CN220326122U - Energy-saving temperature control system for data center machine room - Google Patents

Abstract

The utility model provides an energy-saving temperature control system of a data center machine room, which comprises a machine room main body, a control box and a cabinet, wherein the control box and the cabinet are arranged in the machine room main body, an antistatic floor is arranged on the ground of the machine room main body, an indoor unit is arranged in the machine room main body, an outdoor unit is arranged outside the machine room main body, one side of the antistatic floor close to the cabinet is provided with a ventilation opening, a lower air supply pipeline is paved in an overhead area of the ground of the machine room main body and the antistatic floor, the lower air supply pipeline is connected with the ventilation opening through a lower air outlet pipe, an air outlet is arranged below a left side wall of the machine room main body, an air inlet is arranged above a right side wall of the machine room main body, and negative pressure fans are arranged on the air inlet and the air outlet. The cold wind that indoor set produced is sent to the air inlet of rack along lower air supply pipeline, then is inhaled to inside by the rack, accomplishes cold equipment earlier and then cold environment, and the heat that the rack produced rises, and the negative pressure fan of computer lab main part both sides additional installs produces the convection current at the during operation, takes away these heat, and is efficient, and the cooling effect is good.

Description

Energy-saving temperature control system for data center machine room

Technical Field

The utility model belongs to the technical field of machine room cooling equipment, and particularly relates to an energy-saving temperature control system of a data center machine room.

Background

Summer is the highest temperature season in one year, and is mainly characterized by continuous high temperature, large rainfall and large sand wind, and the problems brought to the data center machine room are also revealed. Because of the material temperature characteristics of the electronic devices in the server, logic judgment of the electronic devices can be wrong under the environment higher than the allowable temperature, if the temperature is not reduced in time, the fault rate of the equipment can be increased due to the overheat temperature, and the service life of the equipment is shortened.

Chinese patent (CN 210537215U) discloses a cold air energy-saving cooling device for a machine room, which comprises a machine room, wherein an air supply pipe is inserted on the right wall surface of the machine room and close to the bottom, a first fan is installed on the left side in the air supply pipe, a first filter screen is installed on the right side of the first fan and in the air supply pipe, a pair of ash containing cylinders with the same structure are inserted on the bottom of the air supply pipe and on the left and right sides of the first filter screen, clamping structures with the same structure are installed on the left and right sides of the ash containing cylinders, an exhaust pipe is inserted on the left wall surface of the machine room and close to the top, a second fan is installed in the exhaust pipe, a shutter is installed on the right end surface of the exhaust pipe, and a temperature controller is installed on the right wall surface of the machine room and close to the upper side; the clamping structure comprises a connecting rod, the connecting rod is movably connected with the air supply pipe, a channel steel is arranged on the lower end face of the connecting rod, a clamping rod is arranged in the channel steel, a clamping groove is formed in the outer wall surface of the ash containing cylinder, the clamping rod is connected with the clamping groove in an inserting mode, a pull rod is arranged at the bottom of the clamping rod and penetrates through the channel steel, and a first spring is arranged outside the pull rod and between the clamping rod and the channel steel; install servo motor on the blast pipe, the last recess of just being located filter screen department of blast pipe, install the carousel in the recess, install the belt on carousel and servo motor's the rotatory terminal surface, the cartridge has a plurality of pulleys that the structure is the same on the carousel, one of them pulley touches with the filter screen mutually, and a plurality of install a plurality of second springs that are the same to the structure between pulley and the carousel.

In the device, fans are additionally arranged on two sides of the machine room, and hot air generated by indoor equipment is discharged outdoors while outdoor cold air is introduced indoors, so that the circulating cooling speed of the machine room is accelerated. The heat in the machine room is sourced from the inside of the equipment and then diffused to the surrounding environment, the cooling device is limited in use, and the cooling device is still used for cooling the environment, so that the problem can not be solved from the inside of the equipment. Therefore, the existing cooling device of the machine room needs to be improved.

Disclosure of Invention

Aiming at the defects pointed out in the background technology, the utility model aims to provide an energy-saving temperature control system of a data center machine room, so as to solve the problem that the existing cooling device is not ideal in cooling.

In order to achieve the above object, the technical scheme of the present utility model is as follows:

the utility model provides an energy-conserving temperature control system of data center computer lab, includes the computer lab main part and sets up control box and the rack in the inside computer lab main part, the subaerial antistatic floor that has been put up through the support frame of computer lab main part, the rack place in antistatic floor, antistatic floor is close to one side of computer lab main part left side wall body and installs the indoor set, the outside off-premises station that is equipped with and is connected with the indoor set of computer lab main part, antistatic floor is close to one side of rack and is equipped with the vent, the vent articulates through the pivot has the grid board, the ground of computer lab main part has laid down the air supply pipeline with the overhead region on antistatic floor, down the air supply pipeline is connected with the wind gap of indoor set lower extreme, down the air supply pipeline is through down going out the tuber pipe and connect the vent, the left side wall below of computer lab main part is equipped with the air outlet, the right side wall top of computer lab main part is equipped with the air intake, the negative pressure fan is all installed to the air outlet.

As a preferable technical scheme, a filter assembly which is opposite to the negative pressure fan is arranged on the right side wall body of the machine room main body, and the filter assembly is positioned on the inner side of the wall body.

As an optimized technical scheme, electric shutters facing the negative pressure fans are respectively arranged on two side walls of the machine room main body, and the electric shutters are positioned on the outer sides of the walls.

As a preferable technical scheme, the evaporation air cooler is arranged outside the right side wall of the machine room main body, a ceiling is arranged above the inside of the machine room main body, a plurality of louver air inlets are arranged on the ceiling, an upper air supply pipeline is laid in an overhead area of the top of the machine room main body and the ceiling, the upper air supply pipeline is connected with the evaporation air cooler, and the upper air supply pipeline is connected with the louver air inlets through an upper air outlet pipe.

As a preferred technical scheme, the energy-saving temperature control system of the data center machine room further comprises a water tank arranged outside the machine room main body, a water pump is arranged at the top of the water tank, the input end of the water pump is connected with a water inlet pipe, the water inlet pipe extends to the inner bottom of the water tank, and the output end of the water pump is connected with an evaporation air cooler through a water supply pipe.

As a preferred technical scheme, the end part of the water inlet pipe is provided with a filtering device.

After the technical scheme is adopted, the utility model has the beneficial effects that:

the indoor unit adopts down air supply, and cold wind is along the air inlet of air supply pipeline delivery to rack down, then is inhaled to inside by the rack, accomplishes the cold environment behind the cold equipment of first, and the heat that the rack produced rises, and the negative pressure fan of computer lab main part both sides additional installation produces the convection current at the during operation, takes away these heat, and is efficient, and the cooling effect is good. The negative pressure fan and the indoor unit can work alternately, so that energy consumption is reduced.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic structural view of the present utility model.

In the figure: 1. a cabinet; 2. an antistatic floor, 21, a supporting frame, 22 and a grating plate; 3. ceiling, 31, shutter air port; 4. an indoor unit 41, a lower air supply pipeline 411 and a lower air outlet pipe; 5. an outdoor unit; 6. an evaporation air cooler 61, an upper air supply pipeline 611 and an upper air outlet pipe; 7. a water tank 71, a water pump 711, and a water supply pipe; 8. negative pressure fan, 81, filter component, 82, electric shutter.

Detailed Description

Features and exemplary embodiments of various aspects of the present utility model will be described in detail below, and in order to make the objects, technical solutions and advantages of the present utility model more apparent, the present utility model will be described in further detail below with reference to the accompanying drawings and the detailed embodiments. It should be understood that the specific embodiments described herein are merely configured to illustrate the utility model and are not configured to limit the utility model. It will be apparent to one skilled in the art that the present utility model may be practiced without some of these specific details. The following description of the embodiments is merely intended to provide a better understanding of the utility model by showing examples of the utility model.

The directional terms appearing in the following description are those directions shown in the drawings and do not limit the specific structure of the utility model. In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be directly connected or indirectly connected. The specific meaning of the above terms in the present utility model can be understood as appropriate by those of ordinary skill in the art.

The following describes in detail the technical solution provided by the embodiment of the utility model with reference to fig. 1.

The utility model provides an energy-saving temperature control system for a data center machine room, which comprises a machine room main body, and a control box and a cabinet 1 which are arranged in the machine room main body.

The above-ground of computer lab main part is equipped with antistatic floor 2 through support frame 21, and rack 1 is placed on antistatic floor 2, and antistatic floor 2 is close to one side of rack 1 and is equipped with the vent, and the vent articulates through the pivot has grid board 22. An air conditioning system is arranged inside the machine room main body, and comprises an indoor unit 4 and an outdoor unit 5. An indoor unit 4 is arranged on one side of the antistatic floor 2, which is close to the left wall of the machine room main body, and an outdoor unit 5 connected with the indoor unit 4 is arranged outside the machine room main body. A lower air supply pipeline 41 is laid in the overhead area of the ground of the machine room main body and the antistatic floor 2, the lower air supply pipeline 41 is connected with an air port at the lower end of the indoor unit 4, and the lower air supply pipeline 41 is connected with the air port through a lower air outlet pipe 411.

The indoor unit 4 adopts the working modes of upper return air and lower air supply, and cold air generated by an air inlet of the indoor unit 4 is blown into the lower air supply pipeline 41 and then distributed to different ventilation openings through each lower air outlet pipe 411. The air inlet of the cabinet 1 is often arranged at the bottom of the cabinet body, and the cool air emitted by the air vent is sucked into the cabinet 1 by the fan to the environment of first cooling equipment and then cooling. After heat exchange with components in the cabinet 1, heat generated by the cabinet 1 rises and is re-absorbed by the indoor unit 4, so that the efficiency is high and the cooling effect is good.

An air outlet is arranged below the left side wall body of the machine room main body, an air inlet is arranged above the right side wall body of the machine room main body, and negative pressure fans 8 are arranged on the air inlet and the air outlet. The right side wall body of the machine room main body is provided with a filter component 81 which is opposite to the negative pressure fan 8, and the filter component 81 is positioned on the inner side of the wall body. The filter assembly 81 can filter out outdoor dust to ensure clean air entering the machine room main body. Electric shutters 82 opposite to the negative pressure fans 8 are respectively arranged on the wall bodies on the two sides of the machine room main body, and the electric shutters 82 are positioned on the outer sides of the wall bodies. When the rainfall is large, the electric louver 82 can close the louver, so that the invasion of rainwater is avoided. The negative pressure fans 8 additionally arranged on two sides of the machine room main body are one high and one low, convection is generated during operation, heat generated by the cabinet 1 rises, heat carried by convection is sent into the return air inlet at the upper end of the indoor unit 4, and the effect of the indoor unit 4 can be exerted by components. The negative pressure fan 8 and the indoor unit 4 can work alternately, so that the energy consumption is reduced.

A ceiling 3 is arranged above the inside of the machine room body, a plurality of louver air inlets 31 are arranged on the ceiling 3, and an upper air supply pipeline 61 is laid in an overhead area of the ceiling 3 and the top of the machine room body. An evaporation air cooler 6 is arranged outside the right side wall body of the machine room main body, an upper air supply pipeline 61 is connected with the evaporation air cooler 6, and the upper air supply pipeline 61 is connected with the louver air port 31 through an upper air outlet pipe 611. The evaporative air cooler 6 comprises a box body, a pump body, a water tank, a fan and a wet curtain, the pump body pumps water from the water tank to the wet curtain, the fan absorbs heat through the evaporated water of the air blown by the wet curtain, and the cooled air is blown out of the air cooler by the fan, so that the cooling effect is achieved.

The energy-saving temperature control system of the data center machine room further comprises a water tank 7 arranged outside the machine room main body, and a water pump 71 is arranged at the top of the water tank 7. The input of water pump 71 is connected with the inlet tube, and the inlet tube stretches to the interior bottom of water tank 7, and the inlet tube tip is provided with filter equipment, and the output of water pump 71 passes through delivery pipe 711 and connects evaporation air-cooler 6. The water tank 7 is used for supplementing water for the water tank in the evaporation air cooler 6, and the water tank 7 can simultaneously provide water source supply for a plurality of evaporation air coolers 6.

Temperature and humidity sensors are arranged in the machine room main body everywhere, under the control of a control box, negative pressure fans 8 additionally arranged on two sides of the machine room main body start to work in advance, and convection is generated when the negative pressure fans 8 work so as to cool the cabinet 1. Along with the extension of the working time of the cabinet 1, the heat generated by the cabinet 1 is higher and higher, and when the temperature exceeds the set temperature, the control box controls the evaporation type air cooler 6 to start. The cold air generated by the evaporation air cooler 6 is blown into the upper air supply pipeline 61, and then distributed to different louver air inlets 31 through the upper air outlet pipes 611, convection is generated by the negative pressure fan 8 during working, the convection can be diffused to the whole machine room, the temperature of the machine room 1 is reduced, the humidity in the machine room is also improved, and the generation probability of static electricity is reduced. If the evaporating air cooler 6 can not work to lower the temperature to a preset value, the control box controls the starting of the air conditioning system. The cold air generated by the air inlet of the indoor unit 4 is blown into the lower air supply pipeline 41 and then distributed to different ventilation openings through the lower air outlet pipes 411, the cold air emitted by the ventilation openings is sucked into the interior by the fans in the cabinet 1, and after the cold air exchanges heat with components in the cabinet 1 and further heat exchange, the heat generated by the cabinet 1 rises and is re-absorbed by the indoor unit 4, so that the deep cooling of the cabinet 1 is realized. The coordination of the devices avoids the continuous work of the air conditioning system and reduces the energy consumption.

In accordance with the above embodiments of the utility model, these embodiments are not exhaustive of all details, nor are they intended to limit the utility model to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best utilize the utility model and various modifications as are suited to the particular use contemplated. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (6)

1. The utility model provides an energy-conserving temperature control system of data center computer lab, includes computer lab main part and sets up control box and rack (1) inside the computer lab main part, its characterized in that: the utility model discloses a machine room is characterized in that an antistatic floor (2) is erected on the ground of a machine room main body through a support frame (21), a cabinet (1) is placed in the antistatic floor (2), an indoor unit (4) is installed on one side of the antistatic floor (2) close to a left wall of the machine room main body, an outdoor unit (5) connected with the indoor unit (4) is arranged outside the machine room main body, a vent is arranged on one side of the antistatic floor (2) close to the cabinet (1), a grid plate (22) is hinged to the vent through a rotating shaft, a lower air supply pipeline (41) is paved in an overhead area of the ground of the machine room main body and the antistatic floor (2), the lower air supply pipeline (41) is connected with an air port at the lower end of the indoor unit (4), the lower air supply pipeline (41) is connected with the vent through a lower air outlet pipe (411), an air outlet is arranged below the left wall of the machine room main body, an air inlet is arranged above the right wall of the machine room main body, and a negative pressure fan (8) is arranged at the air outlet.

2. The energy-saving and temperature-controlling system of a data center machine room according to claim 1, wherein: and a filter assembly (81) opposite to the negative pressure fan (8) is arranged on the right side wall body of the machine room main body, and the filter assembly (81) is positioned on the inner side of the wall body.

3. The energy-saving and temperature-controlling system of a data center machine room according to claim 2, wherein: electric shutters (82) opposite to the negative pressure fan (8) are respectively arranged on the wall bodies on the two sides of the machine room main body, and the electric shutters (82) are positioned on the outer sides of the wall bodies.

4. The energy-saving and temperature-controlling system of a data center machine room according to claim 1, wherein: the outside evaporation air cooler (6) that installs of right side wall of computer lab main part, the inside top of computer lab main part is equipped with ceiling (3), be equipped with a plurality of tripe wind gap (31) on ceiling (3), air supply pipeline (61) have been laid in the overhead area of top and ceiling (3) of computer lab main part, air supply pipeline (61) are connected with evaporation air cooler (6) on, air supply pipeline (61) are connected tripe wind gap (31) through last tuber pipe (611).

5. The energy-saving and temperature-controlling system for a data center room according to claim 4, wherein: the energy-saving temperature control system of the data center machine room further comprises a water tank (7) arranged outside the machine room main body, a water pump (71) is arranged at the top of the water tank (7), the input end of the water pump (71) is connected with a water inlet pipe, the water inlet pipe extends to the inner bottom of the water tank (7), and the output end of the water pump (71) is connected with an evaporation air cooler (6) through a water supply pipe (711).

6. The energy-saving and temperature-controlling system for a data center room according to claim 5, wherein: the end part of the water inlet pipe is provided with a filtering device.