CN112049765A - Cooling and heat dissipating device of electricity-saving wind driven generator - Google Patents

Abstract

The invention discloses a cooling and heat dissipating device of a power-saving wind driven generator, which comprises a machine body, wherein a water-cooling cavity is arranged in the machine body, a heat dissipating shell for dissipating heat and preventing water is fixedly arranged on the wall body on the right side of the water-cooling cavity, and a power generating device for converting kinetic energy into electric energy is fixedly arranged in the heat dissipating shell; the water cooling heat dissipation device is provided with the water cooling heat dissipation device, and the water cooling box can be driven to rotate through rotation of the rotating shaft, so that the water cooling box rotates along the arc-shaped track of the arc-shaped sliding cavity, and the power generation device can be uniformly rotated to dissipate heat; and can make the water-cooling tank can carry out left or right reciprocating sliding to the heat dissipation casing through the power supply that wind-force heat abstractor provided to can carry out comprehensive water-cooling to the heat dissipation casing outside, and can cooperate the water-cooling tank cooperation carries out the forced air cooling heat dissipation, thereby furthest has increased power generation facility radiating efficiency.

Description

Cooling and heat dissipating device of electricity-saving wind driven generator

Technical Field

The invention relates to the technical field related to mechanical cooling, in particular to a cooling and heat-dissipating device of a power-saving wind driven generator.

Background

Cooling refers to the process of lowering the temperature of a hot object without phase change; the conventional wind power generation heat dissipation equipment has a single heat dissipation function, and heat dissipation is performed on a local power generation device during heat dissipation; generally, the water cooling tank cannot slide and rotate the heat dissipation shell in a reciprocating mode leftwards or rightwards to dissipate heat, so that the heat dissipation effect is not ideal, the fan cannot cooperate with the water cooling tank to perform air cooling heat dissipation, and the heat dissipation efficiency of the power generation device cannot be increased to the maximum extent.

Disclosure of Invention

The invention aims to provide a cooling and heat dissipating device of a power-saving wind driven generator, which is used for overcoming the defects in the prior art.

The cooling and heat dissipating device of the power-saving wind driven generator comprises a machine body, wherein a water-cooling cavity is arranged in the machine body, a heat dissipating shell for dissipating heat and preventing water is fixedly arranged on the right side wall body of the water-cooling cavity, a power generating device for converting kinetic energy into electric energy is fixedly arranged in the heat dissipating shell, a driving rotating shaft rotatably arranged with the power generating device is rotatably arranged in the left side wall body of the machine body, a power generating fan for generating wind power is arranged on the driving rotating shaft on the left side of the machine body, a water-cooling heat dissipating device capable of performing water-cooling heat dissipation on the power generating device through cooling liquid is arranged on one side of the heat dissipating shell, far away from the power generating device, and comprises a water-cooling box for dissipating heat, arranged on one side of the heat dissipating shell, far away from the power generating device, a rotating box with a circular opening, the rotating box is provided with the driving rotating shaft in a rotating manner, the rotating box is provided with a rotating device for controlling the water cooling box to rotate in a rotating manner, the rotating device comprises a rotating sliding cavity which is arranged in the right side wall of the rotating box and is in a ring shape, a fixed block which forms a ring-shaped guide rail with the circular opening at the rear side of the rotating box is fixedly arranged on the left side wall body of the heat dissipation shell far away from the power generation device, a symmetrical first rotating shaft is arranged on the upper side and the lower side of the rotating sliding cavity in a rotating manner, the first rotating shaft penetrates through a ring track formed between the fixed block and the rotating box, a sliding cavity is arranged in the lower side wall body of the water cooling cavity, a sliding device which can enable the water cooling box to slide leftwards or rightwards is arranged in the sliding cavity in a sliding manner, and a wind power heat dissipation device for, the wind power heat dissipation device can be matched with the water cooling heat dissipation device, so that the heat dissipation effect of the power generation device is improved, and the cooling liquid can be quickly volatilized.

On the basis of the technical scheme, the rotating device further comprises a first driving rotating shaft gear fixedly arranged on the right side of the rotating box, a second gear connected with the first gear in a gear meshing manner is fixedly arranged on the first rotating shaft, a protruding part on the right side of the rotating box is provided with a second gear in a gear meshing manner and is connected with the second gear in a gear meshing manner, the right side of the second gear is slidably arranged on the first rotating shaft and is provided with a fixed block, the fixed block is far away from one side of the driving rotating shaft and is provided with a supporting box, an arc sliding cavity is arranged in the wall body of the inner side of the supporting box, and therefore the water cooling box sprinkler head always faces one side of the power generation device, so that the.

On the basis of the technical scheme, the sliding device comprises a moving box arranged in the moving box, a sliding block is fixedly arranged at the rear side of the moving box, the sliding block is fixedly installed with the lower side of a supporting box, a first gear cavity is arranged in the moving box, a second gear cavity is arranged at the lower side of the sliding cavity, a third gear cavity is arranged at the right side of the second gear cavity, a second rotating shaft is rotatably arranged between the third gear cavity and the second gear cavity, a first bevel gear is fixedly arranged on the second rotating shaft in the second gear cavity, a second bevel gear is connected to the upper side of the first bevel gear in a meshing manner, a third gear is fixedly arranged on the upper side of the second bevel gear, rack push rods capable of extending into the front and rear side walls of the first gear cavity are symmetrically arranged at the front and rear sides of the third gear, connecting rods rotatably installed with the rack push rods are rotatably arranged on the wall body far away, a third rotating shaft is rotatably arranged in the upper and lower side wall bodies in the first rotating cavity, a rotating block is rotatably arranged on the third rotating shaft, a movable rotating block capable of enabling the rack push rod to pop out is fixedly arranged on the third rotating shaft on the lower side of the rotating block, the rack push rod is meshed with the third gear when popping out, a sliding block is arranged in the wall body far away from the third gear in the first rotating cavity in a sliding manner, the sliding block is close to the third rotating shaft capable of enabling the third rotating shaft to be fixed in the wall body near the one side of the clamping cavity, the movable rotating block is locked when the third rotating shaft is fixed, so that the rack push rod cannot slide towards the upper side or the lower wall body of the first gear cavity, a first air pressure cavity is arranged at one side far away from the third gear, a first air pipe is arranged between the first air pressure cavities at the front side and the rear side of, the second sliding of pneumatic chamber is equipped with and is located left piston one, piston one right side has set firmly ejector pad one, ejector pad one left side has set firmly and is located two left pistons one of pneumatic chamber, pneumatic chamber two with be located gear chamber rear side be equipped with trachea two between the pneumatic chamber one, the sliding chamber right side is equipped with pneumatic chamber three, it is located left piston two to slide in pneumatic chamber three, piston two left sides have set firmly ejector pad two, pneumatic chamber three with be located gear chamber front side be equipped with trachea three between the pneumatic chamber one.

On the basis of the technical scheme, the wind power heat dissipation device comprises a support rod fixedly arranged on the lower side wall body of the power generation fan at the left side of the rotating box, a fixed rod is fixedly arranged at the upper side of the support rod, a belt wheel cavity is arranged in the upper side wall body of the water cooling cavity at the upper side of the fixed rod, a gear cavity IV is arranged in the machine body at the right side of the belt wheel cavity, a rotating shaft IV is rotatably arranged between the belt wheel cavity and the gear cavity IV, a belt wheel I is fixedly arranged on the driving rotating shaft in the fixed rod, a belt wheel II is fixedly arranged on the rotating shaft IV in the belt wheel cavity, a synchronous belt is arranged between the belt wheel II and the belt wheel I, an arc-shaped rotating cavity II is arranged at one side of the gear cavity IV, which is far away from the power generation device, an internal gear rotating ring is rotatably arranged in the rotating cavity II, and a, the right side of the heat dissipation shell is provided with a heat dissipation plate with heat dissipation holes arranged in an array, one side of the heat dissipation plate, which is far away from the power generation device, is provided with a fan cavity, a gear cavity V is arranged on one side of the fan cavity far away from the power generation device, a gear V which is meshed and connected with a gear rack of the rotating cavity is rotatably arranged on the left side of the gear cavity V, a third bevel gear is fixedly arranged on the right side of the fifth gear, a rotating shaft is rotatably arranged between the fifth gear cavity and the fan cavity, a bevel gear IV which is meshed and connected with the bevel gear III is fixedly arranged on the rotating shaft in the gear cavity V, the fan intracavity be equipped with in the axis of rotation can be right power generation facility carries out wind-force heat dissipation and can cooperate the water cooling tank cooperation carries out the radiating heat dissipation fan of air-cooling heat dissipation, is located the power generation facility downside rotate the chamber two with six gear rack meshes of gear are connected.

The invention has the beneficial effects that: the wind power heat dissipation device is provided with the wind power heat dissipation device, and can be started by the heat dissipation fan to dissipate heat of the power generation device by wind power through the heat dissipation plate;

the water cooling heat dissipation device is provided with the water cooling heat dissipation device, and the water cooling box can be driven to rotate through rotation of the rotating shaft, so that the water cooling box rotates along the arc-shaped track of the arc-shaped sliding cavity, and the power generation device can be uniformly rotated to dissipate heat; and can make the water-cooling tank can carry out left or right reciprocating sliding to the heat dissipation casing through the power supply that wind-force heat abstractor provided to can carry out comprehensive water-cooling to the heat dissipation casing outside, and can cooperate the water-cooling tank cooperation carries out the forced air cooling heat dissipation, thereby furthest has increased power generation facility radiating efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of a cooling and heat dissipating device of a power-saving wind driven generator;

FIG. 2 is a cross-sectional view taken at "A-A" of FIG. 1 in accordance with the present invention;

FIG. 3 is a cross-sectional view taken at "B-B" of FIG. 1 in accordance with the present invention;

FIG. 4 is a cross-sectional view taken at "C-C" of FIG. 1 in accordance with the present invention;

FIG. 5 is a cross-sectional view taken at "D-D" of FIG. 1 in accordance with the present invention;

FIG. 6 is an enlarged view of a portion of the invention at E in FIG. 1;

FIG. 7 is an enlarged fragmentary view at F of FIG. 1 in accordance with the present invention;

fig. 8 is an enlarged view of a portion of the invention at G in fig. 5.

Detailed Description

The invention will now be described in detail with reference to fig. 1-8, for the sake of convenience, the orientations described hereinafter being defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 8, a cooling heat dissipation device for a power-saving wind driven generator according to an embodiment of the present invention includes a body 10, a water-cooling cavity 18 is disposed in the body 10, a heat dissipation housing 31 for heat dissipation and water prevention is fixedly disposed on a right side wall of the water-cooling cavity 18, a power generation device 32 for converting kinetic energy into electric energy is fixedly disposed in the heat dissipation housing 31, a driving shaft 22 rotatably mounted with the power generation device 32 is rotatably disposed in a left side wall of the body 10, a power generation fan 19 for wind power generation is disposed on the driving shaft 22 on a left side of the body 10, a water-cooling heat dissipation device 901 capable of performing water-cooling heat dissipation on the power generation device 32 by using a cooling liquid is disposed on a side of the heat dissipation housing 31 away from the power generation device 32, the left side of fuselage 10 the water-cooling chamber 18 inboard wall body sets firmly a right side has circular open-ended to rotate case 25, it is equipped with to rotate the case 25 internal rotation initiative pivot 22, it is equipped with and is used for control to rotate the case 25 internal rotation device 902 that rotates water-cooling chamber 30 carries out the pivoted, rotating device 902 including set up in the internal smooth chamber 68 of rotation of ring shape of case 25 right side wall, the left side of heat dissipation casing 31 keep away from in power generation facility 32 a lateral wall body set firmly with rotate the fixed block 33 that forms a ring shape guide rail between the case 25 rear side circular open-ended, the upper and lower side rotation in the smooth chamber 68 of rotation is equipped with symmetrical pivot 26, just pivot 26 passes fixed block 33 with the ring track that forms between the case 25, be equipped with smooth chamber 69 in the lateral wall body of water-cooling chamber 18, it is equipped with in the smooth chamber 69 to slide and to make in the smooth chamber 69 the gliding slider 903 that can make water-cooling chamber 30 carry out left side or The wind power heat dissipation device 904 for dissipating heat of the power generation device 32 by wind power is arranged on the right side of the water cooling cavity 18, and the wind power heat dissipation device 904 can be matched with the water cooling heat dissipation device 901, so that the heat dissipation effect of the power generation device 32 is improved, and the cooling liquid can be quickly volatilized.

In addition, in an embodiment, the rotating device 902 further includes a first gear 28 fixedly disposed on the driving rotating shaft 22 on the right side of the rotating box 25, a second gear 27 connected with the first gear 28 in a gear engagement manner is fixedly disposed on the first rotating shaft 26, a protruding portion on the right side of the rotating box 25 is provided on an inner sidewall body thereof and can be connected with the second gear 27 in a gear engagement manner, the first rotating shaft 26 on the right side of the second gear 27 is slidably provided with the fixing block 33, the fixing block 33 is provided with a supporting box 29 on a side far away from the driving rotating shaft 22, an arc-shaped sliding cavity 70 is disposed in the inner sidewall body of the supporting box 29, so that the sprinkler head of the water cooling box 30 always faces one side of the power generation device 32, thereby uniformly dissipating heat of the power generation device 32, when the power generation fan 19 rotates, the driving rotating shaft 22 rotates, and the driving rotating shaft 22 rotates to, the first gear 28 rotates to drive the second gear 27 to rotate along the rotating sliding cavity 68 in an arc shape, so as to drive the first rotating shaft 26 to rotate, and the first rotating shaft 26 rotates to drive the water cooling tank 30 to rotate along the arc-shaped sliding cavity 70, so as to uniformly dissipate heat of the power generation device 32.

In addition, in one embodiment, the sliding device 903 includes a moving box 51 disposed inside the moving box, a sliding block 50 is fixedly disposed on the rear side of the moving box 51, the sliding block 50 is fixedly mounted on the lower side of the support box 29, a first gear cavity 71 is disposed inside the moving box 51, a second gear cavity 48 is disposed on the lower side of the sliding cavity 69, a third gear cavity 43 is disposed on the right side of the second gear cavity 48, a second rotating shaft 45 is rotatably disposed between the third gear cavity 43 and the second gear cavity 48, a first bevel gear 47 is fixedly disposed on the second rotating shaft 45 inside the second gear cavity 48, a second bevel gear 46 is engaged and connected to the upper side of the first bevel gear 47, a third gear 54 is fixedly disposed on the upper side of the second bevel gear 46, rack push rods 53 capable of extending into front and rear side walls of the first gear cavity 71 are symmetrically disposed on the front and rear sides of the third gear 54, a connecting rod 49 rotatably mounted with the rack push rods 53 is disposed on a side, be equipped with between the connecting rod 49 and rotate chamber one 61, it is equipped with third 64 of pivot to rotate about the internal rotation of the internal upper and lower lateral wall in chamber one 61 to rotate, it is equipped with turning block 65 to rotate on third 64 of pivot, turning block 65 downside set firmly can make on third 64 of pivot the rack push rod 53 pops up movable turning block 62, when the rack push rod 53 pops up with third 54 of gear meshing is connected, it is equipped with slider 63 to rotate chamber one 61 and keep away from in the sliding of third 54 of gear lateral wall body, slider 63 is close to be equipped with in the clamping chamber 66 lateral wall body and can make third 64 of pivot fixed pivot three 64, when third 64 of pivot is fixed movable turning block 62 locks, thereby makes rack push rod 53 can not slide to gear chamber one 71 upside or downward wall body, it is equipped with first 72 to rotate chamber one 61 and keep away from third 54 of gear one side, a first air pipe 73 is arranged between the first air pressure cavity 72 on the front side and the rear side of the first gear cavity 71, a second air pressure cavity 56 is arranged on the left side of the sliding cavity 69, a first piston 74 positioned on the left side is arranged on the second air pressure cavity 56 in a sliding manner, a first push block 55 is fixedly arranged on the right side of the first piston 74, a first piston 74 positioned on the left side of the second air pressure cavity 56 is fixedly arranged on the left side of the first push block 55, a second air pipe 57 is arranged between the second air pressure cavity 56 and the first air pressure cavity 72 positioned on the rear side of the first gear cavity 71, a third air pressure cavity 59 is arranged on the right side of the sliding cavity 69, a second piston 75 positioned on the left side is slidably arranged in the third air pressure cavity 59, a second push block 58 is fixedly arranged on the left side of the second piston 75, a third air pipe 60 is arranged between the third air pressure cavity 59 and the first air pressure cavity 72 positioned on the front side of the first gear cavity 71, the second bevel gear 46 rotates to drive the third gear 54 to rotate, the third gear 54 rotates to drive the rack push rod 53 on the rear side of the first gear cavity 71 to rotate, the rack push rod 53 rotates to drive the moving box 51 to slide towards the right side, so that the sliding block 50 is driven to slide towards the right side, the supporting box 29 is driven to slide towards the right side, and the water cooling box 30 is driven to slide towards the right side, so that the water cooling box 30 which rotates to cool towards the right side can slide, so that dead-angle-free water cooling is performed on the outer side of the heat dissipation shell 31, the water cooling box 30 can perform water cooling heat dissipation on the heat dissipation shell 31 in different degrees according to the work degree of the power generation device 32, and; when the movable box 51 slides to the rightmost side, the second pushing block 58 is pushed to slide to the right side, so that the second piston 75 is driven to slide to the right side, the first sliding block 63 at the front side of the first gear cavity 71 is driven to slide to one side close to the first gear cavity 71, the third rotating shaft 64 at the front side of the first gear cavity 71 is clamped, the second sliding block 63 at the rear side of the first gear cavity 71 is driven to slide to the rear side, the third rotating shaft 64 at the rear side of the first gear cavity 71 is driven to be separated from the sliding block 63, the third gear 54 is driven to rotate to drive the movable box 51 to slide to the left side, and the water cooling box 30 can perform reciprocating sliding to the left side or the right side.

In addition, in one embodiment, the wind power heat dissipation device 904 includes a support rod 24 fixedly disposed on a lower sidewall of the power generation fan 19 on the left side of the rotation box 25, a fixing rod 21 is fixedly disposed on the upper side of the support rod 24, a pulley cavity 12 is disposed in an upper sidewall of the water cooling cavity 18 on the upper side of the fixing rod 21, a gear cavity four 14 is disposed in the machine body 10 on the right side of the pulley cavity 12, a rotation shaft four 13 is rotatably disposed between the pulley cavity 12 and the gear cavity four 14, a pulley one 23 is fixedly disposed on the driving rotation shaft 22 in the fixing rod 21, a pulley two 11 is fixedly disposed on the rotation shaft four 13 in the pulley cavity 12, a synchronous belt 20 is disposed between the pulley two 11 and the pulley one 23, a circular arc-shaped rotation cavity two 17 is disposed on a side of the gear cavity four 14 away from the power generation device 32, an internal gear rotating ring 16 is rotatably disposed in the rotation, a gear four 15 engaged with the internal gear rotating ring 16 is fixedly arranged on the rotating shaft four 13 in the gear cavity four 14, a heat dissipation plate 76 containing heat dissipation holes arranged in an array is arranged on the right side of the heat dissipation shell 31, a fan cavity 77 is arranged on the side of the heat dissipation plate 76 far away from the power generation device 32, a gear cavity five 35 is arranged on the side of the fan cavity 77 far away from the power generation device 32, a gear five 38 engaged with the gear rack of the rotating cavity two 17 is rotatably arranged on the left side of the gear cavity five 35, a bevel gear three 36 is fixedly arranged on the right side of the gear five 38, a rotating shaft 40 is rotatably arranged between the gear cavity five 35 and the fan cavity 77, a bevel gear four 37 engaged with the bevel gear three 36 is fixedly arranged on the rotating shaft 40 in the gear cavity five 35, a heat dissipation fan 41 capable of dissipating heat of the power generation device 32 by wind power and performing cooling heat dissipation by matching with the water cooling tank 30 is arranged on the rotating shaft 40 in the fan cavity 77, the second rotating cavity 17 positioned at the lower side of the power generation device 32 is meshed with the gear rack of the six gears 44, when the driving rotating shaft 22 rotates, the first pulley 23 rotates to drive the synchronous belt 20 to rotate, the synchronous belt 20 rotates to drive the fixed rod 21 to rotate, the fixed rod 21 rotates to drive the driving rotating shaft 22 to rotate, the second pulley 11 rotates to drive the fourth pulley 13 to rotate, the fourth pulley 13 rotates to drive the fourth gear 15 to rotate, the fourth gear 15 rotates to drive the internal gear rotating ring 16 to rotate, the internal gear rotating ring 16 rotates to drive the fifth gear 38 to rotate, the fifth gear 38 rotates to drive the third bevel gear 36 to rotate, the third bevel gear 36 rotates to drive the fourth bevel gear 37 to rotate, the fourth bevel gear 37 rotates to drive the rotating shaft 40 to rotate, the rotating shaft 40 rotates to drive the heat dissipation fan 41 to perform wind power heat dissipation on the water cooling tank 30, thereby furthest has increased power generation facility 32 radiating efficiency to better protect power generation facility 32, rotate the second 17 rotations in chamber simultaneously and drive gear six 44 and rotate, gear six 44 rotates and drives the rotation of second 45 of pivot, thereby provides power for slider 903.

In the initial state, the support box 29 is located at the position where the right side of the rotating box 25 is contacted, the first piston 74 is located at the left side of the second air pressure cavity 56, the second piston 75 is located at the left side of the third air pressure cavity 59, the slide block 63 located at the front side of the power generation device 32 is not clamped with the third rotating shaft 64, and the slide block 63 located at the rear side of the power generation device 32 is clamped with the third rotating shaft 64.

When the wind power heat dissipation is performed on the power generation device 32, firstly, the power generation fan 19 is rotated, the power generation fan 19 rotates to drive the driving rotating shaft 22 to rotate, when the driving rotating shaft 22 rotates, the belt wheel I23 rotates to drive the synchronous belt 20 to rotate, the synchronous belt 20 rotates to drive the fixed rod 21 to rotate, the fixed rod 21 rotates to drive the driving rotating shaft 22 to rotate, the belt wheel II 11 rotates to drive the rotating shaft IV 13 to rotate, the rotating shaft IV 13 rotates to drive the gear IV 15 to rotate, the gear IV 15 rotates to drive the internal gear rotating ring 16 to rotate, the internal gear rotating ring 16 rotates to drive the gear V38 to rotate, the gear V38 rotates to drive the bevel gear III 36 to rotate, the bevel gear III 36 rotates to drive the bevel gear IV 37 to rotate, the bevel gear IV 37 rotates to drive the rotating shaft 40 to rotate, the rotating shaft 40 rotates to drive the heat dissipation fan 41 to rotate to perform wind power, thereby furthest has increased power generation facility 32 radiating efficiency to better protect power generation facility 32, rotate the second 17 rotations in chamber simultaneously and drive gear six 44 and rotate, gear six 44 rotates and drives the rotation of second 45 of pivot, thereby provides power for slider 903.

When wind power heat dissipation is performed on the power generation device 32, the driving rotating shaft 22 is firstly rotated, the driving rotating shaft 22 is rotated to drive the first gear 28 to rotate, the first gear 28 is rotated to drive the second gear 27 to perform circular arc rotation along the rotating sliding cavity 68, so that the first rotating shaft 26 is driven to rotate, the first rotating shaft 26 is rotated to drive the water cooling tank 30 to rotate along the arc track of the arc sliding cavity 70, and therefore the power generation device 32 is uniformly rotated to dissipate heat;

when the water cooling tank 30 capable of rotating for heat dissipation slides leftwards or rightwards, the rotating shaft II 45 is firstly rotated, the rotating shaft II 45 rotates to drive the bevel gear I47 to rotate, the bevel gear I47 rotates to drive the bevel gear II 46 to rotate, the bevel gear II 46 rotates to drive the gear III 54 to rotate, the gear III 54 rotates to drive the rack push rod 53 on the rear side of the gear cavity I71 to rotate, the rack push rod 53 rotates to drive the moving tank 51 to slide rightwards, so as to drive the sliding block 50 to slide rightwards, so as to drive the support tank 29 to slide rightwards, so as to drive the water cooling tank 30 to slide rightwards, so that the water cooling tank 30 capable of rotating for water cooling slides rightwards, so as to carry out water cooling without dead angles on the outer side of the heat dissipation shell 31, and the water cooling tank 30 can carry out water cooling heat dissipation with different degrees on the heat dissipation shell 31 according;

when the movable box 51 slides to the rightmost side, the second pushing block 58 is pushed to slide to the right side, so that the second piston 75 is driven to slide to the right side, the first sliding block 63 at the front side of the first gear cavity 71 is driven to slide to one side close to the first gear cavity 71, the third rotating shaft 64 at the front side of the first gear cavity 71 is clamped, the second sliding block 63 at the rear side of the first gear cavity 71 is driven to slide to the rear side, the third rotating shaft 64 at the rear side of the first gear cavity 71 is driven to be separated from the sliding block 63, the third gear 54 is driven to rotate to drive the movable box 51 to slide to the left side, and the water cooling box 30 can perform reciprocating sliding to the left side or the right side.

The invention has the beneficial effects that: the wind power heat dissipation device is provided with the wind power heat dissipation device, and can be started by the heat dissipation fan to dissipate heat of the power generation device by wind power through the heat dissipation plate;

the water cooling heat dissipation device is provided with the water cooling heat dissipation device, and the water cooling box can be driven to rotate through rotation of the rotating shaft, so that the water cooling box rotates along the arc-shaped track of the arc-shaped sliding cavity, and the power generation device can be uniformly rotated to dissipate heat; and can make the water-cooling tank can carry out left or right reciprocating sliding to the heat dissipation casing through the power supply that wind-force heat abstractor provided to can carry out comprehensive water-cooling to the heat dissipation casing outside, and can cooperate the water-cooling tank cooperation carries out the forced air cooling heat dissipation, thereby furthest has increased power generation facility radiating efficiency.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (4)

1. The utility model provides a cooling heat abstractor of economize on electricity formula aerogenerator, includes the fuselage, its characterized in that: the water-cooled heat dissipation device comprises a water-cooled heat dissipation device, wherein a water-cooled cavity is arranged in a machine body, a heat dissipation shell for heat dissipation and water prevention is fixedly arranged on a wall body on the right side of the water-cooled cavity, a power generation device for converting kinetic energy into electric energy is fixedly arranged in the heat dissipation shell, a driving rotating shaft rotatably arranged with the power generation device is rotatably arranged in a wall body on the left side of the machine body, a power generation fan for wind power generation is arranged on the driving rotating shaft on the left side of the machine body, a water-cooled heat dissipation device capable of performing water-cooled heat dissipation on the power generation device through cooling liquid is arranged on one side, far away from the power generation device, of the heat dissipation shell, a water-cooled box for heat dissipation is arranged on one side, far away from the power generation device, of the water, the rotating device comprises a rotating sliding cavity which is arranged in the right side wall body of the rotating box and is in a ring shape, a fixed block which forms a ring-shaped guide rail with the circular opening at the rear side of the rotating box is fixedly arranged on the left side wall body of the heat dissipation shell far away from the power generation device, a symmetrical first rotating shaft is arranged in the rotating sliding cavity in a rotating way, the first rotating shaft penetrates through a ring track formed between the fixed block and the rotating box, a sliding cavity is arranged in the lower side wall body of the water cooling cavity, a sliding device which can enable the water cooling box to slide leftwards or rightwards is arranged in the sliding cavity in a sliding way, a wind power heat dissipation device which is used for the power generation device to dissipate wind power is arranged at the right side of the water cooling cavity, and the wind power heat dissipation device can be matched with the water cooling device, thereby increasing the heat dissipation effect of the power generation device and enabling the cooling liquid to be volatilized quickly.

2. The cooling and heat dissipating device for a power-saving wind power generator as claimed in claim 1, wherein: rotating device still including fixed set up in rotate the case right side epaxial gear of initiative commentaries on classics, set firmly in the pivot one with gear two that gear engagement connects, be equipped with on the inboard wall body of rotation case right side bulge can with gear two gear engagement connects, gear two right sides slide on the pivot one and be equipped with the fixed block, the fixed block keep away from in initiative pivot one side is equipped with the supporting box, be equipped with the smooth chamber of arc in the supporting box inboard wall body, thereby make the water-cooling case sprinkler head moves towards all the time power generation facility one side, thereby it is right power generation facility carries out even heat dissipation.

3. The cooling and heat dissipating device for a power-saving wind power generator as claimed in claim 1, wherein: the sliding device comprises a moving box arranged in the sliding device, a sliding block is fixedly arranged on the rear side of the moving box, the sliding block is fixedly installed with the lower side of a supporting box, a first gear cavity is arranged in the moving box, a second gear cavity is arranged on the lower side of the sliding cavity, a third gear cavity is arranged on the right side of the second gear cavity, a second rotating shaft is rotatably arranged between the third gear cavity and the second gear cavity, a first bevel gear is fixedly arranged on the second rotating shaft in the second gear cavity, the upper side of the first bevel gear is in meshed connection with the second bevel gear, a third gear is fixedly arranged on the upper side of the second bevel gear, rack push rods capable of extending into the front and rear side walls of the first gear cavity are symmetrically arranged on the front and rear sides of the third gear, connecting rods rotatably installed with the rack push rods are arranged on the wall body far away from the third gear, a third rotating shaft is rotatably arranged in the upper and lower side wall bodies in the first rotating cavity, a rotating block is rotatably arranged on the third rotating shaft, a movable rotating block capable of enabling the rack push rod to pop out is fixedly arranged on the third rotating shaft on the lower side of the rotating block, the rack push rod is meshed with the third gear when popping out, a sliding block is arranged in the wall body far away from the third gear in the first rotating cavity in a sliding manner, the sliding block is close to the third rotating shaft capable of enabling the third rotating shaft to be fixed in the wall body near the one side of the clamping cavity, the movable rotating block is locked when the third rotating shaft is fixed, so that the rack push rod cannot slide towards the upper side or the lower wall body of the first gear cavity, a first air pressure cavity is arranged at one side far away from the third gear, a first air pipe is arranged between the first air pressure cavities at the front side and the rear side of, the second sliding of pneumatic chamber is equipped with and is located left piston one, piston one right side has set firmly ejector pad one, ejector pad one left side has set firmly and is located two left pistons one of pneumatic chamber, pneumatic chamber two with be located gear chamber rear side be equipped with trachea two between the pneumatic chamber one, the sliding chamber right side is equipped with pneumatic chamber three, it is located left piston two to slide in pneumatic chamber three, piston two left sides have set firmly ejector pad two, pneumatic chamber three with be located gear chamber front side be equipped with trachea three between the pneumatic chamber one.

4. The cooling and heat dissipating device for a power-saving wind power generator as claimed in claim 1, wherein: the wind power heat dissipation device comprises a support rod fixedly arranged on the lower side wall body of the power generation fan at the left side of the rotating box, a fixed rod is fixedly arranged at the upper side of the support rod, a belt wheel cavity is arranged in the upper side wall body of the water cooling cavity at the upper side of the fixed rod, a gear cavity four is arranged in the machine body at the right side of the belt wheel cavity, a rotating shaft four is rotatably arranged between the belt wheel cavity and the gear cavity four, a belt wheel I is fixedly arranged on the driving rotating shaft in the fixed rod, a belt wheel II is fixedly arranged on the rotating shaft four in the belt wheel cavity, a synchronous belt is arranged between the belt wheel II and the belt wheel I, an arc-shaped rotating cavity II is arranged at one side of the gear cavity four, which is far away from the power generation device, an internal gear rotating ring is arranged in the rotating cavity II, and a gear IV, the right side of the heat dissipation shell is provided with a heat dissipation plate with heat dissipation holes arranged in an array, one side of the heat dissipation plate, which is far away from the power generation device, is provided with a fan cavity, a gear cavity V is arranged on one side of the fan cavity far away from the power generation device, a gear V which is meshed and connected with a gear rack of the rotating cavity is rotatably arranged on the left side of the gear cavity V, a third bevel gear is fixedly arranged on the right side of the fifth gear, a rotating shaft is rotatably arranged between the fifth gear cavity and the fan cavity, a bevel gear IV which is meshed and connected with the bevel gear III is fixedly arranged on the rotating shaft in the gear cavity V, the fan intracavity be equipped with in the axis of rotation can be right power generation facility carries out wind-force heat dissipation and can cooperate the water cooling tank cooperation carries out the radiating heat dissipation fan of air-cooling heat dissipation, is located the power generation facility downside rotate the chamber two with six gear rack meshes of gear are connected.

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