A conversion socket with AC output jack on the side
By setting multiple sockets on the top and sides of the adapter socket and utilizing conductive hardware and expansion components, the problem of existing adapter sockets only being able to power one appliance at a time has been solved, enabling the simultaneous use of two appliances and improving portability.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- KANGLU ELECTRIC APPLIANCES (DONGGUAN) CO LTD
- Filing Date
- 2025-06-06
- Publication Date
- 2026-06-12
AI Technical Summary
Existing adapters typically only support one appliance at a time and are bulky and inconvenient to carry.
The adapter socket has a composite socket on the top surface and a side socket on the side. The electrical connection of multiple sockets is achieved by using conductive hardware and expansion parts on the bracket. The design of sliding plug assembly and conductive plug allows two appliances to be used at the same time.
It enables the simultaneous use of two electrical appliances on the same adapter, improving adaptability and reducing manufacturing complexity and portability.
Smart Images

Figure CN224355617U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of adapter socket technology, specifically to an adapter socket with an AC output socket on its side. Background Technology
[0002] As people's living standards gradually improve, they have more and more opportunities to travel abroad for tourism or business. Due to the different power socket standards in different countries, electrical plugs come in various shapes and styles. This means that electrical appliances brought out of the country cannot be used with local sockets abroad, causing considerable inconvenience to travelers.
[0003] Therefore, to facilitate people's travel, a type of adapter socket has appeared on the market. It has different types of plugs that can be used in different regions. At the same time, it also has a panel with multiple types of sockets. Currently, most sockets are located on the same socket surface. Although the panel has multiple types of sockets, only one appliance can be used at a time, which makes the adaptability low. In addition, in order to ensure high portability, adapter sockets often pursue smaller size during the production process. Currently, the adapter sockets on the market are relatively large and have poor portability.
[0004] Therefore, there is an urgent need for a converter socket with an AC output jack on the side to solve the above-mentioned technical problems. Utility Model Content
[0005] The purpose of this utility model is to provide a converter socket with an AC output jack on the side. To solve the above-mentioned technical problems, this utility model adopts the following technical solution:
[0006] A converter socket with an AC output socket on its side includes a housing, a composite socket on the top surface of the housing, a bracket inside the housing, at least two different types of plug assemblies slidably connected to the bracket in a vertical direction, and a side socket formed on the side of the housing relative to the top surface; the bracket also has:
[0007] The first conductive hardware, disposed on the top of the bracket, includes two components corresponding to the neutral and live wires, each comprising...
[0008] A body having a plurality of conductive spring contacts formed thereon, corresponding to the composite socket.
[0009] An extension component, one end of which is snapped onto the main body, and the other end extends toward the side socket and is formed with a side copper clip corresponding to the side socket.
[0010] The second conductive hardware is disposed at the bottom of the bracket shown, and includes two corresponding to the neutral and live wires respectively. A connector is provided between the two second conductive hardwares and the two first conductive hardwares to electrically connect the corresponding first and second conductive hardwares. During the process of the plug assembly sliding back and forth on the bracket in the up and down direction, the plug assembly and the second conductive hardware have a mutually plugged state and a mutually separated state. When the plug assembly is mutually plugged, it extends out of the outer shell to be mutually plugged with an external socket.
[0011] Furthermore, the main body extends along a predetermined direction and has a clamping portion formed at one end; an insert is formed at the end of the extension member away from the side copper clamp, the insert being engaged within the clamping portion and clamped by the clamping portion.
[0012] Furthermore, each of the extension members also includes an extension portion, one end of which is formed on the side copper clip, and the other end of which is formed with an insert clamped by the clamping portion. The extension portion extends the side copper clip toward the other side copper clip and is located directly below or directly above the other side copper clip.
[0013] Furthermore, a first safety copper clip is formed on any one of the first conductive hardware pieces, and a second safety copper clip is formed on the second conductive hardware piece corresponding to the first safety copper clip; the connector includes two pieces, which electrically connect the corresponding first conductive hardware piece and the second conductive hardware piece respectively, one of the connectors is composed of a fuse tube, the two ends of which are respectively snapped into the first safety copper clip and the second safety copper clip, and the other is composed of a metal plate.
[0014] Furthermore, at least two different types of the pin assemblies each include a sliding seat, which is slidably connected to the bracket in a vertical direction, and one end of the sliding seat is formed with a toggle end extending out of the housing; a conductive pin is also provided on the sliding seat, one end of the conductive pin is formed on the sliding seat, and the other end extends in a vertical direction, and the toggle end is moved to push the conductive pin out or retract into the housing; the housing is provided with a hole for the conductive pin to pass through.
[0015] Furthermore, the second conductive hardware is provided with insertion positions corresponding to at least two of the said pin assemblies, and all the sliding seats are provided with insertion plates. One end of the insertion plate is electrically connected to the conductive pin, and the other end extends along the sliding seat for interlocking with the corresponding insertion positions.
[0016] Furthermore, the bracket is provided with a snap-fit position for the first conductive hardware to snap into, and a plurality of blocks corresponding to the conductive spring are formed on the snap-fit position. The blocks abut against the ends of the conductive spring and define a socket for external plugs to be inserted, corresponding to the composite socket.
[0017] Furthermore, the bracket is formed with mounting channels corresponding to the first and second safety copper clips, with the first and second safety copper clips located at opposite ends of the mounting channels. A mounting bracket is also snapped into the mounting channel, and the mounting bracket has a snap-fit space inside for snapping the fuse tube. The snap-fit space has a hollowed-out portion along the vertical direction to expose the fuse tube. The mounting bracket has a length greater than that of the mounting channel, so that one end of the mounting bracket protruding outside the mounting channel constitutes a pull end.
[0018] Furthermore, a pre-storage position is provided on the bracket, and a spare fuse is installed in the pre-storage position.
[0019] Furthermore, a circuit board assembly is also disposed inside the housing. The circuit board assembly is electrically connected to the first conductive hardware and includes a PCB board and several data interfaces mounted on the PCB board.
[0020] The beneficial effects of this utility model are as follows:
[0021] The technical solution provided by this utility model embodiment allows for the provision of a composite socket on the top surface of the adapter shell and a set of side sockets on the side, thereby providing more plugging positions for two electrical appliances to use the adapter shell simultaneously. A first conductive hardware and a second conductive hardware are provided on the bracket. The first conductive hardware corresponds to the composite socket and the side sockets. When the plug of an electrical appliance is inserted into the composite socket or the side socket, it abuts against and is electrically connected to the conductive spring of the first conductive hardware. The second conductive hardware is electrically connected to the plug assembly. After the plug assembly is inserted into an external socket, the second conductive hardware becomes energized, which in turn energizes the first conductive hardware through the connector, enabling the electrical appliance to use the power. In this embodiment, by attaching an extension piece corresponding to the side socket to the main body, a side copper clip corresponding to the side socket can be formed. This allows the plug of the electrical appliance to be inserted into the side socket, and the plug and the side copper clip to be plugged in and electrically connected. In this embodiment, the extension piece is connected to the main body by plugging it in, so that the first conductive hardware can be electrically connected to both the composite socket and the side socket. At the same time, by connecting the extension piece to the main body by snapping it in, the main body and the extension piece can be processed and manufactured separately during the processing of the first conductive hardware. During the assembly of the adapter socket, the main body and the extension piece are assembled by snapping them in and simultaneously mounted on the bracket. This reduces the complexity of processing and manufacturing the first conductive hardware, making it easier to process and manufacture, and the assembly is simpler. Attached Figure Description
[0022] Figure 1 This is a schematic diagram of the structure of this utility model.
[0023] Figure 2 This is a schematic diagram of the exploded structure of this utility model.
[0024] Figure 3 This is a schematic diagram of the structure of the present invention. Figure 2 .
[0025] Figure 4 This is a schematic diagram of the structure of the bracket, the pin assembly, and the two conductive hardware components assembled together in this utility model.
[0026] Figure 5 This is an exploded structural diagram of the interlocking bracket, the pin assembly, and two conductive hardware components assembled together in this utility model.
[0027] Figure 6 This is a schematic diagram of the electrical connection between the first and second conductive hardware in this utility model.
[0028] Figure 7This is an exploded structural diagram of a set of first and second conductive hardware corresponding to the live wire in this utility model.
[0029] Figure 8 for Figure 7 A schematic diagram of the explosion structure at point A in the middle.
[0030] Figure 9 This is an exploded structural diagram of a set of first and second conductive hardware corresponding to the neutral wire in this utility model.
[0031] In the diagram: 100 - outer casing; 110 - composite socket; 200 - bracket; 300 - pin assembly; 120 - side socket; 400 - first conductive hardware; 410 - body; 411 - conductive spring; 420 - extension; 421 - side copper clip; 500 - second conductive hardware; 510 - connector; 412 - clamping part; 422 - insert; 423 - extension; 424 - first safety copper clip; 5 04-Second safety copper clip; 310-Sliding seat; 311-Toggle block; 320-Conductive pin; 501-Plug-in position; 312-Plug-in board; 210-Snap-in position; 211-Stop block; 220-Installation channel; 221-Mounting bracket; 222-Kuttery part; 223-Pull-out end; 224-Pre-store position; 225-Spare fuse; 130-Circuit board assembly; 131-PCB board; 132-Data interface. Detailed Implementation
[0032] To facilitate understanding by those skilled in the art, the present invention will be further described below with reference to embodiments and accompanying drawings. The content mentioned in the embodiments is not intended to limit the present invention. The present invention will be described in detail below with reference to the accompanying drawings.
[0033] This utility model embodiment provides a converter socket with an AC output socket on the side. A composite socket 200 is formed on the top surface of the converter socket, and a set of side sockets 120 are provided on the side of the side shell, thereby expanding the number of sockets in the converter socket and accommodating more electrical appliances. The composite socket 200 is a socket group composed of multiple sets of sockets combined together, commonly in the form of a combination of two-hole and three-hole sockets, or it can be a socket group composed of multiple sets of sockets of different specifications. During use, because the composite socket 200 can accommodate plugs of different types, it can be used in different regions. However, during use, often after plugging in one electrical appliance, the other sockets of the composite socket 200 are blocked, thus only allowing one electrical appliance to be plugged into the converter socket at a time. The technical solution provided in this embodiment provides a set of side socket holes on the side of the converter socket, thereby expanding the socket's plugging positions 501, allowing two electrical appliances to be used simultaneously, resulting in higher performance.
[0034] Specifically, such as Figure 1-9 As shown in the figure, the present invention provides a converter socket with an AC output socket on the side, comprising a housing 100, a composite socket 200 on the top surface of the housing 100, a bracket inside the housing 100, at least two different types of plug assemblies 300 slidably connected to the bracket in the vertical direction, and a side socket 120 formed on the side of the housing 100 relative to the top surface; simultaneously, a first conductive hardware 400 and a second conductive hardware 500 are also provided on the bracket, wherein the first conductive hardware 400 is located on the top of the bracket and includes two corresponding to the neutral and live wires respectively, each including a body 410 and an extension member 420, the body 410 having a plurality of conductive parts corresponding to the composite socket 200 formed on it. The spring clip 411 and the extension piece 420 are snapped onto the main body 410 at one end, and the other end extends toward the side socket 120 and is formed with a side copper clip 421 corresponding to the side socket 120. The second conductive hardware 500 is set at the bottom of the bracket shown, and includes two corresponding to the neutral and live wires respectively. A connector 510 is set between the two second conductive hardware and the two first conductive hardware 400 to electrically connect the corresponding first conductive hardware 400 and second conductive hardware 500. During the process of the plug assembly 300 sliding back and forth in the vertical direction on the bracket, the plug assembly 300 and the second conductive hardware 500 have a mutual plugging state and a mutual separation state. When the plug assembly 300 is in the mutual plugging state, it extends out of the outer shell to be plugged into the external socket.
[0035] The technical solution provided by this utility model embodiment allows for the provision of more plug positions 501 by providing a composite socket 200 on the top surface of the adapter socket and a set of side sockets 120 on the side, enabling two electrical appliances to use the adapter socket simultaneously. A first conductive hardware 400 and a second conductive hardware 500 are provided on the bracket. The first conductive hardware 400 corresponds to the composite socket 200 and the side sockets 120. When the plug of an electrical appliance is inserted into the composite socket 200 or the side socket 120, it abuts against and is electrically connected to the conductive spring 411 of the first conductive hardware 400. The second conductive hardware 500 is electrically connected to the plug assembly 300. After the plug assembly 300 is inserted into an external socket, the second conductive hardware 500 becomes energized, thereby energizing the first conductive hardware 400 through the connector 510, enabling the electrical appliance to use the power. In this embodiment, by attaching an extension member 420 corresponding to the side socket 120 to the main body 410, a side copper clip 421 corresponding to the side socket 120 can be formed. This allows the plug of an electrical appliance to be inserted into the side socket 120, and the plug and the side copper clip 421 to be plugged in and electrically connected. In this embodiment, the extension member 420 is connected to the main body 410 by plugging in, so that the first conductive hardware 400 can be electrically connected to the composite socket 200 and the side socket 120 respectively. At the same time, by attaching the extension member 420 to the main body 410, the main body 410 and the extension member 420 can be processed and manufactured separately during the processing of the first conductive hardware 400. During the assembly of the adapter socket, the main body 410 and the extension member 420 are assembled by attaching them in and simultaneously mounted on the bracket. This reduces the complexity of the processing and production of the first conductive hardware 400, making it easier to process and produce, and the assembly is simpler.
[0036] In this embodiment, as Figure 6-9 As shown, the specific structure of the first conductive hardware 400 is provided. The body 410 extends along a predetermined direction and has a clamping part 412 formed at one end. The extension 420 has an insert 422 formed at one end away from the side copper clip 421. The insert 422 is snapped into the clamping part 412 and clamped by the clamping part 412.
[0037] A clamping part 412 is provided on the main body 410, and an insert 422 is provided at one end of the extension part. By snapping the insert 422 into the clamping part 412, the assembly of the first conductive hardware 400 is completed. Through the mutual insertion, the main body 410 and the extension part can form a complete whole. Furthermore, by inserting the insert 422 into the clamping part 412 and clamping the insert 422, a stable clamping force can be maintained between the insert 422 and the clamping part 412, thereby ensuring the conductivity stability of the main body 410 and the extension part.
[0038] In order to make the arrangement of the side copper clips 421 corresponding to the side sockets 120 more reasonable, an extension 423 is also included on any extension member 420. One end of the extension 423 is formed on the side copper clip 421, and the other end is formed with a insert 422 clamped by the clamping part 412. The extension 423 extends the side copper clip 421 toward the other side copper clip 421 and is located directly below or directly above the other side copper clip 421.
[0039] In this embodiment, an extension 423 is formed on the extension member 420 above the first conductive hardware 400 corresponding to the neutral wire, which can increase the overall length of the extension, so that the side copper clip 421 corresponding to the neutral wire extends toward the side copper clip 421 corresponding to the live wire, thereby setting the two side copper clips 421 in an up-down facing state, so that the plug of the electrical appliance can be plugged in.
[0040] In this embodiment, to improve the safety performance of the adapter socket, a first safety copper clip 424 is formed on any one of the first conductive hardware 400, and a second safety copper clip 504 is formed on the corresponding second conductive hardware 500; there are two connectors 510, which electrically connect the corresponding first conductive hardware 400 and second conductive hardware 500 respectively. One connector 510 is composed of a fuse, with both ends of the fuse respectively snapped into the first safety copper clip 424 and the second safety copper clip 504. The other connector 510 is composed of a metal plate, such as... Figure 9 As shown, another connector 510 is a metal plate integrally formed with the second conductive hardware 500. Its other end extends toward the first conductive hardware 400, and the connector made of the metal plate is clamped by the clamping position provided on the first conductive hardware 400, thereby realizing the electrical connection of a set of first conductive hardware 400 and second conductive hardware 500 corresponding to the neutral wire.
[0041] It is worth noting that the first conductive hardware 400 and the second conductive hardware 500, which are respectively equipped with the first safety copper clip 424 and the second safety copper clip 504, are located in a pair corresponding to each other on the live wire, thereby enabling the installation of a fuse on the live wire and improving the safety performance of the conversion socket.
[0042] like Figure 3-5 As shown, at least two different types of plug assemblies 300 each include a sliding seat 310. The sliding seat 310 is slidably connected to the bracket in the vertical direction, and one end of the sliding seat 310 has a toggle end 311 extending out of the outer shell. A conductive plug 320 is also provided on the sliding seat 310. One end of the conductive plug 320 is formed on the sliding seat 310, and the other end extends in the vertical direction. Pushing the toggle end 311 pushes the conductive plug 320 to extend or retract into the outer shell. The outer shell has a hole for the conductive plug 320 to pass through. In this embodiment, the bracket is also provided with a guide rod that forms a sliding pair with the sliding seat 310. The sliding seat 310 is slidably connected to the sliding rod in the vertical direction, so that when the toggle end 311 is pushed, the conductive plug 320 can extend out of the bracket and the outer shell to facilitate plugging and conducting electricity with an external socket.
[0043] The second conductive hardware 500 is provided with insertion positions 501 corresponding to at least two plug assemblies 300. All sliding seats 310 are provided with insertion plates 312. One end of the insertion plate 312 is electrically connected to the conductive plug 320, and the other end extends along the sliding seat 310 for interlocking with the corresponding insertion positions 501. When the plug assembly 300 is pushed out of the bracket and used to connect to an external socket for electrical conduction, the insertion plate 312 is inserted into the insertion position 501 formed on the second conductive hardware 500, thereby enabling the plug assembly 300 to be electrically connected to the second conductive hardware 500, making the second conductive hardware 500 energized. It is conceivable that a conductive plug 320 corresponding to the neutral wire is electrically connected to the second conductive hardware 500 corresponding to the neutral wire through the insertion plate 312, and similarly, a conductive plug 320 corresponding to the live wire is electrically connected to the second conductive hardware 500 corresponding to the live wire through the plug.
[0044] In this embodiment, as Figure 2-4 As shown, in order to facilitate the assembly of the first conductive hardware 400 and to make the connection between the plug of the electrical appliance and the first conductive hardware 400 more stable when the plug of the electrical appliance is inserted into the composite socket 200, a locking position 210 is provided on the bracket for the first conductive hardware 400 to be locked in therein, and a number of blocks 211 corresponding to the conductive spring 411 are formed on the locking position 210. The blocks 211 abut against the ends of the conductive spring 411 and define the socket corresponding to the composite socket for the external plug to be inserted.
[0045] In this embodiment, the first conductive hardware 400 is snapped into the snap-fit position 210. It is worth noting that the first conductive hardware is an irregularly shaped part with bent portions folded in different directions. Therefore, the snap-fit position 210 is set to a shape that matches the first conductive hardware 400, so that the first conductive hardware 400 is snapped into the snap-fit position 210 by the elastic potential energy of the first conductive hardware 400. At the same time, the stop block 211 and the conductive spring sheet 411 set in the snap-fit position 210 abut against each other, thereby pressing the conductive spring sheet 411 to make it elastically deform. After the plug is inserted into the composite socket 200, the elastic deformation of the conductive spring sheet 411 clamps the plug between the elastic spring sheet 411 and the stop block 211, thereby ensuring the stability of the plug insertion.
[0046] In this embodiment, the two ends of the fuse are respectively clamped onto the first fuse clip 424 and the second fuse clip 504. In order to improve the reliability of the fuse installation, an installation channel 220 corresponding to the first fuse clip 424 and the second fuse clip 504 is formed on the bracket. The first fuse clip 424 and the second fuse clip 504 are respectively located at both ends of the installation channel 220. A mounting bracket 221 is also snapped into the installation channel 220. The mounting bracket 221 has a snapping space inside for snapping the fuse. The snapping space has a hollow part 222 that exposes the fuse in the vertical direction. The mounting bracket 221 has a length dimension larger than that of the installation channel 220, so that the end of the mounting bracket 221 that protrudes outside the installation channel 220 constitutes a pull end 223. In other words, the fuse is pre-installed on the mounting bracket 221, with both sides of the fuse protruding from the cutout 222. After the mounting bracket 221 is snapped into the mounting channel 220, the two copper fuse clips can respectively hold the two ends of the fuse, achieving electrical connection. The mounting bracket 221 makes the fuse installation more stable, and also allows for replacement by pulling the end 223 if the fuse is damaged.
[0047] To improve the ease of use of this adapter, a preset storage position 224 is provided on the bracket, and a spare fuse 225 is installed inside the preset storage position 224. This facilitates replacement in case the fuse fails.
[0048] In this embodiment, to further improve the performance of the adapter, a circuit board assembly 130 is also disposed inside the housing. The circuit board assembly 130 is electrically connected to the first conductive hardware 400 and includes a PCB board 131 and several data interfaces 132132 mounted on the PCB board 131. In this embodiment, the data interfaces 132132 can be USB interfaces and / or Type-C interfaces.
[0049] Meanwhile, in order to improve the safety performance of the adapter provided in this utility model embodiment, a protective door 140 is also provided inside the outer shell 100. The protective door 140 is installed on the top of the bracket 200 and is located between the first conductive hardware 400 and the composite socket 110. It is used to protect the composite socket 110 and prevent accidental insertion into the socket, which could cause a contact accident. Similarly, a side protective door is also provided on the bracket 200 to protect the side socket 120.
[0050] The above are merely preferred embodiments of the present utility model and are not intended to limit the present utility model in any way. Although the present utility model has been disclosed above with preferred embodiments, it is not intended to limit the present utility model. Any person skilled in the art can make some changes or modifications to the above-disclosed technical content to create equivalent embodiments without departing from the scope of the present utility model. Any simple modifications, equivalent changes and modifications made to the above embodiments based on the present utility model without departing from the scope of the present utility model shall fall within the scope of the present utility model.
Claims
1. A converter socket with an AC output socket on its side, comprising a housing, a composite socket on the top surface of the housing, a bracket inside the housing, and at least two different types of plug assemblies slidably connected to the bracket in a vertical direction, characterized in that... The outer casing has side insertion holes formed on its side relative to the top surface; the bracket is also provided with: The first conductive hardware, disposed on the top of the bracket, includes two components corresponding to the neutral and live wires, each comprising... A body having a plurality of conductive spring contacts formed thereon, corresponding to the composite socket. An extension component, one end of which is snapped onto the main body, and the other end extends toward the side socket and is formed with a side copper clip corresponding to the side socket. The second conductive hardware is disposed at the bottom of the bracket shown, and includes two corresponding to the neutral and live wires respectively. A connector is provided between the two second conductive hardwares and the two first conductive hardwares to electrically connect the corresponding first and second conductive hardwares. During the process of the plug assembly sliding back and forth on the bracket in the up and down direction, the plug assembly and the second conductive hardware have a mutually plugged state and a mutually separated state. When the plug assembly is mutually plugged, it extends out of the outer shell to be mutually plugged with an external socket.
2. A converter socket with an AC output jack on its side according to claim 1, characterized in that, The main body extends along a predetermined direction and has a clamping part formed at one end; the end of the extension member away from the side copper clamp has an insert piece formed, the insert piece is engaged in the clamping part and is clamped by the clamping part.
3. A converter socket with an AC output jack on its side according to claim 2, characterized in that, Each of the extension members also includes an extension portion, one end of which is formed on the side copper clip, and the other end of which is formed with an insert clamped by the clamping portion. The extension portion extends the side copper clip toward the other side copper clip and is located directly below or directly above the other side copper clip.
4. A converter socket with an AC output jack on its side according to claim 1, characterized in that, A first safety copper clip is formed on any one of the first conductive hardware pieces, and a second safety copper clip is formed on the second conductive hardware piece corresponding to the first safety copper clip; the connector includes two pieces, which electrically connect the corresponding first conductive hardware piece and the second conductive hardware piece respectively, one of the connectors is composed of a fuse tube, the two ends of which are respectively snapped into the first safety copper clip and the second safety copper clip, and the other is composed of a metal plate.
5. A converter socket with an AC output jack on its side according to claim 1, characterized in that, At least two different types of the pin assemblies each include a sliding seat, which is slidably connected to the bracket in a vertical direction, and one end of the sliding seat is formed with a toggle end extending out of the housing; a conductive pin is also provided on the sliding seat, one end of the conductive pin is formed on the sliding seat, and the other end extends in a vertical direction, and the toggle end is moved to push the conductive pin out or retract into the housing; the housing is provided with a hole for the conductive pin to pass through.
6. A converter socket with an AC output jack on its side according to claim 5, characterized in that, The second conductive hardware is provided with insertion positions corresponding to at least two of the said plug components. All the sliding seats are provided with insertion plates. One end of the insertion plate is electrically connected to the conductive plug, and the other end extends along the sliding seat for mutual insertion with the corresponding insertion positions.
7. A converter socket with an AC output jack on its side according to claim 1, characterized in that, The bracket is provided with a snap-fit position for the first conductive hardware to be snapped in, and a plurality of blocks are formed on the snap-fit position respectively corresponding to the conductive spring. The blocks abut against the ends of the conductive spring and define a socket for external plug to be inserted, corresponding to the composite socket.
8. A converter socket with an AC output jack on its side according to claim 4, characterized in that, The bracket has mounting channels formed on it, corresponding to the first and second safety copper clips. The first and second safety copper clips are located at opposite ends of the mounting channels. A mounting frame is also attached inside the mounting channels. The mounting frame has a snap-fit space inside for snapping the fuse tube. The snap-fit space has a hollowed-out portion along the vertical direction to expose the fuse tube. The mounting frame has a length greater than that of the mounting channels, so that one end of the mounting frame that protrudes outside the mounting channels constitutes a pull end.
9. A converter socket with an AC output jack on its side according to claim 8, characterized in that, The bracket is also provided with a pre-storage position, and a spare fuse is installed in the pre-storage position.
10. A converter socket with an AC output jack on its side according to claim 1, characterized in that, The outer casing also contains a circuit board assembly, which is electrically connected to the first conductive hardware. The circuit board assembly includes a PCB board and several data interfaces mounted on the PCB board.