controller, simple devices such as a single-way switch and a multi-way switch. Naturally, in order to make the device more easy to use, the device is also provided with interactive functions such as illumination, information display, vibration and the like. Finally, all of this information, control, etc. is exchanged with other devices via standard wireless or wired interfaces.

The present invention has been described in detail with reference to specific embodiments, and the description of the embodiments is only for the purpose of helping understanding the core idea of the present invention. It should be understood that any obvious modifications, equivalents and other improvements made by those skilled in the art without departing from the spirit of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides an intelligence wearing formula finger touch element information collecting equipment which characterized in that, includes flexible touch element switch array gloves, attached flexible interface saddle support and controller, flexible touch element switch array gloves include the gloves main part, the finger tripe of gloves main part, the back of the finger, palm center and palm are equallyd divide on the back of the hand cloth have the circuit return circuit that constitutes by the electrically conductive patchcord, interface circuit and switch contact, with each finger regional cover to form multiple switch array return circuit, circuit return circuit, interface circuit and switch contact symmetry extend to rule arrangement on back of the hand and the palm, and the interface circuit as switching signal is used for cooperating with the electrically conductive cushion on the attached flexible interface saddle support, through flexible, elastic electrically conductive contact, accomplishes the transmission to switching signal, attached in the flexible interface saddle support of attached flexible touch element switch array gloves top and be fixed with the controller, the controller establishes electric signal flexible connection transmission with the flexible touch element switch array glove through the attached flexible interface saddle support.

2. The intelligent wearable finger contact element set information device according to claim 1, wherein the controller is composed of a plurality of electronic function modules and input/output interfaces, a central processor/information generator and audio/video acquisition module for obtaining sound and image environment signals around the hand, an image decision/scan decoding module for recognizing human face, picture, character, number, bar code signals, a left and right hand setting switch for identifying which hand the signals come from, a loop decision module for deciding which loops the contact element signals come from, a waveform frequency/codec module and a switch parameter decision module for deciding the array region of the contact element signals, a motion parameter decision module and an orientation parameter decision module for further generating motion, posture and orientation signals of the hand and information with other devices, the wireless/wired data/information output/input interface module for controlling the quantity exchange is in bidirectional transmission, and the central processor/information generator is in unidirectional transmission with the lighting/light supplementing module, the sound/light display module and the vibration feedback module.

3. The intelligent wearable finger contact set information device according to claim 2, wherein the attached flexible interface saddle comprises a saddle main body, a saddle platform is arranged on the upper part of the saddle main body, a clamping groove and a locking structure for fixing the controller and a platform contact interface electrically connected with the controller are arranged on the saddle platform, the bottom of the saddle main body is an arc structure attached to the back of the hand, a layer of conductive cushion is attached to the saddle platform, the conductive cushion is made of flexible elastic conductive material and is used for contacting with a conductive flexible wire of an interface circuit on the flexible contact switch array glove so as to establish flexible connection transmission of electric signals between the flexible contact switch array glove and the attached flexible interface saddle, the upper part of the conductive cushion is in contact connection with the interface PCBA on the bottom of the saddle main body and is connected with the POGOPIN platform contact interface on the saddle platform through the interface PCBA, the signal is conducted into the controller through the contact points and the contact pins of the interface.

4. The intelligent wearable finger contact element information collecting device as claimed in claim 3, wherein the conductive soft pad is made of a flexible and elastic conductive material in the shape of strip, block, or sheet, and the material of the conductive soft pad can be conductive foam, shielding foam, conductive cloth, conductive rubber, conductive silica gel, or conductive glue.

5. The intelligent wearable finger contact element set information device as claimed in claim 4, wherein a flexible saddle-holding strap is connected to both sides of the saddle body, both ends of the saddle-holding strap respectively pass through the long holes at both ends of the saddle body to form a ring to be sleeved on the palm of the hand, and the length of the saddle-holding strap passing through is adjusted to tighten and buckle the saddle-holding strap, so that the saddle body is completely bound and tightly fixed on the back of the hand.

6. The intelligent wearable finger contact element set information device according to claim 5, wherein a palm surface of the flexible contact element switch array glove is provided with 14 finger element areas, a back surface of the hand is provided with 14 finger element areas, a finger joint is a natural boundary, a side edge of a finger is a palm or back finger element area edge, the thumb on the palm surface and the back surface of the hand is provided with 2 finger element areas respectively, the index finger, the middle finger, the ring finger and the little finger are provided with 3 finger element areas respectively, the distributed 28 finger element areas are used as switch contact areas, and an operation method during switch control is a finger contact element set method.

7. The intelligent wearable finger contact information collecting device according to claim 6, wherein the conductive soft cord is made of a conductive material in a line shape of soft and flexible thread, wire, rope, strip or belt, and the material of the conductive soft cord can be silver fiber thread, metal sewing twisted thread, metal yarn, conductive fiber thread, conductive sewing thread, conductive yarn, antistatic sewing thread, antistatic yarn, touch screen conductive sewing thread, touch screen conductive yarn, carbon fiber thread, carbon fiber tape, multi-strand thin metal conductive wire, conductive tape, conductive cloth strip, conductive rubber thread, conductive rubber strip or conductive rubber belt.

8. The intelligent wearable finger contact set information device according to claim 7, wherein the conductive cord is embedded and integrated into the glove body and the surface thereof in a certain wiring manner according to finger and contact set requirements, switch function requirements, signal transmission requirements and interface requirements by a sewing process or an adhesive attachment process or a partially weaving process or a mixture thereof, so as to form a conductive wiring loop, an interface circuit and a switch contact.

9. The intelligent wearable finger contact set information device of claim 8, wherein the glove body is a fabric, cloth, leather, or rubber glove.

10. The intelligent wearable finger contact information collecting device as claimed in claim 9, wherein the circuit loop, the interface circuit and the switch contact are made of flexible conductive material, and are formed into a whole by die cutting or molding according to a predetermined route in advance, and then are attached to the glove body together.

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