CN116846144A - Corrosion-resistant and moisture-proof protective motor housing - Google Patents

Abstract

The invention discloses an anti-corrosion and moistureproof protective motor shell, which relates to the technical field of motor shells and comprises a shell, a heat dissipation assembly and a locking assembly, wherein a motor is arranged at the middle end of the inner side of the shell, the top end of the motor is connected with an output shaft, the heat dissipation assembly is arranged at the outer end of the output shaft, and a bucket-shaped bin is arranged at the middle end of the shell. In the process of heating, the motor can radiate heat into the bucket-shaped bin through the shell, the bucket-shaped bin is bucket-shaped and is the largest cavity in the shell, so that the heat can be gathered in the bucket-shaped bin, the ventilation fan is as high as the bucket-shaped bin, the heat radiating process of the shell needs to radiate heat onto the shell through the bucket-shaped bin and the communication groove, the heat radiating effect of the equipment can be improved, and when external air enters the bucket-shaped bin through the communication groove, the humidity can be reduced due to the high temperature in the bucket-shaped bin, so that the rust of the motor caused by the humidity of external air can be effectively avoided.

Description

Corrosion-resistant and moisture-proof protective motor housing

Technical Field

The invention relates to the technical field of motor shells, in particular to an anti-corrosion and moistureproof protective motor shell.

Background

An electric machine (commonly called a "motor") refers to an electromagnetic device that converts or transmits electric energy according to the law of electromagnetic induction. The motor is divided into a motor (M sign) and a generator (G sign), the outer end of the motor is usually required to be sleeved with a protective shell in the using process, the damage rate of the motor can be reduced through the use of the protective shell, and the motor can be conveniently carried and installed on an external object through the protective shell.

In order to ensure the anti-corrosion and dampproof effects, the common motor shell in the market is usually sheathed with the motor by adopting a sealing shell, the heat dissipation effect of the sealing shell is poor, the cost of the motor is high by adopting water cooling heat dissipation, the stability of the water cooling heat dissipation is poor, and liquid leakage is easy to occur, so that the existing motor shell is difficult to realize the balance of anti-corrosion and dampproof effects and heat dissipation under the conventional production cost.

Accordingly, in view of the above, research and improvement are made to the existing structure and the defects, and a corrosion-resistant and moisture-resistant protective motor housing is proposed.

Disclosure of Invention

The invention aims to provide an anti-corrosion and moistureproof protective motor shell so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an anticorrosive damp-proof protection type motor housing, includes casing, radiator unit and locking position subassembly, the inboard middle-end of casing is provided with the motor, and the top of motor is connected with the output shaft, radiator unit sets up in the outer end of output shaft, the bucket type storehouse has been seted up to the middle-end of casing, the intercommunication groove has been seted up to the outside both sides of casing, the inside in bucket type storehouse is provided with the axis of rotation, and the outer end of axis of rotation is connected with pneumatic board, hollow groove has been seted up to the inboard of casing, and the outer end of casing is provided with seal assembly, the inboard of casing is provided with the closing plate, the top inboard of casing is provided with the locking position subassembly, and the inboard of locking position subassembly is connected with the shaft coupling.

Further, the radiating component comprises a sleeve base, a first transmission belt, a connecting plate, first bevel gears, second transmission belts and a ventilating fan, wherein the first transmission belt is arranged at the outer end of the sleeve base, the connecting plates are arranged on two sides of the inside of the shell, the outer ends of the connecting plates are connected with the first bevel gears, the outer ends of the first bevel gears are connected with the second bevel gears, the outer ends of the second bevel gears are connected with the second transmission belts, and one sides of the second transmission belts far away from the second bevel gears are connected with the ventilating fan.

Further, the sleeve seat is fixedly sleeved with the motor, and the sleeve seat drives the first bevel gear to rotate through the first transmission belt.

Further, the first conical teeth and the second conical teeth are meshed with each other, and the second conical teeth drive the ventilating fan to rotate through the second conveying belt.

Further, the rotating shaft drives the pneumatic plates to rotate, and the pneumatic plates are distributed in an array mode inside the bucket-shaped bin.

Further, the sealing assembly comprises an exhaust pipe, a sealing valve and an air blowing ball, wherein the outer end of the exhaust pipe is connected with the sealing valve, and the outer end of the sealing valve is connected with the air blowing ball.

Further, the exhaust pipe is communicated with the hollow groove, and the air-blowing ball is communicated with the sealing valve.

Further, the locking assembly comprises a reset spring, a clamping seat, a ball, a clamping groove, a connecting rod, a first clamping block and a second clamping block.

Further, the size of the first clamping block is consistent with the size of the clamping groove, and the clamping grooves are distributed on the surface of the shell in an array mode.

Further, the reset spring is elastically connected with the clamping seat, and the clamping seat is U-shaped.

The invention provides an anti-corrosion and moistureproof protective motor shell, which has the following beneficial effects:

1. when the motor drives the output shaft to rotate in the working process of the motor, the rotation of the output shaft can drive the sleeve joint seat to rotate, the sleeve joint seat can drive the first conical tooth to rotate by driving the first transmission belt to rotate in the rotating process, the first conical tooth is meshed with the second conical tooth, the second conical tooth can rotate along with the first conical tooth, and the ventilation fan can be driven to rotate through the second transmission belt in the rotating process of the second conical tooth, the ventilation fan is positioned at the same height as the bucket bin, so that air flow generated when the ventilation fan rotates at a high speed can enter the ventilation fan from the communication groove at the right end of the shell and is discharged from the left end of the shell, heat dissipation of the motor is realized, and the heat dissipation process is realized based on normal operation of the motor.

2. In the process of heating, the motor can radiate heat into the bucket-shaped bin through the shell, the bucket-shaped bin is bucket-shaped and is the largest cavity in the shell, so that the heat can be gathered in the bucket-shaped bin, the ventilation fan is high with the bucket-shaped bin, the heat radiating process of the shell needs to pass through the bucket-shaped bin and the communication groove, the heat radiated onto the shell can be radiated more easily, the heat radiating effect of the equipment can be improved, when external air enters the bucket-shaped bin through the communication groove, the humidity can be reduced due to high temperature in the bucket-shaped bin, the motor can be effectively prevented from being rusted due to the outside air, in addition, when the motor is suspended in use, the pneumatic plate can rotate to a downward state along with the rotation shaft due to the loss of wind, the pneumatic plate can seal the bucket-shaped bin and the communication groove, the equipment can be automatically sealed to the shell when the motor is in a non-use state, and the protection effect of the motor can be further improved.

3. Before the motor is used, the sealing valve is opened, the suction pump is connected to the sealing valve, suction force can enter the hollow groove through the exhaust pipe, air in the hollow groove can be sucked out to form vacuum, the shell can effectively isolate the external environment and the motor in the hollow groove through the vacuum environment, the motor can be effectively reduced from being influenced by external moisture, therefore, the corrosion resistance and the moisture resistance of the motor are greatly improved, after the hollow groove is in a sealing state, the exhaust pipe can be closed through closing the sealing valve, the hollow groove can be in a sealing state for a long time, after the sealing valve is closed, a worker can sleeve a balloon on the sealing valve, the balloon is made of flexible rubber material, and in the normal use process of the motor, the worker can effectively and rapidly judge whether the hollow groove is shrunken or not by only observing whether the balloon is shrunken, and the protection effect of the shell can be effectively prevented from being influenced by the hollow groove.

4. According to the invention, the clamping seat is pushed to be close to the direction of the coupler by stretching the reset spring, the clamping seat is U-shaped, the inner outline size is matched with the outer outline size of the coupler, the clamping seat can wrap the extension of the coupler after being displaced, balls in the clamping seat are attached to the outer surface of the coupler, six groups of clamping seats are distributed in the shell, after the six groups of clamping seats wrap the coupler, the first clamping block of the connecting rod is clamped into the clamping groove, the second clamping block is clamped into the top end of the clamping seat, the clamping seat can be positioned at the current position, and at the moment, the clamping seat wraps the coupler, so that the clamping seat can lock the position of the coupler, the connection stability of the clamping seat and the output shaft of the motor is ensured, the clamping seat can wrap and position the coupler, the coupling rotation can be reduced, meanwhile, the damage probability of the coupler can be reduced, when the coupler is damaged, the connecting rod is only required to be pulled out by a worker, the clamping seat can be quickly exposed out of the coupler along with the reset spring, and the coupling can be replaced quickly.

Drawings

FIG. 1 is a schematic elevational overall construction of a corrosion-resistant moisture-resistant protective motor housing of the present invention;

FIG. 2 is an enlarged schematic view of the structure of the anti-corrosion and moisture-proof protective motor housing of FIG. 1 at A;

FIG. 3 is a schematic cross-sectional view of a housing of a corrosion-resistant and moisture-resistant protective motor housing of the present invention;

FIG. 4 is an enlarged schematic view of the structure of the protective motor housing of FIG. 2 in accordance with the present invention;

FIG. 5 is a schematic view of a locking assembly of a corrosion-resistant and moisture-resistant protective motor housing according to the present invention;

fig. 6 is a schematic view of the structure of the connecting rod of the anti-corrosion and moistureproof protective motor shell.

In the figure: 1. a housing; 2. a motor; 3. an output shaft; 4. a heat dissipation assembly; 401. a socket is sleeved; 402. a first conveyor belt; 403. a connecting plate; 404. a first bevel gear; 405. a second bevel gear; 406. a second conveyor belt; 407. a ventilation fan; 5. a bucket bin; 6. a communication groove; 7. a rotating shaft; 8. a pneumatic plate; 9. a hollow groove; 10. a seal assembly; 1001. an exhaust pipe; 1002. a sealing valve; 1003. a balloon; 11. a sealing plate; 12. a capture assembly; 1201. a return spring; 1202. a clamping seat; 1203. a ball; 1204. a clamping groove; 1205. a connecting rod; 1206. a first clamping block; 1207. a second clamping block; 13. a coupling.

Detailed Description

Referring to fig. 1 to 6, the present invention provides the following technical solutions: the utility model provides an anticorrosive damp-proof protection type motor housing, including casing 1, radiator unit 4 and locking position subassembly 12, the inboard middle-end of casing 1 is provided with motor 2, and motor 2's top is connected with output shaft 3, radiator unit 4 settles in output shaft 3's outer end, bucket type storehouse 5 has been seted up to casing 1's middle-end, intercommunication groove 6 has been seted up to casing 1's outside both sides, bucket type storehouse 5's inside is provided with axis of rotation 7, and axis of rotation 7's outer end is connected with pneumatic board 8, hollow groove 9 has been seted up to casing 1's inboard, and casing 1's outer end is provided with seal assembly 10, casing 1's inboard is provided with closing plate 11, casing 1's top inboard is provided with locking position subassembly 12, and locking position subassembly 12's inboard is connected with shaft coupling 13.

Referring to fig. 1 to 6, the heat dissipation assembly 4 includes a socket 401, a first transmission belt 402, a connection plate 403, a first cone 404, a second cone 405, a second transmission belt 406 and a ventilation fan 407, the outer end of the socket 401 is provided with the first transmission belt 402, two sides of the interior of the housing 1 are provided with the connection plate 403, the outer end of the connection plate 403 is connected with the first cone 404, the outer end of the first cone 404 is connected with the second cone 405, the outer end of the second cone 405 is connected with the second transmission belt 406, one side of the second transmission belt 406 far away from the second cone 405 is connected with the ventilation fan 407, the socket 401 is sleeved and fixed with the motor 2, the socket 401 drives the first cone 404 to rotate through the first transmission belt 402, the first cone 404 is meshed with the second cone 405, the second bevel gear 405 drives the ventilating fan 407 to rotate through the second transmission belt 406, the rotating shaft 7 drives the pneumatic plate 8 to rotate, the pneumatic plate 8 is distributed in an array mode in the bucket bin 5, the sealing assembly 10 comprises an exhaust pipe 1001, a sealing valve 1002 and an air blowing ball 1003, the outer end of the exhaust pipe 1001 is connected with the sealing valve 1002, the outer end of the sealing valve 1002 is connected with the air blowing ball 1003, the exhaust pipe 1001 is communicated with the hollow groove 9, the air blowing ball 1003 is communicated with the sealing valve 1002, the locking assembly 12 comprises a reset spring 1201, a clamping seat 1202, a ball 1203, a clamping groove 1204, a connecting rod 1205, a first clamping block 1206 and a second clamping block 1207, the size of the first clamping block 1206 is consistent with the size of the clamping groove 1204, the clamping groove 1204 is distributed in an array mode on the surface of the shell 1, the reset spring 1201 is elastically connected with the clamping seat 1202, and the clamping seat 1202 is U-shaped;

the specific operation is as follows: when the output shaft 3 is driven to rotate in the working process of the motor 2, the rotation of the output shaft 3 can drive the sleeve seat 401 to rotate, the sleeve seat 401 can drive the first transmission belt 402 to rotate in the rotating process to enable the first conical tooth 404 to rotate, the first conical tooth 404 is meshed with the second conical tooth 405, the second conical tooth 405 can rotate along with the first conical tooth 404, the ventilation fan 407 can be driven to rotate through the second transmission belt 406 in the rotating process of the second conical tooth 405, the ventilation fan 407 is positioned at the same height as the bucket bin 5, so that air flow generated when the ventilation fan 407 rotates at a high speed can enter the inside of the ventilation fan from the communication groove 6 at the right end of the shell 1 and is discharged from the left end of the shell 1, heat dissipation of the motor 2 is realized, the heat dissipation process is realized based on normal operation of the motor 2, the equipment does not need to additionally use a power source to drive the heat dissipation component 4 in the use process, because the motor 2 rotates faster, the ventilation fan 407 can rotate at high frequency, the device can save energy consumption while having higher heat dissipation effect, the heat of the motor 2 can be radiated into the bucket-shaped bin 5 through the shell 1 in the heating process, the bucket-shaped bin 5 is bucket-shaped and is the largest chamber in the shell 1, the heat can be gathered in the bucket-shaped bin 5, the ventilation fan 407 is as high as the bucket-shaped bin 5, the heat dissipation process of the shell 1 needs to be conducted through the bucket-shaped bin 5 and the communication groove 6, the heat radiated onto the shell 1 can be dissipated more easily, the heat dissipation effect of the device can be improved, the humidity can be reduced due to the high temperature in the bucket-shaped bin 5 when the external air enters into the bucket-shaped bin 5 through the communication groove 6, the rust of the motor 2 due to the humidity of the external air can be effectively avoided, in addition, when the motor 2 is suspended in use, the pneumatic plate 8 can rotate to a state of downward gravity along with the rotation shaft 7 due to the loss of wind blowing, so that the pneumatic plate 8 can seal the bucket bin 5 and the communication groove 6, the equipment can automatically seal the shell 1 when the motor 2 is not in use, the protection effect of the motor 2 can be further improved, the hollow groove 9 is arranged at the middle end of the inside of the shell 1, before the motor 2 is used, the suction force can enter the hollow groove 9 through the exhaust pipe 1001 by opening the sealing valve 1002 and connecting the suction pump on the sealing valve 1002, the air in the hollow groove 9 can be sucked out to form vacuum, the shell 1 can effectively isolate the external environment and the internal motor 2 by enabling the hollow groove 9 to be in a vacuum environment, the external moisture influence on the motor 2 can be effectively reduced, the corrosion resistance and the moisture resistance of the motor 2 are greatly improved, and after the hollow groove 9 is in a sealing state, by closing the sealing valve 1002, the exhaust pipe 1001 can be closed, the hollow groove 9 can be in a sealing state for a long time, after the sealing valve 1002 is closed, a worker can sleeve the air-blowing ball 1003 on the sealing valve 1002, the air-blowing ball 1003 is a ball made of flexible rubber material, in the normal use process of the motor 2, the worker can efficiently and quickly judge whether the hollow groove 9 leaks air or not by only observing whether the air-blowing ball 1003 is shrunken, the protection effect of the shell 1 is effectively avoided, the worker can effectively avoid the air leakage of the hollow groove 9, after one end of the coupler 13 is fixed with the output shaft 3, the worker pushes the clamping seat 1202, the clamping seat 1202 can be drawn towards the direction of the coupler 13 through the stretching of the reset spring 1201, the clamping seat 1202 is U-shaped, the inner contour size is matched with the outer contour size of the coupler 13, the clamping seat 1202 can wrap the extension of the coupler 13 after the displacement, and make its inside ball 1203 laminate with the surface of shaft coupling 13 mutually, the cassette 1202 has six groups at the inside array distribution of casing 1, six groups cassette 1202 wraps up the back to shaft coupling 13, through the first fixture block 1206 card of linking pole 1205 in to draw-in groove 1204, make the second fixture block 1207 card behind the cassette 1202 top, can make the cassette 1202 fix a position at the current position, and the cassette 1202 wraps up shaft coupling 13 this moment, this makes the cassette 1202 can lock the position of shaft coupling 13, in order to guarantee its and the linking stability of motor 2's output shaft 3, and benefit from the cassette 1202 to the parcel location of shaft coupling 13, shake when can reducing shaft coupling 13 rotation, can reduce the probability of damaging of shaft coupling 13 simultaneously, and when shaft coupling 13 breaks down, the staff only need pull out linking pole 1205, the cassette 1202 can rebound along with reset spring 1201 because of losing the locking position this moment, this makes the shaft coupling 13 that is in the cassette 1202 can expose the degree of difficulty fast, this can greatly reduce the replacement and the time of shaft coupling 13.

In summary, when the anti-corrosion and dampproof protective motor housing is used, firstly, when the output shaft 3 is driven to rotate in the working process of the motor 2, the rotation of the output shaft 3 can drive the sleeve seat 401 to rotate, and the sleeve seat 401 can rotate through driving the first transmission belt 402 to rotate so as to enable the first conical teeth 404 to rotate, and the first conical teeth 404 are meshed with the second conical teeth 405, so that the second conical teeth 405 can rotate along with the first conical teeth 404, and the ventilation fan 407 can be driven to rotate through the second transmission belt 406 in the rotating process of the second conical teeth 405, and the ventilation fan 407 is positioned at the same height as the bucket-shaped bin 5, so that air flow generated when the ventilation fan 407 rotates at high speed can enter the interior of the communication groove 6 at the right end of the shell 1 and is discharged from the left end of the shell 1, thereby realizing heat dissipation of the motor 2;

then, in the process of heating, the heat of the motor 2 can be radiated into the bucket-shaped bin 5 through the shell 1, the bucket-shaped bin 5 is bucket-shaped and is the largest cavity in the shell 1, so that the heat can be gathered in the bucket-shaped bin 5, the ventilation fan 407 is as high as the bucket-shaped bin 5, the heat radiating process of the shell 1 needs to pass through the bucket-shaped bin 5 and the communication groove 6, so that the heat radiated onto the shell 1 can be radiated more easily, the heat radiating effect of the equipment can be improved, and when the external air enters into the bucket-shaped bin 5 through the communication groove 6, the humidity can be reduced due to the high temperature in the bucket-shaped bin 5, the rust of the motor 2 caused by the humidity of the external air can be effectively avoided, in addition, when the motor 2 is in a suspended state, the pneumatic plate 8 can rotate to a downward state along with the rotation shaft 7 due to the loss of wind, so that the pneumatic plate 8 can seal the bucket-shaped bin 5 and the communication groove 6, and the equipment can be automatically sealed to the shell 1 when the motor 2 is in a non-use state;

then, by opening the sealing valve 1002 and connecting a suction pump on the sealing valve 1002, suction force can enter the hollow groove 9 through the exhaust pipe 1001, so that air in the hollow groove 9 can be sucked out to form vacuum, the motor 2 in the external environment and the inside can be effectively isolated by the shell 1 through the hollow groove 9 in the vacuum environment, the motor 2 can be effectively reduced from being influenced by external moisture, so that the corrosion resistance and the moisture resistance of the motor 2 are greatly improved, after the hollow groove 9 is in a sealing state, the exhaust pipe 1001 can be closed by closing the sealing valve 1002, so that the hollow groove 9 can be in the sealing state for a long time, after the sealing valve 1002 is closed, a worker can sleeve a balloon 1003 on the sealing valve 1002, the balloon 1003 is made of flexible rubber material, and in the normal use process of the motor 2, the worker only needs to observe whether the balloon 1003 is shrunken, and whether the hollow groove 9 is air leakage can be effectively and rapidly judged, and the protection effect of the shell 1 can be effectively prevented from being influenced by the hollow groove 9;

finally, after the fixing of one end of the coupler 13 and the output shaft 3 is completed, the worker pushes the clamping seat 1202, the clamping seat 1202 can be drawn towards the direction of the coupler 13 through the stretching of the return spring 1201, the clamping seat 1202 is in a U shape, the inner contour dimension is matched with the outer contour dimension of the coupler 13, the clamping seat 1202 can wrap the extension of the coupler 13 after being displaced, the balls 1203 in the clamping seat 1202 are attached to the outer surface of the coupler 13, six groups of clamping seats 1202 are distributed in an array mode in the shell 1, after the six groups of clamping seats 1202 wrap the coupler 13, the first clamping blocks 1206 of the connecting rod 1205 are clamped into the clamping grooves 1204, the second clamping blocks 1207 are clamped into the top ends of the clamping seats 1202, the clamping seat 1202 can be positioned at the current position, the clamping seat 1202 wraps the coupler 13, the clamping seat 1202 can lock the position of the coupler 13, the coupling 13 is guaranteed to be stably attached to the output shaft 3 of the motor 2, the clamping seat 1202 can wrap the coupler 13, the coupling 13 can be wrapped, the probability of the coupler 13 can be reduced when the coupler 13 is rotated, the coupling can be rapidly damaged, the coupling can be damaged due to the fact that the coupling is lost, and the coupling can be rapidly damaged when the coupling is exposed out of the coupling 13 is replaced by the clamping rod 1202, and the coupling can be greatly damaged when the coupling is replaced by the coupling 13, and the coupling can be greatly damaged when the coupling is exposed by the coupling 13.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. The utility model provides a anticorrosive damp-proofing protection type motor housing, its characterized in that, including casing (1), radiator unit (4) and locking position subassembly (12), the inboard middle-end of casing (1) is provided with motor (2), and the top of motor (2) is connected with output shaft (3), radiator unit (4) are settled in the outer end of output shaft (3), bucket type storehouse (5) have been seted up to the middle-end of casing (1), intercommunication groove (6) have been seted up to the outside both sides of casing (1), the inside of bucket type storehouse (5) is provided with axis of rotation (7), and the outer end of axis of rotation (7) is connected with pneumatic board (8), hollow groove (9) have been seted up to the inboard of casing (1), and the outer end of casing (1) is provided with seal assembly (10), the inboard of casing (1) is provided with closing plate (11), the top inboard of casing (1) is provided with locking position subassembly (12), and the inboard of locking position subassembly (12) is connected with shaft coupling (13).

2. The anti-corrosion and dampproof protective motor housing according to claim 1, wherein the heat dissipation assembly (4) comprises a socket (401), a first transmission belt (402), a connecting plate (403), first conical teeth (404), second conical teeth (405), second transmission belts (406) and ventilating fans (407), the outer ends of the socket (401) are provided with the first transmission belts (402), the two inner sides of the housing (1) are provided with the connecting plate (403), the outer ends of the connecting plate (403) are connected with the first conical teeth (404), the outer ends of the first conical teeth (404) are connected with the second conical teeth (405), the outer ends of the second conical teeth (405) are connected with the second transmission belts (406), and one side, far away from the second conical teeth (405), of the second transmission belts (406) is connected with the ventilating fans (407).

3. The anti-corrosion and moistureproof protective motor shell according to claim 2, wherein the socket (401) is fixedly sleeved with the motor (2), and the socket (401) drives the first bevel gear (404) to rotate through the first transmission belt (402).

4. The corrosion-resistant and moisture-resistant protective motor housing according to claim 2, characterized in that the first conical teeth (404) are engaged with the second conical teeth (405), and the second conical teeth (405) drive the ventilation fan (407) to rotate by means of the second conveyor belt (406).

5. The anti-corrosion and moistureproof protective motor shell according to claim 1, wherein the rotating shaft (7) drives the pneumatic plates (8) to rotate, and the pneumatic plates (8) are distributed in an array inside the bucket-shaped bin (5).

6. The corrosion-resistant and moisture-resistant protective motor housing according to claim 1, wherein the sealing assembly (10) comprises an exhaust pipe (1001), a sealing valve (1002) and an air-blowing ball (1003), the outer end of the exhaust pipe (1001) is connected with the sealing valve (1002), and the outer end of the sealing valve (1002) is connected with the air-blowing ball (1003).

7. The corrosion and moisture resistant protective motor housing of claim 6, wherein said exhaust tube (1001) is in communication with a hollow channel (9) and said air bulb (1003) is in communication with a sealing valve (1002).

8. The protective motor housing of claim 1, wherein the capture assembly (12) comprises a return spring (1201), a cartridge (1202), a ball (1203), a slot (1204), an engagement rod (1205), a first latch (1206), and a second latch (1207).

9. The anti-corrosion and moisture-proof protective motor housing according to claim 8, wherein the first clamping block (1206) has a size identical to the size of the clamping groove (1204), and the clamping grooves (1204) are distributed in an array on the surface of the housing (1).

10. The corrosion-resistant and moisture-resistant protective motor housing according to claim 8, wherein the return spring (1201) is elastically connected to the holder (1202), and the holder (1202) is U-shaped.