CN108952240A - A kind of energy-saving communication base station with cooling function - Google Patents

Abstract

The present invention relates to a kind of energy-saving communication base stations with cooling function, including pedestal, computer room, exhaust pipe, inlet duct, water tank, water pump, aqueduct and catchment covers, inlet duct includes sealing plate, mobile mechanism, cooling body and drier, cooler includes cooler bin, refrigerator pipe, air guide case and gas-guide tube, air guide component is equipped in air guide case, drainpipe is equipped in cooler bin, several spray heads and several condensate films, drier includes drying box, drying box and air inlet pipe, translation component is equipped in drying box, dry net, sealing block and two translation plates, the energy-saving communication base station with cooling function drenches condensate film by cooling body, convenient for be absorbed into computer room air heat, reach cooling purpose, moreover, it is dehumidified by drier to air after cooling, guarantee dry cold sky Gas is passed through in computer room, reaches good cooling effect, improves the practicability of the communication base station.

Description

A kind of energy-saving communication base station with cooling function

Technical field

The present invention relates to communications service field, in particular to a kind of energy-saving communication base station with cooling function.

Background technique

Communication base station, i.e. public mobile communication base station make a kind of form of radio station, refer in limited radio In the area of coverage, by mobile current switching centre, the transceiving radio station of information transmitting is carried out between mobile telephone terminal. Base station is the basic unit that cellular cell is formed in mobile communication, completes the communication between mobile radio communication and mobile communication subscriber And management function.

In order to guarantee the work of the appliance in communications equipment room in suitable environment temperature, communication base station is when one section Between need periodically to open a window, be aerated ventilation, achieve the effect that radiating and cooling, but existing communication base station is in scavenging period In, the mode of windowing is usually taken, some dusts in outside air, mosquito enter inside computer room, influence the clear of inside of base station It is clean, while some snake mouse can be also attracted, when being damaged to the snake mouse in computer room, and air-conditioning being used to carry out temperature adjusting, although It can achieve the effect that cooling, but increase the energy consumption of base station simultaneously, to reduce the practical of existing communication base station Property.

Summary of the invention

The technical problem to be solved by the present invention is for overcome the deficiencies in the prior art, providing a kind of with cooling function Energy-saving communication base station.

The technical solution adopted by the present invention to solve the technical problems is: a kind of energy-saving communication base with cooling function It stands, including pedestal, computer room, exhaust pipe, inlet duct, water tank, water pump, aqueduct and catchment covers, the computer room is fixed on pedestal Top, the computer room is equipped with door, PLC is equipped in the computer room, the exhaust pipe and inlet duct are located at computer room Two sides, valve is equipped in the exhaust pipe, the water tank is fixed on the lower section of pedestal, and the water pump is fixed on water tank, institute It states water pump to be connected to water tank, the water pump is connected to by aqueduct with inlet duct, and the catchment covers are located under inlet duct Side, the catchment covers are connected to the top of water tank, and the water pump and valve are electrically connected with PLC；

The inlet duct is described cold from below to up successively including sealing plate, mobile mechanism, cooling body and drier But mechanism successively includes cooler bin, refrigerator pipe, air guide case and gas-guide tube from below to up, and the sealing plate is located at cooler bin and catchments Between cover, the mobile mechanism and sealing plate are sequentially connected, and air guide component is equipped in the air guide case；

Drainpipe, several spray heads and several condensate films are equipped in the cooler bin, the drainpipe is fixed in cooler bin, The spray head is fixed on the lower section of drainpipe, and the spray head is connected to by drainpipe with aqueduct, and the condensate film is from top to down It is successively staggered on the inner wall of the two sides of cooling cylinder, several hairbrush is equipped between two neighboring condensate film；

The drier includes drying box, drying box and air inlet pipe, and the drying box is connected to by air inlet pipe with computer room, The drying box is connected to by gas-guide tube with air guide case, and the drying box is fixed on the side of the separate computer room of drying box, described The junction of drying box and drying box is equipped with opening, and it is flat that translation component, dry net, sealing block and two are equipped in the drying box Plate is moved, the sealing block is fixed on the inner wall of the side of the close computer room of drying box, and the translation component and translation plates are driven Connection, the dry net are fixed between two translation plates, and infrared lamp and gas deflation assembly, the baking are equipped in the drying box The side of the separate drying box of dry case is equipped with permeability cell, and the infrared lamp is located at the bottom in drying box, the infrared lamp It is electrically connected with PLC, the gas deflation assembly is located at permeability cell.

Preferably, in order to control the movement of sealing plate, the mobile mechanism includes first motor, first connecting rod, second Connecting rod, third connecting rod, slip ring and fixed link, the first motor and fixed link are each attached on computer room, the first motor with PLC electrical connection, the slip ring are fixed on sealing plate, and the slip ring is set in fixed link, and the first motor connects with first Bar transmission connection, the first connecting rod is hinged by the top of second connecting rod and third connecting rod, and the bottom end of the third connecting rod is solid It is scheduled on the top of sealing plate.

Preferably, the translation component includes the second motor, bearing, the second drive shaft in order to drive dry net mobile And guide rod, the both ends of the guide rod be separately fixed at the side of the close computer room of drying box inner wall and drying box it is separate On the inner wall of the side of computer room, second motor and bearing are separately fixed at the lower section at the both ends of guide rod, and described second drives Between the second motor and bearing, second motor is electrically connected moving axis with PLC, and second motor and the second drive shaft pass Dynamic connection, the translation plates are set on the second drive shaft and guide rod, the junction with the second drive shaft of the translation plates Equipped with the matched screw thread of the second drive shaft.

Preferably, in order to detect the position of dry net, the top of the sealing block is equipped with range sensor, the distance Sensor is electrically connected with PLC.

Preferably, outside is discharged in the steam in drying box for convenience, the gas deflation assembly includes sprue, coil and bullet One end of spring, the sprue is arranged in permeability cell, and the other end of the sprue is connect by spring with coil, in the sprue Equipped with iron core, the spring is in compressive state, and the coil is fixed on the top in drying box, and the coil is electrically connected with PLC It connects.

Preferably, in order to fix the moving direction of sprue, the gas deflation assembly further includes two orientation levers, two orientations Bar is located above and below spring, and one end of the orientation lever is fixed on sprue, and the other end of the orientation lever is worn Cross coil.

Preferably, in order to realize that air guiding function, the air guide component include third motor, third drive shaft and two fans Leaf, the third motor are fixed in air guide case, and the third motor is electrically connected with PLC, and two flabellums are located at third electricity The two sides of machine, the third motor are electrically connected by third drive shaft with PLC.

Preferably, in order to detect the top that whether desiccant on dry net is in a saturated state, in the drying box Equipped with humidity sensor, the humidity sensor is electrically connected with PLC.

Preferably, being equipped with temperature sensor, the temperature in the computer room to detect the temperature environment inside computer room Sensor is electrically connected with PLC.

Preferably, the energy conservation and environmental protection in order to realize base station, the top of the computer room is equipped with solar panels.

The invention has the advantages that this has the energy-saving communication base station of cooling function by cooling body to condensate film Drenched, convenient for be absorbed into computer room air heat, reach cooling purpose, compared with existing cooling body, this is cold But mechanism reduces the temperature of condensate film using cold water, and absorbs atmospheric heat by condensate film, so that energy consumption has been saved, and Water resource is Ke Xunhuanliyong, moreover, is dehumidified by drier to air after cooling, guarantees dry cold air It is passed through in computer room, reaches good cooling effect, compared with existing drier, which is made by drying operation Desiccant is reusable is dried, realize and continue drying out function, and then improve the practicability of the communication base station.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is the structural schematic diagram of the energy-saving communication base station with cooling function of the invention；

Fig. 2 is the structural schematic diagram of the inlet duct of the energy-saving communication base station with cooling function of the invention；

Fig. 3 is the cross-sectional view of the cooler bin of the energy-saving communication base station with cooling function of the invention；

Fig. 4 is the structural schematic diagram of the drier of the energy-saving communication base station with cooling function of the invention；

Fig. 5 is the structural schematic diagram of the air guide component of the energy-saving communication base station with cooling function of the invention；

In figure: 1. pedestals, 2. computer rooms, 3. exhaust pipes, 4. water tanks, 5. water pumps, 6. aqueducts, 7. catchment covers, 8. doors, 9. Sealing plate, 10. cooler bins, 11. refrigerator pipes, 12. air guide casees, 13. gas-guide tubes, 14. drainpipes, 15. spray heads, 16. condensate films, 17. hairbrush, 18. drying boxes, 19. drying boxes, 20. air inlet pipe, 21. dry nets, 22. sealing blocks, 23. translation plates, 24. infrared lamps Pipe, 25. permeability cells, 26. first motors, 27. first connecting rods, 28. second connecting rods, 29. third connecting rods, 30. slip rings, 31. is fixed Bar, 32. second motors, 33. bearings, 34. second drive shafts, 35. guide rods, 36. range sensors, 37. sprues, 38. coils, 39. spring, 40. orientation levers, 41. third motors, 42. third drive shafts, 43. flabellums, 44. humidity sensors, 45. temperature sensing Device, 46. solar panels.

Specific embodiment

In conjunction with the accompanying drawings, the present invention is further explained in detail.These attached drawings are simplified schematic diagram, only with Illustration illustrates basic structure of the invention, therefore it only shows the composition relevant to the invention.

As shown in Figure 1, a kind of energy-saving communication base station with cooling function, including pedestal 1, computer room 2, exhaust pipe 3, into Device of air, water tank 4, water pump 5, aqueduct 6 and catchment covers 7, the computer room 2 are fixed on the top of pedestal 1, set on the computer room 2 There is door 8, PLC is equipped in the computer room 2, the exhaust pipe 3 and inlet duct are located at the two sides of computer room 2, the exhaust Valve is equipped in pipe 3, the water tank 4 is fixed on the lower section of pedestal 1, and the water pump 5 is fixed on water tank 4, the water pump 5 and water Case 4 is connected to, and the water pump 5 is connected to by aqueduct 6 with inlet duct, and the catchment covers 7 are located at the lower section of inlet duct, described Catchment covers 7 are connected to the top of water tank 4, and the water pump 5 and valve are electrically connected with PLC；

In the communication base station, computer room 2 is fixedly mounted on to the top of pedestal 1, water tank 4 is installed on the lower section of pedestal 1, i.e., Below face, when computer room 2 inside when the temperature is excessively high, PLC control valve opening, convenient for the hot-air in computer room 2 from 3 row of exhaust pipe Out, while PLC control water pump 5 is run, and is extracted the aqueous solution in water tank 4, is imported in inlet duct by aqueduct 6, by air inlet Device introduces outside air, and after carrying out cooling and drying, so that dry cold air enters inside computer room 2, to reduce machine Temperature in room 2 makes the electric elements in computer room 2 work in suitable temperature environment, and then improves the communication base station Practicability.

As Figure 2-3, the inlet duct successively includes sealing plate 9, mobile mechanism, cooling body and does from below to up Dry mechanism, the cooling body are described from below to up successively including cooler bin 10, refrigerator pipe 11, air guide case 12 and gas-guide tube 13 Sealing plate 9 is between cooler bin 10 and catchment covers 7, and the mobile mechanism and sealing plate 9 are sequentially connected, in the air guide case 12 Equipped with air guide component；

Drainpipe 14, several spray heads 15 and several condensate films 16 are equipped in the cooler bin 10, the drainpipe 14 is fixed In cooler bin 10, the spray head 15 is fixed on the lower section of drainpipe 14, and the spray head 15 is connected by drainpipe 14 and aqueduct 6 Logical, the condensate film 16 is successively staggered on the inner wall of the two sides of cooling cylinder from top to down, two neighboring condensate film 16 it Between be equipped with several hairbrush 17；

When needing to cool down, PLC controls mobile mechanism's operation, so that sealing plate 9 is mobile to the direction far from computer room 2, just Expose in cooler bin 10, while the air guide component in PLC control water pump 5 and air guide case 12 transports shape, water pump 5 extracts in water tank 4 Aqueous solution is delivered in drainpipe 14 by aqueduct 6, then is sprayed downwards from spray head 15, and two sides inner wall in cooler bin 10 is fallen in On condensate film 16 on, reduce the temperature of condensate film 16, while after water flow flows downward along condensate film 16, by hairbrush 17, 17 position of hairbrush forms small-sized droplet, and then water flow is fallen on catchment covers 7, and is flowed into water tank 4 by catchment covers 7, realizes Water flow recycles, and when air guide assembly operating, by outside air by after cooler bin 10, by air guide case 12, then from leading Tracheae 13 is passed through be dried in drying box 18 after, by air inlet pipe 20 enter computer room 2 inside, air flows in air guide case 12 When, condensate film 16 and hairbrush 17 are touched, the droplet on condensate film 16 and hairbrush 17 absorbs the heat of air, to reduce sky The temperature of gas realizes the function to external air cooling-down, is then discharged into cold air in air guide case 12 by refrigerator pipe 11.

As shown in figure 4, the drier includes drying box 18, drying box 19 and air inlet pipe 20, the drying box 18 is logical It crosses air inlet pipe 20 to be connected to computer room 2, the drying box 18 is connected to by gas-guide tube 13 with air guide case 12, and the drying box 19 is fixed In the side of the separate computer room 2 of drying box 18, the junction of the drying box 18 and drying box 19 is equipped with opening, the drying box It is equipped with translation component, dry net 21, sealing block 22 and two translation plates 23, the sealing block 22 in 18 and is fixed on drying box 18 On the inner wall of the side of computer room 2, the translation component and translation plates 23 are sequentially connected, and the dry net 21 is fixed on two Between translation plates 23, infrared lamp 24 and gas deflation assembly, the separate drying box of the drying box 19 are equipped in the drying box 19 18 side is equipped with permeability cell 25, and the infrared lamp 24 is located at the bottom in drying box 19, the infrared lamp 24 and PLC electricity Connection, the gas deflation assembly are located at permeability cell 25.

In drying box 18, for placing silica-gel desiccant on dry net 21, drying box is passed through using silica-gel desiccant absorption The moisture in air in 18, to reduce the humidity of air, then will be dried after cold air be discharged by air inlet pipe 20 Inside computer room 2.With being increased using the time for desiccant, desiccant progressivelyes reach saturation state, the translation component of PLC control at this time Operation drives dry net 21 mobile, so that dry net 21 enters in drying box 19, then gas deflation assembly opens permeability cell 25, After being connected to convenient for drying box 19 with outside, PLC controls 24 pairs of tops of infrared lamp and emits infrared ray, thus on dry net 21 Desiccant carries out heating, drying, removes the moisture in dry squeeze, steam is made to be emitted into outside by permeability cell 25, so that dry Drying prescription restores drying capacity, then drives translation plates 23 to be resetted by translation component.

As shown in Fig. 2, the mobile mechanism includes first motor 26, first connecting rod 27, second connecting rod 28, third connecting rod 29, slip ring 30 and fixed link 31, the first motor 26 and fixed link 31 are each attached on computer room 2, the first motor 26 with PLC electrical connection, the slip ring 30 are fixed on sealing plate 9, and the slip ring 30 is set in fixed link 31, the first motor 26 It is sequentially connected with first connecting rod 27, the first connecting rod 27 is hinged by second connecting rod 28 and the top of third connecting rod 29, described The bottom end of third connecting rod 29 is fixed on the top of sealing plate 9.

When needing to drive sealing plate 9 mobile, PLC controls first motor 26 and starts, so that first connecting rod 27 is driven to rotate, First connecting rod 27 acts on the top of third connecting rod 29 by second connecting rod 28, so that third connecting rod 29 drives slip ring 30 mobile, Since slip ring 30 is only capable of moving along the fixed fixed link 31 in position, so that slip ring 30 and being fixedly connected with slip ring 30 close Sealing plate 9 carries out horizontal movement.

As shown in figure 4, the translation component includes the second motor 32, bearing 33, the second drive shaft 34 and guide rod 35, institute State guide rod 35 both ends be separately fixed at drying box 18 close computer room 2 side inner wall and drying box 19 separate computer room On the inner wall of 2 side, second motor 32 and bearing 33 are separately fixed at the lower section at the both ends of guide rod 35, and described second Between the second motor 32 and bearing 33, second motor 32 is electrically connected drive shaft 34 with PLC, second motor 32 with The transmission connection of second drive shaft 34, the translation plates 23 are set on the second drive shaft 34 and guide rod 35, the translation plates 23 Be equipped with the junction of the second drive shaft 34 and the matched screw thread of the second drive shaft 34.

PLC controls the starting of the second motor 32, drives the rotation of the second drive shaft 34, and the second drive shaft 34 is existed by threaded function In translation plates 23, under the guiding role of guide rod 35, so that translation plates 23 are carried out along the axis direction of the second drive shaft 34 It is mobile.

Preferably, in order to detect the position of dry net 21, the top of the sealing block 22 is equipped with range sensor 36, institute Range sensor 36 is stated to be electrically connected with PLC.It is detected in sealing block 22 and two translation plates 23 using range sensor 36 close to machine The distance of one translation plates 23 in room 2, and distance is fed back into PLC, so that PLC determines the position of translation plates 23 according to range data It sets, and then determines the position of dry net 21.

As shown in figure 4, the gas deflation assembly includes sprue 37, coil 38 and spring 39, one end setting of the sprue 37 In permeability cell 25, the other end of the sprue 37 is connect by spring 39 with coil 38, is equipped with iron core, institute in the sprue 37 It states spring 39 and is in compressive state, the coil 38 is fixed on the top in drying box 19, and the coil 38 is electrically connected with PLC.

For coil 38 in the state of being not powered on, compressed spring 39 is recovery deformation to the generation thrust of sprue 37, thus So that pushing block blocks permeability cell 25, the sealing to drying box 19 is realized, and after PLC is powered to coil 38, coil 38 generates magnetic Property, the pressure of spring 39 is greater than to the attraction of 37 inner-core of sprue, so that sprue 37 is mobile to coil 38, so that thoroughly Tracheae 25 is opened, and is discharged convenient for steam from permeability cell 25.

Preferably, in order to fix the moving direction of sprue 37, the gas deflation assembly further includes two orientation levers 40, two Orientation lever 40 is located above and below spring 39, and one end of the orientation lever 40 is fixed on sprue 37, the orientation The other end of bar 40 passes through coil 38.Using orientation lever 40 sprue 37 is moved along the axis direction of orientation lever 40, in turn It ensure that the steady movement of sprue 37, so that sprue 37 is inserted into permeability cell 25.

As shown in figure 5, the air guide component includes third motor 41, third drive shaft 42 and two flabellums 43, described Three motors 41 are fixed in air guide case 12, and the third motor 41 is electrically connected with PLC, and two flabellums 43 are located at third motor 41 two sides, the third motor 41 are electrically connected by third drive shaft 42 with PLC.

PLC controls third motor 41 and starts, and makes flabellum 43 keep the state rotated, flabellum 43 by third drive shaft 42 Air-flow is generated, air is delivered in drying box 18 by air-flow from gas-guide tube 13, it send by air inlet pipe 20 to computer room 2, thus Reduce the pressure of air guide case 12, is entered in air guide case 12 convenient for external air by cooler bin 10 and refrigerator pipe 11, then It under airflow function, is sent into computer room 2 through drying box 18 and air inlet pipe 20, so recycles, realize air guiding function.

Preferably, it is whether in a saturated state in order to detect the desiccant on dry net 21, in the drying box 18 Top is equipped with humidity sensor 44, and the humidity sensor 44 is electrically connected with PLC.It will be entered using the detection of humidity sensor 44 The humidity of the air of air inlet pipe 20, and humidity data is fed back into PLC, when humidity data is excessive, PLC is detected at desiccant In saturation state.

Preferably, temperature sensor 45 is equipped in the computer room 2 in order to detect the temperature environment inside computer room 2, it is described Temperature sensor 45 is electrically connected with PLC.The operating ambient temperature of computer room 2 is detected using temperature sensor 45, and by temperature data PLC is fed back to, when temperature is larger, PLC starts control to cooling down inside computer room 2.

Preferably, the energy conservation and environmental protection in order to realize base station, the top of the computer room 2 is equipped with solar panels 46.Using too Positive energy plate 46 can carry out photovoltaic power generation, the electric energy of pedestal operation be provided, to realize the energy conservation and environmental protection of pedestal.

The communication base station extracts the water flow in water tank 4 when being cooled down, using water pump 5, and passes through 15 pairs of coolings of spray head Condensate film 16 in case 10 carries out spraying cooling, then controls air guide assembly operating, when so that air flowing in cooler bin 10, Condensate film 16 absorbs the heat of air, achievees the purpose that cooling, is then absorbed in air using the desiccant on dry net 21 Moisture dehumidifies, then dry cold air is passed through in computer room 2, achievees the purpose that cool down to computer room 2, when desiccant reaches When saturation, dry net 21 is sent into drying box 19 by translation component, the infrared ray emitted using infrared lamp 24 is to desiccant Drying heating is carried out, after so that desiccant is removed moisture, restores drying capacity, guarantees the carry out cooling and drying that equipment can continue.

Compared with prior art, this have the energy-saving communication base station of cooling function by cooling body to condensate film 16 into Row drench, convenient for be absorbed into computer room 2 air heat, reach cooling purpose, compared with existing cooling body, the cooling Mechanism reduces the temperature of condensate film 16 using cold water, and absorbs atmospheric heat by condensate film 16, so that energy consumption has been saved, And water resource is Ke Xunhuanliyong, moreover, is dehumidified by drier to air after cooling, guarantees dry cold sky Gas is passed through in computer room 2, reaches good cooling effect, and compared with existing drier, which passes through drying operation, It is dried so that desiccant is reusable, realizes and continue drying out function, and then improve the practicability of the communication base station.

Taking the above-mentioned ideal embodiment according to the present invention as inspiration, through the above description, relevant staff is complete Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention Property range is not limited to the contents of the specification, it is necessary to which the technical scope thereof is determined according to the scope of the claim.

Claims (10)

1. a kind of energy-saving communication base station with cooling function, which is characterized in that including pedestal (1), computer room (2), exhaust pipe (3), inlet duct, water tank (4), water pump (5), aqueduct (6) and catchment covers (7), the computer room (2) are fixed on pedestal (1) Top, the computer room (2) are equipped with door (8), and PLC, the exhaust pipe (3) and inlet duct point are equipped in the computer room (2) Not Wei Yu computer room (2) two sides, valve is equipped in the exhaust pipe (3), the water tank (4) is fixed on the lower section of pedestal (1), institute Water pump (5) is stated to be fixed on water tank (4), the water pump (5) is connected to water tank (4), the water pump (5) by aqueduct (6) with Inlet duct connection, the catchment covers (7) are located at the lower section of inlet duct, the top company of the catchment covers (7) and water tank (4) Logical, the water pump (5) and valve are electrically connected with PLC；

The inlet duct is described cold from below to up successively including sealing plate (9), mobile mechanism, cooling body and drier But mechanism successively includes cooler bin (10), refrigerator pipe (11), air guide case (12) and gas-guide tube (13), the sealing plate from below to up (9) between cooler bin (10) and catchment covers (7), the mobile mechanism and sealing plate (9) are sequentially connected, the air guide case (12) air guide component is equipped in；

Drainpipe (14), several spray heads (15) and several condensate films (16), the drainpipe are equipped in the cooler bin (10) (14) it is fixed in cooler bin (10), the spray head (15) is fixed on the lower section of drainpipe (14), and the spray head (15) passes through row Water pipe (14) is connected to aqueduct (6), and the condensate film (16) is successively staggered in the two sides of cooling cylinder from top to down On wall, several hairbrush (17) are equipped between two neighboring condensate film (16)；

The drier includes drying box (18), drying box (19) and air inlet pipe (20), and the drying box (18) passes through air inlet Pipe (20) is connected to computer room (2), and the drying box (18) is connected to by gas-guide tube (13) with air guide case (12), the drying box (19) it is fixed on the side of the separate computer room (2) of drying box (18), the junction of the drying box (18) and drying box (19) is set There is opening, translation component, dry net (21), sealing block (22) and two translation plates (23), institute are equipped in the drying box (18) State sealing block (22) be fixed on drying box (18) close computer room (2) side inner wall on, the translation component and translation plates (23) it is sequentially connected, the dry net (21) is fixed between two translation plates (23), is equipped in the drying box (19) infrared The side of fluorescent tube (24) and gas deflation assembly, the separate drying box (18) of the drying box (19) is equipped with permeability cell (25), described red Outer fluorescent tube (24) is located at the bottom in drying box (19), and the infrared lamp (24) is electrically connected with PLC, and the gas deflation assembly is located at At permeability cell (25).

2. as described in claim 1 with the energy-saving communication base station of cooling function, which is characterized in that mobile mechanism's packet Include first motor (26), first connecting rod (27), second connecting rod (28), third connecting rod (29), slip ring (30) and fixed link (31), institute It states first motor (26) and fixed link (31) is each attached on computer room (2), the first motor (26) is electrically connected with PLC, described Slip ring (30) is fixed on sealing plate (9), and the slip ring (30) is set on fixed link (31), the first motor (26) and the One connecting rod (27) transmission connection, the first connecting rod (27) is hinged by second connecting rod (28) and the top of third connecting rod (29), The bottom end of the third connecting rod (29) is fixed on the top of sealing plate (9).

3. as described in claim 1 with the energy-saving communication base station of cooling function, which is characterized in that the translation component packet The second motor (32), bearing (33), the second drive shaft (34) and guide rod (35) are included, the both ends of the guide rod (35) are solid respectively It is scheduled on the inner wall of the side of the inner wall of the side of the close computer room (2) of drying box (18) and the separate computer room (2) of drying box (19) On, second motor (32) and bearing (33) are separately fixed at the lower section at the both ends of guide rod (35), second drive shaft (34) between the second motor (32) and bearing (33), second motor (32) is electrically connected with PLC, second motor (32) it is sequentially connected with the second drive shaft (34), the translation plates (23) are set in the second drive shaft (34) and guide rod (35) On, the translation plates (23) be equipped with the junction of the second drive shaft (34) and the second drive shaft (34) matched screw thread.

4. as described in claim 1 with the energy-saving communication base station of cooling function, which is characterized in that the sealing block (22) Top be equipped with range sensor (36), the range sensor (36) is electrically connected with PLC.

5. as described in claim 1 with the energy-saving communication base station of cooling function, which is characterized in that the gas deflation assembly packet Sprue (37), coil (38) and spring (39) are included, one end setting of the sprue (37) is in permeability cell (25), the sprue (37) the other end connect by spring (39) with coil (38), and the sprue (37) is interior equipped with iron core, at the spring (39) In compressive state, the coil (38) is fixed on the top in drying box (19), and the coil (38) is electrically connected with PLC.

6. as claimed in claim 5 with the energy-saving communication base station of cooling function, which is characterized in that the gas deflation assembly is also Including two orientation levers (40), two orientation levers (40) are located above and below spring (39), the orientation lever (40) One end be fixed on sprue (37), the other end of the orientation lever (40) passes through coil (38).

7. as described in claim 1 with the energy-saving communication base station of cooling function, which is characterized in that the air guide component packet Third motor (41), third drive shaft (42) and two flabellums (43) are included, the third motor (41) is fixed on air guide case (12) Interior, the third motor (41) is electrically connected with PLC, and two flabellums (43) are located at the two sides of third motor (41), and described Three motors (41) are electrically connected by third drive shaft (42) with PLC.

8. as described in claim 1 with the energy-saving communication base station of cooling function, which is characterized in that the drying box (18) Interior top is equipped with humidity sensor (44), and the humidity sensor (44) is electrically connected with PLC.

9. as described in claim 1 with the energy-saving communication base station of cooling function, which is characterized in that in the computer room (2) Equipped with temperature sensor (45), the temperature sensor (45) is electrically connected with PLC.

10. as described in claim 1 with the energy-saving communication base station of cooling function, which is characterized in that the computer room (2) Top is equipped with solar panels (46).