An aging test rack for smart locks

By designing an adjustment mechanism and a shielding mechanism for the smart lock aging test rack, the problem of inconvenient replacement of the top-level smart lock in the existing technology has been solved, achieving efficient installation and expanding the load-bearing capacity, thus improving the efficiency of the test rack.

CN224500786UActive Publication Date: 2026-07-14ZHONGSHAN GUHAI INTELLIGENT TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHONGSHAN GUHAI INTELLIGENT TECHNOLOGY CO LTD
Filing Date
2025-06-05
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The existing aging test rack has welding connections, which makes it inconvenient to replace the top smart lock and affects work efficiency.

Method used

A smart lock aging test rack was designed, which includes a base, support column, support plate and adjustment mechanism. The position and height of the support plate can be flexibly adjusted by the adjustment mechanism, which makes it easy for operators to quickly install the top smart lock, and the load-bearing capacity can be increased by the shielding mechanism.

Benefits of technology

This improved the efficiency of operators in installing the top-level smart lock, increased the load-bearing capacity of the test rack, and enhanced the effectiveness of the test rack.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses an aging test frame of intelligent lock belongs to intelligent lock detection technical field, has solved the problem that the existing aging test frame self structure is fixed, and the operator is inconvenient for the installation and replacement of intelligent lock on the bearing plate of top layer, and this aging test frame includes bottom platform, pillar, bearing plate and control electric box, the bottom platform upper surface symmetry is equipped with the pillar, and the pillar is provided with four together, the equidistance bearing plate of between the pillar is installed, and the bottom platform side is equipped with control electric box, and the bearing plate side is equipped with adjusting mechanism, adjusting mechanism includes stretch subassembly, pull frame, tooth block and tooth plate, in the utility model, through setting adjusting mechanism, can be nimble to the position and height of multiple bearing plate adjust and change, and the operator is convenient for the installation of intelligent lock on the bearing plate of top layer, has improved the working quality of device self.
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Description

Technical Field

[0001] This utility model belongs to the field of smart lock testing technology, specifically relating to an aging test rack for smart locks. Background Technology

[0002] Smart locks are improved versions of traditional mechanical locks, offering greater intelligence and convenience in terms of user security, identification, and management. Each smart lock contains multiple circuit components that work together to control the opening and closing of the lock. To ensure the quality of smart locks, after assembly, they are placed on an aging test rack and powered on for extended periods to check for any bugs that may appear.

[0003] The current aging test rack consists of multiple support rods and a support platform, which makes it easy to place multiple smart locks on the support platform for long-term operation and monitoring. However, there are some problems in actual use. Specifically, the aging test rack is divided into multiple layers, and the overall height of the top layer is generally greater than the height of a normal adult male. Because the aging test rack is connected by welding, the operator cannot quickly and stably replace the smart locks on the top layer, which affects the overall work efficiency. Utility Model Content

[0004] The purpose of this section is to outline some aspects of embodiments of the present invention and to briefly describe some preferred embodiments. Simplifications or omissions may be made in this section, as well as in the abstract and title of this application, to avoid obscuring the purpose of these documents; however, such simplifications or omissions should not be construed as limiting the scope of the present invention.

[0005] To address the problems mentioned in the background section, the present invention adopts the following technical solution.

[0006] An aging test rack for a smart lock includes a base, supports, a support plate, and a control box. Supports are symmetrically mounted on the upper surface of the base, with a total of four supports. Support plates are equidistantly mounted between the supports. The control box is mounted on the side of the base. An adjustment mechanism is mounted on the side of the support plate. The adjustment mechanism includes a tensioning component, a pulling frame, a toothed block, and a toothed plate. The tensioning component is mounted on the side of the support plate, and a pulling frame is mounted at the end of the tensioning component. A toothed block is mounted on the side of the pulling frame, on the surface opposite to the support column. A toothed plate that engages with the toothed block is mounted on the side of the support column.

[0007] As a preferred technical solution of this utility model, both the tooth block and the tooth plate are trapezoidal fixed blocks, and the positions of the tooth block and the tooth plate are opposite to each other.

[0008] As a preferred embodiment of the present invention, the tensioning assembly includes a housing, a movable block, and a spring assembly. The housing is mounted on the side of the bearing plate, and the movable block is slidably mounted inside the housing. The movable block is connected to the tensioning frame, and the spring assembly is mounted on the side of the movable block. The end of the spring assembly is connected to the inner wall of the housing.

[0009] As a preferred embodiment of the present invention, the adjustment mechanism further includes a limiting block, which is installed on the side of the bearing plate and on the side opposite to the tensioning component, and the limiting block slides along the outside of the support column.

[0010] As a preferred technical solution of this utility model, the bearing plate includes a base plate, a mounting plate, a baffle, and a connecting end. The base plate is arranged between the pillars, the baffle is installed at equal intervals on the surface of the base plate, the mounting plate is symmetrically installed on the surface of the base plate, the mounting plate is connected to the end of the baffle, and the connecting end is installed on the side of the mounting plate.

[0011] As a preferred embodiment of the present invention, the supporting plate further includes an anti-slip layer, and the anti-slip layer is installed on the surface of the bottom plate and between the baffles.

[0012] As a preferred technical solution of this utility model, it also includes a shielding mechanism, which includes a top plate, a connecting sleeve and a fixing screw. The top plate is provided at the top of the support column, and the connecting sleeve is symmetrically installed at the bottom of the top plate. The connecting sleeve is slidably connected to the support column, and the connecting sleeve is installed at the end of the support column by the fixing screw.

[0013] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0014] In this invention, by setting an adjustment mechanism, the position and height of multiple sets of support plates can be flexibly adjusted and changed, which facilitates the installation of smart locks on the top support plate by the operator and improves the working quality of the device itself. The setting of the shielding mechanism and support plates makes it easy to add additional support plates to the test frame later, expand the load capacity of the test frame itself, and make it easier for the test frame to test more smart locks, thereby improving the use effect of the test frame itself. Attached Figure Description

[0015] Figure 1 This is a perspective view of the overall structure of this utility model.

[0016] Figure 2 This is a perspective view of the aging test frame and shielding mechanism of this utility model after disassembly.

[0017] Figure 3 This is a perspective view of the adjustment mechanism structure of this utility model.

[0018] Figure 4 This is a schematic diagram of the structure of the tensioning component and the side of the bearing plate in this utility model.

[0019] Figure 5 This is a perspective view of the shielding mechanism structure of this utility model. Detailed Implementation

[0020] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings.

[0021] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Those skilled in the art can make similar extensions without departing from the spirit of the present invention. Therefore, the present invention is not limited to the specific embodiments disclosed below.

[0022] Secondly, the term "an embodiment" or "embodiment" as used herein refers to a specific feature, structure, or characteristic that may be included in at least one implementation of the present invention. The phrase "in one embodiment" appearing in different places in this specification does not necessarily refer to the same embodiment, nor is it a single or selective embodiment that excludes other embodiments. The present invention provides the following embodiments.

[0023] Depend on Figure 1 and Figure 2 As shown, it is a structural schematic diagram of the aging test rack of the smart lock in this embodiment. The aging test rack includes a base 1, support columns 2, a support plate 3 and a control box 4. The support columns 2 are symmetrically installed on the upper surface of the base 1. There are four support columns 2 in total. The support plates 3 are installed at equal intervals between the support columns 2. The control box 4 is installed on the side of the base 1. The adjustment mechanism 5 is installed on the side of the support plate 3.

[0024] During use, the position and height of multiple sets of support plates 3 can be adjusted by using the adjustment mechanism 5. The top support plate 3 is moved to the target height, and the operator can quickly place the smart lock on the support plate 3. The operation of the components of the support plate 3 provides power for the operation of the smart lock. Then, the position of the support plate 3 is moved upward to facilitate the stable operation of the test frame as a whole.

[0025] From the appendix Figure 3As shown, this is a schematic diagram of the adjustment mechanism 5 in this embodiment. The adjustment mechanism 5 includes a tensioning component 51, a pulling frame 52, a toothed block 53, a toothed plate 54, and a limiting block 55. The tensioning component 51 is installed on the side of the bearing plate 3, and the pulling frame 52 is installed at the end of the tensioning component 51. The toothed block 53 is installed on the side of the pulling frame 52 and on the surface opposite to the support column 2. The toothed plate 54 that cooperates with the toothed block 53 is installed on the side of the support plate 2. The limiting block 55 is installed on the side of the bearing plate 3 and on the side opposite to the tensioning component 51. The limiting block 55 slides along the outside of the support column 2. The toothed block 53 and the toothed plate 54 are both trapezoidal fixing blocks, and the positions of the toothed block 53 and the toothed plate 54 are opposite to each other.

[0026] In use, by pulling the pull frame 52, under the action of the tensioning component 51, the toothed block 53 on the side of the pull frame 52 is not engaged with the toothed plate 54. At this time, by pushing and pressing, the bearing plate 3 is moved to the target height. After the smart locks on the bearing plate 3 are placed, by pushing the bottom of the bearing plate 3, the bearing plate 3 is moved to the target height, realizing the flexible adjustment of the bearing plate 3's own position.

[0027] From the appendix Figure 4 As shown, the tensioning assembly 51 includes a housing 511, a moving block 512, and a spring assembly 513. The housing 511 is mounted on the side of the bearing plate 3. The moving block 512 is slidably mounted inside the housing 511. The moving block 512 is connected to the pulling frame 52. The spring assembly 513 is mounted on the side of the moving block 512. The end of the spring assembly 513 is connected to the inner wall of the housing 511.

[0028] In use, by pulling the pull frame 52, the pull frame 52 causes the moving block 512 to slide inside the outer shell 511. At this time, the spring assembly 513 enters the storage state. When the bearing plate 3 moves to the target position, by releasing the pull frame 52, the moving block 512 quickly resets under the elastic force of the spring assembly 513, so that the toothed block 53 and the toothed plate 54 re-engage.

[0029] From the appendix Figure 4 As shown, the bearing plate 3 includes a base plate 31, a mounting plate 32, a baffle 33, a connecting end 34, and an anti-slip layer 35. The base plate 31 is provided between the support columns 2. The baffles 33 are installed at equal intervals on the surface of the base plate 31. The mounting plates 32 are symmetrically installed on the surface of the base plate 31. The mounting plates 32 are connected to the ends of the baffles 33. The connecting end 34 is installed on the side of the mounting plate 32. The anti-slip layer 35 is installed on the surface of the base plate 31 and between the baffles 33.

[0030] During use, the baffle 33 is used to distinguish and divide the upper surface of the base plate 31, making it easier for each group of smart locks to be arranged on the base plate 31. Then, the smart locks are connected through the connection end 34, which makes it easier for the control box 4 to control and detect the smart locks. The anti-slip layer 35 enhances the stability of the smart locks on the base plate 31.

[0031] From the appendix Figure 5 As shown, it is a structural schematic diagram of the shielding mechanism 6 in this embodiment. It also includes the shielding mechanism 6, which includes a top plate 61, a docking sleeve 62 and a fixing screw 63. The top plate 61 is provided at the top of the support column 2, and the docking sleeve 62 is symmetrically installed at the bottom of the top plate 61. The docking sleeve 62 is slidably connected to the support column 2, and the docking sleeve 62 is installed at the end of the support column 2 by the fixing screw 63.

[0032] In use, the top plate 61 is placed on the top of the support column 2, and the connecting sleeve 62 is fitted onto the end of the support column 2. The position of the top plate 61 is locked by the use of the fixing screw 63 to achieve the purpose of sealing. If it is necessary to increase the number of bearing plates 3 in the future, the additional bearing plates 3 can be installed on the outside of the support column 2 by disassembling the top plate 61.

[0033] The above description, in conjunction with specific embodiments, provides a further detailed explanation of the present utility model. It should not be construed that the specific implementation of the present utility model is limited to these descriptions. For those skilled in the art, several simple deductions or substitutions can be made without departing from the concept of the present utility model, and all such deductions or substitutions should be considered to fall within the scope of protection defined by the claims submitted by the present utility model.

Claims

1. An aging test rack for a smart lock, comprising a base (1), support columns (2), a support plate (3), and a control box (4), wherein the support columns (2) are symmetrically installed on the upper surface of the base (1), and four support columns (2) are provided in total; the support plates (3) are installed at equal intervals between the support columns (2); and the control box (4) is installed on the side of the base (1), characterized in that: An adjustment mechanism (5) is installed on the side of the bearing plate (3). The adjustment mechanism (5) includes a tensioning component (51), a pulling frame (52), a toothed block (53), and a toothed plate (54). The tensioning component (51) is installed on the side of the bearing plate (3). The pulling frame (52) is installed at the end of the tensioning component (51). The toothed block (53) is installed on the side of the pulling frame (52) and on the surface opposite to the support column (2). The toothed plate (54) that cooperates with the toothed block (53) is installed on the side of the support column (2).

2. The aging test rack for the smart lock according to claim 1, characterized in that: Both the tooth block (53) and the tooth plate (54) are trapezoidal fixed blocks, and the positions of the tooth block (53) and the tooth plate (54) are opposite.

3. The aging test rack for the smart lock according to claim 2, characterized in that: The tensioning assembly (51) includes a housing (511), a moving block (512), and a spring assembly (513). The housing (511) is mounted on the side of the bearing plate (3). The moving block (512) is slidably mounted inside the housing (511). The moving block (512) is connected to the pulling frame (52). The spring assembly (513) is mounted on the side of the moving block (512). The end of the spring assembly (513) is connected to the inner wall of the housing (511).

4. The aging test rack for the smart lock according to claim 1, characterized in that: The adjustment mechanism (5) further includes a limiting block (55), which is installed on the side of the bearing plate (3) and on the side opposite to the tensioning assembly (51). The limiting block (55) slides along the outside of the support column (2).

5. The aging test rack for the smart lock according to claim 1, characterized in that: The bearing plate (3) includes a base plate (31), a mounting plate (32), a baffle (33) and a connecting end (34). The base plate (31) is provided between the support columns (2). The baffles (33) are installed at equal intervals on the surface of the base plate (31). The mounting plates (32) are symmetrically installed on the surface of the base plate (31). The mounting plates (32) are connected to the ends of the baffles (33). The connecting end (34) is installed on the side of the mounting plate (32).

6. The aging test rack for the smart lock according to claim 5, characterized in that: The support plate (3) also includes an anti-slip layer (35), which is installed on the surface of the base plate (31) and between the baffles (33).

7. The aging test rack for the smart lock according to claim 1, characterized in that: It also includes a shielding mechanism (6), which includes a top plate (61), a docking sleeve (62) and a fixing screw (63). The top of the support column (2) is provided with a top plate (61), and the bottom of the top plate (61) is symmetrically equipped with docking sleeves (62). The docking sleeves (62) are slidably connected to the support column (2), and the docking sleeves (62) are installed at the end of the support column (2) by fixing screws (63).