CN115832905A - Dehumidification and dehumidification device in wind driven generator converter cabinet - Google Patents

Abstract

The invention relates to a dehumidification and tide reduction device in a converter cabinet of a wind power generator, which includes a converter cabinet body, a first humidity sensor and a fan for accelerating air circulation are fixedly connected to one side of the inner wall of the converter cabinet body, and the fan is located at the second Below a humidity sensor, a press switch is fixedly connected to the inside of the converter cabinet body, and the press switch is electrically connected to the fan. The inside of the converter cabinet body is slidingly connected to a first filter plate for filtering air. The first filter plate The lower surface of the switch abuts against the top of the push switch; the present invention relates to the technical field of wind power generator converter cabinets. When the dehumidification and tide reduction device in the converter cabinet of the wind power generator is in use, when the humidity outside the converter cabinet body is also high, the moving mechanism controls the installation box to move toward the side close to the converter cabinet body, and the control plug is inserted into the socket The interior of the converter cabinet supplies power to the heating wire, so that the heating wire can heat the air entering the converter cabinet body to heat, dehumidify and reduce moisture.

Description

A dehumidification and tide reduction device in a wind power generator converter cabinet

technical field

The invention relates to the technical field of a wind power generator converter cabinet, in particular to a dehumidification and tide reduction device inside a wind power generator converter cabinet.

Background technique

A wind turbine is an electrical device that converts wind energy into mechanical energy, which drives the rotor to rotate, and finally outputs alternating current. Wind turbines are generally composed of components such as wind rotors, generators, steering devices, towers, speed limiting safety mechanisms, and energy storage devices. When the wind generator is working, the wind rotor rotates under the action of the wind, and the wind rotor converts the kinetic energy of the wind into the mechanical energy of the wind rotor shaft, and the generator rotates under the drive of the wind rotor shaft to generate electricity. In the use of wind turbines, it is basically necessary to use a dedicated AC for management and control.

The utility model with the notification number CN212413584U discloses a dehumidification and tide reduction device in the converter cabinet of a wind power generator, which relates to the technical field of wind power generators. It is inconvenient, and the dust generated by the long-term use of the dehumidification and dehumidification device cannot be effectively cleaned, resulting in the problem that the effect of the dehumidification and dehumidification device becomes worse and reduces the use effect. The front end of the housing is provided with an opening, one side of the housing is provided with an inspection port, the rear end of the housing is provided with a first fixing plate, the housing is provided with a second fixing plate, and the first fixing plate It is movably connected with the housing, and the second fixing plate is fixedly connected with the housing. A plurality of equidistant first mounting holes and second mounting holes are opened in the first fixing plate and the second fixing plate.

When the above technical solution is in use, the rotating motor drives the fan blades to exhaust the interior of the converter cabinet to drive the discharge of internal moist air, accelerate the air circulation in the internal space, and ensure that the parts are dry to avoid affecting the use. However, when the converter cabinet When the external humidity is also high, the above-mentioned scheme of accelerating the air circulation inside the converter cabinet is ineffective, which is not conducive to practical use. Therefore, those skilled in the art have provided a dehumidification and moisture reduction device in the converter cabinet of a wind power generator. To solve the problems raised in the background art above.

Contents of the invention

In order to solve the problem of using the rotating motor to drive the fan blades to exhaust the inside of the converter cabinet to drive the discharge of the internal humid air, accelerate the air circulation in the internal space, ensure the drying of parts and avoid affecting the use, but when the humidity outside the converter cabinet is also relatively high When the temperature is high, the above-mentioned scheme of accelerating the air circulation inside the converter cabinet is ineffective, which is not conducive to practical use. The present invention provides a dehumidification and tide reduction device in the converter cabinet of a wind power generator.

A dehumidification and tide reduction device in a wind power generator converter cabinet provided by this application adopts the following technical scheme:

A dehumidification and tide reduction device in a converter cabinet of a wind power generator, comprising a converter cabinet body, one side of the inner wall of the converter cabinet body is fixedly connected with a first humidity sensor and a fan for accelerating air circulation, and the fan is located at the Below the first humidity sensor, the interior of the converter cabinet body is fixedly connected with a push switch, the press switch is electrically connected with the fan, and the inside of the converter cabinet body is slidingly connected with a filter for filtering air. The first filter plate, the lower surface of the first filter plate abuts against the top of the push switch, the outer wall of the converter cabinet body is fixedly connected with the second humidity sensor, and one side of the converter cabinet body A moving mechanism is symmetrically fixedly connected, and an installation box is plugged into the end of the symmetrically arranged moving mechanism far away from the converter cabinet body. The inside of the installation box is evenly and fixedly connected with a heating wire for dehumidification and moisture reduction. The bottom of the wire is electrically connected with a plug, and the plug is located on the side of the installation box close to the body of the converter cabinet, and the inside of the body of the converter cabinet is fixedly connected with a socket, and the socket and the plug are located at the same level, and the socket matches the plug.

By adopting the above technical solution, when the humidity inside the converter cabinet body is high, starting the fan can speed up the air circulation between the inside and outside of the converter cabinet body, and the humidity outside the converter cabinet body can be detected by the second humidity sensor. When the humidity outside the converter cabinet body is also high, the moving mechanism is activated to control the installation box to move towards the side close to the converter cabinet body, and the control plug is inserted into the socket to supply power to the heating wire, so that the heating wire can be heated to enter the converter cabinet. The air inside the cabinet body is heated, dehumidified and dehumidified, so as to avoid the situation that the solution of accelerating the air circulation inside the wind turbine converter cabinet body through the fan is not effective because the humidity outside the converter cabinet body is also high.

Preferably, the converter cabinet body includes a rectangular cabinet, a controller is fixedly connected to the rectangular cabinet, a power supply is connected to the controller, the first humidity sensor, the push switch, the second The two humidity sensors, the socket and the moving mechanism are all electrically connected to the controller, and one side of the rectangular cabinet is provided with an air inlet that penetrates the rectangular cabinet, and the rectangular cabinet A sliding groove is provided on one side of the outer wall, and the sliding groove communicates with the air inlet, and the first filter plate is located inside the sliding groove and the air inlet.

By adopting the above technical scheme, the controller can control the first humidity sensor, the push switch, the second humidity sensor and the socket, the air inlet allows the air outside the rectangular cabinet to enter the inside of the rectangular cabinet, and the sliding groove can facilitate The first filter plate is installed and removed.

Preferably, the moving mechanism includes a cylinder fixedly connected to one side of the rectangular cabinet, the cylinder is electrically connected to the controller, the output end of the cylinder is fixedly connected to a T-shaped connecting plate, and the T The shaped connecting plate is plugged into the inside of the installation box.

By adopting the above technical solution, the starting cylinder can control the T-shaped connecting plate to move, and the position of the installation box can be adjusted when the T-shaped connecting plate moves.

Preferably, the side of the T-shaped connecting plate close to the cylinder is symmetrically fixedly connected with a guide rod, and the end of the guide rod away from the T-shaped connecting plate is slidably connected to a limiting tube, and the limiting tube is located on the The interior of a rectangular cabinet.

By adopting the above technical solution, the guide rod cooperates with the limit tube to make the T-shaped connecting plate more stable when moving.

Preferably, the installation box includes a rectangular box, the heating wire is fixedly connected to the inner wall of the rectangular box, and a sealing gasket is fixedly connected to the side of the rectangular box close to the rectangular cabinet, and the two sides of the rectangular box Both sides are fixedly connected with installation strips, and a T-shaped insertion slot is opened inside the installation strip, and the T-shaped connection plate is located inside the T-shaped insertion slot.

By adopting the above technical solution, the sealing gasket can enhance the sealing effect between the rectangular box and the rectangular cabinet when the rectangular box contacts the rectangular cabinet, and the T-shaped insertion slot facilitates the connection between the installation strip and the T-shaped connecting plate.

Preferably, the inner wall of the rectangular box is fixedly connected with a first protective plate with holes and a second protective plate with holes, and the heating wire is located between the first protective plate with holes and the second protective plate with holes , the first protective plate with holes is located on a side of the heating wire close to the main body of the converter cabinet.

By adopting the above technical solution, the cooperation of the first protective plate with holes and the second protective plate with holes can protect the heating wire to a certain extent.

Preferably, the top of the inner wall of the rectangular box is fixedly connected with a first partition plate, the first partition plate is located between the heating wire and the first protective plate with holes, and the bottom of the inner wall of the rectangular box is A second partition board is fixedly connected, and the second partition board is located between the uniformly arranged heating wires.

By adopting the above technical solution, the first partition plate cooperates with the second partition plate to divide the air circulation position inside the rectangular box into an S-shaped channel, thereby enhancing the dehumidification and moisture reduction effect of the heating wire on the air entering the rectangular cabinet .

Preferably, the rectangular box is provided with an installation groove through which the rectangular box penetrates, and a second filter plate located inside the installation groove is movably inserted into the inside of the rectangular box, and the second filter plate is located in the The side of the second protective plate with holes away from the heating wire.

By adopting the above technical solution, the second filter plate can filter the air passing through the interior of the rectangular box.

In summary, the present invention includes the following beneficial technical effects:

1. The dehumidification and tide reduction device in the converter cabinet of the wind power generator, when the first humidity sensor detects that the humidity inside the converter cabinet is high, starts the fan to speed up the air circulation inside and outside the converter cabinet. When the second humidity sensor detects that the humidity outside the converter cabinet body is also high, the moving mechanism is activated to control the installation box to move toward the side close to the converter cabinet body, and the control plug is inserted into the socket to supply power to the heating wire, so that the heating wire It can heat and dehumidify the air entering the converter cabinet body, so as to avoid the scheme of accelerating the air circulation inside the wind turbine converter cabinet body through the fan because the humidity outside the converter cabinet body is also high In the case of poor use effect, this application is more beneficial to use;

2. The dehumidification and tide reduction device in the wind turbine converter cabinet can control the first humidity sensor, push switch, second humidity sensor and socket through the set controller. When the push switch is opened by pressing the first filter plate, The controller can control the fan to be turned on and off by pressing the switch, the air inlet allows the air outside the rectangular cabinet to enter the inside of the rectangular cabinet, the sliding groove can facilitate the installation and removal of the first filter plate, and the start cylinder can control the T The T-shaped connecting plate can be moved, and the position of the installation box can be adjusted when the T-shaped connecting plate moves, and the guide rod can make the T-shaped connecting plate more stable when moving by cooperating with the limit tube;

3. The dehumidification and tide reduction device in the wind turbine converter cabinet is equipped with a sealing gasket that can enhance the sealing effect between the rectangular box and the rectangular cabinet when the rectangular box is in contact with the rectangular cabinet. The first protective plate with holes and the second The combination of two protective plates with holes can protect the heating wire to a certain extent. The first partition and the second partition cooperate to divide the air circulation position inside the rectangular box into an S-shaped channel, thereby strengthening the heating wire. For the dehumidification and moisture reduction effect of the air entering the rectangular cabinet, the second filter plate can filter the air passing through the rectangular box.

Description of drawings

Fig. 1 is the overall structure schematic diagram of the embodiment of the present invention;

Fig. 2 is the cross-sectional structure schematic diagram in the embodiment of the present invention;

Fig. 3 is an enlarged schematic diagram of the structure at A in Fig. 2 according to an embodiment of the present invention;

Fig. 4 is a schematic structural diagram of a converter cabinet body in an embodiment of the present invention;

Fig. 5 is a structural schematic diagram of the installation bar in the embodiment of the present invention;

Fig. 6 is a schematic cross-sectional structure diagram of the installation box in the embodiment of the present invention.

Explanation of reference numerals: 1. Converter cabinet body; 101. Rectangular cabinet body; 102. Controller; 103. Air inlet; 104. Slide groove; 2. First humidity sensor; 3. Fan; 4. Push switch; 5. The first filter plate; 6. The second humidity sensor; 7. The moving mechanism; 701. The cylinder; 702. The T-shaped connecting plate; 8. The installation box; 801. The rectangular box; 802. The installation strip; 9. Heating wire; 10. Plug; 11. Socket; 12. The first protective plate with holes; 13. The second protective plate with holes; 14. The first partition plate; 15. The second partition plate; 16. Gasket; 17. Installation groove; 18. Second filter plate; 19. Guide rod; 20. Limiting tube.

Detailed ways

The present invention will be described in further detail below in conjunction with accompanying drawings 1-6.

Example 1

The embodiment of the invention discloses a dehumidification and tide reduction device in a converter cabinet of a wind power generator. Referring to Fig. 1, Fig. 2 and Fig. 3, the dehumidification and tide reduction device in the converter cabinet of the wind power generator includes a converter cabinet body 1, and a first humidity sensor 2 is fixedly connected to one side of the inner wall of the converter cabinet body 1 and used to accelerate The fan 3 for air circulation, the fan 3 is located below the first humidity sensor 2, the inside of the converter cabinet body 1 is fixedly connected with the push switch 4, the push switch 4 is electrically connected with the fan 3, the inside of the converter cabinet body 1 A first filter plate 5 for filtering air is slidably connected, the lower surface of the first filter plate 5 abuts against the top of the push switch 4, the outer wall of the converter cabinet body 1 is fixedly connected with a second humidity sensor 6, and the converter cabinet body One side of 1 is symmetrically and fixedly connected with a moving mechanism 7, and the end of the symmetrically arranged moving mechanism 7 away from the converter cabinet body 1 is plugged with an installation box 8, and the inside of the installation box 8 is uniformly and fixedly connected with a heating wire 9 for dehumidification and moisture reduction , the bottom of the heating wire 9 is electrically connected to a plug 10, the plug 10 is located on the side of the installation box 8 close to the converter cabinet body 1, and the inside of the converter cabinet body 1 is fixedly connected to a socket 11, and the socket 11 and the plug 10 are located on the same horizontal plane , and the socket 11 matches the plug 10.

In this embodiment, the first humidity sensor 2 installed in the dehumidification and tide reduction device in the converter cabinet of the wind power generator can detect the humidity inside the converter cabinet body 1, and when the humidity inside the converter cabinet body 1 is high, start The fan 3 can speed up the air circulation inside and outside the converter cabinet body 1, and the first filter plate 5 provided can filter the air entering the converter cabinet body 1 to a certain extent, so as to prevent dust from entering the converter cabinet body 1 as much as possible. Inside, the set push switch 4 is located on the lower surface of the first filter plate 5. After the first filter plate 5 is installed, it will be pressed to the push switch 4 to control the opening of the push switch 4. After the first filter plate 5 is disassembled, it can be controlled. Press the switch 4 to close, so as to avoid the situation that the fan 3 is turned on after the first filter plate 5 is disassembled, the second humidity sensor 6 provided can detect the humidity outside the converter cabinet body 1, when the humidity outside the converter cabinet body 1 When it is also higher, start the moving mechanism 7 to control the installation box 8 to move towards the side close to the converter cabinet body 1, and the control plug 10 is inserted into the socket 11 to supply power to the heating wire 9, so that the heating wire 9 can be heated. The air inside the converter cabinet body 1 is heated, dehumidified and tide-reduced, so as to avoid as much as possible the effect of using the fan 3 to accelerate the air circulation inside the converter cabinet body 1 of the wind turbine because the humidity outside the converter cabinet body 1 is also high Unfavorable situation makes this application more beneficial to use.

In a further preferred embodiment of the present invention, as shown in FIG. 2 , FIG. 3 and FIG. 4 , the converter cabinet body 1 includes a rectangular cabinet body 101, a controller 102 is fixedly connected to the rectangular cabinet body 101, and a controller 102 is fixedly connected to the controller 102. Connected to a power supply, the first humidity sensor 2, the push switch 4, the second humidity sensor 6, the socket 11 and the moving mechanism 7 are all electrically connected to the controller 102, and one side of the rectangular cabinet 101 is provided with a rectangular cabinet 101 runs through the air inlet 103, and one side of the outer wall of the rectangular cabinet 101 is provided with a sliding groove 104, the sliding groove 104 communicates with the air inlet 103, and the first filter plate 5 is located inside the sliding groove 104 and the air inlet 103.

In this embodiment, the first humidity sensor 2, the push switch 4, the second humidity sensor 6 and the socket 11 can be controlled by the controller 102. When the push switch 4 is pressed and opened by the first filter plate 5, the controller 102 The fan 3 can be controlled to be turned on and off by pressing the switch 4, and the air inlet 103 provided enables the air outside the rectangular cabinet 101 to enter the inside of the rectangular cabinet 101, and the rectangular cabinet 101 is far away from the air inlet 103. An air outlet is opened on one side, so that the air inside the rectangular cabinet 101 can be discharged outward, and the sliding groove 104 provided can facilitate the installation and disassembly of the first filter plate 5 .

In a further preferred embodiment of the present invention, as shown in FIGS. 1 and 4 , the moving mechanism 7 includes a cylinder 701 fixedly connected to one side of the rectangular cabinet 101 , and the cylinder 701 is electrically connected to the controller 102 , the output end of the cylinder 701 is fixedly connected with a T-shaped connecting plate 702 , and the T-shaped connecting plate 702 is plugged into the installation box 8 .

In this embodiment, the starting cylinder 701 can control the T-shaped connecting plate 702 to move, and the position of the installation box 8 can be adjusted when the T-shaped connecting plate 702 moves.

In a further preferred embodiment of the present invention, as shown in Figure 4, the side of the T-shaped connecting plate 702 close to the cylinder 701 is symmetrically fixedly connected with the guide rod 19, and the end of the guide rod 19 far away from the T-shaped connecting plate 702 is slidably connected within a limited range. The position pipe 20 and the limit pipe 20 are located inside the rectangular cabinet body 101 .

In this embodiment, when the T-shaped connecting plate 702 moves, the set guide rod 19 can follow and move to the inside of the limit tube 20. By cooperating with the limit tube 20, the guide rod 19 can make the T-shaped connecting plate 702 More stable when moving.

In a further preferred embodiment of the present invention, as shown in Figure 1, Figure 3 and Figure 5, the installation box 8 includes a rectangular box 801, the heating wire 9 is fixedly connected to the inner wall of the rectangular box 801, and the rectangular box 801 is close to the rectangular cabinet One side of 101 is fixedly connected with sealing gasket 16, and both sides of rectangular box 801 are fixedly connected with installation strip 802, and the inside of installation strip 802 is provided with T-shaped insertion groove 803, and T-shaped connection plate 702 is located in T-shaped insertion groove The interior of the 803.

In this embodiment, the provided rectangular box 801 can limit the installation position of the heating wire 9, and the provided sealing gasket 16 can enhance the contact between the rectangular box 801 and the rectangular cabinet body 101 when the rectangular box 801 is in contact with the rectangular cabinet body 101. Sealing effect, the T-shaped insertion groove 803 provided facilitates the connection between the installation bar 802 and the T-shaped connecting plate 702 .

Example 2

This embodiment is an improvement made on the basis of Embodiment 1. Specifically, as shown in FIG. 3 and FIG. 6, the inner wall of the rectangular box 801 is fixedly connected with a first perforated protective plate 12 and a second perforated protective plate 13, The heating wire 9 is located between the first protective plate with holes 12 and the second protective plate 13 with holes, and the first protective plate with holes 12 is located on the side of the heating wire 9 close to the converter cabinet body 1 .

In this embodiment, the provided first protective plate 12 with holes cooperates with the second protective plate 13 to protect the heating wire 9 to a certain extent, and the first protective plate 12 with holes and the second belt Through holes are evenly opened on the hole guard plate 13 to facilitate air circulation.

In a further preferred embodiment of the present invention, as shown in Fig. 3 and Fig. 6, the top of the inner wall of the rectangular box 801 is fixedly connected with a first partition plate 14, and the first partition plate 14 is located between the heating wire 9 and the first belt. Between the hole protection plates 12 , the bottom of the inner wall of the rectangular box 801 is fixedly connected with a second partition plate 15 , and the second partition plate 15 is located between the uniformly arranged heating wires 9 .

In this embodiment, the provided first partition plate 14 cooperates with the second partition plate 15 to separate the space inside the rectangular box 801 to a certain extent, and at the same time separate the air circulation position inside the rectangular box 801 into an S shape. channel, so as to enhance the dehumidification effect of the heating wire 9 on the air entering the rectangular cabinet body 101 .

In a further preferred embodiment of the present invention, as shown in FIG. 3 and FIG. 6 , the rectangular box 801 is provided with a mounting groove 17 through which the rectangular box 801 penetrates, and the inside of the rectangular box 801 is movably inserted into the mounting groove 17. The second filter plate 18 is located on the side of the second perforated protective plate 13 away from the heating wire 9 .

In this embodiment, the installed slot 17 can limit the installation position of the second filter plate 18 , and the second filter plate 18 can filter the air passing through the inside of the rectangular box 801 .

The implementation principle of the dehumidification and tide reduction device in the wind power generator converter cabinet of the embodiment of the present invention is as follows:

During use, the humidity inside the converter cabinet body 1 is detected by the first humidity sensor 2, and when the humidity inside the converter cabinet body 1 is high, the air circulation between the inside and the outside of the converter cabinet body 1 is accelerated by starting the fan 3, The humidity outside the converter cabinet body 1 is detected by the second humidity sensor 6. When the humidity outside the converter cabinet body 1 is also high, the moving mechanism 7 is started to control the installation box 8 to move toward the side close to the converter cabinet body 1, The control plug 10 is inserted into the inside of the socket 11 to supply power to the heating wire 9, so that the heating wire 9 can heat the air entering the inside of the converter cabinet body 1 to heat, dehumidify and reduce the tide, thereby avoiding as much as possible Humidity is also high, and the scheme of accelerating the air circulation inside the wind turbine converter cabinet body 1 through the fan 3 is not effective, which makes the application more beneficial to use;

The air entering the converter cabinet body 1 is filtered to a certain extent through the first filter plate 5, so as to prevent dust from entering the inside of the converter cabinet body 1, and the set push switch 4 is located on the lower surface of the first filter plate 5. After the first filter plate 5 is installed, it will press the push switch 4 to control the push switch 4 to turn on. After the first filter plate 5 is disassembled, the push switch 4 can be controlled to close, so as to avoid the opening of the fan 3 after the first filter plate 5 is disassembled. In the case that the first perforated protective plate 12 cooperates with the second perforated protective plate 13, the heating wire 9 inside the rectangular box 801 can be protected to a certain extent, and the first partition plate 14 is separated from the second partition The plate 15 cooperates to separate the air circulation position inside the rectangular box 801 into an S-shaped channel, thereby enhancing the dehumidification and moisture reduction effect of the heating wire 9 on the air entering the rectangular cabinet 101, and the second filter plate 18 can pass through the rectangular box. The air inside the 801 is filtered.

The above are all preferred embodiments of the present invention, and are not intended to limit the protection scope of the present invention, so: all equivalent changes made according to the structure, shape and principle of the present invention should be covered by the protection scope of the present invention Inside.

Claims (8)

1. A dehumidification and tide reduction device in a wind power generator converter cabinet, comprising a converter cabinet body (1), characterized in that: one side of the inner wall of the converter cabinet body (1) is fixedly connected with a first humidity sensor (2 ) and a fan (3) for accelerating air circulation, the fan (3) is located below the first humidity sensor (2), and the inside of the converter cabinet body (1) is fixedly connected with a push switch (4 ), the push switch (4) is electrically connected to the fan (3), the inside of the converter cabinet body (1) is slidingly connected with a first filter plate (5) for filtering air, the The lower surface of the first filter plate (5) abuts against the top of the push switch (4); The outer wall of the converter cabinet body (1) is fixedly connected with a second humidity sensor (6), and one side of the converter cabinet body (1) is symmetrically fixedly connected with a moving mechanism (7), and the symmetrically arranged moving The installation box (8) is plugged into the end of the mechanism (7) away from the converter cabinet body (1), and the inside of the installation box (8) is evenly and fixedly connected with a heating wire (9) for dehumidification and moisture reduction. The bottom of the heating wire (9) is electrically connected to a plug (10), and the plug (10) is located on the side of the installation box (8) close to the converter cabinet body (1), and the converter cabinet A socket (11) is fixedly connected to the inside of the body (1), the socket (11) is located at the same level as the plug (10), and the socket (11) matches the plug (10). 2. A dehumidification and tide reduction device in a wind power generator converter cabinet according to claim 1, characterized in that: the converter cabinet body (1) comprises a rectangular cabinet body (101), and the rectangular cabinet body (101 ) is fixedly connected with a controller (102), the controller (102) is connected with a power supply, the first humidity sensor (2), the push switch (4), the second humidity sensor (6) , the socket (11) and the moving mechanism (7) are electrically connected to the controller (102), and one side of the rectangular cabinet (101) is provided with the rectangular cabinet (101) A through air inlet (103), a sliding groove (104) is provided on one side of the outer wall of the rectangular cabinet (101), and the sliding groove (104) communicates with the air inlet (103). The first filter plate (5) is located inside the sliding groove (104) and the air inlet (103). 3. A dehumidification and tide reduction device in a wind power generator converter cabinet according to claim 2, characterized in that: the moving mechanism (7) includes a cylinder ( 701), the cylinder (701) is electrically connected to the controller (102), the output end of the cylinder (701) is fixedly connected with a T-shaped connecting plate (702), and the T-shaped connecting plate (702) Plugged into the inside of the installation box (8). 4. A dehumidification and tide reduction device in a wind power generator converter cabinet according to claim 3, characterized in that: the side of the T-shaped connecting plate (702) close to the cylinder (701) is symmetrically and fixedly connected with a guide Rod (19), the end of the guide rod (19) away from the T-shaped connecting plate (702) is slidably connected to the limit tube (20), and the limit tube (20) is located in the rectangular cabinet (101) internal. 5. A dehumidification and moisture reduction device in a wind power generator converter cabinet according to claim 3, characterized in that: the installation box (8) includes a rectangular box (801), and the heating wire (9) is fixedly connected to The inner wall of the rectangular box (801), the side of the rectangular box (801) close to the rectangular cabinet (101) is fixedly connected with a gasket (16), and both sides of the rectangular box (801) are fixed A mounting strip (802) is connected, and a T-shaped insertion slot (803) is opened inside the installation strip (802), and the T-shaped connecting plate (702) is located inside the T-shaped insertion slot (803) . 6. A dehumidification and tide reduction device in a wind turbine converter cabinet according to claim 5, characterized in that: the inner wall of the rectangular box (801) is fixedly connected with a first protective plate with holes (12) and a second A protective plate with holes (13), the heating wire (9) is located between the first protective plate with holes (12) and the second protective plate with holes (13), the first protective plate with holes (12) is located on the side of the heating wire (9) close to the converter cabinet body (1). 7. A dehumidification and moisture reduction device in a wind power generator converter cabinet according to claim 6, characterized in that: the top of the inner wall of the rectangular box (801) is fixedly connected with a first partition plate (14), the The first partition plate (14) is located between the heating wire (9) and the first perforated protective plate (12), and the bottom of the inner wall of the rectangular box (801) is fixedly connected with a second partition plate ( 15), the second partition plate (15) is located between the uniformly arranged heating wires (9). 8. A dehumidification and tide reduction device in a wind power generator converter cabinet according to claim 6, characterized in that: the rectangular box (801) is provided with an installation groove (17) through which the rectangular box (801) penetrates ), the inside of the rectangular box (801) is movably plugged with a second filter plate (18) inside the installation groove (17), and the second filter plate (18) is located in the second holed protective The side of the plate (13) away from said heating wire (9).

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