CN221508546U - Socket - Google Patents

Abstract

The application provides a socket, and relates to the technical field of electrical appliance connecting devices. The socket comprises a base, a switch assembly and a plurality of inserting clamp assemblies, wherein the base is provided with a mounting groove. The inserting and clamping assembly comprises a wiring part, a connecting part and a clamping part which are connected, wherein the inserting and clamping assembly is arranged in a layered mode, and the same type of structures in all the inserting and clamping assemblies are in the same layer. The mounting groove is internally provided with a terminal layer, a connecting layer and an inserting interlayer, the terminal layer is a space area of the inserting clamp assembly, which is close to the bottom of the mounting groove, the wiring part is arranged in the terminal layer, the connecting layer is a space area of one side of the terminal layer, which is away from the bottom of the mounting groove, the connecting part is arranged in the connecting layer, the inserting interlayer is a space area of one side of the connecting layer, which is away from the terminal layer, the inserting interlayer is communicated with a notch of the mounting groove, and the clamping part is arranged in the inserting interlayer. The switch assembly can switch the on-off of the socket. The socket provided by the application can improve the wiring efficiency of the electric wire and the socket.

Description

Socket

Technical Field

The application relates to the technical field of electrical appliance connecting devices, in particular to a socket.

Background

The socket is also called as a power socket and a switch socket. The socket can provide a power interface for the electric appliance, so that the electric appliance can be connected with the electric wire, and the electric wire can provide electric energy for the electric appliance, so that the electric appliance can start to work.

The receptacle generally includes a base and a collet assembly of different polarity mounted within the base. For example, an eight-hole socket, can connect two three-pin plugs and one two-pin plug. The eight-hole socket is internally provided with a fire wire inserting and clamping assembly, a zero wire inserting and clamping assembly and a ground wire inserting and clamping assembly.

Based on the structure of the existing inserting clamp assembly, the wiring of operators is inconvenient, and the wiring efficiency of the operators is affected.

Disclosure of utility model

The application provides a socket, which solves the problem of inconvenient wiring of operators and improves the wiring efficiency of wires and the socket.

In a first aspect, an example of the present application provides a receptacle that includes a base, a switch assembly, and a plurality of clip assemblies. The base is provided with the mounting groove, and switch module part is connected in the mounting groove, and a plurality of cartridge clamp assemblies are all installed in the mounting groove. The distance between two adjacent inserting and clamping components is greater than or equal to a preset value, the inserting and clamping components comprise connecting wire parts, connecting parts and clamping parts which are connected, the inserting and clamping components are arranged in a layered mode, and the structures of the same type in all the inserting and clamping components are in the same layer.

Be provided with terminal layer, tie layer and insert the intermediate layer in the mounting groove, the terminal layer is inserted the space region that presss from both sides the subassembly and is close to the mounting groove tank bottom, wiring portion sets up in the terminal layer, be connected with binding post on the wiring portion, the tie layer is in the space region that the terminal layer deviates from mounting groove tank bottom one side, partial connecting portion sets up in the tie layer, wiring portion connection wiring portion and clamping part, insert the intermediate layer for being in the space region that the tie layer deviates from terminal layer one side, insert the notch intercommunication of intermediate layer and mounting groove, the clamping part sets up in inserting the intermediate layer.

The switch assembly is electrically connected with the inserting clamp assembly, part of the switch assembly is located in the inserting interlayer, part of the switch assembly extends into the terminal layer and is connected with the wiring terminal, and the switch assembly can switch on and off of the socket.

According to the socket provided by the embodiment of the application, the base can provide a mounting carrier for the switch assembly and the plug clip assembly. The switch assembly may switch the use state of the receptacle such that the receptacle is in an energized state or in a de-energized state. The inserting clamp assembly can realize the electric connection between the electric appliance and the electric wire.

All clamping parts of the inserting clamp assembly are positioned in the inserting interlayer, so that the inserting clamp assembly can be conveniently inserted into the clamping parts by bolts of the electric appliance, and the electric appliance is connected with the inserting clamp assembly. The wiring parts of the different inserting and clamping assemblies are all positioned on the wiring layer, so that operators can conveniently connect wires with different polarities in the electric wires with the wiring parts of the inserting and clamping assemblies with corresponding polarities.

In some possible implementations, the plurality of clip assemblies includes a fire wire clip assembly including a fire wire connection portion, and a fire wire clamping portion. Wherein, live wire connecting portion includes live wire connecting body and two at least live wire linking arm.

The live wire connecting body is connected with the live wire wiring portion, part of the live wire connecting body is located in the connecting layer, and part of the live wire connecting body is located in the interlayer. The first end and the live wire connecting body of live wire linking arm are connected, and the second end and the live wire clamping part of live wire linking arm are connected, and part live wire linking arm is in the articulamentum, and part live wire linking arm is in the insertion layer. All the live wire clamping parts are positioned in the interlayer.

Through setting up two at least live wire linking arms, every live wire linking arm all is connected with live wire clamping part for a socket can be simultaneously with two at least plug connection, realizes the electricity of two at least electrical appliances and electric wire and is connected, improves the utilization ratio of socket.

In some possible implementations, the live connection portion further includes a connection plate, one end of which is connected with the live connection body, and the other end of which is connected with the switch assembly.

Because the setting length of connecting plate is different, can make switch module install in different positions, through setting up the connecting plate, can make switch module's position comparatively symmetry with the position of jack, improve the aesthetic property of socket.

In some possible implementations, the plurality of clip assemblies further includes a neutral clip assembly including a neutral wire connection portion, and a neutral wire clamping portion. The zero line connection portion includes a zero line connection body and at least two zero line connection arms.

The zero line connecting main body is connected with the zero line wiring part, part of the zero line connecting main body is positioned on the connecting layer, and part of the zero line connecting main body is positioned on the interlayer. The first end and the zero line connecting body of zero line linking arm are connected, and the second end and the zero line clamping part of zero line linking arm are connected, and part zero line linking arm is in the articulamentum, and part zero line linking arm is in the intermediate layer of inserting. All the zero line clamping parts are positioned in the interlayer.

Through setting up two at least zero line linking arms, every zero line linking arm all is connected with zero line clamping part for a socket can be connected with two at least plugs simultaneously, realizes the electricity of two at least electrical appliances and electric wire and is connected, improves the utilization ratio of socket.

In some possible implementations, the live wire connecting body and the neutral wire connecting body have opposite intersecting areas, the live wire connecting body is provided with an avoidance groove at the position of the intersecting areas, and the neutral wire connecting body is arranged in the avoidance groove in a penetrating manner. Or the zero line connecting main body is provided with an avoidance groove at the position of the crossing area, and the live line connecting main body is arranged in the avoidance groove in a penetrating way.

Through set up on the live wire connecting body and dodge the groove, the zero line connecting body wears to locate and dodges the groove for keep the clearance between zero line connecting body and the live wire connecting body. Therefore, the contact of the live wire connecting main body and the zero wire connecting main body can be avoided, the short circuit inside the socket is avoided, and the use safety of the socket is ensured.

Through set up on the zero line connection main part and dodge the groove, the live wire connection main part wears to locate and dodges the groove for keep the clearance between live wire connection main part and the zero line connection main part. Therefore, the contact of the live wire connecting main body and the zero wire connecting main body can be avoided, the short circuit inside the socket is avoided, and the use safety of the socket is ensured.

In some possible implementations, the plurality of clip assemblies further includes a ground clip assembly including a ground wire connection portion, and a ground wire clamping portion, the ground wire connection portion including at least two ground wire connection arms. The first end of the ground wire connecting arm is connected with the ground wire wiring part, the second end of the ground wire connecting arm is connected with the ground wire clamping part, part of the ground wire connecting arm is positioned on the connecting layer, and part of the ground wire connecting arm is positioned on the interlayer. All the ground wire clamping parts are positioned in the interlayer.

Through setting up two at least ground connection arms, every ground connection arm all is connected with ground connection clamping part for a socket can be connected with two at least three-legged plugs simultaneously, realizes the electricity of two at least electrical appliances and electric wire and is connected, improves the utilization ratio of socket, guarantees the safety in utilization of electrical appliances.

In some possible implementations, the fire wire clamping portion includes a first fire wire clamping plate and a second fire wire clamping plate, at least one of the first fire wire clamping plate and the second fire wire clamping plate is a flat plate structure, and the flat plate structure is in surface contact with the fire wire plug pin in the plug.

Through setting up at least one in first splint and the second splint and establish to dull and stereotyped structure, can make clamping part and bolt be the face contact for be connected between clamping part and the bolt more reliably, make the conductive properties between plug-in clamp subassembly and the bolt better, and can make the plug-in pin insert the process of clamping part or the plug-in pin pull out the process of plug-in clamp part comparatively smooth.

In some possible implementations, the clamping portion includes a bending plate and two clamping plates, at least one side of the bending plate is provided with a reinforcing portion, the reinforcing portion includes a reinforcing plate, and at least one side of the clamping portion is provided with a reinforcing plate along a direction of inserting the interlayer into the connection layer. And/or the reinforcing part comprises a reinforcing protrusion, and the side of the bending plate away from the clamping plate is provided with the reinforcing protrusion.

Through setting up the enhancement portion, can improve the intensity of clamping part, improve the clamping force of clamping part for the clamping part is more reliable with the connection of bolt.

In some possible implementations, the clip assembly further includes a reinforcement portion disposed on at least one of the wire connection portion, the connection portion, and the clip portion. Or the inserting clamp assembly is provided with a plurality of bending parts, and at least one bending part is provided with a reinforcing part. Or the clamping part comprises a bending plate and two clamping plates, and at least one side of the bending plate is provided with a reinforcing part.

Through setting up the enhancement portion, can improve the intensity of inserting the clamp subassembly, guarantee to insert the use reliability of clamp subassembly.

In some possible implementations, the socket further includes a fixing plate, the fixing plate is mounted at a notch of the mounting groove, at least two buckles are arranged on one side, facing the bottom of the mounting groove, of the fixing plate, and a clamping groove connected with the buckles is formed in the bottom of the mounting groove.

Through setting up two at least buckles in the one side of fixed plate towards the mounting groove tank bottom, through the cooperation between buckle and the draw-in groove, can further improve the connection reliability between fixed plate and the base.

Drawings

Fig. 1 is a schematic structural diagram of a first view angle of a socket according to an embodiment of the present application.

Fig. 2 is an exploded schematic view of a socket according to an example of the present application.

Fig. 3 is a schematic structural diagram of a clip assembly according to an example of the present application.

Fig. 4 is a schematic view of an internal structure of a base provided by an example of the present application.

Fig. 5 is a schematic diagram of an internal structure of a socket according to an example of the present application.

Fig. 6 is a schematic diagram illustrating the cooperation between the clip assembly and the switch assembly according to an example of the present application.

Fig. 7 is a schematic structural diagram of a second view angle of a socket according to an embodiment of the present application.

Fig. 8 is a schematic structural view of a fire wire inserting clip assembly according to an example of the present application.

Fig. 9 is an expanded schematic view of a fire wire clip assembly provided by an example of the present application.

Fig. 10 is a schematic structural diagram of a zero line insertion clip assembly according to an example of the present application.

Fig. 11 is an expanded schematic view of a zero line clip assembly provided by an example of the present application.

Fig. 12 is a schematic structural view of a ground wire clip assembly according to an example of the present application.

Fig. 13 is an expanded schematic view of a ground wire clip assembly according to an example of the present application.

Fig. 14 is an enlarged schematic view of fig. 12 at i.

Fig. 15 is a schematic structural view of a fixing plate according to an example of the present application.

Fig. 16 is a schematic structural view of a base provided by an example of the present application.

Reference numerals illustrate:

100. A base; 110. a mounting groove; 111. inserting an interlayer; 112. a connection layer; 113. a terminal layer; 120. switching the wiring hole; 130. a live wire wiring hole; 140. a ground wire wiring hole; 150. a zero line wiring hole; 160. a clamping groove; 200. a clip assembly; 210. a zero line insertion clamp assembly; 211. a zero line connection part; 212. a zero line connection; 2121. the zero line is connected with the main body; 2122. a zero line connecting arm; 213. a zero line clamping portion; 220. a fire wire inserting and clamping assembly; 221. a live wire connection part; 222. a live wire connection part; 2221. the fire wire is connected with the main body; 2222. a live wire connecting arm; 223. a live wire clamping part; 224. an avoidance groove; 225. a connecting plate; 230. a ground wire inserting and clamping assembly; 231. a ground wire connection part; 232. a ground wire connection part; 2321. a ground wire connecting arm; 233. a ground wire clamping part; 2331. a reinforcing plate; 2332. reinforcing the protrusion; 300. a switch assembly; 400. a fixing plate; 410. a buckle; 500. inserting a surface; 510. indication identification.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present examples more apparent, the technical solutions in the present examples will be clearly and completely described below with reference to the accompanying drawings in the present examples, and it is apparent that the described examples are some, but not all examples of the present application. All other examples, which a person of ordinary skill in the art would obtain without undue burden based on the examples in this disclosure, are within the scope of this disclosure.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used in the description of the applications herein is for the purpose of describing particular examples only and is not intended to be limiting of the application; the terms "comprising" and "having" and any variations thereof in the description and claims of the application and in the description of the drawings are intended to cover a non-exclusive inclusion.

Reference herein to "an example" means that a particular feature, structure, or characteristic described in connection with the example may be included in at least one example of the application. The appearances of the phrase "in an example" in various places in the specification are not necessarily all referring to the same example, nor are separate or alternative examples mutually exclusive of other examples. Those skilled in the art will explicitly and implicitly understand that the examples described herein may be combined with other examples.

The term "and/or" is herein merely an association relationship describing an associated object, meaning that there may be three relationships, e.g., a and/or B, may represent: there are three cases, a, B, a and B simultaneously. In addition, the character "/" herein generally indicates that the front and rear associated objects are an "or" relationship.

The directional terms appearing in the following description are all directions shown in the drawings and do not limit the specific structure of the socket of the present application.

Furthermore, the terms first, second and the like in the description and in the claims or in the above-described figures, are used for distinguishing between different objects and not for describing a particular sequential order, and may be used to improve one or more of these features either explicitly or implicitly.

In the description of the present application, unless otherwise indicated, the meaning of "plurality" means two or more (including two), and similarly, "plural sets" means two or more (including two).

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., the terms "connected" or "connected" of a mechanical structure may refer to a physical connection, e.g., the physical connection may be a fixed connection, e.g., by a spacer, such as by a screw, bolt, or other spacer; the physical connection may also be a detachable connection, such as a snap-fit or snap-fit connection; the physical connection may also be an integral connection, such as a welded, glued or integrally formed connection. The specific meaning of the above terms in the present application will be understood in specific cases by those of ordinary skill in the art.

The socket can provide a power interface for the electric appliance, so that the electric appliance can be connected with the electric wire, and the electric wire can provide electric energy for the electric appliance, so that the electric appliance can start to work.

The receptacle generally includes a base, a mating face, and a ferrule assembly of different polarity. The insert clip assembly is disposed within the base, and one end of the insert clip assembly is electrically connected to the electrical cord. The plug face is provided with a jack, a plug pin of the electric appliance can extend into the jack and is electrically connected with the plug clamp assembly in the socket, and the electric appliance is electrically connected with the electric wire due to the fact that one end portion of the plug clamp assembly is electrically connected with the electric wire, and the electric wire can provide electric energy for the electric appliance so that the electric appliance is in a working state.

In the related art, the inserting clamp assemblies with different polarities may be in different levels, which causes inconvenience to operators in wiring wires and sockets.

Based on the foregoing, an example of the present application provides a socket.

In order to better understand the solution of the present application, a socket provided by an example of the present application will be clearly and completely described below with reference to the accompanying drawings.

The plurality of clip assemblies of the present application may include a neutral clip assembly, a hot clip assembly, and a ground clip assembly. The zero line inserting clamp assembly is also called an N pole inserting clamp assembly, the fire wire inserting clamp assembly is also called an L pole inserting clamp assembly, and the ground wire inserting clamp assembly is also called an E pole inserting clamp assembly.

Fig. 1 is a schematic structural diagram of a first view angle of a socket according to an example of the present application, fig. 2 is a schematic structural explosion of a socket according to an example of the present application, fig. 3 is a schematic structural diagram of a clip assembly according to an example of the present application, fig. 4 is a schematic structural diagram of a base according to an example of the present application, fig. 5 is a schematic structural diagram of a socket according to an example of the present application, and fig. 6 is a schematic diagram of a mating of a clip assembly and a switch assembly according to an example of the present application.

Referring to fig. 1 to 6, the present application provides a socket, which includes a base 100, a switch assembly 300, and a plurality of clip assemblies 200. The base 100 is provided with a mounting groove 110, the switch assembly 300 is partially connected in the mounting groove 110, and the plurality of clip assemblies 200 are all mounted in the mounting groove 110. The distance between two adjacent inserting and clamping assemblies 200 is greater than or equal to a preset value, the inserting and clamping assemblies 200 comprise connecting wire parts, connecting parts and clamping parts which are connected, the inserting and clamping assemblies 200 are arranged in layers, and the structures of the same type in all the inserting and clamping assemblies 200 are in the same layer.

The mounting groove 110 is internally provided with a terminal layer 113, a connecting layer 112 and an inserting layer 111, the terminal layer 113 is a space area of the inserting and clamping assembly 200, which is close to the bottom of the mounting groove 110, a wiring part is arranged in the terminal layer 113, a wiring terminal is connected to the wiring part, the connecting layer 112 is a space area at one side of the terminal layer 113, which is far away from the bottom of the mounting groove 110, a part of the connecting part is arranged in the connecting layer 112, the wiring part is connected with the clamping part, the inserting layer 111 is a space area at one side of the connecting layer 112, which is far away from the terminal layer 113, the inserting layer 111 is communicated with a notch of the mounting groove 110, and the clamping part is arranged in the inserting layer 111.

The switch assembly 300 is electrically connected with the inserting clamp assembly 200, a part of the switch assembly 300 is located in the inserting layer 111, a part of the switch assembly 300 extends into the terminal layer 113 and is connected with a wiring terminal, and the switch assembly 300 can switch on and off of a socket.

According to the socket provided by the example of the present application, the base 100 may provide a mounting carrier for the switch assembly 300 and the clip assembly 200. The switch assembly 300 may switch the use state of the receptacle such that the receptacle is in an energized state or in a de-energized state. The clip assembly 200 enables electrical connection between the electrical consumer and the electrical cord.

All clamping parts of the inserting clamp assembly 200 are positioned in the inserting interlayer 111, so that the inserting pins of the electric appliance can be conveniently inserted into the clamping parts, and the electric appliance is connected with the inserting clamp assembly 200. The wiring parts of the different inserting and clamping assemblies 200 are all positioned on the wiring layer, so that operators can conveniently connect wires with different polarities in the electric wires with the wiring parts of the inserting and clamping assemblies 200 with corresponding polarities.

Next, the structure of the socket will be described in detail. The receptacle may include a switch assembly 300, a plug face 500, a base 100, and a plurality of plug clip assemblies 200.

The insert 500 and the base 100 are made of an insulating material, such as polybutylene terephthalate, polyvinyl chloride, polycarbonate (also known as PC plastic), and the like. The clip assembly 200 is made of a conductive material such as copper and its alloys, aluminum and its alloys, silver and its alloys, and the like. The components of the switch assembly 300 that contact the operator may be made of an insulating material, with the remainder being made of a conductive material.

The insert 500 is connected to the base 100. The base 100 is provided with the mounting groove 110, and the insertion surface 500 can be mounted on the notch of the mounting groove 110, so that the attractiveness of the socket is improved.

The insert surface 500 may be provided with a plurality of insertion holes. The plug pins of the electrical appliance can extend into the mounting grooves 110 from the insertion holes to be connected with the clamping parts of the inserting clamp assembly 200. The jacks can be full flat jacks and can be round holes or mixed holes as required. The application is illustrated by way of example with an all-flat jack.

Mounting holes may also be provided on the insert face 500. A portion of the switch assembly 300 may extend from the mounting hole to facilitate an operator to control the on-off of the receptacle through the switch assembly 300. Other portions of the switch assembly 300 may be mounted within the mounting slot 110.

A plurality of clip assemblies 200 are each mounted within mounting slot 110. Referring to fig. 3 to 4, when the clip assembly 200 is mounted in the mounting groove 110, the portion a in fig. 3 is located in the interlayer 111, the portion B in fig. 3 is located in the connection layer 112, and the portion C in fig. 3 is located in the terminal layer 113. The bottom of the mounting groove 110 is provided with a plurality of wiring holes, and the wiring holes are arranged at positions corresponding to the wiring parts of the inserting and clamping assembly 200. In this manner, the wires may extend from the wire connection holes into the mounting slots 110 to connect with the ferrule assembly 200.

The clip assembly 200 may include two or three. Where the jack is required to connect only two wires, the ferrule assembly 200 may include only the live ferrule assembly 220 and the neutral ferrule assembly 210. Where the jack is required to connect three wires, the clip assembly 200 may include a live clip assembly 220, a neutral clip assembly 210, and a ground clip assembly 230.

In the case where no spacer is provided between the collet assemblies 200 of different polarities, the distance between adjacent collet assemblies 200 may be greater than or equal to 3 millimeters, where the distance between the collet assemblies 200 of different polarities refers to the electrical gap between the collet assemblies 200 of different polarities. In the case where the spacer is provided between the collet assemblies 200 of different polarities, the distance between the spacer and the collet assembly 200 may be greater than or equal to 0.1 millimeters. The electrical gap between the different polarity clip assemblies 200 is not particularly limited as long as the electrical gap between the different polarity clip assemblies 200 can meet the safe use standard of the socket.

The clip assembly 200 may include a wire portion, a connection portion, and a clip portion that are connected. Each clip assembly 200 may be integrally formed, each clip assembly 200 may be formed by sequentially welding or riveting a connection portion, and a clamping portion, each clip assembly 200 may be formed by stamping a plate structure, and the forming manner of the clip assembly 200 is not limited in the present example. The following description will be given by taking the example in which the clip assembly 200 is punched from a plate-like structure.

The wire connection portion may be connected to the electric wire. The connecting part connects the wiring part and the clamping part. The clamping part can clamp the bolt of the electrical appliance. Because clamping part passes through connecting portion and wiring portion to be connected, and wiring portion and electric wire connection, based on the conductivility of conductive material, the electric current on the electric wire can pass through wiring portion, connecting portion and clamping portion in proper order, reaches the bolt of the electrical apparatus of being connected with clamping portion, provides the electric energy for the electrical apparatus.

All the clamping parts can be positioned on the same horizontal plane, and gaps can be formed between the planes of the different clamping parts, so long as reliable connection between the clamping parts and the plug pins of the electric appliance can be ensured. All the wiring parts can be positioned on the same horizontal plane, and gaps can be formed between the planes where the different wiring parts are positioned, so long as reliable connection between the wiring parts and the electric wires can be ensured.

Based on the structure of the clip assembly 200, after the clip assembly 200 is mounted in the mounting groove 110, the clamping portions of all the clip assemblies 200 are located in the clip layer 111, part of the connecting portions are located in the connecting layer 112, the wiring portions are connected with wiring terminals, and the wiring portions and the wiring terminals are located in the wiring layer.

Based on this, when the plug of the electrical apparatus is a two-pin plug, all the clamping portions of the plug-in clamp assembly 200 are located in the plug interlayer 111, the lengths of the plugs on the same electrical apparatus plug may be the same, and when the plug is connected with the socket, the distances of the plugs inserted into the clamping portions may be the same, and the forces applied by different clamping portions to the corresponding plugs may be the same, so that the process of inserting or separating the plugs from the clamping portions is smoother.

When the plug of the electrical appliance is a three-pin plug, the length of the grounding pin can be the same as the lengths of the rest two conductive pins, and the length of the grounding pin can also be different from the lengths of the rest two conductive pins. Under the condition that the length of the grounding pin is longer than that of the other two conductive pins, as the length of the grounding pin is longer than that of the other two conductive pins, the clamping parts of different conductive assemblies are all in the interlayer 111, when the three-pin plug is connected with the socket, the grounding pin can be connected with the corresponding clamping part to form grounding protection, and then the conductive pins are connected with the corresponding clamping parts to be connected with a power supply. When the three-pin plug is pulled out, the conductive pins are separated from the corresponding clamping parts, and the grounding pins are separated from the corresponding clamping parts, so that the use safety of the electric appliance is ensured.

The wiring portions of the different inserting and clamping assemblies 200 are all located on wiring layers, so that operators can conveniently connect wires with different polarities in wires with the wiring portions of the inserting and clamping assemblies 200 with corresponding polarities.

The distances between the different wiring portions and the bottom of the mounting groove 110 may be the same or different. Under the condition that the distances between the different wiring parts and the bottom of the mounting groove 110 are the same, the distances between the different wiring parts and the bottom of the mounting groove 110 can be the same, so that an operator can conveniently connect wires with different polarities in the electric wires with the wiring parts of the inserting clamp assemblies with corresponding polarities.

Based on the socket provided by the above example, fig. 7 is a schematic structural diagram of a second view angle of the socket provided by the example of the present application, please refer to fig. 3 and fig. 7. The hot plug assembly 220 includes a hot connection 221, a hot connection 222, and a hot clip 223. The neutral insertion clamp assembly 210 includes a neutral connection portion 211, a neutral connection portion 212, and a neutral clamping portion 213. The ground clip assembly 230 includes a ground wire connection portion 231, a ground wire connection portion 232, and a ground clip portion 233, with the ground wire connection portion 231 being located between the live wire connection portion 221 and the neutral wire connection portion 211.

The bottom of the installation groove 110 may be provided with a plurality of wire connection ports, the number of which is equal to the number of the wire connection parts, and the wire connection ports correspond to the wire connection parts one by one. For example, along the direction from the live wire jack to the neutral wire jack, the bottom of the installation groove 110 is sequentially provided with a switch wiring hole 120, a live wire wiring hole 130, a ground wire wiring hole 140 and a neutral wire wiring hole 150, so that the electric wire can extend from the corresponding wiring hole to be connected with the corresponding clip assembly 200.

The live wire inserting and clamping assembly 220 can realize the plug connection of a live wire (a school name phase wire) in an electric wire and a corresponding plug in an electric appliance, the zero wire inserting and clamping assembly 210 can realize the plug connection of a zero wire (a school name neutral wire) in the electric wire and a corresponding plug in the electric appliance, so that the electric appliance is electrically connected with the electric wire, and the electric wire can provide electric energy for the electric appliance. The ground wire inserting clamp assembly 230 can realize the connection of the ground wire in the electric wire and the corresponding bolt in the electric appliance, thereby realizing the grounding of the electric appliance and ensuring the use safety of the electric appliance.

By arranging the ground wire connection part 231 between the live wire connection part 221 and the neutral wire connection part 211, the arrangement mode of the connection part can be in line with the wiring habit of operators, and the wiring accuracy and efficiency of the operators are improved.

Based on the socket provided by the foregoing example, fig. 8 is a schematic structural diagram of a fire wire inserting clip assembly provided by the present application, and fig. 9 is an expanded schematic structural diagram of a fire wire inserting clip assembly provided by the present application, referring to fig. 3, 4, 8 and 9, a plurality of inserting clip assemblies 200 may include a fire wire inserting clip assembly 220, and the fire wire inserting clip assembly 220 may include a fire wire connection portion 221, a fire wire connection portion 222 and a fire wire clamping portion 223. Wherein the live connection 222 comprises a live connection body 2221 and at least two live connection arms 2222.

The live wire connection body 2221 is connected to the live wire connection part 221, a part of the live wire connection body 2221 is located in the connection layer 112, and a part of the live wire connection body 2221 is located in the interlayer 111. The first end of the live wire connecting arm 2222 is connected with the live wire connecting main body 2221, the second end of the live wire connecting arm 2222 is connected with the live wire clamping part 223, part of the live wire connecting arm 2222 is located in the connecting layer 112, and part of the live wire connecting arm 2222 is located in the inserting layer 111. All the live clamps 223 are in the mezzanine 111.

The hot plug clip assembly 220 may be formed from a sheet-like structure that is stamped and bent. The live wire connection part 221, the live wire connection part 222 and the live wire clamping part 223 may be positioned on the same plate-like structure after being unfolded. Thus, the stamping waste generated in the process of stamping the plate-shaped structure to form the live wire inserting clamp assembly 220 can be reduced, and the manufacturing cost of the live wire inserting clamp assembly 220 is reduced.

In the case where two live wire connection arms 2222 are provided, the two live wire connection arms 2222 may be located on both sides of the live wire connection body 2221, respectively. Or two live connection bodies 2221 may be located at the same time on one side of the live connection body 2221. As long as it is ensured that the live wire connecting arms 2222 can be bent in different directions, the live wire clamping portions 223 corresponding to the two live wire connecting arms 2222 respectively can be arranged at intervals.

In the case where three live wire connection arms 2222 are provided, two live wire connection arms 2222 may be located at one side of the live wire connection body 2221, and the other live wire connection arm 2222 is located at the other side of the live wire connection body 2221.

The live connection arm 2222 may also be provided with four, five or even more, as the present example is not limited in this regard.

The conductive portion of the switch assembly 300 may be connected to any portion of the hot plug clip assembly 220 as long as normal use of the jack is not compromised.

In the example of the present application, by providing at least two live wire connection arms 2222, each live wire connection arm 2222 is connected with a live wire clamping part 223, so that one socket can be connected with at least two plugs at the same time, thereby realizing the electrical connection between at least two electrical appliances and an electrical wire, and improving the utilization rate of the socket.

Based on the socket provided by the above example, referring to fig. 6 and 8, the live wire connection part 222 further includes a connection plate 225, one end of the connection plate 225 is connected to the live wire connection body 2221, and the other end of the connection plate 225 is connected to the switch assembly 300.

The length of the connection plate 225 may be set differently as required, and thus different switch assemblies 300 may be installed at different positions.

The connection plate 225 may be located at any side of the fire wire connection body 2221 as long as it is ensured that the connection plate 225 is positioned on the same plate-like structure as the fire wire connection body 2221, the fire wire connection part 222, and the fire wire clamping part 223 after being unfolded.

For example, in the case that three fire wire connection arms 2222 are provided, two fire wire connection arms 2222 are located on the same side of the fire wire connection body 2221, and another fire wire connection arm 2222 and the connection board 225 may be located on the other side of the fire wire connection body 2221, so that the utilization rate of the plate-like structure is improved as much as possible, and the manufacturing cost of the fire wire clip assembly 220 is reduced.

The installation hole is provided at a position corresponding to the installation position of the switch assembly 300, and the switch assembly 300 may be provided at different positions due to the different lengths of the connection plates 225. Taking the example that three groups of jacks and one mounting hole are arranged on the inserting surface 500, taking the geometric center of a plane provided with the jacks as an origin to establish a plane rectangular coordinate system, the plane rectangular coordinate system can divide the inserting surface 500 into four identical areas, the three groups of jacks and the mounting hole can be respectively arranged at the geometric centers corresponding to the different areas, and the switch assembly 300 can be corresponding to the positions of the mounting holes through the arrangement of the connecting plates 225, so that the attractiveness of the socket is higher.

In this example, the length of the connection board 225 may be set according to the needs, so that the switch assembly 300 may be installed at different positions, and by setting the connection board 225, the aesthetic property of the socket may be improved.

Based on the socket provided by the foregoing example, fig. 10 is a schematic structural diagram of a neutral wire inserting clamp assembly provided by the present application, fig. 11 is an expanded schematic structural diagram of a neutral wire inserting clamp assembly provided by the present application, and referring to fig. 3, 6, 10 and 11, the plurality of inserting clamp assemblies 200 further includes a neutral wire inserting clamp assembly 200, and the neutral wire inserting clamp assembly 210 includes a neutral wire connecting portion 211, a neutral wire connecting portion 212 and a neutral wire clamping portion 213. The neutral connection 212 includes a neutral connection body 2121 and at least two neutral connection arms 2122.

The neutral connection body 2121 is connected to the neutral connection portion 211, a part of the neutral connection body 2121 is located in the connection layer 112, and a part of the neutral connection body 2121 is located in the interlayer 111. The first end of the neutral wire connecting arm 2122 is connected to the neutral wire connecting body 2121, the second end of the neutral wire connecting arm 2122 is connected to the neutral wire holding portion 213, a part of the neutral wire connecting arm 2122 is located in the connecting layer 112, and a part of the neutral wire connecting arm 2122 is located in the interposer 111. All the neutral clamps 213 are in the interlayer 111.

The number of neutral clamping sections 213 is equal to the number of live clamping sections 223, and the number of neutral clamping sections 213 corresponds to the number of live clamping sections 223 one-to-one.

The neutral wire clip assembly 210 may be formed from a sheet-like structure that is stamped and bent. The neutral wire connection portion 211, the neutral wire connection portion 212, and the neutral wire holding portion 213 may be disposed on the same plate-like structure after being unfolded. Thus, the stamping waste generated in the process of stamping the plate-shaped structure to form the zero line insertion clamp assembly 210 can be reduced, and the manufacturing cost of the zero line insertion clamp assembly 210 is reduced.

In the case where there are two zero line connection arms 2122, the two zero line connection arms 2122 may be located on both sides of the zero line connection body 2121, respectively. Or both zero line connection bodies 2121 may be located on one side of the zero line connection body 2121 at the same time. As long as it is ensured that the zero line connecting arms 2122 can be bent in different directions, the zero line clamping portions 213 corresponding to the two zero line connecting arms 2122 respectively can be arranged at intervals.

In the case where three zero line connection arms 2122 are provided, two zero line connection arms 2122 may be located on one side of the zero line connection body 2121 and the other zero line connection arm 2122 is located on the other side of the zero line connection body 2121.

The zero line link 2122 may also be provided with four, five or even more, as the present example is not limited in this regard.

In the embodiment of the application, at least two zero line connecting arms 2122 are provided, and each zero line connecting arm 2122 is connected with a zero line clamping part 213, so that one socket can be connected with at least two plugs at the same time, the electric connection between at least two electric appliances and electric wires is realized, and the utilization rate of the socket is improved.

Based on the socket provided in the above example, referring to fig. 6, 8 and 9, the live wire connection body 2221 and the neutral wire connection body 2121 have opposite crossing regions, the live wire connection body 2221 is provided with the avoidance groove 224 at the position of the crossing region, and the neutral wire connection body 2121 is inserted into the avoidance groove 224. Or the zero line connection body 2121 is provided with a dodge groove 224 at the position of the crossing region, and the live line connection body 2221 is penetrated in the dodge groove 224.

By arranging the avoidance groove 224 on the live wire connection main body 2221, the zero wire connection main body 2121 is arranged in the avoidance groove 224 in a penetrating manner, the zero wire connection main body 2121 keeps a gap with the groove wall of the avoidance groove 224, and the gap meets the use safety standard of the socket. Thus, the live wire connection body 2221 and the zero wire connection body 2121 can be prevented from being contacted, short circuit is prevented from occurring in the socket, and the use safety of the socket is ensured.

Through set up on zero line connection main part 2121 and dodge the groove, live wire connection main part 2221 wears to locate and dodges the groove, and live wire connection main part 2221 keeps the clearance with the cell wall of dodging the groove, and this clearance satisfies the safety in utilization standard of socket. Thus, the live wire connection body 2221 and the zero wire connection body 2121 can be prevented from being contacted, short circuit is prevented from occurring in the socket, and the use safety of the socket is ensured.

In summary, by providing the avoidance groove 224, a portion of the clip assembly 200 may be disposed in a gap-crossing arrangement, so that the clip assembly 200 may be disposed in a simpler arrangement and may be bent in a shorter path. When the two insert clamp assemblies 200 are mutually crossed, the insert clamp assemblies 200 at the crossing part can be provided with the avoidance groove 224, and the other insert clamp assembly 200 is avoided being in a abdication mode through the avoidance groove 224, so that the two insert clamp assemblies 200 are prevented from being contacted, the short circuit inside a socket is avoided, and the use safety of the socket is ensured.

Based on the socket provided by the foregoing example, fig. 12 is a schematic structural diagram of a ground wire clip assembly provided by the present application, fig. 13 is an expanded schematic structural diagram of a ground wire clip assembly provided by the present application, and referring to fig. 3, 6, 12 and 13, the plurality of clip assemblies 200 may further include a ground wire clip assembly 230, the ground wire clip assembly 230 may include a ground wire connection portion 231, a ground wire connection portion 232 and a ground wire clamping portion 233, and the ground wire connection portion 232 includes at least two ground wire connection arms 2321. The first end of the ground wire connection arm 2321 is connected to the ground wire connection portion 231, the second end of the ground wire connection arm 2321 is connected to the ground wire clamping portion 233, a portion of the ground wire connection arm 2321 is located in the connection layer 112, and a portion of the ground wire connection arm 2321 is located in the interlayer 111. All of the ground wire holding portions 233 are in the interlayer 111.

The socket is provided with a plurality of groups of jacks, at least two groups of three-hole jacks can be included in the plurality of groups of jacks, and in the case that two groups of three-hole jacks are provided, the two ground wire connecting arms 2321 can extend in opposite directions.

In the example of the present application, by providing at least two ground wire connection arms 2321, each ground wire connection arm 2321 is connected with the ground wire clamping part 233, so that one socket can be simultaneously connected with at least two three-pin plugs, thereby realizing the electrical connection between at least two electrical appliances and the electrical wires, improving the utilization rate of the socket, and ensuring the use safety of the electrical appliances.

Based on the socket provided by the above example, the clamping portion may include a first clamping plate and a second clamping plate, at least one of the first clamping plate and the second clamping plate is a flat plate structure, and the flat plate structure is in contact with the plug pin surface in the plug. The clamping portions may include at least one of a neutral clamping portion 213, a live clamping portion 223, and a ground clamping portion 233.

Through setting up at least one in first splint and the second splint and establishing to dull and stereotyped structure, can make clamping part and bolt be the face contact for be connected between clamping part and the bolt more reliably, make the conductive properties between plug-in clamp subassembly 200 and the bolt better, and can make the plug-in pin insert the process of clamping part or plug-in pin pull-out plug-in clamp's process comparatively smooth.

One side of the clamping portion facing away from the bottom of the mounting groove 110 may be provided with a guide structure, which may include two plate structures disposed in opposite directions, and a distance between the two plate structures gradually decreases along the direction from the insertion surface 500 to the bottom of the mounting groove 110. Therefore, in the process of inserting the bolt into the clamping part, the bolt can be firstly inserted into one end with the largest distance between the two plate-shaped structures, so that the bolt can be conveniently inserted into the guide structure, and then the clamping part is inserted. The efficiency of bolt insertion clamping part can be improved through setting up the guide structure for the process of bolt insertion clamping part, or the process of bolt extraction clamping part is comparatively smooth.

In some possible implementations, fig. 14 is an enlarged schematic view of fig. 12 at i, referring to fig. 14, the clamping portion includes a bending plate and two clamping plates, at least one side of the bending plate is provided with a reinforcing portion, the reinforcing portion includes a reinforcing plate 2331, and at least one side of the clamping portion is provided with a reinforcing plate 2331 along a direction of inserting the interlayer 111 into the connection layer 112. And/or the reinforcing part comprises a reinforcing protrusion 2332, and the side of the bending plate away from the clamping plate is provided with the reinforcing protrusion 2332.

The reinforcing part can be the reinforcing plate 2331 arranged on the bending plate, the size of the bending plate can be increased through the reinforcing plate 2331, and the clamping force of the clamping part is improved, so that the clamping part is more reliably connected with the bolt.

The reinforcing part can be a reinforcing protrusion 2332 formed on the clamping part in a punching way, so that the tensile strength and the bending strength of the reinforcing part are improved, the clamping force of the clamping part is improved, and the clamping part is more reliably connected with the bolt.

In conclusion, through setting up the enhancement portion, can improve the intensity of clamping part, improve the clamping force of clamping part for the clamping part is more reliable with the connection of bolt.

In some possible implementations, the clip assembly 200 further includes a reinforcement portion disposed on at least one of the connection portion and the clamping portion. Alternatively, the clip assembly 200 has a plurality of bending portions, at least one of which is provided with a reinforcing portion. Or the clamping part comprises a bending plate and two clamping plates, and at least one side of the bending plate is provided with a reinforcing part.

The reinforcing part can be a bulge formed on the connecting part and/or the clamping part in a punching way, so that the tensile strength and the bending strength of the reinforcing part are improved.

The reinforcing part can also be a bulge formed by stamping on each bending part of the inserting clamp assembly 200, so that the stress area of the bending part is increased, the bending part can bear larger external force, the possibility of deformation of the bending part is reduced, and the use reliability of the socket is ensured.

The density of the protruding parts can be made larger by forming the protruding parts by punching, thereby improving the strength of the bending parts.

The reinforcing part can also be a reinforcing plate arranged on the bending plate, the size of the bending plate can be increased through arranging the reinforcing plate, and the clamping force of the clamping part is improved, so that the clamping part is more reliably connected with the bolt.

In one clip assembly 200, at least one reinforcement portion as described above may be provided. Or at least two reinforcing portions may be provided on one clip assembly 200, and the at least two reinforcing portions may be any combination of the reinforcing portions. Or all of the above reinforcements may be provided on one clip assembly 200 at the same time.

In summary, by providing the reinforcing portion, the strength of the clip assembly 200 can be improved, and the use reliability of the clip assembly 200 can be ensured.

Based on the socket provided by the above example, fig. 15 is a schematic structural view of a fixing plate provided by the present application, fig. 16 is a schematic structural view of a base provided by the present application, referring to fig. 2, 15 and 16, the socket may further include a fixing plate 400, the fixing plate 400 is mounted on a notch of the mounting groove 110, at least two buckles 410 are disposed on a side of the fixing plate 400 facing the bottom of the mounting groove 110, and a clamping groove 160 connected with the buckles 410 is disposed on the bottom of the mounting groove 110.

The fixing plate 400 is installed at the notch of the installation groove 110, and can shield the inserting and clamping assembly 200 in the installation groove 110, so that the possibility that a user directly contacts the inserting and clamping assembly 200 is reduced, and the use safety of the socket is ensured.

The rim of the fixing plate 400 may be detachably coupled with the sidewall of the mounting groove 110 by a coupling member such as a buckle 410 assembly, a bolt, or the like.

One side of the fixing plate 400 facing the bottom of the installation groove 110 may be provided with at least two buckles 410, the two buckles 410 may be disposed opposite to each other, the two buckles 410 may also be disposed opposite to each other, the two buckles 410 may be disposed at the middle of the fixing plate 400 at intervals, and the bottom of the installation groove 110 is provided with a clamping groove 160 corresponding to the buckles 410.

By providing at least two buckles 410 on a side of the fixing plate 400 facing the bottom of the mounting groove 110, the connection reliability between the fixing plate 400 and the base 100 can be further improved by the cooperation between the buckles 410 and the clamping groove 160.

The connection relationship between the switch assembly 300 and the clip assembly 200 will be described next.

Based on the sockets provided by the above examples, the switch assembly 300 may include switch keys, elastic members, sliding bars, moving touch pad assemblies, and stationary touch pad assemblies. One end of the elastic piece is fixedly connected with the switch key, and the other end of the elastic piece is connected with the slide bar. The movable contact plate assembly comprises a movable contact plate and a movable contact point. The live wire clip assembly 220 of the movable contact plate and clip assembly 200 is always kept in contact, and one end of the movable contact plate is provided with a movable contact. The static contact plate assembly comprises a static contact plate and a static contact, wherein the static contact is arranged at one end part of the static contact plate, the other end part of the static contact plate is connected with a wiring terminal, and the static contact plate can be arranged close to the live wire wiring part 221. Part of the static contact plate is positioned on the connecting layer 112, and part of the contact plate and a wiring terminal connected with the static contact plate are positioned on the terminal layer 113. The switch key can control the movable contact to be contacted with the static contact.

The switch button has a first end and a second end in a direction parallel to the neutral jack to the hot jack. When the first end of the switch button is in the off state, the movable contact plate and the static contact plate of the switch assembly 300 are separated, and the switch assembly 300 is in the off state. When the second end of the switch button is in an on state, the movable contact plate of the switch assembly 300 is in contact with the static contact plate, the switch assembly 300 is in an on state, an indication mark 510 can be arranged at the second end of the switch assembly 300, the indication mark 510 can be arranged on the switch button, and the indication mark can also be arranged on the inserting surface 500. The indication mark 510 may be a text, a pattern, or a combination of text and pattern.

There are various ways of connecting the switch assembly 300 to the clip assembly 200.

For example, the neutral wire of the electric wire may be connected to the neutral wire connection part 211 through a connection terminal, the ground wire of the electric wire may be connected to the ground wire connection part 231 through a connection terminal, and the live wire of the electric wire may be connected to the stationary contact plate of the switch assembly 300 through a connection terminal. At this time, the switch assembly 300 is connected in series with the clip assembly 200, and the switch assembly 300 can control the on-off of the socket. When the switch assembly 300 is in the off state, no current passes through the socket, when the switch assembly 300 is in the on state, current passes through the socket, and the socket can realize the electric connection between the electric appliance and the electric wire, so that the electric wire can provide electric energy for the electric appliance, and the electric appliance can be in the working state.

For example, the neutral wire of the electric wire may be connected to the neutral wire connection part 211 through a connection terminal, the ground wire of the electric wire may be connected to the ground wire connection part 231 through a connection terminal, and the live wire of the electric wire may be connected to the live wire connection part 221 through a connection terminal. The wire of consumer can be connected with the static touch panel of switch module 300 through binding post, and consumer and switch module 300 establish ties, and switch module 300 can control the break-make of consumer. Since the movable contact is always in contact with the live strip clip assembly 220 of the clip assembly 200, the switch assembly 300 and the clip assembly 200 are connected in parallel. Therefore, when the switch assembly 300 is in the off state, the electric equipment is powered off, and when the switch assembly 300 is in the on state, the electric equipment can be in the working state. The powered device may be a lighting fixture or other powered device.

Based on the socket provided by the above example, the socket can further comprise a protection door component, the protection door component is arranged on one side of the insertion clamp component 200, which is away from the bottom of the mounting groove 110, the protection door component is slidably arranged between the base 100 and the fixing plate 400, the protection door component can shield the jack, the possibility that a user touches the insertion clamp component 200 by mistake is reduced, the use safety of the socket is ensured, the protection door component shields the jack, the possibility that dust, metal pieces and other foreign matters enter the socket from the jack can be reduced or even avoided, the possibility that short circuit occurs inside the socket is reduced, and the use reliability of the socket is ensured. Under the condition that the plug pin of the plug is inserted into the jack, the plug pin can push the protection door component to slide to expose the clamping part, so that the plug pin can be inserted into the clamping part, the plug pin assembly 200 is connected with an electric appliance, and the electric appliance can be in a working state.

Finally, it should be noted that: the above embodiments are merely specific embodiments of the present application, but the scope of the present application is not limited thereto, and any changes or substitutions within the technical scope of the present application should be covered by the scope of the present application. Therefore, the protection scope of the application is subject to the protection scope of the claims.

Claims (10)

1. The socket is characterized by comprising a base, a switch assembly and a plurality of inserting clamp assemblies, wherein the base is provided with a mounting groove, the switch assembly is partially connected in the mounting groove, and the inserting clamp assemblies are all arranged in the mounting groove;

The distance between two adjacent inserting and clamping assemblies is larger than or equal to a preset value, each inserting and clamping assembly comprises a wiring part, a connecting part and a clamping part which are connected, the inserting and clamping assemblies are arranged in a layered mode, and the same type of structures in all the inserting and clamping assemblies are in the same layer;

The mounting groove is internally provided with a terminal layer, a connecting layer and an inserting interlayer, wherein the terminal layer is a space area, close to the bottom of the mounting groove, of the inserting assembly, the wiring part is arranged in the terminal layer, the wiring part is connected with a wiring terminal, the connecting layer is a space area, away from the bottom of the mounting groove, of the terminal layer, part of the connecting layer is arranged in the connecting layer, the wiring part is connected with the clamping part, the inserting interlayer is a space area, away from the side of the terminal layer, of the connecting layer, the inserting interlayer is communicated with a notch of the mounting groove, and the clamping part is arranged in the inserting interlayer;

The switch assembly is electrically connected with the inserting clamp assembly, part of the switch assembly is located in the inserting interlayer, part of the switch assembly extends into the terminal layer and is connected with a wiring terminal, and the switch assembly can switch on-off of the socket.

2. The jack of claim 1, wherein a plurality of said clip assemblies include a fire wire clip assembly, said fire wire clip assembly including a fire wire connection portion, and a fire wire clamping portion, said fire wire connection portion comprising:

the live wire connecting body is connected with the live wire wiring part, part of the live wire connecting body is positioned on the connecting layer, and part of the live wire connecting body is positioned on the interlayer;

The first ends of the fire wire connecting arms are connected with the fire wire connecting main body, the second ends of the fire wire connecting arms are connected with the fire wire clamping parts, part of the fire wire connecting arms are positioned on the connecting layer, and part of the fire wire connecting arms are positioned on the interlayer;

All the live wire clamping parts are positioned in the interlayer.

3. The jack of claim 2, wherein the live connection portion further includes a connection plate, one end of the connection plate is connected to the live connection body, and the other end of the connection plate is connected to the switch assembly.

4. The receptacle of claim 2, wherein a plurality of said clip assemblies further comprise a neutral clip assembly, said neutral clip assembly comprising a neutral wire connection portion, and a neutral wire clamping portion, said neutral wire connection portion comprising:

The zero line connecting main body is connected with the zero line wiring part, part of the zero line connecting main body is positioned on the connecting layer, and part of the zero line connecting main body is positioned on the interlayer;

the first ends of the zero line connecting arms are connected with the zero line connecting main body, the second ends of the zero line connecting arms are connected with the zero line clamping parts, part of the zero line connecting arms are positioned on the connecting layer, and part of the zero line connecting arms are positioned on the interlayer;

All the zero line clamping parts are positioned in the interlayer.

5. The jack of claim 4 wherein said live connection body and said neutral connection body have opposite intersection areas,

The live wire connecting main body is provided with an avoidance groove at the position of the intersection area, and the zero line connecting main body is arranged in the avoidance groove in a penetrating manner; or alternatively

The zero line connecting main body is provided with an avoidance groove at the position of the crossing area, and the live line connecting main body penetrates through the avoidance groove.

6. The receptacle of any one of claims 1-5 wherein a plurality of said clip assemblies further comprise a ground clip assembly, said ground clip assembly comprising a ground wire connection portion, and a ground wire clamping portion, said ground wire connection portion comprising:

The first ends of the ground wire connecting arms are connected with the ground wire wiring part, the second ends of the ground wire connecting arms are connected with the ground wire clamping part, part of the ground wire connecting arms are positioned on the connecting layer, and part of the ground wire connecting arms are positioned on the interlayer;

all the ground wire clamping parts are positioned in the interlayer.

7. The receptacle of any one of claims 1-5, wherein the clip assembly further comprises a reinforcement portion disposed on at least one of the wiring portion, the connection portion, and the clip portion; or alternatively

The inserting clamp assembly is provided with a plurality of bending parts, and at least one bending part is provided with the reinforcing part; or alternatively

The clamping part comprises a bending plate and two clamping plates, and at least one side of the bending plate is provided with a reinforcing part.

8. The socket of any one of claims 1-5, wherein the clamping portion comprises a first clamping plate and a second clamping plate, at least one of the first clamping plate and the second clamping plate being a flat plate structure, the flat plate structure being in contact with a latch face of the plug.

9. The socket of claim 8, wherein the clamping portion comprises a bent plate and two clamping plates, wherein at least one side of the bent plate is provided with a reinforcing portion;

The reinforcing part comprises a reinforcing plate, and the reinforcing plate is arranged on at least one side of the clamping part along the direction from the interlayer to the connecting layer; and/or the number of the groups of groups,

The reinforcing part comprises a reinforcing protrusion, and the reinforcing protrusion is arranged on one side of the bending plate away from the clamping plate.

10. The socket of claim 1, further comprising a fixing plate, wherein the fixing plate is mounted on a notch of the mounting groove, at least two buckles are arranged on one side, facing the bottom of the mounting groove, of the fixing plate, and a clamping groove connected with the buckles is formed in the bottom of the mounting groove.