Communication machine room with partition heat dissipation function
By setting up a zoned heat dissipation system in the communication equipment room and adjusting the shielding area and airflow of the air inlets, precise heat dissipation for different areas can be achieved, solving the problem of low heat dissipation efficiency in traditional equipment rooms and improving the overall heat dissipation effect and equipment lifespan.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- KUNMING MINGLIFENG COMM STEEL TOWER MFG CO LTD
- Filing Date
- 2025-06-10
- Publication Date
- 2026-07-07
AI Technical Summary
Traditional communication equipment rooms use a single air inlet and outlet, resulting in low heat dissipation efficiency and an inability to provide targeted heat dissipation for different areas.
The design of a communication equipment room with zoned heat dissipation function involves adjusting the shading area of the air inlet by setting up horizontal plates, air hoods, air inlets, movable plates, connecting plates, and electric push rods, and using flow regulating valves and exhaust fans to achieve precise heat dissipation for different areas.
It improves the overall heat dissipation efficiency of the communication equipment room, ensuring high heat dissipation efficiency in high-heat areas and low heat dissipation efficiency in low-heat areas, avoiding the problem of low heat flow efficiency and extending the service life of the equipment.
Smart Images

Figure CN224473598U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of communication equipment room technology, specifically a communication equipment room with zoned heat dissipation function. Background Technology
[0002] A communication equipment room is a space or location that houses communication equipment and facilities and meets operational requirements. It can generally be divided into dedicated equipment rooms and comprehensive equipment rooms.
[0003] According to the search results, the announcement number CN218092276U, entitled "A Dustproof Communication Equipment Room", includes a main body of the device. Through research and analysis, it was found that although it reduces the dust accumulation inside the communication equipment room and ensures the normal operation of the internal machinery, it still has the following disadvantages to a certain extent.
[0004] For example, the aforementioned communication equipment room uses a single air inlet and outlet to achieve air circulation in order to reduce the temperature inside the equipment room. However, since the efficiency of each type of telecommunications equipment is different and the heat generated is different, the single air inlet and outlet cooling method results in low heat flow efficiency inside the equipment room and cannot provide targeted cooling for different areas, thus reducing the cooling efficiency. In order to solve the above technical problems, it is necessary to design a communication equipment room with zoned cooling function to solve the above problems. Utility Model Content
[0005] The purpose of this utility model is to provide a communication equipment room with zoned heat dissipation function, which has the advantage of targeted heat dissipation for different areas inside the equipment room, thereby improving the heat dissipation efficiency of communication equipment. It solves the problem that traditional communication equipment rooms use a single air inlet and outlet for air circulation, which cannot provide targeted heat dissipation for different areas, thus reducing heat dissipation efficiency.
[0006] To achieve the above objectives, this utility model provides the following technical solution: a communication equipment room with zoned heat dissipation function, comprising a communication equipment room body, an exhaust mechanism installed inside the communication equipment room body, the exhaust mechanism comprising a horizontal plate, one side of the horizontal plate being fixedly connected to the inner wall of the communication equipment room body, an air outlet hood being connected to the bottom of the horizontal plate, an air inlet hole being provided at the bottom of the air outlet hood, a movable plate being provided on the inner wall of the air outlet hood, a square hole being provided on the surface of the movable plate, a connecting plate being fixedly connected to the top of the movable plate, the top of the connecting plate extending to the top of the air outlet hood and being fixedly connected to an electric push rod, the bottom of the electric push rod being fixedly connected to the horizontal plate.
[0007] Preferably, the top of the communication equipment room body is connected to an exhaust hood, the top of the exhaust hood is connected to a flow regulating valve, the top of the flow regulating valve is connected to an L-shaped pipe, the bottom of the L-shaped pipe is connected to a collection box, the bottom of the collection box is connected to an exhaust fan, and one side of the collection box and the exhaust fan are fixedly connected to the communication equipment room body.
[0008] Preferably, the inner cavity of the collection box is provided with a drawer, the bottom of the drawer is inlaid with a filter plate, and the front side of the drawer extends through the front side of the collection box and is fixedly connected with a handle.
[0009] Preferably, support plates are fixedly connected to both sides of the inner wall of the collection box, and the top of the support plates contacts the drawer.
[0010] Preferably, a limit block is provided on the front side of the drawer, and a spring telescopic rod is movably connected to the rear side of the limit block. One side of the spring telescopic rod is fixedly connected to the collection box.
[0011] Preferably, a partition is fixedly connected to the inner wall of the communication equipment room body, and a guide plate is fixedly connected to the surface of the partition.
[0012] Preferably, the front side of the communication equipment room body is connected to a door via a pivot, a temperature sensor is fixedly connected to the inner wall of the communication equipment room body, a controller is fixedly connected to the front side of the communication equipment room body, and a filter screen is embedded on the right side of the communication equipment room body.
[0013] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0014] 1. This utility model, by setting up a horizontal plate, an air outlet hood, an air inlet, a movable plate, a square hole, a connecting plate, and an electric push rod, enables the movable plate to move back and forth. The movable plate blocks the air inlet, and the blocking area of the air inlet is adjusted, thereby adjusting the exhaust volume of the air outlet hood. The exhaust volume of the air inlet is increased in areas with high heat and decreased in areas with low heat, thereby improving the heat dissipation efficiency of the communication equipment room.
[0015] 2. This utility model uses a flow regulating valve to adjust the exhaust flow of the exhaust hood, thereby adjusting the heat dissipation efficiency for different areas. This results in high heat dissipation efficiency in high-heat areas and enables precise heat dissipation for telecommunications equipment with different heat outputs in different areas of the communication equipment room. Each area can independently adjust the heat dissipation intensity according to actual needs, avoiding the problem of low heat flow efficiency under the traditional single air inlet and air outlet heat dissipation method, thus significantly improving the overall heat dissipation efficiency of the equipment room. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of the structure of this utility model;
[0017] Figure 2 This is a side view of the structure of this utility model;
[0018] Figure 3 This is a cross-sectional structural diagram of the present invention;
[0019] Figure 4 This is an exploded view of the connecting plate and electric push rod of this utility model.
[0020] In the diagram: 1. Communication equipment room body; 2. Cabinet door; 3. Exhaust mechanism; 30. Horizontal plate; 31. Exhaust hood; 32. Air inlet; 33. Movable plate; 34. Square hole; 35. Connecting plate; 36. Electric push rod; 37. Exhaust hood; 38. Flow regulating valve; 39. L-shaped pipe; 310. Collection box; 311. Exhaust fan; 4. Drawer; 5. Filter plate; 6. Support plate; 7. Limiting block; 8. Spring telescopic rod; 9. Partition plate; 10. Guide plate; 11. Temperature sensor; 12. Controller; 13. Filter screen. Detailed Implementation
[0021] Please see Figures 1-4 A communication equipment room with zoned heat dissipation function includes a communication equipment room body 1. An exhaust mechanism 3 is installed inside the communication equipment room body 1. The exhaust mechanism 3 includes a horizontal plate 30, one side of which is fixedly connected to the inner wall of the communication equipment room body 1. An air outlet hood 31 is connected to the bottom of the horizontal plate 30. An air inlet 32 is provided at the bottom of the air outlet hood 31. A movable plate 33 is provided on the inner wall of the air outlet hood 31. A square hole 34 is provided on the surface of the movable plate 33. A connecting plate 35 is fixedly connected to the top of the movable plate 33. The top of the connecting plate 35 extends to the top of the air outlet hood 31 and is fixed thereon. An electric push rod 36 is connected, and the bottom of the electric push rod 36 is fixedly connected to the horizontal plate 30. By setting the horizontal plate 30, the air outlet hood 31, the air inlet 32, the movable plate 33, the square hole 34, the connecting plate 35 and the electric push rod 36, the movable plate 33 can be moved back and forth. The movable plate 33 can block the air inlet 32, and the blocking area of the air inlet 32 can be adjusted, thereby adjusting the exhaust volume of the air outlet hood 31. The exhaust volume of the air inlet 32 can be increased in areas with high heat and decreased in areas with low heat, thereby improving the overall heat dissipation efficiency of the communication equipment room.
[0022] Please see Figure 1The top of the communication equipment room body 1 is connected to an exhaust hood 37, the top of the exhaust hood 37 is connected to a flow regulating valve 38, the top of the flow regulating valve 38 is connected to an L-shaped pipe 39, the bottom of the L-shaped pipe 39 is connected to a collection box 310, and the bottom of the collection box 310 is connected to an exhaust fan 311. One side of the collection box 310 and the exhaust fan 311 are fixedly connected to the communication equipment room body 1. The three flow regulating valves 38 are independently controlled. By setting up the exhaust hood 37, flow regulating valves 38, L-shaped pipes 39, collection box 310 and exhaust fan 311, gas can flow through the collection box 310, and dust can be collected and stored in the inner cavity of the collection box 310. This facilitates dust removal inside the communication equipment room body 1, keeps the internal environment of the communication equipment room body 1 clean and tidy, and extends the service life of the communication equipment. The exhaust flow of the exhaust hood 37 can be adjusted by the flow regulating valve 38 to adjust the heat dissipation efficiency for different areas, thereby improving the heat dissipation efficiency of high-heat areas and improving the overall heat dissipation effect of the communication equipment room.
[0023] Please see Figure 3 The inner cavity of the collection box 310 is provided with a drawer 4. A filter plate 5 is embedded in the bottom of the drawer 4. The front side of the drawer 4 extends through the front side of the collection box 310 and is fixedly connected to a handle. By setting the drawer 4, dust entering the inner cavity of the collection box 310 is collected, which facilitates the centralized treatment of dust. By setting the filter plate 5, the dust entering the drawer 4 is blocked, while facilitating the flow of gas. By setting the handle, it is easy to pull the drawer 4 to move it and pull out the drawer 4 to empty the dust.
[0024] Please see Figure 3 Both sides of the inner wall of the collection box 310 are fixedly connected to support plates 6. The top of the support plates 6 is in contact with the drawer 4. By setting the support plates 6, the drawer 4 is supported, which facilitates the horizontal installation of the drawer 4.
[0025] Please see Figure 1 A limit block 7 is provided on the front side of drawer 4, and a spring telescopic rod 8 is movably connected to the rear side of the limit block 7. One side of the spring telescopic rod 8 is fixedly connected to the collection box 310. By setting the limit block 7 and the spring telescopic rod 8, the limit block 7 is pulled to press the drawer 4, thereby limiting and supporting the drawer 4, improving the stability of the drawer 4, and making it easier to disassemble the drawer 4.
[0026] Please see Figure 3 The inner wall of the communication equipment room body 1 is fixedly connected to a partition 9, and a guide plate 10 is fixedly connected to the surface of the partition 9. By setting the partition 9, the communication equipment is installed separately, and by setting the guide plate 10, the gas is guided, so that the heat can be quickly discharged upward.
[0027] Please see Figures 1-4The front of the communication equipment room body 1 is connected to a door 2 via a pivot. A temperature sensor 11 is fixedly connected to the inner wall of the communication equipment room body 1. A controller 12 is fixedly connected to the front of the communication equipment room body 1. A filter screen 13 is embedded on the right side of the communication equipment room body 1. By setting the filter screen 13, the air circulation between the inside and outside of the communication equipment room body 1 is facilitated, while preventing external dust from entering the inner wall of the equipment room. The door 2 facilitates the operator's entry and exit from the communication equipment room. The controller 12 is a SIMATIC S7-1200 PLC.
[0028] In use, multiple temperature sensors 11 detect the temperature at different locations inside the communication equipment room 1 and send the data to the controller 12. The controller 12 controls the operation of the electric push rod 36, which drives the connecting plate 35 and the movable plate 33 to move, adjusting the area of the movable plate 33 blocking the air inlet 32. The three electric push rods 36 are controlled independently. In the high-temperature area, the air inlet 32 is fully opened and the flow regulating valve 38 is opened to the maximum. In the low-temperature area, the air inlet 32 is partially blocked and the flow regulating valve 38 reduces the exhaust flow. The exhaust fan 311 runs to make the gas flow. The hot air inside the equipment room passes through the air outlet hood 31, exhaust hood 37, flow regulating valve 38, L-shaped pipe 39 and collection box 310 in sequence, and is finally discharged by the exhaust fan 311. The dust floating inside the equipment room enters the drawer 4 for collection. The rotating limit block 7 moves away from the drawer 4, and the drawer 4 is pulled out to empty the dust.
[0029] In summary, this communication equipment room with zoned heat dissipation function solves the problem that traditional communication equipment rooms, which use a single air inlet and outlet for air circulation, cannot provide targeted heat dissipation for different areas, thus reducing heat dissipation efficiency, by setting up a horizontal plate 30, an air outlet 31, an air inlet 32, a movable plate 33, a square hole 34, a connecting plate 35, and an electric push rod 36.
Claims
1. A communication equipment room with zoned heat dissipation function, comprising a communication equipment room body (1), characterized in that: The communication equipment room body (1) is equipped with an exhaust mechanism (3). The exhaust mechanism (3) includes a horizontal plate (30). One side of the horizontal plate (30) is fixedly connected to the inner wall of the communication equipment room body (1). The bottom of the horizontal plate (30) is connected to an air outlet hood (31). An air inlet hole (32) is opened at the bottom of the air outlet hood (31). A movable plate (33) is provided on the inner wall of the air outlet hood (31). A square hole (34) is opened on the surface of the movable plate (33). A connecting plate (35) is fixedly connected to the top of the movable plate (33). The top of the connecting plate (35) extends to the top of the air outlet hood (31) and is fixedly connected to an electric push rod (36). The bottom of the electric push rod (36) is fixedly connected to the horizontal plate (30).
2. A communication equipment room with zoned heat dissipation function according to claim 1, characterized in that: The top of the communication equipment room body (1) is connected to an exhaust hood (37), the top of the exhaust hood (37) is connected to a flow regulating valve (38), the top of the flow regulating valve (38) is connected to an L-shaped pipe (39), the bottom of the L-shaped pipe (39) is connected to a collection box (310), the bottom of the collection box (310) is connected to an exhaust fan (311), and one side of the collection box (310) and the exhaust fan (311) are fixedly connected to the communication equipment room body (1).
3. A communication equipment room with zoned heat dissipation function according to claim 2, characterized in that: The inner cavity of the collection box (310) is provided with a drawer (4), the bottom of the drawer (4) is inlaid with a filter plate (5), and the front side of the drawer (4) passes through the front side of the collection box (310) and is fixedly connected with a handle.
4. A communication equipment room with zoned heat dissipation function according to claim 3, characterized in that: Both sides of the inner wall of the collection box (310) are fixedly connected to support plates (6), and the top of the support plates (6) is in contact with the drawer (4).
5. A communication equipment room with zoned heat dissipation function according to claim 4, characterized in that: A limit block (7) is provided on the front side of the drawer (4), and a spring telescopic rod (8) is movably connected to the rear side of the limit block (7). One side of the spring telescopic rod (8) is fixedly connected to the collection box (310).
6. A communication equipment room with zoned heat dissipation function according to claim 1, characterized in that: The inner wall of the communication equipment room body (1) is fixedly connected to a partition (9), and the surface of the partition (9) is fixedly connected to a guide plate (10).
7. A communication equipment room with zoned heat dissipation function according to claim 1, characterized in that: The front side of the communication equipment room body (1) is connected to a door (2) via a pivot. A temperature sensor (11) is fixedly connected to the inner wall of the communication equipment room body (1). A controller (12) is fixedly connected to the front side of the communication equipment room body (1). A filter screen (13) is embedded on the right side of the communication equipment room body (1).