CN220873882U - Integrative copper sheathing structure and conversion head socket thereof - Google Patents

Abstract

The embodiment of the application discloses an integrated copper sleeve structure and a conversion head socket thereof, which are used for simplifying the assembly flow of the copper sleeve structure and improving the assembly efficiency of the conversion head socket. The application relates to an integrated copper sleeve structure, which comprises: the system comprises a live wire module, a zero wire module and a ground wire module; the fire wire module comprises a fire wire base and a fire electrode pin, a plurality of fire wire branch wires are arranged in the middle of the fire wire base, the fire wire branch wires and the fire wire base are integrally bent and formed, and fire wire plug bushes are arranged at both ends of the fire wire base and at the tail ends of the fire wire branch wires; the fire electrode pin is arranged on one fire wire branch line; the zero line module comprises a zero line base and zero pole pins, a plurality of zero line branch lines are arranged in the middle of the zero line base, the zero line branch lines and the zero line base are integrally bent and formed, and zero line plug bushes are arranged at both ends of the zero line base and at the tail ends of the zero line branch lines; the zero pole pin is arranged on one of the zero line branch wires.

Description

Integrative copper sheathing structure and conversion head socket thereof

Technical Field

The application relates to the field of electrical equipment, in particular to an integrated copper sleeve structure and a conversion head socket thereof.

Background

The adapter socket is used for converting various power plugs with different types, so that the power plugs with different types can be adapted to different voltages, and the power plugs with different types can be conveniently used through the conversion of the adapter socket.

The conversion head socket comprises a copper sleeve structure and a shell, and the copper sleeve structure is arranged in the shell. Among the prior art, copper sheathing structure includes bus, plug bush and participate in, in order to satisfy the demand of many plug sites of topside, copper sheathing structure needs to tear open and build the shaping, and the bus needs to be formed by a plurality of segmentation riveting, and plug bush and participate in need pass through riveted mode rigid coupling in the bus, and the riveting process needs to consume certain manpower, time, leads to the process loaded down with trivial details with copper sheathing structure equipment, and adapter socket packaging efficiency is low.

Disclosure of utility model

The embodiment of the application provides an integrated copper sleeve structure and a conversion head socket thereof, which can simplify the assembly process of the copper sleeve structure and improve the assembly efficiency of the conversion head socket.

In a first aspect, the present application provides an integrated copper sheathing structure, which adopts the following technical scheme:

An integrated copper sheathing structure, comprising: the system comprises a live wire module, a zero wire module and a ground wire module;

The fire wire module comprises a fire wire base and a fire electrode pin, a plurality of fire wire branch wires are arranged in the middle of the fire wire base, the fire wire branch wires and the fire wire base are integrally bent and formed, and fire wire plug bushes are arranged at both ends of the fire wire base and at the tail ends of the fire wire branch wires; the fire electrode pin is arranged on one of the fire wire branch lines;

The zero line module comprises a zero line base and zero pole pins, wherein a plurality of zero line branch lines are arranged in the middle of the zero line base, the zero line branch lines and the zero line base are integrally bent and formed, and zero line plug bushes are arranged at both ends of the zero line base and at the tail ends of the zero line branch lines; the zero pole pin is arranged on one of the zero line branch wires.

Preferably, the neutral wire base is parallel to the live wire base, the live wire branch wire and the neutral wire branch wire are both provided with two, the live wire branch wire and the neutral wire branch wire are on the same side, and the neutral wire branch wire and the tail end of the live wire branch wire are located on the same plane.

Preferably, one of the live wire branch lines is provided with two live wire plug bushes with different orientations, one of the neutral wire branch lines is provided with two neutral wire plug bushes with different orientations, one of the live wire plug bushes and one of the neutral wire plug bushes are vertically arranged, the other live wire plug bush and the other neutral wire plug bush are horizontally arranged, and the live wire plug bush which is vertically arranged and the neutral wire plug bush which is vertically arranged form a two-plug position together.

Preferably, the live wire plug bush and the zero wire plug bush which are arranged horizontally form a two-plug position together; the zero line plug bush and the live line plug bush which are horizontally arranged form another two-plug socket together.

Preferably, the ground wire module comprises a ground wire base and a ground electrode pin, and the ground electrode pin is mounted on the ground wire base and is parallel to the fire electrode pin.

Preferably, the ground wire base is provided with a ground wire plug bush, and the ground wire plug bush, the zero wire plug bush and the live wire plug bush on the same plane form a three-plug position together.

Preferably, the live wire plug bush and the live wire branch wire are integrally formed, the neutral wire plug bush and the neutral wire branch wire are integrally formed, and the ground wire plug bush and the ground wire base part are integrally formed.

Preferably, the live wire plug bush comprises a guide part and a clamping part, and the clamping part and the guide part are integrally formed.

Preferably, the end of the clamping portion extends obliquely toward the live line branch line.

Preferably, the guiding part is located at one side of the clamping part facing the external plug, and the guiding part is outwards folded.

In a second aspect, the present application provides a converter socket, which adopts the following technical scheme:

The utility model provides a conversion head socket, includes casing and foretell integrative copper sheathing structure, integrative copper sheathing structure is located in the casing.

Preferably, the ground wire module comprises a ground wire base and a ground electrode pin, the ground wire base is provided with a ground wire plug bush, the shell is provided with a plurality of jacks, and the jacks are arranged in one-to-one correspondence with the live wire plug bush, the zero wire plug bush and the ground wire plug bush.

Preferably, the shell comprises an upper cover and a lower cover, and the upper cover and the lower cover are mutually clamped; the lower cover is provided with a through hole, and the fire electrode pin, the zero electrode pin and the earth electrode pin are respectively penetrated through the through hole and assembled on the lower cover.

From the above technical solutions, the embodiment of the present application has the following advantages:

the live wire base, the live wire branch wires and the live wire plug bush in the integrated copper bush structure are integrally bent and formed, the zero line base, the zero line branch wires and the zero line plug bush are integrally bent and formed, so that the material cost is reduced, the assembly method that a plurality of sections of branch wires are riveted into a bus in the related technology is changed, the operation complexity is reduced, the installation flow between each component of the live wire module and the zero line module is simplified, and the integrated copper bush structure of the integrated copper bush structure improves the assembly efficiency of the adapter socket.

Drawings

Fig. 1 is a schematic diagram of the overall structure of an integrated copper sheathing structure according to an embodiment of the present application;

Fig. 2 is a schematic structural view of a highlighted live wire module in an integrated copper sheathing structure according to an embodiment of the present application;

Fig. 3 is a partial enlarged view at a of fig. 2.

Fig. 4 is a schematic structural diagram of a salient zero line module in an integrated copper sheathing structure according to an embodiment of the present application;

Fig. 5 is a schematic structural view of a protruding ground wire module in an integrated copper sheathing structure according to an embodiment of the present application;

Fig. 6 is a schematic structural diagram of a converter socket according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of another view angle of a converter socket according to an embodiment of the present application.

Reference numerals illustrate:

1. A copper sleeve structure; 11. a fire wire module; 111. a fire wire base; 112. a fire electrode pin; 113. a live wire plug bush; 114. a fire wire branch line; 115. a clamping part; 116. a guide part; 117. a guide piece; 12. a zero line module; 121. a zero line base; 122. zero pole pins; 123. zero line plug bush; 124. a neutral branch; 13. a ground wire module; 131. a ground wire base; 132. a ground electrode pin; 133. a ground wire plug bush; 2. a housing; 21. a jack; 22. an upper cover; 23. a lower cover; 24. and a through hole.

Detailed Description

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

The embodiment of the application discloses an integrated copper sleeve structure. Referring to fig. 1, the integrated copper sheathing structure 1 includes a live wire module 11, a neutral wire module 12 and a ground wire module 13, wherein the live wire module 11 and the neutral wire module 12 are arranged in parallel, and the ground wire module 13 is located between the live wire module 11 and the neutral wire module 12. In this embodiment the live module 11 is located to the left of the neutral module 12.

Referring to fig. 1 and 2, the fire wire module 11 includes a fire wire base 111 and fire electrode pins 112, the fire wire base 111 is substantially a sheet-shaped cuboid and is vertically disposed, the length direction of the fire wire base 111 is parallel to the horizontal direction, and the fire electrode pins 112 are vertically disposed. Referring to fig. 2, two ends of the live wire base 111 are provided with live wire plug sleeves 113, and the two live wire plug sleeves 113 face to the left side surface and the right side surface respectively.

A plurality of fire wire branch lines 114 are arranged at the middle position of the fire wire base 111, and the fire wire branch lines 114 are mutually perpendicular to the fire wire base 111. In this embodiment, two fire wire branch lines 114 are provided, two fire wire branch lines 114 are on the same side and the ends of the two fire wire branch lines 114 are in the same plane, and a gap is provided between the two fire wire branch lines 114. The fire pin 112 is mounted to one of the fire legs 114. In this embodiment, the fire-wire branch 114 is fixed by caulking to the fire-wire pin 112, the fire-wire branch 114 to which the fire-wire pin 112 is attached is caulking to the fire-wire base 111, and the other fire-wire branch 114 is integrally press-bent with the fire-wire base 111. In other implementations, both of the fire wire legs 114 may be integrally stamped and bent with the fire wire base 111.

The two fire wire branches 114 are each provided with a fire wire plug 113 at their ends remote from the fire wire base 111. One live wire branch line 114 provided with the live wire pins 112 is provided with two live wire plug bushes 113 with different orientations, one live wire plug bush 113 of the two live wire plug bushes 113 is vertically arranged and faces the upper top surface, and the other live wire plug bush 113 is horizontally arranged and faces the front side surface; the other live branch 114 is provided with a live plug 113, which live plug 113 is arranged horizontally and directed towards the front side. In this embodiment, the live wire plug bush 113 is integrally formed by bending the live wire branch line 114.

Referring to fig. 3, the live wire plug housing 113 includes a guide portion 116 for facilitating insertion of a plug and a clamping portion 115 for enhancing stability of the plug, the clamping portion 115 and the guide portion 116 being integrally formed. The tip of the clip portion 115 extends toward the direction in which the live wire branch 114 is located, the guide portion 116 is located at the end face of the clip portion 115 that is closer to the external plug, and the guide portion 116 is folded outward. In this embodiment, the clamping portion 115 and the guiding portion 116 of the live wire plug bush 113 are formed by integrally bending the live wire branch line 114, the cross section of the clamping portion 115 is in a reverse "J" shape, a part of the guiding portion 116 is located on the side surface of the clamping portion 115, and a part of the guiding portion 116 is located at the end of the clamping portion 115.

To promote user satisfaction with the insertion of the plug, the fire wire branch 114 is provided with a guide tab 117. In this embodiment, the guide piece 116 and the live wire branch 114 are integrally formed and turned outwards, the guide piece 117 is on the same side as the guide piece 116, the guide piece 117 is at the same height as the guide piece 116, and a channel for the plug pin to enter is formed between the guide piece 116 and the guide piece 117.

Referring to fig. 4, the neutral module 12 includes a neutral base 121 and a neutral pin 122, the neutral base 121 is substantially a sheet-shaped cuboid and is vertically disposed, the length direction of the neutral base 121 is parallel to the horizontal direction, the neutral base 121 is parallel to the live base 111, and the neutral pin 122 is vertically disposed and is parallel to the fire pin 112. The zero line base 121 is provided at both ends thereof with zero line bushings 123, and the two zero line bushings 123 face the left side face and the right side face, respectively. In this embodiment, the live wire base 111 and the neutral wire base 121 have the same length, and one live wire plug bush 113 and one neutral wire plug bush 123 on the left side face together form a two-plug position; similarly, a live wire plug bush 113 and a neutral wire plug bush 123 on the right side face together form a two-plug position.

The middle part of the neutral base 121 is provided with a plurality of neutral legs 124, and the neutral legs 124 are perpendicular to the neutral base 121, and in this embodiment, the neutral legs 124 are provided with two, two neutral legs 124 are on the same side as the two live legs 114, a gap is provided between the two neutral legs 124, and the ends of the two neutral legs 124 and the ends of the two live legs 114 are located on the same plane. The neutral pin 122 is mounted to one of the neutral legs 124. In the present embodiment, the neutral pin 122 is riveted and fixed to the neutral branch line 124, the neutral branch line 124 to which the neutral pin 122 is attached is riveted to the neutral base 121, and the other neutral branch line 124 is integrally press-bent with the neutral base 121. In other implementations, both neutral legs 124 may be integrally stamped and bent with the neutral base 121. One neutral leg 124 with a neutral pin 122 mounted is located between the two hot legs 114.

One end, far away from the zero line base 121, of each of the two zero line branch lines 124 is provided with a zero line plug bush 123, one zero line branch line 124 provided with a zero pole pin 122 is provided with two zero line plug bushes 123 facing different directions, one zero line plug bush 123 of the two zero line plug bushes 123 is vertical and faces the upper top surface, and the other zero line plug bush 123 is horizontally arranged and faces the front side surface; the other neutral leg 124 is provided with a neutral plug 123, which neutral plug 123 is arranged horizontally and directed towards the front side. In this embodiment, the neutral plug 123 is integrally formed by bending the neutral branch 124, and the neutral plug 123 has a structure identical to that of the live plug 113.

On the front side, a live wire plug bush 113 horizontally arranged and a zero wire plug bush 123 adjacent to the same plane form a two-plug position together; the horizontal neutral plug 123 and the live plug 113 on the same plane together form another two-plug socket. The matching of the live wire plug bush 113 on the live wire branch line 114 and the neutral wire plug bush 123 on the neutral wire branch line 124 on different planes realizes the layout requirements of the multi-jack 21 on the front side, the left side and the right side, and the whole structure is simple and compact, and the combination space is reduced.

Referring to fig. 5, the ground module 13 includes a ground base 131 and a ground pin 132, and the ground pin 132 is vertically mounted on the ground base 131 and parallel to the fire pin 112. The ground wire base 131 is provided with a ground wire plug 133, and the ground wire plug 133 is provided toward the upper top surface. In this embodiment, the earth pin 132 is riveted and fixed to the earth base 131, and the earth base 131 and the earth socket 133 are integrally formed. The ground wire insert 133 and the vertically disposed live wire insert 113 and neutral wire insert 123 together form a three-pin insert on the top surface.

The base parts, the branch lines and the plug bush in the live wire module 11, the neutral wire module 12 and the ground wire module 13 are all integrally bent and formed, so that the material cost is reduced, the assembly method that a plurality of sections of branch lines are riveted into a bus in the related art is changed, the assembly complexity is reduced, the assembly process among all the components of the live wire module 11, the neutral wire module 12 and the ground wire module 13 is simplified, and the assembly efficiency of the top-side integrated copper bush structure 1 is improved. According to different standard requirements, the top-side integrated copper bush structure 1 can be expanded into national standards, daily standards, australian standards and the like according to the requirement standards.

The application also discloses a conversion head socket, referring to fig. 6 and 7, comprising the integrated copper bush structure 1 and a shell 2, wherein the integrated copper bush structure 1 is positioned in the shell 2. The housing 2 is provided with a plurality of insertion holes 21, and the insertion holes 21 are arranged in one-to-one correspondence with the positions of the live wire plug bush 113, the neutral wire plug bush 123 and the ground wire plug bush 133. The external plug is connected with the live wire plug bush 113, the neutral wire plug bush 123 and/or the ground wire plug bush 133 through the jack 21 by each pin of the external plug.

The shell 2 comprises an upper cover 22 and a lower cover 23 which are used for positioning the integrated copper sleeve structure 1, and the upper cover 22 and the lower cover 23 are mutually clamped. In the present embodiment, the insertion holes 21 are distributed in the upper cover 22 and the lower cover 23. The lower cover 23 is provided with through holes 24 for positioning the fire electrode pins 112, the zero electrode pins 122 and the earth electrode pins 132, and the fire electrode pins 112, the zero electrode pins 122 and the earth electrode pins 132 are respectively assembled on the lower cover 23 through the through holes 24.

The foregoing description of the preferred embodiments of the present application should not be construed as limiting the scope of the application, wherein like parts are designated by like reference numerals, and it should be noted that the terms "front", "rear", "left", "right", "upper" and "lower" used in the foregoing description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward or away from the geometric center of a particular part, respectively. Therefore: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (10)

1. An integral copper sheathing structure, characterized in that includes: a live wire module (11), a neutral wire module (12) and a ground wire module (13);

The fire wire module (11) comprises a fire wire base (111) and fire electrode pins (112), a plurality of fire wire branch wires (114) are arranged in the middle of the fire wire base (111), the fire wire branch wires (114) and the fire wire base (111) are integrally bent and formed, and fire wire plug bushes (113) are arranged at both ends of the fire wire base (111) and at both ends of the fire wire branch wires (114); the fire electrode pins (112) are arranged on one fire wire branch line (114);

The zero line module (12) comprises a zero line base (121) and zero pole pins (122), wherein a plurality of zero line branch lines (124) are arranged in the middle of the zero line base (121), the zero line branch lines (124) and the zero line base (121) are integrally bent and formed, and zero line plug bushes (123) are respectively arranged at two ends of the zero line base (121) and at the tail ends of the zero line branch lines (124); the neutral pin (122) is mounted to one of the neutral legs (124).

2. An integrated copper sheathing structure according to claim 1, wherein one of said live branch lines (114) is provided with two live bushings (113) oriented differently, wherein one of said neutral branch lines (124) is provided with two neutral bushings (123) oriented differently, wherein one of said live bushings (113) and one of said neutral bushings (123) are arranged vertically, and the other of said live bushing (113) and the other of said neutral bushing (123) are arranged horizontally, said live bushing (113) arranged vertically and said neutral bushing (123) arranged vertically together forming a two-plug socket.

3. An integrated copper sheathing structure according to claim 2, characterized in that the horizontally arranged live wire plug bush (113) and the coplanar neutral wire plug bush (123) together form a two-plug socket; the horizontal zero line plug bush (123) and the same plane live line plug bush (113) form another two-plug position together.

4. An integrated copper sheathing structure according to claim 2, characterized in that the neutral base (121) is parallel to the neutral base (111), the neutral branch (114) and the neutral branch (124) are both provided with two, the neutral branch (114) being on the same side as the neutral branch (124), the neutral branch (124) being on the same plane as the end of the neutral branch (114).

5. An integrated copper sheathing structure according to claim 1, characterized in that the earth module (13) comprises an earth base (131) and earth pins (132), said earth pins (132) being mounted to said earth base (131) and parallel to said fire pins (112).

6. An integrated copper sheathing structure according to claim 5, wherein the ground wire base (131) is provided with a ground wire insert (133), said ground wire insert (133) and the neutral insert (123) and live wire insert (113) co-planar together forming a three-plug socket.

7. An integrated copper sheathing structure according to claim 1, wherein said live wire plug bush (113) comprises a guide portion (116) and a clamping portion (115), said clamping portion (115) and said guide portion (116) being integrally formed.

8. An integrated copper sheathing structure according to claim 7, characterized in that the ends of the clamping portions (115) extend obliquely in the direction of the live branch (114).

9. An integrated copper sheathing structure according to claim 7, characterized in that the guide portion (116) is located on the side of the clamping portion (115) facing the external plug, the guide portion (116) being folded outwards.

10. A transition point receptacle, comprising: a housing (2) and an integrated copper sheathing structure (1) according to any one of claims 1-9, the integrated copper sheathing structure (1) being located within the housing (2).