Liquid-cooled supercharging terminal device structure
By designing a circulating cooling system consisting of a reflux tank, a cooling vortex tube, and a drive fan in the liquid-cooled supercharging terminal equipment, the problem of efficient heat dissipation was solved, achieving uniform temperature reduction and stable operation of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- BEIJING JIYE CHANGDA NEW ENERGY TECH CO LTD
- Filing Date
- 2025-06-23
- Publication Date
- 2026-07-03
Smart Images

Figure CN224460323U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of terminal equipment, specifically to a liquid-cooled supercharging terminal equipment structure. Background Technology
[0002] A Chinese patent (application number: CN202220363555.2) discloses a heat dissipation structure for a terminal device and the terminal device itself. This heat dissipation structure includes a mid-frame and a metal shielding layer for the screen assembly. The mid-frame and the metal shielding layer are thermally connected to the chip of the terminal device. This disclosure thermally connects the chip to the mid-frame and also to the metal shielding layer. This allows the mid-frame and the metal shielding layer to work together to dissipate heat from the chip, significantly improving the terminal device's heat dissipation capacity and reducing the absolute temperature at the chip location. Therefore, when designing a thinner and lighter terminal device, this design can alleviate the problem of localized overheating at the chip location, thereby reducing overall overheating of the terminal device and meeting the chip's heat dissipation requirements while satisfying the requirements of a thinner and lighter mid-frame design.
[0003] Existing heat dissipation methods, such as air cooling and simple liquid cooling systems, are no longer sufficient to meet the demands of high-performance, high-efficiency heat dissipation. This is especially true in liquid-cooled supercharging terminal devices, where temperature control requirements are even more stringent. Excessive operating temperatures can not only affect device efficiency but also shorten lifespan, increase maintenance costs, and even pose safety hazards. Therefore, designing an efficient and reliable cooling system is crucial for improving the overall performance of liquid-cooled supercharging terminal devices. Summary of the Invention
[0004] To address the shortcomings of existing technologies, this utility model provides a liquid-cooled supercharging terminal device structure.
[0005] The technical solution of this utility model is as follows:
[0006] This utility model provides a liquid-cooled supercharging terminal device structure, including a main body, a controller disposed on the outside of the main body, and a charging mechanism disposed on the outside of the main body;
[0007] The main body is provided with a support frame at the top, a rotating motor is provided on the outside of the support frame, a rotating fan is provided inside the support frame, and rotating fan blades are provided on the outside of the rotating fan.
[0008] The main body is equipped with a reflux tank and a cooling support plate. The bottom of the cooling support plate is equipped with a support ring, and the inside of the support ring is equipped with a cooling vortex tube. The top of the cooling support plate is equipped with a transmission fan that is connected to the main body.
[0009] Optionally, a control base is provided at the bottom of the main body, and a control switch is provided on the outside of the controller.
[0010] Optionally, the charging mechanism includes a charging cable, one end of which is electrically connected to the main body, and the other end of which is electrically connected to a charging head. A charging contact head is also provided on the outside of the main body.
[0011] Optionally, one end of the support ring is connected to the cooling vortex tube, and the other end of the cooling vortex tube is connected to a return pipe that is connected to the return tank.
[0012] Optionally, a reflux motor is provided on one side of the reflux tank, and a transition box is provided at the other end of the reflux tank. The top of the transition box is connected to a liquid outlet pipe, which is connected to the support ring. A support plate is provided on the top of the reflux tank, and an extension rod connected to the main body is provided on the outside of the support plate.
[0013] Optionally, the bottom of the support frame is provided with contact rods evenly distributed around the circumference, the other end of the contact rods is fixedly connected to the main body, the outside of the rotating fan is provided with rotating fan blades, and the top of the main body is provided with a ventilation opening communicating with the rotating fan of the main body.
[0014] The beneficial effects achieved by this utility model are as follows:
[0015] This invention achieves effective temperature reduction by innovatively designing a reflux tank and utilizing it to control the liquid to form a circulating cooling system at the cooling vortex tube. This design allows for a more uniform distribution of the cooling medium, thereby improving cooling efficiency. Furthermore, the coordinated operation of the drive fan and the cooling vortex tube further enhances the heat dissipation effect, ensuring the equipment operates at its optimal temperature. Simultaneously, an externally mounted rotating fan draws air from the main body, ensuring ample circulation of cool air within the unit, which not only aids in heat dissipation but also improves the stability of the internal environment. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0017] Figure 2 This is a schematic diagram of the internal structure of the main body;
[0018] Figure 3 yes Figure 2 Internal structure diagram;
[0019] Figure 4 This is a schematic diagram of the connection structure between the support frame and the rotating motor.
[0020] In the diagram: 1. Main body; 101. Control base; 2. Controller; 201. Control switch; 3. Charging mechanism; 301. Charging head; 302. Charging cable; 303. Charging contact head; 4. Support frame; 401. Contact rod; 5. Rotating motor; 501. Rotating fan; 502. Rotating fan blade; 6. Recirculation tank; 601. Recirculation motor; 602. Support plate; 6021. Extension rod; 7. Cooling support plate; 701. Support ring; 8. Transition box; 801. Liquid outlet pipe; 9. Cooling vortex tube; 901. Recirculation pipe; 10. Drive fan. Detailed Implementation
[0021] To facilitate understanding of this utility model by those skilled in the art, the specific embodiments of this utility model are described below with reference to the accompanying drawings. Example
[0022] like Figure 1-4 As shown, this utility model provides a liquid-cooled supercharging terminal device structure, including a main body 1, a controller 2 disposed on the outside of the main body 1, and a charging mechanism 3 disposed on the outside of the main body 1.
[0023] The main body 1 is provided with a support frame 4 at the top, a rotating motor 5 is provided on the outside of the support frame 4, a rotating fan 501 is provided inside the support frame 4, and a rotating fan blade 502 is provided on the outside of the rotating fan 501.
[0024] The main body 1 has a reflux tank 6 inside, a cooling support plate 7 inside, a support ring 701 at the bottom of the cooling support plate 7, a cooling vortex tube 9 inside the support ring 701, and a drive fan 10 connected to the main body 1 at the top of the cooling support plate 7.
[0025] This invention achieves effective temperature reduction by innovatively designing a reflux tank 6 and utilizing it to control the liquid to form a circulating cooling system at the cooling vortex tube 9. This design allows for a more uniform distribution of the cooling medium, thereby improving cooling efficiency. Furthermore, the coordinated operation of the drive fan 10 and the cooling vortex tube 9 further enhances the heat dissipation effect, ensuring the equipment operates at its optimal temperature. Simultaneously, the externally mounted rotating fan 501 draws air from the main body 1, ensuring ample circulation of cool air within the main body 1. This not only aids in heat dissipation but also improves the stability of the internal environment of the equipment. Example
[0026] like Figure 1 As shown, a control base 101 is provided at the bottom of the main body 1, and a control switch 201 is provided on the outside of the controller 2.
[0027] Specifically, the control base 101 is used for support; the bottom of the control base 101 can be connected to a walking mechanism to realize the movement of the equipment; the control switch 201, in conjunction with the controller 2, is used to control the switching of the equipment.
[0028] In this embodiment, the charging mechanism 3 includes a charging cable 302, one end of which is electrically connected to the main body 1, and the other end of which is electrically connected to a charging head 301. A charging contact head 303 is also provided on the outside of the main body 1.
[0029] In use, the charging head 301 and the charging cable 302 are used to achieve the charging effect. The charging contact head 303 is set to fix the charging head 301 when it is not charging. Example
[0030] like Figure 2-3 As shown, one end of the support ring 701 is connected to the cooling vortex tube 9, and the other end of the cooling vortex tube 9 is connected to the return pipe 901, which is connected to the return tank 6.
[0031] This allows for easy backflow at the cooling vortex tube 9, which in turn facilitates the control of cooling the air passing through the cooling vortex tube 9.
[0032] In this embodiment, a reflux motor 601 is provided on one side of the reflux tank 6, and a transition box 8 is provided at the other end of the reflux tank 6. The top of the transition box 8 is connected to an outlet pipe 801, which is connected to a support ring 701. A support plate 602 is provided on the top of the reflux tank 6, and an extension rod 6021 connected to the main body 1 is provided on the outside of the support plate 602.
[0033] Specifically, the reflux motor 601 controls the reflux tank 6 to work with the cooling vortex tube 9 to cool down, thereby achieving the effect of controlled cooling. The reflux tank 6 can be filled with cold liquid for a certain period of time. Example
[0034] like Figure 4 As shown, the bottom of the support frame 4 is uniformly circumferentially provided with contact rods 401, the other end of the contact rods 401 is fixedly connected to the main body 1, the outside of the rotating fan 501 is provided with rotating fan blades 502, and the top of the main body 1 is provided with a ventilation opening communicating with the rotating fan 501 of the main body 1.
[0035] When in use, by rotating the motor 5, the rotating fan 501 can be rotated to draw air out of the main body 1, so as to facilitate ventilation and heat dissipation inside the main body 1 and ensure stable operation of the equipment.
[0036] In summary, by using the reflux tank 6, the liquid is controlled to connect at the cooling vortex tube 9 to form a circulating cooling system, which effectively reduces the equipment temperature. The transmission fan 10 works in conjunction with the cooling vortex tube 9 to further improve heat dissipation efficiency. At the same time, the external rotating fan 501 draws air from the main body 1 to ensure that the cold air circulates fully within the main body 1, making cooling convenient.
[0037] The embodiments of this utility model described above do not constitute a limitation on the scope of protection of this utility model. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this utility model should be included within the scope of protection of the claims of this utility model.
Claims
1. A liquid-cooled super-charging terminal device structure, characterized by: It includes a main body (1), a controller (2) is provided on the outside of the main body (1), and a charging mechanism (3) is provided on the outside of the main body (1); The main body (1) is provided with a support frame (4) on its top. A rotating motor (5) is provided on the outside of the support frame (4). A rotating fan (501) is provided inside the support frame (4). A rotating fan blade (502) is provided on the outside of the rotating fan (501). The main body (1) is provided with a reflux tank (6) inside, a cooling support plate (7) is provided inside the main body (1), a support ring (701) is provided at the bottom of the cooling support plate (7), a cooling vortex tube (9) is provided inside the support ring (701), and a transmission fan (10) connected to the main body (1) is provided at the top of the cooling support plate (7).
2. The liquid-cooled hyper terminal device structure according to claim 1, wherein: The bottom of the main body (1) is provided with a control base (101), and the controller (2) is provided with a control switch (201) on its exterior.
3. The liquid-cooled hyper terminal device structure according to claim 1, wherein: The charging mechanism (3) includes a charging cable (302), one end of which is electrically connected to the main body (1), and the other end of which is electrically connected to a charging head (301). A charging contact head (303) is also provided on the outside of the main body (1).
4. The structure of a liquid-cooled supercharging terminal device according to claim 1, characterized in that: One end of the support ring (701) is connected to the cooling vortex tube (9), and the other end of the cooling vortex tube (9) is connected to the return tube (901) which is connected to the return tank (6).
5. The liquid-cooled hyper terminal device structure of claim 1, wherein: A reflux motor (601) is provided on one side of the reflux tank (6), and a transition box (8) is provided at the other end of the reflux tank (6). The top of the transition box (8) is connected to an outlet pipe (801), which is connected to the support ring (701). A support plate (602) is provided on the top of the reflux tank (6), and an extension rod (6021) connected to the main body (1) is provided on the outside of the support plate (602).
6. The liquid-cooled hyper terminal device structure of claim 1, wherein: The bottom of the support frame (4) is uniformly circumferentially provided with contact rods (401), the other end of the contact rods (401) is fixedly connected to the main body (1), the outside of the rotating fan (501) is provided with rotating fan blades (502), and the top of the main body (1) is provided with ventilation that communicates with the rotating fan (501) of the main body (1).