A mixed filter compensator shell with heat dissipation function

By optimizing the structural design and adopting a brushless DC fan, the problems of poor heat dissipation and inconvenient fixing of the hybrid filter compensator were solved, achieving efficient heat dissipation and cleaning maintenance, and improving the stability and service life of the equipment.

CN224385832UActive Publication Date: 2026-06-19TIANJIN CITY JINKAI ELECTRIC CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TIANJIN CITY JINKAI ELECTRIC CO LTD
Filing Date
2025-05-23
Publication Date
2026-06-19

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  • Figure CN224385832U_ABST
    Figure CN224385832U_ABST
Patent Text Reader

Abstract

The utility model relates to a mixed filter compensator shell with heat dissipation function, its characterized in that includes box body mechanism, cleaning mechanism, pushing mechanism, heat dissipation mechanism, support support mechanism, temperature controller, refrigerant pipe, the inside side of box body mechanism is equipped with cleaning mechanism, pushing mechanism, the cleaning mechanism is connected through the nut with box body mechanism, the pushing mechanism is equipped under the cleaning mechanism, the inside other side of box body mechanism is equipped with heat dissipation mechanism, the inside bottom of box body mechanism is equipped with support support mechanism, the box volume is connected through screw with support support mechanism outside box body mechanism, and the temperature controller is equipped outside box body mechanism.
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Description

Technical Field

[0001] This utility model relates to the field of filter compensator technology, and in particular to a housing for a hybrid filter compensator with heat dissipation function. Background Technology

[0002] Existing application number CN202120999871.4 discloses a housing for a hybrid filter compensator with heat dissipation function, including a supporting heat dissipation box, a box support, a sliding groove for a closed plate, a transparent closed plate, a support base, a filter support base, a clamping plate telescopic spring, a filter clamping plate, and a filter heat dissipation device. The filter heat dissipation device includes a heat dissipation opening, a motor support shaft, a heat dissipation motor, a rotating heat dissipation transmission shaft, a rotating heat dissipation fan blade, a ventilation and water absorption mesh plate, and a dustproof ventilation mesh. This utility model belongs to the field of filter compensator technology, specifically referring to a housing for a hybrid filter compensator with heat dissipation function. It effectively solves the problems of insufficient heat dissipation effect and inconvenience in shock absorption and fixation of the filter in current hybrid filter compensator heat dissipation devices on the market. It achieves the purpose of good heat dissipation effect and convenient shock absorption and fixation of the filter in the hybrid filter compensator heat dissipation device, which is a very practical hybrid filter compensator heat dissipation device. However, the existing technology includes a heat dissipation motor, which also generates a lot of heat, easily leading to additional internal heat and not playing a good role in heat dissipation. Utility Model Content

[0003] To address the above technical problems, this utility model provides a housing for a hybrid filter compensator with heat dissipation function. The housing comprises a housing mechanism, a cleaning mechanism, a pushing mechanism, a heat dissipation mechanism, a support bracket mechanism, a temperature controller, and a refrigerant pipe. The cleaning mechanism and the pushing mechanism are located on the inner side of the housing mechanism. The cleaning mechanism is connected to the housing mechanism via nuts. The pushing mechanism is located below the cleaning mechanism. A heat dissipation mechanism is located on the other inner side of the housing mechanism. A support bracket mechanism is located at the bottom of the inner housing mechanism. The housing is then connected to the support bracket mechanism via screws. A temperature controller is located on the outer side of the housing mechanism.

[0004] The enclosure structure consists of side panel A, side panel, top plate, bottom plate, heat dissipation vent, dust filter, heat dissipation fan vent, support columns, and frame. The top plate is located above the side panel, and the side panel and the top plate are connected by nuts. The bottom plate is located below the side panel. Side panel A is located on the side of the side panel, and the side panel and side panel A are connected by buckles. Heat dissipation fan vents are opened on the side panel. The frame is composed of support columns, and multiple support columns are connected by nuts to form the frame. The top plate is equipped with heat dissipation vents, and dust filter is installed on the heat dissipation vents.

[0005] The cleaning mechanism consists of a track, a base, a connecting rod, a threaded rod, a connecting base, a cleaning brush, and a connecting column. The track is equipped with a base, and the base is equipped with a connecting base on its side. The base and the connecting base are connected by screws. The connecting base is equipped with a connecting column on its side, the connecting column is equipped with a connecting rod on its side, and the connecting rod is equipped with a threaded rod on its side. The connecting rod and the threaded rod are connected by a clamp, and the threaded rod is equipped with a cleaning brush on its side.

[0006] The pushing mechanism consists of a pushing base, an electric telescopic rod, a connecting block, and a push rod. The pushing base has a connecting block on its side, and the pushing base and the connecting block are connected by a nut. The connecting block has an electric telescopic rod on its side, and the connecting block and the electric telescopic rod are connected by a thread. The electric telescopic rod has a push rod on its other side, and the electric telescopic rod and the push rod are connected by a nut.

[0007] The heat dissipation mechanism is a brushless DC fan;

[0008] The brushless DC fan consists of fan blades, a support spring, a fan frame, a motor, a fan base, a sensor, a bracket base, a controller, a fan protective shell, a rotating shaft, and a power interface. The fan frame is equipped with a bracket base, and the fan frame and the bracket base are connected by nuts. The bracket base is equipped with a support spring, and the fan base is located outside the support spring. The controller and sensor are located on the side of the support spring. The fan base is equipped with a fan protective shell on the side, and the rotating shaft is located inside the fan protective shell. The fan blades are located on the side of the rotating shaft, and the rotating shaft is installed on the fan base with nuts. The motor is located on the side of the fan base, and the motor is connected to the rotating shaft through an output terminal. The power interface is located on the side of the fan base.

[0009] The support bracket mechanism consists of a chassis support, a connecting column, a suction cup, a support block, a connecting block, and a limit buckle. The chassis support is provided with a connecting column above it, a connecting block above it, and a support block above it. The support block and the connecting block are connected by screws. The support block is provided with a limit buckle above it and is connected with a nut. The chassis support is provided with a suction cup below it.

[0010] The beneficial effects of this utility model are as follows:

[0011] This utility model adds a housing mechanism, a cleaning mechanism, a pushing mechanism, a heat dissipation mechanism, and a support bracket mechanism to the original design. These added components can improve the overall stability and heat dissipation efficiency of the equipment. At the same time, a cleaning and maintenance process is provided. The cleaning brush can be used to clean the heat dissipation device after use to prevent dust from clogging it and preventing heat dissipation, thus improving the user experience. Through optimized structural design, the various components work together to further reduce energy consumption and noise, making the equipment more environmentally friendly while operating efficiently.

[0012] The newly added housing structure of this utility model consists of a side panel A, a side panel, an upper top plate, a lower bottom plate, a heat dissipation vent, a dust filter, a heat dissipation fan, a support column, and a frame. The added housing structure can protect the overall equipment, and the dust filter can effectively block dust from entering, ensuring the cleanliness of internal components. The reasonable layout of the heat dissipation vent and heat dissipation fan further optimizes the heat dissipation effect and improves the long-term stability and service life of the equipment.

[0013] The newly added cleaning mechanism of this utility model consists of a track, a base, a connecting rod, a threaded rod, a connecting base, a cleaning brush, and a connecting column. The added cleaning mechanism can clean the device regularly, and the cleaning brush cleans the hybrid filter compensator to prevent dust accumulation from affecting its performance and ensure smooth operation of the equipment.

[0014] The newly added pushing mechanism of this utility model consists of a pushing base, an electric telescopic rod, a connecting block, and a push rod. The added pushing mechanism can cooperate with the electric telescopic rod and the push rod to push the dust to the outlet and prevent the dust from accumulating inside the box.

[0015] The newly added heat dissipation mechanism of this utility model consists of a fan blade, a rotating shaft, a support spring, a fan frame, a motor, a fan base, a sensor, a bracket base, a controller, a fan protective shell, and a power interface. The added heat dissipation mechanism is equipped with a brushless DC fan. Compared with ordinary fans, brushless DC fans have higher efficiency and lower noise. The sensor and controller work together to adjust the wind speed in real time to ensure the best heat dissipation effect and extend the service life of the equipment.

[0016] The newly added support bracket mechanism of this utility model consists of a chassis support, connecting column, suction cup, support block, connecting block, and limit buckle. The added support bracket mechanism can provide stable support for the hybrid filter compensator, prevent the equipment from shaking, and raise the platform so that it can dissipate heat from below. Moreover, it has a double fixing design with limit buckle and the suction cup can adjust its position, making it more convenient and quick. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the overall structure of the housing of a hybrid filter compensator with heat dissipation function according to this utility model;

[0018] Figure 2 This is a schematic diagram of the housing structure of a hybrid filter compensator with heat dissipation function according to the present invention.

[0019] Figure 3 This is a schematic diagram of a cleaning mechanism for a hybrid filter compensator housing with heat dissipation function according to the present invention.

[0020] Figure 4This is a schematic diagram of the pushing mechanism of the housing of a hybrid filter compensator with heat dissipation function according to the present invention;

[0021] Figure 5 This is a schematic diagram of the heat dissipation mechanism of a hybrid filter compensator housing with heat dissipation function according to the present invention.

[0022] Figure 6 This is a schematic diagram of a support bracket mechanism for a hybrid filter compensator housing with heat dissipation function according to the present invention.

[0023] Figure 7 This is a partial schematic diagram of the other side of the housing of a hybrid filter compensator with heat dissipation function according to the present invention.

[0024] 1-Side panel A, 2-Side panel, 3-Top plate, 4-Bottom plate, 5-Heat vent, 6-Dust filter, 7-Heat fan vent, 8-Support column, 9-Shelf, 10-Railway, 11-Base, 12-Connecting rod, 13-Threaded rod, 14-Connecting base, 15-Cleaning brush, 16-Connecting column, 17-Push base, 18-Electric telescopic rod, 19-Connecting block, 20-Push rod, 21-Fan blade, 22-Shaft, 23-Fan outer frame, 24-Motor, 25-Fan base box, 26-Bracket base, 27-Fan protective shell, 28-Power interface, 29-Chassis support, 30-Connecting column, 31-Supporting block, 32-Connecting block, 33-Limit buckle, 34-Suction cup, 35-Refrigerant pipe, 36-Temperature controller. Detailed Implementation Example 1

[0025] This utility model provides a housing for a hybrid filter compensator with heat dissipation function. It is characterized by including an upper top plate 3 above a side panel 2, a lower bottom plate 4 below the side panel 2, a side panel A-1 on the side of the side panel 2, heat dissipation fan vents 7 on the side panel 2, dust filters 6 on the heat dissipation vents 5, a frame 9 composed of support columns 8, a base 11 on a track 10, a connecting base 14 on the side of the base 11, a connecting column 16 on the side of the connecting base 14, a connecting rod 12 on the side of the connecting column 16, a threaded rod 13 on the side of the connecting rod 12, a cleaning brush 15 on the side of the threaded rod 13, a connecting block 19 on the side of the pushing base 17, and an electric telescopic rod 18 on the side of the connecting block 19. On the other side of the electric telescopic rod 18, there is a push rod 20. On the outer frame 23 of the fan, there is a bracket base 26. On the outside, there is a fan base box 25. On the side of the fan base box 25, there is a fan protective shell 27. Inside the fan protective shell 27, there is a rotating shaft 22. On the side of the rotating shaft 22, there is a fan blade 21. On the side of the fan base box 25, there is a motor 24. On the side of the fan base box 25, there is a power interface 28. On the chassis support 29, there is a connecting column 30. On the connecting column 30, there is a connecting block 32. On the connecting block 32, there is a support block 31. On the support block 31, there is a limit buckle 33. On the bottom of the chassis support 29, there is a suction cup 34. The temperature controller 36 is installed on the side panel 2. The refrigerant pipe 35 is installed inside the cabinet mechanism. Example 2

[0026] When using this utility model, the side panel A-1 is removed from the side panel 2 using a buckle. The internal support bracket mechanism is adjusted. The support bracket mechanism is fixed to the bottom plate 4 inside the box by a suction cup 34. It is adjusted to a suitable position, and the hybrid filter compensator is secured by the limit buckle 33 above the connecting column 30. Its heat dissipation vent faces the side panel A-1. After installing the hybrid filter compensator, the brushless DC fan on the side is used as a power source by the motor 24 to dissipate heat inside. If the temperature is too high after the heat dissipation process, the internal environment needs to be cooled down. The temperature is adjusted by the temperature controller 36 outside the box mechanism. The temperature controller 36 is connected to the refrigerant pipe 35 to quickly cool it down. The device is equipped with a heat dissipation vent 5 and a dust filter 6. When the entire device is sealed, it prevents external dust from entering the internal space and thus increasing heat. A push rod 20 and a cleaning brush 15 are provided on the side panel A-1. After a period of use, the cleaning brush on the track 10 can be used to clean the heat dissipation vents in the hybrid filter compensator. An external switch controls the sliding trajectory of the cleaning brush 15. When the hybrid filter compensator needs to be removed after a period of use, the dust swept out by the cleaning brush 15 can be cleaned. An opening is provided on the side. The push rod 20 and the electric telescopic rod 18 work together to push the dust to the outside, thereby ensuring the cleanliness of the internal environment and preventing it from increasing the burden on the heat dissipation efficiency.

[0027] This utility model improves heat dissipation efficiency and cleaning convenience through optimized structural design, effectively removing dust. At the same time, the design of the push rod 20 makes dust discharge smoother, avoiding secondary pollution and further improving heat dissipation efficiency.

[0028] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. The various components mentioned in this utility model are common technologies in the existing field. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A housing for a hybrid filter compensator with heat dissipation function, characterized in that... The device includes a housing, a cleaning mechanism, a pushing mechanism, a heat dissipation mechanism, a support bracket mechanism, a temperature controller, and a refrigerant pipe. The cleaning mechanism and the pushing mechanism are located on the inner side of the housing. The cleaning mechanism is connected to the housing via nuts. The pushing mechanism is located below the cleaning mechanism. The heat dissipation mechanism is located on the other inner side of the housing. The support bracket mechanism is located at the bottom of the housing. The housing is connected to the support bracket mechanism via screws. The temperature controller is located on the outside of the housing.

2. The hybrid filter compensator housing with heat dissipation function according to claim 1, characterized in that The enclosure structure consists of side panel A, side panel, top plate, bottom plate, heat dissipation vent, dust filter, heat dissipation fan vent, support columns, and frame. The top plate is located above the side panel, and the side panel and the top plate are connected by nuts. The bottom plate is located below the side panel. Side panel A is located on the side of the side panel, and the side panels are connected by snaps. Heat dissipation fan vents are provided on the side panel. The frame is composed of support columns, and multiple support columns are connected by nuts to form the frame. The top plate has heat dissipation vents, and dust filters are installed on the heat dissipation vents.

3. The hybrid filter compensator housing with heat dissipation function according to claim 1, characterized in that The cleaning mechanism consists of a track, a base, a connecting rod, a threaded rod, a connecting base, a cleaning brush, and a connecting column. The track is equipped with a base, and the base is equipped with a connecting base on its side. The base and the connecting base are connected by screws. The connecting base is equipped with a connecting column on its side, and the connecting column is equipped with a connecting rod on its side. The connecting rod is equipped with a threaded rod on its side, and the connecting rod and the threaded rod are connected by clamps. The threaded rod is equipped with a cleaning brush on its side.

4. The housing of a hybrid filter compensator with heat dissipation function according to claim 1, characterized in that... The pushing mechanism consists of a pushing base, an electric telescopic rod, a connecting block, and a push rod. The pushing base has a connecting block on its side, and the pushing base and the connecting block are connected by a nut. The connecting block has an electric telescopic rod on its side, and the connecting block and the electric telescopic rod are connected by a thread. The electric telescopic rod has a push rod on its other side, and the electric telescopic rod and the push rod are connected by a nut.

5. The hybrid filter compensator housing with heat dissipation function according to claim 1, characterized in that The cooling system is a brushless DC fan.

6. The hybrid filter compensator housing with heat dissipation function according to claim 5, characterized in that The brushless DC fan consists of fan blades, a support spring, a fan frame, a motor, a fan base, a sensor, a bracket base, a controller, a fan protective shell, a shaft, and a power interface. The fan frame is equipped with a bracket base, which is connected to the fan frame by a nut. The bracket base is equipped with a support spring, and the fan base is located outside the support spring. The controller and sensor are located on the side of the support spring. The fan base is equipped with a fan protective shell on the side, and a shaft is located inside the fan protective shell. The fan blades are located on the side of the shaft, which is mounted on the fan base by a nut. The motor is located on the side of the fan base and is connected to the shaft through an output terminal. The power interface is located on the side of the fan base.

7. The hybrid filter compensator housing with heat dissipation function according to claim 1, characterized in that The support bracket mechanism consists of a chassis support, a connecting column, a suction cup, a support block, a connecting block, and a limit buckle. The chassis support is provided with a connecting column above it, a connecting block above the connecting column, and a support block above the connecting block. The support block and the connecting block are connected by screws. The support block is provided with a limit buckle above it and is connected to the support block and the limit buckle by nuts. The chassis support is provided with a suction cup below it.