CN116075137A

CN116075137A - Air circulation system based on IDC computer lab

Info

Publication number: CN116075137A
Application number: CN202310210265.3A
Authority: CN
Inventors: 苏浩; 孟靖祥
Original assignee: Beijing Yian Tianxia Technology Co ltd
Current assignee: Beijing Yian Tianxia Technology Co ltd
Priority date: 2023-03-07
Filing date: 2023-03-07
Publication date: 2023-05-05

Abstract

The application relates to an air circulation system based on IDC computer lab belongs to air circulation system's technical field, and it sets up in data modularization computer lab, the computer lab includes the computer lab unit of depositing rack equipment and server of a plurality of independent settings, its characterized in that: the utility model provides a refrigerating air conditioner is provided with in the computer lab, and refrigerating air conditioner slides in the computer lab, and the air intake has been seted up to computer lab one end, and air intake and refrigerating air conditioner communicate with each other, and refrigerating air conditioner's air outlet position department is fixed with cooling tube, and cooling tube is all linked to each other in refrigerating air conditioner and the computer lab, and the air outlet has been seted up to ground one end is kept away from to the computer lab, and the position department of air outlet is fixed with the suction fan is seted up to the computer lab, and this application has the effect of practicing thrift the energy consumption.

Description

Air circulation system based on IDC computer lab

Technical Field

The application relates to the technical field of air circulation systems, in particular to an IDC (internet data center) machine room-based air circulation system.

Background

The electronic equipment in the large and medium data center machine room is densely distributed, the total cooling load is relatively large, about 300-600W per square meter, and even higher, wherein the equipment cooling load accounts for more than 80%, and the reasonable air flow organization distribution and distribution are needed aiming at the characteristics of large residual heat and concentrated heating sources of the machine room, so that the residual heat in the machine room is effectively eliminated, and the requirements of the electronic equipment on environment temperature and humidity, cleanliness, air supply speed and comfort level of personnel are ensured.

The air flow distribution and circulation system is a part of the design of the data machine room, and unscientific air flow distribution is designed to enable all cabinets to face the same direction for aesthetic reasons, so that the cooling energy resource is consumed, and meanwhile, the operation and maintenance cost is increased.

In general, a refrigerating device is arranged in a machine room, for example, cold air blown out by a precision air conditioner is used for dehumidifying and cooling the machine room, but air supply of the air conditioner is not isolated from a high-temperature air environment, and the neutralized ambient temperature of cold and hot air still cannot meet the operation requirement of server equipment, so that a precision air conditioner compressor continues refrigerating operation, low-temperature air supply is maintained for a long time to reach the normal working temperature of the machine room, ASHRAE research data of the American refrigeration and ventilation engineer society show that approximately 4% of refrigerating energy consumption can be saved when the temperature of air supply is increased once, and the long-term low-temperature or ultra-low-temperature air supply of the traditional machine room causes continuous high refrigerating energy consumption.

In view of the above-mentioned related art, the inventors consider that the air-conditioning air supply is not isolated from the high-temperature air environment, and thus continuous cooling is required, and there is a disadvantage in that energy consumption is wasted.

Disclosure of Invention

In order to achieve the effect of saving energy consumption, the application provides an IDC machine room-based air circulation system.

The application provides an air circulation system based on IDC computer lab adopts following technical scheme:

based on IDC computer lab air circulation system, set up in data modularization computer lab, the computer lab includes the computer lab unit of a plurality of independent storage rack equipment and server that set up, be provided with the refrigeration air conditioner in the computer lab, the refrigeration air conditioner slides in the computer lab, and the air intake has been seted up to computer lab one end, and the air intake communicates with each other with the refrigeration air conditioner, and the air outlet position department of refrigeration air conditioner is fixed with cooling duct, and cooling duct and refrigeration air conditioner and computer lab are interior all-round, and the air outlet has been seted up to ground one end was kept away from to the computer lab, and the position department of air outlet is seted up to the computer lab is fixed with the suction fan.

Through adopting above-mentioned technical scheme, when the computer lab operation, the computer lab unit of operation can produce heat, starts refrigeration air conditioner, and cold wind gets into refrigeration air conditioner from the air intake of computer lab, through cooling in the refrigeration air conditioner, rethread cooling tube way, in getting into the computer lab from cooling tube way, avoided cold wind temperature to be influenced by the heat temperature in the computer lab to guarantee the cool degree of cold wind, and according to the height of temperature, slide refrigeration air conditioner to the highest position of temperature cool down, the steam can be discharged through the suction fan from the air outlet, keeps the interior low temperature of computer lab, reaches the effect of saving energy consumption.

Optionally, a connecting hose is fixed between the refrigerating air conditioner and the machine room, one end of the connecting hose is communicated with the air inlet, and the other end of the connecting hose is communicated with the inside of the refrigerating air conditioner.

Through adopting above-mentioned technical scheme, coupling hose's setting for refrigeration air conditioner slip can be realized, coupling hose can stretch out and draw back the length, reaches the effect of slip refrigeration air conditioner.

Optionally, be provided with two supports in the computer lab, be provided with the connecting rod between two supports, connecting rod one end inlays in one of them support, and the connecting rod other end inlays in another support, and connecting rod and two equal sliding connection of support, refrigeration air conditioner install on the connecting rod.

Through adopting above-mentioned technical scheme, when need cooling down in the computer lab, slip refrigeration air conditioner reaches the higher position of temperature, sliding connection pole to slip refrigeration air conditioner reaches the effect of slip refrigeration air conditioner.

Optionally, the support is fixed with electric putter, electric putter power end and support fixed connection, electric putter piston rod one end and connecting rod fixed connection.

Through adopting above-mentioned technical scheme, when the slip refrigeration air conditioner of needs, start all electric putter simultaneously, electric putter's piston rod slides to promote the connecting rod, slip refrigeration air conditioner reaches the effect of slip refrigeration air conditioner.

Optionally, one side of connecting rod near ground is fixed with the loading board, is provided with the connecting block on the loading board, connecting block and loading board sliding connection, and refrigeration air conditioner installs on the connecting block.

Through adopting above-mentioned technical scheme, connecting block and loading board slip, and loading board and connecting rod fixed connection to slip refrigeration air conditioner reaches the effect of slip refrigeration air conditioner.

Optionally, be fixed with step motor on the loading board, step motor pivot one end is fixed with the threaded rod, and the threaded rod passes the connecting block, threaded rod and connecting block threaded connection.

Through adopting above-mentioned technical scheme, when needs sliding connection piece, start step motor, step motor's pivot rotates to drive the threaded rod and rotate, connecting block and threaded rod threaded connection, and connecting block and loading board slip, the threaded rod rotates, thereby the connecting block slides along the length direction of screw rod, reaches the effect of sliding connection piece.

Optionally, the one end that the connecting block is close to ground is fixed with the riser, refrigeration air conditioner and riser sliding connection, and the slip direction sets up along vertical direction.

Through adopting above-mentioned technical scheme, when the computer lab is cooled down to needs, slip refrigeration air conditioner, adjustment refrigeration air conditioner's position to heat source department to cooling rate is faster, reaches the effect of saving the energy consumption.

Optionally, the riser upper ring cover is provided with the buckle, buckle and riser sliding connection, and refrigeration air conditioner is fixed on the riser.

Through adopting above-mentioned technical scheme, when the position that needs the adjustment refrigeration air conditioner, the slip buckle, refrigeration air conditioner is fixed on the buckle to the position of adjustment refrigeration air conditioner reaches the effect of adjustment refrigeration air conditioner position.

Optionally, be fixed with the rack on the riser, the vertical downward setting of rack is fixed with the rotation motor on the buckle, rotates the motor pivot and passes the buckle, is fixed with the gear in the rotation motor pivot, gear and rack engagement.

Through adopting above-mentioned technical scheme, when the position of refrigerating air conditioner needs to be adjusted, start the rotation motor, the pivot of rotation motor rotates to gear rotation moves on the rack, thereby adjusts the position of refrigerating air conditioner, reaches the effect of adjustment refrigerating air conditioner position.

Optionally, a temperature sensor is fixed on the machine room unit, and the temperature sensor is connected with the control center.

Through adopting above-mentioned technical scheme, when needing to cool down in the computer lab, the higher position of temperature, temperature sensor can take place to report to the police, confirms the higher position of temperature through control center, adjusts the position of refrigeration air conditioner to improve the efficiency of cooling, practice thrift the energy consumption, reach the effect of saving the energy consumption.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the arrangement of the storage cabinet unit, the machine room unit, the refrigerating air conditioner, the cooling pipeline, the suction fan, the vertical plate and the temperature sensor achieves the effect of saving energy consumption;

2. the arrangement of the connecting hose, the connecting rod, the bracket, the electric push rod, the bearing plate and the connecting block achieves the effect of sliding refrigeration air conditioner;

3. the stepping motor and the threaded rod are arranged to achieve the effect of sliding the connecting block;

4. the pinch plate, the rack and the rotary motor achieve the effect of adjusting the position of the refrigerating air conditioner.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

fig. 2 is an enlarged partial schematic view of the portion a in fig. 1.

In the figure, 1, storing cabinet equipment; 2. a machine room unit; 3. refrigerating air conditioner; 31. a cooling pipe; 32. a connecting hose; 4. a bracket; 41. a connecting rod; 42. an electric push rod; 43. a carrying plate; 44. a connecting block; 45. a stepping motor; 46. a threaded rod; 5. a riser; 6. a buckle plate; 61. a rotating motor; 62. a gear; 7. a rack; 8. a temperature sensor.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-2.

The embodiment of the application discloses an air circulation system based on an IDC machine room.

Referring to fig. 1 and 2, an IDC-based air circulation system is arranged in a data modularization machine room, the machine room comprises a plurality of independently arranged storage cabinet devices 1 and machine room units 2 of a server, a plurality of storage cabinet devices 1 are uniformly distributed in the machine room, each machine room unit 2 corresponds to one storage cabinet device 1, a refrigeration air conditioner 3 is arranged in the machine room, and the refrigeration air conditioner 3 is used for cooling the machine room.

Referring to fig. 1 and 2, an air inlet is formed at one end of the machine room in the length direction, an air outlet is formed at one end of the machine room away from the ground, and a suction fan is fixed at the position of the air outlet formed in the machine room and is communicated with the air outlet.

The position department that the air intake was seted up to the computer lab is provided with coupling hose 32, coupling hose 32 all is arranged in inside the computer lab, coupling hose 32 one end and the inner wall fixed connection of computer lab, coupling hose 32 communicates with each other with the air intake, and coupling hose 32 fixes on the perisporium of air intake, coupling hose 32's the other end and the interior fixed connection of refrigeration air conditioner 3, coupling hose 32 communicates with each other with the inside of refrigeration air conditioner 3, the air outlet position department of refrigeration air conditioner 3 is fixed with cooling pipeline 31, when the inside cooling to the computer lab of need, cold wind gets into from the computer lab outside, through refrigeration air conditioner 3 processing, cold wind is from refrigeration air conditioner 3 air outlet to cooling pipeline 31, through cooling pipeline 31 continuous cooling, it is indoor to export to the computer lab from cooling pipeline 31, reduce the computer lab internal temperature, start the suction fan, the steam of production is discharged from the air outlet of computer lab.

Referring to fig. 1 and 2, two brackets 4 are provided in the machine room, two brackets 4 are oppositely provided, and two brackets 4 are placed at the extreme ends of the machine room unit 2, two brackets 4 are parallel to each other, two brackets 4 are all fixed on the ground, two brackets 4 are all perpendicular to the ground, a connecting rod 41 is provided between two brackets 4, connecting rod 41 and ground parallel arrangement, connecting rod 41 is placed above the machine room unit 2, and connecting rod 41 and two brackets 4 enclose all the machine room unit 2, one end of connecting rod 41 is embedded in one bracket 4, the other end of connecting rod 41 is embedded in the other bracket 4, connecting rod 41 and two brackets 4 are all slidingly connected, the sliding direction is along the length direction of the machine room, electric putter 42 is provided on the bracket 4, the length direction of electric putter 42 is the same with the length direction of the machine room, the power end of electric putter 42 is fixedly connected with the bracket 4, and one end of a piston rod of the electric putter 42 is fixedly connected with the connecting rod 41.

The one side that connecting rod 41 is close to the ground is fixed with loading board 43, loading board 43 and ground parallel arrangement, loading board 43's length direction is the same with the length direction of connecting rod 41, loading board 43 length direction's one end is fixed with step motor 45, step motor 45 pivot's length direction is the same with the length direction of connecting rod 41, be fixed with threaded rod 46 in the step motor 45 pivot, threaded rod 46's length direction is the same with step motor 45 pivot's length direction, threaded rod 46 keeps away from step motor 45 one end and is close to support 4, the last ring cover of threaded rod 46 is provided with connecting block 44, connecting block 44 and threaded rod 46 threaded connection, connecting block 44 and loading board 43 butt, connecting block 44 and loading board 43 sliding connection, the slip direction sets up along threaded rod 46 length direction.

The connecting block 44 is fixed with riser 5 near the one end on ground, riser 5 and ground perpendicular setting, the ring cover is provided with buckle 6 on the riser 5, buckle 6 and riser 5 sliding connection, the slip direction sets up along riser 5 length direction, be fixed with rack 7 on the riser 5, the length direction of rack 7 is the same with the length direction of riser 5, be fixed with rotation motor 61 on the buckle 6, rotation motor 61's pivot passes buckle 6, be fixed with gear 62 in the rotation motor 61 pivot, gear 62 is perpendicular with rotation motor 61 pivot, gear 62 and rack 7 meshing, when the inside cooling to the computer lab of needs, find the heat source, start electric putter 42 and adjust the position of refrigerating air conditioner 3, start step motor 45 and adjust the position of refrigerating air conditioner 3 again, finally start rotation motor 61 and adjust the position of refrigerating air conditioner 3, when adjusting refrigerating air conditioner 3 to the heat source position, start refrigerating air conditioner 3, cool down the computer lab.

Referring to fig. 1 and 2, a temperature sensor 8 is fixed on a machine room unit 2, each machine room unit 2 corresponds to one temperature sensor 8, the temperature sensor 8 is connected with a control center, when the temperature of the machine room unit 2 at a certain position is higher, the temperature sensor 8 sends out a signal, and the position of the machine room unit 2 with higher temperature is known through the control center, so that the refrigerating air conditioner 3 is adjusted to cool the machine room unit.

The implementation principle of the air circulation system based on the IDC machine room is as follows: when the temperature in the machine room is required to be reduced, the temperature sensor 8 gives an alarm, the position of the machine room unit 2 with higher temperature is determined according to the signal obtained by the control center, the electric push rod 42 is started to adjust the position of the refrigerating air conditioner 3, the stepping motor 45 and the rotating motor 61 are started again to adjust the position of the refrigerating air conditioner 3, and when the refrigerating air conditioner 3 is adjusted to the position of the machine room unit 2 with higher temperature, the refrigerating air conditioner 3 and the suction fan are started simultaneously to reduce the temperature of the machine room.

The embodiments of the present invention are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. Based on IDC computer lab air circulation system, set up in data modularization computer lab, the computer lab includes a plurality of independent storage rack equipment (1) and the computer lab unit (2) of server that set up, its characterized in that: be provided with refrigeration air conditioner (3) in the computer lab, refrigeration air conditioner (3) slide in the computer lab, and the air intake has been seted up to computer lab one end, and air intake and refrigeration air conditioner (3) communicate with each other, and the air outlet position department of refrigeration air conditioner (3) is fixed with cooling tube (31), and cooling tube (31) are all linked with in refrigeration air conditioner (3) and the computer lab, and the air outlet has been seted up to the computer lab one end of keeping away from ground, and the position department of air outlet is seted up to the computer lab is fixed with the suction fan.

2. An IDC room based air circulation system as defined in claim 1, wherein: a connecting hose (32) is fixed between the refrigerating air conditioner (3) and the machine room, one end of the connecting hose (32) is communicated with the air inlet, and the other end of the connecting hose (32) is communicated with the inside of the refrigerating air conditioner (3).

3. An IDC room based air circulation system as defined in claim 1, wherein: be provided with two supports (4) in the computer lab, be provided with connecting rod (41) between two supports (4), connecting rod (41) one end is inlayed in one of them support (4), and connecting rod (41) other end is inlayed in another support (4), and equal sliding connection of connecting rod (41) and two supports (4), refrigerating air conditioner (3) are installed on connecting rod (41).

4. An IDC room based air circulation system as in claim 3 wherein: an electric push rod (42) is fixed on the support (4), the power end of the electric push rod (42) is fixedly connected with the support (4), and one end of a piston rod of the electric push rod (42) is fixedly connected with the connecting rod (41).

5. An IDC room based air circulation system as in claim 3 wherein: one side of the connecting rod (41) close to the ground is fixed with a bearing plate (43), a connecting block (44) is arranged on the bearing plate (43), the connecting block (44) is in sliding connection with the bearing plate (43), and the refrigerating air conditioner (3) is arranged on the connecting block (44).

6. The IDC room-based air circulation system of claim 5, wherein: a stepping motor (45) is fixed on the bearing plate (43), a threaded rod (46) is fixed at one end of a rotating shaft of the stepping motor (45), the threaded rod (46) penetrates through the connecting block (44), and the threaded rod (46) is in threaded connection with the connecting block (44).

7. The IDC room-based air circulation system of claim 5, wherein: one end of the connecting block (44) close to the ground is fixedly provided with a vertical plate (5), the refrigerating air conditioner (3) is in sliding connection with the vertical plate (5), and the sliding direction is arranged along the vertical direction.

8. The IDC room air circulation system of claim 7, wherein: the upper ring of the vertical plate (5) is sleeved with a buckle plate (6), the buckle plate (6) is in sliding connection with the vertical plate (5), and the refrigerating air conditioner (3) is fixed on the vertical plate (5).

9. The IDC machine room based air circulation system of claim 8, wherein: the vertical plate (5) is fixedly provided with a rack (7), the rack (7) is vertically downwards arranged, the buckle plate (6) is fixedly provided with a rotating motor (61), a rotating shaft of the rotating motor (61) penetrates through the buckle plate (6), a gear (62) is fixedly arranged on the rotating shaft of the rotating motor (61), and the gear (62) is meshed with the rack (7).

10. An IDC room based air circulation system as defined in claim 1, wherein: and a temperature sensor (8) is fixed on the machine room unit (2), and the temperature sensor (8) is connected with a control center.