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Fingerprint recognition anti-theft bag with zipper teeth inlaid with multiple electrically conductive materials

A conductive material, fingerprint recognition technology, applied in the field of packaging, can solve the problems of insufficient function, low anti-theft performance combination, unable to keep pace with the times, etc., to achieve the effect of opening security and exclusive

Inactive Publication Date: 2016-03-09
李晓敏
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, for today's market that advocates smart wearable devices, zippers are only used as a tool to open or close the openings of clothing and bags, which makes their functions insufficient and cannot keep pace with the times.
In addition, in terms of bags, zippers can only be opened and closed simply
Its anti-theft performance and ability to combine with portable devices are low, and there are defects in varying degrees

Method used

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  • Fingerprint recognition anti-theft bag with zipper teeth inlaid with multiple electrically conductive materials
  • Fingerprint recognition anti-theft bag with zipper teeth inlaid with multiple electrically conductive materials
  • Fingerprint recognition anti-theft bag with zipper teeth inlaid with multiple electrically conductive materials

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0030] like Figure 1~2 As shown, each chain tooth is made of conductive material or its surface is electroplated with conductive substance. Two opposite first zipper pullers and second zipper pullers are arranged on the chain tape. When the two zipper pullers are respectively in the When the two ends are at the two ends, the two chains are separated. When the two chains are separated, all the chain teeth are separated from each other, so the zipper is in a disconnected state. , so that the chain teeth passing through the zipper head mesh with each other to form a whole in contact with each other. Since the chain teeth themselves are plated with conductive substances or made of conductive materials, the current can be conducted on the mutually meshed chain teeth. As the two zipper pulls approach gradually, the length of the zipper that can be conducted becomes larger and larger, and when the two zipper pulls are in contact with each other, the length of the zipper that can be ...

Embodiment 2

[0037]The difference between this embodiment and embodiment 1 is that, as image 3 shown. The sprocket is composed of a conductive part and an insulating part, and the sprocket includes a sprocket end connected with a chain belt and a sprocket front end for interlocking with other sprockets. Wherein, the front end of the sprocket is a conductive part, and the end of the sprocket is an insulating part. The front end of the sprocket and the end of the sprocket can be designed in one piece, or the front end of the sprocket can be connected to the end of the sprocket by inlaying. This structure can limit the current to the center of the zipper, reducing the probability of voltage and current changes due to the contact between the chain teeth and other objects.

[0038] Correspondingly, the elastic protrusions of the zipper slider are arranged at the positions corresponding to the front ends of the chain teeth.

Embodiment 3

[0040] The difference between this embodiment and embodiment 1 is that, as Figure 4 and Figure 5 shown. The sprocket is composed of a conductive part and an insulating part, wherein the conductive part is wrapped by the insulating part. Preferably, the sprocket made of conductive material is the conductive part, and the insulating material wrapped on the sprocket forms the insulating part. At the same time, the insulating part is connected to the chain belt, so that the chain teeth are fixed on the chain belt. In order to ensure the conduction of the circuit, the contact protrusions and contact recesses of the chain teeth are not covered with insulating materials, so that the conductive materials at the front ends of two adjacent chain teeth can contact each other. In addition, in order to realize the electrical connection between the chain teeth and the slider, grooves are formed on the bottom surface of the ends of the chain teeth, and the bottom of the grooves is not c...

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PUM

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Abstract

The invention relates to a fingerprint recognition anti-theft bag with zipper teeth inlaid with multiple electrically conductive materials. The fingerprint recognition anti-theft bag comprises a bag body, an electrically conductive zipper, a fingerprint lock and a power supply module; the electrically conductive zipper comprises a zipper belt, zipper teeth and zipper heads; the zipper teeth are made of insulating materials, the multiple electrically conductive materials which are not connected with one another are inlaid at the front ends of the zipper teeth to form electrically conductive portions and exposed out of contact protrusions and contact pits; the zipper heads are electrically conductive, and an electrically conductive wire is formed after the multiple zipper teeth are in occlusion under the action of the zipper heads; a power source supplied power to the fingerprint lock, so that the two zipper heads are locked through the fingerprint lock. According to the fingerprint recognition anti-theft bag, through the design of the electrically conductive zipper teeth and the zipper heads, a traditional zipper is changed to the electrically conductive zipper, and meanwhile the bag is opened more safely and exclusively in match with a fingerprint recognition technology; the situation that another person opens the bag without permission of a user can be effectively avoided, and the anti-theft function is achieved.

Description

technical field [0001] The invention relates to a bag, in particular to a fingerprint identification anti-theft bag in which a plurality of conductive materials are embedded in the zipper elements. Background technique [0002] The zipper is a connecting piece that relies on the continuous arrangement of chain teeth to make items merge or separate. It is a fastener composed of a row of metal or plastic chain teeth on each of the two chain belts. It is used to connect the edge of the opening. There is a zipper head that can be The two rows of sprockets occlude to close the opening, and are now widely used in clothing, bags, etc. However, for today's market that advocates smart wearable devices, zippers are only used as tools for opening or closing clothing and bag openings, which makes their functions insufficient and cannot keep pace with the times. In addition, in terms of bags, the zipper can only be opened and closed simply. Its anti-theft performance and ability to com...

Claims

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Application Information

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IPC IPC(8): A44B19/24A44B19/26A45C13/18
CPCA44B19/24A44B19/26A45C13/18
Inventor 李晓敏
Owner 李晓敏