CN213656984U - Temperature monitoring adjustment mechanism for communication base station machine room - Google Patents

Abstract

The utility model discloses a temperature monitoring adjustment mechanism for communication base station computer lab, including regulating cabinet, temperature control mechanism, dehumidification mechanism and humidification mechanism, regulating cabinet one end lateral wall open-ended cavity sets up, the regulating cabinet opening part is equipped with the filter screen, and the filter screen is convenient for filter dust etc. in the computer lab, the regulating cabinet lateral wall is equipped with temperature sensor and humidity transducer, and temperature sensor is convenient for monitor and detects the temperature in the computer lab, and humidity transducer is convenient for monitor and detects humidity in the computer lab. The utility model belongs to the technical field of communication engineering, specifically provide a start circulation fan circulation air in computer lab when temperature is suitable in the computer lab, start dehumidification mechanism when too moist in the computer lab to the air dehumidification in the computer lab, start the air in the humidification mechanism humidification computer lab when too dry in the computer lab, the water that the dehumidification mechanism produced is absorb to the water pump is used for the communication base station for the computer lab temperature monitoring adjustment mechanism of air in the humidification computer lab.

Description

Temperature monitoring adjustment mechanism for communication base station machine room

Technical Field

The utility model belongs to the technical field of communication engineering, specifically indicate a temperature monitoring adjustment mechanism for communication base station computer lab.

Background

Along with the progress of science and technology, the communication industry has also obtained the rapid development, in communication engineering, it is the most important undoubtedly to construct the communication base station, the base station is the important pivot of transmission communication information, the operation of control base station becomes the serious flow of communication industry, when controlling the base station, need use the operation of special computer lab control base station, communication base station computer lab is extremely high to the environmental requirement, need to keep suitable humiture in the computer lab constantly, the humiture has the deviation to reduce computer lab work efficiency slightly, damage some computer lab equipment, cause the base station out of control, the communication is disorderly, current computer lab temperature monitoring adjustment mechanism, the regulation mode is not environmental protection, only there is not the transition stage with the state of heating, can only adjust the temperature function singleness in the computer lab, so the urgent need for a novel computer lab to solve above-mentioned difficult problem with temperature adjustment mechanism.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned current difficult problem, the utility model provides a start circulation fan circulation air in computer lab when temperature is suitable in the computer lab, start dehumidification mechanism when too moist in the computer lab to the air dehumidification in the computer lab, start the air in the humidification computer lab of humidification mechanism when too dry in the computer lab, the water that the dehumidification mechanism produced is absorb to the water pump is used for the communication base station temperature monitoring adjustment mechanism of air in the humidification computer lab.

The utility model adopts the following technical scheme: the utility model relates to a temperature monitoring and adjusting mechanism for a communication base station machine room, which comprises an adjusting cabinet, a temperature control mechanism, a dehumidifying mechanism and a humidifying mechanism, wherein the hollow cavity of the side wall opening at one end of the adjusting cabinet is arranged, the opening part of the adjusting cabinet is provided with a filter screen which is convenient for filtering dust and the like in the machine room, the side wall of the adjusting cabinet is provided with a temperature sensor and a humidity sensor, the temperature sensor is convenient for monitoring and detecting the temperature in the machine room, the humidity sensor is convenient for monitoring and detecting the humidity in the machine room, the adjusting cabinet sequentially comprises an air conditioning chamber, a control chamber, a circulating humidifying chamber and a dehumidifying chamber from top to bottom, the temperature control mechanism is arranged in the adjusting cabinet, the temperature control mechanism comprises a variable frequency air conditioner, a circulating fan and a fan motor, the variable frequency air conditioner is arranged in the air conditioning chamber, the fan, variable frequency air conditioner is convenient for to computer lab air cooling and heat, and circulating fan is convenient for when the computer lab temperature is suitable the circulation computer lab air in, dehumidification mechanism locates to dehumidify indoorly, dehumidification mechanism includes ventilation fan, the fin of taking a breath, refrigeration piece, congeals water fin and dehumidification water storage chamber, the refrigeration piece is located in the dehumidification chamber, the fin both sides of refrigerating piece are located to the fin of taking a breath and congeal water fin symmetry, ventilation fan is equipped with ventilation fan on one side of fin of taking a breath, ventilation fan locates one side of filter screen, refrigeration piece and congeal water fin below are located to the dehumidification water storage chamber, and water in the air condenses on congealing the fin, and water flows to dehumidification water storage intracavity along congealing the fin of congealing water fin, and ventilation fan exchanges moist air in the computer lab and the air that dehumidifies indoor processing, humidification mechanism locates in the circulation humidification chamber, humidification mechanism includes the water suction pump, A circulating water pipe, a humidifying water storage cavity, a sponge through pipe, a water absorption sponge and an atomizing sheet, wherein the water absorption pump is arranged in the circulating humidifying chamber, the circulating water pipe is arranged in the dehumidifying chamber and is connected with the dehumidifying water storage cavity and the input end of the water suction pump, the humidifying water storage cavity is arranged on one side of the water suction pump and is connected with the output end of the water suction pump, the sponge through pipe is arranged on one side of the humidifying water storage cavity and is connected with the humidifying water storage cavity, the water absorption sponge is arranged in the sponge through pipe, the atomization sheet is arranged above the sponge through pipe, the atomization sheet is arranged between the circulating fan and the filter screen, the sponge that absorbs water connects atomizing piece diapire and humidification water storage chamber, and the water that the pump that absorbs water will dehumidify the water storage intracavity absorbs the humidification water storage intracavity, and the sponge that absorbs water adsorbs the water in the humidification water storage intracavity to atomizing piece below, and the atomizing piece atomizes the water and the blowout in the sponge that absorbs water.

Furthermore, a liquid level sensor is arranged at the top of the dehumidification water storage cavity, and the liquid level sensor is convenient for monitoring whether the water level in the dehumidification water storage cavity is too high or not.

Further, dehumidification water storage chamber diapire is equipped with the solenoid valve, the output of solenoid valve is equipped with the drain pipe, the drain pipe link up the regulation cabinet lateral wall, and the solenoid valve is convenient for control dehumidification water storage intracavity water discharge from the drain pipe.

Further, the side wall of the circulating humidification chamber is provided with a motor support platform, the motor support platform is arranged on the side wall of the circulating humidification chamber far away from the filter screen, and the fan motor is rotatably arranged in the motor support platform.

Further, be equipped with the PLC controller in the control room, the PLC controller links to each other with temperature sensor, humidity transducer, level sensor, variable frequency air conditioner, fan motor, ventilation fan, refrigeration piece, water absorption pump, atomizing piece, solenoid valve electrical property respectively.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: this scheme is temperature in temperature monitoring adjustment mechanism temperature sensor for communication base station computer lab is convenient for monitor and detects the computer lab, humidity transducer is convenient for monitor and detects humidity in the computer lab, inverter air conditioner is convenient for to computer lab air cooling and heat, circulation fan is convenient for circulate the computer lab air when the computer lab temperature is suitable, the water absorption pump absorbs the water in the dehumidification water storage intracavity to the humidification water storage intracavity, the sponge that absorbs water adsorbs the water in the humidification water storage intracavity to the atomizing piece below, the atomizing piece atomizes the water in the sponge that absorbs water and spouts.

Drawings

Fig. 1 is the utility model relates to a temperature monitoring adjustment mechanism for communication base station computer lab schematic structure.

The device comprises a regulating cabinet 1, a regulating cabinet 2, a temperature control mechanism 3, a dehumidification mechanism 4, a humidification mechanism 5, a filter screen 6, a temperature sensor 7, a humidity sensor 8, an air conditioning chamber 9, a control chamber 10, a circulating humidification chamber 11, a dehumidification chamber 12, a variable frequency air conditioner 13, a circulating fan 14, a fan motor 15, a ventilation fan 16, a ventilation cooling fin 17, a refrigeration fin 18, a condensation cooling fin 19, a dehumidification water storage cavity 20, a water suction pump 21, a circulating water pipe 22, a humidification water storage cavity 23, a sponge through pipe 24, a water suction sponge 25, an atomization fin 26, a liquid level sensor 27, an electromagnetic valve 28, a drain pipe 29, a motor supporting platform 30 and a PLC controller.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to specific embodiments, and all the parts of the present invention not described in detail in the technical features or the connection relation are the prior art.

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the utility model relates to a temperature monitoring and adjusting mechanism for communication base station machine room, which comprises an adjusting cabinet 1, a temperature control mechanism 2, a dehumidifying mechanism 3 and a humidifying mechanism 4, wherein the cavity of the side wall opening at one end of the adjusting cabinet 1 is provided, the opening of the adjusting cabinet 1 is provided with a filter screen 5, the side wall of the adjusting cabinet 1 is provided with a temperature sensor 6 and a humidity sensor 7, the adjusting cabinet 1 sequentially comprises an air conditioning chamber 8, a control chamber 9, a circulating humidifying chamber 10 and a dehumidifying chamber 11 from top to bottom, the temperature control mechanism 2 is arranged in the adjusting cabinet 1, the temperature control mechanism 2 comprises a variable frequency air conditioner 12, a circulating fan 13 and a fan motor 14, the variable frequency air conditioner 12 is arranged in the air conditioning chamber 8, the fan motor 14 is arranged in the circulating humidifying chamber 10, the circulating fan 13 is arranged at the output end of the fan motor 14, the dehumidifying mechanism 3 is arranged in, dehumidification mechanism 3 includes ventilation fan 15, the fin of taking a breath 16, refrigeration piece 17, congeals water fin 18 and dehumidification water storage chamber 19, refrigeration piece 17 is located in dehumidification room 11, the fin of taking a breath 16 locates refrigeration piece 17 both sides with congealing water fin 18 symmetry, 16 one side of the fin of taking a breath is equipped with ventilation fan 15, ventilation fan 15 locates one side of filter screen 5, refrigeration piece 17 and the fin of congealing water 18 below are located to dehumidification water storage chamber 19, humidification mechanism 4 locates in the circulation humidification room 10, humidification mechanism 4 includes suction pump 20, circulating pipe 21, humidification water storage chamber 22, sponge siphunculus 23, the sponge 24 and the atomizing plate 25 of absorbing water, suction pump 20 locates in the circulation room 10, circulating pipe 21 locates in the dehumidification room 11, circulating pipe 21 connects dehumidification water storage chamber 19 and suction pump 20's input, humidification water storage chamber 22 is located and is inhaled water pump 20 one side, humidification water storage chamber 22 is connected with the output that absorbs water pump 20, one side in humidification water storage chamber 22 is located to sponge siphunculus 23, sponge siphunculus 23 is connected with humidification water storage chamber 22, sponge 24 that absorb water is located in sponge siphunculus 23, sponge siphunculus 23 top is located to atomizing piece 25, atomizing piece 25 is located between circulating fan 13 and the filter screen 5, sponge 24 that absorb water connects atomizing piece 25 diapire and humidification water storage chamber 22.

Wherein, the 19 tops in dehumidification water storage chamber is equipped with level sensor 26, 19 diapire in dehumidification water storage chamber is equipped with solenoid valve 27, solenoid valve 27's output is equipped with drain pipe 28, drain pipe 28 link up and adjusts 1 lateral wall of cabinet, circulation humidification room 10 lateral wall is equipped with motor supporting platform 29, motor supporting platform 29 is located circulation humidification room 10 and is kept away from on the lateral wall of filter screen 5, fan motor 14 rotates and locates in the motor supporting platform 29, be equipped with PLC controller 30 in the control room 9, PLC controller 30 links to each other with temperature sensor 6, humidity transducer 7, level sensor 26, variable frequency air conditioner 12, fan motor 14, ventilation fan 15, refrigeration piece 17, suction pump 20, atomizing piece 25, solenoid valve 27 electrical property respectively

When the temperature sensor 6 detects that the temperature in the machine room is lower than the set temperature, the PLC 30 controls the variable frequency air conditioner 12 to start the constant temperature refrigeration function, when the temperature sensor 6 detects that the temperature in the machine room is lower than the set temperature, the PLC 30 controls the variable frequency air conditioner 12 to start the constant temperature heating function, when the temperature sensor 6 detects that the temperature in the machine room is proper, the PLC 30 controls the variable frequency air conditioner 12 to stop working, the fan motor 14 is started, the output end of the fan motor 14 rotates to drive the circulating fan 13 to rotate, the circulating fan 13 rotates to fan the air in the machine room to circulate, when the humidity sensor 7 detects that the humidity in the machine room is too high, the PLC 30 controls the ventilating fan 15 and the refrigerating sheet 17 to start, and the fan 15 rolls the moist air in the machine room into the dehumidifying chamber 11, the refrigeration piece 17 condenses the water in the air, the condensed water condenses on the water condensing cooling fin 18, the water flows into the dehumidification water storage cavity 19 along the water condensing cooling fin 18, the ventilation fan 15 discharges the dried air treated in the dehumidification chamber 11, when the liquid level sensor 26 in the dehumidification water storage cavity 19 detects that the liquid level is too high, the PLC 30 controls the electromagnetic valve 27 to be opened, the water in the dehumidification water storage cavity 19 is discharged out of the regulating cabinet 1, when the liquid level sensor 26 detects that the liquid level is normal, the PLC 30 controls the electromagnetic valve 27 to be closed, the water in the dehumidification water storage cavity 19 is not discharged any more, when the humidity sensor 7 detects that the humidity value in the machine room is too low, the PLC 30 controls the water suction pump 20 to be started, the water in the dehumidification water storage cavity 19 is sucked into the humidification water storage cavity 22 by the water suction sponge 24, the water in the humidification water storage cavity 22 is sucked under the atomization piece 25, the atomization piece 25 atomizes the water in the water suction sponge 24 and sprays out, meanwhile, the PLC 30 controls the fan motor 14 to be started, the fan motor 14 drives the circulating fan 13 to rotate, the circulating fan 13 blows away the water vapor atomized by the atomizing sheet 25 into the machine room, and when the humidity sensor 7 detects that the humidity value in the machine room is normal, the PLC 30 controls the dehumidifying mechanism 3 and the humidifying mechanism 4 to stop working.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (5)

1. The utility model provides a temperature monitoring adjustment mechanism for communication base station computer lab which characterized in that: the temperature control mechanism is arranged in the adjusting cabinet, the temperature control mechanism comprises a variable frequency air conditioner, a circulating fan and a fan motor, the variable frequency air conditioner is arranged in the air conditioning chamber, the fan motor is arranged in the circulating humidification chamber, the circulating fan is arranged at the output end of the fan motor, the dehumidification mechanism is arranged in the dehumidification chamber, the dehumidification mechanism comprises a ventilation fan, a ventilation cooling fin, a refrigeration fin, a condensed water cooling fin and a dehumidification water storage cavity, the refrigeration fin is arranged in the dehumidification chamber, the ventilation cooling fin and the condensed water cooling fin are symmetrically arranged on two sides of the refrigeration fin, the device is characterized in that a ventilation fan is arranged on one side of the ventilation cooling fin, the ventilation fan is arranged on one side of the filter screen, the dehumidification water storage cavity is arranged below the refrigerating fin and the condensation cooling fin, the humidification mechanism is arranged in the circulating humidification chamber and comprises a water suction pump, a circulating water pipe, a humidification water storage cavity, a sponge through pipe, a water suction sponge and an atomization plate, the water suction pump is arranged in the circulating humidification chamber, the circulating water pipe is arranged in the dehumidification chamber, the circulating water pipe is connected with the dehumidification water storage cavity and the input end of the water suction pump, the humidification water storage cavity is arranged on one side of the water suction pump, the humidification water storage cavity is connected with the output end of the water suction pump, the sponge through pipe is arranged on one side of the humidification water storage cavity, the sponge through pipe is connected with the humidification water storage cavity, the water suction sponge is arranged in the, the water absorption sponge is connected with the bottom wall of the atomization piece and the humidification water storage cavity.

2. The temperature monitoring and adjusting mechanism for the machine room of the communication base station as claimed in claim 1, wherein: and a liquid level sensor is arranged at the top of the dehumidification water storage cavity.

3. The temperature monitoring and adjusting mechanism for the machine room of the communication base station as claimed in claim 2, wherein: the dehumidification water storage chamber diapire is equipped with the solenoid valve, the output of solenoid valve is equipped with the drain pipe, the drain pipe link up the regulation cabinet lateral wall.

4. The temperature monitoring and adjusting mechanism for the machine room of the communication base station as claimed in claim 1, wherein: the circulation humidification chamber lateral wall is equipped with the motor supporting bench, the motor supporting bench is located the circulation humidification chamber and is kept away from on the lateral wall of filter screen, fan motor rotates and locates in the motor supporting bench.

5. The temperature monitoring and adjusting mechanism for the machine room of the communication base station as claimed in claim 3, wherein: the indoor PLC controller that is equipped with of control, the PLC controller links to each other with temperature sensor, humidity transducer, level sensor, variable frequency air conditioner, fan motor, ventilation fan, refrigeration piece, water absorption pump, atomizing piece, solenoid valve electrical property respectively.

Images