CN219760833U - Motor casing shield installation device - Google Patents

Abstract

The utility model relates to a motor casing dust cover mounting device, which comprises a bottom plate, a top plate, a dust cover storage mechanism, a dust cover edge pressing mechanism and a motor casing pressing mechanism, wherein the dust cover storage mechanism, the dust cover edge pressing mechanism and the motor casing pressing mechanism are sequentially arranged between the bottom plate and the top plate; the device can be automatically install the motor casing air intake department with the shield, improves the packaging efficiency and the installation convenience of shield and motor casing.

Description

Motor casing shield installation device

Technical Field

The utility model relates to a motor shell dust cover mounting device.

Background

Because the motor is easy to inhale dust impurity in the use and influence the motor performance, therefore the installation of shield is generally carried out on the surface of motor casing for avoid the entering of dust when the motor inhales the air, guarantee the inside safe in utilization of stator and rotor of motor.

At present, the installation of the dust cover on the surface of the shell is generally pressed by manual clamping through workers, so that the labor cost is high, the installation efficiency of the dust cover is poor, the hand fatigue of the workers is easily caused after the installation is carried out for a long time, the subsequent installation efficiency of the workers is influenced, and the dust cover is generally produced by casting hard plastic, so that the produced dust cover is also likely to have protruding burrs, and the dust cover is not beneficial to the workers to press and clamp the dust cover onto the shell, so that the installation difficulty of the workers is increased, and the assembly production cost of the dust cover and the shell is increased.

Disclosure of Invention

The utility model mainly solves the technical problems existing in the prior art, thereby providing the motor casing dust cover installation device which is convenient for automatically assembling the dust cover on the surface of the casing, effectively improves the installation efficiency of the dust cover and reduces the installation labor cost of the dust cover.

The utility model relates to a motor casing dust cover mounting device which comprises a bottom plate, a top plate, a dust cover storage mechanism, a dust cover edge pressing mechanism and a motor casing pressing mechanism, wherein the dust cover storage mechanism, the dust cover edge pressing mechanism and the motor casing pressing mechanism are sequentially arranged between the bottom plate and the top plate from bottom to top, the motor casing pressing mechanism comprises a first lifting plate and a first cylinder connected to the top plate and used for driving the first lifting plate to move, an upper pressing die is movably connected to the lower part of the first lifting plate, the dust cover storage mechanism comprises a guide seat used for placing a dust cover, a lower module and a fourth cylinder which is movably arranged in the guide seat and used for driving the lower module to lift, the dust cover edge pressing mechanism comprises a second lifting plate and a fifth cylinder which is connected with the bottom plate and used for driving the second lifting plate to move, the surface of the second lifting plate is slidably provided with an edge pressing hoop used for pressing the edge of the dust cover, a third cylinder used for driving the edge pressing hoop to move is connected to the side of the second lifting plate, and the edge pressing hoop is sleeved outside the guide seat.

Preferably, the first lifter plate surface slip is provided with the slider, and the side of first lifter plate is connected with the second cylinder that is used for driving the slider and slides, and goes up the inside chute that is provided with of slider, chute central authorities activity is provided with the connecting axle that runs through the slider, connecting axle one end is connected with last moulding-die, the other end swing joint gyro wheel of connecting axle, and gyro wheel swing joint is in the chute for the second cylinder can drive the slider and slide the activity on first lifter plate, and then lets the gyro wheel at the inside rotation of slider central chute, and goes up the connecting axle through the different drive of chute both ends height and goes up and down, so that the connecting axle control goes up the moulding-die and carries out press processing, the chute is long waist hole and is provided with the contained angle with between the horizontal plane.

Preferably, a connecting sleeve is arranged outside the upper sliding block, one side of the connecting sleeve is connected with the first lifting plate, the other side of the connecting sleeve is connected with a piston rod of the first air cylinder, so that the upper sliding block can stably slide under the guiding of the connecting sleeve, the problem of deviation in the sliding process of the upper sliding block is avoided, and the first air cylinder can drive the first lifting plate to lift through the connecting sleeve.

Preferably, the guide holder center is provided with the slide hole that is used for placing the shield more than two, the module slides down and sets up inside the slide hole, and the top of module down is provided with the type groove that is used for pressing the shield outside border down, and the below of module down is connected with the fixed plate, fixed plate below swing joint has the spiral wheel for the module down can go up and down the activity in the slide hole inside, and wholly drive the whole module down and go up and down through the lift of fixed plate, so that place the shield on the slide hole of guide holder center, and carry out spacing with the shield through the slide hole, be convenient for press the shield outside into the motor casing through the groove of module top down simultaneously in, and the position quantity of module down corresponds with shield position quantity.

Preferably, the bottom plate top slides and is provided with the lower slider, and the bottom plate side is connected with the fourth cylinder that is used for driving the lower slider to slide, the rotatory wheel in fixed plate below is located the lower slider upper surface and mutually support with the lower slider, be provided with the contained angle between lower slider upper surface and the horizontal plane to drive the fixed plate through rotatory wheel at the different high position of lower slider upper surface and go up and down, and the fourth cylinder then can drive the lower slider and transversely slide, the lower slider lower surface is provided with the track that is used for steadily removing, and the lower slider upper surface is provided with the guide slot that is used for rotatory wheel direction.

Preferably, the edge pressing hoops are provided with more than two hoop holes, the edge pressing hoops are formed around the center of the hoop holes, the edge pressing hoops are slidably arranged on the surface of the second lifting plate, and the side of each edge pressing hoop is connected with a third cylinder, so that the third cylinder can drive the edge pressing hoops to slide on the surface of the second lifting plate and can be used for controlling the formation of the hoop holes through aggregation and separation of the edge pressing hoops, and the edge pressing hoops are provided with two edge pressing hoops and are respectively located on two sides of the upper surface of the second lifting plate.

Preferably, the guide post is arranged above the guide seat, and is embedded into the hoop hole formed by the edge pressing hoops in a surrounding mode and in clearance fit with the hoop hole, so that the guide post above the guide seat can be embedded into the hoop hole formed by the edge pressing hoops in a surrounding mode, the edge pressing hoops can conveniently press the outer side edge of the dust cover positioned in the sliding hole, and one end of the dust cover can be tilted conveniently to be embedded into the motor casing.

Preferably, a limiting block connected with the second lifting plate is arranged above the edge pressing hoop, and the edge pressing hoop is arranged below the limiting block in a sliding manner, so that sliding movement of the edge pressing hoop can be limited and guided through the limiting block, and the edge pressing hoop can slide stably.

Preferably, a shaft lever is connected between the bottom plate and the top plate, the first lifting plate and the second lifting plate are slidably connected in the center of the shaft lever, and the first lifting plate is located above the second lifting plate, so that lifting movement of the first lifting plate and the second lifting plate can be guided through the shaft lever, and stable lifting movement of the first lifting plate and the second lifting plate between the top plate and the bottom plate is facilitated.

Preferably, the top of bottom plate is connected with spacing post, the upper end of spacing post is located the below of first lifter plate, and the tip of spacing post can be dismantled and be connected with the supporting shoe for spacing post limits the lift height of first lifter plate, avoids first lifter plate of first cylinder drive to descend the stroke too much and strike second lifter plate or motor casing, and the supporting shoe then convenient to use person control adjusts the height that first lifter plate can descend, and the while makes things convenient for the producer to select the supporting shoe of corresponding height to adjust the replacement according to the motor casing of different high specifications, and just spacing post is located the outside of second lifter plate.

The beneficial effects of the utility model are as follows: the lower sliding block in the guide seat is used for placing the dust cover and limiting, one side of the dust cover is pressed by the edge pressing hoop driven by the descending of the second lifting plate, the lower pressing die is enabled to approach the guide seat by the descending of the first lifting plate, so that the motor casing is conveniently pressed by the lower pressing die driven by the second cylinder, the dust cover is conveniently embedded into the motor casing, the pressing strength of the motor casing is conveniently controlled by the sectional descending mode of the lower pressing die, the motor casing is prevented from being contacted with the dust cover by the excessive pressure, and the damage to the motor casing or the dust cover is avoided, and the integrity of the dust cover and the motor casing after being assembled is effectively ensured;

meanwhile, the lifting of the lower module driven by the fourth cylinder is used for controlling the dust cover to be clamped into the motor casing completely, so that the device can automatically clamp and fix the dust cover onto the surface of the motor casing, the labor intensity of workers in manually pressing the dust cover into the motor casing is effectively reduced, the assembly efficiency of the motor casing and the dust cover is greatly improved, the labor cost required by assembling the dust cover and the motor casing is effectively reduced, the assembly efficiency and the installation convenience of the dust cover are improved, and meanwhile, the problems of missing, misplacement, incomplete clamping and the like which possibly occur due to careless manual assembly are effectively avoided, and the stability and the firmness of the assembled dust cover and the motor casing are ensured.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the overall structure of a motor housing dust cap mounting device according to the present utility model;

FIG. 2 is a view showing the overall construction of the motor housing dust cap mounting device in another direction;

FIG. 3 is a view showing a first lifter plate connection structure in a motor housing dust cap mounting apparatus according to the present utility model;

FIG. 4 is a view showing a second lifter plate connection structure in the motor housing dust cap mounting apparatus of the present utility model;

FIG. 5 is a diagram showing the connection structure of a guide holder in a motor housing dust cap mounting device according to the present utility model;

FIG. 6 is a front plan view of a motor housing dust cap mounting device of the present utility model;

FIG. 7 is a plan side view of a motor housing dust cap mounting device of the present utility model;

fig. 8 is a plan view of the motor housing and dust cap.

In the figure: the device comprises a first cylinder 1, a first lifting plate 11, a connecting sleeve 12, a second cylinder 2, an upper sliding block 21, a chute 211, an upper pressing die 22, a connecting shaft 23, a roller 24, a third cylinder 3, a side pressing hoop 31, a limiting block 311, a hoop hole 32, a fourth cylinder 4, a lower sliding block 41, a fifth cylinder 5, a second lifting plate 51, a fixed plate 6, a guide seat 61, a sliding block 611, a guide post 612, a lower module 62, a shaped groove 621, a rotating wheel 63, a bottom plate 7, a top plate 71, a limiting post 72, a shaft lever 73, a motor casing 8, a dust cover 81 and a clamping hole 82.

Detailed Description

The preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present utility model.

The dust cover mounting device for the motor casing as shown in fig. 1 to 8 comprises a bottom plate 7, a top plate 71, and a dust cover storage mechanism (not labeled), a dust cover edge pressing mechanism (not labeled) and a motor casing pressing mechanism (not labeled) which are sequentially arranged between the bottom plate 7 and the top plate 71 from bottom to top, wherein the motor casing pressing mechanism comprises a first lifting plate 11 and a first cylinder 1 connected to the top plate 71 and used for driving the first lifting plate 11 to move, an upper pressing die 22 is movably connected to the lower part of the first lifting plate 11, the dust cover storage mechanism comprises a guide seat 61 used for placing the dust cover 81, a lower module 62 movably arranged in the guide seat 61, and a fourth cylinder 4 arranged below the guide seat 61 and used for driving the lower module 62 to lift, the dust cover edge pressing mechanism comprises a second lifting plate 51, and a fifth cylinder 5 connected with the bottom plate 7 and used for driving the second lifting plate 51 to move, the surface of the second lifting plate 51 is slidably provided with a pressing hoop 31 used for pressing the edge of the dust cover 81, the side hoop of the second lifting plate 51 is connected with the third cylinder 31 used for driving the pressing edge of the pressing hoop to move, and the third cylinder 31 is sleeved outside the guide seat 31.

The surface of the first lifting plate 11 is slidably provided with an upper sliding block 21, the side of the first lifting plate 11 is connected with a second air cylinder 2 for driving the upper sliding block 21 to slide, a chute 211 is arranged in the upper sliding block 21, a connecting shaft 23 penetrating through the upper sliding block 21 is movably arranged in the center of the chute 211, one end of the connecting shaft 23 is connected with an upper pressing die 22, the other end of the connecting shaft 23 is movably connected with a roller 24, and the roller 24 is movably connected in the chute 211, so that the second air cylinder 2 can drive the upper sliding block 21 to slide on the first lifting plate 11, the roller 24 can rotate in the chute 211 in the center of the upper sliding block 21, and the connecting shaft 23 is driven to lift through the heights of the two ends of the chute 211 so that the connecting shaft 23 can control the upper pressing die 22 to press, and the chute 211 is a long waist-shaped hole and an included angle is formed between the chute 211 and a horizontal plane.

The outside of the upper sliding block 21 is provided with a connecting sleeve 12, one side of the connecting sleeve 12 is connected with the first lifting plate 11, the other side of the connecting sleeve 12 is connected with a piston rod of the first air cylinder 1, so that the upper sliding block 21 can stably slide under the guiding of the connecting sleeve 12, the problem of deviation in the sliding process of the upper sliding block 21 is avoided, and the first air cylinder 1 can drive the first lifting plate 11 to lift through the connecting sleeve 12.

The guide holder 61 central authorities are provided with the slide hole 611 that is used for placing shield 81 more than two, lower module 62 slides and sets up in slide hole 611 inside, and the top of lower module 62 is provided with the groove 621 that is used for pressing the shield 81 outside, and the below of lower module 62 is connected with fixed plate 6, fixed plate 6 below swing joint has the capstan 63 for lower module 62 can go up and down the activity in slide hole 611 inside, so that place shield 81 on slide hole 611 at guide holder 61 central authorities, and carry out spacing with shield 81 through slide hole 611, simultaneously be convenient for press the shield 81 outside into motor casing 8 through the groove 621 of lower module 62 top, and the position quantity of lower module 62 corresponds with shield 81 position quantity.

The bottom plate 7 top slip is provided with down slider 41, and bottom plate 7 side is connected with the fourth cylinder 4 that is used for driving slider 41 to slide, fixed plate 6 below revolver 63 is located slider 41 upper surface and mutually support with slider 41 down, be provided with the contained angle between slider 41 upper surface and the horizontal plane to drive fixed plate 6 through revolver 63 at the different high position of slider 41 upper surface and go up and down, and fourth cylinder 4 then can drive slider 41 and transversely slide down, slider 41 lower surface is provided with the track (not annotating) that is used for steady removal, and slider 41 upper surface is provided with the guide slot (not annotating) that is used for revolver 63 to lead down.

The blank holder hoop 31 is provided with more than two, and the center that blank holder hoop 31 encircled the setting forms hoop hole 32, blank holder hoop 31 slides and sets up on second lifter plate 51 surface, and the side of every blank holder hoop 31 all is connected with third cylinder 3 for third cylinder 3 can drive blank holder hoop 31 and slide the activity at second lifter plate 51 surface to be used for controlling hoop hole 32's formation or not through the polymerization and the separation of blank holder hoop 31, blank holder hoop 31 is provided with two and is located the both sides of second lifter plate 51 upper surface respectively.

The guide post 612 is disposed above the guide holder 61, the guide post 612 is embedded into the hoop hole 32 surrounded by the edge pressing hoop 31 and is in clearance fit with the hoop hole 32, so that the guide post 612 above the guide holder 61 can be embedded into the hoop hole 32 surrounded by the edge pressing hoop 31, the edge pressing hoop 31 can press the outer side edge of the dust cover 81 located in the sliding hole 611, and one end of the dust cover 81 can be tilted conveniently to be embedded into the motor casing 8.

The limit block 311 connected with the second lifting plate 51 is arranged above the edge pressing hoop 31, and the edge pressing hoop 31 is slidably arranged below the limit block 311, so that the sliding movement of the edge pressing hoop 31 can be limited and guided by the limit block 311, and the edge pressing hoop 31 can slide smoothly.

The bottom plate 7 is connected with the axostylus axostyle 73 with the roof 71 between, first lifter plate 11 and second lifter plate 51 board sliding connection are in the central authorities of axostylus axostyle 73, first lifter plate 11 is located the top of second lifter plate 51 for the lift removal of first lifter plate 11 and second lifter plate 51 can be guided through axostylus axostyle 73, makes things convenient for first lifter plate 11 and second lifter plate 51 steady lift activity between roof 71 and bottom plate 7.

The top of bottom plate 7 is connected with spacing post 72, the upper end of spacing post 72 is located the below of first lifter plate 11, and the tip of spacing post 72 can be dismantled and be connected with supporting shoe (not annotate), make spacing post 72 limit the lift height of first lifter plate 11, avoid first cylinder 1 drive first lifter plate 11 to descend the stroke too much and strike second lifter plate 51 or motor casing 8, and the supporting shoe then be convenient for the user control adjust the height that first lifter plate 11 can descend, simultaneously make things convenient for the producer to select the supporting shoe of corresponding height to adjust the replacement according to motor casing 8 of different high specifications, and spacing post 72 is located the outside of second lifter plate 51.

The first cylinder 1, the second cylinder 2, the third cylinder 3, the fourth cylinder 4 and the fifth cylinder 5 may be hydraulic cylinders such as cylinders or oil cylinders, or may be other power sources with driving capability, such as motors.

When the dust cover 81 and the motor casing 8 are required to be assembled through the motor casing dust cover installation device, firstly, the dust cover 81 is placed on the guide seat 61 in the dust cover storage mechanism, the dust cover 81 is limited through the guide pillar above the guide seat 61, namely, the dust cover 81 is placed above the sliding hole 611 on the upper surface of the guide pillar 612, and the dust cover 81 is positioned through the sliding hole 611;

then the fifth cylinder 5 is started to drive the second lifting plate 51 to descend, and the hoop hole 32 formed by encircling the edge pressing hoop 31 is sleeved outside the guide post 612 above the guide seat 61, so that the edge pressing hoop 31 on the surface of the second lifting plate 51 can be pressed on the outer side of the dust cover 81 to enable the inner side of the dust cover 81 to tilt;

secondly, the motor shell 8 is attached and placed above the dust cover 81, one side of the dust cover 81 is embedded into a clamping hole 82 on the surface of the motor shell 8 for installing the dust cover 81, the first air cylinder 1 is started, the first air cylinder 1 drives the first lifting plate 11 to descend through the connecting sleeve, the descending height of the first lifting plate 11 is limited through the limiting column 72, the upper pressing die 22 below the first lifting plate 11 is just above the motor shell 8, and the upper pressing die 22 is just 2 mm-3 mm above the motor shell 8;

then the second cylinder 2 drives the upper slide block 21 to slide, and because an included angle is formed between the chute 211 in the upper slide block 21 and the horizontal plane, the roller 24 at the upper end of the connecting shaft 23 is positioned at different horizontal heights in the chute 211, and the connecting shaft 23 is driven to lift through the difference of the heights of the roller 24 to control the lower pressing die 22 to press the motor casing 8, so that one end of the dust cover 81 can be completely embedded into the clamping hole 82 on the surface of the motor casing 8, and the motor casing 8 can be limited on the upper surface of the guide seat 61;

then the third cylinder 3 starts and drives the side pressing hoop 31 to open, the side pressing hoop 31 releases the pressing of the side edge of the dust cover 81, and starts the fourth cylinder 4, the fourth cylinder 4 drives the lower sliding block 41 to slide, and as an included angle is formed between the upper surface of the lower sliding block 41 and the horizontal plane, the rotary wheel 63 below the fixed plate 6 is lifted according to different horizontal heights of the surface of the lower sliding block 41, the lower sliding block 41 is used for lifting the fixed plate 6 and the lower module 62 through the support of the rotary wheel 63, the outer side of the dust cover 81 positioned in the sliding hole 611 is completely clamped and embedded into the motor casing 8 under the action of the lower module 62, the assembly of the dust cover 81 and the motor casing 8 is completed, and the outer side of the dust cover 81 is conveniently pressed into the motor casing 8 through the groove 621 of the lower module 62.

After the dust cover 81 is assembled with the motor casing 8, the fourth cylinder 4 resets and drives the lower slide block 41 to slide, so that the rotary wheel 63 and the fixed plate 6 connected to the rotary wheel 63 descend, and synchronously drives the lower module 61 connected with the fixed plate 6 to descend and reset; and then the second cylinder 2 resets and drives the upper slide block 21 to slide, so that the roller 24 at the upper end of the connecting shaft 23 ascends and synchronously drives the upper pressing die 22 connected with the connecting shaft 23 to ascend and reset; then the first cylinder 1 resets and lifts the first lifting plate 11 through the connecting sleeve 12, so that the upper pressing die 22 movably connected below the first lifting plate 11 is far away from the motor casing 8; then the fifth cylinder 5 is started and drives the second lifting plate 51 to lift, the third cylinder 3 is started and controls the edge pressing hoop 31 to reset and shrink again, the edge pressing hoop 31 surrounds the hoop hole 32, then the motor casing 8 which is arranged above the guide seat 61 and assembled with the dust cover 81 can be taken out, and the preparation work of the subsequent press fitting of the dust cover 81 and the motor casing 8 of the motor casing dust cover installation device is completed.

The beneficial effects of the utility model are as follows: the lower sliding block in the guide seat is used for placing the dust cover and limiting, one side of the dust cover is pressed by the edge pressing hoop driven by the descending of the second lifting plate, the lower pressing die is enabled to approach the guide seat by the descending of the first lifting plate, so that the motor casing is conveniently pressed by the lower pressing die driven by the second cylinder, the dust cover is conveniently embedded into the motor casing, the pressing strength of the motor casing is conveniently controlled by the sectional descending mode of the lower pressing die, the motor casing is prevented from being contacted with the dust cover by the excessive pressure, and the damage to the motor casing or the dust cover is avoided, and the integrity of the dust cover and the motor casing after being assembled is effectively ensured;

meanwhile, the lifting of the lower module driven by the fourth cylinder is used for controlling the dust cover to be clamped into the motor casing completely, so that the device can automatically clamp and fix the dust cover onto the surface of the motor casing, the labor intensity of workers in manually pressing the dust cover into the motor casing is effectively reduced, the assembly efficiency of the motor casing and the dust cover is greatly improved, the labor cost required by assembling the dust cover and the motor casing is effectively reduced, the assembly efficiency and the installation convenience of the dust cover are improved, and meanwhile, the problems of missing, misplacement, incomplete clamping and the like which possibly occur due to careless manual assembly are effectively avoided, and the stability and the firmness of the assembled dust cover and the motor casing are ensured.

The foregoing is merely illustrative of specific embodiments of the present utility model, and the scope of the utility model is not limited thereto, but any changes or substitutions that do not undergo the inventive effort should be construed as falling within the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope defined by the claims.

Claims (10)

1. The utility model provides a motor casing shield installation device which characterized in that: including bottom plate and roof, and from down up setting gradually the shield deposit mechanism between bottom plate and roof, shield blank holder mechanism and motor casing press the mechanism, motor casing press the mechanism and include first lifter plate, and connect the first cylinder that is used for driving first lifter plate and remove on the roof, and the below swing joint of first lifter plate goes up the moulding-die, shield deposit the mechanism including being used for placing the guide holder of shield, and the activity sets up the inside lower module of guide holder, and set up the fourth cylinder that is used for driving the lower module to go up and down below the guide holder, shield blank holder mechanism includes the second lifter plate, and links to each other with the bottom plate and be used for driving the fifth cylinder that the second lifter plate removed, and second lifter plate surface slip is provided with the blank holder that is used for pressing the shield border, and the side of second lifter plate is connected with the third cylinder that is used for driving the blank holder and removes, and the blank holder cup joints outside the guide holder.

2. A motor housing dust cover mounting apparatus as set forth in claim 1 wherein: the first lifter plate surface slip is provided with the slider, and the side of first lifter plate is connected with the second cylinder that is used for driving the slider to slide, and goes up the inside chute that is provided with of slider, chute central authorities activity is provided with the connecting axle that runs through the slider, connecting axle one end is connected with last moulding-die, and the other end swing joint gyro wheel of connecting axle, and gyro wheel swing joint is in the chute.

3. A motor housing dust cover mounting apparatus as set forth in claim 2 wherein: the outside of the upper sliding block is provided with a connecting sleeve, one side of the connecting sleeve is connected with the first lifting plate, and the other side of the connecting sleeve is connected with a piston rod of the first cylinder.

4. A motor housing dust cover mounting apparatus as set forth in claim 1 wherein: the guide holder is provided with more than two slide holes for placing the dust cover at the center, the lower module is arranged inside the slide holes in a sliding mode, a groove for pressing the outer side edge of the dust cover is formed in the upper portion of the lower module, a fixing plate is connected to the lower portion of the lower module, and a rotary wheel is movably connected to the lower portion of the fixing plate.

5. The motor housing dust cover mounting apparatus of claim 4, wherein: the lower sliding block is arranged above the bottom plate in a sliding manner, a fourth air cylinder for driving the lower sliding block to slide is connected to the side of the bottom plate, and a rotary wheel below the fixed plate is positioned on the upper surface of the lower sliding block and matched with the lower sliding block.

6. A motor housing dust cover mounting apparatus as set forth in claim 1 wherein: the blank holder hoop is provided with more than two, and the blank holder hoop forms the hoop hole around the central authorities that set up, the blank holder hoop slides and sets up on the second lifter plate surface, and the side of every blank holder hoop all is connected with the third cylinder.

7. The motor housing dust cover mounting apparatus of claim 6, wherein: the guide post is arranged above the guide seat, and is embedded into a hoop hole formed by the edge pressing hoops in a surrounding mode and is in clearance fit with the hoop hole.

8. The motor housing dust cover mounting apparatus of claim 6, wherein: the limit block connected with the second lifting plate is arranged above the edge pressing hoop, and the edge pressing hoop is arranged below the limit block in a sliding mode.

9. A motor housing dust cover mounting apparatus as set forth in claim 1 wherein: the bottom plate is connected with the axostylus axostyle between the roof, first lifter plate and second lifter plate sliding connection are in the central authorities of axostylus axostyle, first lifter plate is located the top of second lifter plate.

10. The motor housing dust cover mounting apparatus of claim 9, wherein: the top of bottom plate is connected with spacing post, the upper end of spacing post is located the below of first lifter plate, and the tip of spacing post can be dismantled and be connected with the supporting shoe.