Anti-electric shock connector with built-in magnet

An anti-electric shock and connector technology, which is applied in the direction of connection, two-part connection device, and parts of the connection device, etc., can solve the problems of human body electric shock accident and exposure to the outside.

Inactive Publication Date: 2020-12-15
东莞市恩赞科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] At present, connectors for charging or charging and discharging connectors for electric vehicles, balance vehicles, twisting vehicles, unicycles, scooters, and scooters on the market are installed and fixed on their shells, but the positive and negative poles of the connectors Conductive parts are generally exposed directly outside
Once the voltage of the battery exceeds 36V, it exceeds the safe voltage that the human body can withstand. Once a person accidentally touches the positive and negative conductive parts of the connector, it is easy to cause an electric shock accident to the human body.

Method used

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  • Anti-electric shock connector with built-in magnet
  • Anti-electric shock connector with built-in magnet
  • Anti-electric shock connector with built-in magnet

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0050] Such as figure 1 , figure 2 , image 3 As shown, the electric shock-proof connector female head 26 is composed of a common female electrode 15, an insulating body, an electric-shock-proof front-end female electrode 1, a first magnet 5, a second magnet 6, and an electric-shock-proof rear-end female plug 19-1 with a welding wire gap. Composition; the anti-shock rear-end female plug 19-1 with a welding wire gap is composed of an electric-shock-proof rear-end female electrode 2-1 with a welding wire gap and an insulating shell; the common female electrode 15 is integrally injection-molded in the insulating body, There is an insulating positioning groove in the insulating body, and the insulating positioning groove is located on the other side of the common female electrode 15; the first magnet 5 is located at the rear end of the female electrode 1 at the front end of the electric shock protection, and the second magnet 6 is located at the electric shock rear end with a we...

Embodiment 2

[0056] Such as Figure 13 As shown, the anti-shock anti-short-circuit connector female head 28 is composed of an anti-short-circuit female electrode 7, an insulating body, an electric-shock-proof front-end female electrode 1, a first magnet 5, a second magnet 6, and an electric-shock-proof rear-end female plug with a welding wire gap. 19-1; the anti-short-circuit female electrode 7 is composed of a first female electrode 12-1, a fuse 21, a plastic fixed shell, and a second female electrode 12-3 with a welding wire gap; The plug 19-1 is composed of an electric shock-proof rear-end female electrode 2-1 with a welding wire gap and an insulating shell; the anti-short circuit female electrode 7 is integrally injection-molded in the insulating main body, and the insulating main body has an insulating positioning groove and an insulating positioning groove Located on the other side of the anti-short-circuit female electrode 7; the first magnet 5 is located at the rear end of the elec...

Embodiment 3

[0060] Such as Figure 15 As shown, the anti-shock anti-short-circuit connector female head 28 is composed of a detachable anti-short-circuit female electrode, an insulating body, an electric-shock-proof front-end female electrode 1, a first magnet 5, a second magnet 6, and an electric-shock-proof rear end with a welding wire gap. Composed of female plug 19-1; detachable anti-short-circuit female electrode is composed of first female electrode 12-1, fuse 21, anti-short-circuit rear-end female plug 22-1 with welding wire gap; short-circuit-proof with welding wire gap The rear-end female plug 22-1 is composed of a second female electrode 12-3 with a welding wire gap and a plastic shell; the electric-shock-proof rear-end female plug 19-1 with a welding wire gap The electrode 2-1 is composed of an insulating shell; the first female electrode 12-1 of the detachable anti-short-circuit female electrode is integrally injection-molded in the insulating main body, and the insulating pos...

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PUM

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Abstract

The invention provides an anti-electric shock connector with a built-in magnet. A first magnet and a second magnet are arranged in the anti-electric shock connector, and conduction and disconnection of the anti-electric shock front-end electrode and the anti-electric shock rear-end electrode are ingeniously realized by utilizing the characteristic that like magnetic poles of the magnets repel eachother so that the occurrence of an electric shock accident of a human body is avoided. A fuse is arranged in the other conductive part of the anti-electric shock connector, so the connector has anti-short circuit and anti-electric shock functions. According to the anti-electric shock connector, the signal transmission electrode is added to the anti-electric shock connector, so signal communication can be performed to monitor the state of the battery in real time, and the connector has a signal transmission function and an anti-electric shock function or has a signal transmission function, ananti-short-circuit function and an anti-electric shock function.

Description

Technical field: [0001] The invention relates to a connector, in particular to an anti-shock connector with a built-in magnet. Background technique: [0002] At present, connectors for charging or charging and discharging connectors for electric vehicles, balance vehicles, twisting vehicles, unicycles, scooters, and scooters on the market are installed and fixed on their shells, but the positive and negative poles of the connectors Conductive parts are generally directly exposed outside. Because once the voltage of the battery exceeds 36V, it exceeds the safe voltage that the human body can withstand. Once a person accidentally touches the positive and negative conductive parts of the connector, it is easy to cause an electric shock accident to the human body. Especially when children accidentally touch the conductive parts of the connector with coins, keys or other metal materials when they are playing, the coins, keys or other metal materials will be burned black, and the...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01R13/02H01R13/68H01R13/703H01R13/713H01R24/00
CPCH01R13/02H01R13/68H01R13/703H01R13/713H01R24/00
Inventor 杨小伊
Owner 东莞市恩赞科技有限公司
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