A motor machining field motor installation base
By introducing heat dissipation and adjustment components into the motor mounting base, the problems of insufficient motor heat dissipation and inflexible adjustment are solved, achieving efficient heat dissipation and flexible adjustment, extending motor life, ensuring stable motor operation at a suitable temperature, and improving the production efficiency of motor processing plants.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XIANGYANG XIANGDA ELECTROMECHANICAL CO LTD
- Filing Date
- 2025-06-09
- Publication Date
- 2026-06-19
AI Technical Summary
Existing motor mounting bases lack effective heat dissipation structures, making it difficult to flexibly adjust related components to adapt to different working conditions, and making it impossible to conveniently adjust the ventilation direction, thus failing to meet the diverse usage requirements of motor processing plants.
A motor mounting base for an electric motor processing plant has been designed, comprising a heat dissipation component, an adjustment component, and a sliding component. Through the cooperation of components such as a cooling fan, heat dissipation fins, a guide plate, a rotating shaft, gears, a drive plate, and a screw, the ventilation direction and position can be flexibly adjusted to enhance the heat dissipation effect.
It improves the heat dissipation efficiency of the motor, extends the service life of the motor, ensures stable operation of the motor in a suitable temperature environment, improves the applicability and practicality of the motor mounting base, and guarantees the production efficiency of the processing plant.
Smart Images

Figure CN224385239U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of motor installation equipment, specifically a motor mounting base for a motor processing plant. Background Technology
[0002] In motor processing plants, the installation and operating environment of motors have a crucial impact on their performance and lifespan. Motors generate heat during operation, and if heat cannot be dissipated in a timely and effective manner, the accumulation of heat may lead to a decline in the performance of internal components, accelerated aging, or even malfunctions, affecting the normal operation of the motor and the overall production efficiency of the processing plant.
[0003] A search revealed a Chinese patent with publication number CN212085976U, which discloses a motor mounting base for an electric motor processing plant. The key technical feature is that by fixing the bottom surface of the base, the motor can rotate freely on the upper surface of the base, allowing the motor to deflect at any angle according to the installation environment, making it convenient for workers to install and use the motor.
[0004] However, existing motor mounting bases often have limited functionality, lacking either effective heat dissipation structures or flexible adjustments to components to adapt to different working conditions, and failing to easily adjust ventilation direction, thus failing to meet the diverse usage requirements of motor processing plants. Therefore, designing a motor mounting base with good heat dissipation and flexible component adjustment capabilities is particularly necessary, requiring a new solution to address this issue. Utility Model Content
[0005] In view of the shortcomings and defects of the prior art mentioned above, such as the lack of an effective heat dissipation structure, the difficulty in flexibly adjusting related components to adapt to different working conditions, and the inability to conveniently adjust the ventilation direction.
[0006] This utility model discloses a motor mounting base for a motor processing plant, including a base, a fixed frame on top of the base, a sliding assembly between the base and the fixed frame, a heat-conducting plate on the upper end of the fixed frame, an mounting plate below the heat-conducting plate, a heat dissipation assembly on the mounting plate, an air inlet and an air outlet on both sides of the fixed frame, a guide plate on one side of the air inlet and the air outlet, and an adjustment assembly between the guide plate and the fixed frame.
[0007] Furthermore, the adjustment component includes a rotating shaft, which is rotatably mounted on the fixed frame. One end of the rotating shaft is fixedly connected to the guide plate. A gear is mounted on the rotating shaft, and a drive plate is provided on one side of the gear. The drive plate is slidably mounted on the fixed frame, and a rack is mounted on the drive plate. The rack meshes with the gear for transmission.
[0008] Furthermore, the adjustment assembly also includes a screw, one end of which is rotatably connected to the drive plate, and the other end of which is threadedly connected to the fixing frame.
[0009] Furthermore, the heat dissipation component includes a cooling fan, which is mounted on the mounting plate. Cooling fins are disposed above the cooling fan and are mounted on the airflow guide plate.
[0010] Furthermore, the sliding assembly includes a lead screw, the two ends of which are rotatably mounted on the base, and the lead screw is threadedly connected to the fixing frame.
[0011] Furthermore, a limiting plate is provided on the side of the drive plate away from the gear, the limiting plate is mounted on the fixed frame, and the limiting plate is slidably disposed with the drive plate.
[0012] Furthermore, a sliding groove is provided on the inner side of the fixing frame, the mounting plate is slidably disposed in the sliding groove, and one end of the mounting plate is fixedly connected to the fixing frame by a snap fastener.
[0013] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0014] 1. This utility model incorporates a heat dissipation assembly. A cooling fan is mounted on the mounting plate, and heat dissipation fins are provided on the guide plate above it, which effectively enhances the heat dissipation effect. At the same time, air inlets and outlets are provided on both sides of the fixing frame, and guide plates are provided on one side of the air inlets and outlets. The guide plates can be adjusted by the adjustment assembly to further optimize the ventilation direction, making heat dissipation more efficient and reasonable. This ensures that the motor operates stably in a suitable temperature environment, reduces various problems caused by overheating, extends the service life of the motor, and ensures that the production efficiency of the entire processing plant is not affected.
[0015] 2. This utility model, through the cooperation of components such as a rotating shaft, gears, drive plate, rack, and screw, can conveniently adjust the angle of the guide plate, thereby changing the ventilation direction. In addition, the lead screw in the sliding assembly is threadedly connected to the fixed frame, which can realize the sliding adjustment of the fixed frame relative to the base. Furthermore, the mounting plate is slidably set with the inner sliding groove of the fixed frame and is fixedly connected by a buckle, which facilitates the adjustment of the mounting plate position. The flexible adjustment function allows the entire motor mounting base to be adjusted according to the installation requirements of different motors and the actual working conditions of different processing plants, better meeting the diverse usage requirements of motor processing plants and improving its applicability and practicality. Attached Figure Description
[0016] The accompanying drawings, which are included to provide a further understanding of this application and form part of this application, illustrate exemplary embodiments and are used to explain this application, but do not constitute an undue limitation of this application. In the drawings:
[0017] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0018] Figure 2 This utility model Figure 1 Enlarged view of point A in the middle;
[0019] Figure 3 This is an exploded view of the present invention;
[0020] Figure 4 This is a schematic diagram of the bottom structure of this utility model.
[0021] In the diagram: 1. Base; 2. Fixing bracket; 3. Heat conduction plate; 4. Mounting plate; 5. Cooling fan; 6. Air inlet; 7. Air outlet; 8. Heat dissipation fins; 9. Guide plate; 10. Shaft; 11. Gear; 12. Rack; 13. Drive plate; 14. Screw; 15. Limiting plate; 16. Lead screw; 17. Buckle; 18. Slide groove. Detailed Implementation
[0022] The following illustrations will reveal several embodiments of the present invention. For clarity, many physical details will be described in the following description. However, it should be understood that these physical details should not be used to limit the present invention. That is, in some embodiments of the present invention, these physical details are not essential. Furthermore, for the sake of simplicity, some conventional structures and components will be shown in a simple schematic manner in the illustrations.
[0023] Please see Figure 1 , Figure 3 , Figure 4 The present invention relates to a motor mounting base for a motor processing plant, comprising a base 1, a fixed frame 2 on top of the base 1, and a sliding assembly between the base 1 and the fixed frame 2. The sliding assembly includes a lead screw 16, the two ends of which are rotatably mounted on the base 1 via bearings. The lead screw 16 is threadedly connected to the fixed frame 2. By adjusting the rotation of the lead screw 16, the lead screw 16 drives the fixed frame 2 to move on the base 1, thereby changing the relative position between the base 1 and the fixed frame 2. A heat-conducting plate 3 is provided at the upper end of the fixed frame 2, and the heat-conducting plate 3 is made of alloy material.
[0024] See Figure 3As shown, an installation plate 4 is provided below the heat conduction plate 3, and a sliding groove 18 is provided on the inner side of the fixing frame 2. The installation plate 4 is slidably disposed with the sliding groove 18. One end of the installation plate 4 is fixedly connected to the fixing frame 2 by a buckle 17. A heat dissipation component is provided on the installation plate 4, which includes a heat dissipation fan 5. The heat dissipation fan 5 is installed on the installation plate 4. When the heat dissipation fan 5 needs to be repaired or replaced, the buckle 17 is opened, and then the installation plate 4 is pulled out. The heat dissipation fan 5 will be taken out with the installation plate 4 as it is moved out, so as to facilitate the maintenance and replacement of the heat dissipation fan 5 by the staff.
[0025] See Figure 1 , Figure 3 As shown, a heat dissipation fin 8 is provided above the cooling fan 5. The heat dissipation fin 8 is wavy and is mounted on the guide plate 9. An air inlet 6 and an air outlet 7 are provided on both sides of the fixing bracket 2. A guide plate 9 is provided on one side of the air inlet 6 and the air outlet 7.
[0026] Combination Figure 1 , Figure 2 As shown, an adjustment assembly is provided between the guide plate 9 and the fixed frame 2. The adjustment assembly includes a rotating shaft 10, which is rotatably mounted on the fixed frame 2. One end of the rotating shaft 10 is fixedly connected to the guide plate 9. A gear 11 is mounted on the rotating shaft 10. A drive plate 13 is provided on one side of the gear 11. The drive plate 13 is slidably mounted on the fixed frame 2. A rack 12 is mounted on the drive plate 13.
[0027] In this embodiment, the rack 12 meshes with the gear 11 for transmission. A limit plate 15 is provided on the side of the drive plate 13 away from the gear 11. The limit plate 15 is mounted on the fixed frame 2 and is slidably disposed with the drive plate 13. The adjustment assembly also includes a screw 14. One end of the screw 14 is rotatably connected to the drive plate 13, and the other end of the screw 14 is threadedly connected to the fixed frame 2 to achieve self-locking of the screw 14 and prevent the drive plate 13 from sliding automatically.
[0028] The implementation principle is as follows: When in use, the motor is installed on the fixed frame 2 and the bottom is in contact with the heat conduction plate 3. Since the lead screw 16 is threadedly connected to the fixed frame 2, the position of the fixed frame 2 on the base 1 can be adjusted by rotating the lead screw 16 according to the actual installation requirements, so that it is in a suitable position, which facilitates the subsequent better operation of the motor.
[0029] When the motor starts running and generates heat, the cooling fan 5 on the mounting plate 4 starts to operate. The cooling fan 5 will accelerate the airflow. When the air flows over the heat dissipation fins 8, the heat dissipation fins 8 will further increase the contact area with the air, helping the heat to be better dissipated into the air and enhancing the heat dissipation effect.
[0030] Under different operating conditions, the ventilation direction may need to be adjusted to achieve the best heat dissipation effect. At this time, by rotating the screw 14, since one end of the screw 14 is rotatably connected to the drive plate 13 and the other end is threadedly connected to the fixed frame 2, rotating the screw 14 will cause the drive plate 13 to slide on the fixed frame 2. The drive plate 13 is equipped with a rack 12, which meshes with the gear 11 mounted on the rotating shaft 10. The rotating shaft 10 is fixedly connected to the guide plate 9. As the drive plate 13 slides, the rack 12 drives the gear 11 to rotate, which in turn drives the rotating shaft 10 to rotate, ultimately changing the angle of the guide plate 9. After the angle of the guide plate 9 is changed, the airflow direction of the air entering through the air inlets 6 on both sides of the fixed frame 2 and the airflow direction of the air outlets 7 can be adjusted, guiding the air to flow more rationally through the heat dissipation fins 8 and other parts, optimizing the air circulation path for heat dissipation, improving the overall heat dissipation efficiency, and ensuring that the motor can operate continuously and stably in a good heat dissipation environment.
[0031] The above description is merely an embodiment of this utility model and is not intended to limit the scope of this utility model. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principle of this utility model should be included within the scope of the claims of this utility model.
Claims
1. A motor mounting base for an electric motor processing plant, comprising a base (1), characterized in that: A fixed frame (2) is provided above the base (1), and a sliding component is provided between the base (1) and the fixed frame (2). A heat-conducting plate (3) is provided at the upper end of the fixed frame (2), and an mounting plate (4) is provided below the heat-conducting plate (3). A heat dissipation component is provided on the mounting plate (4). An air inlet (6) and an air outlet (7) are provided on both sides of the fixed frame (2). A guide plate (9) is provided on one side of the air inlet (6) and the air outlet (7). An adjustment component is provided between the guide plate (9) and the fixed frame (2).
2. The motor mounting base for a motor processing plant according to claim 1, characterized in that: The adjustment assembly includes a rotating shaft (10), which is rotatably mounted on the fixed frame (2). One end of the rotating shaft (10) is fixedly connected to the guide plate (9). A gear (11) is mounted on the rotating shaft (10). A drive plate (13) is provided on one side of the gear (11). The drive plate (13) is slidably mounted on the fixed frame (2). A rack (12) is mounted on the drive plate (13). The rack (12) meshes with the gear (11) for transmission.
3. The motor mounting base for a motor processing plant according to claim 2, characterized in that: The adjustment assembly also includes a screw (14), one end of which is rotatably connected to the drive plate (13), and the other end of which is threadedly connected to the fixing frame (2).
4. The motor mounting base for a motor processing plant according to claim 1, characterized in that: The heat dissipation assembly includes a heat dissipation fan (5), which is mounted on the mounting plate (4). A heat dissipation fin (8) is provided above the heat dissipation fan (5), and the heat dissipation fin (8) is mounted on the air guide plate (9).
5. A motor mounting base for a motor processing plant according to claim 1, characterized in that: The sliding assembly includes a lead screw (16), the two ends of which are rotatably mounted on the base (1), and the lead screw (16) is threadedly connected to the fixing frame (2).
6. A motor mounting base for a motor processing plant according to claim 2, characterized in that: A limiting plate (15) is provided on the side of the drive plate (13) away from the gear (11). The limiting plate (15) is mounted on the fixing frame (2) and is slidably disposed with the drive plate (13).
7. A motor mounting base for a motor processing plant according to claim 1, characterized in that: The inner side of the fixing frame (2) is provided with a sliding groove (18), the mounting plate (4) is slidably disposed with the sliding groove (18), and one end of the mounting plate (4) is fixedly connected to the fixing frame (2) by a buckle (17).