CN112661223A

CN112661223A - Wind power generation-based seawater desalination device with linkage mixing function

Info

Publication number: CN112661223A
Application number: CN202011563045.1A
Authority: CN
Inventors: 韩明妍; 何桂明; 祝捍皓; 庄忆窈; 彭隆强; 陈超; 朱俊昂; 徐鹭君; 王文婕; 姜祎婷
Original assignee: Zhejiang Ocean University ZJOU
Current assignee: Zhejiang Ocean University ZJOU
Priority date: 2020-12-25
Filing date: 2020-12-25
Publication date: 2021-04-16

Abstract

The invention discloses a wind power generation-based seawater desalination device with a linkage mixing function, and belongs to the field of seawater desalination devices. A wind power generation-based seawater desalination device with a linkage mixing function comprises a device shell, a first supporting rod and a cooling block, wherein the bottom of the device shell is connected with a connecting shaft, the bottom of the connecting shaft is connected with a rotating tooth, an elastic block is arranged on the side of the rotating tooth, a first rotating block is arranged on the side of the elastic block, a first lifting block is connected to the side of the first rotating block, a pulley is arranged below the device shell, a first fixing block is connected to the side of the pulley, a brake rod is arranged on the side of the first fixing block, a connecting rod is connected to the side of the brake rod, and the end of the connecting rod is connected with a second rotating block; the rotary clamping rod is arranged, so that the device can be conveniently opened to maintain and inspect the interior, and the interior condition can be conveniently known and cleaned at any time.

Description

Wind power generation-based seawater desalination device with linkage mixing function

Technical Field

The invention relates to the technical field of seawater desalination devices, in particular to a wind power generation-based seawater desalination device with a linkage mixing function.

Background

Sea water desalination, namely, the production of fresh water by sea water desalination, is an open source incremental technology for realizing the utilization of water resources, can increase the total amount of fresh water, is not influenced by time, space and climate, can ensure stable water supply such as drinking water of coastal residents and water replenishing of industrial boilers, and the process of obtaining fresh water from sea water is called sea water desalination.

Through retrieval, a Chinese patent with the authorization number of CN201920569476.5 discloses a wind power seawater desalination device, which comprises an offshore wind power supporting platform, a magnetic suspension disc type motor, a fan blade, a fan rotating body, a mechanical transmission device, a high-pressure pump, a high-pressure tank, a reverse osmosis membrane group, a fresh water tank, a storage battery, a converter part, a supervisory control unit and the like; the offshore wind power supporting platform provides a supporting platform for a wind turbine, a high-pressure pump, a high-pressure tank, a fresh water tank and a reverse osmosis membrane assembly; the magnetic suspension disc type motor comprises a stator winding and a suspension winding, wherein the stator winding is a three-phase alternating current winding and is rigidly fixed at the bottom end of the tower frame, the output of the stator winding is partially regulated and controlled by a converter, and redundant wind energy exceeding the power of the high-pressure pump is stored in a storage battery. The display model device of the wind power seawater desalination device in the patent has the following defects: the wind power device is inconvenient to move and adjust the height, so that the utilization rate of wind power is low.

Disclosure of Invention

The invention aims to solve the problems of inconvenience in moving and support in the prior art, and provides a wind power generation-based seawater desalination device with a linkage mixing function.

In order to achieve the purpose, the invention adopts the following technical scheme:

2. a seawater desalination device with a linkage mixing function based on wind power generation comprises a device shell, a first supporting rod and a cooling block, wherein the bottom of the device shell is connected with a connecting shaft, the bottom of the connecting shaft is connected with a rotating tooth, the side of the rotating tooth is provided with an elastic block, the side of the elastic block is provided with a first rotating block, the side of the first rotating block is connected with a first lifting block, a pulley is arranged below the device shell, the side of the pulley is connected with a first fixing block, the side of the first fixing block is provided with a brake rod, the side of the brake rod is connected with a connecting rod, the end of the connecting rod is connected with a second rotating block, the first supporting rod is arranged at the side of the device shell, the side of the first supporting rod is connected with a second fixing block, a movable block penetrates through the inside of the second fixing block, and a second lifting block is arranged below the movable block, and the top of the second lifting block is connected with a first lug, and a second supporting rod is arranged below the first lug.

Preferably, the side of the device housing is connected with a first rotating cover, the side of the first rotating cover is penetrated with a rotating clamping rod, the side of the rotating clamping rod is penetrated with a second convex block, the side of the second convex block is provided with a rack, the upper part of the rack is provided with a half rack, the inside of the device housing is provided with a water storage tank, the inside of the water storage tank is provided with a control block, the top of the control block is connected with a first sliding block, the inside of the first sliding block is penetrated with a fixed rod, the side of the fixed rod is provided with a sliding shaft, the periphery of the sliding shaft is provided with a first groove block, the side of the first groove block is provided with a second groove block, the side of the device housing is provided with a lifting rod, the periphery of the lifting rod is provided with a screw rod, the side of the screw rod is connected with a fan, the side of the water storage tank is provided with a second rotating cover, and the side of the second rotating, and the side of the second sliding block is provided with a rotating shaft, and the cooling block is arranged in the device shell.

Preferably, the connecting shaft and the first rotating block form a rotating structure through the rotating teeth, and the center line of the connecting shaft and the center line of the rotating teeth are overlapped.

Preferably, the brake rod and the second rotating block form a rotating structure through a connecting rod, and the center line of the second rotating block and the center line of the first fixing block are overlapped.

Preferably, the second supporting rod and the second fixed block form a clamping structure through the second lifting block, and the second lifting block forms a lifting structure through the movable block and the first protruding block.

Preferably, the rotating clamping rod and the second bump form a rotating structure through the rack teeth, and the rotating clamping rod is perpendicular to the first rotating cover.

Preferably, the control block forms a sliding structure through the first sliding block and the sliding shaft, and the first sliding block is perpendicular to the fixed rod.

Preferably, the fan passes through a lifting structure formed between the lifting rod and the screw rod, and the fan and the device shell are parallel to each other.

Preferably, the second rotates and constitutes the block structure with the water storage tank between through the second sliding block, and is parallel to each other between water storage tank and the device shell.

Compared with the prior art, the invention provides a wind power generation-based seawater desalination device with a linkage mixing function, which has the following beneficial effects:

1. the sea water desalination device with the linkage mixing function and based on wind power generation is provided with a first lifting block and a brake lever, an expansion link is made to expand and contract through an operation device, the first lifting block connected with the bottom is driven to slide up and down when the expansion link is expanded and contracted, the first rotating block is driven to descend simultaneously when the first lifting block descends, the first rotating block slides in a groove of a rotating tooth and drives the rotating tooth to rotate when descending, meanwhile, the elastic block ascends to be clamped with the other groove on the side of the rotating tooth through the resilience force of a spring connected with the bottom after descending, the first rotating block rotates downwards when ascending, the rotating tooth cannot rotate when ascending, the angle of a device shell connected with the top of a connecting shaft is convenient to adjust, a fan can adjust the direction according to the wind direction through adjusting the angle, the wind power device can receive stronger wind power, the rotating knob drives a second rotating block to rotate, when the second rotating block rotates, the connecting rod is pulled to rotate along with the second rotating block, when the connecting rod rotates, the brake rod connected with the end part is pulled to rotate, when the brake rod is clamped with the pulley on the side, the pulley cannot rotate, when the second rotating block rotates back to the original position, the pulley can continue to rotate, the device is convenient to move and park, the device can be conveniently moved according to conditions, and natural disasters can be conveniently avoided;

2. the sea water desalting device with the linkage mixing function and based on wind power generation is provided with a rotating clamping rod and a first rotating block, wherein a second supporting rod penetrates through the inside of the first supporting rod, the second supporting rod is pulled to a proper length and then rotates a movable block, a convex edge of the movable block is rotated to the direction of a second lifting block, and a first convex block is pushed downwards, so that the second lifting block descends, the second lifting block is clamped with a groove at the side of the second supporting rod, the second supporting rod is fixed and supported, the device is more stable in use, is not easily influenced by huge wind at sea edge to topple, a half tooth is rotated, a bar tooth is driven to slide left and right when the half tooth rotates, the rotating clamping rod is pushed to slide right when the bar tooth slides right, and the second convex block at the side of the rotating clamping rod slides in the groove at the side of the rotating clamping rod and drives the rotating clamping rod to rotate, the rotary clamping rod is clamped with the first rotary cover, when the rack teeth slide to the left side, the resilience force of the spring on the periphery of the rotary clamping rod pushes the rotary clamping rod to the left side, so that the rotary clamping rod is separated from the first rotary cover, the clamping of the device is facilitated, the device is convenient to open for maintaining and checking the interior, and the interior condition and cleaning are convenient to know at any time;

3. the seawater desalination device with the linkage mixing function and based on wind power generation is provided with a control block and a fan, a first groove block is driven to rotate through an operation device, the first groove block is coaxial with a second groove block, the first groove block and the second groove block rotate in opposite directions, a sliding shaft slides in sliding grooves of the first groove block and the second groove block, the sliding shaft drives a first sliding block to lift on a fixed rod when sliding, the control block connected with the bottom is driven to lift along with the lifting block when lifting, the speed of seawater falling into a water storage tank is adjusted through the lifting of the control block, so that different amounts of seawater can be added according to the evaporation condition of the seawater inside the water storage tank, the device can work all the time, a rotating knob is rotated to drive a lifting rod to rotate, a screw rod connected with the periphery is driven to lift when the lifting rod rotates, the fan connected with the side is driven to lift when the screw rod lifts, and the height of the fan is convenient to adjust according to the, thereby make the fan adjustment to the great height of wind-force, make this wind power generation set can keep sufficient power, rotate the rotation axis, it drives the second sliding block horizontal slip to rotate the supreme when the rotation axis has one side of tooth, it drives the second sliding block horizontal slip to opposite direction when the rotation axis has one side of tooth to rotate to the below, thereby make and open and shut and part between second rotating cover and the water storage tank, conveniently clear up the remaining salt of evaporation inside the water storage tank, make the water storage tank keep sufficient capacity space to work, make the vapor condensation become fresh water through the cooling block after upwards being absorbed to the cooling tube of avris to the vapor of water storage tank after, the puddler is used for mixing remaining material and the water after the evaporation, play the effect of linkage mixture.

The device has the advantages that the device can be opened to maintain and check the interior, the interior condition and the cleaning can be conveniently known at any time, and the speed of the seawater falling into the water storage tank can be adjusted through the lifting of the control block, so that different amounts of seawater can be added according to the evaporation condition of the seawater in the water storage tank, and the device can work all the time.

Drawings

FIG. 1 is a schematic front view of a wind power generation-based seawater desalination plant with a linkage mixing function according to the present invention;

FIG. 2 is a schematic view of a connection structure of a connection shaft and a rotary gear of a wind power generation-based seawater desalination plant with a linkage mixing function according to the present invention;

FIG. 3 is a schematic view of a connection structure between a pulley and a first fixed block of a wind power generation-based seawater desalination device with a linkage mixing function according to the present invention;

FIG. 4 is a schematic view of a connection structure of a movable block and a second lifting block of the wind power generation-based seawater desalination device with linkage mixing function according to the present invention;

FIG. 5 is a schematic view of a connection structure between a rotary clamping rod and a second bump of a wind power generation-based seawater desalination plant with a linkage mixing function according to the present invention;

FIG. 6 is a schematic view of a connection structure between a control block and a first sliding block of a wind power generation-based seawater desalination device with a linkage mixing function according to the present invention;

fig. 7 is an enlarged schematic structural diagram of a position a in fig. 1 of a wind power generation-based seawater desalination device with a linkage mixing function according to the present invention.

In the figure: 1. a device housing; 2. a connecting shaft; 3. rotating the teeth; 4. a spring block; 5. a first rotating block; 6. a first lifting block; 7. a pulley; 8. a first fixed block; 9. a brake lever; 10. a connecting rod; 11. a second turning block; 12. a first support bar; 13. a second fixed block; 14. a movable block; 15. a second lifting block; 16. a first bump; 17. a second support bar; 18. a first rotating cover; 19. rotating the clamping rod; 20. a second bump; 21. rack teeth; 22. half tooth; 23. a water storage tank; 24. a control block; 25. a first slider; 26. fixing the rod; 27. a sliding shaft; 28. a first channel block; 29. a second channel block; 30. a lifting rod; 31. a screw; 32. a fan; 33. a second rotating cover; 34. a second slider; 35. a rotating shaft; 36. and (6) cooling the block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

3. Referring to fig. 1 to 7, a wind power generation-based seawater desalination device with a linkage mixing function comprises a device shell 1, a connecting shaft 2, a rotating tooth 3, an elastic block 4, a first rotating block 5, a first lifting block 6, a pulley 7, a first fixed block 8, a brake rod 9, a connecting rod 10, a second rotating block 11, a first supporting rod 12, a second fixed block 13, a movable block 14, a second lifting block 15, a first lug 16, a second supporting rod 17, a first rotating cover 18, a rotating clamping rod 19, a second lug 20, a strip tooth 21, a half tooth 22, a water storage tank 23, a control block 24, a first sliding block 25, a fixed rod 26, a sliding shaft 27, a first groove block 28, a second groove block 29, a lifting rod 30, a screw 31, a fan 32, a second rotating cover 33, a second sliding block 34, a rotating shaft 35 and a cooling block 36, wherein the connecting shaft 2 is connected to the bottom of the device shell 1, the bottom of the connecting shaft 2 is connected with a rotating tooth 3, the side of the rotating tooth 3 is provided with an elastic block 4, the side of the elastic block 4 is provided with a first rotating block 5, and the side of the first rotating block 5 is connected with a first lifting block 6, a pulley 7 is arranged below the device shell 1, the side of the pulley 7 is connected with a first fixing block 8, and the side of the first fixed block 8 is provided with a brake rod 9, the side of the brake rod 9 is connected with a connecting rod 10, and the end of the connecting rod 10 is connected with a second rotating block 11, the first supporting rod 12 is arranged at the side of the device shell 1, and the side of the first supporting rod 12 is connected with a second fixing block 13, and a movable block 14 penetrates through the inside of the second fixed block 13, a second lifting block 15 is arranged below the movable block 14, the top of the second lifting block 15 is connected with a first lug 16, and a second support rod 17 is arranged below the first lug 16;

further, a first rotating cover 18 is connected to a side of the device housing 1, a rotating clamping rod 19 penetrates through a side of the first rotating cover 18, a second protrusion 20 penetrates through a side of the rotating clamping rod 19, a rack 21 is arranged on a side of the second protrusion 20, a half-rack 22 is arranged above the rack 21, a water storage tank 23 is arranged inside the device housing 1, a control block 24 is arranged inside the water storage tank 23, a first sliding block 25 is connected to a top of the control block 24, a fixing rod 26 penetrates through the first sliding block 25, a sliding shaft 27 is arranged on a side of the fixing rod 26, a first groove block 28 is arranged on the periphery of the sliding shaft 27, a second groove block 29 is arranged on a side of the first groove block 28, a lifting rod 30 is arranged on a side of the device housing 1, a screw rod 31 is arranged on the periphery of the lifting rod 30, a fan 32 is connected to a side of the screw rod 31, a second rotating cover 33 is arranged on a side of the water storage tank 23, a second slide block 34 is inserted through the side of the second rotary cover 33, a rotary shaft 35 is provided on the side of the second slide block 34, and a cooling block 36 is provided inside the device case 1;

furthermore, the connecting shaft 2 forms a rotating structure through the rotating teeth 3 and the first rotating block 5, and the center line of the connecting shaft 2 and the center line of the rotating teeth 3 are overlapped with each other, so that the angle of the device shell 1 connected to the top of the connecting shaft 2 can be conveniently adjusted, the fan 32 can adjust the direction according to the wind direction through adjusting the angle, and the device can receive stronger wind power;

furthermore, the brake rod 9 forms a rotating structure with the second rotating block 11 through the connecting rod 10, and the center line of the second rotating block 11 is overlapped with the center line of the first fixing block 8, so that the device is convenient to move and park, is convenient to move according to conditions, and is convenient to avoid natural disasters;

furthermore, a clamping structure is formed between the second supporting rod 17 and the second fixed block 13 through the second lifting block 15, and the second lifting block 15 forms a lifting structure between the movable block 14 and the first bump 16 to play a role in fixing the second supporting rod 17 and play a role in supporting, so that the device is more stable in use and is not easy to topple over under the influence of huge wind around the sea;

furthermore, the rotary clamping rod 19 forms a rotary structure through the rack teeth 21 and the second bump 20, and the rotary clamping rod 19 is perpendicular to the first rotary cover 18, so that the device is convenient to clamp, the device is convenient to open for maintaining and checking the interior, and the interior condition and cleaning are convenient to know at any time;

furthermore, the control block 24 forms a sliding structure between the first sliding block 25 and the sliding shaft 27, and the first sliding block 25 and the fixed rod 26 are perpendicular to each other, so that different amounts of seawater can be added according to the evaporation condition of the seawater in the water storage tank 23, and the device can work all the time;

furthermore, the fan 32 forms a lifting structure through the lifting rod 30 and the screw 31, and the fan 32 is parallel to the device shell 1, so that the height of the fan 32 can be conveniently adjusted according to the wind power, the fan 32 can be adjusted to a height with larger wind power, and the wind power generation device can keep enough power;

further, second rotates lid 33 and water storage tank 23 and passes through to constitute the block structure between second sliding block 34, and is parallel to each other between water storage tank 23 and the device shell 1, makes opening and shutting and part between second rotation lid 33 and the water storage tank 23, conveniently clears up the remaining salt of evaporation in the water storage tank 23, makes water storage tank 23 keep sufficient capacity space and carry out work.

In the invention, as shown in fig. 1-5, firstly, the telescopic rod is made to extend and retract through the operation equipment, when the telescopic rod extends and retracts, the first lifting block 6 connected with the bottom is driven to slide up and down, when the first lifting block 6 descends, the first rotating block 5 descends at the same time, when the first rotating block 5 descends, the first rotating block slides in the groove of the rotating tooth 3 and drives the rotating tooth 3 to rotate, when the elastic block 4 descends, the elastic block 4 ascends through the resilience force of the spring connected with the bottom and is clamped with the other groove at the side of the rotating tooth 3, when the first rotating block 5 ascends, the rotating tooth 3 does not rotate, so that the angle of the device shell 1 connected with the top of the connecting shaft 2 can be conveniently adjusted, the fan 32 can adjust the direction according to the wind direction, so that the device can receive stronger wind power, then the rotating knob is rotated to drive the second rotating block 11 to rotate, when the second rotating block 11 rotates, the connecting rod 10 is pulled to rotate along with the second rotating block, when the connecting rod 10 rotates, the brake rod 9 connected with the end part is pulled to rotate, when the brake rod 9 is clamped with the pulley 7 at the side, the pulley 7 cannot rotate, when the second rotating block 11 rotates to the original position, the pulley 7 can continuously rotate, the device is convenient to move and park and is convenient to move according to the situation, and natural disasters are conveniently avoided, then the second supporting rod 17 penetrates through the first supporting rod 12, the movable block 14 is rotated after the second supporting rod 17 is pulled to the proper length, the convex edge of the movable block 14 is rotated to the direction of the second lifting block 15, the first convex block 16 is pushed downwards, so that the second lifting block 15 descends, the second lifting block 15 is clamped with the groove at the side of the second supporting rod 17, the function of fixing the second supporting rod 17 is achieved, the device is more stable when in use and is not easy to topple under the influence of huge wind at sea, then the half teeth 22 are rotated, the strip teeth 21 are driven to slide left and right when the half teeth 22 rotate, the rotating clamping rod 19 is driven to slide right when the strip teeth 21 slide right, the second convex block 20 at the side of the rotating clamping rod 19 slides in the groove at the side of the rotating clamping rod 19 and drives the rotating clamping rod 19 to rotate, the rotating clamping rod 19 is clamped with the first rotating cover 18, the rotating clamping rod 19 is driven to be pushed to the left by the resilience force of the spring at the periphery of the rotating clamping rod 19 when the strip teeth 21 slide to the left, so that the rotating clamping rod 19 is separated from the first rotating cover 18, the clamping of the device is facilitated, the device is convenient to open for maintenance and inspection of the inside, and the inside condition and cleaning are convenient to know at any time;

according to the fig. 1, fig. 6 and fig. 7, the operation device is used to drive the first slot block 28 to rotate, the first slot block 28 and the second slot block 29 are coaxial, the first slot block 28 and the second slot block 29 rotate in opposite directions, the sliding shaft 27 slides in the sliding grooves of the first slot block 28 and the second slot block 29, the sliding shaft 27 drives the first sliding block 25 to move up and down on the fixing rod 26 when sliding, the control block 24 connected with the bottom is driven to move up and down when moving up and down, the speed of the seawater falling into the water storage tank 23 is adjusted by the lifting of the control block 24, so that different amounts of seawater can be added according to the evaporation condition of the seawater inside the water storage tank 23, the device can work all the time, then the rotating button is rotated to drive the lifting rod 30 to rotate, the screw rod 31 connected with the periphery is driven to move up and down when the screw rod 31 moves up and down, the fan 32 connected with the side is driven to move up and down when the, make things convenient for fan 32 to adjust the height according to the condition of wind-force to make fan 32 adjust to the great height of wind-force, make this wind power generation set can keep sufficient power, rotate rotation axis 35 at last, drive second sliding block 34 and slide left and right when rotation axis 35 has the tooth to the upper side, drive second sliding block 34 and slide left and right to opposite direction when rotation axis 35 has the tooth to the below, thereby make opening and shutting and separating between second rotating cover 33 and the water storage tank 23, conveniently clear up the inside evaporation remaining salt of water storage tank 23, make water storage tank 23 keep sufficient volume space to work, discharge after the vapor that evaporates of water storage tank 23 upwards is absorbed to the cooling tube of avris through cooling block 36 messenger's vapor condensation fresh water.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a sea water desalination device based on wind power generation with linkage mixed function, includes device shell (1), first bracing piece (12) and cooling block (36), its characterized in that, the bottom of device shell (1) is connected with connecting axle (2), and the bottom of connecting axle (2) is connected with rotatory tooth (3), and the avris of rotatory tooth (3) is provided with bullet piece (4), the avris of bullet piece (4) is provided with first turning block (5), and the avris of first turning block (5) is connected with first lifting block (6), the below of device shell (1) is provided with pulley (7), and the avris of pulley (7) is connected with first fixed block (8), and the avris of first fixed block (8) is provided with brake lever (9), the avris of brake lever (9) is connected with connecting rod (10) to the end connection of connecting rod (10) has second turning block (11), first bracing piece (12) set up in the avris of device shell (1), and the avris of first bracing piece (12) is connected with second fixed block (13) to the inside of second fixed block (13) is run through and is had movable block (14), the below of movable block (14) is provided with second elevator block (15), and the top of second elevator block (15) is connected with first lug (16), and the below of first lug (16) is provided with second bracing piece (17).

2. The wind power generation-based seawater desalination device with linkage mixing function according to claim 1, wherein the device housing (1) is connected with a first rotating cover (18) at the side, a rotating clamping rod (19) penetrates through the side of the first rotating cover (18), a second bump (20) penetrates through the side of the rotating clamping rod (19), a rack (21) is arranged at the side of the second bump (20), a half-tooth (22) is arranged above the rack (21), a water storage tank (23) is arranged inside the device housing (1), a control block (24) is arranged inside the water storage tank (23), a first sliding block (25) is connected to the top of the control block (24), a fixing rod (26) penetrates through the inside of the first sliding block (25), and a sliding shaft (27) is arranged at the side of the fixing rod (26), and the periphery of sliding shaft (27) is provided with first groove block (28), the avris of first groove block (28) is provided with second groove block (29), the avris of device shell (1) is provided with lifter (30), and the periphery of lifter (30) is provided with screw rod (31) to the avris of screw rod (31) is connected with fan (32), the avris of water storage tank (23) is provided with second and rotates lid (33), and the avris of second rotation lid (33) has run through second sliding block (34) to the avris of second sliding block (34) is provided with rotation axis (35), cooling block (36) set up in the inside of device shell (1).

3. The wind power generation-based seawater desalination device with the linkage mixing function according to claim 1, wherein the connecting shaft (2) forms a rotating structure through the rotating teeth (3) and the first rotating block (5), and the central line of the connecting shaft (2) and the central line of the rotating teeth (3) are overlapped.

4. The wind power generation-based seawater desalination device with the linkage mixing function as claimed in claim 1, wherein the brake lever (9) forms a rotating structure through the connecting rod (10) and the second rotating block (11), and the center line of the second rotating block (11) and the center line of the first fixed block (8) are coincident with each other.

5. The wind power generation-based seawater desalination device with the linkage mixing function as claimed in claim 1, wherein the second support rod (17) and the second fixed block (13) form a clamping structure through the second lifting block (15), and the second lifting block (15) forms a lifting structure through the movable block (14) and the first bump (16).

6. The wind power generation-based seawater desalination device with linkage mixing function according to claim 2, wherein the rotary clamping rod (19) forms a rotary structure through the rack teeth (21) and the second lug (20), and the rotary clamping rod (19) and the first rotary cover (18) are perpendicular to each other.

7. The seawater desalination device with linkage mixing function based on wind power generation as claimed in claim 2, wherein the control block (24) forms a sliding structure through the first sliding block (25) and the sliding shaft (27), and the first sliding block (25) and the fixed rod (26) are perpendicular to each other.

8. The seawater desalination device with linkage mixing function based on wind power generation as claimed in claim 2, wherein the fan (32) forms a lifting structure through the lifting rod (30) and the screw (31), and the fan (32) and the device shell (1) are parallel to each other.

9. The wind power generation-based seawater desalination device with the linkage mixing function as claimed in claim 2, wherein the second rotating cover (33) and the water storage tank (23) form a clamping structure through a second sliding block (34), and the water storage tank (23) and the device shell (1) are parallel to each other.