A pop-up structure of a hidden wall socket

By combining a push-rod type spring-back mechanism and an auxiliary spring-back mechanism, the problems of unstable pop-up and non-adjustable angle of concealed wall sockets are solved, realizing stable pop-up and multi-angle adjustment of the socket panel, thus improving user experience and practicality.

CN224355542UActive Publication Date: 2026-06-12DONGGUAN CITY YUANYUE ELECTRONICS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DONGGUAN CITY YUANYUE ELECTRONICS CO LTD
Filing Date
2025-06-24
Publication Date
2026-06-12

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Abstract

The utility model relates to electrical equipment technical field, concretely is a kind of pop -out structure of hidden wall socket, including prefabricated frame and socket panel body, the inside of prefabricated frame is equipped with the telescopic frame for connecting installation socket panel body, the both sides of telescopic frame back are connected with the bottom inner wall of prefabricated frame by push rod type rebound mechanism, the both sides in the inside of prefabricated frame are equipped with the auxiliary rebound mechanism connected with telescopic frame end part, the auxiliary rebound mechanism is composed of directional column, support, auxiliary spring, the middle of telescopic frame is equipped with the angle position of cooperation socket panel body rotation angle position's angle adjustment linkage assembly. The pop -out structure of the hidden wall socket improves the stability and operation convenience of pop -out process, effectively avoids the deviation or jam when pressing, and realizes the angle fine adjustment after socket panel pops out, enhances the flexibility of use.
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Description

Technical Field

[0001] This utility model relates to the field of electrical equipment technology, specifically to a pop-up structure for a concealed wall socket. Background Technology

[0002] With the increasing demands for aesthetics and space utilization in modern architecture, traditional exposed wall sockets are no longer sufficient to meet usage needs due to their impact on the overall wall appearance and their susceptibility to dust accumulation and damage. Concealed wall sockets have emerged to address this need. These sockets are embedded within the wall, flush with the wall or completely hidden when not in use. The socket panel is only extended by a pop-up mechanism when needed, allowing users to plug and unplug appliances.

[0003] Currently, some concealed wall sockets on the market use a push-rod type spring mechanism to pop up and retract the socket body. Although this type of structure is simple in principle, its pop-up process is not stable enough in actual application, and it is prone to jamming and incomplete rebound, which affects the user experience. Furthermore, due to the lack of auxiliary pop-up and limiting structure, the socket body may deviate or tilt when pressed, resulting in poor structure operation or even jamming. At the same time, the socket cannot achieve the function of fine angle adjustment after popping up, and the socket panel is always in a fixed position, which is difficult to adapt to the needs of plugging and unplugging appliances in different positions, further limiting its practicality. Utility Model Content

[0004] The purpose of this utility model is to provide a pop-up structure for a concealed wall socket, so as to solve the problems mentioned in the background art, such as the unstable pop-up process of the current concealed socket, the easy jamming or failure to rebound, the easy deviation or tilting when pressed, and the inability to achieve fine-tuning of the angle after popping up.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a pop-up structure for a concealed wall socket, comprising a prefabricated frame and a socket panel body. The interior of the prefabricated frame is provided with a telescopic frame for connecting and installing the socket panel body. Both sides of the back of the telescopic frame are connected to the bottom inner wall of the prefabricated frame through a push rod type spring mechanism. The interior of the prefabricated frame is provided with auxiliary spring mechanisms connected to the ends of the telescopic frame. The auxiliary spring mechanism consists of a directional column, a support member, and an auxiliary spring. The middle of the telescopic frame is provided with an angle adjustment linkage component that matches the rotation angle position of the socket panel body.

[0006] Preferably, the outer end of the directional column of the auxiliary rebound mechanism is slidably connected to the end of the telescopic frame, the support is sleeved on the outside of the rear end of the directional column, and the auxiliary spring is disposed between the support and the telescopic frame and is also sleeved on the outside of the directional column.

[0007] Preferably, the rear end of the support member is provided with a locking ring sleeved on the outside of the directional column, and the surface of the support member corresponding to the telescopic frame is also connected with an auxiliary elastic telescopic plate.

[0008] Preferably, the angle adjustment linkage assembly includes a rotating circular plate, a rotating shaft, and a stabilizing ring. A rotating recessed hole that matches the structure of the rotating circular plate is provided in the middle of the outer side of the telescopic frame. The rotating shaft is fixed at the center of the back side of the rotating circular plate and passes through the telescopic frame. The stabilizing ring is fixed at the outer end of the back side of the connection between the telescopic frame and the rotating shaft.

[0009] Preferably, the telescopic frame has perforations at both ends that match the directional column structure, and rubber rings are embedded in the perforations.

[0010] Preferably, the inner walls on both sides of the precast frame are provided with welded guide frames, and the two ends of the telescopic frame are provided with welded guide blocks that cooperate with the guide frame structure.

[0011] Compared with existing technologies, the advantages of this utility model are: the pop-up structure of this concealed wall socket improves the stability and ease of operation during the pop-up process, effectively avoids offset or jamming during pressing, and allows for fine-tuning of the socket panel angle after popping up, enhancing the flexibility of use. The pop-up structure of this concealed wall socket, through the coordinated action of a push-rod type rebound mechanism and an auxiliary rebound mechanism, ensures the smooth operation of the telescopic frame during pop-up and retraction. Simultaneously, the design of the angle-adjusting linkage component allows the socket panel body to be adjusted at multiple angles after popping up, meeting the needs of plugging and unplugging in different directions. The structure is reasonable, the response is sensitive, and the practicality is enhanced. Attached Figure Description

[0012] Figure 1 This is a schematic diagram of the pop-up structure of a concealed wall socket according to the present invention;

[0013] Figure 2 This is a schematic diagram of the front structure of the telescopic frame of the pop-up structure of a concealed wall socket according to this utility model;

[0014] Figure 3 This is a schematic diagram of the back structure of the telescopic frame of the pop-up structure of a concealed wall socket according to this utility model.

[0015] In the diagram: 1. Precast frame; 2. Socket panel body; 3. Telescopic frame; 301. Rubber ring; 4. Push rod type spring mechanism; 5. Auxiliary spring mechanism; 501. Directional column; 502. Support component; 503. Auxiliary spring; 504. Locking ring; 505. Auxiliary elastic telescopic plate; 6. Angle adjustment linkage assembly; 601. Rotating circular plate; 602. Rotating shaft; 603. Stabilizing ring; 7. Guide frame; 8. Guide block. Detailed Implementation

[0016] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0017] Please see Figure 1-3This utility model provides a technical solution: a pop-up structure for a concealed wall socket, including a prefabricated frame 1 and a socket panel body 2. The prefabricated frame 1 is fixed in an installation groove inside the wall by pre-embedding. The interior of the prefabricated frame 1 is provided with a telescopic frame 3 for connecting and installing the socket panel body 2. Both sides of the back of the telescopic frame 3 are connected to the bottom inner wall of the prefabricated frame 1 through a push-rod type spring mechanism 4. The push-rod type spring mechanism 4 is an existing press-locking spring structure, mainly composed of a push rod, a return spring, and a limit buckle. Its working principle is similar to the press-pop structure of a ballpoint pen. The internal linkage mechanism is triggered by the pressing action to realize the telescopic function. Furthermore, both sides inside the prefabricated frame 1 are provided with auxiliary spring mechanisms 5 connected to the ends of the telescopic frame 3. The auxiliary spring mechanism 5 is composed of... The telescopic frame 3 consists of a directional column 501, a support member 502, and an auxiliary spring 503. An angle-adjusting linkage component 6, which coordinates with the rotation angle of the socket panel body 2, is located in the middle of the telescopic frame 3. This structure moves the entire telescopic frame 3 into the prefabricated frame 1 by pressing the socket panel body 2. At this time, the push-rod type spring-back mechanism 4 is compressed and stores elastic potential energy. Simultaneously, the two ends of the telescopic frame 3 slide against the directional column 501 in the auxiliary spring-back mechanism 5, compressing the support member 502 and the auxiliary spring 503, providing auxiliary spring-back force for the subsequent pop-out action. When the pressing action is released, the push-rod type spring-back mechanism 4 and the auxiliary spring-back mechanism 5 work together to release elastic potential energy, allowing the telescopic frame 3 to stably reset and push the socket panel body 2 out smoothly, avoiding jamming or incomplete spring-back. Meanwhile, the angle adjustment linkage component 6 allows the socket panel body 2 to be angled as needed in the pop-up state, thereby achieving flexible angle positioning of the socket panel body 2. This solves the problems of unstable pop-up, easy displacement when pressed, and inability to fine-tune the angle caused by the lack of auxiliary limit and angle adjustment structures in the prior art, significantly improving the convenience of user operation and the adaptability of socket use. The outer end of the directional post 501 of the auxiliary rebound mechanism 5 is slidably connected to the end of the telescopic frame 3, and the support member 502 is connected and sleeved on the outside of the rear end of the directional post 501. The auxiliary spring 503 is connected to the surface of the support member 502 corresponding to the telescopic frame 3 and is also sleeved on the outside of the directional post 501. With this structure, when the socket panel body 2 drives the telescopic frame 3 to be pressed into the prefabricated frame 1, During movement, the two ends of the telescopic frame 3 are compressed by sliding auxiliary springs 503. The support member 502 limits and supports the rear end of the auxiliary springs 503, preventing them from shifting or becoming unstable during compression. At the same time, the directional column 501 and the telescopic frame 3 maintain a sliding guide fit to ensure the stability of the telescopic frame 3 during movement and avoid tilting or jamming caused by uneven force. This not only enhances the load-bearing capacity and rebound response speed of the overall structure, but also significantly improves the smoothness and reliability of the pop-out and retraction process. The inner end of the directional column 501 is welded and fixed to the connection point of the bottom inner wall of the prefabricated frame 1. The rear end of the support member 502 is provided with a locking ring 504 sleeved on the outside of the directional column 501. The locking ring 504 is connected to a locking screw through a threaded structure.Furthermore, the surface of the support member 502 corresponding to the telescopic frame 3 is also connected to an auxiliary elastic telescopic plate 505. The auxiliary elastic telescopic plate 505 is a U-shaped spring steel. This structure's locking ring 504 can achieve the function of fine adjustment of the installation position of the support member 502 on the directional column 501, so as to control the locking ring 504 at a suitable support point position. At the same time, the auxiliary elastic telescopic plate 505 generates elastic deformation during the compression or rebound of the telescopic frame 3, further enhancing the stability and guiding accuracy of the structure's operation. The angle adjustment linkage component 6 includes a rotating circular plate 601, a rotating shaft 602, and a stabilizing ring 603. The middle of the outer side of the telescopic frame 3 is provided with a connection to the rotating circular plate 601. The rotating concave hole is designed to fit the structure. A damping ring is bonded and fixed to the inner wall of the rotating concave hole. Several micro-protrusions are fixed around the edge of the rotating circular plate 601. The rotating shaft 602 is fixed at the center of the back side of the rotating circular plate 601 and passes through the connection of the telescopic frame 3. The stabilizing ring 603 is fixed at the outer end of the back side of the connection between the telescopic frame 3 and the rotating shaft 602. The back side of the socket panel body 2 is welded and fixed to the outer side of the rotating circular plate 601. In this structure, the socket panel body 2 achieves the limiting and support of angle adjustment by driving the rotating circular plate 601 to rotate in the rotating concave hole in the middle of the outer side of the telescopic frame 3. When the rotating circular plate 601 rotates, it synchronously drives the rotating shaft 602 to stabilize the angle. The fixed ring 603 rotates internally, providing additional support and anti-deviation limit during adjustment, ensuring stable and reliable rotation. This not only enables flexible multi-angle adjustment of the socket panel body 2 after popping out, but also effectively improves the structural strength and positioning accuracy during rotation, meeting the actual needs of plugging and unplugging electrical appliances in different directions. Both ends of the telescopic frame 3 are provided with through holes that cooperate with the structure of the directional column 501, and rubber rings 301 are fixedly embedded in the through holes of the telescopic frame 3. This structure forms a sliding fit between the through holes at both ends of the telescopic frame 3 and the directional column 501, ensuring that the telescopic frame 3 moves stably along the axial direction of the directional column 501 during popping out and retracting. At the same time, the rubber rings 301... 01. During the sliding process of the telescopic frame 3, elastic buffering and friction limiting are provided, effectively reducing hard collisions and shaking between metal parts, further improving the stability and guiding accuracy during movement. Guide frames 7 are welded and fixed to the inner walls of both sides of the prefabricated frame 1, and guide blocks 8 that cooperate with the structure of the guide frames 7 are welded and fixed to both ends of the telescopic frame 3. When the socket panel body 2 is pressed and drives the telescopic frame 3 to move along the inside of the prefabricated frame 1, the guide blocks 8 slide synchronously within the guide frames 7, ensuring that the telescopic frame 3 runs stably in a straight line, further effectively limiting the deflection and shaking of the telescopic frame 3 during movement, thereby ensuring smoother and more reliable pop-out and retraction actions.

[0018] Working principle: When using the pop-up structure of this concealed wall socket, firstly, by pressing the socket panel body 2, the telescopic frame 3 connected to it moves as a whole into the prefabricated frame 1. The two sets of push rod type spring-loaded mechanisms 4 are compressed and contracted accordingly. At the same time, the through holes at both ends of the telescopic frame 3 slide along the directional column 501 and compress the auxiliary spring 503. The support member 502 and the locking ring 504 maintain the limiting support for the directional column 501. The auxiliary elastic telescopic piece 505 deforms synchronously. At the same time, the guide block 8 also slides in the guide frame 7. The rubber ring 301 provides a buffering and limiting effect in the through hole. When the press is in place, the socket panel body 2 is released. The push rod type spring-loaded mechanism 4 and the auxiliary spring 503 release elastic potential energy together, pushing the telescopic frame 3 to reset outward. The socket panel body 2 pops out. At this time, the rotating disc 601 can be rotated in the rotating recess on the outside of the telescopic frame 3, driving the rotating shaft 602 to rotate synchronously in the stabilizing ring 603, thereby realizing the angle adjustment of the socket panel body 2 and completing a series of operations.

[0019] Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. A pop-up structure for a concealed wall socket, comprising a prefabricated frame (1) and a socket panel body (2), characterized in that: The prefabricated frame (1) is provided with a telescopic frame (3) for connecting and installing the socket panel body (2). Both sides of the back of the telescopic frame (3) are connected to the bottom inner wall of the prefabricated frame (1) through a push rod type spring mechanism (4). Both sides of the interior of the prefabricated frame (1) are provided with an auxiliary spring mechanism (5) connected to the end of the telescopic frame (3). The auxiliary spring mechanism (5) is composed of a directional column (501), a support member (502), and an auxiliary spring (503). The telescopic frame (3) is provided with an angle adjustment linkage component (6) in the middle to match the rotation angle position of the socket panel body (2).

2. The pop-up structure of a concealed wall socket according to claim 1, characterized in that: The outer end of the directional column (501) of the auxiliary rebound mechanism (5) is slidably connected to the end of the telescopic frame (3), and the support member (502) is connected and sleeved on the outside of the rear end of the directional column (501). The auxiliary spring (503) is connected to the surface of the support member (502) corresponding to the telescopic frame (3) and is also sleeved on the outside of the directional column (501).

3. The pop-up structure of a concealed wall socket according to claim 2, characterized in that: The rear end of the support member (502) is provided with a locking ring (504) sleeved on the outside of the directional column (501), and the surface of the support member (502) corresponding to the telescopic frame (3) is also connected with an auxiliary elastic telescopic piece (505).

4. The pop-up structure of a concealed wall socket according to claim 1, characterized in that: The angle adjustment linkage assembly (6) includes a rotating circular plate (601), a rotating shaft (602), and a stabilizing ring (603). The telescopic frame (3) has a rotating recessed hole in the middle of its outer side that matches the structure of the rotating circular plate (601). The rotating shaft (602) is fixed at the center of the back side of the rotating circular plate (601) and passes through the connection of the telescopic frame (3). The stabilizing ring (603) is fixed at the outer end of the back side of the connection between the telescopic frame (3) and the rotating shaft (602).

5. The pop-up structure of a concealed wall socket according to claim 1, characterized in that: Both ends of the telescopic frame (3) are provided with through holes that cooperate with the structure of the directional column (501), and rubber rings (301) are embedded in the through holes of the telescopic frame (3).

6. The pop-up structure of a concealed wall socket according to claim 1, characterized in that: The inner walls on both sides of the prefabricated frame (1) are welded and fixed with guide frames (7), and the two ends of the telescopic frame (3) are welded and fixed with guide blocks (8) that cooperate with the structure of the guide frames (7).