CN114950838B

CN114950838B - Anticorrosive treatment device for offshore wind power equipment

Info

Publication number: CN114950838B
Application number: CN202210661823.3A
Authority: CN
Inventors: 阳剑清; 罗秋辉; 罗剑英; 王建国; 曹应斌; 刘小江; 翟超; 康学军
Original assignee: Zhongshui Hengyue Hunan New Energy Technology Co ltd
Current assignee: Zhongshui Hengyue Hunan New Energy Technology Co ltd
Priority date: 2022-06-13
Filing date: 2022-06-13
Publication date: 2023-01-10
Anticipated expiration: 2042-06-13
Also published as: CN114950838A

Abstract

The invention relates to the technical field of corrosion prevention of offshore wind power equipment, and discloses a corrosion prevention treatment device for offshore wind power equipment, which comprises a protection box body, wherein a main material box, an auxiliary material box, a water pump and an air blower are fixedly sleeved in the protection box body respectively, a backflow one-way valve pipe is fixedly connected between the main material box and the auxiliary material box, and the bottom of the main material box and the bottom of the auxiliary material box are fixedly connected with a first electromagnetic valve pipe and a transition spherical pipe respectively. The multifunctional anticorrosion spraying conveying mechanism is formed by matching and assembling the main material box, the auxiliary material box, the backflow one-way valve pipe, the first electromagnetic valve pipe, the mixing pipe fitting, the transition spherical pipe, the water pump and the Y-shaped pipe fitting, and is used for automatically conveying anticorrosion liquid in a working state and automatically rotating, flowing and mixing the anticorrosion liquid without an additional stirring structure in a non-working state, so that the sedimentation phenomenon of the anticorrosion liquid is avoided, and the subsequent processing quality is ensured.

Description

Anticorrosive treatment device for offshore wind power equipment

Technical Field

The invention relates to the technical field of corrosion prevention of offshore wind power equipment, in particular to a corrosion prevention treatment device for offshore wind power equipment.

Background

At present, compared with onshore wind power, offshore wind power has more obvious advantages, firstly, offshore wind power has longer annual utilization hours, offshore wind speed is obviously higher than land, wind shear is smaller, the leading direction is more stable, wind power facilities have longer service life, operation is more stable, energy output is larger, secondly, offshore wind power saves occupation of land resources, especially for China, offshore wind power facilities are mostly built near eastern coastal areas, electricity utilization pressure in the areas can be greatly reduced, the situation of power supply tension is improved, therefore, offshore wind power has obvious advantages and huge development space is achieved, but in the process of using existing offshore wind power equipment in sea, due to tide rising and ebb tide and dry-wet alternation in sea water tide zones, an anticorrosion coating layer on the surface of a concrete bearing platform for supporting the bottom of offshore wind power equipment is severely impacted, in the prior art, in order to ensure the service life of the concrete bearing platform, an anticorrosion treatment device is usually adopted to perform anticorrosion coating on the corroded surface of the concrete bearing platform, so that a better effect is achieved, but most of the anticorrosion liquid used at present is turbid granular solution, for example, the anticorrosion liquid prepared by epoxy modified water-based mortar and fumed silica in the prior art has the defects that the effect after anticorrosion treatment is affected by the self-mixing uniformity in the whole anticorrosion coating treatment process, most of the existing anticorrosion treatment devices can only receive the mixed anticorrosion liquid, and if the mixed anticorrosion liquid stagnates for a long time in the subsequent use process, the anticorrosion liquid has a high probability of sedimentation, so that the subsequent processing quality cannot be ensured, moreover, in the conventional anticorrosive treatment device, the spraying and the coating smearing are two independent processes, and although the aim of repairing can be achieved, the operation cannot realize continuity and has certain influence on the processing efficiency, and when the anticorrosive liquid is sprayed to the surface of the concrete bearing platform at a high speed in the spraying process, the anticorrosive liquid splashes everywhere, so that the coating smearing operation is difficult while the raw materials are wasted seriously.

Disclosure of Invention

The invention provides an offshore wind power equipment anticorrosion treatment device, which solves the problems in the background technology.

The invention provides the following technical scheme: the utility model provides an anticorrosive treatment device is equipped to marine wind-powered electricity generation, includes the protection box, the inside of protection box is fixed respectively has cup jointed main thing workbin, vice material case, water pump and air-blower, and fixedly connected with backward flow check valve pipe between main thing workbin and the vice material case, the bottom of main thing workbin and the bottom of vice material case are the first solenoid valve pipe of fixedly connected with and the spherical pipe of transition respectively, fixed mounting has mixed pipe fitting between first solenoid valve pipe and the spherical pipe of transition, the imbibition end fixed connection of spherical pipe one end and water pump, and the infusion end fixed connection of water pump has Y type pipe fitting, two outputs at Y type pipe fitting top are fixed cup joints the inboard of vice material case and the outside that runs through the lateral wall of protection box one side and extend to the protection box respectively, the defeated wind end fixed connection of air-supply line of air-blower has double-drawing hose spare jointly with an output at Y type pipe fitting top, the one end of double-drawing hose spare overlaps respectively and is equipped with the second one end fixed air-supply line, the one end fixed connection of second slowly presses the air stream shower nozzle, the hollow slowly presses the part, and is connected with the transfer line fixed part inboard.

Carefully, the fixed reinforced pipe fitting that has cup jointed in top of main material case, and reinforced pipe fitting comprises reinforced body and first sealed lid, and first sealed lid threaded connection is at the top of reinforced body, and reinforced body runs through the inner wall at protection box top, the inboard cover at protection box top is equipped with the ventilation pipe fitting, and the ventilation pipe fitting comprises ventilation pipe body and the sealed lid of second, and the sealed threaded connection of second is at the top of ventilation pipe body, and the top of ventilation pipe body runs through protection box top inner wall and is linked together with the inside space of protection box.

Carefully, the top of the auxiliary material box and the bottom of the main material box are both in a conical structure, and the support is fixedly connected between the surface of the bottom of the main material box, the surface of the bottom of the auxiliary material box and the inner wall of the bottom of the protection box body.

Carefully, the mixed pipe fitting comprises a curved pipe, the two ends of the curved pipe are fixedly connected with relaxation spherical pipes, one end of the bottom of one relaxation spherical pipe is fixedly connected with one end of a first electromagnetic valve pipe, one end of the bottom of the other relaxation spherical pipe is fixedly connected with one end of a transition spherical pipe, the inner sides of the two relaxation spherical pipes are fixedly sleeved with a circular frame plate, and the inner sides of the circular frame plates are fixedly sleeved with filter screens.

Carefully, Y type pipe fitting becomes Y shape cross fixed connection by three branch pipe and constitutes, and the equal fixed mounting in middle part of two branch pipes at Y type pipe fitting top and first solenoid valve pipe has supplementary solenoid valve, and three supplementary solenoid valve have the controller through the common electric connection of wire, and controller fixed mounting is on the surface of protection box to through wire respectively with water pump, air-blower electric connection.

The choice, two tensile hose parts comprise first tensile hose and the tensile hose of second, and the activity of first tensile hose cup joints the inboard at the tensile hose of second, first tensile hose is helical structure with the tensile hose of second, the one end of first tensile hose and the output fixed connection of a branch pipe at Y type pipe fitting top, the one end of the tensile hose of second then with the fixed cup joint of first defeated tuber pipe one end, the other end of first tensile hose and the one end fixed connection of transfer line, and the other end of the tensile hose of second then with the one end fixed connection of second defeated tuber pipe.

Carefully, the inside of slowly pressing the part is including transparent I shape hollow tube, and the fixed cover of one end of top and the transfer line of transparent I shape hollow tube one end connects, the inside joint of transparent I shape hollow tube one side has movable chock, and fixedly connected with reset spring between the inner wall of one side of movable chock and transparent I shape hollow tube one side, the middle part fixed mounting of transparent I shape hollow tube has adjusting valve, the side fixedly connected with handle of transparent I shape hollow tube one side.

The semi-closed hollow brush bar component is characterized in that a semi-closed hollow brush bar body is arranged inside the semi-closed hollow brush bar component, one end of the semi-closed hollow brush bar body is fixedly sleeved inside the other side of the transparent I-shaped hollow pipe and communicated with the space inside the transparent I-shaped hollow pipe, a liquid spraying hole is formed in the inner wall of the other end of the semi-closed hollow brush bar body, and the orientation of the liquid spraying hole tends to the circle center of one side of the transparent I-shaped hollow pipe.

The invention has the following beneficial effects:

1. the multifunctional anticorrosion spraying conveying mechanism is formed by matching and assembling the main material box, the auxiliary material box, the backflow one-way valve pipe, the first electromagnetic valve pipe, the mixing pipe fitting, the transition spherical pipe, the water pump and the Y-shaped pipe fitting, and is used for automatically conveying anticorrosion liquid in a working state and automatically rotating, flowing and mixing the anticorrosion liquid without an additional stirring structure in a non-working state, so that the sedimentation phenomenon of the anticorrosion liquid is avoided, and the subsequent processing quality is ensured.

2. According to the multifunctional anticorrosive spraying and conveying device, the air blower and the first air conveying pipe are matched and assembled to form the hot air output structure, the double-stretching hose part, the liquid conveying pipe and the second air conveying pipe are assembled to form the double-channel structure, and after the hot air output structure and the double-channel structure are matched and used together with the multifunctional anticorrosive spraying and conveying structure, synchronous spraying and conveying and hot air drying can be achieved without mutual interference, and the use range of the whole device is further expanded.

3. The multifunctional anticorrosion spraying operation mechanism can be formed after the multifunctional anticorrosion spraying operation mechanism, the semi-closed hollow brush bar component and the pressure-relieving component are assembled in a matched mode, and then the multifunctional anticorrosion spraying operation mechanism, the hot air output structure and the double-channel structure are assembled in a combined mode to form a complete anticorrosion treatment device.

Drawings

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

FIG. 2 is a schematic front view of the main bin of the present invention;

FIG. 3 is a schematic top view of the main bin of the present invention;

FIG. 4 is an enlarged schematic view of a dual tensile hose section of the present invention;

FIG. 5 is a schematic view in partial cross-section of a dual tensile hose section according to the present invention;

FIG. 6 is a schematic cross-sectional view of a hybrid tubing of the present invention;

FIG. 7 is a schematic cross-sectional view of a pressure relief feature of the present invention;

FIG. 8 is an enlarged view of the region A of FIG. 1 according to the present invention.

In the figure: 1. a protective box body; 2. a main material box; 3. an auxiliary material box; 4. a return check valve tube; 5. a first solenoid valve tube; 6. mixing the pipe fittings; 61. a curved tube; 62. a mild bulb; 63. a circular frame plate; 64. filtering with a screen; 7. a transition bulb; 8. a water pump; 9. a Y-shaped pipe fitting; 10. a blower; 11. a first air delivery pipe; 12. a double tensile hose member; 121. a first stretch hose; 122. a second stretch hose; 13. a transfusion tube; 14. a second air delivery pipe; 15. a pressure relief member; 151. a transparent I-shaped hollow tube; 152. adjusting the valve; 153. a movable chock block; 154. a return spring; 16. an airflow nozzle; 17. a semi-enclosed hollow brush bar component; 171. a semi-enclosed hollow brush bar body; 172. a liquid ejection hole; 18. a feeding pipe fitting; 19. a vent tube.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Please refer to fig. 1, fig. 2, fig. 3, an anti-corrosion treatment device for offshore wind power equipment, comprising a protection box body 1, a main material box 2, an auxiliary material box 3, a water pump 8 and an air blower 10 are fixedly sleeved inside the protection box body 1, a feeding pipe 18 is fixedly sleeved on the top of the main material box 2, the feeding pipe 18 is composed of a feeding pipe body and a first sealing cover, the first sealing cover is in threaded connection with the top of the feeding pipe, the feeding pipe body penetrates through the inner wall of the top of the protection box body 1, the feeding pipe 18 provides a channel for the subsequent material supplement of the main material box 2, so that the main material box 2 can be recycled, the operation cost is reduced, the inner side of the top of the protection box body 1 of the feeding pipe 18 is sleeved with a ventilation pipe 19, the ventilation pipe 19 is composed of a ventilation pipe body and a second sealing cover, the second sealing cover is in threaded connection with the top of the ventilation pipe, the top of the ventilation pipe body penetrates through the inner wall of the top of the protection box body 1 to be communicated with the space inside of the protection box body 1, the ventilation pipe 19 provides a channel for the subsequent air flow inside the protection box body 1, the operation condition is provided for the air blower 10, and the ventilation pipe 19 also has a sealing condition.

Referring to fig. 1, 2 and 3, the top of the auxiliary material tank 3 and the bottom of the main material tank 2 are both cone-shaped structures, and the surface of the bottom of the main material tank 2, the surface of the bottom of the auxiliary material tank 3 and the inner wall of the bottom of the protective box body 1 are all fixedly connected with a bracket, so that the cone-shaped structures can reduce the residual quantity of materials, and further optimize the use performance of the top of the auxiliary material tank 3 and the main material tank 2.

Referring to fig. 2 and 6, a backflow check valve tube 4 is fixedly connected between the main material box 2 and the auxiliary material box 3, the bottom of the main material box 2 and the bottom of the auxiliary material box 3 are respectively and fixedly connected with a first solenoid valve tube 5 and a transition spherical tube 7, a mixing tube 6 is fixedly installed between the first solenoid valve tube 5 and the transition spherical tube 7, the mixing tube 6 includes a curved tube 61, both ends of the curved tube 61 are fixedly connected with relaxation spherical tubes 62, one end of the bottom of one of the relaxation spherical tubes 62 is fixedly connected with one end of the first solenoid valve tube 5, one end of the bottom of the other relaxation spherical tube 62 is fixedly connected with one end of the transition spherical tube 7, circular frame plates 63 are fixedly sleeved on the inner sides of the two relaxation spherical tubes 62, a filter screen 64 is fixedly sleeved on the inner sides of the circular frame plates 63, the mixing tube 6 provides a flow channel for a subsequently sprayed liquid raw material, and when the filter screen 64 arranged inside the mixing tube 6 contacts with the flowing liquid raw material, the effects of cutting, mixing and filtering are performed synchronously.

Referring to fig. 2 and 3, one end of the transition spherical pipe 7 is fixedly connected with a liquid suction end of the water pump 8, two output ends at the top of the liquid conveying end of the water pump 8 are fixedly connected with a Y-shaped pipe 9,Y, two output ends at the top of the Y-shaped pipe 9 are respectively fixedly sleeved on the inner side of the auxiliary material tank 3 and penetrate through the side wall of one side of the protection tank 1 and extend to the outer side of the protection tank 1, the Y-shaped pipe 9 is formed by three branch pipes in a Y-shaped cross fixed connection mode, auxiliary electromagnetic valves are fixedly mounted on the two branch pipes at the top of the Y-shaped pipe 9 and the middle of the first electromagnetic valve pipe 5, the Y-shaped pipe 9 provides flow channels in three directions, the use flexibility is high, the three auxiliary electromagnetic valves are electrically connected with a controller through wires, the controller is fixedly mounted on the surface of the protection tank 1 and electrically connected with the water pump 8 and the blower 10 through wires, the controller can provide uniform control conditions for workers, and the use flexibility of the workers is further improved.

Referring to fig. 1, 4, and 5, a first air duct 11 is fixedly connected to an air conveying end of the blower 10, and one end of the first air duct 11 penetrates through a sidewall of one side of the protection box 1 and extends to an outer side of the protection box 1, a double-stretching hose part 12 is sleeved on one end of the first air duct 11 and an output end of a top of the Y-shaped pipe 9, the double-stretching hose part 12 is composed of a first stretching hose 121 and a second stretching hose 122, the first stretching hose 121 is movably sleeved on an inner side of the second stretching hose 122, the first stretching hose 121 and the second stretching hose 122 are both of a spiral structure, one end of the first stretching hose 121 is fixedly connected to an output end of a branch pipe of the top of the Y-shaped pipe 9, one end of the second stretching hose 122 is fixedly sleeved on one end of the first air duct 11, the other end of the first stretching hose 121 is fixedly connected to one end of the liquid conveying pipe 13, and the other end of the second stretching hose 122 is fixedly connected to one end of the second air duct 14, the double-stretching hose part 12 can provide a passage for subsequent two different fluids, and simplify a complexity of the device in an environment, thereby preventing the pipeline structure from being used.

Referring to fig. 7 and 8, an infusion tube 13 and a second air delivery tube 14 are respectively sleeved at one end of a double-stretching hose component 12, a pressure-relieving component 15 is fixedly connected to one end of the infusion tube 13, a transparent i-shaped hollow tube 151 is included inside the pressure-relieving component 15, the top of one end of the transparent i-shaped hollow tube 151 is fixedly connected to one end of the infusion tube 13 in a fixing manner, a movable plug 153 is clamped inside one side of the transparent i-shaped hollow tube 151, a return spring 154 is fixedly connected between one side of the movable plug 153 and the inner wall of one side of the transparent i-shaped hollow tube 151, an adjusting valve 152 is fixedly installed in the middle of the transparent i-shaped hollow tube 151, a handle is fixedly connected to the side of one side of the transparent i-shaped hollow tube 151, and the pressure-relieving component 15 can buffer and temporarily store fast flowing anti-corrosion liquid and then push the anti-corrosion liquid out of the device at a low speed, so as to prevent the liquid from being splashed at an excessive speed.

Referring to fig. 7 and 8, an airflow nozzle 16 is fixedly connected to one end of the second air delivery pipe 14, a semi-closed hollow brush bar component 17 is fixedly sleeved on the inner side of one end of the pressure-reducing component 15, a semi-closed hollow brush bar body 171 is included inside the semi-closed hollow brush bar component 17, one end of the semi-closed hollow brush bar body 171 is fixedly sleeved inside the other side of the transparent i-shaped hollow pipe 151 and is communicated with the space inside the transparent i-shaped hollow pipe 151, a liquid spraying hole is formed in the inner wall of the other end of the semi-closed hollow brush bar body 171, the direction of the liquid spraying hole is close to the center of one side of the transparent i-shaped hollow pipe 151, and the semi-closed hollow brush bar component 17 can provide integrated spraying and coating conditions for subsequent liquid raw materials.

The working principle is as follows: when in use, the medicine is used in various situations, and the specific description is as follows:

the whole equipment is in a non-working state, the auxiliary electromagnetic valve inside the first electromagnetic valve tube 5 is opened through the controller, the auxiliary electromagnetic valve of a branch tube fixedly sleeved with the auxiliary material box 3 is arranged at the top of the Y-shaped tube 9, the one-way valve inside the backflow one-way valve tube 4 is in a normally open state, then the water pump 8 is started, the liquid suction end of the water pump 8 passes through the transition spherical tube 7, the mixing tube 6 and the anti-corrosion liquid pump inside the main material box 2 are sucked out through the first electromagnetic valve tube 5, then the anti-corrosion liquid pump is pumped out through the branch tube fixedly sleeved with the auxiliary material box 3 at the top of the Y-shaped tube 9 and input into the auxiliary material box 3, when the anti-corrosion liquid pump sequentially passes through the two buffering spherical tubes 62 inside the mixing tube 6, the fast flowing anti-corrosion liquid impacts the circular frame plates 63 and the filter screens 64 fixedly installed inside the two buffering spherical tubes 62 respectively, and then is cut by the filter screens 64, a dual mixing effect is realized, and after the anti-corrosion liquid entering the auxiliary material box 3 reaches a certain amount, the backflow one-corrosion liquid flows back to the inside of the main material box 2 through the backflow one-way valve tube 4, thereby realizing a main circulation use effect.

When the whole equipment is in a non-working state, a handle in the pressure-reducing component 15 is held, the controller opens an auxiliary electromagnetic valve in a first electromagnetic valve pipe 5, the top of a Y-shaped pipe 9 penetrates through an auxiliary electromagnetic valve of the other branch pipe of the protection box body 1, then a water pump 8 is started, a corrosion-resistant liquid pump in the main material box 2 is sucked out by a liquid suction end of the water pump 8 through a transition spherical pipe 7, a mixing pipe 6 and the first electromagnetic valve pipe 5 and is conveyed to a first stretching hose 121 in a double-stretching hose component 12 through the other branch pipe of the Y-shaped pipe 9 penetrating through the protection box body 1, then the conveying pipe 13 is conveyed and then enters the interior of one side of a transparent I-shaped hollow pipe 151 in the pressure-reducing component 15, in the input process, the corrosion-resistant liquid gradually presses a movable plug 153 and compresses a return spring 154, after the return spring 154 is completely compressed, the water pump 8 is temporarily closed, and the conveying of the corrosion-resistant liquid is stopped, then the adjusting valve 152 in the pressure-relieving component 15 is opened, then the anti-corrosion liquid stored in one side of the transparent I-shaped hollow tube 151 enters the other side of the transparent I-shaped hollow tube 151 through the adjusting valve 152, and is sprayed out through the liquid spraying hole (172) in the semi-closed hollow brush bar component 17, the specific number of the semi-closed hollow brush bar components 17 is set to be a plurality according to the actual requirement, meanwhile, the reset spring 154 is reset and compressed after losing pressure, the semi-closed hollow brush bar component 17 is prevented from slowly flowing out, when the surface of the semi-closed hollow brush bar body 171 is repeatedly covered with the anti-corrosion liquid, the handle in the pressure-relieving component 15 is held, the corroded surface of the concrete bearing platform is coated with the anti-corrosion layer through the semi-closed hollow brush bar body 171, and the anti-corrosion layer is coated on the corroded surface of the concrete bearing platform, the blower 10 can be started, then the blower 10 generates air flow and the air flow is conveyed to the second stretching hose 122 inside the double stretching hose part 12 through the first air conveying pipe 11, then the air flow is conveyed to the inside of the second air conveying pipe 14 through the second stretching hose 122, and then the air flow is sprayed out through the air flow nozzle 16, so that the drying speed of the anticorrosive coating can be accelerated, after the anticorrosive liquid inside the transparent I-shaped hollow pipe 151 is sprayed, the water pump 8 can be restarted, and the spraying operation can be repeated according to the above steps.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Meanwhile, in the drawings of the invention, the filling pattern is only used for distinguishing the layers and is not limited at all.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an offshore wind power equipment anticorrosive treatment device, includes protection box (1), its characterized in that: the air-conditioner is characterized in that a main material box (2), an auxiliary material box (3), a water pump (8) and an air blower (10) are fixedly sleeved in the protection box body (1) respectively, a backflow check valve pipe (4) is fixedly connected between the main material box (2) and the auxiliary material box (3), the bottom of the main material box (2) and the bottom of the auxiliary material box (3) are respectively and fixedly connected with a first electromagnetic valve pipe (5) and a transition spherical pipe (7), a mixing pipe fitting (6) is fixedly installed between the first electromagnetic valve pipe (5) and the transition spherical pipe (7), one end of the transition spherical pipe (7) is fixedly connected with an imbibition end of the water pump (8), an infusion end of the water pump (8) is fixedly connected with a Y-shaped pipe (9), two output ends at the top of the Y-shaped pipe (9) are respectively connected to the inner side of the auxiliary material box (3) and extend to the outer side of the protection box body (1) through side walls on one side of the protection box body (1) in a sleeved mode, a first air conveying pipe (11) is fixedly connected with an air conveying end of the air pipe (10), one end of the first air conveying pipe (11) penetrates through the side wall of the protection box body (1) and extends to one side wall of the first air conveying hose (12) of the first air hose (9) and extends to the top of the first air conveying pipe (11), one end of the double-stretching hose component (12) is respectively sleeved with a transfusion tube (13) and a second wind conveying tube (14), one end of the transfusion tube (13) is fixedly connected with a pressure-relieving component (15), one end of the second wind conveying tube (14) is fixedly connected with an air flow nozzle (16), and the inner side of one end of the pressure-relieving component (15) is fixedly sleeved with a semi-closed hollow brush strip component (17).

2. The offshore wind power equipment anticorrosion treatment device of claim 1, wherein: fixed reinforced pipe fitting (18) of having cup jointed in the top of main thing workbin (2), and reinforced pipe fitting (18) comprise reinforced body and first sealed lid, and first sealed lid threaded connection is at the top of reinforced body, and reinforced body runs through the inner wall at protection box (1) top, the inboard cover at protection box (1) top is equipped with ventilation pipe spare (19), and ventilation pipe spare (19) comprise ventilation pipe spare and the sealed lid of second, and the sealed threaded connection of second is at the top of ventilation pipe spare, and the top of ventilation pipe spare runs through protection box (1) top inner wall and is linked together with the inside space of protection box (1).

3. The offshore wind power equipment anticorrosion treatment device of claim 1, wherein: the top of the auxiliary material box (3) and the bottom of the main material box (2) are both in a conical structure, and the surface of the bottom of the main material box (2), the surface of the bottom of the auxiliary material box (3) and the inner wall of the bottom of the protection box body (1) are fixedly connected with a support.

4. The offshore wind power equipment anticorrosion treatment device of claim 1, wherein: mix pipe fitting (6) including bent pipe (61), and the equal fixedly connected with in both ends of bent pipe (61) mitigatees bulb (62), and one of them mitigatees bulb (62) bottom one end and the one end fixed connection of first solenoid valve pipe (5), and the one end of another mitigatees bulb (62) bottom and the one end fixed connection of transition bulb (7), two the inboard of mitigateing bulb (62) all fixed cover has been cup jointed round frame board (63), and the inboard fixed filter screen (64) that has cup jointed of round frame board (63).

5. The offshore wind power equipment anticorrosion treatment device of claim 1, wherein: y type pipe fitting (9) become Y shape cross fixed connection by three branch pipe and constitute, and the equal fixed mounting in middle part of two branch pipes at Y type pipe fitting (9) top and first solenoid valve pipe (5) has supplementary solenoid valve, and three supplementary solenoid valve have the controller through the common electric connection of wire, and controller fixed mounting is on the surface of protection box (1) to through wire respectively with water pump (8), air-blower (10) electric connection.

6. The offshore wind power equipment anticorrosion treatment device of claim 5, wherein: double-stretching hose part (12) comprises first stretching hose (121) and second stretching hose (122), and first stretching hose (121) activity cup joints the inboard at second stretching hose (122), first stretching hose (121) and second stretching hose (122) are helical structure, the one end of first stretching hose (121) and the output fixed connection of a branch pipe at Y type pipe fitting (9) top, the one end of second stretching hose (122) then with first defeated tuber pipe (11) one end fixed socket joint, the other end of first stretching hose (121) and the one end fixed connection of transfer line (13), and the other end of second stretching hose (122) then with the one end fixed connection of second defeated tuber pipe (14).

7. The offshore wind power equipment anticorrosion treatment device of claim 1, wherein: the inside of slowly pressing part (15) is including transparent I shape hollow tube (151), and the fixed cover of the top of transparent I shape hollow tube (151) one end and the one end of transfer line (13) connects, the inside joint of transparent I shape hollow tube (151) one side has movable chock (153), and fixedly connected with reset spring (154) between the inner wall of one side of movable chock (153) and transparent I shape hollow tube (151) one side, the middle part fixed mounting of transparent I shape hollow tube (151) has adjusting valve (152), the side fixedly connected with handle of transparent I shape hollow tube (151) one side.

8. The offshore wind power equipment anticorrosion treatment device of claim 7, wherein: the semi-closed hollow brush bar component (17) is characterized in that the semi-closed hollow brush bar component comprises a semi-closed hollow brush bar body (171), one end of the semi-closed hollow brush bar body (171) is fixedly sleeved inside the other side of the transparent I-shaped hollow pipe (151) and communicated with the space inside the transparent I-shaped hollow pipe, a liquid spraying hole (172) is formed in the inner wall of the other end of the semi-closed hollow brush bar body (171), and the direction of the spraying hole is towards the circle center of one side of the transparent I-shaped hollow pipe (151).