CN111587042A - Temperature control system for computer room of power system - Google Patents

Abstract

The invention discloses a temperature control system of a computer room of an electric power system, which comprises: the heat dissipation device comprises a machine room and a heat dissipation assembly, wherein an air inlet flow channel is arranged in the wall of the machine room in a surrounding mode, an air inlet communicated with the air inlet flow channel is formed in the inner top of the machine room, a side hole communicated with the air inlet flow channel is formed in the side wall of the machine room, and the end portion of the air inlet flow channel is connected with a wind power output end of a fan through a pipeline. According to the invention, the side holes and the air inlets are arranged on the wall body of the machine room, and the air inlet flow channel and the air outlet flow channel are matched to radiate heat in the machine room from a plurality of angles, so that the uniformity of heat radiation is improved; the heat dissipation component is used for dissipating heat of the machine room, the heat dissipation component is matched with the air inlet flow channel and the air outlet flow channel to form circulation, and the filter is used for filtering, so that dust in the outside air is reduced and is left in the machine room, and the damage of the dust to elements is avoided; the circulating air is cooled by the cooling water tank, so that the temperature of the circulating air is reduced, and the heat dissipation efficiency is improved.

Description

Temperature control system for computer room of power system

Technical Field

The invention relates to the technical field of temperature control of an electric power system, in particular to a temperature control system of a computer room of the electric power system.

Background

The electric power system is an electric energy production and consumption system which consists of links such as a power plant, a power transmission and transformation line, a power supply and distribution station, power utilization and the like. The function of the device is to convert the primary energy of the nature into electric energy through a power generation device, and then supply the electric energy to each user through power transmission, power transformation and power distribution. In order to realize the function, the power system is also provided with corresponding information and control systems at each link and different levels, and the production process of the electric energy is measured, regulated, controlled, protected, communicated and scheduled so as to ensure that users obtain safe and high-quality electric energy.

The main structures of the power system include a power source (power plants such as hydropower stations, thermal power plants, and nuclear power plants), a substation (a step-up substation, a load center substation, and the like), a power transmission and distribution line, and a load center. The power supply points are also mutually connected to realize the exchange and regulation of electric energy among different regions, thereby improving the safety and the economical efficiency of power supply. The network formed by the transmission line and the substation is usually called a power network. The information and control system of the power system consists of various detection devices, communication devices, safety protection devices, automatic control devices and automatic monitoring and dispatching systems. The structure of the power system should ensure reasonable coordination of power generation and consumption on the basis of advanced technical equipment and high economic benefit. With the development of the technology, the power system has fully realized the automation control, and the computer equipment has been fully applied to the power system.

In order to ensure the safe and stable work of an industrial control computer used by an electric power system, a temperature control system is installed in a machine room to adjust the environment in the machine room, the temperature of the existing temperature control system in the machine room is controlled unevenly, the temperature of a part close to a heat dissipation point is low, the temperature of the part close to the heat dissipation point is high, part of machines are easily damaged due to overhigh temperature, and external dust enters the inside of the machine to easily damage electronic elements during heat dissipation. For this reason, a new scheme needs to be designed to give improvements.

Disclosure of Invention

The invention aims to provide a temperature control system for a computer room of an electric power system, which solves the problems in the background art and meets the actual use requirements.

In order to achieve the purpose, the invention provides the following technical scheme: a power system computer room temperature control system, comprising: the heat dissipation device comprises a machine room and a heat dissipation assembly, wherein an air inlet flow channel and an air outlet flow channel are arranged in the wall of the machine room in a surrounding manner, an air inlet communicated with the air inlet flow channel is formed in the inner top of the machine room, a side hole communicated with the air inlet flow channel is formed in the side wall of the machine room, the end part of the air inlet flow channel is connected with the wind power output end of a fan by adopting a pipeline, the tail end of the air outlet flow channel is connected with a filter by adopting a pipeline, and an air outlet communicated; the heat dissipation assembly comprises a fan, a cooling water tank and a filter, the fan, the cooling water tank and the filter are sequentially connected through pipelines, a filter plate, a motor and a brush plate are installed inside the filter, a power output end of the motor penetrates through the filter plate and is connected with a limiting plate, the front section of the power output end of the motor is of a hexagonal structure, the brush plate is arranged on the left side of the filter plate, bristles are uniformly arranged on the opposite surface of the brush plate to the filter plate, a hexagonal hole is formed in the middle of the brush plate and is sleeved on the power output end of the motor, a spring is further sleeved on the power output end of the motor, and two ends of the spring are respectively connected with the limiting plate and the brush plate; the utility model discloses a fan cooling device, including cooling water tank, filter, fan, cooling water tank's internally mounted has the cooling tube, the one end of cooling tube and the pipe connection between filter and the cooling water tank, the other end upwards extend and with the pipe connection between cooling water tank and the fan, the inside packing of cooling water tank has the coolant liquid, the middle section of cooling tube is snakelike structure and soaks in the coolant liquid.

As a preferred embodiment of the present invention, a liquid inlet pipe and a liquid outlet pipe are respectively installed on two sides of the right side wall of the cooling water tank, a liquid inlet electromagnetic valve is installed on the liquid inlet pipe, and a liquid outlet electromagnetic valve is installed on the liquid outlet pipe.

As a preferred embodiment of the present invention, the cooling water tank is further provided with a liquid level detection mechanism, the liquid level detection mechanism includes a connecting rod, a trigger plate, a floating block and a sleeve, the trigger plate is disposed above the cooling water tank, the bottom of the trigger plate is connected to the connecting rod, the connecting rod is vertically disposed, the lower end of the connecting rod extends into the cooling water tank and is connected to the floating block, the sleeve is mounted on the inner top of the cooling water tank and is sleeved on the connecting rod, the bottom surface of the sleeve is provided with a first tact switch corresponding to the floating block, and the top surface of the cooling water tank is provided with a first tact switch corresponding to the trigger plate.

As a preferred embodiment of the present invention, a temperature sensor is installed on a pipeline between the air intake channel and the fan, a wind sensor is installed on a pipeline between the filter and the cooling water tank, and a controller is further installed inside the machine room.

As a preferred embodiment of the present invention, the temperature sensor detects the temperature of the cooling air delivered to the air inlet flow channel by the fan, and when the temperature is higher than a set temperature, it is determined that the temperature of the cooling air is too high, the liquid outlet solenoid valve is started to discharge the cooling liquid in the cooling water tank, the floating block is driven to move down along with the decrease of the liquid level, the first tact switch is triggered by the trigger plate, the liquid outlet solenoid valve is closed and the liquid inlet solenoid valve is started after triggering, the cooling water tank is filled with the cooling liquid, the second tact switch is triggered by the floating block along with the increase of the liquid level, and the liquid inlet solenoid valve is closed after triggering, so as.

In a preferred embodiment of the present invention, the wind sensor detects wind force in a pipe between the filter and the cooling water tank, determines that the surface of the filter plate is blocked when the wind force is lower than a predetermined value, starts the motor, drives the brush plate to rotate after the motor rotates, cleans the surface of the filter plate through the brush bristles, and stops the motor after the wind force returns to a normal range.

As a preferred embodiment of the present invention, air guiding protrusions are disposed on the inner wall of the air inlet channel and on opposite surfaces of the air inlet and the side hole, and the air guiding protrusions are in a hemispherical structure.

In a preferred embodiment of the present invention, four cooling grooves are formed in the surface of the cooling pipe, and cooling fins are disposed on both sides of the inner wall of each cooling groove.

Compared with the prior art, the invention has the following beneficial effects:

(1) according to the invention, the side holes and the air inlets are arranged on the wall body of the machine room, and the air inlet flow channel and the air outlet flow channel are matched to radiate heat in the machine room from a plurality of angles, so that the uniformity of heat radiation is improved.

(2) According to the invention, the heat dissipation component is used for dissipating heat of the machine room, the circulation is formed by matching the air inlet flow channel and the air outlet flow channel, the filter is used for filtering, dust in the outside air is reduced to be left in the machine room, and the damage to elements is avoided.

(3) According to the invention, the circulating air is cooled by the cooling water tank, so that the temperature of the circulating air is reduced, and the heat dissipation efficiency is improved.

Drawings

FIG. 1 is a block diagram of a temperature control system for a computer room of an electrical power system according to the present invention;

FIG. 2 is a block diagram of the filter of the present invention;

FIG. 3 is a structural view of a cooling water tank according to the present invention;

FIG. 4 is a block diagram of a cooling tube according to the present invention;

FIG. 5 is a cross-sectional view of a cooling tube according to the present invention.

In the figure, a machine room 1; a heat dissipating component 2; an air inlet channel 3; an air inlet 4; an air guide projection 5; side holes 6; an air outlet 7; an air outlet flow passage 8; a filter 9; a cooling water tank 10; a fan 11; a temperature sensor 12; a wind sensor 13; a filter plate 14; a brush plate 15; a limit plate 16; a spring 17; a motor 18; bristles 19; a cooling pipe 20; a liquid outlet electromagnetic valve 21; a liquid inlet electromagnetic valve 22; a trigger plate 23; a connecting rod 24; a tact switch I25; a second tact switch 26; a float 27; a cooling tank 28; a heat sink 29; a controller 30; a sleeve 31.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a power system computer room temperature control system, comprising: the heat dissipation device comprises a machine room 1 and a heat dissipation component 2, an air inlet flow channel 3 and an air outlet flow channel 8 are arranged in the wall of the machine room 1 in a surrounding manner, an air inlet 4 communicated with the air inlet flow channel 3 is arranged at the inner top of the machine room 1, a side hole 6 communicated with the air inlet flow channel 3 is arranged on the side wall of the machine room 1, the end part of the air inlet flow channel 3 is connected with the wind power output end of a fan 11 by adopting a pipeline, the tail end of the air outlet flow channel 8 is, an air outlet 7 communicated with the air outlet flow passage 8 is arranged in the machine room 1, the air outlet flow passage 8, the filter 9, the cooling water tank 10, the fan 11 and the air inlet flow passage 3 are matched to form cooling air internal circulation, so that the participation of outside air is avoided, dust in the outside air is prevented from entering the machine room 1 during heat dissipation, the filter 9 can also filter the outlet air, so that the dust amount in the machine room 1 is further reduced, and the influence of dust on the electronic equipment is avoided; the heat dissipation component 2 comprises a fan 11, a cooling water tank 10 and a filter 9, the fan 11, the cooling water tank 10 and the filter 9 are sequentially connected by a pipeline, a filter plate 14, a motor 18 and a brush plate 15 are arranged inside the filter 9, a power output end of the motor 18 penetrates through the filter plate 14 and is connected with a limiting plate 16, the front section of the power output end of the motor 18 is of a hexagonal structure, the brush plate 15 is arranged on the left side of the filter plate 14, bristles 19 are uniformly arranged on the opposite surface of the brush plate 15 to the filter plate 14, a hexagonal hole is formed in the middle of the brush plate 15 and is sleeved on the power output end of the motor 18, a spring 17 is further sleeved on the power output end of the motor 18, two ends of the spring 17 are respectively connected with the limiting plate 16 and the brush plate 15, air inlet filtration is carried out through the filter plate 14, when the filter plate 14 is blocked by a large area, the cleaned dust and wool are gathered or wound on one side of the bristles 19, and the maintenance personnel can clean the brush plate 15 regularly; cooling water tank 10's internally mounted has cooling tube 20, the pipe connection between cooling tube 20's one end and filter 9 and cooling water tank 10, the other end upwards extend and with cooling water tank 10 and fan 11 between the pipe connection, cooling water tank 10 inside packing has the coolant liquid, cooling tube 20's middle section is snakelike structure and soaks in the coolant liquid, the air-out flows in entering into cooling tube 20 in cooling water tank 10, carry out the heat exchange with the coolant liquid when passing through cooling tube 20, reduce its temperature, improve the radiating quality.

In a further improvement, as shown in fig. 3: a liquid inlet pipe and a liquid outlet pipe are respectively arranged on two sides of the right side wall of the cooling water tank 10, a liquid inlet electromagnetic valve 22 is arranged on the liquid inlet pipe, a liquid outlet electromagnetic valve 21 is arranged on the liquid outlet pipe, and liquid outlet and liquid inlet are controlled through the electromagnetic valves.

In a further improvement, as shown in fig. 3: still install liquid level detection mechanism on cooling water tank 10, liquid level detection mechanism includes connecting rod 24, trigger plate 23, kicking block 27 and sleeve pipe 31, trigger plate 23 and set up and be connected with connecting rod 24 in cooling water tank 10 top and bottom, the vertical setting of connecting rod 24 and lower extreme extend to in cooling water tank 10 and be connected with kicking block 27, sleeve pipe 31 installs at cooling water tank 10's interior top and cup joints on connecting rod 24, sleeve pipe 31's bottom surface is installed and is dabbed switch two 26 that correspond with kicking block 27, dabbed switch one 25 that corresponds with trigger plate 23 is installed to cooling water tank 10's top surface, a liquid level inside for detecting cooling water tank.

Further improved, as shown in fig. 1: a temperature sensor 12 is installed on a pipeline between the air inlet flow channel 3 and the fan 11, a wind sensor 13 is installed on a pipeline between the filter 9 and the cooling water tank 10, and a controller 30 is also installed inside the machine room 1 and used for detecting circulating wind power and temperature.

In a further improvement, as shown in fig. 1-3: the temperature sensor 12 detects the temperature of the cooling air delivered by the fan 11 to the air inlet flow channel 3, when the temperature is higher than a set temperature, the temperature of the cooling air is judged to be too high, the liquid outlet electromagnetic valve 21 is started, the cooling liquid in the cooling water tank 10 is discharged, the floating block 27 is driven to move downwards along with the falling of the liquid level, the first tact switch 25 is triggered through the trigger plate 23, the liquid outlet electromagnetic valve 21 is closed and the liquid inlet electromagnetic valve 22 is started after triggering, the cooling water tank 10 is filled with the cooling liquid, the second tact switch 26 is triggered by the floating block 27 along with the rising of the liquid level, and the liquid inlet electromagnetic valve 22 is closed after triggering, so that.

In a further improvement, as shown in fig. 1-2: the wind power sensor 13 detects the wind power of the pipeline between the filter 9 and the cooling water tank 10, when the wind power is lower than a set value, the surface of the filter plate 14 is judged to be blocked, the motor 18 is started, the brush plate 15 is driven to rotate after the motor 18 rotates, the surface of the filter plate 14 is cleaned through the brush bristles 19, the motor 18 is stopped after the wind power returns to a normal interval, the filter plate is automatically cleaned, and the influence of the surface blockage on heat dissipation is avoided.

Further improved, as shown in fig. 1: the inner wall of the air inlet runner 3 and the opposite surfaces of the air inlet 4 and the side hole 6 are provided with air guide convex blocks 5, the air guide convex blocks 5 are of hemispherical structures, and the air guide convex blocks 5 play a role in guiding air.

Specifically, the surface of the cooling pipe 20 is provided with four cooling grooves 28 which are recessed inwards, and the two sides of the inner wall of each cooling groove 28 are provided with cooling fins 29, so that the heat exchange effect is increased, and the cooling speed is increased.

When the invention is used, the fan 11 is started to draw out air in the machine room 1 through the air outlet flow passage 8, and send cooling air into the machine room 1 through the air inlet flow passage 3, the air is discharged through the side holes 6 and the air inlet 4, heat is radiated to the equipment in the machine room 1 from multiple angles, when the inlet air enters the filter 9, the filter plate 14 is used for filtering dust and flocks in the inlet air, the filtered inlet air is cooled through the cooling pipe 20 and is sent into the fan 11 after being cooled, the temperature sensor 12 detects the air supply temperature of the fan 11 to the air inlet flow passage, when the temperature is higher than the set temperature, the temperature is judged to be overhigh, the liquid outlet electromagnetic valve 21 is started, the cooling liquid in the cooling water tank 10 is discharged, the floating block 27 is driven to move downwards along with the liquid level reduction, the light touch switch I25 is triggered through the trigger plate 23, the liquid outlet electromagnetic valve 21 is closed and the liquid inlet, to the inside coolant liquid that fills of coolant tank 10, along with the liquid level rises, floater 27 triggers dabs switch two 26, close feed liquor solenoid valve 22 after triggering, come to change the inside liquid of coolant tank 10, wind-force sensor 13 detects the pipeline wind-force between filter 9 and the coolant tank 10, when wind-force is less than the settlement numerical value, judge filter 14 blocking on the surface, starter motor 18, motor 18 rotates back drive brush board 15 and rotates, clear up filter 14 surface through brush hair 19, treat that wind-force resumes to stop motor 18 behind the normal interval, clear up the filter automatically, avoid its blocking on the surface to the influence that the heat dissipation caused.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A power system computer room temperature control system, comprising: computer lab (1) and radiator unit (2), its characterized in that: an air inlet flow channel (3) and an air outlet flow channel (8) are arranged in the wall of the machine room (1) in a surrounding mode, an air inlet (4) communicated with the air inlet flow channel (3) is formed in the inner top of the machine room (1), a side hole (6) communicated with the air inlet flow channel (3) is formed in the side wall of the machine room (1), the end portion of the air inlet flow channel (3) is connected with the wind power output end of a fan (11) through a pipeline, the tail end of the air outlet flow channel (8) is connected with a filter (9) through a pipeline, and an air outlet (7) communicated with the air outlet flow channel (8) is formed in the machine room (;

the heat dissipation assembly (2) comprises a fan (11), a cooling water tank (10) and a filter (9), the fan (11), the cooling water tank (10) and the filter (9) are sequentially connected through a pipeline, a filter plate (14), a motor (18) and a brush plate (15) are installed inside the filter (9), a power output end of the motor (18) penetrates through the filter plate (14) and is connected with a limiting plate (16), the front section of the power output end of the motor (18) is of a hexagonal structure, the brush plate (15) is arranged on the left side of the filter plate (14), bristles (19) are uniformly arranged on the opposite surface of the brush plate (15) and the filter plate (14), a hexagonal hole is formed in the middle of the brush plate (15) and is sleeved on the power output end of the motor (18), and a spring (17) is further sleeved on the power output end of the motor (18), two ends of the spring (17) are respectively connected with the limiting plate (16) and the brush plate (15);

the internally mounted of cooling water tank (10) has cooling tube (20), the pipe connection between one end of cooling tube (20) and filter (9) and cooling water tank (10), the other end upwards extend and with cooling water tank (10) and fan (11) between the pipe connection, cooling water tank (10) inside packing has the coolant liquid, the middle section of cooling tube (20) is snakelike structure and soaks in the coolant liquid.

2. The power system computer room temperature control system of claim 1, wherein: feed liquor pipe and drain pipe are installed respectively to the right side wall both sides of cooling water tank (10), install feed liquor solenoid valve (22) on the feed liquor pipe, install out liquid solenoid valve (21) on the drain pipe.

3. The power system computer room temperature control system of claim 2, wherein: still install liquid level detection mechanism on cooling water tank (10), liquid level detection mechanism includes connecting rod (24), triggers board (23), floating block (27) and sleeve pipe (31), it is connected with connecting rod (24) to trigger board (23) setting in cooling water tank (10) top and bottom, connecting rod (24) vertical setting and lower extreme extend to in cooling water tank (10) and are connected with floating block (27), sleeve pipe (31) are installed at the interior top of cooling water tank (10) and are cup jointed on connecting rod (24), the light touch switch two (26) that correspond with floating block (27) are installed to the bottom surface of sleeve pipe (31), the light touch switch one (25) that correspond with trigger board (23) are installed to the top surface of cooling water tank (10).

4. The power system computer room temperature control system of claim 3, wherein: install temperature sensor (12) on the pipeline between air inlet runner (3) and fan (11), install wind sensor (13) on the pipeline between filter (9) and cooling water tank (10), controller (30) are still installed to the inside of computer lab (1).

5. The power system computer room temperature control system of claim 4, wherein: temperature sensor (12) detect the temperature of the cooling air of fan (11) to air inlet runner (3) transport, when the temperature is higher than the settlement temperature, judge that the cooling liquid temperature is too high, start out liquid solenoid valve (21), discharge cooling water tank (10) inside coolant liquid, drive floating block (27) along with the liquid level decline and move down, and touch switch one (25) through triggering board (23) triggering, close out liquid solenoid valve (21) and start inlet fluid solenoid valve (22) after triggering, to cooling water tank (10) inside filling coolant liquid, along with the liquid level rises, floating block (27) trigger dabs switch two (26), close inlet fluid solenoid valve (22) after triggering, come to change cooling water tank (10) inside liquid.

6. The power system computer room temperature control system of claim 4, wherein: the wind power sensor (13) detects the wind power of the pipeline between the filter (9) and the cooling water tank (10), when the wind power is lower than a set value, the surface of the filter plate (14) is judged to be blocked, the motor (18) is started, the brush plate (15) is driven to rotate after the motor (18) rotates, the surface of the filter plate (14) is cleaned through the brush bristles (19), and the motor (18) is stopped after the wind power returns to a normal interval.

7. The power system computer room temperature control system of claim 1, wherein: the inner wall of air inlet runner (3) and all be provided with wind-guiding lug (5) with the opposite face of air intake (4) and side opening (6), wind-guiding lug (5) are half spherical structure.

8. The power system computer room temperature control system of claim 1, wherein: the surface of the cooling pipe (20) is provided with four inwards-recessed cooling grooves (28), and cooling fins (29) are arranged on two sides of the inner wall of each cooling groove (28).

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