A socket module for preventing a plug from becoming loose

By designing a socket module to prevent plug loosening, and utilizing the module's front cover, back cover, electrode plate device, and sliding limit component, the problem of poor equipment contact and power outage caused by loose plugs is solved, achieving a stable plug connection and ensuring the normal operation of data center equipment.

CN224481304UActive Publication Date: 2026-07-10SHAOGUAN GAULD LIGHTNING PROTECTION TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHAOGUAN GAULD LIGHTNING PROTECTION TECH CO LTD
Filing Date
2025-07-15
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

In data centers, operators may accidentally touch plugs while cleaning or maintaining equipment, causing the plugs to become loose, resulting in exposed electrodes or the plugs being knocked off. This can lead to poor equipment contact, electric shock, or power outages, affecting the data transmission process.

Method used

A socket module for preventing plug loosening was designed, comprising a front cover, a rear cover, an electrode plate device, a positioning seat, a sliding plate, a sliding limit component, an elastic reset component, and an anti-disengagement buckle. The cooperation of these components achieves a stable locking of the plug electrodes, preventing loosening and misoperation.

Benefits of technology

It effectively prevents the plug from becoming loose after being plugged in, reduces the risk of poor equipment contact or electric shock caused by exposed electrodes, and avoids equipment power outages and data loss caused by the plug being knocked off.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224481304U_ABST
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Abstract

This application discloses a socket module for preventing plug loosening, relating to the technical field of sockets. It includes a front cover, a rear cover, and an electrode assembly disposed between the front and rear covers. It also includes an anti-disengagement device, comprising a positioning seat disposed on the rear cover and cooperating with the inner side of the front cover. A sliding plate is provided on one side of the positioning seat via a sliding limiting component. An anti-disengagement buckle is provided between the positioning seat, the sliding plate, and the front cover via a pushing limiting mechanism. The anti-disengagement buckle has anti-disengagement holes for engaging with the plug electrodes. An elastic reset component is also provided between the sliding plate, the front cover, and the rear cover. This application effectively locks the plug electrodes, ensuring a secure connection between the plug and the socket module, thus preventing loosening and misoperation after the plug is inserted.
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Description

Technical Field

[0001] This application relates to the technical field of sockets, and in particular to a socket module for preventing plug loosening. Background Technology

[0002] Currently, the Chinese name for PDU is Power Distribution Unit. It is mainly used in data center computer rooms and information computer rooms for power distribution of load equipment such as computers, computing power equipment, and communication equipment. Its function is the same as that of a civilian power strip. PDUs usually use metal shells, which are made of sheet metal, aluminum profiles, and some are made of plastic. Due to the different types of power sockets for load equipment, the following four types are commonly used: Chinese standard 16A module, Chinese standard 10A module, European standard C13 (10A) module, and European standard C19 (16A) module.

[0003] In related technologies, in data centers, equipment plugs are connected to corresponding sockets to provide power. When operators clean or maintain the equipment, they may accidentally touch the plug, causing it to become loose and expose some electrodes. This can easily lead to poor equipment contact or even electric shock. Alternatively, the plug may be knocked off, causing the equipment to lose power, which can affect the data transmission process in the data center and result in data loss. Utility Model Content

[0004] The purpose of this application is to provide a socket module to prevent plug loosening, in order to solve the problem that when operators clean or maintain the equipment, they often accidentally touch the plug, causing it to loosen and expose some of the plug's electrodes, which can easily lead to poor equipment contact or even electric shock; or the plug may be knocked off, causing the equipment to lose power, which can easily affect the data transmission process of the equipment in the data center and thus lead to data loss.

[0005] The socket module for preventing plug loosening provided in this application adopts the following technical solution:

[0006] A socket module for preventing plug loosening includes a front cover, a rear cover, and an electrode plate device disposed between the front cover and the rear cover. It also includes an anti-disengagement device, which includes a positioning seat disposed on the rear cover and cooperating with the inner side of the front cover. A sliding plate is provided on one side of the positioning seat via a sliding limiting component. An anti-disengagement buckle is provided between the positioning seat, the sliding plate, and the front cover via a pushing limiting mechanism. The anti-disengagement buckle has an anti-disengagement hole for engaging with the plug electrode. An elastic reset component is also provided between the sliding plate, the front cover, and the rear cover.

[0007] Furthermore, the positioning seat includes a positioning frame disposed on the rear cover of the module, a positioning plate disposed between one side of the positioning frame and the rear cover of the module, the anti-detachment buckle cooperating with the positioning frame, and a positioning engagement frame disposed on the inner side of the front cover of the module, the positioning engagement frame cooperating with both the positioning frame and the positioning plate.

[0008] Furthermore, the sliding limiting component includes a sliding block disposed on one side of the sliding plate, a sliding strip hole that cooperates with the sliding block is provided on the positioning plate, and a limiting hook block that abuts against the top side of the positioning plate is also provided on the sliding block.

[0009] Furthermore, a boss is provided on one side of the positioning plate, and a groove that mates with the boss is provided on one side of the sliding plate.

[0010] Furthermore, the pushing and limiting mechanism includes a pushing frame disposed on one side of the sliding plate, a clamping block disposed on the top of one side of the pushing frame, a clamping groove abutting against one side of the anti-detachment buckle on one side of the clamping block, a positioning opening abutting against the clamping block and the anti-detachment buckle on one side of the positioning frame, a positioning baffle abutting against one side of the anti-detachment buckle on the other side of the positioning frame, and a limiting component abutting against one side of the anti-detachment buckle disposed between the inner top side of the module front cover and the positioning baffle.

[0011] Furthermore, the limiting component includes a limiting rod disposed on one side of the positioning baffle, a limiting groove that mates with the limiting rod is provided on one side of the positioning and fitting frame, a limiting block is also provided on one side of the positioning and fitting frame, a limiting cavity is formed between the bottom of the limiting block, the top of the positioning baffle and the top of the limiting rod, and the limiting cavity abuts against one side of the anti-detachment buckle.

[0012] Furthermore, the elastic reset component includes an anti-detachment button disposed on one side of the sliding plate, a button hole that mates with the anti-detachment button is provided on the top of the front cover of the module, a sliding groove is provided at the bottom of the anti-detachment button, a sliding post that mates with the sliding groove is provided on the rear cover of the module, a spring is sleeved on the outside of the sliding post, and the spring mates with the sliding groove.

[0013] Furthermore, a positioning groove is provided on the bottom side of the sliding plate, and a positioning slide post that cooperates with the positioning groove is also provided on the rear cover of the module.

[0014] Furthermore, a clamping element is provided between the rear cover of the module and the front cover of the module.

[0015] Furthermore, the clamping component includes several clamping blocks symmetrically arranged on both sides of the rear cover of the module, and the front cover of the module has symmetrically opened grooves on both sides that engage with the clamping blocks.

[0016] Compared with the prior art, the beneficial effects of this application are as follows:

[0017] By setting up a structure in which the front cover, rear cover, electrode plate device, positioning seat, sliding plate, sliding limit component, elastic reset component, anti-disengagement buckle, and push limit mechanism work together, the electrodes of the plug can be effectively locked, so that the plug can be firmly inserted into the socket module. This can prevent the plug from loosening or being misoperated after it is plugged in. This can reduce the problem of poor equipment contact or even electric shock caused by the partial exposure of electrodes due to the plug being loose, or the problem of data loss during the process of equipment power failure due to the plug being knocked off.

[0018] To unlock the plug, simply press the anti-dislodgement button in the elastic reset assembly. Attached Figure Description

[0019] Figure 1 This is a schematic diagram of the socket module for preventing plug loosening according to an embodiment of this application.

[0020] Figure 2 This is a structural schematic diagram of the module front cover, module rear cover, and clamping component in an embodiment of this application.

[0021] Figure 3 This is a schematic diagram of the internal structure of the socket module in an embodiment of this application.

[0022] Figure 4 yes Figure 3 An explosion diagram.

[0023] Figure 5 This is a schematic diagram of the structure of the top inner part of the module front cover in an embodiment of this application.

[0024] Figure 6 This is a schematic diagram of the sliding plate and push frame in an embodiment of this application.

[0025] Figure 7 This is a schematic diagram of the structure of the elastic reset component according to an embodiment of this application.

[0026] Explanation of reference numerals in the attached figures:

[0027] 1. Module front cover; 11. Slot; 12. Electrode front seat; 13. Insertion hole one; 14. Positioning and mating frame; 15. Button hole; 16. Limiting groove; 17. Limiting block; 2. Module rear cover; 21. Slot block; 22. Electrode rear seat; 23. Insertion hole two; 24. Sliding post; 25. Spring; 26. Positioning sliding post; 3. Electrode plate N; 4. Electrode plate L; 5. Electrode plate PE; 6. Positioning seat; 61. Position frame; 611, Positioning port; 62, Positioning plate; 621, Sliding strip hole; 622, Boss; 7, Sliding plate; 71, Sliding block; 72, Limiting hook block; 73, Groove; 74, Anti-detachment button; 75, Sliding groove; 76, Positioning groove; 8, Anti-detachment buckle; 81, Anti-detachment hole; 9, Push frame; 91, Clamping block; 92, Clamping groove; 93, Triangular protrusion; 10, Positioning baffle; 101, Limiting rod. Detailed Implementation

[0028] The following is in conjunction with the appendix Figure 1-7 This application will be described in further detail.

[0029] On the one hand, embodiments of this application disclose a socket module to prevent plug loosening, referring to... Figure 1 and Figure 2 In this embodiment, the socket module includes a front cover 1, a rear cover 2, an electrode plate device, and an anti-detachment device. The front cover 1 has a generally square structure with a hollowed-out bottom. The rear cover 2 covers the bottom of the front cover 1, and a locking mechanism is provided between the front cover 1 and the rear cover 2, allowing the front cover 1 and the rear cover 2 to be detached from each other.

[0030] Specifically, in this embodiment, the locking component includes locking blocks 21 and locking slots 11. Four locking blocks 21 are provided, arranged in pairs, with two sets of blocks 21 symmetrically installed on the two outer sides of the module rear cover 2. Four locking slots 11 are also provided, arranged in pairs, with two sets of slots 11 symmetrically located on the bottom sides of the module front cover 1. These slots 11 engage with the locking blocks 21 respectively, thereby enabling the module front cover 1 and module rear cover 2 to be fixedly installed together or easily disassembled.

[0031] At the same time, refer to Figures 1-3In this embodiment, the electrode plate device is disposed between the front cover 1 and the rear cover 2 of the module, and the electrode plate device cooperates with the electrodes of the plug, so that the plug is inserted into the top of the front cover 1 of the module. Specifically, in this embodiment, the electrode plate device includes a front electrode seat 12, a rear electrode seat 22, and an electrode plate. The front electrode seat 12 is installed on the inner top side of the front cover 1 of the module, and a first insertion hole 13 communicating with the front electrode seat 12 is provided on the top of the front cover 1 of the module, and the insertion hole cooperates with the electrodes of the plug; the rear electrode seat 22 is installed on the inner bottom side of the rear cover 2 of the module, and a second insertion hole 23 communicating with the rear electrode seat 22 is provided on the bottom of the rear cover 2 of the module, and the second insertion hole 23 cooperates with the end of the electrode plate.

[0032] More specifically, the electrode includes electrode N3, electrode L4, and electrode PE5. The tops of electrode N3, electrode L4, and electrode PE5 are respectively installed in the electrode front seat 12. The plug's electrodes are also divided into electrode N, electrode L, and electrode PE. When the plug is inserted into the socket module along the socket 13, the tops of electrode N3, electrode L4, and electrode PE5 respectively cooperate with and connect with the plug's electrodes N, electrode L, and electrode PE.

[0033] Furthermore, the middle ends of electrode plates N3, L4, and PE5 are respectively installed in the electrode back seat 22, and the ends of electrode plates N3, L4, and PE5 extend out of the outer end of the module back cover 2 along the second socket 23, so that the ends of electrode plates N3, L4, and PE5 are respectively connected to multiple copper strips, thereby facilitating the combination and connection of multiple socket modules to form a long strip socket.

[0034] In addition, in this embodiment, the anti-disconnection device is disposed between the front cover 1 and the rear cover 2 of the module to effectively lock the electrodes of the plug, preventing the plug from loosening or being misoperated after it is plugged in. Specifically, refer to... Figures 3-5 In this embodiment, the anti-detachment device includes a positioning seat 6, a sliding plate 7, a sliding limit assembly, an elastic reset assembly, an anti-detachment buckle 8, and a pushing limit mechanism. The positioning seat 6 is installed on the inner bottom side of the module rear cover 2, and the electrode plate PE5 is installed inside the positioning seat 6. The outer bottom end of the positioning seat 6 abuts against the electrode rear seat 22 on the module rear cover 2, and the top of the positioning seat 6 abuts against the electrode front seat 12 on the module front cover 1.

[0035] More specifically, the positioning base 6 includes a positioning frame 61, a positioning plate 62, and a positioning mating frame 14. The positioning frame 61 is installed inside the module rear cover 2, and the electrode piece PE5 is located inside the positioning frame 61, with the positioning frame 61 and the middle of the electrode piece PE5 engaging to limit the installation of the electrode piece PE5. The positioning plate 62 is installed between one side of the positioning frame 61 and the bottom of the module rear cover 2; the positioning mating frame 14 is installed on the inner top of the module front cover 1, and when the module front cover 1 and the module rear cover 2 are installed together, the positioning mating frame 14 engages with both the positioning frame 61 and the positioning plate 62.

[0036] Meanwhile, the sliding plate 7 is slidably mounted on one side of the positioning plate 62 on the positioning base 6 via a sliding limiting component. This sliding limiting component effectively guides and limits the sliding of the sliding plate 7 on one side of the positioning plate 62. An elastic reset component is disposed between the sliding plate 7, the front cover 1 of the module, and the rear cover 2 of the module. This elastic reset component cooperates with the sliding limiting component to enable the sliding plate 7 to achieve a reset sliding effect on the positioning plate 62.

[0037] Specifically, refer to Figure 4 and Figure 6 In this embodiment, the sliding limiting component includes a sliding block 71 and a limiting hook block 72. The sliding block 71 is mounted on one side of the sliding plate 7, and a sliding strip hole 621 is provided on the positioning plate 62. The sliding strip hole 621 cooperates with the sliding block 71, allowing the sliding block 71 to pass through the positioning plate 62 along the sliding strip hole 621. The limiting hook block 72 is mounted on the side of the sliding block 71 facing away from the sliding plate 7. Under the action of the elastic reset component, the sliding plate 7 causes the limiting hook block 72 on the sliding block 71 to abut against the top side of the positioning plate 62, thereby limiting the sliding plate 7.

[0038] Preferably, a boss 622 is provided on one side of the positioning plate 62, and a groove 73 is provided on one side of the sliding plate 7. The groove 73 cooperates with the boss 622 to effectively guide the sliding plate 7 to slide on one side of the positioning plate 62.

[0039] Specifically, refer to Figure 4 and Figure 7In this embodiment, the elastic reset assembly includes an anti-disengagement button 74, a sliding post 24, and a spring 25. The anti-disengagement button 74 has a semi-circular rod-like structure. One side of the anti-disengagement button 74 is mounted on one side of the sliding plate 7, and a button hole 15 is provided on the top of the module front cover 1. When the module front cover 1 and the module rear cover 2 are installed together, the top of the anti-disengagement button 74 engages with the button hole 15, allowing the anti-disengagement button 74 to extend out from the top of the module front cover 1 along the button hole 15, thus facilitating user pressing of the anti-disengagement button 74.

[0040] Meanwhile, a sliding groove 75 is provided at the bottom of the anti-detachment button 74, and a sliding post 24 is installed on the module back cover 2. The sliding post 24 cooperates with the sliding groove 75 so that the sliding post 24 is inserted into the sliding groove 75. The spring 25 is sleeved on the outside of the sliding post 24. The spring 25 cooperates with the sliding groove 75, and the bottom end of the spring 25 abuts against the inside of the module back cover 2, and the top end of the spring 25 abuts against the top side of the sliding groove 75.

[0041] Preferably, a positioning groove 76 is provided on the bottom side of the sliding plate 7, and a positioning pin 26 is installed on the top side of the module rear cover 2. The positioning pin 26 cooperates with the positioning groove 76 so that the positioning pin 26 is inserted into the interior of the positioning groove 76, so as to effectively guide and limit the sliding plate 7, thereby making the sliding plate 7 slide up and down more stably.

[0042] When the spring 25 is in its normal state, the anti-disengagement button 74 on the sliding plate 7 extends out of the top of the module front cover 1 along the button hole 15, and the limiting hook 72 on the sliding block 71 is hooked on the top side of the positioning plate 62. When the anti-disengagement button 74 is pressed downward, the anti-disengagement button 74 drives the sliding plate 7 to move downward, so as to compress and shrink the spring 25. At the same time, the sliding block 71 on the sliding plate 7 drives the limiting hook 72 to slide downward along the sliding strip hole 621. When the force applied to the anti-disengagement button 74 is removed, under the elastic reset action of the spring 25, an upward pushing force is applied to the sliding plate 7, so that the sliding plate 7 drives the anti-disengagement button 74 to move upward along the button hole 15, thereby realizing the reset process of the anti-disengagement button 74.

[0043] Additionally, refer to Figure 4 , Figure 6 as well as Figure 7In this embodiment, the anti-detachment buckle 8 is slidably installed between the top of the positioning seat 6, one side of the sliding plate 7, and the positioning and mating frame 14 on the front cover 1 of the module by pushing the limiting mechanism. The anti-detachment buckle 8 cooperates with the top of the positioning frame 61. The anti-detachment buckle 8 has an anti-detachment hole 81, which locks with the electrode PE on the plug. In this way, by setting the limiting mechanism, the anti-detachment buckle 8 can effectively fasten or unlock the electrode of the plug, thereby preventing the plug from loosening or being misoperated after being plugged in.

[0044] Specifically, in this embodiment, the push-limiting mechanism includes a push frame 9, a clamping block 91, a positioning baffle 10, and a limiting component. The push frame 9 is mounted on the side of the sliding plate 7 opposite to the anti-detachment button 74. The clamping block 91 is mounted on the top of the push frame 9, and a clamping groove 92 is formed on the front side of the clamping block 91. One side of the anti-detachment buckle 8 cooperates with the clamping groove 92 to extend into the interior of the clamping groove 92, thereby achieving a sliding limit effect on one side of the anti-detachment buckle 8. A positioning opening 611 is formed on the side of the positioning frame 61 near the push frame 9. The positioning opening 611 cooperates with both the clamping block 91 and the anti-detachment buckle 8, so that when the sliding plate 7 drives the push frame 9 to move up and down, it drives the clamping block 91 to move up and down along the positioning opening 611.

[0045] A triangular protrusion 93 is also installed on the bottom side of the clamping block 91 facing the positioning frame 61. The triangular protrusion 93 abuts against one side of the anti-detachment buckle 8 to support the anti-detachment buckle 8. The triangular protrusion 93 cooperates with the positioning port 611, so that the clamping block 91 drives the triangular protrusion 93 to move up and down along the positioning port 611 on one side of the positioning frame 61.

[0046] Meanwhile, the positioning baffle 10 is installed on the side of the positioning frame 61 away from the push frame 9, and gaps are provided between the two sides of the positioning baffle 10 and the two sides of the positioning frame 61 respectively. One side of the electrode piece PE5 cooperates with the two gaps to limit the electrode piece PE5. The top of the positioning baffle 10 also abuts against the side of the anti-detachment buckle 8 away from the clamping block 91. The limiting component is set between the inner top side of the module front cover 1 and the positioning baffle 10, and the limiting component abuts against one side of the anti-detachment buckle 8 to block and limit one side of the anti-detachment buckle 8.

[0047] Specifically, refer to Figures 5-7In this embodiment, the limiting component includes a limiting rod 101 and a limiting block 17. The limiting rod 101 is installed on the side of the positioning baffle 10 away from the push frame 9, and a limiting groove 16 is formed on one side of the positioning and mating frame 14. The limiting groove 16 cooperates with the limiting rod 101. When the front cover 1 and the rear cover 2 of the module are installed together, the limiting rod 101 slides into the limiting groove 16. The limiting block 17 is installed on one side of the positioning frame 14, and the limiting block 17 covers the top of the limiting groove 16 to form a groove. The top of the limiting rod 101 is higher than the top of the positioning baffle 10 to form a rod tip. The rod tip is inserted into the groove, thereby forming a limiting cavity between the bottom of the limiting block 17, the top of the positioning baffle 10, and the rod tip of the limiting rod 101. The limiting cavity abuts against one side of the anti-detachment buckle 8 to achieve sliding limitation on one side of the anti-detachment buckle 8.

[0048] Preferably, the limiting block 17 is located on the bottom side of the socket 13, and the socket 13 corresponds to the anti-disengagement hole 81 on the anti-disengagement buckle 8. The anti-disengagement hole 81 also corresponds to the top interface of the electrode PE5. When the electrode PE at the front end of the socket is inserted along the socket 13, the limiting block 17 can also guide the electrode PE of the socket to a certain extent.

[0049] In this way, the anti-detachment buckle 8 is slidably limited on one side by the limiting cavity, and the other side of the anti-detachment buckle 8 is slidably limited by the clamping groove 92 on the clamping block 91. The height of the limiting cavity is lower than the height of the clamping groove 92, so that the anti-detachment buckle 8 achieves an inclined effect inside the top of the positioning frame 61. The solution of this application is to effectively lock the electrode PE of the plug by the inclined anti-detachment buckle 8.

[0050] On the other hand, the socket module unlocking method for preventing plug loosening provided in this application adopts the following technical solution:

[0051] A method for unlocking a socket module to prevent the plug from becoming loose includes the following steps:

[0052] S1. First, apply downward pressure to the anti-detachment button 74, causing the anti-detachment button 74 to move the sliding plate 7 downward. The sliding plate 7 then moves the clamping block 91 on the push frame 9 downward. At the same time, the sliding block 71 also compresses the spring 25 and contracts, causing the clamping block 91 to move one side of the anti-detachment buckle 8 downward. At this time, the anti-detachment buckle 8 changes from an inclined state to a horizontal state, and the anti-detachment hole 81 on the anti-detachment buckle 8 corresponds to the insertion hole 13.

[0053] S2. Then insert the plug electrode into the socket module along the socket hole 13. The plug electrode PE passes through the anti-disengagement hole 81 and the anti-disengagement buckle 8, and is inserted into the top of the electrode piece PE5, so that the end of the plug electrode PE and the end of the electrode piece PE5 cooperate and connect with each other, thereby making the plug and the socket module plugged into place.

[0054] S3. Finally, remove the pressure applied to the anti-disengagement button 74, and then push the sliding plate 7 to move upward under the elastic reset action of the spring 25. The sliding plate 7 then drives the clamping block 91 on the push frame 9 to move upward, so that the clamping block 91 drives one side of the anti-disengagement buckle 8 to move upward. At this time, the anti-disengagement buckle 8 changes from a horizontal state to an inclined state, thereby using the inclined anti-disengagement buckle 8 to firmly lock the electrode PE of the plug.

[0055] S4. When it is necessary to remove the plug from the socket module, simply press the anti-disengagement button 74 downwards to change the anti-disengagement buckle 8 from the tilted state to the horizontal state, thereby unlocking the electrode PE end of the plug and making it easier to remove the plug from the socket module.

[0056] Therefore, the solution of this application, by setting up a structure in which the front cover 1, the rear cover 2, the electrode plate device, the positioning seat 6, the sliding plate 7, the sliding limit component, the elastic reset component, the anti-disengagement buckle 8, and the pushing limit mechanism cooperate with each other, can effectively lock the electrodes of the plug, so that the plug can be firmly inserted into the socket module. This can prevent the plug from loosening and misoperation after it is plugged in, thereby reducing the problem of poor equipment contact or even electric shock caused by the partial exposure of electrodes due to the loose plug, or the problem of data loss during the transmission process caused by the power failure of the equipment due to the plug being knocked off.

[0057] The above description is merely an embodiment of this utility model and does not limit the patent scope of this utility model. Any equivalent structural or procedural transformations made based on the description and drawings of this utility model, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of this utility model.

Claims

1. A socket module for preventing plug loosening, comprising a front cover (1), a rear cover (2), and an electrode plate device disposed between the front cover (1) and the rear cover (2), characterized in that: It also includes an anti-detachment device, which includes a positioning seat (6) disposed on the rear cover (2) of the module and cooperating with the inner side of the front cover (1) of the module. A sliding plate (7) is provided on one side of the positioning seat (6) through a sliding limiting component. An anti-detachment buckle (8) is provided between the positioning seat (6), the sliding plate (7) and the front cover (1) of the module through a pushing limiting mechanism. An anti-detachment hole (81) is provided on the anti-detachment buckle (8) to be locked with the plug electrode. An elastic reset component is also provided between the sliding plate (7), the front cover (1) of the module and the rear cover (2) of the module.

2. A socket module for preventing plug loosening according to claim 1, characterized in that: The positioning seat (6) includes a positioning frame (61) disposed on the module rear cover (2). A positioning plate (62) is disposed between one side of the positioning frame (61) and the module rear cover (2). The anti-detachment buckle (8) cooperates with the positioning frame (61). A positioning and cooperating frame (14) is disposed on the inner side of the module front cover (1). The positioning and cooperating frame (14) cooperates with both the positioning frame (61) and the positioning plate (62).

3. A socket module for preventing plug loosening according to claim 2, characterized in that: The sliding limiting assembly includes a sliding block (71) disposed on one side of the sliding plate (7), a sliding strip hole (621) that cooperates with the sliding block (71) is provided on the positioning plate (62), and a limiting hook block (72) that abuts against the top side of the positioning plate (62) is also provided on the sliding block (71).

4. A socket module for preventing plug loosening according to claim 3, characterized in that: The positioning plate (62) is provided with a boss (622) on one side, and the sliding plate (7) is provided with a groove (73) that cooperates with the boss (622) on one side.

5. A socket module for preventing plug loosening according to claim 2, characterized in that: The pushing and limiting mechanism includes a pushing frame (9) disposed on one side of the sliding plate (7). A clamping block (91) is disposed on the top of one side of the pushing frame (9). A clamping groove (92) is provided on one side of the clamping block (91) to abut against one side of the anti-detachment buckle (8). A positioning port (611) is provided on one side of the positioning frame (61) to cooperate with the clamping block (91) and the anti-detachment buckle (8). A positioning baffle (10) is disposed on the other side of the positioning frame (61) to abut against one side of the anti-detachment buckle (8). A limiting component is disposed between the inner top side of the module front cover (1) and the positioning baffle (10) to abut against one side of the anti-detachment buckle (8).

6. A socket module for preventing plug loosening according to claim 5, characterized in that: The limiting component includes a limiting rod (101) disposed on one side of the positioning baffle (10), a limiting groove (16) that cooperates with the limiting rod (101) is provided on one side of the positioning frame (14), and a limiting block (17) is also provided on one side of the positioning frame (14). A limiting cavity is formed between the bottom of the limiting block (17), the top of the positioning baffle (10) and the top of the limiting rod (101), and the limiting cavity abuts against one side of the anti-detachment buckle (8).

7. A socket module for preventing plug loosening according to claim 1, characterized in that: The elastic reset assembly includes an anti-detachment button (74) disposed on one side of the sliding plate (7). The top of the module front cover (1) is provided with a button hole (15) that cooperates with the anti-detachment button (74). The bottom end of the anti-detachment button (74) is provided with a sliding groove (75). The module rear cover (2) is provided with a sliding post (24) that cooperates with the sliding groove (75). A spring (25) is sleeved on the outside of the sliding post (24). The spring (25) cooperates with the sliding groove (75).

8. A socket module for preventing plug loosening according to claim 7, characterized in that: The bottom side of the sliding plate (7) is also provided with a positioning groove (76), and the module back cover (2) is also provided with a positioning slide post (26) that cooperates with the positioning groove (76).

9. A socket module for preventing plug loosening according to claim 1, characterized in that: A clamping element is also provided between the module rear cover (2) and the module front cover (1).

10. A socket module for preventing plug loosening according to claim 9, characterized in that: The clamping component includes several clamping blocks (21) symmetrically arranged on both sides of the module rear cover (2), and the module front cover (1) is symmetrically provided with clamping grooves (11) that engage with the clamping blocks (21) on both sides.