CN216085431U - Electric shock prevention socket - Google Patents

Abstract

The utility model relates to an electric shock prevention socket which comprises an upper panel and a lower panel, wherein jacks are arranged on the upper panel, spring pieces are arranged on the lower panel, and the spring pieces are arranged right below the jacks. When the plug is inserted into the groove of the socket, the two sliding blocks in the socket respectively press the two button switches under the action of the plug, so that the spring leaf in the socket is electrified, and the use safety is greatly improved.

Description

Electric shock prevention socket

Technical Field

The utility model relates to the field of power sockets, in particular to an electric shock prevention socket.

Background

The socket is seen everywhere in daily life, no matter fixed socket or activity socket, all be close ground mostly, child can reach very easily. For some children who do not understand things, due to strong curiosity and weak safety consciousness, a conductive object can be inserted into the jack, so that electric shock accidents can occur. In addition, when children insert the plug into the socket and the pins do not completely enter the socket, the pins are already connected with the socket power supply, and if hands contact the exposed pins at the moment, electric shock can be caused.

Disclosure of Invention

In order to solve the safety problem of the socket used in daily life at present, the utility model provides an electric shock prevention socket so as to improve the use safety.

In order to achieve the purpose, the utility model provides an electric shock prevention socket which comprises an upper panel and a lower panel below the upper panel, wherein jacks are arranged on the upper panel, spring pieces are arranged on the lower panel, and the spring pieces are arranged right below the jacks.

According to the utility model, the groove and the two switch structures are additionally arranged on the upper panel, when the plug is inserted into the groove of the socket, the two sliding blocks in the socket respectively press the two button switches under the action of the plug, so that the spring leaf in the socket is electrified. Even if the child inserts the spring plate in the jack with other electrically conductive objects and can not be switched on, the safety in utilization has been improved greatly. The utility model has simple structure, good safety performance and convenient use.

Drawings

FIG. 1 is a schematic view of a receptacle unit according to the present invention;

FIG. 2 is a state view of the plug inserted into the anti-electric-shock socket;

fig. 3 is a state view of the plug fully inserted into the anti-electric-shock socket.

The present invention will be described in further detail with reference to the accompanying drawings.

Detailed Description

Referring to fig. 1, the outlet device includes an electric shock preventing outlet and a plug mated with the electric shock preventing outlet. The plug includes a plug body 91 and pins 92, and the pins 92 are made of conductive sheets capable of conducting electricity and vertically protrude downward from the bottom surface of the plug body 91. The electric shock prevention socket comprises an upper panel 1, a lower panel 2, a spring piece 21 and two switch structures. The upper panel 1 is provided with a groove 12, the groove 12 is recessed inwards from the upper wall surface of the upper panel 1, the cross section is rectangular and is matched with the shape of the plug body 91, and the plug body 91 can be inserted into the groove 12. The bottom wall of the groove 12 is provided with a through insertion hole 11. The lower panel 2 is arranged below the upper panel 1 and detachably connected together through a screw, and the lower panel 2 is provided with a spring piece 21, and the spring piece 21 is arranged right below the insertion hole 11. The pins 92 are inserted into the spring pieces 21 through the insertion holes 11.

Two mounting holes 13 are arranged on the side wall of the groove 12 of the upper panel 1, the two mounting holes 13 are opposite in the positive direction, and a switch structure is arranged in each mounting hole 13. The switch structure comprises a sliding block 33, a spring 32 and a button switch 31, wherein the sliding block 33 is movably arranged in the mounting hole 13 and can move back and forth in the horizontal direction, the outer end of the sliding block 33 can extend out of the mounting hole, the button switch 31 is arranged in the mounting hole 13, the spring 32 is arranged between the button switch 31 and the sliding block 33, the sliding block 33 opens the button switch by moving towards the button switch 31, the button switches of the two switch structures are electrically connected with the spring piece 21 after being connected in series, and the spring piece 21 is electrified only when the button switches are pressed simultaneously. The pressing directions of the two push-button switches are just opposite.

The upper wall surface of the outer end part of the switch structure sliding block 33 is an inclined surface, and in the process that the plug body 91 is inserted into the electric shock prevention socket, the plug body 91 acts on the inclined surface of the sliding block 33 to enable the sliding block 33 to move, and further the button switch 31 is pressed to enable the spring piece 21 to be conducted with a power supply. When the plug is pulled out of the electric shock prevention socket, the spring 32 ejects the sliding block 33, the button switch 31 is released, and the spring piece 21 of the electric shock prevention socket is powered off.

The process of energizing the plug-in anti-shock receptacle will be briefly described with reference to fig. 2 and 3. First, the plug is vertically inserted into the groove 12 from the right above the groove 12 of the anti-electric shock socket, and by setting the distance from the upper wall surface of the upper panel 1 to the spring plate 21 and the length of the pin 92, the pin 92 is inserted into the spring plate 21 (as shown in fig. 2) only after the lower end surface of the plug body 91 is inserted into the groove 12, the plug continues to be inserted downwards, and the plug body 91 pushes the sliders 33 of the two switch structures to move towards the button switch 31 so as to open the button switch 31 (as shown in fig. 3). Only after the lower end face of the plug body 91 is completely inserted into the groove 12, the pins are not exposed outside any more, the two sliders 33 respectively press the two button switches 31 under the action of the plug, and at the moment, the spring piece 21 in the socket is electrified. When the lower end face of the plug body 91 is not completely inserted into the groove 12, the pins 92 are not inserted into the spring pieces 21 and do not contact with the spring pieces 21, and the spring pieces 21 are not electrified, so that the electric shock accident caused by the contact of hands and the pins in the process that a child inserts the plug into the socket is prevented. Because two button switches need to press to two different directions respectively just can the circular telegram, increased the reliability of protection against electric shock. As long as one of the two push switches 31 is not pressed, no electricity is applied to the spring plate 21. If the child inserts the jack with the electrically conductive article, can not take place the electric shock accident. Because two button switches 31 are connected in series, and the pressing directions of the two button switches are just opposite and are vertical to the direction of the jack, the electric shock is possible only when actions are needed in all three directions, and the safety of electric shock prevention is improved.

According to the utility model, the groove and the two switch structures are additionally arranged on the upper panel, when the plug is inserted into the groove of the socket, the two sliding blocks in the socket respectively press the two button switches under the action of the plug, so that the spring leaf in the socket is electrified. Even if the child inserts the spring plate in the jack with other electrically conductive objects and can not be switched on, the safety in utilization has been improved greatly. Only when the lower terminal surface of plug body inserts the recess of socket completely, do not expose outside again for the plug, in the spring leaf of plug-in just inserted socket is participated in to the plug, and two button switch just press down simultaneously, just can switch on the spring leaf in the socket this moment. The utility model can prevent children from mistakenly inserting the conductive object into the socket and prevent electric shock accidents caused by the contact of hands and the pins in the process of inserting the plug into the socket. The utility model has simple structure, good safety performance and convenient use.

Claims (1)

1. The utility model provides an anti-electric shock socket, includes top panel and lower panel in top panel below, is equipped with the jack on the top panel, is equipped with the spring leaf on the lower panel, and the spring leaf is in under the jack, its characterized in that, be equipped with the recess on the top panel, the jack is on the diapire of recess, is equipped with two mounting holes on the lateral wall of recess, installs switch structure in every mounting hole, and switch structure includes slider, spring and button switch, and the movably setting of slider is outside the mounting hole, and outside its outer end can stretch out the mounting hole, button switch set up in the mounting hole, and the spring setting is between button switch and slider, and the slider is through opening button switch to button switch removal, two switch structure's button switch establish ties after with the spring leaf electricity is connected.

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