CN216015125U - Switch assembly and socket - Google Patents

Abstract

The utility model discloses a switch module and socket belongs to the electron device field. The switch assembly comprises m outer walls and n wiring parts, wherein m is larger than or equal to n, n is larger than or equal to 2, and m and n are integers; each wiring portion all links to each other with the outer wall, and each wiring portion is located the different outer wall respectively. The short circuit problem can be avoided.

Description

Switch assembly and socket

Technical Field

The disclosure belongs to the field of electronic devices, and particularly relates to a switch assembly and a socket.

Background

A socket is a common electronic device used to provide a power interface for a powered device.

In the related art, the socket mainly includes a power supply connector, a switch assembly and a plug bush assembly, the power supply connector is connected with a power supply, and the switch assembly and the plug bush assembly are respectively connected with the power supply connector. When the plug-in socket is used, a plug of the electric equipment is plugged in the socket assembly, and the switch is used for controlling the on-off of the socket assembly, so that the on-off of the electric equipment is controlled.

However, since the switch assembly, the plug bush assembly and the power supply connector need to be connected with each other, the wiring inside the socket is complicated, and the short circuit problem is easy to occur.

SUMMERY OF THE UTILITY MODEL

The embodiment of the disclosure provides a switch assembly and a socket, which can avoid the problem of short circuit. The technical scheme is as follows:

in a first aspect, an embodiment of the present disclosure provides a switch assembly, which includes m outer walls and n wiring portions, where m is greater than or equal to n, n is greater than or equal to 2, and m and n are integers;

each wiring portion all with the outer wall links to each other, and each wiring portion is located different respectively the outer wall.

In one implementation of the present disclosure, a number of the outer walls include a bottom portion and a plurality of side portions;

the bottom part is opposite to the button of the switch assembly, and the side parts are respectively arranged around the outer edge of the bottom part;

the bottom portion has one of n of the wiring portions, and at least one of the side portions has another of the n wiring portions.

In another implementation of the present disclosure, the wire connection portion includes an L-pole input terminal and an L-pole output terminal;

the L-pole input terminal and the L-pole output terminal are respectively located on two opposite side portions.

In yet another implementation of the present disclosure, the wire connection portion includes an N-pole terminal;

the N-terminal is located at the bottom.

In yet another implementation of the present disclosure, the wire connection portion is any one of a wire connection sleeve and a wire connection arm;

the outer wall where the wiring plug bush is located is provided with a slot, and the wiring plug bush is located in the slot;

at least part of the connecting arm is located outside the outer wall.

In a second aspect, embodiments of the present disclosure provide a socket, including a housing, a power supply connector, a plug bush assembly, and a switch assembly;

the power supply connector is connected with the shell, and at least part of the power supply connector is positioned in the shell;

the plug bush assembly and the switch assembly are both positioned in the shell, and the plug bush assembly and the switch assembly are spaced;

the switch assembly comprises m outer walls and n wiring parts, wherein m is larger than or equal to n, n is larger than or equal to 2, m and n are integers, each wiring part is connected with the outer wall, and each wiring part is respectively positioned on different outer walls;

the plug bush assembly and the wiring portion of the switch assembly are electrically connected with the power supply connector.

In one implementation of the present disclosure, the switch assembly is one;

an L-pole input terminal of the switch assembly is connected with a live wire of the power supply joint, and an N-pole terminal of the switch assembly is connected with a zero line of the power supply joint;

the plug bush component comprises an L-pole plug bush and an N-pole plug bush;

when the number of the plug bush components is at least two, the L pole plug bushes are respectively connected with the L pole output terminals of the switch component, and the N pole plug bushes are connected together and connected with the zero line of the power supply connector.

In another implementation of the present disclosure, the number of the switch assemblies is at least two;

the switch assemblies are sequentially arranged at intervals, L-pole input terminals of the switch assemblies are connected together and are connected with a live wire of the power supply connector, and N-pole terminals of the switch assemblies are connected together and are connected with a zero wire of the power supply connector;

the plug bush component comprises an L-pole plug bush and an N-pole plug bush;

the plug bush components correspond to the switch components one to one, and are sequentially arranged at intervals along the arrangement direction of each switch component, each L-pole plug bush is respectively connected with the L-pole output terminal of the corresponding switch component, and each N-pole plug bush is connected together and is connected with the zero line of the power supply connector.

In another implementation manner of the present disclosure, the side portion of the switch assembly where the L-pole output terminal is disposed is close to the plug bush assembly, and the L-pole output terminal of the switch assembly is directly opposite to the L-pole plug bush of the plug bush assembly.

In yet another implementation of the present disclosure, the socket further includes an L-pole copper bar and a first N-pole copper bar;

the L-pole copper bar extends along the arrangement direction of each switch assembly and is respectively connected with the L-pole input terminal of each switch assembly, and one end of the L-pole copper bar is connected with the live wire of the power supply connector;

the first N-pole copper bar extends along the arrangement direction of each switch assembly and is connected with the N-pole terminal of each switch assembly, and one end of the first N-pole copper bar is connected with a zero line of the power supply connector.

The technical scheme provided by the embodiment of the disclosure has the following beneficial effects:

when the switch module provided by the embodiment of the present disclosure is disposed in a socket, the connection portion of the switch module is used to connect various electronic components in the socket, such as a plug bush assembly, a power supply connector, and the like. Because each wiring portion is located different outer walls respectively, so guaranteed mutual noninterference between each wiring portion, reduced the short circuit risk, improved the reliability.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present disclosure, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and it is obvious for those skilled in the art to obtain other drawings based on the drawings without creative efforts.

Fig. 1 is an exploded view of a receptacle provided by an embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram of a switch assembly provided by an embodiment of the present disclosure;

FIG. 3 is a schematic structural diagram of a switch assembly provided by an embodiment of the present disclosure;

FIG. 4 is a schematic structural diagram of a switch assembly provided by an embodiment of the present disclosure;

FIG. 5 is a schematic diagram of a line connection of a receptacle provided by an embodiment of the present disclosure;

fig. 6 is a schematic diagram of line connection of a socket provided by an embodiment of the present disclosure.

The symbols in the drawings represent the following meanings:

1. an outer wall;

11. a bottom; 12. a side portion;

2. a wiring portion;

21. an L-pole input terminal; 22. an L-pole output terminal; 23. an N-pole terminal; 24. a slot; 2a, a wiring plug bush; 2b, a wiring connecting arm;

3. a button;

100. a housing;

200. a power supply connector;

210. a live line; 220. a zero line;

300. a sleeve assembly;

310. an L pole plug bush; 320. an N-pole plug bush;

400. a switch assembly;

510. l-pole copper bars; 520. a first N-pole copper bar; 530. and a second N-pole copper bar.

Detailed Description

To make the objects, technical solutions and advantages of the present disclosure more apparent, embodiments of the present disclosure will be described in detail with reference to the accompanying drawings.

A socket is a common electronic device used to provide a power interface for a powered device.

In the related art, the socket mainly includes a power supply connector, a switch assembly and a plug bush assembly, the power supply connector is connected with a power supply, and the switch assembly and the plug bush assembly are respectively connected with the power supply connector. When the plug-in socket is used, a plug of the electric equipment is plugged in the plug bush component, and the switch is used for controlling the power on and power off of the plug bush component, so that the control of the power on and power off of the electric equipment is realized.

However, since the switch assembly, the plug bush assembly and the power supply connector need to be connected with each other, the wiring inside the socket is complicated, and the short circuit problem is easy to occur.

In order to solve the above technical problem, an embodiment of the present disclosure provides a socket, fig. 1 is an exploded view of the socket, referring to fig. 1, the socket including a housing 100, a power supply connector 200, a socket assembly 300, and a switch assembly 400.

The power supply connector 200 is connected to the housing 100, and at least a portion of the power supply connector 200 is located inside the housing 100. The sleeve assembly 300 and the switch assembly 400 are both located within the housing 100, with the sleeve assembly 300 spaced from the switch assembly 400.

Fig. 2 is a schematic structural diagram of a switch assembly, fig. 2 is a view along direction a of fig. 1, and with reference to fig. 2, in this embodiment, the switch assembly 400 includes m outer walls 1 and n wiring portions 2, m is greater than or equal to n, n is greater than or equal to 2, m and n are integers, each wiring portion 2 is connected to an outer wall 1, and each wiring portion 2 is located on a different outer wall 1, and the plug bush assembly 300 and the wiring portion 2 of the switch assembly 400 are electrically connected to the power supply connector 200.

When the switch module provided by the embodiment of the present disclosure is disposed in a socket, the wiring portion 2 of the switch module is used to connect various electronic components in the socket, such as the socket assembly 300 and the power supply connector 200. Because each wiring portion 2 is located different outer walls 1 respectively, guaranteed not mutually noninterfere between each wiring portion 2, reduced the short circuit risk, improved the reliability.

As can be seen from the foregoing, the switching assembly is a key component for reducing the risk of short circuit of the socket, and the following description is provided for the switching assembly.

Fig. 3 is a schematic structural diagram of a switch assembly, and fig. 3 is a view from a direction B of fig. 2, in combination with fig. 2 and 3, in the present embodiment, a plurality of outer walls 1 include a bottom portion 11 and a plurality of side portions 12. The bottom 11 faces away from the button 3 of the switch assembly, and a plurality of side portions 12 are respectively arranged around the outer edge of the bottom 11. The bottom portion 11 has one of the n wire connecting portions 2, and the at least one side portion 12 has another one of the n wire connecting portions 2.

In the above implementation, the arrangement of the wiring portions 2 on the outer wall 1 of the switch assembly is designed, so that the wiring portions 2 are ensured not to interfere with each other, and the wiring portions 2 are ensured to avoid the button 3 of the switch assembly. Also, since the base 11 is opposite to the button 3 of the switch assembly, the space of the base 11 is usually most abundant. Therefore, the wire connecting portion 2 is provided on the bottom portion 11, and a space can be used well.

Illustratively, the outer wall 1 of the switch assembly constitutes a cuboid, in which case the plurality of outer walls 1 comprises a top surface, a bottom 11 and a plurality of side portions 12, the top surface and the bottom 11 being opposite to each other, the side portions 12 being enclosed between the top surface and the bottom 11, the push button 3 being located on the top surface, the wiring portions 2 being located on the bottom 11 and the side portions 12, i.e. at most five wiring portions 2 can be provided. It will be readily appreciated that if more wiring portions 2 are required, the number of side portions 12 may be correspondingly increased so that the outer wall 1 of the switch assembly forms a pentagonal prism, a hexagonal prism, etc., to which the present disclosure is not limited.

With continuing reference to fig. 2 and 3, in the present embodiment, the wiring portion 2 includes an L-pole input terminal 21, an L-pole output terminal 22, and an N-pole terminal 23. The L-pole input terminal 21 and the L-pole output terminal 22 are located at two opposite side portions 12, respectively, and the N-pole terminal 23 is located at the bottom portion 11.

In the above implementation, the L-pole input terminal 21 is used for connecting the live wire 210 of the power supply connector 200, and the L-pole output terminal 22 is used for connecting the socket assembly 300, so that the electrical connection between the live wire 210 of the power supply connector 200 and the socket assembly 300 can be controlled through the switch assembly, and the power on and off control of the socket assembly 300 can be realized. The N-pole terminal 23 is used to connect the neutral wire 220 of the power supply connector 200 so that the switch assembly can be looped to illuminate an indicator lamp inside the switch assembly.

It should be noted that, since the plug bush assembly 300 and the indicator lamp are both connected to the live wire 210 of the power supply connector 200 through the L-pole input terminal 21, when the switch assembly is closed, the plug bush assembly 300 is conducted with the L-pole input terminal 21, and the indicator lamp is conducted with the L-pole input terminal 21 synchronously, whereas when the switch assembly is turned off, the plug bush assembly 300 is disconnected from the L-pole input terminal 21, and the indicator lamp is disconnected from the L-pole input terminal 21 synchronously. That is, the purpose of indicating the power-on state of the plug bush assembly 300 through the indicator lamp is achieved.

Referring to fig. 4, fig. 4 is different from fig. 2 in that fig. 4 indicates the type of the wire connecting portion 2, and in the present embodiment, the wire connecting portion 2 is any one of a wire insertion bush 2a and a wire connecting arm 2 b. The outer wall 1 where the wiring plug bush 2a is located is provided with a slot 24, the wiring plug bush 2a is located in the slot 24, and at least part of the wiring connecting arm 2b is located outside the outer wall 1.

The wiring socket 2a and the wiring link arm 2b are two types of the wiring portion 2, respectively. The wiring plug bush 2a is suitable for an electronic component with a plug sheet, and the plug sheet of the electronic component passes through the slot 24 and is plugged in the wiring plug bush 2a, so that the electric connection between the electronic component and the switch component is realized. The wiring connecting arm 2b is suitable for an electronic component having a plug bush, and the plug bush of the electronic component is sleeved outside the wiring connecting arm 2b, so that the electrical connection between the electronic component and the switch assembly is realized. That is, the wiring plug bush 2a and the wiring connection arm 2b have the same essential function, and both can realize the electrical connection between the electronic component and the switch assembly, and the electronic component can be selected according to the need, which is not limited by the present disclosure.

For example, the L-pole input terminal 21 and the N-pole terminal 23 are the connection plug 2a, and the L-pole output terminal 22 is the connection arm 2 b.

The foregoing has described the switch assembly alone and the following description has described the receptacle configured with the switch assembly.

Fig. 5 is a schematic line connection diagram of the socket, and in conjunction with fig. 5, in this embodiment, there is one switching element, the L-pole input terminal 21 of the switching element is connected to the live line 210 of the power supply connector 200, and the N-pole terminal 23 of the switching element is connected to the neutral line 220 of the power supply connector 200.

The plug bush assembly 300 comprises an L-pole plug bush 310 and an N-pole plug bush 320, when the plug bush assembly 300 is one, the L-pole plug bush 310 is connected with the L-pole output terminal 22 of the switch assembly, the N-pole plug bush 320 is connected with the zero line 220 of the power supply connector 200, when the plug bush assembly 300 is at least two, each L-pole plug bush 310 is respectively connected with the L-pole output terminal 22 of the switch assembly, and each N-pole plug bush 320 is connected together and is connected with the zero line 220 of the power supply connector 200.

In the above implementation, the number of the switch assemblies is one, and the switch assemblies can control power on and power off of all the plug bush assemblies 300. That is, the switch assembly can control all of the jack assemblies 300 to be powered together or all of the jack assemblies 300 to be powered down together.

And, when there are at least two plug bush assemblies 300, the L-pole plug bush 310 of each plug bush assembly 300 is connected to the L-pole output terminal 22 of the switch assembly, and the N-pole plug bush 320 of each plug bush assembly 300 is connected to the neutral wire 220 of the power supply connector 200 as a whole. Therefore, short circuit of the live wire part is avoided, installation space of the zero wire part can be saved, and the structure of the socket is more compact.

Fig. 6 is a schematic diagram of the line connection of the receptacle, and fig. 6 differs from fig. 5 in the number of switch assemblies and socket assemblies 300. Referring to fig. 6, in this embodiment, there are at least two switch assemblies, each switch assembly is sequentially arranged at intervals, the L-pole input terminals 21 of each switch assembly are connected together and connected to the live line 210 of the power supply connector 200, and the N-pole terminals 23 of each switch assembly are connected together and connected to the neutral line 220 of the power supply connector 200.

The plug bush assembly 300 comprises L-pole plug bushes 310 and N-pole plug bushes 320, the plug bush assembly 300 corresponds to the switch assemblies one by one and is sequentially arranged at intervals along the arrangement direction of each switch assembly, each L-pole plug bush 310 is respectively connected with the L-pole output terminal 22 of the corresponding switch assembly, and each N-pole plug bush 320 is connected together and is connected with the zero line 220 of the power supply connector 200.

In the above implementation manner, each plug bush assembly 300 corresponds to one switch assembly, and the power-on and power-off of the corresponding plug bush assembly 300 can be controlled through the switch assembly. That is, power on and power off of each socket assembly 300 can be individually controlled by the corresponding switch assembly.

Optionally, the socket further includes an L-pole copper bar 510, the L-pole copper bar 510 extends along the arrangement direction of each switch assembly 400, and is connected to the L-pole input terminal 21 of each switch assembly 400, respectively, and an end of the L-pole copper bar 510 is connected to the live wire of the power supply connector 200.

That is, the L-pole input terminals 21 of the switch modules are connected together through the L-pole copper bar 510. The L-pole copper bar 510 is provided with a plurality of insertion pieces, the insertion pieces correspond to the L-pole input terminals 21 one by one, and each insertion piece is inserted into the corresponding L-pole input terminal 21. One end of the L-pole copper bar 510 is welded to the live wire 210 of the power supply connector 200, so that the L-pole input terminal 21 is electrically connected to the live wire 210 of the power supply connector 200.

Optionally, the socket further includes a first N-pole copper bar 520, the first N-pole copper bar 520 extends along the arrangement direction of each switch assembly 400 and is connected to the N-pole terminal 23 of each switch assembly 400, and an end of the first N-pole copper bar 520 is connected to the zero line of the power supply connector 200.

The N pole terminals 23 of the switch assemblies are connected together through a first N pole copper bar 520. The first N-pole copper bar 520 is provided with a plurality of inserting pieces, the inserting pieces correspond to the N-pole terminals 23 one by one, and each inserting piece is respectively inserted into the corresponding N-pole terminal 23. One end of the first N-pole copper bar 520 is welded to the zero line 220 of the power supply connector 200, so that the N-pole terminal 23 is electrically connected to the zero line 220 of the power supply connector 200.

Optionally, the N-pole sockets 320 of each socket assembly 300 are connected together by a second N-pole copper bar 530. One end of the second N-pole copper bar 530 is welded to the zero line 220 of the power supply connector 200, so that the N-pole plug bush 320 is electrically connected to the zero line 220 of the power supply connector 200.

Optionally, one end of each L-pole socket 310 has a socket, and the L-pole socket 310 is sleeved outside the corresponding L-pole output terminal 22, so as to achieve electrical connection between the L-pole socket 310 and the L-pole output terminal 22.

In the present embodiment, since the N-pole terminal 23 of the switch assembly and the N-pole socket 320 of the socket assembly 300 are all welded to the zero line 220 of the power supply connector 200, in order to save the installation space and simplify the assembly process, in the present embodiment, the N-pole terminal 23 of the switch assembly, the N-pole socket 320 of the socket assembly 300 and the zero line 220 of the power supply connector 200 are the same connection point.

With continued reference to fig. 6, in the present embodiment, the side of the switch assembly 400 having the L-pole output terminal 22 is adjacent to the socket assembly 300, and the L-pole output terminal 22 of the switch assembly 400 is opposite to the L-pole socket 310 of the socket assembly 300.

In the implementation manner, the distance between the L-pole plug bush 310 and the L-pole output terminal 22 is short due to the arrangement, so that the sizes of the L-pole plug bush 310 and the L-pole output terminal 22 are reduced, the material cost is reduced, and the problem of short circuit caused by the overlarge sizes of the L-pole plug bush 310 and the L-pole output terminal 22 is avoided.

The above description is meant to be illustrative of the principles of the present disclosure and not to be taken in a limiting sense, and any modifications, equivalents, improvements and the like that are within the spirit and scope of the present disclosure are intended to be included therein.

Claims (10)

1. A switch assembly is characterized by comprising m outer walls (1) and n wiring parts (2), wherein m is larger than or equal to n, n is larger than or equal to 2, and m and n are integers;

each wiring portion (2) is connected with the outer wall (1), and each wiring portion (2) is located on different outer walls (1).

2. The switch assembly according to claim 1, characterized in that several of said external walls (1) comprise a bottom (11) and a plurality of sides (12);

the bottom (11) is opposite to the button (3) of the switch component, and the side parts (12) are respectively arranged around the outer edge of the bottom (11);

the bottom portion (11) has one of n wire connection portions (2), and at least one of the side portions (12) has another one of the n wire connection portions (2).

3. The switch assembly according to claim 2, characterized in that the wiring portion (2) comprises an L-pole input terminal (21) and an L-pole output terminal (22);

the L-pole input terminal (21) and the L-pole output terminal (22) are respectively located at two opposite side portions (12).

4. The switch assembly according to claim 2, characterized in that the wiring portion (2) comprises an N-pole terminal (23);

the N-pole terminal (23) is located at the bottom (11).

5. A switch assembly according to any one of claims 1-3, characterized in that the wiring portion (2) is any one of a wiring plug bush (2a) and a wiring connection arm (2 b);

the outer wall (1) where the wiring plug bush (2a) is located is provided with a slot (24), and the wiring plug bush (2a) is located in the slot (24);

at least part of the connecting arm (2b) is located outside the outer wall (1).

6. A socket, comprising a housing (100), a power supply connector (200), a plug bush assembly (300) and a switch assembly (400);

the power supply connector (200) is connected with the shell (100), and at least part of the power supply connector (200) is positioned in the shell (100);

the sleeve assembly (300) and the switch assembly (400) are both located within the housing (100), the sleeve assembly (300) being spaced from the switch assembly (400);

the switch assembly (400) comprises m outer walls (1) and n wiring parts (2), wherein m is larger than or equal to n, n is larger than or equal to 2, m and n are integers, each wiring part (2) is connected with the outer wall (1), and each wiring part (2) is respectively positioned on different outer walls (1);

the connection portions (2) of the socket assembly (300) and the switch assembly (400) are electrically connected to the power supply connector (200).

7. The receptacle of claim 6, wherein the switch assembly (400) is one;

an L-pole input terminal (21) of the switch assembly (400) is connected with a live wire (210) of the power supply connector (200), and an N-pole terminal (23) of the switch assembly (400) is connected with a neutral wire (220) of the power supply connector (200);

the sleeve assembly (300) comprises an L-pole sleeve (310) and an N-pole sleeve (320);

when the number of the plug bush assemblies (300) is at least two, the L-pole plug bushes (310) are respectively connected with the L-pole output terminal (22) of the switch assembly (400), and the N-pole plug bushes (320) are connected together and connected with the zero line (220) of the power supply connector (200).

8. The receptacle of claim 6, wherein the switch assemblies (400) are at least two;

the switch assemblies (400) are sequentially arranged at intervals, L-pole input terminals (21) of the switch assemblies (400) are connected together and are connected with a live wire (210) of the power supply connector (200), and N-pole terminals (23) of the switch assemblies (400) are connected together and are connected with a zero wire (220) of the power supply connector (200);

the sleeve assembly (300) comprises an L-pole sleeve (310) and an N-pole sleeve (320);

the plug bush assemblies (300) correspond to the switch assemblies (400) one by one and are sequentially arranged at intervals along the arrangement direction of the switch assemblies (400), the L-pole plug bushes (310) are respectively connected with the L-pole output terminals (22) of the switch assemblies (400) corresponding to the L-pole plug bushes, and the N-pole plug bushes (320) are connected together and connected with a zero line (220) of the power supply connector (200).

9. The receptacle of claim 8, wherein the side of the switch assembly (400) having the L-pole output terminal (22) is adjacent to the plug-in housing assembly (300), and the L-pole output terminal (22) of the switch assembly (400) is directly opposite to the L-pole plug-in housing (310) of the plug-in housing assembly (300).

10. The socket of claim 8, further comprising an L-pole copper bar (510) and a first N-pole copper bar (520);

the L-pole copper bar (510) extends along the arrangement direction of each switch assembly (400) and is respectively connected with the L-pole input terminal (21) of each switch assembly (400), and one end part of the L-pole copper bar (510) is connected with a live wire of the power supply connector (200);

the first N-pole copper bar (520) extends along the arrangement direction of each switch assembly (400) and is connected with the N-pole terminal (23) of each switch assembly (400) respectively, and one end of the first N-pole copper bar (520) is connected with a zero line of the power supply connector (200).

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