A motor housing detection platform

By designing alternating clamping components and moving/lifting components, the problem of time-consuming installation and disassembly during motor housing inspection was solved, achieving efficient motor housing inspection.

CN224471044UActive Publication Date: 2026-07-07JINGXIAN MARKET SUPERVISION & INSPECTION INST (ANHUI PROVINCE ELECTRICAL PROD & PARTS QUALITY SUPERVISION & INSPECTION CENT)

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JINGXIAN MARKET SUPERVISION & INSPECTION INST (ANHUI PROVINCE ELECTRICAL PROD & PARTS QUALITY SUPERVISION & INSPECTION CENT)
Filing Date
2025-08-29
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing technologies require a long time to install and remove motor housings when inspecting large quantities of motor housings, which affects inspection efficiency.

Method used

Two sets of clamping components work alternately. While the first clamping component performs inspection, the second clamping component loads and unloads the workpiece. The moving and lifting components enable rapid switching, reducing loading and unloading time.

Benefits of technology

By having two sets of clamping components work alternately, the loading and unloading time of the motor housing is greatly reduced, and the testing efficiency is improved.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to quenching heating device technical field especially relates to a motor shell detection bench, this motor shell detection bench includes work table, install first clamping subassembly and second clamping subassembly on the work table, set up mounting panel on the work table top, the mounting panel top is connected with moving assembly, moving assembly is connected with elevating system spare. Through control first motor work, can drive first screw rod rotation, drive the position of moving block and mounting panel top detection tool, through placing motor shell on first clamping subassembly, two -way screw rod drive clamping plate clamping shell, detect to motor shell, during first clamping subassembly detection, second clamping subassembly can simultaneously load and unload new work piece, after first group detection is completed, moving assembly and elevating system spare switch to second group and detect quickly, unload and feed simultaneously first group, through two groups of clamping subassembly alternate work, greatly reduce the loading and unloading time, improve detection efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of motor housing testing technology, and in particular to a motor housing testing platform. Background Technology

[0002] The motor housing is a protective shell for mounting the motor rotor. It is generally circular and hollow inside. During the production of the motor housing, the concentricity of the inside of the motor housing needs to be tested. If the concentricity of the motor housing is poor, the rotor installed inside the motor housing may cause the motor to run unstably.

[0003] A fixture for inspecting motor housings, with publication number CN222048993U, includes a base plate. A second support plate is fixedly connected to one end of the upper surface of the base plate. An extended rotating shaft is actively connected inside the second support plate, and a motor is fixedly connected to one end of the extended rotating shaft. This fixture can perform comprehensive inspection of the inner wall of the motor housing, reducing inspection errors and improving the accuracy of concentricity. However, when inspecting motor housings, these fixtures require the housing to be installed and fixed. After inspection, the inspected housing needs to be disassembled before a new housing to be inspected needs to be fixed and inspected. In large-scale inspections, installation and disassembly take up considerable time, affecting inspection efficiency. Utility Model Content

[0004] The purpose of this invention is to solve the problem in the prior art that the installation and disassembly of motor housings take a lot of time and affect the testing efficiency when conducting large-scale testing. The invention provides a motor housing testing station that can significantly reduce loading and unloading time and improve testing efficiency by having two sets of clamping components work alternately.

[0005] To achieve the above objectives, this utility model provides a motor housing testing platform, including a workbench, on which a first clamping assembly and a second clamping assembly are mounted. A mounting plate is provided above the workbench, and a moving assembly is connected to the top of the mounting plate. The moving assembly is connected to a lifting assembly. The moving assembly includes a moving frame, inside which a first lead screw is provided. One end of the first lead screw is connected to a first motor, and a moving block is provided on the first lead screw. The lower end of the moving block is connected to the mounting plate.

[0006] As a further description of the above technical solution: the workbench has two mounting cavities, a control box is mounted on the workbench, and a control panel is mounted on the control box.

[0007] As a further description of the above technical solution: the first clamping assembly includes a bidirectional lead screw, which is installed inside the mounting cavity. One end of the bidirectional lead screw is connected to a second motor. A first drive plate and a second drive plate are provided on the bidirectional lead screw, and clamping plates are connected to both the first drive plate and the second drive plate.

[0008] As a further description of the above technical solution: the second clamping component has the same structure as the first clamping component, and both the second clamping component and the first clamping component are located below the moving component.

[0009] As a further description of the above technical solution: the lifting assembly includes a lifting frame, a second lead screw is connected inside the lifting frame, one end of the second lead screw is connected to a third motor, a lifting plate is connected to the second lead screw, and one side of the lifting plate is connected to a moving assembly.

[0010] As a further description of the above technical solution: both sides of the lifting frame are provided with limit sliding rods, and the lifting plate is provided with limit sliding holes that are adapted to the limit sliding rods.

[0011] As a further description of the above technical solution: both the bottom of the first drive plate and the second drive plate are connected to a fixed frame, and the fixed frame is connected to a roller.

[0012] As a further description of the above technical solution: a limiting groove is provided inside the movable frame.

[0013] The above technical solution has the following advantages or beneficial effects:

[0014] This invention controls the operation of a first motor, which drives the first lead screw to rotate, thereby adjusting the position of the moving block and the inspection tool on the mounting plate. By placing the motor housing on the first clamping assembly, the bidirectional lead screw drives the clamping plate to clamp the housing, thus inspecting the motor housing. During the inspection by the first clamping assembly, the second clamping assembly can simultaneously load and unload new workpieces. After the first set of inspections is completed, the moving assembly and the lifting assembly quickly switch to the second set for inspection, while the first set performs unloading and loading. By having the two sets of clamping assemblies work alternately, the loading and unloading time is significantly reduced, and the inspection efficiency is improved. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the structure of a motor housing testing station in one embodiment of the present invention;

[0016] Figure 2 This is a cross-sectional view of a motor housing testing station in one embodiment of the present invention;

[0017] Figure 3 for Figure 2 Schematic diagram of the structure of the lifting plate;

[0018] Figure 4 for Figure 1 A schematic diagram of the middle roller.

[0019] Legend:

[0020] 1. Workbench; 2. First clamping assembly; 3. Second clamping assembly; 4. Mounting plate; 5. Moving assembly; 6. Lifting assembly; 7. Mounting cavity; 8. Control box; 9. Control panel; 10. Fixed frame; 11. Roller; 201. Bidirectional lead screw; 202. Second motor; 203. First drive plate; 204. Second drive plate; 205. Clamping plate; 51. Moving frame; 52. First lead screw; 53. Moving block; 54. Limiting slide groove; 55. First motor; 61. Lifting frame; 62. Second lead screw; 63. Third motor; 64. Lifting plate; 65. Limiting slide bar; 66. Limiting slide hole. Detailed Implementation

[0021] 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.

[0022] In the description of this utility model, it should be noted that the terms "vertical", "up", "down", "horizontal", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0023] In the description of this utility model, it should also be noted that, unless otherwise explicitly specified and limited, the terms "set," "connected," and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.

[0024] like Figure 1-4As shown, the present invention provides a motor housing testing platform, including a workbench 1, on which a first clamping assembly 2 and a second clamping assembly 3 are mounted. A mounting plate 4 is provided above the workbench 1, and the upper part of the mounting plate 4 is connected to a moving assembly 5. The moving assembly 5 is connected to a lifting assembly 6. The moving assembly 5 includes a moving frame 51, inside which a first lead screw 52 is provided. One end of the first lead screw 52 is connected to a first motor 55, and a moving block 53 is provided on the first lead screw 52. The lower end of the moving block 53 is connected to the mounting plate 4.

[0025] In the technical solution of this utility model, a motor housing concentricity detection tool can be installed on the mounting plate 4. The motor housing can be clamped by the first clamping assembly 2 and the second clamping assembly 3. By controlling the first motor 55 to work, the first lead screw 52 can be rotated, which in turn moves the moving block 53 and the position of the detection tool on the mounting plate 4. The height of the detection tool can be adjusted by the lifting assembly 6. By placing the motor housing on the first clamping assembly 2, the bidirectional lead screw 201 drives the clamping plate 205 to clamp the housing, and the motor housing is detected. During the detection by the first clamping assembly 2, the second clamping assembly 3 can simultaneously load and unload new workpieces. After the first set of detections is completed, the moving assembly 5 and the lifting assembly 6 quickly switch to the second set of detections, while the first set unloads and loads materials. By having the two sets of clamping assemblies work alternately, the loading and unloading time is greatly reduced, and the detection efficiency is improved.

[0026] Specifically, the second clamping component 3 has the same structure as the first clamping component 2, and both the second clamping component 3 and the first clamping component 2 are located below the moving component 5.

[0027] The movable frame 51 has a limiting groove 54 inside; the limiting groove 54 can limit the movement of the movable block 53, thereby enhancing the stability of the movement of the movable block 53.

[0028] like Figure 1 and Figure 2 As shown, the workbench 1 has two mounting cavities 7 inside. A control box 8 is installed on the workbench 1, and a control panel 9 is installed on the control box 8. The first clamping assembly 2 and the second clamping assembly 3 can be installed through the mounting cavities 7. The electrical control system is integrated through the control box 8, and the motor and detection process are operated through the control panel 9.

[0029] like Figure 1 and Figure 2As shown, the first clamping assembly 2 includes a bidirectional lead screw 201, which is installed inside the mounting cavity 7. One end of the bidirectional lead screw 201 is connected to the second motor 202. A first drive plate 203 and a second drive plate 204 are provided on the bidirectional lead screw 201. Clamping plates 205 are connected to both the first drive plate 203 and the second drive plate 204. When the second motor 202 works, it can drive the bidirectional lead screw 201 to rotate, which can drive the first drive plate 203 and the second drive plate 204 to move towards each other or away from each other, and can drive the two clamping plates 205 to fix motor housings of different specifications.

[0030] like Figure 1 and Figure 2 As shown, the lifting assembly 6 includes a lifting frame 61, inside which a second lead screw 62 is connected. One end of the second lead screw 62 is connected to a third motor 63, and a lifting plate 64 is connected to the second lead screw 62. One side of the lifting plate 64 is connected to the moving assembly 5. When the third motor 63 operates, it can drive the second lead screw 62 to rotate. The rotation of the second lead screw 62 can drive the lifting plate 64 to rise and fall, thereby driving the moving assembly 5 and the mounting plate 4 to rise and fall, and the height of the detection component installed on the mounting plate 4 can be adjusted.

[0031] The lifting frame 61 is provided with limit slide rods 65 on both sides, and the lifting plate 64 is provided with limit slide holes 66 that are adapted to the limit slide rods 65; the limit slide rods 65 limit the lifting plate 64, thereby enhancing the stability of the lifting plate 64.

[0032] like Figure 1 As shown, the bottom of the first drive plate 203 and the second drive plate 204 are both connected to a fixed frame 10, and a roller 11 is connected inside the fixed frame 10. By having the roller 11 inside the fixed frame 10 roll on the worktable 1, the frictional resistance when the drive plate moves can be reduced, the smoothness of the operation can be improved, and the drive plate can be limited, thus enhancing the stability of the drive plate movement.

[0033] Working principle: The motor housing is placed on the first clamping assembly 2. The bidirectional lead screw 201 drives the clamping plate 205 to clamp the housing. The lifting assembly 6 adjusts the height of the inspection tool, and the moving assembly 5 adjusts the lateral position to inspect the motor housing. During the inspection by the first clamping assembly 2, the second clamping assembly 3 can simultaneously load and unload new workpieces. After the first set of inspections is completed, the moving assembly 5 and the lifting assembly 6 quickly switch to the second set for inspection. At the same time, the first set performs unloading and loading. By having the two sets of clamping assemblies work alternately, the loading and unloading time is greatly reduced, and the inspection efficiency is improved.

[0034] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0035] The preferred embodiments of this utility model disclosed above are merely illustrative of the present utility model. These preferred embodiments do not exhaustively describe all details, nor do they limit the utility model to the specific implementations described. Clearly, many modifications and variations can be made based on the content of this specification. This specification selects and specifically describes these embodiments to better explain the principles and practical applications of this utility model, thereby enabling those skilled in the art to better understand and utilize it. This utility model is limited only by the claims and their full scope and equivalents.

Claims

1. A motor housing testing platform, characterized in that, Includes a workbench (1), on which a first clamping assembly (2) and a second clamping assembly (3) are installed. A mounting plate (4) is provided above the workbench (1), and the mounting plate (4) is connected to a moving assembly (5). The moving assembly (5) is connected to a lifting assembly (6). The moving component (5) includes a moving frame (51), inside which a first lead screw (52) is provided. One end of the first lead screw (52) is connected to a first motor (55), and a moving block (53) is provided on the first lead screw (52). The lower end of the moving block (53) is connected to the mounting plate (4).

2. The motor housing testing station according to claim 1, characterized in that: The workbench (1) has two mounting cavities (7) inside, and a control box (8) is installed on the workbench (1). A control panel (9) is installed on the control box (8).

3. The motor housing testing station according to claim 2, characterized in that: The first clamping assembly (2) includes a bidirectional lead screw (201), which is installed inside the mounting cavity (7). One end of the bidirectional lead screw (201) is connected to the second motor (202). A first drive plate (203) and a second drive plate (204) are provided on the bidirectional lead screw (201). Clamping plates (205) are connected to both the first drive plate (203) and the second drive plate (204).

4. The motor housing testing station according to claim 1, characterized in that: The second clamping component (3) has the same structure as the first clamping component (2), and both the second clamping component (3) and the first clamping component (2) are located below the moving component (5).

5. The motor housing testing station according to claim 1, characterized in that: The lifting assembly (6) includes a lifting frame (61), a second lead screw (62) is connected inside the lifting frame (61), one end of the second lead screw (62) is connected to a third motor (63), a lifting plate (64) is connected on the second lead screw (62), and one side of the lifting plate (64) is connected to the moving assembly (5).

6. The motor housing testing station according to claim 5, characterized in that: The lifting frame (61) is provided with limit slide rods (65) on both sides, and the lifting plate (64) is provided with limit slide holes (66) that are adapted to the limit slide rods (65).

7. The motor housing testing station according to claim 3, characterized in that: The bottom of the first drive plate (203) and the second drive plate (204) are both connected to a fixed frame (10), and a roller (11) is connected inside the fixed frame (10).

8. The motor housing testing station according to claim 1, characterized in that: A limiting groove (54) is provided inside the movable frame (51).