A computer heat dissipation support
The wraparound laptop cooling stand design solves the problem of the laptop cooling stand's fan exhaust not being able to accurately align with high-heat areas, achieving precise heat dissipation and stable support. It is suitable for laptops of different sizes and saves power.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- KUNSHAN JUANG ELECTRONIC TECH CO LTD
- Filing Date
- 2025-08-06
- Publication Date
- 2026-07-10
Smart Images

Figure CN224480697U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of computer cooling bracket technology, specifically a wraparound computer cooling bracket. Background Technology
[0002] Laptops are small, portable personal computers, typically weighing between 1 and 3 kilograms. With technological advancements, their size and weight have continued to shrink, while their functionality has become increasingly powerful. To improve processing speed and display quality, modern laptops feature increasingly integrated CPUs and GPUs, resulting in increased heat generation during operation. To ensure stable operation and extend the lifespan of the device, auxiliary tools such as cooling pads are often needed for effective heat dissipation.
[0003] Currently, the main heat-generating components of laptops are concentrated in the CPU and GPU areas, typically located at the bottom of the chassis near the rear or center. However, common laptop stands with auxiliary cooling functions use fixed-position, fixed-speed fans. The fan vents in these fixed positions are not precisely aligned with these high-heat areas, resulting in cool air not effectively reaching these critical components and making it difficult to quickly dissipate heat.
[0004] Therefore, a wraparound computer cooling bracket is proposed. Utility Model Content
[0005] The purpose of this invention is to provide a wraparound computer cooling bracket to solve the problem mentioned in the background art that the fan exhaust vent does not accurately correspond to the high-heat area of the computer, and the cool air cannot effectively blow on the parts that need cooling.
[0006] To achieve the above objectives, this utility model provides the following technical solution: a wraparound computer cooling bracket, comprising a base, with symmetrical rotating grooves on both sides of one end surface of the base, each rotating groove containing a rotating rod, and a support plate mounted on each rotating rod. The support plate is rotatably connected to the base, and the support plate has several heat dissipation holes. A guide frame is provided below the support plate, and a heat dissipation frame is provided below the guide frame. The heat dissipation frame contains multiple crossbeams, and slide rails are provided at both ends of the crossbeams and the transverse inner wall of the heat dissipation frame. A heat dissipation mechanism is provided between the slide rails. A groove is provided above the bottom of the heat dissipation frame, and a positioning frame is provided in the groove. The positioning frame is connected to the heat dissipation frame via a rotating shaft. A positioning groove is provided on the upper surface of the base, and the positioning frame is engaged in the positioning groove.
[0007] Preferably, in order to accurately locate and dissipate heat for the computer, the heat dissipation mechanism includes a sliding frame, a cooling fan, a pressing platform, a pressing rod, and a telescopic spring. The sliding frame is provided between the slide rails, the cooling fan is embedded in the middle of the sliding frame, the pressing platform is provided at the bottom of the sliding frame, a circular groove is opened on the side of the pressing platform away from the sliding frame, the pressing rod is provided in the circular groove, and the telescopic spring is provided in the middle of the pressing rod.
[0008] Preferably, in order to increase the number of external plugs that can be connected to the computer stand, several USB ports are embedded on both sides of the heat dissipation frame, with a socket embedded below one of the USB ports and a button switch embedded below the other USB port.
[0009] Preferably, in order to control the cooling fan individually, a fan switch is provided at the lower end of the sliding bracket. One end of the fan switch is electrically connected to the socket via a cable, and the other end of the fan switch is electrically connected to the cooling fan.
[0010] Preferably, in order to make the support plate suitable for computers of different sizes, the support plate has side plates on both sides of its surface, and the bottom of the side plates has threaded grooves with bolts inside the threaded grooves. The side plates are connected to the support plate by bolts.
[0011] Preferably, in order to prevent the computer from slipping during heat dissipation, the support plate is provided with brackets on both sides near the rotating rod, and a groove is provided on the support plate below the bracket, with a rotating shaft installed in the groove. The bottom of the bracket is connected to the support plate through the rotating shaft.
[0012] Preferably, in order to increase the heat dissipation efficiency of the heat dissipation bracket, the bottom of both the heat dissipation frame and the crossbeam are provided with several slots, which are distributed at intervals.
[0013] Compared with the prior art, the beneficial effects of this utility model are as follows: Heat dissipation of the computer is achieved through the combined use of the heat dissipation frame, guide frame, support plate, and heat dissipation mechanism; precise positioning and secure fixing of the heat dissipation components are achieved through the cooperation of the slide rail and heat dissipation mechanism; by setting side plates, bolts, and brackets on the support plate, the computer is placed on top of the support plate during use, the brackets provide support below the computer, and the side plates on both sides limit the movement of the computer on both sides. The side plates are movable and can accommodate computers of different sizes, improving the stability of the device during use; the tilt angle of the support plate can be adjusted through the cooperation of the positioning frame and positioning slots. After adjustment, the positioning frame is inserted into the corresponding positioning slot to fix the support plate; and several USB ports are provided on both sides of the heat dissipation frame, reducing the occupation of interfaces on the laptop. Attached Figure Description
[0014] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0015] Figure 2 This is a side view of the present invention;
[0016] Figure 3 This is an anatomical diagram of the support plate mechanism of this utility model;
[0017] Figure 4 This is a detailed drawing of the heat dissipation mechanism of this utility model;
[0018] Figure 5 This is a rear view of the heat sink frame of this utility model.
[0019] In the diagram: 1. Base; 2. Positioning frame; 3. Positioning slot; 4. Heat dissipation frame; 5. USB port; 6. Button switch; 7. Guide frame; 8. Support plate; 9. Rotating rod; 10. Side plate; 11. Bracket; 12. Socket; 13. Heat dissipation mechanism; 1301. Sliding frame; 1302. Cooling fan; 1303. Pressing platform; 1304. Pressing rod; 1305. Telescopic spring; 14. Slide rail; 15. Fan switch; 16. Heat dissipation hole; 17. Bolt; 18. Rotating slot; 19. Crossbeam; 20. Slot. Detailed Implementation
[0020] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention.
[0021] Please see Figures 1-3This utility model provides a wraparound computer cooling bracket, including a base 1. The base 1 is a groove shape with higher ends and a lower middle. Rotating grooves 18 are symmetrically formed on both sides of one end of the base 1. The rotating grooves 18 are square, and each of the two rotating grooves 18 contains a rotating rod 9. Support plates 8 are mounted on the two rotating rods 9. The support plates 8 are square and extend outwards from the connection point with the base 1. A circular groove is formed on the extended portion. The circular groove at the top of the support plate 8 fits onto the rotating rod 9. Several ventilation holes 16 are formed on the support plate 8. A... A guide frame 7 is provided to guide the airflow of the heat dissipation mechanism 13 below, making the airflow more concentrated. A heat dissipation frame 4 is provided below the guide frame 7. The heat dissipation frame 4 has two crossbeams 19 inside, which divide the heat dissipation frame 4 into three equal rectangular frames. The upper and lower ends of the crossbeams 19 and the inner horizontal wall of the heat dissipation frame 4 are provided with slide rails 14. The heat dissipation mechanism 13 is provided between the slide rails 14. A groove is opened at the top bottom of the heat dissipation frame 4, and a positioning frame 2 is provided in the groove. The positioning frame 2 is connected to the heat dissipation frame 4 through a rotating shaft. The base 1 has a positioning groove 3 on its upper surface, and the positioning bracket 2 is engaged in the positioning groove 3. By cooperating with the positioning bracket 2 and the positioning groove 3, the tilt angle of the support plate 8 can be adjusted. After adjustment, the positioning bracket 2 is engaged in the corresponding positioning groove 3 to fix the support plate 8. Side plates 10 are provided on both sides of the surface of the support plate 8. Threaded grooves are provided at the bottom of the side plates 10, and bolts 17 are provided in the threaded grooves. The side plates 10 are connected to the support plate 8 by bolts 17. The side plates 10 are movable and can be adapted to different sizes. The computer is positioned with rubber pads attached to the corresponding sides of the side plates 10 to prevent it from slipping. The support plate 8 has brackets 11 on both sides near the rotating rod 9. The support plate 8 below the brackets 11 has a groove with a rotating shaft inside. The bottom of the brackets 11 is connected to the support plate 8 via the rotating shaft. The brackets 11 can support the bottom of the computer. By setting the side plates 10, bolts 17 and brackets 11 on the support plate 8, the computer can be stably placed on the support plate 8 for heat dissipation during use.
[0022] Please see Figures 3-5This utility model provides a wraparound computer cooling bracket, including a cooling mechanism 13. The cooling mechanism 13 includes a sliding frame 1301, a cooling fan 1302, a pressing platform 1303, a pressing rod 1304, and a telescopic spring 1305. The sliding frame 1301 is provided between slide rails 14, and the cooling fan 1302 is embedded in the middle of the sliding frame 1301. The frame of the sliding frame 1301 is provided with a sliding groove that matches the slide rails 14, and the pressing platform 1305 is provided at the bottom of the sliding frame 1301. 3. A circular groove is provided on the side of the pressing platform 1303 away from the sliding frame 1301. A pressing rod 1304 is provided in the circular groove. A telescopic spring 1305 is provided in the middle of the pressing rod 1304. Several slots 20 are provided at the bottom of both the heat dissipation frame 4 and the crossbeam 19. The slots 20 are distributed at intervals. When it is necessary to slide the sliding frame 1301 and the heat dissipation fan 1302 to the area that needs to be cooled, the pressing rod 1304 on one side of the sliding frame 1301 is pressed, causing the pressing rod 1304 to move down, thereby... The bottom of the pressing lever 1304 extends from the slot 20, allowing the sliding bracket 1301 to be moved freely. When it reaches the area requiring heat dissipation, the pressing lever 1304 is stopped, and the pressing lever 1304 rebounds under the action of the telescopic spring 1305, with its bottom locking into the nearest slot 20 for position fixation. Several USB ports 5 are embedded on both sides of the heat dissipation frame 4. One side of the USB port 5 has a socket 12 embedded below it, and the other side of the USB port 5 has a button switch 6 embedded below it. The multiple USB ports 5 are electrically connected in parallel, and the main circuit is controlled by the button switch 6. A fan switch 15 is set at the lower end of the sliding bracket 1301. One end of the fan switch 15 is electrically connected to the socket 12 via a cable, and the other end of the fan switch 15 is electrically connected to the cooling fan 1302. The cooling fan 1302 can be independently controlled to start and stop via the button switch 6, saving power. By setting several USB ports 5 on both sides of the heat dissipation frame 4, the occupation of the interfaces on the laptop is reduced.
[0023] In this embodiment, the following steps are taken during use: Connect the external power supply to the socket 12, press the button switch 6 on the other side to power on the heat dissipation bracket 11, place the computer on the support plate 8, rotate the bracket 11 at the bottom of the support plate 8 to make it perpendicular to the support plate 8 to support the computer on the support plate 8, and fix the side plates 10 on both sides of the support plate 8 according to the size of the computer. Then rotate the positioning bracket 2 to adjust the tilt angle of the heat dissipation bracket 11. After adjustment, it is inserted into the corresponding positioning slot 3. Then press the pressing rod 1304 on the sliding bracket 1301 to extend the bottom of the pressing rod 1304 from the slot 20. At this time, the sliding bracket 1301 can move freely. 301 slides on the slide rail 14 and slides to the heat dissipation vent of the laptop. Pressing the pressing lever 1304 stops, and the pressing lever 1304 rebounds under the action of the telescopic spring 1305 and re-locks into the new slot 20 to fix the sliding bracket 1301. At this time, the heat generated by the laptop passes through the heat dissipation holes 16 on the support plate 8 and is discharged through the cooling fan 1302 on the heat dissipation mechanism 13. During this process, the user can turn on all cooling fans 1302 or turn on one of them according to the usage situation, so as to achieve precise heat dissipation and save power. When all the computer USB ports 5 are occupied, external power devices can be plugged into the USB ports 5 on the heat dissipation bracket 11 to improve the utilization rate of the device.
[0024] Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.
Claims
1. A wraparound computer cooling stand, comprising a base (1), characterized in that: The base (1) has symmetrical rotating grooves (18) on both sides of one end surface. Each of the two rotating grooves (18) has a rotating rod (9). Each of the two rotating rods (9) has a support plate (8). The support plate (8) is rotatably connected to the base (1). The support plate (8) has several heat dissipation holes (16). A guide frame (7) is provided below the support plate (8). A heat dissipation frame (4) is provided below the guide frame (7). The heat dissipation frame (4) has multiple crossbeams (19) inside. The upper and lower ends of the crossbeams (19) and the transverse inner wall of the heat dissipation frame (4) are provided with slide rails (14). A heat dissipation mechanism (13) is provided between the slide rails (14). A groove is provided above the bottom of the heat dissipation frame (4). A positioning frame (2) is provided in the groove. The positioning frame (2) is connected to the heat dissipation frame (4) through a rotating shaft. A positioning groove (3) is provided on the upper surface of the base (1). The positioning frame (2) is engaged in the positioning groove (3).
2. The wraparound computer cooling bracket according to claim 1, characterized in that: The heat dissipation mechanism includes a sliding frame (1301), a cooling fan (1302), a pressing platform (1303), a pressing rod (1304), and a telescopic spring (1305). The sliding frame (1301) is provided between the slide rails (14). The cooling fan (1302) is embedded in the middle of the sliding frame (1301). The pressing platform (1303) is provided at the bottom of the sliding frame (1301). A circular groove is opened on the side of the pressing platform (1303) away from the sliding frame (1301). The pressing rod (1304) is provided in the circular groove. The telescopic spring (1305) is provided in the middle of the pressing rod (1304).
3. The wraparound computer cooling bracket according to claim 1, characterized in that: The heat dissipation frame (4) has several USB ports (5) embedded on both sides. One of the USB ports (5) has a socket (12) embedded below it, and the other USB port (5) has a button switch (6) embedded below it.
4. The wraparound computer cooling bracket according to claim 2, characterized in that: A fan switch (15) is provided at the lower end of the sliding bracket (1301). One end of the fan switch (15) is electrically connected to the socket (12) via a cable, and the other end of the fan switch (15) is electrically connected to the cooling fan (1302).
5. A wraparound computer cooling bracket according to claim 1, characterized in that: The support plate (8) has side plates (10) on both sides of its surface. The bottom of the side plates (10) is provided with threaded grooves and bolts (17) are provided in the threaded grooves. The side plates (10) are connected to the support plate (8) by bolts (17).
6. The wraparound computer cooling bracket according to claim 1, characterized in that: The support plate (8) has brackets (11) on both sides near the rotating rod (9). The support plate (8) below the bracket (11) has a groove, and a rotating shaft is provided in the groove. The bottom of the bracket (11) is connected to the support plate (8) through the rotating shaft.
7. The wraparound computer cooling bracket according to claim 1, characterized in that: The bottom of the heat dissipation frame (4) and the crossbeam (19) are provided with a number of slots (20), and the slots (20) are distributed at intervals.