A large data machine room hardware equipment heat dissipation rack
By combining a frame, a limiting rack, and a cooling system in the design of a big data server room, the problem of inefficient heat dissipation of traditional heat dissipation racks in high-density environments is solved, achieving stable installation and efficient heat dissipation to adapt to different equipment sizes.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HULUDAO AOWEI TECH CO LTD
- Filing Date
- 2025-07-24
- Publication Date
- 2026-06-26
AI Technical Summary
Traditional heat dissipation racks are difficult to effectively dissipate heat in high-density big data data centers, and their fixed installation structures cannot adapt to the installation needs of equipment of different sizes.
A heat dissipation frame is designed, which includes a frame, a limiting bracket, a supporting top plate, a cooler, an air pump, an air pipe, and a cooling fan. The cooler generates cooling capacity, the air pump inputs gas and the cooling fan removes heat. The supporting bracket is adjustable to accommodate different equipment sizes, and the limiting bracket ensures stable installation of the equipment.
It achieves active heat dissipation, improves heat dissipation efficiency, and can adapt to the installation requirements of equipment of different sizes, ensuring stable operation of the equipment.
Smart Images

Figure CN224419147U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of equipment heat dissipation rack technology, and more specifically, to a heat dissipation rack for hardware equipment in a big data data center. Background Technology
[0002] With the rapid development of big data technology, the integration and computing power of hardware equipment in big data data centers are constantly improving, and the heat generated during equipment operation is also increasing dramatically. As a key part of ensuring the stable operation of data center hardware equipment, the performance of the heat dissipation system directly affects the service life and computing efficiency of the equipment.
[0003] Traditional heat sinks mostly use a single fan for cooling, relying on natural air convection or forced convection from a regular fan to remove heat from the equipment. However, in high-density big data server rooms, heat accumulates significantly between devices, and a single fan is insufficient to create an effective cooling airflow, leading to localized overheating. Furthermore, the fixed installation structure of traditional heat sinks is difficult to adapt to the installation requirements of devices of different sizes. Therefore, a new type of heat sink for big data server room hardware is proposed. Utility Model Content
[0004] In order to overcome the above-mentioned defects of the prior art, the present invention provides a heat dissipation rack for hardware equipment in big data data centers to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a heat dissipation rack for hardware equipment in a big data computer room, comprising a frame, a limiting frame fixedly connected to the rear side of the frame to limit the installed equipment, an installation hole on one side of the frame, a supporting top plate fixedly connected to the top of the inner cavity of the frame, a cooler, an air pump and a control host disposed on the top of the supporting top plate, an air pipe and a cooling pipe disposed on the side of the inner cavity of the frame away from the installation hole, the cooling generated by the cooler inputs into the interior of the cooling pipe to cool the cavity where the cooling pipe is located, the air pump pumps air into the air pipe and blows the cold air on the surface of the cooling pipe toward the top of the supporting top plate through the air outlet to remove the heat generated during equipment operation and achieve active heat dissipation;
[0006] The inner cavity of the frame is symmetrically fixedly connected to the two sides of the support frame, and a support plate is provided between the two support frames. A cooling fan is provided in the middle of the mounting hole, and a mounting frame plate is fixedly connected to one side of the cooling fan. The mounting frame plate facilitates the installation of the cooling fan in the middle of the mounting hole, and the installation position of the cooling fan can be adjusted as needed. Limiting posts and limiting clips are fixedly connected to both ends of the support plate.
[0007] The support frame includes a first upright plate, a second upright plate, and a third upright plate. Connecting rods are symmetrically fixed to both sides of the second upright plate. A slot is provided on one side of the first upright plate, and limiting grooves are provided on one side of the second and third upright plates. By sliding the limiting post in the limiting groove and cooperating with the limiting post and the slot, the height and position of the support plate can be adjusted to meet the installation requirements of hardware equipment of different sizes. The connecting rods improve the stability of the first, second, and third upright plates and can provide sliding support for the limiting post on one side of the installed support plate, facilitating the installation and adjustment of the support plate. The support plate facilitates the support of hardware equipment.
[0008] Preferably, the output end of the air pump is connected to the inner cavity of the air pipe, and the output end of the cooler is connected to the cooling pipe. The cooling pipe is located on the side of the air pipe near the support frame, and an air outlet is opened on the side of the air pipe near the cooling pipe. When the air pump is started, gas can be injected into the air pipe and sprayed out. The cooler can then cool the cooling pipe. The gas blown out of the air pipe will pass through the cooling pipe to prevent it from flowing to the surface of the equipment after cooling, thereby achieving the effect of cooling and heat dissipation.
[0009] Preferably, the mounting frame is disposed on one side of the frame, and bolts are inserted around the perimeter of the mounting frame, so that the cooling fan can be installed and its position adjusted by means of the mounting frame.
[0010] Preferably, the second upright plate is disposed between the first upright plate and the third upright plate, and one side of the first upright plate is fixedly connected to the wall of the limiting frame. Through the gap between the first upright plate, the second upright plate, and the third upright plate, gas can circulate, which facilitates heat dissipation and cooling.
[0011] Preferably, there are several connecting rods, the limiting grooves and the slots correspond one-to-one, the connecting rods and the limiting grooves correspond one-to-one, the top wall of the connecting rod and the bottom wall of the inner cavity of the limiting groove are on the same horizontal plane, and the limiting pins passing through the limiting groove are sequentially inserted into the corresponding slots through the connecting rod, thereby improving the stability of the connection between the first upright plate, the second upright plate and the third upright plate.
[0012] Preferably, the limiting post and the limiting locking post are located at both ends of the support plate. The limiting post is set in the middle of the limiting groove, and the limiting locking post is set in the middle of the locking groove. The support plate is supported by the limiting post and the limiting locking post, and the height and position of the support plate can be adjusted as needed for convenient adjustment and use.
[0013] The technical effects and advantages of this utility model are as follows:
[0014] 1. This utility model firstly cools the surface of the cooling pipe by starting the cooler, and then inputs gas into the gas pipe by starting the air pump. The low-temperature gas on the surface of the cooling pipe is blown to one side of the equipment by being sprayed out through the air outlet. Activating multiple cooling fans can accelerate the gas flow rate, thereby removing heat from the equipment and improving the heat dissipation and cooling effect. The set support frame and support plate can be used to easily adjust the distribution size of the cavity inside the frame as needed, which is convenient for adjustment and use, and does not affect the gas flow, thus improving the use effect.
[0015] 2. This utility model also features a limiting bracket that allows for normal connection of the rear wires of the equipment without affecting its use. The limiting pins, which are engaged in the middle of the slot, limit the position of the support plate after it is installed, thus improving its stability. The mounting holes also allow for adjustment of the cooling fan's position based on the support plate's location, making it convenient to use.
[0016] In summary, through the interaction of the above-mentioned multiple effects, low-temperature gas can be blown onto the surface of the equipment and the gas flow rate can be accelerated, thereby removing heat from the equipment, improving the heat dissipation and cooling effect, and the internal cavity distribution size of the frame can be adjusted as needed for convenient adjustment and use. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the overall structure of this utility model.
[0018] Figure 2 This is a schematic diagram of the disassembled structure of this utility model.
[0019] Figure 3 This is a schematic diagram of the cross-sectional structure of this utility model.
[0020] Figure 4 This is a schematic diagram of the framework of this utility model.
[0021] Figure 5 This is a schematic diagram of the support frame of this utility model.
[0022] The attached diagram is labeled as follows: 1. Frame; 2. Limiting bracket; 3. Mounting hole; 4. Support top plate; 5. Cooler; 6. Air pump; 7. Air pipe; 8. Cooling pipe; 9. Support frame; 10. Support plate; 11. Limiting post; 12. Limiting locking post; 13. Cooling fan; 14. Mounting frame plate; 15. First upright plate; 16. Second upright plate; 17. Third upright plate; 18. Connecting rod; 19. Slot; 20. Limiting slide groove. Detailed Implementation
[0023] 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.
[0024] As attached Figure 1-5 The above describes a heat dissipation rack for hardware equipment in a big data server room. It includes a frame 1 with a limiting frame 2 fixedly connected to its rear side. The limiting frame 2 limits the installation of the equipment. A mounting hole 3 is provided on one side of the frame 1. A supporting top plate 4 is fixedly connected to the top of the inner cavity of the frame 1. A cooler 5, an air pump 6, and a control host are arranged on the top of the supporting top plate 4. An air pipe 7 and a cooling pipe 8 are arranged on the side of the inner cavity of the frame 1 away from the mounting hole 3. The cooler 5 generates cold air which is input into the interior of the cooling pipe 8 to cool the cavity containing the cooling pipe 8. The air pump 6 pumps air into the air pipe 7 and blows the cool air from the surface of the cooling pipe 8 towards the top of the supporting top plate 4 through the air outlet, carrying away the heat generated during equipment operation and achieving active heat dissipation.
[0025] The inner cavity of the frame 1 is symmetrically fixedly connected to the two sides of the support frame 9, and the support plate 10 is provided between the two support frames 9. The middle of the mounting hole 3 is provided with a cooling fan 13, and the side of the cooling fan 13 is fixedly connected to the mounting frame plate 14. The mounting frame plate 14 facilitates the installation of the cooling fan 13 in the middle of the mounting hole 3, and the installation position of the cooling fan 13 can be adjusted as needed. The two ends of the support plate 10 are fixedly connected to the limiting post 11 and the limiting clamping post 12.
[0026] The support frame 9 includes a first upright plate 15, a second upright plate 16, and a third upright plate 17. Connecting rods 18 are symmetrically fixedly connected to both sides of the second upright plate 16. A slot 19 is provided on one side of the first upright plate 15, and a limiting groove 20 is provided on one side of the second upright plate 16 and the third upright plate 17. By sliding the limiting post 11 in the limiting groove 20 and by cooperating with the limiting post 12 and the slot 19, the height and position of the support plate 10 can be adjusted to meet the installation requirements of hardware equipment of different sizes. The connecting rods 18 improve the stability of the first upright plate 15, the second upright plate 16, and the third upright plate 17, and can provide sliding support for the limiting post 12 on one side of the installed support plate 10, which facilitates the installation and adjustment of the support plate 10. The support plate 10 facilitates the support of hardware equipment.
[0027] As attached Figure 1-5As shown, the output end of the air pump 6 is connected to the inner cavity of the air pipe 7, the output end of the cooler 5 is connected to the cooling pipe 8, the cooling pipe 8 is located on the side of the air pipe 7 near the support frame 9, and the air pipe 7 has an air outlet on the side near the cooling pipe 8. The mounting frame plate 14 is located on one side of the frame 1, and bolts are inserted around the mounting frame plate 14. The second upright plate 16 is located between the first upright plate 15 and the third upright plate 17. One side of the first upright plate 15 is fixedly connected to the wall of the limiting frame 2. There are several connecting rods 18. The limiting slide groove 20 corresponds one-to-one with the slot 19. The connecting rod 18 corresponds one-to-one with the limiting slide groove 20. The top wall of the connecting rod 18 and the bottom wall of the inner cavity of the limiting slide groove 20 are on the same horizontal plane. The limiting post 11 and the limiting locking post 12 are located at both ends of the support plate 10. The limiting post 11 is located on the side of the air pipe 7 near the support frame 9. The air pipe 7 has an air outlet on the side of the air pipe 7 near the cooling pipe 8. The mounting frame plate 14 is located on one side of the frame 10, and bolts are inserted around the support frame 14. The second upright plate 16 is located between the first upright plate 15 and the third upright plate 17. The first upright plate 15 is fixedly connected to the wall of the limiting frame 2. The first upright plate 16 has a number of connecting rods 18, and the second upright plate 16 has a number of connecting rods 18, and the third upright plate 16 has a number of connecting rods 18, and the fourth upright plate 16 has a number of connecting rods 18, and the fifth upright plate 16 has a number of connecting rods 18, and the sixth upright plate 16 has a In the middle of the limiting slide 20, the limiting pin 12 is set in the middle of the slot 19. When the air pump 6 is started, gas can be injected into the air pipe 7 and sprayed out. The cooling pipe 8 can be cooled by the cooler 5. The gas blown out of the air pipe 7 will pass through the cooling pipe 8 to prevent it from flowing to the surface of the equipment after cooling, thereby achieving the function of cooling and heat dissipation. The mounting frame plate 14 facilitates the installation and adjustment of the installation position of the cooling fan 13. The gap between the first upright plate 15, the second upright plate 16, and the third upright plate 17 allows the gas to flow, which facilitates heat dissipation and cooling. The connecting rod 18 allows the limiting pin 12 of the limiting slide 20 to be inserted into the corresponding slot 19 in sequence, and improves the stability of the connection between the first upright plate 15, the second upright plate 16, and the third upright plate 17. The limiting pin 11 and the limiting pin 12 support the support plate 10, and the height position of the support plate 10 can be adjusted as needed for easy adjustment and use.
[0028] The working principle of this utility model is as follows: When in use, the height of the support plate 10 is adjusted according to the size of the equipment. The adjustment causes the limiting post 11 and the limiting pin 12 to slide in the middle of the limiting groove 20 until the limiting pin 12 is inserted into the groove 19. This can limit one end of the support plate 10, thereby improving the stability of the support plate 10.
[0029] The cooling fan 13 is installed on one side of the frame 1 via the mounting plate 14. When the equipment is placed on the support plate 10, the wiring on the back of the equipment can be connected through the through hole in the middle of the limit bracket 2 for easy use.
[0030] When it is necessary to dissipate heat from the top of the support plate 10, the cooler 5 and the air pump 6 can be started. The cooler 5 cools the surface of the cooling pipe 8, while the air pump 6 inputs gas into the air pipe 7 and sprays it out, which can blow the low-temperature gas on the surface of the cooling pipe 8 to one side of the equipment, thereby removing the heat from the equipment. The cooling fan 13 is also started to make the gas inside the frame 1 flow, improving the cooling effect.
[0031] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A heat dissipation rack for hardware equipment in a big data data center, comprising a frame (1), characterized in that: The rear side of the frame (1) is fixedly connected to the limit frame (2), and the side of the frame (1) is provided with the mounting hole (3). The top of the inner cavity of the frame (1) is fixedly connected to the support plate (4). The top of the support plate (4) is provided with a cooler (5), an air pump (6) and a control host. The side of the inner cavity of the frame (1) away from the mounting hole (3) is provided with an air pipe (7) and a cooling pipe (8). The inner cavity of the frame (1) is symmetrically fixedly connected with support frames (9), and a support plate (10) is provided between the two support frames (9). A heat dissipation fan (13) is provided in the middle of the mounting hole (3). A mounting frame plate (14) is fixedly connected to one side of the heat dissipation fan (13). Limiting posts (11) and limiting clips (12) are fixedly connected to both ends of the support plate (10). The support frame (9) includes a first upright plate (15), a second upright plate (16), and a third upright plate (17). Connecting rods (18) are symmetrically fixedly connected to both sides of the second upright plate (16). A slot (19) is provided on one side of the first upright plate (15). Limiting grooves (20) are provided on one side of the second upright plate (16) and the third upright plate (17).
2. The heat dissipation rack for big data server room hardware equipment according to claim 1, characterized in that: The output end of the air pump (6) is connected to the inner cavity of the air pipe (7), the output end of the cooler (5) is connected to the cooling pipe (8), the cooling pipe (8) is located on the side of the air pipe (7) near the support frame (9), and the air pipe (7) near the cooling pipe (8) has an air outlet.
3. The heat dissipation rack for big data server room hardware equipment according to claim 1, characterized in that: The mounting frame plate (14) is disposed on one side of the frame (1), and bolts are inserted around the mounting frame plate (14).
4. A heat dissipation rack for big data server room hardware equipment according to claim 1, characterized in that: The second upright plate (16) is disposed between the first upright plate (15) and the third upright plate (17), and one side of the first upright plate (15) is fixedly connected to the wall of the limiting frame (2).
5. A heat dissipation rack for big data server room hardware equipment according to claim 1, characterized in that: The number of connecting rods (18) is several, the limiting slide groove (20) corresponds one-to-one with the slot (19), the connecting rod (18) corresponds one-to-one with the limiting slide groove (20), and the top wall of the connecting rod (18) and the bottom wall of the inner cavity of the limiting slide groove (20) are on the same horizontal plane.
6. A heat dissipation rack for big data server room hardware equipment according to claim 1, characterized in that: The limiting post (11) and the limiting pin (12) are located at both ends of the support plate (10). The limiting post (11) is located in the middle of the limiting slide (20), and the limiting pin (12) is located in the middle of the pin slot (19).