CN216903429U - Double homopolar integration wiring board - Google Patents

Abstract

The utility model relates to the technical field of sockets, especially, relate to a double homopolar integration wiring board, including last casing, lower casing, protection door subassembly, L utmost point copper bar plug bush, E utmost point copper bar plug bush and N utmost point copper bar plug bush are located the casing and the cavity of inferior valve body group one-tenth, and E utmost point copper bar plug bush, N utmost point copper bar plug bush and L utmost point copper bar plug bush from the bottom up overlap the setting in proper order. The homopolar plug bushes of the six jacks are double-row and integrated, and are not connected by other wires, so that the power supply is more reliable to install; the plug bush structure optimization of single-phase two poles of the earth, the equipment is convenient, saves copper spare material more simultaneously, and satisfies reliable power supply demand.

Description

Double homopolar integration wiring board

Technical Field

The utility model relates to a socket technical field especially relates to a double homopolar integration wiring board.

Background

The traditional five-hole protective door consists of two-pole and three-pole independent protective doors which respectively correspond to two springs. The spring is easy to break up in the installation process, so that the assembly efficiency is low;

the patch board is the power supply equipment of domestic appliance, has got into thousands of households at present. The power supply reliability of the patch board directly influences the safety and the quality of power consumption, and a plug bush in the patch board is the most key part for ensuring the power supply reliability of a socket. The plug bush in the existing patch board generally adopts a single plug bush module to tin solder a copper bar to form an electrifying link, or a single row of integrated plug bushes are connected by a lead to form a double-row plug bush link, the problem of false welding caused by false welding leakage of the false welding easily exists in the plug bush connecting structure, and the potential safety hazard is caused by overhigh temperature rise of the patch board after electrification.

SUMMERY OF THE UTILITY MODEL

The utility model provides a double-row homopolar integrated patch board which has the advantages of simplicity in installation and copper material saving.

In order to realize the purpose of the utility model, the adopted technical scheme is as follows: the utility model provides a double homopolar integration wiring board, includes casing, lower casing, protection door subassembly, the utmost point copper bar plug bush of L, the utmost point copper bar plug bush of E and the utmost point copper bar plug bush of N, and protection door subassembly, the utmost point copper bar plug bush of L, the utmost point copper bar plug bush of E and the utmost point copper bar plug bush of N are located the casing and the cavity of casing constitution down, and the setting is overlapped from the bottom up in proper order to the utmost point copper bar plug bush of E, the utmost point copper bar plug bush of N and the utmost point copper bar plug bush of L.

As an optimized scheme of the utility model, the L-pole copper bar plug bush comprises an L-pole convergence copper bar, an upper left L-pole plug bush and a lower right L-pole plug bush, wherein the upper left L-pole plug bush and the lower right L-pole plug bush are respectively arranged on two sides of the L-pole convergence copper bar.

As an optimized scheme of the utility model, the E-pole copper bar plug bush comprises an E-pole convergence copper bar, an upper E-pole plug bush and a lower E-pole plug bush, wherein the upper E-pole plug bush and the lower E-pole plug bush are positioned on the same side of the E-pole convergence copper bar.

As an optimized scheme of the utility model, the N-pole copper bar plug bush comprises an N-pole convergence copper bar, an upper right N-pole plug bush and a lower left N-pole plug bush, wherein the upper right N-pole plug bush and the lower left N-pole plug bush are respectively arranged on two sides of the N-pole convergence copper bar.

As an optimized scheme of the utility model, the upper left L-pole plug bush, the upper E-pole plug bush and the upper right N-pole plug bush form a group of jacks, the lower right L-pole plug bush, the lower E-pole plug bush and the lower left N-pole plug bush form a group of jacks, and the double-row homopolar integrated patch board comprises a plurality of groups of jacks.

As an optimized scheme of the utility model, the double-row homopolar integrated patch board further comprises a switch cap, a button switch and a wire protecting sleeve, wherein the switch cap is connected to the button switch, a lead enters from the wire protecting sleeve, and the end part of the lead is electrically connected with the button switch.

As an optimized scheme of the utility model, the double-row homopolar integrated patch board is not limited to the same structure of double-row six-position patch boards, eight-position patch boards and ten-position patch boards.

The utility model has the positive effects: 1) the homopolar plug bushes of the six jacks are double-row and integrated, and are not connected by other wires, so that the power supply is more reliable to install;

2) compared with the current plugboard, the plugboard has the advantages of simple structure, optimized structure of the single-phase two-pole plugboard, convenience in assembly, more copper part material saving and capability of meeting reliable power supply requirements;

3) the utility model is not limited to the same structure of double-row six-position wiring board, eight-position wiring board and ten-position wiring board, and has wide application range.

Drawings

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

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is an assembled view of the L pole, E pole and N pole copper bar sleeves of the present invention;

FIG. 3 is a schematic structural view of an L-pole copper bar insert sleeve of the present invention;

FIG. 4 is a schematic structural view of an E-pole copper bar insert sleeve of the present invention;

FIG. 5 is a schematic structural diagram of the N-pole copper bar plug bush of the present invention.

Wherein: 1. go up the casing, 2, lower casing, 3, protection door subassembly, 4, the utmost point copper bar plug bush of L, 5, the utmost point copper bar plug bush of E, 6, the utmost point copper bar plug bush of N, 41, the utmost point copper bar that assembles of L, 42, the utmost point plug bush of upper left L, 43, the utmost point plug bush of lower right L, 51, the utmost point copper bar that assembles of E, 52, the utmost point plug bush of last E, 53, the utmost point plug bush of lower E, 61, the utmost point copper bar that assembles of N, 62, the utmost point plug bush of upper right N, 63, the utmost point plug bush of lower left N, 7, switch cap, 8, button switch, 9, the protecting wire cover.

Detailed Description

As shown in fig. 1 and 2, the utility model discloses a double-row homopolar integrated patch board, which comprises an upper shell 1, a lower shell 2, a protective door component 3, an L-pole copper bar plug bush 4, an E-pole copper bar plug bush 5 and an N-pole copper bar plug bush 6, wherein the protective door component 3, the L-pole copper bar plug bush 4, the E-pole copper bar plug bush 5 and the N-pole copper bar plug bush 6 are positioned in a cavity formed by the upper shell 1 and the lower shell 2, and the E-pole copper bar plug bush 5, the N-pole copper bar plug bush 6 and the L-pole copper bar plug bush 4 are sequentially overlapped from bottom to top. The structure is convenient to assemble and saves copper materials.

As shown in fig. 3, the L-pole copper bar inserting sleeve 4 includes an L-pole convergence copper bar 41, an upper left L-pole inserting sleeve 42 and a lower right L-pole inserting sleeve 43, and the upper left L-pole inserting sleeve 42 and the lower right L-pole inserting sleeve 43 are respectively disposed on two sides of the L-pole convergence copper bar 41.

As shown in fig. 4, the E-pole copper bar inserting sleeve 5 includes an E-pole convergence copper bar 51, an upper E-pole inserting sleeve 52 and a lower E-pole inserting sleeve 53, and the upper E-pole inserting sleeve 52 and the lower E-pole inserting sleeve 53 are located on the same side of the E-pole convergence copper bar 51.

As shown in fig. 5, the N-pole copper bar inserting sleeve 6 includes an N-pole convergence copper bar 61, an upper right N-pole inserting sleeve 62 and a lower left N-pole inserting sleeve 63, and the upper right N-pole inserting sleeve 62 and the lower left N-pole inserting sleeve 63 are respectively disposed on two sides of the N-pole convergence copper bar 61.

The upper left L pole plug bush 42, the upper E pole plug bush 52 and the upper right N pole plug bush 62 form a group of jacks, the lower right L pole plug bush 43, the lower E pole plug bush 53 and the lower left N pole plug bush 63 form a group of jacks, and the double-row homopolar integrated patch board comprises a plurality of groups of jacks. The homopolar plug bushes of the six plug jacks in fig. 1 are all double-row and integrated, and are not connected by other wires.

The double-row homopolar integrated patch board further comprises a switch cap 7, a button switch 8 and a wire protecting sleeve 9, wherein the switch cap 7 is connected to the button switch 8, a lead enters from the wire protecting sleeve 9, and the end part of the lead is electrically connected with the button switch 8.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a double homopolar integration wiring board which characterized in that: including last casing (1), casing (2) down, shutter subassembly (3), the utmost point copper bar plug bush of L (4), the utmost point copper bar plug bush of E (5) and the utmost point copper bar plug bush of N (6) are located the cavity that casing (1) and casing (2) down are constituteed, utmost point copper bar plug bush of E (5), utmost point copper bar plug bush of N (6) and the utmost point copper bar plug bush of L (4) from the bottom up overlap the setting in proper order.

2. The double row homopolar integrated patch board of claim 1, wherein: l utmost point copper bar plug bush (4) include that the L utmost point assembles copper bar (41) and upper left L utmost point plug bush (42) and lower right L utmost point plug bush (43), upper left L utmost point plug bush (42) and lower right L utmost point plug bush (43) set up respectively in the both sides that the L utmost point assembles copper bar (41).

3. The double row homopolar integrated patch board of claim 2, wherein: the E pole copper bar inserting sleeve (5) comprises an E pole convergence copper bar (51), an upper E pole inserting sleeve (52) and a lower E pole inserting sleeve (53), wherein the upper E pole inserting sleeve (52) and the lower E pole inserting sleeve (53) are located on the same side of the E pole convergence copper bar (51).

4. The double row homopolar integrated patch board of claim 3, wherein: the N-pole copper bar inserting sleeve (6) comprises an N-pole convergence copper bar (61), an upper right N-pole inserting sleeve (62) and a lower left N-pole inserting sleeve (63), wherein the upper right N-pole inserting sleeve (62) and the lower left N-pole inserting sleeve (63) are respectively arranged on two sides of the N-pole convergence copper bar (61).

5. The double row homopolar integrated patch board of claim 4, wherein: a group of jacks are formed by the upper left L-pole plug bush (42), the upper E-pole plug bush (52) and the upper right N-pole plug bush (62), a group of jacks are formed by the lower right L-pole plug bush (43), the lower E-pole plug bush (53) and the lower left N-pole plug bush (63), and the double-row homopolar integrated patch board comprises a plurality of groups of jacks.

6. The double row homopolar integrated patch board according to any one of claims 1-5, wherein: double homopolar integration wiring board still includes switch cap (7), button switch (8) and protect line cover (9), switch cap (7) connect on button switch (8), the wire gets into from protecting line cover (9), the tip and the button switch (8) electricity of wire are connected.

7. The double row homopolar integrated patch board of claim 6, wherein: the double-row homopolar integrated patch board is not limited to the same structure of a double-row six-position patch board, an eight-position patch board and a ten-position patch board.

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