CN116404535B

CN116404535B - Wind power box transformer substation intelligent monitoring unit with renewable dampproofing protection mechanism

Info

Publication number: CN116404535B
Application number: CN202310657736.5A
Authority: CN
Inventors: 袁军; 魏龙飞; 李国霞; 陈凤; 何世龙
Original assignee: Changzhou Sirui Electric Technology Co ltd
Current assignee: Changzhou Sirui Electric Technology Co ltd
Priority date: 2023-06-06
Filing date: 2023-06-06
Publication date: 2023-08-11
Anticipated expiration: 2043-06-06
Also published as: CN116404535A

Abstract

The invention discloses an intelligent monitoring unit for a wind power box transformer substation with a renewable dampproof protection mechanism, and belongs to the technical field of wind power box transformer substation monitoring. This wind-powered electricity generation case becomes intelligent monitoring unit with dampproofing protection mechanism of renewable carries out moisture absorption to the gas that gets into monitoring module department through annular dampproofing moisture absorption box, carries out dampproofing protection to monitoring module, and the mechanism of blowing passes through the mounting panel and installs in the top of mount pad, and follow-up mounting panel can drive the mechanism of blowing and carry out annular removal, dispel the heat to monitoring module's different positions, and follow-up steam blows off can realize the regeneration to the moisture absorbent of preventing in the dampproofing moisture absorption box automatically, not only can be even dispel the heat also can improve the regeneration rate of moisture absorbent to monitoring module.

Description

Wind power box transformer substation intelligent monitoring unit with renewable dampproofing protection mechanism

Technical Field

The invention relates to the technical field of wind power box transformer substation monitoring, in particular to a wind power box transformer substation intelligent monitoring unit with a renewable dampproof protection mechanism.

Background

Wind power generation is a mainstream environment-friendly power generation mode at present, is common in China, and can be matched with a wind power box to control a circuit in a related manner when wind power generation is utilized, in order to ensure the normal work of the wind power box and the real-time monitoring of box-type change signals of the wind power box, an intelligent monitoring unit is arranged in the wind power box to use, such as a wind power box change measurement and control device disclosed in the application number CN201721095084.7, 2018, 3 months and 16 days, a human-computer interface module configuration mode is adopted, the design of a human-computer interface adopts the innovative technology of a general mobile terminal (such as a notebook computer, an iPad and an intelligent mobile phone) and the like, and a user can realize non-contact checking and operation of the device through a wireless network, so that the efficiency is improved and the safety is enhanced; the external bus of a large number of CPUs is avoided, the reliability and operability of the device are improved, the product cost is hardly increased, and the cost performance of the device is greatly improved;

the dampproof structure for the intelligent monitoring unit of the wind power box transformer substation is disclosed in the application number CN202220997831.0, 9 and 23 of 2022, and can dehumidify by using a desiccant when external air enters the monitoring unit through an air inlet, so that normal operation of internal elements of the monitoring unit is ensured, a humidity sensor in an air inlet pipe is matched with a regeneration mechanism consisting of a controller, a servo motor and a heating plate in an exhaust pipe, rotation of a circular screen plate can be controlled under the condition that the moisture in the desiccant is more, and the desiccant is regenerated by using hot air exhausted from the inside of the exhaust pipe, so that the practicability of the device is ensured;

the product can realize intelligent monitoring operation of the monitoring unit and can prevent moisture of the monitoring unit, but when the product regenerates the drying agent, the regeneration position of the drying agent is positioned above the air inlet position, so that air is easily led into the product and is discharged through the drying agent, the interior of the monitoring unit cannot be fully cooled, more regeneration dead angles are easily generated in the subsequent regeneration of the drying agent, the air is difficult to sufficiently cool different positions of the monitoring unit, and the integral cooling effect of the monitoring unit is reduced.

Disclosure of Invention

The invention aims to provide an intelligent monitoring unit for a wind power box transformer substation with a renewable dampproof protection mechanism, which aims to solve the problems that when the conventional intelligent monitoring unit for the wind power box transformer substation is used for regenerating a drying agent, the regeneration position of the drying agent is positioned above an air inlet position, gas is easily led to enter the inside of a product and then is discharged through the drying agent, the inside of the monitoring unit cannot be sufficiently radiated, more regeneration dead angles are easily generated in the subsequent regeneration of the drying agent, the entering direction of air is single, and the sufficient radiation of different positions of the monitoring unit is difficult.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a wind-powered electricity generation case becomes intelligent monitoring unit with dampproofing protection machanism of renewable formula, includes mount pad and control module, control module installs the middle part at the mount pad, monitors its operation in installing the wind-powered electricity generation case with control module through the mount pad, control module's top is provided with the lamina crib, and the lamina crib is fixed in the top of mount pad to the outside of lamina crib is provided with dampproofing moisture absorption box, dampproofing moisture absorption box is annular structural design, and dampproofing moisture absorption box sets up in the outside of lamina crib, and the lamina crib is with the inboard at dampproofing moisture absorption box, dampproofing moisture absorption box's inside is hollow structural design for place moisture absorbent and absorb steam, and moisture absorption box's surface evenly has seted up the through-hole, and the gas passes through the through-hole business turn over moisture absorption box, the top of mount pad is provided with the mounting panel, and the mounting panel is the annular setting in dampproofing moisture absorption box's inboard, and the mounting panel cover is established in the outside at control module's, the vertical center line of mounting panel and the mutual coincidence of moisture absorption box, dampproofing moisture absorption box's top is inlayed in annular design, and the inside is driven the inside of circle and is connected with the inside of fixed connection circle through the drive plate, and the drive circle is set up the inside the fixed connection and is driven down by the fixed connection and is fixed connection to the inside the drive plate, and is set up the inside the drive circle and is connected with the drive fixed connection and is driven to the inside the drive circle and is connected to the fixed connection and is driven to the inside the fixed circle.

Further optimize this technical scheme, the top of dampproofing hygroscopic box is opening form structural design, and the top of dampproofing hygroscopic box is provided with sealed lid, constitutes threaded connection between sealed lid and the dampproofing hygroscopic box, can open sealed lid in the follow-up moisture absorbent of dampproofing hygroscopic box and change.

Further optimize this technical scheme, the top of mounting panel is fixed with heating mechanism, and heating mechanism and fixed cover set up relatively, make the interior air current that blowing mechanism blown out of fixed cover can enter into the inside of dampproofing hygroscopic box through heating mechanism.

Further optimizing this technical scheme, heating mechanism comprises the heating wire, and the heating wire is fan-shaped structure distribution on the mounting panel, makes the air current fully heated.

Further optimizing the technical scheme, the rotary driving mechanism comprises a driving gear, a transmission shaft and a motor;

the driving gear is arranged outside the driving ring and is in meshed connection with the driving ring;

the transmission shaft is fixed below the driving gear and used for controlling the rotation of the driving gear;

and the motor is arranged in the mounting seat, the output end of the motor is connected with the transmission shaft, and the motor provides rotary driving force for the transmission shaft.

Further optimize this technical scheme, the inside of dampproofing hygroscopic box is provided with the loose axle, and the loose axle is at the inside equiangular distribution of dampproofing hygroscopic box to the fixed surface of loose axle has the puddler, stirs the absorbent in the dampproofing hygroscopic box through the rotation of loose axle, makes its distribution even, the lower extreme of loose axle is connected with synchronous drive mechanism, controls the rotation of loose axle.

Further optimizing the technical scheme, the synchronous transmission mechanism comprises a connecting gear and a synchronous connecting ring;

the connecting gear is arranged at the lower end of the movable shaft and synchronously rotates with the movable shaft, and the connecting gear is positioned in the mounting seat and is in rotary connection with the mounting seat;

the synchronous connecting ring is arranged between the inner side of the connecting gear and the connecting gear to form meshing connection, and the synchronous connecting ring and the mounting seat form rotating connection, so that the synchronous connecting ring and the connecting gear meshed with the synchronous connecting ring are synchronously driven to rotate during rotation, the inner side of the synchronous connecting ring is mutually meshed with the driving gear, and the synchronous connecting ring can be driven to rotate during rotation of the driving gear, so that a plurality of groups of movable shafts can synchronously rotate.

Further optimize this technical scheme, constitute nested connection between loose axle and the dampproofing moisture absorption box, and the fixed surface of loose axle has the drive block, and the loose axle keeps synchronous revolution through drive block and connecting gear, and constitutes sliding construction from top to bottom between drive block and the connecting gear to the lower extreme of loose axle is provided with reciprocating drive mechanism, and steerable loose axle carries out reciprocating motion in upper and lower direction when the loose axle is rotatory.

Further optimizing the technical scheme, the reciprocating driving mechanism comprises a reset spring, a push rod, a fixed block and a connecting groove;

the reset spring is sleeved at the lower end of the movable shaft and provides a downward thrust for the movable shaft;

the ejector rod is fixed below the movable shaft, and the circle center of the ejector rod is staggered with the circle center of the movable shaft;

the fixed block is fixed in the mounting seat and is positioned below the movable shaft;

the connecting groove is annular and is arranged above the fixed block, the bottom of the connecting groove is of an inclined structural design, the ejector rod is arranged in the connecting groove and is in sliding connection with the connecting groove, the lower end of the ejector rod is provided with a ball, and friction force between the ejector rod and the connecting groove is reduced.

Compared with the prior art, the invention has the beneficial effects that:

the wind power box transformer substation intelligent monitoring unit with the renewable moisture-proof protection mechanism absorbs moisture of gas entering the monitoring module through the annular moisture-proof moisture absorption box, moisture-proof protection is carried out on the monitoring module, the air blowing mechanism is installed above the installation seat through the installation plate, the follow-up installation plate can drive the air blowing mechanism to carry out annular movement, heat dissipation is carried out on different positions of the monitoring module, and follow-up hot air blowing can automatically realize regeneration of the moisture-proof agent in the moisture-proof moisture absorption box, so that the monitoring module can be uniformly cooled, and the regeneration rate of the moisture-proof agent can be improved;

this wind-powered electricity generation case becomes intelligent monitoring unit with dampproofing protection machanism of renewable formula passes through rotatory cooperation stirring rod of loose axle can stir the absorbent in the dampproofing absorbent box, makes it can be in dampproofing absorbent box evenly distributed, and its moisture absorption effect of follow-up ability full play, and stir it when blowing regeneration to the absorbent also is favorable to improving the regeneration homogeneity of absorbent, increases the whole functionality of device and the whole dampproofing effect of dampproofing absorbent box.

Drawings

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

FIG. 2 is a schematic diagram of the main sectional structure of the moisture-proof and moisture-absorbing box of the invention;

FIG. 3 is a schematic top view of the monitor module according to the present invention;

FIG. 4 is a schematic top view of the moisture-proof and absorbent box of the present invention;

FIG. 5 is a schematic perspective view of a top cover plate according to the present invention;

FIG. 6 is a schematic view of the main cross-section of the mounting plate of the present invention;

FIG. 7 is a schematic view of a driving coil in a top-down configuration according to the present invention;

FIG. 8 is an enlarged schematic view of the structure of FIG. 7 a according to the present invention;

FIG. 9 is a schematic diagram of a main sectional structure of a connecting gear of the present invention;

fig. 10 is a schematic perspective view of a fixing block according to the present invention.

In the figure: 1. a mounting base; 2. a monitoring module; 3. a top cover plate; 4. a moisture-proof moisture-absorbing box; 5. a through hole; 6. sealing cover; 7. a mounting plate; 8. a fixed cover; 9. a blowing mechanism; 10. a heating mechanism; 11. a connecting block; 12. a driving ring; 13. a drive gear; 14. a transmission shaft; 15. a motor; 16. a movable shaft; 17. an agitating rod; 18. a connecting gear; 19. a synchronous connecting ring; 20. a transmission block; 21. a return spring; 22. a push rod; 23. a fixed block; 24. a connecting groove; 25. and (3) rolling balls.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 10, the present invention provides a technical solution: the utility model provides a wind-powered electricity generation case becomes intelligent monitoring unit with protection machanism that dampproofing s of regenerable, including mount pad 1 and monitoring module 2, monitoring module 2 installs the middle part at mount pad 1, install monitoring module 2 to wind-powered electricity generation incasement through mount pad 1 and monitor its operation, the top of monitoring module 2 is provided with lamina tecti 3, and lamina tecti 3 is fixed in the top of mount pad 1, and the outside of lamina tecti 3 is provided with dampproofing hygroscopic box 4, dampproofing hygroscopic box 4 is annular structural design, dampproofing hygroscopic box 4 sets up in the outside of lamina tecti 3, lamina tecti 3 covers monitoring module 2 in dampproofing hygroscopic box 4's inboard, dampproofing hygroscopic box 4's inside is hollow structural design for place the moisture absorbent and absorb steam, and through-hole 5 has evenly been seted up on dampproofing hygroscopic box 4's surface, the gas passes through-hole 5 business turn over dampproofing hygroscopic box 4, the upper part of the mounting seat 1 is provided with a mounting plate 7, the mounting plate 7 is arranged on the inner side of the moistureproof and hygroscopic box 4 in a circular ring shape, the mounting plate 7 is sleeved on the outer side of the monitoring module 2, the vertical center line of the mounting plate 7 and the vertical center line of the moistureproof and hygroscopic box 4 are mutually overlapped, a circular ring-shaped fixed cover 8 is inlaid on the upper part of the mounting plate 7, the left side and the right side of the fixed cover 8 are both in an opening-shaped structural design, the inside of the fixed cover 8 is provided with a blowing mechanism 9, external air is blown to the monitoring module 2 through the blowing mechanism 9, a connecting block 11 is fixed under the mounting plate 7, a driving ring 12 is connected under the connecting block 11, the driving ring 12 is arranged between the inside of the mounting seat 1 and the mounting seat 1 to form rotary connection, the mounting plate 7 is driven to move through the rotation of the driving ring 12, the outer side of the driving ring 12 is provided with a rotary driving mechanism, the rotation of the driving ring 12 is controlled, the upper part of the moistureproof and hygroscopic box 4 is of an opening structure design, a sealing cover 6 is arranged above the moistureproof and hygroscopic box 4, the sealing cover 6 and the moistureproof and hygroscopic box 4 are in threaded connection, the sealing cover 6 can be opened subsequently to replace the hygroscopic agent in the moistureproof and hygroscopic box 4, a heating mechanism 10 is fixed above the mounting plate 7, and the heating mechanism 10 and the fixed cover 8 are arranged oppositely, so that the air flow blown by the blowing mechanism 9 in the fixed cover 8 can enter the moistureproof and hygroscopic box 4 through the heating mechanism 10;

when the moisture-proof and moisture-absorbing device is used, the sealing cover 6 can be opened, moisture-absorbing agent is added into the moisture-proof and moisture-absorbing box 4, so that moisture-absorbing agent can be protected from moisture, the moisture-absorbing agent can be removed from the moisture-proof and moisture-absorbing box 4 again by the rotary sealing cover 6 when the moisture-absorbing agent cannot be regenerated subsequently, the moisture-absorbing agent can be removed from the moisture-proof and moisture-absorbing box 4 again and replaced, the monitoring module 2 is installed into a wind power box to be monitored through the mounting seat 1, when the monitoring module 2 is required to dissipate heat, the blowing mechanism 9 can be started to blow the air to the monitoring module 2, heat on the monitoring module 2 is blown out, hot air is discharged through the moisture-proof and moisture-absorbing box 4, the moisture-absorbing agent in the moisture-proof and moisture-absorbing box 4 can be dried and regenerated, and when the blowing mechanism 9 is started, the mounting plate 7 can be rotated through the rotary driving mechanism 7 to drive the blowing mechanism 9 to move, the blowing position and the regeneration position of the moisture-absorbing agent can be changed, so that the monitoring module 2 can be uniformly and fully dissipated, and the regeneration of the moisture-absorbing agent can be uniform.

The heating mechanism 10 is composed of electric heating wires, the electric heating wires are distributed on the mounting plate 7 in a fan-shaped structure, so that air flow can be fully heated, the rotary driving mechanism comprises a driving gear 13, a transmission shaft 14 and a motor 15, the driving gear 13 is arranged outside the driving ring 12 and between the driving ring 12 to form meshed connection, the transmission shaft 14 is fixed below the driving gear 13 to control the rotation of the driving gear 13, the motor 15 is arranged in the mounting seat 1, and the output end of the motor 15 is connected with the transmission shaft 14 to provide rotary driving force for the transmission shaft 14;

when the hot air blown out from the monitoring module 2 is insufficient for regenerating the moisture absorbent, the heating mechanism 10 can be started to heat the blown air, so that the regeneration of the moisture absorbent is assisted, when the mounting plate 7 is controlled to rotate, the motor 15 can be started to drive the driving gear 13 to rotate through the transmission shaft 14, the driving gear 13 drives the driving ring 12 to rotate through the engagement between the driving gear 13 and the driving ring 12 when rotating, the driving ring 12 drives the mounting plate 7 to rotate through the connecting block 11, the positions of the blowing mechanism 9 and the heating mechanism 10 are controlled, and the positions of the heating mechanism 10 and the blowing mechanism 9 are always kept relative to each other on the mounting plate 7.

The inside of the moisture-proof moisture absorption box 4 is provided with a movable shaft 16, the movable shaft 16 is distributed in the moisture-proof moisture absorption box 4 at equal angles, the surface of the movable shaft 16 is fixedly provided with an agitating rod 17, the moisture absorbent in the moisture-proof moisture absorption box 4 is uniformly distributed by the rotation of the movable shaft 16, the lower end of the movable shaft 16 is connected with a synchronous transmission mechanism, the rotation of the movable shaft 16 is controlled, the synchronous transmission mechanism comprises a connecting gear 18 and a synchronous connecting ring 19, the connecting gear 18 is arranged at the lower end of the movable shaft 16 and keeps synchronous rotation with the movable shaft 16, the connecting gear 18 is positioned between the inside of the mounting seat 1 and the mounting seat 1 to form rotary connection, the synchronous connecting ring 19 is arranged between the inner side of the connecting gear 18 and the connecting gear 18 to form meshed connection, and the synchronous connecting ring 19 and the mounting seat 1 form rotary connection, the connecting gear 18 meshed with the connecting gear is synchronously driven to rotate during rotation, the inner side of the synchronous connecting ring 19 is mutually meshed with the driving gear 13, the synchronous connecting ring 19 can be driven to rotate during rotation of the driving gear 13, a plurality of groups of movable shafts 16 can keep synchronous rotation, nested connection is formed between the movable shafts 16 and the moisture-proof moisture-absorbing box 4, the surface of the movable shafts 16 is fixedly provided with a transmission block 20, the movable shafts 16 keep synchronous rotation through the transmission block 20 and the connecting gear 18, an up-down sliding structure is formed between the transmission block 20 and the connecting gear 18, the lower end of the movable shafts 16 is provided with a reciprocating driving mechanism, the reciprocating driving mechanism can control the movable shafts 16 to reciprocate in the up-down direction during rotation of the movable shafts 16 and comprises a reset spring 21, a push rod 22, a fixed block 23 and a connecting groove 24, the reset spring 21 is sleeved at the lower end of the movable shafts 16 to provide downward thrust for the movable shafts 16, the ejector rod 22 is fixed below the movable shaft 16, the circle center of the ejector rod 22 and the circle center of the movable shaft 16 are staggered, the fixed block 23 is fixed inside the mounting seat 1, the fixed block 23 is positioned below the movable shaft 16, the connecting groove 24 is formed above the fixed block 23 in a circular ring shape, the bottom of the connecting groove 24 is in an inclined structure design, the ejector rod 22 is positioned inside the connecting groove 24 and is in sliding connection with the connecting groove 24, the ball 25 is arranged at the lower end of the ejector rod 22, and friction force between the ejector rod 22 and the connecting groove 24 is reduced;

when the driving gear 13 rotates, the synchronous connecting ring 19 is driven to rotate through the meshing with the synchronous connecting ring 19, the synchronous connecting ring 19 drives the connecting gear 18 to rotate through the meshing with the connecting gear 18 when rotating, the connecting gear 18 drives the movable shaft 16 to rotate through the transmission block 20, the movable shaft 16 drives the stirring rod 17 to rotate in the moisture-proof moisture-absorbing box 4, the moisture-absorbing agent in the moisture-proof moisture-absorbing box 4 is stirred, the moisture-absorbing agent can be uniformly regenerated after the moisture-absorbing agent is uniformly regenerated, the integral moisture-absorbing capability of the moisture-absorbing agent can be improved, the ejector rod 22 is driven to move in the connecting groove 24 when the movable shaft 16 rotates, the ejector rod 22 drives the movable shaft 16 to move along with the inclination change of the bottom of the connecting groove 24, and the movable shaft 16 can reciprocate up and down when rotating by matching with the lower thrust of the reset spring 21, so that the stirring uniformity of the moisture-absorbing agent in the moisture-proof moisture-absorbing box 4 is improved.

What is not described in detail in this specification is prior art known to those skilled in the art.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims

1. The wind power box transformer substation intelligent monitoring unit with the renewable dampproof protection mechanism comprises a mounting seat (1) and a monitoring module (2), wherein the monitoring module (2) is mounted in the middle of the mounting seat (1), and the monitoring module (2) is mounted in the wind power box through the mounting seat (1) to monitor the operation of the wind power box;

the method is characterized in that: the upper part of the monitoring module (2) is provided with a top cover plate (3), and the top cover plate (3) is fixed above the mounting seat (1), and the outside of the top cover plate (3) is provided with a dampproof moisture absorption box (4), dampproof moisture absorption box (4) is of annular structural design, dampproof moisture absorption box (4) is arranged outside the top cover plate (3), the top cover plate (3) covers the monitoring module (2) and establishes the inboard of the dampproof moisture absorption box (4), the inside of the dampproof moisture absorption box (4) is of hollow structural design, be used for placing moisture absorbent to absorb water vapor, and the surface of the dampproof moisture absorption box (4) is evenly provided with through holes (5), the top of the mounting seat (1) is provided with a mounting plate (7), and the mounting plate (7) is of annular configuration and sets up the inboard of dampproof moisture absorption box (4), and the outside of the monitoring module (2) is established to the cover the mounting plate (7), the vertical central line of mounting plate (7) and the vertical central line of dampproof moisture absorption box (4) coincide, the inside of the mounting plate (8) is of the two-side (8) is of the same, and the two-side fixed structure is provided with the annular configuration of the two-side air-blowing mechanism (8), the air blowing mechanism (9) is used for blowing external air to the monitoring module (2), a connecting block (11) is fixed below the mounting plate (7), a driving ring (12) is connected below the connecting block (11), the driving ring (12) is arranged inside the mounting seat (1) and between the mounting seat (1) to form rotary connection, the mounting plate (7) is driven to move through rotation of the driving ring (12), and a rotary driving mechanism is arranged outside the driving ring (12) to control rotation of the driving ring (12);

a heating mechanism (10) is fixed above the mounting plate (7), and the heating mechanism (10) and the fixed cover (8) are arranged oppositely, so that air flow blown out by the blowing mechanism (9) in the fixed cover (8) can enter the interior of the moistureproof moisture absorption box (4) through the heating mechanism (10);

the inside of dampproofing moisture absorption box (4) is provided with loose axle (16), and loose axle (16) are at the inside equiangular distribution of dampproofing moisture absorption box (4) to the fixed surface of loose axle (16) is equipped with stirring pole (17), stirs the moisture absorbent in dampproofing moisture absorption box (4) through the rotation of loose axle (16), makes its distribution even, the lower extreme of loose axle (16) is connected with synchronous drive mechanism, the rotation of control loose axle (16).

2. The intelligent monitoring unit for a wind power plant with a renewable moisture protection mechanism according to claim 1, wherein: the upper part of the moisture-proof and moisture-absorbing box (4) is of an opening structure design, a sealing cover (6) is arranged above the moisture-proof and moisture-absorbing box (4), and the sealing cover (6) and the moisture-proof and moisture-absorbing box (4) are in threaded connection.

3. The intelligent monitoring unit for a wind power plant with a renewable moisture protection mechanism according to claim 2, wherein: the heating mechanism (10) is composed of electric heating wires, and the electric heating wires are distributed on the mounting plate (7) in a fan-shaped structure.

4. The intelligent monitoring unit for a wind power plant with a renewable moisture protection mechanism according to claim 1, wherein: the rotary driving mechanism comprises a driving gear (13), a transmission shaft (14) and a motor (15);

a driving gear (13) arranged outside the driving ring (12) and connected with the driving ring (12) in a meshing manner;

a transmission shaft (14) fixed below the drive gear (13) for controlling the rotation of the drive gear (13);

and the motor (15) is arranged in the mounting seat (1), and the output end of the motor (15) is connected with the transmission shaft (14) to provide rotary driving force for the transmission shaft (14).

5. The intelligent monitoring unit for a wind power plant with a renewable moisture protection mechanism according to claim 4, wherein: the synchronous transmission mechanism comprises a connecting gear (18) and a synchronous connecting ring (19);

the connecting gear (18) is arranged at the lower end of the movable shaft (16) and synchronously rotates with the movable shaft (16), and the connecting gear (18) is positioned in the mounting seat (1) and forms rotary connection with the mounting seat (1);

the synchronous connecting ring (19) is arranged between the inner side of the connecting gear (18) and the connecting gear (18) to form meshing connection, the synchronous connecting ring (19) and the mounting seat (1) form rotating connection, the connecting gear (18) meshed with the synchronous connecting ring is synchronously driven to rotate during rotation, the inner side of the synchronous connecting ring (19) is mutually meshed with the driving gear (13), and the synchronous connecting ring (19) can be driven to rotate during rotation of the driving gear (13).

6. The intelligent monitoring unit for a wind power plant with a renewable moisture protection mechanism according to claim 5, wherein: the movable shaft (16) is connected with the moisture-proof moisture absorption box (4) in a nested mode, a transmission block (20) is fixed on the surface of the movable shaft (16), the movable shaft (16) is kept to rotate synchronously through the transmission block (20) and the connecting gear (18), an up-and-down sliding structure is formed between the transmission block (20) and the connecting gear (18), a reciprocating driving mechanism is arranged at the lower end of the movable shaft (16), and the movable shaft (16) can be controlled to reciprocate in the up-and-down direction when the movable shaft (16) rotates.

7. The intelligent monitoring unit for a wind power plant with a renewable moisture protection mechanism of claim 6, wherein: the reciprocating driving mechanism comprises a reset spring (21), a push rod (22), a fixed block (23) and a connecting groove (24);

the reset spring (21) is sleeved at the lower end of the movable shaft (16) and provides a lower thrust for the movable shaft (16);

the ejector rod (22) is fixed below the movable shaft (16), and the circle center of the ejector rod (22) and the circle center of the movable shaft (16) are staggered;

the fixed block (23) is fixed in the installation seat (1), and the fixed block (23) is positioned below the movable shaft (16);

the connecting groove (24) is formed in a circular shape and is arranged above the fixed block (23), the bottom of the connecting groove (24) is of an inclined structural design, the ejector rod (22) is arranged in the connecting groove (24) and is connected with the connecting groove (24) in a sliding mode, the ball (25) is arranged at the lower end of the ejector rod (22), and friction force between the ejector rod (22) and the connecting groove (24) is reduced.