CN108204343A - It is a kind of that there is the safety-type wind power plant of climatic adaptation - Google Patents

Abstract

There is the safety-type wind power plant of climatic adaptation the present invention relates to a kind of, including pedestal, supporting rod, main body and blade, it is characterized in that, further include cooling mechanism and firm organization, cooling mechanism includes heat absorption component, air-cooled component, water cooling component and changeover module, and firm organization includes the second motor, screw, lifter plate and two stable units.This has the function of in the safety-type wind power plant of climatic adaptation, pass through cooling mechanism, Different climate can be directed to and use no radiating mode, so as to play preferable cooling processing to main body, prevent body interior temperature excessively high, generator is impacted, generating set cabin is reduced to break down, the probability of spontaneous combustion explosion, improve practicability and the safety of wind power plant, pass through firm organization, pedestal can be caused to keep firm, prevent wind-driven generator run-off the straight, collapse, it threatens to the security of the lives and property of people, so that equipment is more safe and reliable.

Description

It is a kind of that there is the safety-type wind power plant of climatic adaptation

Technical field

The present invention relates to wind power generation field, more particularly to a kind of safety-type wind-power electricity generation with climatic adaptation is set It is standby.

Background technology

The kinetic energy that wind-power electricity generation refers to keep watch switchs to electric energy, and wind-driven generator is exactly a kind of common wind power plant.

But wind-driven generator still comes with some shortcomings during actual use, and in wind-power electricity generation, generator A large amount of heat can be generated in group cabin, there are security risk, the excessively high use that can lead to generator of generating set cabin heating Service life loses, breaks down or even spontaneous combustion explosion, so as to cause huge economic loss, existing major part wind-driven generator All it is to rely on air-cooled direct cooling, but in summer since air themperature is just higher, the air-cooled cooling and heat dissipation effect played is not It is good, in addition, wind-driven generator is when by high wind, it may occur that shake, the pedestal for leading to wind-driven generator is unstable, so as to make It obtains wind-driven generator run-off the straight, collapse, threaten to the security of the lives and property of people, safety is insufficient, these are all reduced The practicability of wind power plant and safety.

Invention content

The technical problem to be solved by the present invention is to：It is a kind of with climatic adaptation in order to overcome the deficiencies of the prior art and provide The safety-type wind power plant of function.

The technical solution adopted by the present invention to solve the technical problems is：It is a kind of that there is the safety-type wind of climatic adaptation Power generating equipment, including pedestal, supporting rod, main body and blade, which is characterized in that further include cooling mechanism and firm organization, institute The inside that cooling mechanism is arranged on main body is stated, the firm organization is arranged on the inside of pedestal；

The cooling mechanism includes heat absorption component, air-cooled component, water cooling component and changeover module, the air-cooled component and water Cold component is connect with heat absorption component；

The heat absorption component includes endothermic tube, heat-conducting block, absorber plate, switching chamber and casing, and the absorber plate is vertically arranged In the inside of main body, the endothermic tube is S-type to be evenly distributed on absorber plate, and the heat-conducting block has several, each heat-conducting block from It is horizontally set on the side of absorber plate successively from left to right, the outer wall of the heat-conducting block and endothermic tube is against the switching chamber and set Guan Jun is horizontally set on the inside of main body, and one end of the endothermic tube is connected with the side of switching chamber, the endothermic tube it is another End is connected with casing, two card slots is respectively equipped on the inner wall of the both sides up and down of described sleeve pipe, the vertical cross-section of the card slot is Arc；

The air-cooled component includes air inlet, blast pipe, air pump, discharge pipe and air outlet, and the air inlet is arranged on master The side of the close blade of body, the air outlet are arranged on the side of the separate blade of main body, and the air pump is arranged on main body Inside, the air inlet are connected by blast pipe with one end of air pump, and the other end of the air pump is connected with switching chamber, it is described go out Air port is connect by discharge pipe with changeover module；

The water cooling component includes water pump, connecting tube, water tank, heat-dissipating pipe, cooling fin and thermovent, and the water pump is arranged on The lower section of body interior, water tank are arranged on the side of water pump, and the thermovent is arranged on the lower section of main body, and the heat-dissipating pipe is horizontal It is arranged on the inner wall of the lower section of main body, the heat-dissipating pipe is located at the top of thermovent, and the cooling fin has several, each to radiate Piece is vertically provided at the inside of heat-dissipating pipe successively from left to right, and one end of the cooling fin is located at the inside of heat-dissipating pipe, described to dissipate The other end of backing is located at the inside of thermovent, and the switching chamber, water pump, water tank and heat-dissipating pipe are sequentially communicated by connecting tube, The heat-dissipating pipe is connect by connecting tube with changeover module；

The changeover module includes cylinder, push plate, the first motor, half gear, rack, movable frame and two connection units, The cylinder is horizontally fixed on the inside of main body, and the gas bar of the cylinder is connect with push plate, and the push plate is horizontally disposed with, and described One motor is horizontally set on the inside of push plate, and first motor is connect with half gear drive, and the movable frame is vertically provided at The side of push plate, the rack is vertically arranged, and there are two the racks, and two racks are separately positioned on the interior of the both sides of movable frame On wall, half gear is arranged between two racks, and the half wheel and rack engagement, two connection units are separately positioned on The both sides up and down of movable frame, the connection unit include fixing pipe, spring and ball, and the fixing pipe is horizontally fixed on movable frame On, the fixing pipe is matched with casing, and the spring is vertically provided at the inside of fixing pipe, and there are two the balls, two rollings Pearl is separately positioned on the both sides up and down of the inside of fixing pipe, and the both ends of the spring connect one to one respectively with two balls, In the internal slide of fixing pipe, two balls are corresponded and are matched with two card slots respectively the ball, in two fixing pipes, One of fixing pipe is connected by discharge pipe with air outlet, another fixing pipe is connected by connecting tube with heat-dissipating pipe.

Preferably, in order to which wind power plant is fixed, prevent equipment from collapsing, the firm organization includes second The stable unit of motor, screw, lifter plate and two, second motor are vertically provided at the inside of pedestal, and the screw is vertical Setting, second motor are connect with screw rod transmission, and the lifter plate is horizontally disposed with, and the lifter plate is set on screw, institute It states screw to be threadedly coupled with lifter plate, two stable units are separately positioned on the both sides of lifter plate, and the stable unit includes the Three motors and screw rod, the third motor are arranged on the inside of lifter plate, and the screw rod is inclined at the lower section of lifter plate, institute Third motor is stated to connect with screw drive.

Preferably, in order to make the movement of lifter plate vertical stability, the both sides of the lifter plate are set there are two guide rod, two A guide rod is vertically provided at the both sides of lifter plate, the lifter plate and guide rod against the lifter plate and guide rod respectively It is slidably connected.

Preferably, in order to make the movement of movable frame vertical stability, the side of the push plate sets that there are two limited blocks, described Movable frame is located between two limited blocks, and the limited block is with movable frame against the limited block is slidably connected with movable frame.

Preferably, in order to detect the temperature of body interior, the main body is internally provided with temperature sensor.

Preferably, in order to detect whether supporting rod shakes, the supporting rod is internally provided with horizon sensor.

Preferably, in order to control air pump, to switching chamber break-make gas, the lower section of the air pump is equipped with solenoid valve.

Preferably, in order to improve the effect of heat absorption, the making material of the absorber plate is aluminium.

Preferably, in order to by the function of PLC control devices, the main body is internally provided with PLC, the cooling mechanism It is electrically connected with firm organization with PLC.

Preferably, in order to carry out signal transmission, so as to remote control equipment, the main body is internally provided with antenna.

The invention has the advantages that should have the function of in the safety-type wind power plant of climatic adaptation, pass through heat dissipation Mechanism can be directed to Different climate using no radiating mode, so as to play preferable cooling processing to main body, prevent main body Internal temperature is excessively high, and generator is impacted, and reduces the probability that generating set cabin breaks down, spontaneous combustion is exploded, and improves The practicability of wind power plant and safety by firm organization, can cause pedestal to keep firm, prevent wind-power electricity generation Machine run-off the straight is collapsed, and is threatened to the security of the lives and property of people, improves the stability of wind power plant, so as to So that equipment is more safe and reliable.

Description of the drawings

The present invention is further described with reference to the accompanying drawings and examples.

Fig. 1 is the structure diagram with the safety-type wind power plant of climatic adaptation of the present invention；

Fig. 2 is the structural representation of the cooling mechanism with the safety-type wind power plant of climatic adaptation of the present invention Figure；

Fig. 3 is the structural representation of the changeover module with the safety-type wind power plant of climatic adaptation of the present invention Figure；

Fig. 4 is the structural representation of the firm organization with the safety-type wind power plant of climatic adaptation of the present invention Figure；

In figure：1. pedestal, 2. supporting rods, 3. main bodys, 4. blades, 5. air inlets, 6. blast pipes, 7. air pumps, 8. switching chambers, 9. endothermic tube, 10. heat-conducting blocks, 11. absorber plates, 12. air outlets, 13. water pumps, 14. connecting tubes, 15. water tanks, 16. heat-dissipating pipes, 17. cooling fin, 18. thermovents, 19. casings, 20. fixing pipes, 21. springs, 22. balls, 23. discharge pipes, 24. cylinders, 25. push away Plate, 26. movable frames, 27. first motors, 28. half gears, 29. racks, 30. second motors, 31. screws, 32. lifter plates, 33. Third motor, 34. screw rods.

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 the basic structure of the present invention, therefore it only shows composition related to the present invention.

As shown in Figure 1, a kind of have the function of the safety-type wind power plant of climatic adaptation, including pedestal 1, supporting rod 2, Main body 3 and blade 4, which is characterized in that further include cooling mechanism and firm organization, the cooling mechanism is arranged on the interior of main body 3 Portion, the firm organization are arranged on the inside of pedestal 1；

By cooling mechanism, Different climate can be directed to using no radiating mode, so as to be played to main body 3 preferably Cooling is handled, and prevents 3 internal temperature of main body excessively high, generator is impacted, reduce generating set cabin failure, fire certainly The probability of fried generation improves practicability and the safety of wind power plant, by firm organization, can cause pedestal 1 It keeps firm, prevents wind-driven generator run-off the straight, collapses, threaten to the security of the lives and property of people, improve wind-force The stability of generating equipment, so that equipment is more safe and reliable.

As Figure 2-3, the cooling mechanism includes heat absorption component, air-cooled component, water cooling component and changeover module, described Air-cooled component and water cooling component are connect with heat absorption component；

The heat absorption component includes endothermic tube 9, heat-conducting block 10, absorber plate 11, switching chamber 8 and casing 19, the absorber plate 11 are vertically provided at the inside of main body 3, and the endothermic tube 9 is S-type to be evenly distributed on absorber plate 11, if the heat-conducting block 10 has Dry, each heat-conducting block 10 is horizontally set on the side of absorber plate 11 successively from left to right, and the heat-conducting block 10 is outer with endothermic tube 9 Wall is horizontally set on the inside of main body 3, one end and the switching chamber 8 of the endothermic tube 9 against, the switching chamber 8 and casing 19 Side connection, the other end of the endothermic tube 9 connects with casing 19, set respectively on the inner wall of the both sides up and down of described sleeve pipe 19 There are two card slot, the vertical cross-section of the card slot is arc；

The air-cooled component includes air inlet 5, blast pipe 6, air pump 7, discharge pipe 23 and air outlet 12, the air inlet 5 The side of the close blade 4 of main body 3 is arranged on, the air outlet 12 is arranged on the side of the separate blade 4 of main body 3, the gas The inside that pump 7 is arranged on main body 3, the air inlet 5 are connected by blast pipe 6 with one end of air pump 7, the air pump 7 it is another End is connected with switching chamber 8, and the air outlet 12 is connect by discharge pipe 23 with changeover module；

The water cooling component includes water pump 13, connecting tube 14, water tank 15, heat-dissipating pipe 16, cooling fin 17 and thermovent 18, institute The lower section that water pump 13 is arranged on inside main body 3 is stated, water tank 15 is arranged on the side of water pump 13, and the thermovent 18 is arranged on main body 3 lower section, on the inner wall of lower section that the heat-dissipating pipe 16 is horizontally set on main body 3, the heat-dissipating pipe 16 is located at thermovent 18 Top, the cooling fin 17 have several, and each cooling fin 17 is vertically provided at the inside of heat-dissipating pipe 16 successively from left to right, described One end of cooling fin 17 is located at the inside of heat-dissipating pipe 16, and the other end of the cooling fin 17 is located at the inside of thermovent 18, described Switching chamber 8, water pump 13, water tank 15 and heat-dissipating pipe 16 are sequentially communicated by connecting tube 14, and the heat-dissipating pipe 16 passes through connecting tube 14 It is connect with changeover module；

The changeover module includes cylinder 24, push plate 25, the first motor 27, half gear 28, rack 29, movable frame 26 and two A connection unit, the cylinder 24 are horizontally fixed on the inside of main body 3, and the gas bar of the cylinder 24 is connect with push plate 25, described Push plate 25 is horizontally disposed, and first motor 27 is horizontally set on the inside of push plate 25,27 and half gear 28 of the first motor It is sequentially connected, the movable frame 26 is vertically provided at the side of push plate 25, and the rack 29 is vertically arranged, and the rack 29 has two It is a, on the inner wall of both sides that two racks 29 are separately positioned on movable frame 26, half gear 28 be arranged on two racks 29 it Between, half gear 28 is engaged with rack 29, and two connection units are separately positioned on the both sides up and down of movable frame 26, the connection Unit includes fixing pipe 20, spring 21 and ball 22, and the fixing pipe 20 is horizontally fixed on movable frame 26, the fixing pipe 20 It is matched with casing 19, the spring 21 is vertically provided at the inside of fixing pipe 20, and there are two the balls 22, and two balls 22 divide It is not arranged on the both sides up and down of the inside of fixing pipe 20, the both ends of the spring 21 correspond respectively with two balls 22 to be connected It connects, in the internal slide of fixing pipe 20, two balls 22 correspond and match, two with two card slots respectively the ball 22 In fixing pipe 20, one of fixing pipe 20 is connected by discharge pipe 23 with air outlet 12, another fixing pipe 20 passes through connection Pipe 14 is connected with heat-dissipating pipe 16.

Temperature sensor inside main body 3 detects that when the temperature is excessively high signal can be passed to PLC by temperature sensor, Judge to post-process by PLC, at summer, since external air temperature is higher, so cooled down using water-cooling pattern, PLC first The first motor 27 is controlled to start, half gear 28 rotates clockwise therewith, and half gear 28 is moved with carry-over bar 29, and rack 29, which drives, to be moved Dynamic frame 26 moves up, and is moved on in the fixing pipe 20 of 29 lower section of rack when being located along the same line with casing 19, PLC is controlled at this time Cylinder 24 starts, and the gas bar of cylinder 24 drives push rod to be moved to the left, and push plate 25 drives the inside of 20 plug-in-sleeve 19 of fixing pipe, During 20 plug-in-sleeve 19 of fixing pipe, two balls 22 contract in the inside of fixing pipe 20, and spring 21 is then in and is pressed Contracting state, when ball 22 is moved to groove position, spring 21 is no longer compressed, spring 21 drive ball 22 and card slot against, Position-limiting action is played, prevents fixing pipe 20 at the inside cunning of casing 19 so that connection more fastens, and completes fixing pipe 20 and set After the connection of pipe 19, water pump 13 starts, and water pump 13 drives flow to flow into switching chamber 8 from water tank 15, in fact, switching chamber at this time It is blocked between 8 and air pump 7 by solenoid valve, flow is flowed into endothermic tube 9, and due to 9 S-type distribution of endothermic tube, therefore flow exists There is time enough to absorb heat when being flowed in endothermic tube 9 so that the heat of absorption is more, in order to enhance endothermic effect, passes through The outer wall of heat-conducting block 10 and endothermic tube 9 against so that heat conduction is more preferable, therefore can fully absorb heat, the water after the completion of absorbing heat Stream, which is flowed into heat-dissipating pipe 16, to radiate, and since one end of cooling fin 17 is located at the inside of heat dissipation, the other end is exposed to main body 3 Outside is contacted with air, so that the heat in water can quickly be absorbed by outside air, the water after cooling passes through air pump 7 Reenter water tank 15.Compared with directly carrying out wind-cooling heat dissipating, since the specific heat capacity of water is higher, endothermic effect is more compared with air It is good, and summer air themperature height is not suitable for wind-cooling heat dissipating, when being radiated in winter, due to winter air themperature compared with Low, the water in water tank 15 may solidify icing, be not suitable for water-cooled cooling, at this point, the first motor 27 is controlled to rotate by PLC, make It obtains half gear 28 to rotate counterclockwise, movable frame 26 can drive the fixing pipe being positioned above 20 to move down, and enter eventually into casing 19 Inside, connect with casing 19, at this time using wind cooling temperature lowering, solenoid valve is opened, and PLC control air pumps 7 start, and air pump 7 will be extraneous Cold air sucks blast pipe 6 from air inlet 5, and then cold air enters in endothermic tube 9, the inside of main body 3 is carried out abundant Heat absorption, flowed out finally by discharge pipe 23 from air outlet 12, by that endlessly cold air will be pumped into the inside of main body 3 and carry out Heat absorption, can effectively cool down.Switch different radiating modes by being directed to Different climate, main body 3 can have been played The cooling processing of effect, prevents 3 internal temperature of main body excessively high, generator is impacted, and reduces generating set cabin and event occurs Barrier, the probability of spontaneous combustion explosion, improve practicability and the safety of wind power plant.

As shown in figure 4, the firm organization includes the second motor 30, screw 31, lifter plate 32 and two stable units, institute The inside that the second motor 30 is vertically provided at pedestal 1 is stated, the screw 31 is vertically arranged, and second motor 30 is passed with screw 31 Dynamic connection, the lifter plate 32 is horizontally disposed, and the lifter plate 32 is set on screw 31, the screw 31 and 32 spiral shell of lifter plate Line connects, and two stable units are separately positioned on the both sides of lifter plate 32, and the stable unit includes third motor 33 and screw rod 34, the third motor 33 is arranged on the inside of lifter plate 32, and the screw rod 34 is inclined at the lower section of lifter plate 32, described Third motor 33 is sequentially connected with screw rod 34.

When horizon sensor detects that supporting rod 2 shakes, signal is passed to PLC, PLC controls second by horizon sensor Motor 30 starts, and screw 31 rotates therewith, and screw 31 drives lifter plate 32 to move down, and lifter plate 32 drives third motor 33 to move down, Third motor 33 starts during moving down, and screw rod 34 rotates therewith, and screw rod 34 stretches out the inside of pedestal 1 in rotation to ground Face is punched, and final screw rod 34 can be secured firmly in ground, pass through the fixation of screw rod 34 so that pedestal 1 keeps firm, prevents bottom Seat 1 is unstable so that wind-driven generator run-off the straight is collapsed, and is threatened to the security of the lives and property of people, improves wind-force hair The stability of electric equipment, so that equipment is more safe and reliable.

Preferably, in order to make the movement of 32 vertical stability of lifter plate, the both sides of the lifter plate 32 set that there are two be oriented to Bar, two guide rods are vertically provided at the both sides of lifter plate 32, the lifter plate 32 and guide rod against the lifter plate respectively 32 are slidably connected with guide rod.

Preferably, in order to make the movement of 26 vertical stability of movable frame, the side of the push plate 25 is set there are two limited block, The movable frame 26 is located between two limited blocks, and the limited block and movable frame 26 are against the limited block and movable frame 26 It is slidably connected.

Preferably, in order to detect the temperature inside main body 3, the main body 3 is internally provided with temperature sensor.

Preferably, in order to detect whether supporting rod 2 shakes, the supporting rod 2 is internally provided with horizon sensor.

Preferably, in order to control air pump 7, to 8 break-make gas of switching chamber, the lower section of the air pump 7 is equipped with solenoid valve.

Preferably, in order to improve the effect of heat absorption, the making material of the absorber plate 11 is aluminium.

Preferably, in order to by PLC control devices, the main body 3 is internally provided with PLC, the cooling mechanism and steady Gu mechanism is electrically connected with PLC.

Preferably, in order to carry out signal transmission, so as to remote control equipment, the main body 3 is internally provided with antenna.

By air-cooled component, endlessly cold air it can will be pumped into inside main body 3 and absorb heat in winter, Ke Yiyou Effect cool down, and by water cooling component, water cooling can be used to carry out efficiently quick radiating and cooling in summer, pass through switch groups Part can be directed to Different climate and switch different radiating modes, and effective cooling processing can be played to main body 3, prevents main body 3 Internal temperature is excessively high, and generator is impacted, and reduces the probability that generating set cabin breaks down, spontaneous combustion is exploded, and improves The practicability of wind power plant and safety by firm organization, can cause pedestal 1 to keep firm, prevent wind-force from sending out Motor run-off the straight is collapsed, and is threatened to the security of the lives and property of people, improves the stability of wind power plant, from And so that equipment is more safe and reliable.

Compared with prior art, should have the function of in the safety-type wind power plant of climatic adaptation, by cooling mechanism, Different climate can be directed to using no radiating mode, so as to play preferable cooling processing to main body 3, prevented in main body 3 Portion's temperature is excessively high, and generator is impacted, and reduces the probability that generating set cabin breaks down, spontaneous combustion is exploded, improves The practicability of wind power plant and safety by firm organization, can cause pedestal 1 to keep firm, prevent wind-power electricity generation Machine run-off the straight is collapsed, and is threatened to the security of the lives and property of people, improves the stability of wind power plant, so as to So that equipment is more safe and reliable.

Using above-mentioned desirable embodiment according to the present invention as enlightenment, by above-mentioned 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 content on specification, it is necessary to determine its technical scope according to right.

Claims (10)

1. a kind of have the function of the safety-type wind power plant of climatic adaptation, including pedestal (1), supporting rod (2), main body (3) With blade (4), which is characterized in that further include cooling mechanism and firm organization, the cooling mechanism is arranged on the interior of main body (3) Portion, the firm organization are arranged on the inside of pedestal (1)；

The cooling mechanism includes heat absorption component, air-cooled component, water cooling component and changeover module, the air-cooled component and water cooling group Part is connect with heat absorption component；

The heat absorption component includes endothermic tube (9), heat-conducting block (10), absorber plate (11), switching chamber (8) and casing (19), described Absorber plate (11) is vertically provided at the inside of main body (3), and the endothermic tube (9) is S-type to be evenly distributed on absorber plate (11), institute Stating heat-conducting block (10) has several, and each heat-conducting block (10) is horizontally set on the side of absorber plate (11) successively from left to right, described The outer wall of heat-conducting block (10) and endothermic tube (9) is against the switching chamber (8) and casing (19) are horizontally set on main body (3) Inside, one end of the endothermic tube (9) are connected with the side of switching chamber (8), the other end and the casing (19) of the endothermic tube (9) It connects, two card slots is respectively equipped on the inner wall of the both sides up and down of described sleeve pipe (19), the vertical cross-section of the card slot is arc；

The air-cooled component include air inlet (5), blast pipe (6), air pump (7), discharge pipe (23) and air outlet (12), it is described into Air port (5) is arranged on the side of the close blade (4) of main body (3), and the air outlet (12) is arranged on the separate blade of main body (3) (4) side, the air pump (7) are arranged on the inside of main body (3), and the air inlet (5) passes through blast pipe (6) and air pump (7) One end connection, the other end of the air pump (7) connects with switching chamber (8), the air outlet (12) by discharge pipe (23) and Changeover module connects；

The water cooling component includes water pump (13), connecting tube (14), water tank (15), heat-dissipating pipe (16), cooling fin (17) and heat dissipation Mouth (18), the water pump (13) are arranged on the internal lower section of main body (3), and water tank (15) is arranged on the side of water pump (13), described Thermovent (18) is arranged on the lower section of main body (3), on the inner wall of lower section that the heat-dissipating pipe (16) is horizontally set on main body (3), The heat-dissipating pipe (16) has several positioned at the top of thermovent (18), the cooling fin (17), and each cooling fin (17) is past from a left side The right side is vertically provided at the inside of heat-dissipating pipe (16) successively, and one end of the cooling fin (17) is located at the inside of heat-dissipating pipe (16), institute The other end for stating cooling fin (17) is located at the inside of thermovent (18), the switching chamber (8), water pump (13), water tank (15) and dissipates Heat pipe (16) is sequentially communicated by connecting tube (14), and the heat-dissipating pipe (16) is connect by connecting tube (14) with changeover module；

The changeover module includes cylinder (24), push plate (25), the first motor (27), half gear (28), rack (29), movable frame (26) and two connection units, the cylinder (24) are horizontally fixed on the inside of main body (3), and the gas bar of the cylinder (24) is with pushing away Plate (25) connects, and the push plate (25) is horizontally disposed, and first motor (27) is horizontally set on the inside of push plate (25), described First motor (27) is sequentially connected with half gear (28), and the movable frame (26) is vertically provided at the side of push plate (25), described Rack (29) is vertically arranged, and there are two the racks (29), and two racks (29) are separately positioned on the both sides of movable frame (26) On inner wall, half gear (28) is arranged between two racks (29), and half gear (28) is engaged with rack (29), two Connection unit is separately positioned on the both sides up and down of movable frame (26), the connection unit include fixing pipe (20), spring (21) and Ball (22), the fixing pipe (20) are horizontally fixed on movable frame (26), and the fixing pipe (20) matches with casing (19), institute The inside that spring (21) is vertically provided at fixing pipe (20) is stated, there are two the balls (22), and two balls (22) are set respectively In the both sides up and down of the inside of fixing pipe (20), the both ends of the spring (21) correspond respectively with two balls (22) to be connected Connect, the ball (22) fixing pipe (20) internal slide, two balls (22) corresponded respectively with two card slots and Match, in two fixing pipes (20), one of fixing pipe (20) is connected by discharge pipe (23) with air outlet (12), another is solid Fixed tube (20) is connected by connecting tube (14) with heat-dissipating pipe (16).

2. there is the safety-type wind power plant of climatic adaptation as described in claim 1, which is characterized in that described steady Gu mechanism includes the second motor (30), screw (31), lifter plate (32) and two stable units, second motor (30) is vertical The inside of pedestal (1) is arranged on, the screw (31) is vertically arranged, and second motor (30) is sequentially connected with screw (31), The lifter plate (32) is horizontally disposed, and the lifter plate (32) is set on screw (31), the screw (31) and lifter plate (32) it is threadedly coupled, two stable units are separately positioned on the both sides of lifter plate (32), and the stable unit includes third motor (33) and screw rod (34), the third motor (33) are arranged on the inside of lifter plate (32), and the screw rod (34) is inclined at The lower section of lifter plate (32), the third motor (33) are sequentially connected with screw rod (34).

3. there is the safety-type wind power plant of climatic adaptation as claimed in claim 2, which is characterized in that the liter The both sides of drop plate (32) are set there are two guide rod, and two guide rods are vertically provided at the both sides of lifter plate (32), the liter respectively Plate (32) drops with guide rod against the lifter plate (32) is slidably connected with guide rod.

4. there is the safety-type wind power plant of climatic adaptation as described in claim 1, which is characterized in that described to push away The side of plate (25) is set there are two limited block, and the movable frame (26) is between two limited blocks, the limited block and movement Frame (26) is against the limited block is slidably connected with movable frame (26).

5. there is the safety-type wind power plant of climatic adaptation as described in claim 1, which is characterized in that the master Body (3) is internally provided with temperature sensor.

6. there is the safety-type wind power plant of climatic adaptation as described in claim 1, which is characterized in that the branch Strut (2) is internally provided with horizon sensor.

7. there is the safety-type wind power plant of climatic adaptation as described in claim 1, which is characterized in that the gas The lower section for pumping (7) is equipped with solenoid valve.

8. there is the safety-type wind power plant of climatic adaptation as described in claim 1, which is characterized in that the suction The making material of hot plate (11) is aluminium.

9. there is the safety-type wind power plant of climatic adaptation as described in claim 1, which is characterized in that the master Body (3) is internally provided with PLC, and the cooling mechanism and firm organization are electrically connected with PLC.

10. there is the safety-type wind power plant of climatic adaptation as described in claim 1, which is characterized in that described Main body (3) is internally provided with antenna.