CN113329599B - Communication base station intelligence temperature control equipment - Google Patents

Abstract

The invention relates to the field of communication, in particular to intelligent temperature control equipment for a communication base station, wherein in a machine room of the communication base station, the service life and the failure rate of the built-in equipment can be influenced by too low or too high temperature, and an intelligent integrated control device for the communication base station, which is disclosed as CN210868524U, can not provide a measure for quickly heating or cooling in an environment with too low or too high temperature. The closed motor and the heating column open a closed machine room, and heat water is circulated, so that the temperature suitable for the equipment to work in the machine room is kept.

Description

Communication base station intelligence temperature control equipment

Technical Field

The invention relates to the field of communication, in particular to intelligent temperature control equipment for a communication base station.

Background

In a machine room of a communication base station, the service life and the failure rate of built-in equipment are influenced by too low or too high temperature, and an intelligent integrated control device of the communication base station with the publication number of CN210868524U cannot provide measures for quickly heating or cooling in an environment with too low or too high temperature.

Disclosure of Invention

The invention aims to provide intelligent temperature control equipment for a communication base station, which can intelligently adjust the temperature in a machine room of the communication base station.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a communication base station intelligence control by temperature change equipment, includes circulation assembly and seals the assembly, the circulation assembly is connected with sealing the assembly.

As a further optimization of the technical scheme, the circulating combination comprises a machine room, a water storage bucket, an anti-steaming baffle, a fan blade cover, a temperature control switch, a servo motor, a pump shell, a liquid inlet pipe, a liquid inlet valve, a spring I, a limiting clamp, a water storage bucket support, a lifting disc I, a blocking column, a spring II, a lifting disc II, a converging chamber, a water storage chamber, a filter plate, a cleaning pull ring, a handle, a pump gear shaft, a liquid outlet pipe, a fan blade box, a stirring fan blade, a fan blade shaft, a through fan blade, a return pipe, a closed motor support, a heating column, a ball float rod, a pump belt wheel and a pump belt, wherein the water storage bucket is connected with the liquid inlet pipe, the liquid inlet pipe is connected with the machine room, the water storage bucket is connected with and communicated with the water storage bucket support, the water storage bucket support is connected with and communicated with the upper part of the machine room, the water storage bucket support is connected with the anti-steaming baffle, a vent is arranged on the fan blade cover, the upper part of the machine room below the fan blade cover is provided with the vent, the fan blade cover is connected with the machine room, the temperature control switch is connected with the machine room, the servo motor is connected with the pump shells, each pump shell is connected and communicated with a liquid outlet pipe, the liquid outlet pipe is connected and communicated with a water storage chamber, a liquid inlet valve is connected with a liquid inlet pipe in a sliding mode, the liquid inlet pipe is connected with two limiting clamps, a spring I is sleeved on the liquid inlet valve, two ends of the spring I are respectively connected with the liquid inlet valve and the bottom limiting clamp, the spring I is in a compressed state, the liquid inlet pipe is connected with the water storage chamber, a lifting disc I is connected with a blocking column, the blocking column is connected with the machine room in a sliding mode, a spring II is sleeved on the blocking column, two ends of the spring II are respectively connected with the machine room and the lifting disc I, the spring II is in a normal state, the lifting disc I is connected with a lifting disc II, the lifting disc II is connected with a converging chamber in a sliding mode, the converging chamber is connected with the machine room, the water storage chamber is connected with a filter plate, the water storage chamber is connected with a cleaning pull ring, and a cleaning pull ring is connected with a pull handle, every pump case all is equipped with two pump gear intermeshing and connects, the pump gear is connected with the pump gear axle, the pump gear axle rotates with the pump case to be connected, the pump gear axle is connected with servo motor, the drain pipe is connected with the flabellum case, stir flabellum and be located the flabellum incasement, stir flabellum and be connected with the flabellum axle, the flabellum axle and flabellum case, the computer lab rotates to be connected, the flabellum axle is connected with the ventilation flabellum, the ventilation flabellum is located the flabellum cover, the drain pipe is connected and UNICOM with the room that converges, the back flow is connected and UNICOM with the room that converges, closed motor support is connected with the computer lab, the heating post is connected with the reservoir chamber, cue and filter plate sliding connection, the pump gear axle is connected with the pump band pulley, two pump band pulleys are connected through the pump belt.

As a further optimization of the technical scheme, the closed assembly comprises a limiting sliding frame, a pulling rope support lug, a pulling rope, a roller support lug, a closing frame, a spring III, a ventilating closing plate, a water inlet closing column, a rope roller shaft support, a bevel gear I, a bevel gear II shaft, a belt wheel I, a belt, a friction belt wheel, a closed motor shaft and a limiting block, wherein the limiting sliding frame is connected with a machine room, the pulling rope support lug is connected with the machine room, the pulling rope is in contact with the roller, the roller is in rotary connection with the roller support lug, the roller support lug is connected with the closing frame, the closing frame is in sliding connection with the limiting sliding frame, two ends of the spring III are respectively connected with the closing frame and the machine room, the spring III is in a compressed state, the ventilating closing plate and the water inlet closing column are both connected with the closing frame, the pulling rope is connected with the rope roller, the rope roller is connected with the rope roller shaft, the rope roller axle is connected with rope roller axle support, and the rope roller axle is connected with bevel gear I, bevel gear I and bevel gear II, and bevel gear II is connected with bevel gear II axle, and bevel gear II axle is connected with the computer lab, and II axles of bevel gear are connected with band pulley I, and band pulley I is connected with friction pulley through the belt, and friction pulley and closed motor shaft friction connection, closed motor shaft are connected with the stopper, and closed motor shaft is connected with the closed motor.

As a further optimization of the technical scheme, the temperature control switch can control the rotation speed of the servo motor, the on-off of the closed motor and the heating column according to the temperature.

The intelligent temperature control equipment for the communication base station has the beneficial effects that: the water storage bucket can collect and filter the rainwater after filtering and store in the water storage chamber, the water storage bucket also can store the rainwater for a long time and prevent evaporation, temperature detect switch can be according to the rotational speed of ambient temperature control servo motor, the closed motor, start and stop of heating post, when the higher temperature influences equipment performance, temperature detect switch control servo motor rotates, servo motor drives the room cold water of reservoir and begins to circulate and cool down for the computer lab, cold water drives the flabellum and rotates and take a breath for the computer lab, when the temperature is very high in the computer lab, servo motor rotates fast, the rainwater of storing in the water storage bucket this moment can spill into the computer lab, for the computer lab rapid cooling, when the temperature is low in the computer lab, the closed motor, the closed computer lab is opened to the heating post, hot water circulation, make keep the temperature that is fit for equipment work in the computer lab.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a cross-sectional view of the overall construction of the present invention;

FIG. 3 is a first schematic structural view of the circulation assembly 1 of the present invention;

FIG. 4 is a second schematic structural view of the circulation assembly 1 of the present invention;

FIG. 5 is an enlarged schematic view of the construction of the circulation assembly 1 of the present invention;

FIG. 6 is a third schematic view of the construction of the circulation assembly 1 of the present invention;

FIG. 7 is a fourth schematic structural view of the circulation assembly 1 of the present invention;

FIG. 8 is a schematic diagram of the structure of the circulation assembly 1 of the present invention;

FIG. 9 is a structural sectional view of the circulation assembly 1 of the present invention;

fig. 10 is a sixth schematic view of the construction of the circulation assembly 1 of the present invention;

FIG. 11 is a first schematic view of the construction of the closure assembly 2 of the present invention;

FIG. 12 is a second schematic structural view of the closure assembly 2 of the present invention;

FIG. 13 is a third schematic structural view of the closure assembly 2 of the present invention;

figure 14 is a fourth schematic structural view of the closure assembly 2 of the present invention;

figure 15 is a schematic view of the structure of the closure assembly 2 of the present invention.

In the figure: a circulation assembly 1; a machine room 1-1; 1-2 of a water storage hopper; 1-3 parts of an anti-steaming baffle; 1-4 of a fan blade cover; 1-5 of a temperature control switch; 1-6 of a servo motor; a pump housing 1-7; 1-8 parts of a liquid inlet pipe; 1-9 parts of a liquid inlet valve; 1-10 parts of a spring I; 1-11 parts of a limit card; 1-12 parts of a water storage bucket bracket; 1-13 of a lifting disc; 1-14 parts of a plugging column; 1-15 parts of a spring II; lifting discs II 1-16; a confluence chamber 1-17; 1-18 parts of a water storage chamber; 1-19 parts of filter plates; cleaning the pull ring by 1-20; 1-21 parts of a handle; pump gears 1-22; pump gear shafts 1-23; 1-24 parts of a liquid outlet pipe; 1-25 parts of a fan blade box; stirring fan blades 1-26; 1-27 parts of fan blade shaft; 1-28 parts of ventilating fan blades; a return pipe 1-29; 1-30 parts of a closed motor bracket; 1-31 of a heating column; 1-32 parts of a cue stick; pump pulleys 1-33; pump belts 1-34; a closing assembly 2; a limiting sliding frame 2-1; a pull rope lug 2-2; 2-3 of a pull rope; 2-4 of rollers; 2-5 of roller support lugs; 2-6 of a closing frame; 2-7 of a spring; 2-8 parts of ventilation closing plate; 2-9 parts of a water inlet closed column; 2-10 parts of rope roller; 2-11 parts of rope roll shafts; rope roller shaft supports 2-12; bevel gears I2-13; bevel gears II 2-14; 2-15 of bevel gear II shaft; a belt wheel I2-16; 2-17 parts of a belt; 2-18 of a friction pulley; 2-19 of a closed motor; 2-20 parts of a closed motor shaft; and 2-21 parts of a limiting block.

Detailed Description

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

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 15, and an intelligent temperature control device for a communication base station includes a circulation assembly 1 and a sealing assembly 2, where the circulation assembly 1 is connected to the sealing assembly 2.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-15, and the embodiment is further described, wherein the circulation assembly 1 comprises a machine room 1-1, a water storage bucket 1-2, an anti-steaming baffle 1-3, a fan blade cover 1-4, a temperature control switch 1-5, a servo motor 1-6, a pump shell 1-7, a liquid inlet pipe 1-8, a liquid inlet valve 1-9, a spring I1-10, a limit clamp 1-11, a water storage bucket bracket 1-12, a lifting disc I1-13, a blocking column 1-14, a spring II 1-15, a lifting disc II 1-16, a converging chamber 1-17, a water storage chamber 1-18, a filter plate 1-19, a cleaning pull ring 1-20, a pull handle 1-21, a pump gear 1-22, a pump gear shaft 1-23, a liquid outlet pipe 1-24, 1-25 parts of fan blade box, 1-26 parts of stirring fan blade, 1-27 parts of fan blade shaft, 1-28 parts of ventilating fan blade, 1-29 parts of return pipe, 1-30 parts of closed motor bracket, 1-31 parts of heating column, 1-32 parts of ball float rod, 1-33 parts of pump belt wheel and 1-34 parts of pump belt, 1-2 parts of water storage bucket are connected with 1-8 parts of liquid inlet pipe, 1-8 parts of liquid inlet pipe are connected with 1-1 parts of machine room, 1-2 parts of water storage bucket are connected with and communicated with 1-12 parts of water storage bucket bracket, 1-12 parts of water storage bucket bracket are connected with and communicated with the upper part of machine room 1-1 part of machine room, 1-2 parts of water storage bucket are connected with 1-3 parts of anti-steaming baffle plate, 1-4 parts of fan blade cover are provided with vent holes, the upper part of machine room 1-1 part of fan blade cover 1-4 is provided with vent holes, 1-1 part of fan blade cover is connected with machine room, the temperature control switch 1-5 is connected with the machine room 1-1, the servo motor 1-6 is connected with the pump shell 1-7, each pump shell 1-7 is connected and communicated with a liquid outlet pipe 1-24, the liquid outlet pipe 1-24 is connected and communicated with a water storage chamber 1-18, a liquid inlet valve 1-9 is connected with a liquid inlet pipe 1-8 in a sliding manner, the liquid inlet pipe 1-8 is connected with two limit clamps 1-11, a spring I1-10 is sleeved on the liquid inlet valve 1-9, two ends of the spring I1-10 are respectively connected with the liquid inlet valve 1-9 and the bottom limit clamp 1-11, the spring I1-10 is in a compression state, the liquid inlet pipe 1-8 is connected with the water storage chamber 1-18, a lifting disc I1-13 is connected with a blocking column 1-14, the blocking column 1-14 is connected with the machine room 1-1 in a sliding manner, the springs II 1-15 are sleeved on the plugging columns 1-14, two ends of each spring II 1-15 are respectively connected with a machine room 1-1 and a lifting disc I1-13, the springs II 1-15 are in a normal state, the lifting discs I1-13 are connected with the lifting discs II 1-16, the lifting discs II 1-16 are in sliding connection with confluence chambers 1-17, the confluence chambers 1-17 are connected with the machine room 1-1, water storage chambers 1-18 are connected with filter plates 1-19, the water storage chambers 1-18 are connected with cleaning pull rings 1-20, the cleaning pull rings 1-20 are connected with handles 1-21, each pump shell 1-7 is provided with two pump gears 1-22 which are mutually meshed and connected, the pump gears 1-22 are connected with pump gear shafts 1-23, the pump gear shafts 1-23 are rotatably connected with the pump shells 1-7, the pump gear shaft 1-23 is connected with a servo motor 1-6, the liquid outlet pipe 1-24 is connected with a fan blade box 1-25, the toggle fan blade 1-26 is positioned in the fan blade box 1-25, the toggle fan blade 1-26 is connected with a fan blade shaft 1-27, the fan blade shaft 1-27 is rotatably connected with the fan blade box 1-25 and a machine room 1-1, the fan blade shaft 1-27 is connected with a ventilation fan blade 1-28, the ventilation fan blade 1-28 is positioned in a fan blade cover 1-4, the liquid outlet pipe 1-24 is connected and communicated with a converging chamber 1-17, the return pipe 1-29 is connected and communicated with the converging chamber 1-17, the closed motor bracket 1-30 is connected with the machine room 1-1, the heating column 1-31 is connected with a water storage chamber 1-18, the floating ball rod 1-32 is connected with a filter plate 1-19 in a sliding manner, the pump gear shaft 1-23 is connected with the pump belt wheel 1-33, the two pump belt wheels 1-33 are connected through the pump belt 1-34, the water storage bucket can collect and filter rainwater and store the rainwater in the water storage chamber, the water storage bucket can also store the rainwater for a long time and prevent the rainwater from evaporating, when the temperature is high and influences the performance of equipment, the temperature control switch controls the servo motor to rotate, the servo motor drives cold water in the water storage chamber to start circulating to cool the machine room, the cold water drives the fan blades to rotate to ventilate the machine room, when the temperature in the machine room is very high, the servo motor rotates rapidly, and the rainwater stored in the water storage bucket can be scattered into the machine room to cool the machine room rapidly.

The third concrete implementation mode:

the embodiment is described below by combining with figures 1-15, and the embodiment further describes the first embodiment, the sealing assembly 2 comprises a limiting sliding frame 2-1, a pull rope support lug 2-2, a pull rope 2-3, a roller 2-4, a roller support lug 2-5, a sealing frame 2-6, a spring III 2-7, a ventilation sealing plate 2-8, a water inlet sealing column 2-9, a rope roller 2-10, a rope roller shaft 2-11, a rope roller shaft support 2-12, a bevel gear I2-13, a bevel gear II 2-14, a bevel gear II shaft 2-15, a belt wheel I2-16, a belt 2-17, a friction belt wheel 2-18, a sealing motor 2-19, a sealing motor shaft 2-20 and a limiting block 2-21, the limiting sliding frame 2-1 is connected with a machine room 1-1, the pull rope support lug 2-2 is connected with the machine room 1-1, the pull rope 2-3 is in contact with the roller 2-4, the roller 2-4 is in rotational connection with the roller support lug 2-5, the roller support lug 2-5 is connected with the sealing frame 2-6, the sealing frame 2-6 is in sliding connection with the limiting sliding frame 2-1, two ends of the spring III 2-7 are respectively connected with the sealing frame 2-6 and the machine room 1-1, the spring III 2-7 is in a compression state, the ventilation sealing plate 2-8 and the water inlet sealing column 2-9 are both connected with the sealing frame 2-6, the pull rope 2-3 is connected with the rope roller 2-10, the rope roller 2-10 is connected with the rope roller shaft 2-11, the rope roller shaft 2-11 is connected with the rope roller shaft frame 2-12, the rope roller shaft 2-11 is connected with the bevel gear I2-13, the machine room temperature control device comprises bevel gears I2-13, bevel gears II 2-14, bevel gear II shafts 2-15, machine room 1-1, bevel gear II shafts 2-15, belt wheels I2-16, friction belt wheels 2-18, closed motor shafts 2-20 and limiting blocks 2-21, closed motor shafts 2-20 are connected with closed motors 2-19, when the temperature in the machine room is low, the closed motors and heating columns open the closed machine room, and water circulation is heated, so that the temperature suitable for equipment to work in the machine room is kept.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 15, and the present embodiment further describes the first embodiment, and the temperature control switch 1 to 5 can control the start and stop of the servo motor 1 to 6, the sealing motor 2 to 19, and the heating column 1 to 31 according to the temperature.

The invention relates to an intelligent temperature control device of a communication base station, which has the working principle that: adding water into the water storage bucket 1-2 or waiting for rainwater to enter the water storage bucket 1-2, wherein the water flows into the water storage bucket 1-2 along the inlet of the anti-evaporation baffle plate 1-3, when more than half of the water is stored and transported in the water storage bucket 1-2, the pressure generated by the water on the liquid inlet valve 1-9 causes the liquid outlet on the liquid inlet valve 1-9 to slide to the lower part of the lower limit clamp 1-11, the water flows into the water storage chamber 1-18 through the liquid outlet on the liquid inlet valve 1-9, the water storage chamber 1-18 is provided with a vent to ensure that the water flow cannot flow into the water storage chamber 1-18 because of pressure, and flows into the water storage chamber 1-18 for storage after impurities are filtered by the filter plate 1-19, the floating ball rod 1-32 rises under the buoyancy effect of the water, when the upper part of the floating ball rod 1-32 is contacted with the liquid inlet valve 1-9, the liquid outlet of the liquid inlet valve 1-9 retreats to the upper part of the lower limit clamp 1-11 during the buoyancy, the liquid inlet valve 1-9 is not in liquid inlet, the temperature control switch 1-5 can control the rotation speed of the servo motor 1-6, the start and stop of the closed motor 2-19 and the heating column 1-31 according to the temperature, when the temperature is high and affects the performance of the equipment in the machine room, the temperature control switch controls the servo motor 1-6 to rotate, the servo motor 1-6 drives the pump gear shaft 1-23 to rotate, the pump gear shaft 1-23 drives the pump gear 1-22 to rotate, the pump gear 1-22 drives the adjacent pump gear 1-22 to rotate oppositely, the pump gear shaft 1-23 drives the pump belt wheel 1-33 to rotate, the two pump belt wheels 1-33 drive the pump gear shaft 1-23 of the adjacent pump shell 1-7 to rotate through the pump belt 1-34, the opposite sides of the bottoms of the two sets of pump gears 1-22 and the water storage chamber 1-18 are meshed and separated sides, the space of the meshing disengagement side is enlarged and the pressure is reduced, the water stored in the water storage chamber 1-18 enters the pump shell 1-7 through the liquid outlet pipe 1-24, the meshing sides of the two groups of pump gears 1-22 press the water to the upper end of the liquid outlet pipe 1-24, the water of the liquid outlet pipe 1-24 impacts in the fan blade box 1-25 to stir the fan blade 1-26 to drive the fan blade shaft 1-27 to rotate, the fan blade shaft 1-27 drives the ventilation fan blade 1-28 to rotate, the water of the two liquid outlet pipes 1-24 is converged in the converging chamber 1-17 and flows back into the water storage chamber 1-18 through the return pipe 1-29, the rotation directions of the ventilation fan blade 1-28 driven by each two opposite liquid outlet pipes 1-24 and the return pipe 1-29 are opposite, the air circulation in the machine room 1-1 is accelerated through air blast and air suction in the machine room 1-1, when the temperature in the machine room 1-1 is very high, the temperature needs to be rapidly reduced, the temperature control switch 1-5 controls the servo motor 1-6 to rapidly rotate, the flow rate of the liquid outlet pipe 1-24 is increased, the liquid outlet pipe is rapidly converged in the converging chamber 1-17, the volume in the converging chamber 1-17 is increased, the lifting disc II 1-16 moves downwards, the lifting disc II 1-16 drives the lifting disc I1-13 to move downwards, the lifting disc I1-13 drives the blocking column 1-14 to be pulled out from the upper part of the machine room 1-1 to avoid blocking the water storage hopper support 1-12, the water storage hopper support 1-12 in the water storage hopper 1-2 and the upper part of the machine room 1-1 to fall into the machine room 1-1, the water evaporation cooling takes away heat in the machine room quickly to finish quick cooling, when the temperature of the machine room 1-1 is at normal temperature, the temperature control switch 1-5 controls the servo motor 1-6 to stop running, when the machine room 1-1 is too cold, the temperature control switch 1-5 controls the heating column 1-31 to heat water in the water storage chamber 1-18, the servo motor 1-6 rotates to circularly heat the ambient temperature in the machine room 1-1 in the liquid outlet pipe 1-24 and the return pipe 1-29, the temperature control switch 1-5 controls the closed motor 2-19 to be started, the closed motor 2-19 drives the closed motor shaft 2-20 to rotate, the friction belt wheel 2-18 is in friction connection with the closed motor shaft 2-20, the closed motor shaft 2-20 drives the friction belt wheel 2-18 to rotate through friction force, the friction belt wheels 2-18 drive belt wheels I2-16 to rotate through belts 2-17, the belt wheels I2-16 drive bevel gear II shafts 2-15 to rotate, the bevel gear II shafts 2-15 drive bevel gears II 2-14 to rotate, the bevel gears II 2-14 drive bevel gears I2-13 to rotate, the bevel gears I2-13 drive rope roller shafts 2-11 to rotate, the rope roller shafts 2-11 drive rope rollers 2-10 to rotate, the rope rollers 2-10 wind and straighten pull ropes 2-3, the pull ropes 2-3 drive the sealing frames 2-6 to slide in the limiting sliding frames 2-1 through the rollers 2-4 and the roller support lugs 2-5, the limiting sliding frames 2-1 drive the ventilation sealing plates 2-8, the water inlet sealing columns 2-9 block the fan blade covers 1-4 and the anti-steaming baffles 1-3, the machine room 1-1 is sealed, and the circulating hot air cannot be discharged out of the environment in the machine room 1-1.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides a communication base station intelligence temperature control equipment, includes circulation assembly (1) and seals assembly (2), its characterized in that: the circulating assembly (1) is connected with the closed assembly (2);

the circulating assembly (1) comprises a machine room (1-1), a water storage hopper (1-2), an anti-steaming baffle (1-3), a fan blade cover (1-4), a temperature control switch (1-5), a servo motor (1-6), a pump shell (1-7), a liquid inlet pipe (1-8), a liquid inlet valve (1-9), a spring I (1-10), a limiting clamp (1-11), a water storage hopper support (1-12), a lifting disc I (1-13), a blocking column (1-14), a spring II (1-15), a lifting disc II (1-16), a converging chamber (1-17), a water storage chamber (1-18), a filter plate (1-19), a cleaning pull ring (1-20), a handle (1-21), a pump gear (1-22), A pump gear shaft (1-23), a liquid outlet pipe (1-24), a fan blade box (1-25), a stirring fan blade (1-26), a fan blade shaft (1-27), a ventilating fan blade (1-28), a return pipe (1-29), a closed motor support (1-30), a heating column (1-31), a floating ball rod (1-32), a pump belt wheel (1-33) and a pump belt (1-34), a water storage hopper (1-2) is connected with a liquid inlet pipe (1-8), the liquid inlet pipe (1-8) is connected with a machine room (1-1), the water storage hopper (1-2) is connected and communicated with a water storage hopper support (1-12), the water storage hopper support (1-12) is connected and communicated with the upper part of the machine room (1-1), the water storage hopper (1-2) is connected with an anti-steaming baffle plate (1-3), a vent is arranged on a fan blade cover (1-4), the upper part of a machine room (1-1) below the fan blade cover (1-4) is provided with the vent, the fan blade cover (1-4) is connected with the machine room (1-1), a temperature control switch (1-5) is connected with the machine room (1-1), a servo motor (1-6) is connected with a pump shell (1-7), each pump shell (1-7) is connected and communicated with a liquid outlet pipe (1-24), the liquid outlet pipes (1-24) are connected and communicated with a water storage chamber (1-18), a liquid inlet valve (1-9) is connected with a liquid inlet pipe (1-8) in a sliding manner, the liquid inlet pipe (1-8) is connected with two limiting clamps (1-11), a spring I (1-10) is sleeved on the liquid inlet valve (1-9), two ends of the spring I (1-10) are respectively connected with the liquid inlet valve (1-9), The bottom limiting clamp (1-11) is connected, the spring I (1-10) is in a compressed state, the liquid inlet pipe (1-8) is connected with the water storage chamber (1-18), the lifting disc I (1-13) is connected with the blocking column (1-14), the blocking column (1-14) is in sliding connection with the machine room (1-1), the spring II (1-15) is sleeved on the blocking column (1-14), two ends of the spring II (1-15) are respectively connected with the machine room (1-1) and the lifting disc I (1-13), the spring II (1-15) is in a normal state, the lifting disc I (1-13) is connected with the lifting disc II (1-16), the lifting disc II (1-16) is in sliding connection with the converging chamber (1-17), and the converging chamber (1-17) is connected with the machine room (1-1), a water storage chamber (1-18) is connected with a filter plate (1-19), the water storage chamber (1-18) is connected with a cleaning pull ring (1-20), the cleaning pull ring (1-20) is connected with a handle (1-21), each pump shell (1-7) is provided with two pump gears (1-22) which are mutually meshed and connected, the pump gears (1-22) are connected with pump gear shafts (1-23), the pump gear shafts (1-23) are rotationally connected with the pump shells (1-7), the pump gear shafts (1-23) are connected with servo motors (1-6), liquid outlet pipes (1-24) are connected with a fan blade box (1-25), toggle fan blades (1-26) are positioned in the fan blade box (1-25), the toggle fan blades (1-26) are connected with the fan blade shafts (1-27), a fan blade shaft (1-27) and a fan blade box (1-25), the machine room (1-1) is connected in a rotating mode, a fan blade shaft (1-27) is connected with a fan blade (1-28), the fan blade (1-28) is located in a fan blade cover (1-4), a liquid outlet pipe (1-24) is connected and communicated with a converging chamber (1-17), a backflow pipe (1-29) is connected and communicated with the converging chamber (1-17), a closed motor support (1-30) is connected with the machine room (1-1), a heating column (1-31) is connected with a water storage chamber (1-18), a floating ball rod (1-32) is connected with a filter plate (1-19) in a sliding mode, a pump gear shaft (1-23) is connected with a pump belt wheel (1-33), and the two pump belt wheels (1-33) are connected through pump belts (1-34);

the closed assembly (2) comprises a limiting sliding frame (2-1), a pulling rope support lug (2-2), a pulling rope (2-3), a roller (2-4), a roller support lug (2-5), a closing frame (2-6), a spring III (2-7), a ventilating closing plate (2-8), a water inlet closing column (2-9), a rope roller (2-10), a rope roller shaft (2-11), a rope roller shaft bracket (2-12), a bevel gear I (2-13), a bevel gear II (2-14), a bevel gear II shaft (2-15), a belt wheel I (2-16), a belt (2-17), a friction belt wheel (2-18), a closed motor (2-19), a closed motor shaft (2-20) and a limiting block (2-21), wherein the limiting sliding frame (2-1) is connected with a machine room (1-1), the pull rope support lug (2-2) is connected with the machine room (1-1), the pull rope (2-3) is in contact with the roller (2-4), the roller (2-4) is in rotary connection with the roller support lug (2-5), the roller support lug (2-5) is connected with the sealing frame (2-6), the sealing frame (2-6) is in sliding connection with the limiting sliding frame (2-1), two ends of the spring III (2-7) are respectively connected with the sealing frame (2-6) and the machine room (1-1), the spring III (2-7) is in a compression state, the ventilating sealing plate (2-8) and the water inlet sealing column (2-9) are both connected with the sealing frame (2-6), the pull rope (2-3) is connected with the rope roller (2-10), the rope roller (2-10) is connected with the rope roller shaft (2-11), the rope roller shaft (2-11) is connected with a rope roller shaft support (2-12), the rope roller shaft (2-11) is connected with a bevel gear I (2-13), the bevel gear I (2-13) is connected with a bevel gear II (2-14), the bevel gear II (2-14) is connected with a bevel gear II shaft (2-15), the bevel gear II shaft (2-15) is connected with a machine room (1-1), the bevel gear II shaft (2-15) is connected with a belt wheel I (2-16), the belt wheel I (2-16) is connected with a friction belt wheel (2-18) through a belt (2-17), the friction belt wheel (2-18) is in friction connection with a closed motor shaft (2-20), the closed motor shaft (2-20) is connected with a limiting block (2-21), and the closed motor shaft (2-20) is connected with a closed motor (2-19); the ventilating closing plate (2-8) blocks the fan blade cover (1-4), and the water inlet closing column (2-9) blocks the anti-steaming baffle (1-3).

2. The intelligent temperature control device for the communication base station as claimed in claim 1, wherein: the temperature control switch (1-5) can control the rotation speed of the servo motor (1-6), the start and stop of the closed motor (2-19) and the heating column (1-31) according to the temperature.

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