Push-in socket mounting assembly and method of mounting same

By combining the adjusting ring and the adjusting handle, and utilizing the limiting surface and the locking block structure, high-precision installation of the socket is achieved, solving the problems of low installation accuracy and poor aesthetics of traditional sockets, simplifying the construction process, and reducing costs.

CN122246547APending Publication Date: 2026-06-19SUZHOU MANGSHA TECH CO

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
SUZHOU MANGSHA TECH CO
Filing Date
2026-04-17
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Traditional socket installation suffers from low installation precision, requires multiple adjustments, and disrupts the flatness of the installation surface, failing to meet the requirements of minimalist design.

Method used

The system employs a combination of an adjusting ring and an adjusting handle. The adjusting ring is inserted into the mounting hole of the mounting substrate at a specified angle and depth using the adjusting handle. Precise positioning is achieved using a limiting surface and a locking block structure, and the ring is then fixed with adhesive.

Benefits of technology

It achieves high-precision one-time installation, simplifies the construction process, reduces labor costs and construction difficulty, and meets aesthetic requirements.

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Abstract

This invention discloses a push-button socket mounting assembly and its installation method, comprising: an adjusting ring having a battery insertion hole and a plurality of mounting portions; and an adjusting handle having a first limiting surface and a second limiting surface along the axial direction, the first and second limiting surfaces being located at different axial positions, and the axial distance d between the first and second limiting surfaces matching the axial installation depth of the mounting portions of the adjusting ring; during installation, the adjusting ring is detachably connected to the adjusting handle, and the adjusting handle presses the adjusting ring into a designated position in the mounting hole of the mounting base plate. This invention utilizes the adjusting handle to insert the adjusting ring into the mounting hole of the mounting base plate at a specified angle and depth, resulting in high installation accuracy, good installation effect, and one-time installation without repeated adjustments, simplifying the installation process, saving installation time, and reducing labor costs and construction difficulty.
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Description

Technical Field

[0001] This invention relates to the field of electrical equipment technology, specifically a push-button socket mounting assembly and its mounting method. Background Technology

[0002] In modern life, sockets have become an essential requirement for homes. They need to be installed in various parts of the room to meet basic power supply needs. Traditional "86" type sockets are installed on hard materials such as wood, composite boards, and stone boards, which do not require surface treatment. They are often installed by pre-embedding the back box and then installing the panel. However, after installation, the socket usually protrudes from the surface of the mounting surface, which disrupts the flatness of the mounting surface, has poor aesthetics, and is not suitable for the currently popular minimalist design style.

[0003] Existing construction techniques also employ flush-mount sockets, ensuring the socket panel is flush with the mounting surface for a cleaner, more uniform appearance. However, due to inconsistent mounting surface thickness and varying panel thicknesses, flush-mount sockets often require adjustment of the installation depth using bolts or by adding or removing shims. This method not only results in low installation precision but also necessitates repeated adjustments to achieve satisfactory results, increasing labor costs and construction complexity. Summary of the Invention

[0004] This application addresses the shortcomings of existing flush-mounted plug-in installations by providing a reasonably structured push-button socket installation assembly and its installation method. By adjusting the handle, the adjusting ring of the socket is inserted into the mounting hole of the mounting base at a specified angle and depth. This method achieves high installation accuracy, completes installation in one go, and provides good installation results. It also simplifies the installation process and reduces labor costs and construction difficulty.

[0005] The technical solution adopted in this invention is as follows: A push-button socket mounting assembly includes, The adjusting ring is equipped with cell insertion holes and several mounting parts; The adjusting handle has a first limiting surface and a second limiting surface along the axial direction. The first limiting surface and the second limiting surface are located at different axial positions. The axial distance d between the first limiting surface and the second limiting surface matches the axial installation depth of the mounting part of the adjusting ring. During installation, the adjusting ring is detachably connected to the adjusting handle, which presses the adjusting ring into the designated position of the mounting hole on the mounting substrate.

[0006] As a further improvement to the above technical solution: The outer diameter of the first limiting surface is larger than the diameter of the mounting hole of the mounting substrate, and the first limiting surface is used to limit the axial installation depth of the adjusting ring; the outer diameter of the second limiting surface is smaller than the diameter of the mounting hole of the mounting substrate, and the second limiting surface is used to limit the axial position of the adjusting ring when it is inserted into the adjusting handle; the axial distance d between the first limiting surface and the second limiting surface is greater than or equal to the axial depth of the mounting portion of the adjusting ring to the surface of the mounting substrate after it is installed on the mounting substrate.

[0007] The second limiting surface of the adjusting handle is provided with a locking block for inserting an adjusting ring. When the adjusting ring is connected, the locking block is inserted into the battery cell insertion hole of the adjusting ring. The battery cell insertion hole of the adjusting ring is provided with several concave parts and convex parts. The locking block of the adjusting handle is provided with several convex sections and convex sections respectively. When the adjusting ring is inserted into the adjusting handle, the convex sections are locked into the concave parts, and the convex sections are locked into the convex parts.

[0008] The adjusting handle includes an outer ring body and an inner ring body connected to the outer ring body. The outer diameter of the inner ring body is smaller than that of the outer ring body. A first limiting surface is set on the outer ring body, and a second limiting surface is set on the inner ring body.

[0009] The adjustment handle is equipped with positioning marks for aligning the installation angle.

[0010] Several anti-seepage holes are provided between the outer ring body and the inner ring body of the adjusting handle. When the adjusting ring is pressed in, the anti-seepage holes will collect the overflowing glue into the holes. The several anti-seepage holes are separated by several radial and circumferential spokes provided between the outer ring body and the inner ring body. From the radial end plate to the locking block, the axial end height of the radial spokes and circumferential spokes is flush with or lower than the height of the first limiting surface.

[0011] The cell insertion hole of the adjusting ring includes a recessed section and a connecting section. The diameter of the recessed section is larger than that of the connecting section. The radial wall formed between the recessed section and the connecting section constitutes the mounting part. The inner contour of the connecting section matches the outer contour of the part of the cell module inserted into the connecting section. Several guide grooves are axially opened on the inner wall of the connecting section. The diameter of the recessed section of the cell insertion hole is larger than the outer diameter of the inner ring body of the adjusting handle. When the adjusting ring is inserted into the adjusting handle, one end of the inner ring body extends into the recessed section.

[0012] The inner wall of the inner convex part of the connecting hole section of the adjusting ring is provided with several fixing protrusions; the outer concave part of the connecting hole section of the adjusting ring is provided with a fastener mounting hole that runs radially through it; the outer edge of the recessed hole section of the adjusting ring is provided with a strip; the mounting part of the adjusting ring is provided with a fixing hole; the outer circumferential surface of the adjusting ring is provided with an inner recess and a glue-insulated lace, the inner recess being an annular groove opened in the middle of the outer circumferential surface of the adjusting ring along the circumferential direction of the adjusting ring, and the glue-insulated lace being several concave and convex surfaces that are continuously formed along the circumferential direction of the adjusting ring and opened axially, with the concave and convex surfaces arranged alternately; the outer circumferential surface of the adjusting handle is provided with an anti-slip surface.

[0013] A method for installing a socket mounting assembly includes pressing an adjusting ring into a mounting hole on a mounting substrate using an adjusting handle. Insert the adjusting ring onto the adjusting handle, with the second limiting surface of the adjusting handle abutting against the mounting part of the adjusting ring; Press the adjusting ring into the mounting hole of the mounting substrate by adjusting the handle until the first limiting surface of the adjusting handle abuts against the end face of the mounting substrate. After the adjusting ring is positioned in the mounting hole of the substrate, remove the adjusting handle from the adjusting ring.

[0014] As a further improvement to the above technical solution: The shape and size of the mounting hole on the substrate are compatible with the shape and size of the adjusting ring. When the adjusting ring is inserted into the adjusting handle, the locking block of the adjusting handle is inserted into the connecting hole section of the battery cell insertion hole of the adjusting ring, and the inner ring body is inserted into the recessed hole section. Before pressing the adjusting ring into the mounting hole of the substrate, glue is applied to the hole wall of the mounting hole and / or the outer peripheral surface of the adjusting ring. After the adjusting ring is pressed into the mounting hole of the substrate and is in place, the adjusting handle is removed from the adjusting ring after the glue has solidified. After the adjusting handle is removed, the adjusting ring is further fixed with fasteners.

[0015] The beneficial effects of this invention are as follows: The push-to-install socket assembly provided by this invention uses an adjustment handle to insert the adjustment ring into the mounting hole of the mounting base at a specified angle and depth. It has high installation accuracy, good installation effect, and can be installed in place in one go without repeated adjustments. This simplifies the installation process, saves installation time, and reduces labor costs and construction difficulty. Attached Figure Description

[0016] Figure 1 The diagram shows the structure of the adjusting ring and the adjusting handle of the present invention without being inserted. (a) is a circular adjusting ring, and (b) is a square adjusting ring.

[0017] Figure 2 This is a schematic diagram of the structure of the first embodiment of the regulating ring.

[0018] Figure 3This is a schematic diagram of the second embodiment of the adjusting ring.

[0019] Figure 4 This is a schematic diagram of the third embodiment of the adjusting ring.

[0020] Figure 5 This is a schematic diagram of the fourth embodiment of the adjusting ring.

[0021] Figure 6 The diagram shows the structure of the adjustment handle, with (a) and (b) representing two different perspectives.

[0022] Figure 7 The diagram shows the structure of the adjustment ring and adjustment handle of the present invention. (a) is a perspective view and (b) is a cross-sectional view.

[0023] Figure 8 The installation flowchart of this invention.

[0024] Figure 9 This is a schematic diagram of the battery cell module installation.

[0025] Figures 10 to 11 This is a schematic diagram of the installation of the adjusting ring in the fourth embodiment.

[0026] In the picture: 2. Adjusting ring; 22. Cell insertion hole; 221. Recessed hole section; 222. Connecting hole section; 2221. Outer concave part; 2222. Inner convex part; 23. Mounting part; 24. Fixing hole; 26. Guide groove; 27. Fixing protrusion; 210. Inner recess; 211. Edge strip; 212. Adhesive-impregnated lace edge; 213. Fastener mounting hole; 10. Screw; 7. Adjusting handle; 700. Outer ring body; 7001. First limiting surface; 701. Leveling scale; 702. Locking block; 7021. Outer convex section; 7022. Inner convex section; 703. Inner ring body; 7031. Second limiting surface; 704. Anti-slip surface; 705. Radial end plate; 706. Radial spokes; 707. Circumferential spokes; 708. Leakage prevention hole; 710. Center hole; 100. Mounting substrate; 101. Substrate mounting hole; 102. Reference edge; 50. Battery cell module. Detailed Implementation

[0027] To make the objectives, technical solutions, and advantages of this invention clearer, the following detailed description of the adjustment component, modular device, and method comprising the adjustment component, in conjunction with the accompanying drawings and specific embodiments, will further illustrate these features. The advantages and characteristics of this invention will become clearer from the following description. It should be noted that the accompanying drawings are in a very simplified form and use non-precise proportions, intended only to facilitate and clearly illustrate the objectives of the embodiments of this invention. Please refer to the accompanying drawings to make the objectives, features, and advantages of this invention more apparent and understandable. It should be understood that the structures, proportions, sizes, etc., depicted in the accompanying drawings are only for illustrative purposes and to enable those skilled in the art to understand and read them, and are not intended to limit the implementation conditions of this invention. Therefore, they have no substantial technical significance. Any modifications to the structure, changes in proportions, or adjustments to the size, without affecting the effects and objectives achieved by this invention, should still fall within the scope of the technical content disclosed in this invention.

[0028] like Figure 1 As shown, the push-button socket mounting assembly of the present invention includes an adjusting ring 2 and an adjusting handle 7. The adjusting ring 2 is pressed into the mounting hole 101 of the mounting base plate 100 for connecting the battery module 50. The adjusting handle 7 serves as an auxiliary installation tool for pressing the adjusting ring 2 into a designated position in the mounting hole 101. The push-button socket mounting assembly of the present invention is applicable to mounting base plates 100 that can have mounting holes, including but not limited to rigid boards (such as marble slabs, stone slabs, etc.), softer boards (such as solid wood boards, composite boards, etc.), gypsum boards, walls, etc.

[0029] The adjusting ring 2 can have many different embodiments. The specific structure of each embodiment of the adjusting ring 2 is described below.

[0030] First embodiment of regulating ring 2: refer to Figure 1 (a) Figure 2The adjusting ring 2 is a circular ring, and it is provided with a cell insertion hole 22 for inserting the cell module 50 and a plurality of mounting parts 23 (in this embodiment, four mounting parts 23 are evenly arranged circumferentially). The cell insertion hole 22 is axially opened in the center of the adjusting ring 2 for inserting the cell module 50. The plurality of mounting parts 23 are arranged on the outside of the cell insertion hole 22 for connecting the cell module 50. The mounting parts 23 are provided with fixing holes 24 for fixing the cell module 50 to the mounting parts 23 by fasteners. The cell insertion hole 22 includes a recessed hole section 221 and a connecting hole section 222. The diameter of the recessed hole section 221 is larger than the diameter of the connecting hole section 222. The radial wall formed between the recessed hole section 221 and the connecting hole section 222 constitutes the mounting part 23. The connecting hole section 222 is provided with a number of concave portions 2221 and convex portions 2222. The concave portions 2221 and convex portions 2222 are arranged at intervals. The concave portions 2221 are respectively located at the four corners of the connecting hole section 222. A number of guide grooves 26 are axially opened on the inner wall surface of the convex portion 2222. The guide grooves 26 are located close to the fixing hole 24 and are used to cooperate with the corresponding guide strip on the battery cell module 50. The outer circumferential surface of the adjusting ring 2 is provided with an inner recess 210 and an adhesive-soaked lace 212. The inner recess 210 is an annular groove opened in the middle of the outer circumferential surface of the adjusting ring 2 along the circumferential direction of the adjusting ring 2. The adhesive-soaked lace 212 is a number of concave and convex surfaces continuously formed along the circumferential direction and opened axially on the adjusting ring 2. The concave and convex surfaces are arranged alternately. The inner recess 210 facilitates the construction worker to squeeze in viscous glue. When the viscous glue has not solidified, it flows evenly through the inner recess 210 to the adhesive-soaked lace 212, so that the circumferential surface of the adjusting ring 2 is covered with viscous glue, thereby fixing the adjusting ring 2 in the substrate mounting hole 101 of the mounting substrate 100.

[0031] Second embodiment of regulating ring 2: refer to Figure 1 (b) Figure 3 The adjusting ring 2 is a square ring. Compared with the first embodiment, this embodiment has the following differences besides the different shape of the adjusting ring 2: the recessed hole section 221 of the battery cell insertion hole 22 in this embodiment is a square hole, and a plurality of fixing protrusions 27 are provided on the inner wall surface of the inner convex part 2222 of the connecting hole section 222 for connecting with the corresponding part of the battery cell module 50 and positioning the battery cell module 50.

[0032] Third embodiment of regulating ring 2: refer to Figure 4 The difference between the adjusting ring 2 in this embodiment and the previous embodiment is that the outer edge of the recessed hole section 221 of the adjusting ring 2 (i.e. the side edge away from the connecting hole section 222) has a circumferentially arranged side strip 211. The outer diameter of the side strip 211 is greater than or equal to the outer diameter of the adjusting ring 2, and the diameter of the side strip 211 is 58mm or 60mm.

[0033] Fourth embodiment of regulating ring 2: refer to Figure 5 The difference between the adjusting ring 2 in this embodiment and the previous embodiment is that the adjusting ring 2 has a fastener mounting hole 213 that is radially opened on the concave portion 2221 of the connecting hole section 222. In this embodiment, the fastener mounting hole 213 is opened on the concave portion 2221 at the four corners of the connecting hole section 222. The fastener mounting hole 213 is connected to the concave opening 210. During installation, the fastener (such as the screw 10) is installed through the fastener mounting hole 213 and extends out from the concave opening 210.

[0034] The adjusting handle 7 of the present invention is adapted to all embodiments of the adjusting ring 2 described above. The specific structure of the adjusting handle 7 is described below.

[0035] like Figure 1 , Figure 6 , Figure 7As shown, the adjustment handle 7 includes an outer ring body 700 and an inner ring body 703 connected to the outer ring body 700. Both the outer ring body 700 and the inner ring body 703 are hollow cylindrical structures with a through central hole 710 in the center. The outer diameter of the inner ring body 703 is smaller than that of the outer ring body 700. One end of the inner ring body 703 is flush with the outer ring body 700 and connected to it through a radial end plate 705. The other end of the inner ring body 703 extends outward from the outer ring body 700 along the axial direction. The outer diameter of the outer ring body 700 is larger than the diameter of the substrate mounting hole 101 of the mounting substrate 100, and the outer diameter of the inner ring body 703 is smaller than the diameter of the substrate mounting hole 101. A first limiting surface 7001 is provided on the end face of the outer ring body 700 away from the radial end plate 705. The outer diameter of the first limiting surface 7001 is larger than the diameter of the substrate mounting hole 101 of the mounting substrate 100. The first limiting surface 7001 is used to limit the axial installation depth of the adjusting ring 2. A second limiting surface 7031 is provided on the end face of the inner ring body 703 away from the radial end plate 705. The outer diameter of the second limiting surface 7031 is smaller than the diameter of the substrate mounting hole 101 of the mounting substrate 100. The second limiting surface 7031 is used to limit the axial position of the adjusting ring 2 inserted into the adjusting handle 7. The outer diameter of the inner ring body 703 is smaller than the diameter of the recessed section 221 of the cell insertion hole 22 of the adjusting ring 2. When the adjusting ring 2 is inserted into the adjusting handle 7, one end of the inner ring body 703 extends into the recessed section 221 of the adjusting ring 2. The second limiting surface 7031 of the inner ring body 703 cooperates with the mounting part 23 of the adjusting ring 2 and abuts against the mounting part 23, thus axially limiting the adjusting ring 2. The axial distance d between the first limiting surface 7001 and the second limiting surface 7031 matches the axial installation depth of the mounting part 23 of the adjusting ring 2. The axial distance d is greater than or equal to the axial depth of the mounting part 23 to the surface of the mounting substrate 100 after the adjusting ring 2 is installed on the mounting base 100. A locking block 702 is provided on the second limiting surface 7031 of the inner ring body 703, extending outward along the axial direction away from the outer ring body 700. The locking block 702 cooperates with the connecting hole section 222 of the battery cell insertion hole 22 of the adjusting ring 2 to provide radial and circumferential positioning of the adjusting ring 2 and restrict the radial and rotational movement of the adjusting ring 2. The locking block 702 and the connecting hole section 222 have several externally concave portions 2221 and internally convex portions 2222 corresponding to several externally convex segments 7021 and internally convex segments 7022, respectively. When the adjusting ring 2 is inserted into the adjusting handle 7, the externally convex segments 7021 engage with the externally concave portions 2221, and the internally convex segments 7022 engage with the internally convex portions 2222, thereby achieving radial and circumferential positioning of the adjusting ring 2. The locking block 702 is formed by circumferential stretching and can be a discontinuous ring structure containing several externally convex segments 7021 and internally convex segments 7022, with spacing between each segment; or it can be... Figure 6(a) shows a continuous ring structure. The outer periphery of the card block 702 is adapted to the inner periphery of the connecting hole section 222 of the adjusting ring 2, ensuring the insertion connection between the card block 702 and the connecting hole section 222 of the adjusting ring 2. When the card block 702 is inserted into the connecting hole section 222, the outer wall surface of the card block 702 abuts against the inner wall surface of the connecting hole section 222.

[0036] The outer circumferential surface of the outer ring body 700 of the adjustment handle 7 is set as an anti-slip surface 704. The anti-slip surface 704 is a continuous or discontinuous rough surface, which facilitates the operator's hand operation and improves the convenience of operation. Between the outer ring body 700 and the inner ring body 703, on the side near the first limiting surface 7001, there are a plurality of radial spokes 706 and circumferential spokes 707. The plurality of radial spokes 706 are evenly spaced along the circumference, and the circumferential spokes 707 intersect with the plurality of radial spokes 706. The plurality of radial spokes 706 and circumferential spokes 707 divide the space between the outer ring body 700 and the inner ring body 703 into a plurality of anti-seepage holes 708. When the adjusting handle 7 presses the adjusting ring 2 into the mounting hole 101 of the mounting base plate 100 which has been coated with glue, the anti-seepage holes 708 can collect the overflowing glue into the hole, preventing the first limiting surface 7001 of the adjusting handle 7 from being stuck to the mounting base plate 100 by the glue. This makes it easier to install the adjusting ring 2 in place and remove the adjusting handle 7 after the glue has solidified. From the radial end plate 705 toward the locking block 702, the axial end heights of the radial spokes 706 and the circumferential spokes 707 are flush with or lower than the height of the first limiting surface 7001. There is also a certain space for adhesive between the axial ends of the radial spokes 706 and the circumferential spokes 707 and the first limiting surface 7001, which is more conducive to collecting the seeping adhesive and preventing the adhesive from seeping into the first limiting surface 7001 to stick the adjusting handle 7 onto the mounting base plate 100.

[0037] On the radial end plate 705 of the adjusting handle 7, several leveling scales 701 are provided on the side face away from the locking block 702. These leveling scales 701 serve as positioning markers for aligning the installation angle of the adjusting ring 2, enabling the adjustment ring 2, the battery cell module 50, and its panel to be aligned horizontally or vertically. In this embodiment, the leveling scales 701 are distributed on the horizontal bearing and vertical axis of the radial end plate 705. The extension line of the leveling scales 701 passes through the center of the outer ring body 700, i.e., the inner ring body 703. This allows the center of the adjusting ring 2 to be aligned using the leveling scales 701 after the adjusting ring 2 is fixed in position. This ensures that the socket hole group of the battery cell module 50 is centered after being installed on the adjusting ring 2, eliminating the need for further adjustment and making installation simpler, faster, and saving installation time and labor costs. In other embodiments, a level or centering mark can also be provided on the adjusting handle 7 as a positioning marker to align the installation angle of the adjusting ring 2.

[0038] like Figure 8As shown, the installation method of pressing the adjusting ring 2 of the push-to-fit socket mounting assembly into the mounting hole 101 of the mounting base plate 100 mainly includes the following steps (taking the circular adjusting ring 2 as an example): Step S1: Make a hole and apply glue to the hole wall. Make a substrate mounting hole 101 on the mounting substrate 100 (e.g., a rigid plate). The shape and size of the substrate mounting hole 101 are adapted to the shape and size of the adjusting ring 2.

[0039] Step S2: Inserting the adjusting ring 2. Insert the adjusting ring 2 onto the adjusting handle 7. The locking block 702 of the adjusting handle 7 is inserted into the connection hole section 222 of the battery cell insertion hole 22 of the adjusting ring 2. The inner ring body 703 is inserted into the recessed hole section 221. The second limiting surface 7031 of the inner ring body 703 abuts against the mounting part 23 of the adjusting ring 2, thus completing the connection between the adjusting handle 7 and the adjusting ring 2.

[0040] Step S3: Apply adhesive. Apply adhesive to the walls of the mounting holes 101 of the mounting substrate 100, and / or also apply adhesive to the recesses 210 on the outer periphery of the adjusting ring 2. If the mounting substrate 100 is made of plaster, apply a fixative to the walls of the mounting holes 101 to fix the plaster powder, and apply adhesive after the fixative has dried.

[0041] Step S4: Press-fit the adjusting ring 2. Hold the adjusting handle 7 by hand or with an auxiliary tool, and press the adjusting ring 2, which is inserted on the adjusting handle 7, into the substrate mounting hole 101 of the mounting substrate 100 until the first limiting surface 7001 of the adjusting handle 7 abuts against the end face of the mounting substrate 100. At this time, the adjusting ring 2 is pressed into the substrate mounting hole 101 to a specified depth. This depth is the depth to ensure that the panel of the battery cell module 50 is flush with the end face of the mounting substrate 100 after installation. While pressing in, adjust the adjusting handle 7 so that the leveling scale 701 on the adjusting handle 7 is parallel to the reference edge 102 (usually the horizontal edge or the vertical edge) on the mounting substrate 100, and correct the installation angle of the adjusting ring 2 to ensure that the socket hole group of the battery cell module 50 is centered after installation.

[0042] Step S5: Remove the adjusting handle 7. Let the adjusting handle 7 and the adjusting ring 2 stand together and wait for the glue to harden. After the glue has hardened, remove the adjusting handle 7 from the adjusting ring 2. The locking block 702 and the inner ring body 703 of the adjusting handle 7 will separate from the battery cell insertion hole 22 of the adjusting ring 2. At this point, the installation of the adjusting ring 2 is complete.

[0043] If the adjusting ring 2 adopts the scheme of the fourth embodiment, such as Figure 10 , Figure 11As shown, after the adjustment handle 7 is removed, the screw 10 is screwed into the fastener mounting hole 213 of the adjustment ring 2 using a hex wrench. As the screw 10 is screwed in, the distal end of the screw 10 will gradually protrude from the fastener mounting hole 213 and the recess 210. The distal end of the screw 10 protruding from the recess 210 will abut against the wall of the mounting hole 101 of the mounting base plate 100, thereby further fixing the adjustment ring 2 to the mounting base plate 100, making the connection more secure, stable and reliable.

[0044] like Figure 9 As shown, after the adjusting ring 2 is installed, the battery module 50, with its electrical wiring connected, is inserted into the battery module insertion hole 22 of the adjusting ring 2 and secured with fasteners at the fixing hole 24. After the battery module 50 is connected, the panel is snapped onto the battery module 50. The battery module 50 can be any of the following: a multi-hole socket module, a touch or contact switch module, a USB interface or Type-A / C interface module, a universal socket module, a network cable interface module, or a British standard socket module. The panel type matches the corresponding type of battery module 50.

[0045] In the above embodiments, the adjusting ring 2 is connected to the adjusting handle 7 via a mechanical snap-fit ​​structure. In other embodiments, the adjusting ring 2 can also be connected to the adjusting handle 7 via a magnetic connection structure. Magnetic mating parts are provided on the adjusting ring 2 and the adjusting handle 7 respectively, and the adjusting ring 2 and the adjusting handle 7 are attracted to each other through the magnetic mating parts.

[0046] The push-to-install socket assembly provided by the present invention uses the adjustment handle 7 to insert the adjustment ring 2 into the mounting hole 101 of the mounting base plate 100 at a specified angle and depth. It has high installation accuracy, good installation effect, and can be installed in place in one go without repeated adjustments. It simplifies the installation process, saves installation time, and reduces labor costs and construction difficulty.

[0047] The technical features of the above embodiments can be combined in any way. For the sake of brevity, not all possible combinations of the technical features in the above embodiments are described. However, as long as there is no contradiction in the combination of these technical features, they should be considered to be within the scope of this specification.

[0048] The embodiments described above are merely illustrative of several implementations of the present invention, and while the descriptions are relatively specific and detailed, they should not be construed as limiting the scope of the invention patent. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of the present invention, and these all fall within the protection scope of the present invention. Therefore, the protection scope of this invention patent should be determined by the appended claims.

Claims

1. A push-to-open socket mounting assembly, characterized in that: include, The adjusting ring (2) is provided with a cell insertion hole (22) and several mounting parts (23); The adjusting handle (7) is provided with a first limiting surface (7001) and a second limiting surface (7031) along the axial direction. The first limiting surface (7001) and the second limiting surface (7031) are located at different axial positions. The axial distance d between the first limiting surface (7001) and the second limiting surface (7031) matches the axial installation depth of the mounting part (23) of the adjusting ring (2). During installation, the adjusting ring (2) is detachably connected to the adjusting handle (7), and the adjusting handle (7) presses the adjusting ring (2) into the designated position of the substrate mounting hole (101) of the mounting substrate (100).

2. The push-to-open socket mounting assembly according to claim 1, characterized in that: The outer diameter of the first limiting surface (7001) is larger than the diameter of the substrate mounting hole (101) of the mounting substrate (100), and the first limiting surface (7001) is used to limit the axial installation depth of the adjusting ring (2); the outer diameter of the second limiting surface (7031) is smaller than the diameter of the substrate mounting hole (101) of the mounting substrate (100), and the second limiting surface (7031) is used to limit the axial position of the adjusting ring (2) when it is inserted into the adjusting handle (7); the axial distance d between the first limiting surface (7001) and the second limiting surface (7031) is greater than or equal to the axial depth of the mounting part (23) of the adjusting ring (2) to the surface of the mounting substrate (100) after it is installed on the mounting substrate (100).

3. The push-to-open socket mounting assembly according to claim 1, characterized in that: The second limiting surface (7031) of the adjusting handle (7) is provided with a locking block (702) for inserting the adjusting ring (2). When the adjusting ring (2) is connected, the locking block (702) is inserted into the battery cell insertion hole (22) of the adjusting ring (2). The battery cell insertion hole (22) of the adjusting ring (2) is provided with several concave portions (2221) and convex portions (2222). The locking block (702) of the adjusting handle (7) is provided with several convex sections (7021) and convex sections (7022). When the adjusting ring (2) is inserted into the adjusting handle (7), the convex section (7021) is inserted into the concave portion (2221), and the convex section (7022) is inserted into the convex portion (2222).

4. The push-to-open socket mounting assembly according to claim 1, characterized in that: The adjustment handle (7) includes an outer ring body (700) and an inner ring body (703) connected to the outer ring body (700). The outer diameter of the inner ring body (703) is smaller than that of the outer ring body (700). A first limiting surface (7001) is disposed on the outer ring body (700), and a second limiting surface (7031) is disposed on the inner ring body (703).

5. The push-to-open socket mounting assembly according to claim 4, characterized in that: The adjustment handle (7) is equipped with positioning marks for aligning the installation angle.

6. The push-to-open socket mounting assembly according to claim 4, characterized in that: A plurality of anti-seepage holes (708) are provided between the outer ring body (700) and the inner ring body (703) of the adjusting handle (7). When the adjusting ring (2) is pressed, the anti-seepage holes (708) collect the overflowing glue into the hole. The plurality of anti-seepage holes (708) are separated by a plurality of radial spokes (706) and circumferential spokes (707) provided between the outer ring body (700) and the inner ring body (703). From the radial end plate (705) toward the locking block (702), the axial end height of the radial spokes (706) and the circumferential spokes (707) is flush with or lower than the height of the first limiting surface (7001).

7. The push-to-open socket mounting assembly according to claim 1, characterized in that: The cell insertion hole (22) of the adjusting ring (2) includes a recessed hole section (221) and a connecting hole section (222). The diameter of the recessed hole section (221) is larger than that of the connecting hole section (222). The radial wall formed between the recessed hole section (221) and the connecting hole section (222) constitutes the mounting part (23). The inner contour of the connecting hole section (222) matches the outer contour of the part of the cell module (50) inserted into the hole of the connecting hole section (222). Several guide grooves (26) are axially opened on the inner wall surface of the connecting hole section (222). The diameter of the recessed hole section (221) of the cell insertion hole (22) is larger than the outer diameter of the inner ring body (703) of the adjusting handle (7). When the adjusting ring (2) is inserted into the adjusting handle (7), one end of the inner ring body (703) extends into the recessed hole section (221).

8. The push-to-open socket mounting assembly according to claim 7, characterized in that: The inner wall of the inner convex part (2222) of the connecting hole section (222) of the adjusting ring (2) is provided with several fixed protrusions (27); the outer concave part (2221) of the connecting hole section (222) of the adjusting ring (2) is provided with a fastener mounting hole (213) that runs through it radially; the outer edge of the recessed hole section (221) of the adjusting ring (2) is provided with a strip (211); the mounting part (23) of the adjusting ring (2) is provided with a fixing hole (24); the outer circumferential surface of the adjusting ring (2) is provided with an inner concave opening (210) and a glue-insulated lace (212). The inner concave opening (210) is an annular groove opened in the middle of the outer circumferential surface of the adjusting ring (2) along the circumferential direction of the adjusting ring (2). The glue-insulated lace (212) is a number of concave and convex surfaces that are continuously formed along the circumferential direction of the adjusting ring (2) and opened axially. The concave and convex surfaces are arranged alternately; the outer circumferential surface of the adjusting handle (7) is provided with an anti-slip surface (704).

9. A method for installing a socket mounting assembly, characterized in that: Using the adjusting handle (7), the adjusting ring (2) is pressed into the substrate mounting hole (101) of the mounting substrate (100), including, Insert the adjusting ring (2) into the adjusting handle (7), and the second limiting surface (7031) of the adjusting handle (7) abuts against the mounting part (23) of the adjusting ring (2); The adjusting ring (2) is pressed into the substrate mounting hole (101) of the mounting substrate (100) by adjusting the handle (7) until the first limiting surface (7001) of the adjusting handle (7) abuts against the end face of the mounting substrate (100). After the adjustment ring (2) is positioned in the substrate mounting hole (101), the adjustment handle (7) is removed from the adjustment ring (2).

10. The installation method of the socket mounting assembly according to claim 9, characterized in that: The shape and size of the mounting hole (101) of the mounting substrate (100) are adapted to the shape and size of the adjusting ring (2); when the adjusting ring (2) is inserted into the adjusting handle (7), the locking block (702) of the adjusting handle (7) is inserted into the connecting hole section (222) of the battery cell insertion hole (22) of the adjusting ring (2), and the inner ring body (703) is inserted into the recessed hole section (221); before pressing the adjusting ring (2) into the mounting hole (101), glue is applied to the hole wall of the mounting hole (101) and / or the outer peripheral surface of the adjusting ring (2); after the adjusting ring (2) is pressed into the mounting hole (101) and in place, the adjusting handle (7) is removed from the adjusting ring (2) after the glue has solidified; after the adjusting handle (7) is removed, the adjusting ring (2) is further fixed with fasteners.