CN114244040A - Motor magnetic shoe auxiliary installation device - Google Patents

Abstract

The invention relates to an auxiliary mounting device, in particular to an auxiliary mounting device for a motor magnetic shoe. The technical problem to be solved is as follows: the motor magnetic shoe auxiliary mounting device can replace manual work to evenly coat glue on the inner wall of the motor shell. The technical scheme of the invention is as follows: an auxiliary mounting device for a motor magnetic shoe comprises a first conveyor, a first baffle, a first fixing plate, a first fixing frame, a first fixing rod, a second connecting rod, a second conveyor, a second baffle, a second fixing plate and the like; the device is provided with two first conveyors, first baffles are fixed on two sides of the conveyor belts of the two first conveyors, and a first fixing plate is fixed at the foremost end of the top of each first baffle. The invention can replace manpower to uniformly coat glue inside the motor, thereby saving manpower and ensuring that the magnetic shoe and the motor are bonded more firmly; when glue is coated in the motor, the rotating disc can drive the motor to rotate.

Description

Motor magnetic shoe auxiliary installation device

Technical Field

The invention relates to an auxiliary mounting device, in particular to an auxiliary mounting device for a motor magnetic shoe.

Background

With the development of society, the permanent magnet direct current motor is more and more widely used and widely applied to various household appliances, power equipment and the like. The installation of the inner magnetic shoe of the permanent magnet direct current motor is mostly fixed by a gluing paster, and the gluing process is very important for the quality of the paster and the normal work of the motor.

The installation of current motor magnetic shoe is generally that the manual work uses glue to paint on motor casing inner wall or magnetic shoe lateral wall, then glue the magnetic shoe on the motor casing inner wall again, during manual operation, the workman need rely on the use amount and the rubber coating volume of experience control glue, produce the rubber coating volume more easily and be inadequately or the inhomogeneous problem of rubber coating, finally lead to product quality not to obtain the assurance, it is big to adopt artifical rubber coated mode operation degree of difficulty, low in production efficiency, the manual work is paintd glue and may be produced the not enough or the inhomogeneous problem of rubber coating and lead to the magnetic shoe motor that drops and damage.

Therefore, the motor magnetic shoe auxiliary mounting device which can automatically and uniformly coat glue on the inner wall of the motor shell and can automatically take out the motor is needed.

Disclosure of Invention

In order to overcome the defects that the manual gluing mode is difficult to operate and low in production efficiency, and the problem that glue is not enough in glue amount or the gluing is not uniform during manual gluing can cause the damage of a magnetic shoe falling motor, the technical problem to be solved is as follows: the utility model provides a can be automatically with glue evenly paint at the motor casing inner wall and can be automatically with the supplementary installation device of motor magnetic shoe that the motor took out.

The technical scheme of the invention is as follows: an auxiliary mounting device for a motor magnetic shoe comprises a first conveyor, a first baffle, a first fixing plate, a first fixing frame, a first fixing rod, a second connecting rod, a second conveyor, a second baffle, a second fixing plate, a third fixing plate, a partition plate, a second fixing frame, a straight gear, a second slider, a third spring, a fourth fixing plate, a first supporting column, a door-shaped upright column, a second fixing rod, a second supporting column, an automatic gluing mechanism and a clamping mechanism, wherein the device is provided with two first conveyors, the first baffle is fixed on bases at two sides of a conveyor belt of the two first conveyors, the foremost end of the top of each first baffle is fixed with a first fixing plate, a second conveyor is arranged between the two first conveyors, the supporting bases at two sides of the conveyor belt of the second conveyor are fixed with two second baffles, and the foremost end of each second baffle is fixed with a second fixing plate, a third fixing plate is fixed between the two second fixing plates, a partition plate is fixedly connected between the third fixing plates, two grooves are symmetrically formed in the front end of the third fixing plate, a second sliding block is connected in each groove in a sliding manner, a third spring is fixedly connected to the rear side wall of each second sliding block, the other end of each third spring is fixed on the inner wall of the groove in the front end of the third fixing plate, a second fixing frame is fixed at the front end of the outer side of each second fixing plate, a straight gear is rotatably connected in each second fixing frame, a fourth fixing plate is fixedly connected to the outer side of each second fixing frame, a first supporting column is fixed at the bottom of each fourth fixing plate, a plurality of second supporting columns are arranged in front of the first conveyor, a second fixing rod is fixed at the tops of the second supporting columns, and the tops of the second fixing rods are fixedly connected with the bottoms of the first supporting columns, a door-shaped stand column is fixed in front of a first support column on a second fixing rod, a first fixing frame is arranged in front of two first conveyors, a first fixing rod is fixed on the inner side of the bottom of the first fixing frame, a second connecting rod is fixed in the middle of the inner side of the first fixing frame, an automatic gluing mechanism is arranged on the first fixing rod and the door-shaped stand column and can automatically glue the motor, a clamping mechanism is arranged between the first fixing frame and a fourth fixing plate, and the clamping mechanism can automatically clamp the glued motor out of the automatic gluing mechanism.

In addition, particularly preferably, the automatic glue coating mechanism comprises a placement platform, a second motor, a rotary disc, arc-shaped limiting plates, a glue storage barrel, a glue outlet, a glue guide pipe, a glue spraying gun, a third fixing rod, a second sliding plate, a third sliding block and a fourth spring, the placement platform is arranged in front of each first conveyor, the second motor is arranged above the placement platform, the rotary disc is fixed at the top of an output shaft of the second motor, the arc-shaped limiting plates are arranged outside the rotary disc, the glue storage barrel is arranged in the middle of the first fixing rod, the glue outlet is arranged at two sides of the bottom of the glue storage barrel, the glue outlets at two sides are connected with the glue guide pipe, the other side of the glue guide pipe is connected to the glue spraying gun, sliding grooves are formed in the door-shaped upright posts and the second fixing rod, the third sliding block and the second sliding plate are connected in the sliding grooves formed in the door-shaped upright posts and the second fixing rod, the third sliding block is fixed on the second sliding plate, a fourth spring is fixed on the front side wall of the third sliding block, the other side of the fourth spring is fixed on the inner side wall of a sliding groove formed in the second fixing rod, a third fixing rod is fixed on the second sliding plate, and the glue spraying gun is sleeved on the third fixing rod.

In addition, particularly preferably, the clamping mechanism comprises a first motor, a screw rod, a fourth fixed rod, a first sliding frame, a second sliding frame, a moving block, a nut, a Y-shaped clamp, a fourth sliding block, a fifth spring, a connecting spring, a three-step telescopic rod, a sixth spring, a fixed block, a fifth sliding block, a sixth sliding block and a seventh spring, the first motor is fixed at the top of the first fixed frame, the screw rod is connected to an output shaft of the first motor, the bottom of the screw rod is rotatably connected with the second connecting rod, the screw rod is provided with the nut, the outer side of the nut is sleeved with the moving block, the front end of the moving block is fixedly connected with the fourth fixed rod, the fourth fixed rod is sleeved with the first sliding frame and the second sliding frame, the first sliding frame and the second sliding frame are both fixed with the Y-shaped clamp, the two Y-shaped clamps are connected through the connecting spring, and the rear end of the Y-shaped clamp is provided with two grooves, the groove is connected with a fourth sliding block in a sliding mode, the fourth sliding block is connected with the Y-shaped clamp through a fifth spring, a fifth sliding block is arranged at the position, close to the first fixing frame, of the front end of the Y-shaped clamp, sixth sliding blocks are fixed to the two sides of the fifth sliding block, a seventh spring is fixed to the outer side wall of the fifth sliding block, the other side of the seventh spring is fixed to the Y-shaped clamp, a fixing block is connected to the bottom of the fifth sliding block in a sliding mode, the fixing block is fixedly connected with the Y-shaped clamp, a third-order telescopic rod is fixed to the outer side of the fixing block, the other end of the third-order telescopic rod is connected with the fourth fixing plate and the second sliding plate in a sliding mode, a sixth spring is sleeved on the third-order telescopic rod, one end of the sixth spring is connected with the fixing block, and the other end of the sixth spring is connected with the outermost side of the third-order telescopic rod.

In addition, particularly preferably, the device further comprises a first fixing column, a first spring, a first fixing frame, a first sliding plate, a rotating shaft, a first connecting rod, a second fixing frame, a pushing block, a second spring and a first sliding block, wherein the foremost end of each first fixing plate is fixed with one first fixing column, a sliding chute is formed in the first fixing column, the sliding connecting rod in the sliding chute is provided with one first sliding plate, the first sliding plate is fixed with the first spring, the other end of the first spring is fixed on the inner wall of the sliding chute on the first fixing column, the first fixing frame is fixed at the position between the two first fixing columns on the first sliding plate, the rotating shaft is rotatably connected in the middle of the first fixing frame, the first connecting rod is fixedly connected on the rotating shaft, the other end of the first connecting rod is fixed on the second fixing frame, the pushing block is rotatably connected in the second fixing frame through the rotating shaft, the bottom of the pushing block is provided with a sliding groove, a first sliding block is connected in the sliding groove in the bottom of the pushing block in a sliding mode, and the first sliding block is connected with the pushing block through a second spring.

In addition, it is particularly preferred that the clamping fixture further comprises a first straight rack, a third fixing frame, a second straight rack, a seventh sliding block and an eighth spring, wherein the first straight rack is fixed on the rear wall of the Y-shaped clamp, a sliding groove is formed in the second fixing frame, the second fixing frame is connected with the third fixing frame in a sliding mode, two second straight racks are fixed on the third fixing frame, the sliding groove is formed in the front end of the second straight rack, the seventh sliding block is connected in the sliding groove in the front end of the second straight rack, and the seventh sliding block is connected with the second straight rack through the eighth spring.

In addition, it is particularly preferred that the air-blowing fan further comprises second fixing columns, third connecting rods, air-blowing fans and air outlets, wherein one second fixing column is fixed in the middle of the top wall of each of the two second fixing plates close to the front, the two second fixing columns are connected through the two third connecting rods, the two air-blowing fans are fixed at the bottoms of the third connecting rods, and one air outlet is fixed below each air-blowing fan on each third connecting rod.

Compared with the prior art, the invention has the following advantages: the invention can replace manpower to uniformly coat glue inside the motor, thereby saving manpower and ensuring that the magnetic shoe and the motor are bonded more firmly; when glue is coated in the motor, the rotating disc can drive the motor to rotate, and the glue spraying gun can automatically coat the glue in the motor and can uniformly coat the glue; the motor coated with the glue does not need to be manually taken out by a person, and the clamping mechanism can automatically clamp the motor out; the motor does not need to be manually put into the rotating disc, and the clamping mechanism can drive one pushing block to push the next motor into the rotating disc when rising; when the clamping mechanism rises, the first straight rack can enable the straight gear to rotate, the third fixing frame and the seventh sliding block can push the motor coated with the glue backwards, and the clamping mechanism cannot be influenced to drive the next motor to rise; the seventh sliding block pushes the motor backwards to push the motor right below the air outlet, and the glue in the motor can be quickly solidified by the air blown by the air blowing fan; when the seventh sliding block pushes the next motor to reach the lower part of the air outlet, the well-made motor falls into the second conveyor and is sent out backwards by the second conveyor.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a second conveyor and a bracket according to the present invention.

Fig. 3 is a schematic perspective view of a third fixing plate according to the present invention.

Fig. 4 is a schematic perspective view of a fourth fixing plate according to the present invention.

Fig. 5 is a schematic perspective view of the front of the first conveyor of the present invention.

Fig. 6 is a schematic perspective view of a first conveyor according to the present invention.

Fig. 7 is a schematic perspective view of a first fixing plate according to the present invention.

Fig. 8 is a schematic perspective view of the rotary disk of the present invention.

Fig. 9 is a schematic perspective view of the first fixing frame and the glue applying mechanism of the present invention.

Fig. 10 is a schematic perspective view of the clamping mechanism of the present invention.

Fig. 11 is a schematic perspective view of a fourth fixing rod according to the present invention.

Fig. 12 is a schematic perspective view of the third-order telescopic rod and the fifth slider of the present invention.

Fig. 13 is a schematic perspective view of the clip of the present invention.

Fig. 14 is a schematic perspective view of a third fixing frame according to the present invention.

Fig. 15 is a schematic perspective view of the blower fan according to the present invention.

In the figure: 1. a first conveyor 101, a first baffle plate 102, a first fixing plate 103, a first fixing column 104, a first spring 105, a first fixing frame 1051, a first sliding plate 1052, a rotating shaft 106, a first connecting rod 107, a second fixing frame 108, a pushing block 1081, a second spring 1082, a first sliding block 109, a first fixing frame 110, a first fixing rod 111, a second connecting rod 112, a first motor 113, a screw rod 2, a second conveyor 2001, a second baffle plate 201, a second fixing plate 202, a third fixing plate 203, a baffle plate 204, a second fixing frame 205, a straight gear 206, a second sliding block 2061, a third spring 207, a fourth fixing plate 208, a first supporting column 209, a door-shaped upright column 210, a second fixing rod 211, a second limiting plate 3, a placing table 301, a second motor 302, a rotating disc 303, an arc-shaped limiting plate, 4. glue storage barrel 401, glue outlet 402, glue guide tube 403, glue spraying gun 404, third fixing rod 405, second sliding plate 406, third sliding block 407, fourth spring 5, fourth fixing rod 501, first sliding frame 502, second sliding frame 503, moving block 5031, nut 504, Y-shaped clamp 5041, fourth sliding block 5042, fifth spring 5043, connecting spring 505, third-order telescopic rod 506, sixth spring 507, fixing block 508, fifth sliding block 509, sixth sliding block 510, seventh spring 511, first straight rack, 6, third fixing frame 601, second straight rack 602, seventh sliding block 6021, eighth spring 7, second fixing column 701, third connecting rod 702, blowing fan 703, air outlet 703 and air outlet 509.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Example 1

An auxiliary mounting device for a motor magnetic shoe is disclosed, as shown in fig. 1-6 and fig. 8-13, comprising a first conveyor 1, a first baffle 101, a first fixing plate 102, a first fixing frame 109, a first fixing rod 110, a second connecting rod 111, a second conveyor 2, a second baffle 2001, a second fixing plate 201, a third fixing plate 202, a partition plate 203, a second fixing frame 204, a spur gear 205, a second slider 206, a third spring 2061, a fourth fixing plate 207, a first supporting column 208, a door-shaped column 209, a second fixing rod 210, a second supporting column 211, an automatic glue coating mechanism and a clamping mechanism, wherein the device is provided with two first conveyors 1, the first baffle 101 is fixed on the bases at two sides of the conveyor belt of the two first conveyors 1, the first baffle 101 can prevent the motor from falling from two sides of the first conveyor 1 in the conveying process, the foremost end of the top of each first baffle 101 is fixed with one first fixing plate 102, the first fixing plates 102 are L-shaped, two first fixing plates 102 on the same first conveyor 1 are opposite to each other, a second conveyor 2 is arranged between the two first conveyors 1, two second baffles 2001 are fixed on supporting bases on two sides of a conveyor belt on the second conveyor 2, the second baffles 2001 can prevent a motor from falling from two sides of the second conveyor 2 in the process of sending out, a second fixing plate 201 is fixed at the foremost end of each second baffle 2001, a third fixing plate 202 is fixed between the two second fixing plates 201, the rear side of the third fixing plate 202 is an inclined plane, the rear side of the third fixing plate 202 is just connected with the second conveyor 2, a partition plate 203 is fixedly connected in the middle of the third fixing plate 202, the distance between the partition plate 203 and each second fixing plate 201 can contain the next motor, two grooves are symmetrically formed at the foremost end of the third fixing plate 202, a second sliding block 206 is slidably connected in each groove, the second sliding block 206 can just retract into the groove on the third fixing plate 202 completely, a third spring 2061 is fixedly connected on the rear side wall of the second sliding block 206, the other end of the third spring 2061 is fixed on the inner wall of the groove at the front end of the third fixing plate 202, the third spring 2061 can push out the second sliding block 206 retracted into the groove, a second fixing frame 204 is fixed at the front end of the outer side of each second fixing plate 201, a spur gear 205 is rotatably connected in each second fixing frame 204, a fourth fixing plate 207 is fixedly connected at the outer side of each second fixing frame 204, a vertical sliding groove is formed in the fourth fixing plate 207, a first supporting column 208 is fixed at the bottom of each fourth fixing plate 207, a plurality of second supporting columns 211 are arranged in front of the first conveyor 1, a second fixing rod 210 is fixed at the tops of the second supporting columns 211, the inner side surface of a second fixed rod 210 is provided with a sliding groove, the top of the second fixed rod 210 is fixedly connected with the bottom of a first supporting column 208, the front of the first supporting column 208 on the second fixed rod 210 is fixed with a door-shaped upright column 209, the cross rod of the door-shaped upright column 209 is provided with a sliding groove, the front of two first conveyors 1 is provided with a first fixed frame 109, the upper part of the first fixed frame 109 is narrow and the lower part of the first fixed frame 109 is wide, the outer side wall of the first fixed frame 109 is provided with a sliding groove, the inner side of the bottom of the first fixed frame 109 is fixed with a first fixed rod 110, the middle part of the first fixed rod 110 is wider, the middle part of the inner side of the first fixed frame 109 is fixed with a second connecting rod 111, the middle part of the second connecting rod 111 is provided with a groove, an automatic glue coating mechanism is arranged on the first fixed rod 110 and the door-shaped upright column 209 and can automatically coat glue to the motor, a clamping mechanism is arranged between the first fixed frame 109 and a fourth fixed plate 207, the clamping mechanism can automatically clamp the motor coated with the glue out of the automatic glue coating mechanism.

Before the work, fill with glue in gluing the bucket earlier, fixture rises to the highest point, on two first conveyers 1 will be placed the motor of magnetic shoe, first conveyer 1 is delivered the motor to the front end, the artifical motor that will place the foremost pushes away among the rubber coating mechanism, after the rubber coating mechanism scribbled glue, fixture descends to loosen the motor when the motor that will do presss from both sides to rise to the highest point, then fixture descends again and presss from both sides next motor of scribbling glue, so circulation is reciprocal, can both scribble glue with the motor inside at every turn, then take out the motor of scribbling glue automatically again, realize the inside automatic rubber coating of motor and the function of sending out the motor automatically.

Example 2

On the basis of embodiment 1, as shown in fig. 8-9, the automatic glue coating mechanism includes a placement platform 3, a second motor 301, a rotating disc 302, an arc-shaped limiting plate 303, a glue storage barrel 4, a glue outlet 401, a glue guiding pipe 402, a glue spraying gun 403, a third fixing rod 404, a second sliding plate 405, a third sliding block 406 and a fourth spring 407, the placement platform 3 is disposed in front of each first conveyor 1, the placement platform 3 is cylindrical, the second motor 301 is disposed above the placement platform 3, the rotating disc 302 is fixed on the top of the output shaft of the second motor 301, after the second motor 301 is started, the rotating disc 302 can rotate along with the output shaft of the second motor 301, the arc-shaped limiting plate 303 is disposed outside the rotating disc 302, the arc-shaped limiting plate 303 can prevent the motor from falling off the rotating disc 302, the glue storage barrel 4 is mounted in the middle of the first fixing rod 110, glue is stored in the glue storage barrel 4, two sides of the bottom of the glue storage barrel 4 are provided with glue outlets 401, glue can flow out from the glue outlets 401, the glue outlets 401 on two sides are connected with a glue guide pipe 402, the other side of the glue guide pipe 402 is connected with a glue spraying gun 403, the glue spraying gun 403 can coat the glue on the inner wall of the motor casing, sliding grooves are formed on the door-shaped upright post 209 and the second fixing rod 210, a third sliding block 406 and a second sliding plate 405 are connected in the sliding grooves formed on the door-shaped upright post 209 and the second fixing rod 210 in a sliding manner, the third sliding block 406 is fixed on the second sliding plate 405, the second sliding plate 405 can slide back and forth and can drive the glue spraying gun to move back and forth through the third fixing rod 404, a fourth spring 407 is fixed on the front side wall of the third sliding block 406, the fourth spring 406 can push the third sliding block 406 to slide back along the sliding groove on the second fixing rod 210, the other side of the fourth spring 407 is fixed on the inner side wall of the sliding groove formed on the second fixing rod 210, a third fixing rod 404 is fixed on the second sliding plate 405, a through hole is formed on one side of the third fixing rod 404 close to the glue storage barrel 4, and the glue spraying gun 403 is sleeved in the through hole on the third fixing rod 404.

After the motor is pushed onto the rotating disc 302, the second motor 301 is started, the second motor 301 drives the rotating disc 302 to rotate, the motor on the rotating disc 302 also rotates, at the moment, the second sliding plate 405 moves to a position close to the rear under the action of the fourth spring 407, the glue spraying gun 403 is just inside the motor, the opening of the glue spraying gun 403 is just aligned to a gap between the inner wall of the motor and the magnetic tile, when the second motor 301 rotates, pressure is applied to the inside of the glue storage barrel 4, glue inside the glue storage barrel 4 enters the glue spraying gun 403 along the glue guide tube 402, the glue spraying gun 403 coats the glue between the inner wall of the motor and the magnetic tile, when the second motor 301 rotates for two circles, gluing is stopped, and the second motor 301 also stops rotating, so that the functions of automatic rotation and gluing are realized.

As shown in fig. 9-13, the clamping mechanism includes a first motor 112, a lead screw 113, a fourth fixing rod 5, a first sliding frame 501, a second sliding frame 502, a moving block 503, a nut 5031, a Y-shaped clamp 504, a fourth slider 5041, a fifth spring 5042, a connecting spring 5043, a third-order expansion link 505, a sixth spring 506, a fixing block 507, a fifth slider 508, a sixth slider 509, and a seventh spring 510, wherein the first motor 112 is fixed on the top of the first fixing frame 109, the lead screw 113 is connected to an output shaft of the first motor 112, the bottom of the lead screw 113 is rotatably connected to the second connecting rod 111, the lead screw 113 is provided with the nut 5031, the moving block 503 is sleeved outside the nut 5031, the moving block 503 is fixedly connected to the nut 5031, after the first motor 112 is started, the moving block 503 moves up and down with the nut 5031, the front end of the moving block 503 is fixedly connected to the fourth fixing rod 5, the fourth fixing rod 5 can limit the moving block 503 to prevent the moving block 503 from rotating, so that the moving block 503 and the nut 5031 move up and down when the screw 113 rotates, the first sliding frame 501 and the second sliding frame 502 are sleeved on the fourth fixing rod 5, a Y-shaped clamp 504 is fixed on both the first sliding frame 501 and the second sliding frame 502, when the Y-shaped clamp 504 descends along the outer side of the first fixing frame, the two Y-shaped clamps 504 open towards both sides, the Y-shaped clamp 504 drives the first sliding frame 501 and the second sliding frame 502 to slide outwards, the two Y-shaped clamps 504 are connected through a connecting spring 5043, the connecting spring 5043 can keep the Y-shaped clamp 504 stable when moving up and down, the rear end of the Y-shaped clamp 504 is provided with two grooves, a fourth slider 5041 is slidably connected in the grooves, the fourth slider 5041 is connected with the Y-shaped clamp 504 through a fifth spring 5042, the fourth slider 5041 can press the fifth spring 5042 to retract into the Y-shaped clamp 504, the front end of the Y-shaped clamp 504 is provided with a fifth slider 508 near the first fixing frame 109, the sixth sliding block 509 is fixed on two sides of the fifth sliding block 508, a seventh spring 510 is fixed on the outer side wall of the fifth sliding block 508, the other side of the seventh spring 510 is fixed on the Y-shaped clamp 504, the fifth sliding block 508 can drive the sixth sliding block 509 to retract into the Y-shaped clamp 504, the bottom of the fifth sliding block 508 is connected with a fixed block 507 in a sliding mode, the fixed block 507 is fixedly connected with the Y-shaped clamp 504, a third-order telescopic rod 505 is fixed on the outer side of the fixed block 507, the other end of the third-order telescopic rod 505 is connected with the fourth fixed plate 207 and the second sliding plate 405 in a sliding mode, the third-order telescopic rod 505 extends when the clamp rises, the third-order telescopic rod 505 retracts when the clamp falls, the third-order telescopic rod 505 is sleeved with the sixth spring 506, one end of the sixth spring 506 is connected with the fixed block 507, and the other end of the sixth spring 506 is connected with the outermost side of the third-order telescopic rod 505.

When the first motor 112 is started, the lead screw 113 rotates along with the first motor 112, the moving block 503 sleeved outside the nut 5031 on the lead screw 113 rises or falls along with the rotation of the motor, the first sliding frame 501 and the second sliding frame 502 fixed on the moving block 503 also move up and down along with the lead screw, the two Y-shaped clamps 504 fixed on the first sliding frame 501 and the second sliding frame 502 also move up and down along with the lead screw, the parts fixed on the Y-shaped clamps 504 also move up and down along with the lead screw, after glue is coated inside the motor, the Y-shaped clamps 504 just fall from the highest position, when the Y-shaped clamps 504 fall along the lead screw 113, the two Y-shaped clamps 504 are far away from the first fixing frame 109 along with the widening of the third fixing frame, the third step telescopic rod 505 on the Y-shaped clamps 505 descends along the fourth fixing plate 207, and when the third step telescopic rod 505 on the Y-shaped clamps 504 descends to the connection position of the fourth fixing plate 207 and the second sliding plate 405, because the sliding slot on the second sliding plate 405 is inclined, when the third-order telescopic rod 505 descends along with the Y-shaped clamp 504, the third-order telescopic rod 505 will also push the second sliding plate forward, the fourth slider 5041 fixed on the second sliding plate will compress the fourth spring 407, after the Y-shaped clamp 504 descends to the top of the motor, the outer wall of the motor will push the fourth slider 5041 back into the Y-shaped clamp 504, two through holes are exactly arranged on the outer wall of the motor, when the Y-shaped clamp 504 moves to the height of the through holes, the fourth slider 5041 will be pushed out of the sliding slot at the rear end of the Y-shaped clamp 504 by the fifth spring 5042 and pass through the through holes to clamp the motor, at this time, the moving block 503 will just descend to the lowest position, then the motor 112 rotates reversely, the moving block 503 will ascend, the Y-shaped clamp 504 will ascend, one motor will be clamped on both Y-shaped clamps 504, and both Y-shaped clamps 504 will approach to the middle part under the pulling force of the connecting spring 5043, when the Y-clamp 504 is raised to the highest position, the motor is placed on the third fixing plate 202 at the highest position, so that the function of automatically clamping the motor coated with glue is realized.

Example 3

Based on the embodiment 2, as shown in fig. 6 to 7, the present invention further includes a first fixed column 103, a first spring 104, a first fixed frame 105, a first sliding plate 1051, a rotating shaft 1052, a first connecting rod 106, a second fixed frame, a pushing block 108, a second spring 1081 and a first sliding block 1082, wherein a first fixed column 103 is fixed at the foremost end of each first fixed plate 102, a sliding slot is formed in the first fixed column 103, the sliding connecting rod in the sliding slot has a first sliding plate 1051, the first sliding plate 1051 is fixed with the first spring 104, the first spring 104 can reset the first sliding plate 1051, the other end of the first spring 104 is fixed on the inner wall of the sliding slot on the first fixed column 103, the first sliding plate 1051 can slide up and down along the first fixed column 103, a first fixed frame 105 is fixed at a position between the two first fixed columns 103 on the first sliding plate 1051, and a rotating shaft 1052 is rotatably connected in the middle of the first fixed frame 105, the rear side and the bottom surface of the first fixing frame 105 are provided with a through hole, a first connecting rod 106 is fixedly connected to the rotating shaft 1052, the first connecting rod 106 penetrates through the through hole in the first fixing frame 105, the other end of the first connecting rod 106 is fixed to the second fixing frame 107, the second fixing frame 107 is internally and rotatably connected with a pushing block 108 through a rotating shaft, a sliding groove is formed in the first fixing plate 102, the pushing block 108 slides between the two first fixing plates 102, a sliding groove is formed in the bottom of the pushing block 108, a first sliding block 1082 is slidably connected to the sliding groove in the bottom of the pushing block 108, the first sliding block 1082 is connected with the pushing block 108 through a second spring 1081, and the pushing block 108 can push a motor on the first conveyor 1 to move forwards when sliding forwards along the first fixing plate 102.

When the motor moves forward along with the first conveyor 1, the motor is not pushed to the position right above the rotating disc 302, a pushing part is specially arranged, when the clamping mechanism clamps the glued motor to ascend, the motor shell just contacts with the first sliding plate 1051 to jack up the first sliding plate 1051, the ascending of the first sliding plate 1051 drives the first fixing frame 105 to ascend, the rotating shaft 1052 in the first fixing frame 105 pulls the first connecting rod 106 to ascend, the second fixing frame 107 fixed on the other side of the first connecting rod 106 is pulled forward, the second fixing frame 107 drives the pushing block 108 to slide forward along the sliding groove on the first fixing plate 102, the pushing block 108 pushes one motor onto the rotating disc 302 when sliding forward, after the pushing block 108 pushes the motor onto the rotating disc 302, the clamping mechanism drives the glued motor to ascend and just not contact with the first sliding plate 1051, the first sliding plate 1051 is pushed back to the original position by the first spring 104, when the first fixing frame 105 descends and the other end of the first connecting rod 106 retreats, the pushing block 108 slides backwards, and when the pushing block 108 contacts with a rear motor, the first sliding block 1082 below the pushing block 108 retracts into the groove, so that the resetting of the pushing block 108 is not hindered, and the function of automatically pushing the motor upwards to the rotating disc 302 is integrally realized.

As shown in fig. 10 and 14, the clip further includes a first rack gear 511, a third rack gear 6, a second rack gear 601, a seventh slider 602, and an eighth spring 6021, wherein the rear wall of the Y-shaped clamp 504 is fixed with the first rack gear 511, the first rack gear 511 can be engaged with the rack gear when ascending, so that the rack gear rotates, the second rack gear 204 is provided with a chute, the second rack gear 204 is slidably connected with the third rack gear 6, the third rack gear 6 can slide back and forth in the chute of the second rack gear 204, the third rack gear 6 is fixed with two second rack gears 601, the second rack gear 601 is engaged with the rack gear, when the first rack gear 511 ascends, the rack gear can move the second rack gear 601 backward, when the first rack gear 511 descends, the rack gear can move the second rack gear 601 forward, the front end of the second rack gear 601 is provided with a chute, the seventh slider 602 is slidably connected in the chute at the front end of the second rack gear 601, when the third fixing frame 6 slides backwards, the seventh sliding block 602 can push the motor backwards, and the seventh sliding block 602 is connected with the second spur rack 601 through the eighth spring 6021.

When the clamping mechanism clamps the motor to move upwards, the first straight rack 511 fixed in front of the clamp also rises along with the motor, the first straight rack 511 can be just meshed with the spur gear 205, after the first straight rack 511 rises and is meshed with the spur gear 205, the first straight rack 511 continues rising to drive the spur gear 205 to rotate, the spur gear 205 rotates to drive the two second straight racks 601 to move backwards, the second straight rack 601 can drive the third fixing frame 6 to move backwards, the seventh sliding block 602 on the third fixing frame 6 can push the previous motor backwards for a certain distance, the rising of the next motor cannot be influenced, when the clamping mechanism descends, the first straight rack 511 drives the spur gear 205 to rotate, the spur gear 205 enables the second straight rack 601 to move forwards, the third fixing frame 6 can slide forwards, when the seventh sliding block 602 is in contact with the motor shell, the clamp is supported on the front side of the motor, the seventh sliding block 602 can retract into the second straight rack 601, when the first spur rack 511 descends to be no longer in contact with the spur gear 205, the second spur rack 601 moves to the foremost end, and a function of automatically pushing the motor backward is realized.

As shown in fig. 15, the electric fan further includes second fixing columns 7, third connecting rods 701, air blowing fans 702 and air outlets 703, the second fixing columns 7 are fixed at positions near the front of the middle portions of the top walls of the two second fixing plates 201, the two second fixing columns 7 are connected through the two third connecting rods 701, a gap is left between the two third connecting rods 701, the two air blowing fans 702 are fixed at the bottoms of the third connecting rods 701, the air blowing fans 702 are located at the gap between the two third connecting rods 701, an air outlet 703 is fixed below each air blowing fan 702 on each third connecting rod 701, and the air outlet 703 is just aligned with the glue-coated motor pushed backwards by the seventh slider 602.

After the seventh sliding block 602 pushes the motor to the rear side of the top of the third fixing plate 202, the motor is located right below the air outlet 703, and air blown by the blowing fan 702 enters the motor through the air outlet 703, so that glue inside the motor is rapidly solidified, and a function of rapidly drying the glue is realized.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a supplementary installation device of motor magnetic shoe which characterized in that: comprises a first conveyor (1), first baffle plates (101), first fixing plates (102), a first fixing frame (109), a first fixing rod (110), a second connecting rod (111), a second conveyor (2), second baffle plates (2001), a second fixing plate (201), a third fixing plate (202), a partition plate (203), a second fixing frame (204), a spur gear (205), a second sliding block (206), a third spring (2061), a fourth fixing plate (207), first supporting columns (208), portal-shaped upright columns (209), second fixing rods (210), second supporting columns (211), an automatic gluing mechanism and a clamping mechanism, the device is provided with two first conveyors (1), the first baffle plates (101) are fixed on bases on two sides of conveyor belts of the two first conveyors (1), and the first fixing plate (102) is fixed at the foremost end of the top of each first baffle plate (101), a second conveyor (2) is arranged between the two first conveyors (1), two second baffle plates (2001) are fixed on supporting bases on two sides of a conveyor belt on the second conveyor (2), a second fixing plate (201) is fixed at the foremost end of each second baffle plate (2001), a third fixing plate (202) is fixed between the two second fixing plates (201), a partition plate (203) is fixedly connected in the middle of the third fixing plate (202), two grooves are symmetrically formed at the foremost end of the third fixing plate (202), a second sliding block (206) is slidably connected in each groove, a third spring (2061) is fixedly connected to the rear side wall of the second sliding block (206), the other end of the third spring (2061) is fixed on the inner wall of the groove at the front end of the third fixing plate (202), a second fixing frame (204) is fixed at the front end of the outer side of each second fixing plate (201), a straight gear (205) is rotatably connected in each second fixing frame (204), a fourth fixing plate (207) is fixedly connected at the outer side of each second fixing frame (204), a first supporting column (208) is fixed at the bottom of each fourth fixing plate (207), a plurality of second supporting columns (211) are arranged in front of the first conveyor (1), a second fixing rod (210) is fixed at the top of each second supporting column (211), the top of each second fixing rod (210) is fixedly connected with the bottom of the corresponding first supporting column (208), a door-shaped upright column (209) is fixed in front of the corresponding first supporting column (208) on each second fixing rod (210), a first fixing frame (109) is arranged in front of the two first conveyors (1), a first fixing rod (110) is fixed on the inner side of the bottom of the first fixing frame (109), a second connecting rod (111) is fixed in the middle of the inner side of the first fixing frame (109), the automatic gluing mechanism is arranged on the first fixing rod (110) and the door-shaped upright post (209), the automatic gluing mechanism can automatically glue the motor, the clamping mechanism is arranged between the first fixing frame (109) and the fourth fixing plate (207), and the clamping mechanism can automatically clamp the glued motor out of the automatic gluing mechanism.

2. An auxiliary mounting device for a magnetic shoe of an electric machine as claimed in claim 1, wherein: the automatic gluing mechanism comprises an object placing table (3), a second motor (301), a rotating disc (302), arc limiting plates (303), a glue storage barrel (4), a glue outlet (401), a glue guide tube (402), a glue spraying gun (403), a third fixing rod (404), a second sliding plate (405), a third sliding block (406) and a fourth spring (407), wherein the object placing table (3) is arranged in front of each first conveyor (1), the second motor (301) is arranged above the object placing table (3), the rotating disc (302) is fixed at the top of an output shaft of the second motor (301), the arc limiting plates (303) are arranged outside the rotating disc (302), the glue storage barrel (4) is arranged in the middle of the first fixing rod (110), the glue outlets (401) are formed in two sides of the bottom of the glue storage barrel (4), the glue outlets (401) in two sides are connected with the glue guide tube (402), and the other side of the glue guide tube (402) is connected to the glue spraying gun (403), the door-shaped upright post (209) and the second fixing rod (210) are provided with sliding grooves, the sliding grooves formed in the door-shaped upright post (209) and the second fixing rod (210) are internally and slidably connected with a third sliding block (406) and a second sliding plate (405), the third sliding block (406) is fixed on the second sliding plate (405), a fourth spring (407) is fixed on the front side wall of the third sliding block (406), the other side of the fourth spring (407) is fixed on the inner side wall of the sliding groove formed in the second fixing rod (210), a third fixing rod (404) is fixed on the second sliding plate (405), and the glue gun (403) is sleeved on the third fixing rod (404).

3. An auxiliary mounting device for a magnetic shoe of an electric machine according to claim 2, wherein: the clamping mechanism comprises a first motor (112), a screw rod (113), a fourth fixing rod (5), a first sliding frame (501), a second sliding frame (502), a moving block (503), a nut (5031), a Y-shaped clamp (504), a fourth sliding block (5041), a fifth spring (5042), a connecting spring (5043), a third-order telescopic rod (505), a sixth spring (506), a fixing block (507), a fifth sliding block (508), a sixth sliding block (509) and a seventh spring (510), the top of the first fixing frame (109) is fixedly provided with the first motor (112), an output shaft of the first motor (112) is connected with the screw rod (113), the bottom of the screw rod (113) is rotatably connected with the second connecting rod (111), the screw rod (113) is provided with the nut (5031), the outer side of the nut (5031) is sleeved with the moving block (503), the front end of the moving block (503) is fixedly connected with the fourth fixing rod (5), a first sliding frame (501) and a second sliding frame (502) are sleeved on the fourth fixing rod (5), a Y-shaped clamp (504) is fixed on the first sliding frame (501) and the second sliding frame (502), the two Y-shaped clamps (504) are connected through a connecting spring (5043), two grooves are formed in the rear end of the Y-shaped clamp (504), a fourth sliding block (5041) is connected in the grooves in a sliding manner, the fourth sliding block (5041) is connected with the Y-shaped clamp (504) through a fifth spring (5042), a fifth sliding block (508) is arranged at the position, close to the first fixing frame (109), of the front end of the Y-shaped clamp (504), sixth sliding blocks (509) are fixed on two sides of the fifth sliding block (508), a seventh spring (510) is fixed on the outer side wall of the fifth sliding block (508), the other side of the seventh spring (510) is fixed on the Y-shaped clamp (504), and a fixing block (507) is connected to the bottom of the fifth sliding block (508) in a sliding manner, fixed block (507) and Y shape anchor clamps (504) fixed connection, the fixed block (507) outside is fixed with a third order telescopic link (505), the third order telescopic link (505) other end and fourth fixed plate (207) and second sliding plate (405) sliding connection, the cover has a sixth spring (506) on third order telescopic link (505), sixth spring (506) one end is connected with fixed block (507), the sixth spring (506) other end is connected with the outside of third order telescopic link (505).

4. An auxiliary mounting device for a magnetic shoe of an electric machine according to claim 3, wherein: the device also comprises a first fixing column (103), a first spring (104), a first fixing frame (105), a first sliding plate (1051), a rotating shaft (1052), a first connecting rod (106), a second fixing frame, a pushing block (108), a second spring (1081) and a first sliding block (1082), wherein the foremost end of each first fixing plate (102) is fixed with the first fixing column (103), a sliding chute is formed in the first fixing column (103), a sliding connecting rod in the sliding chute is provided with the first sliding plate (1051), the first sliding plate (1051) is fixed with the first spring (104), the other end of the first spring (104) is fixed on the inner wall of the sliding chute on the first fixing column (103), the first fixing frame (105) is fixed at the middle position between the two first fixing columns (103) on the first sliding plate (1051), the middle of the first fixing frame (105) is rotatably connected with the rotating shaft (1052), the rotating shaft (1052) is fixedly connected with the first connecting rod (106), the other end of the first connecting rod (106) is fixed on a second fixing frame (107), the second fixing frame (107) is internally connected with a pushing block (108) in a rotating mode through a rotating shaft, a sliding groove is formed in the bottom of the pushing block (108), a first sliding block (1082) is connected in the sliding groove in the bottom of the pushing block (108) in a sliding mode, and the first sliding block (1082) is connected with the pushing block (108) through a second spring (1081).

5. An auxiliary mounting device for a magnetic shoe of an electric machine according to claim 4, wherein: still including first straight rack (511), third mount (6), second straight rack (601), seventh slider (602) and eighth spring (6021), be fixed with one first straight rack (511) on Y shape anchor clamps (504) rear wall, it has the spout to open on second mount (204), sliding connection has one third mount (6) on second mount (204), be fixed with two second straight rack (601) on third mount (6), the spout has been seted up to second straight rack (601) front end, sliding connection has seventh slider (602) in the spout of second straight rack (601) front end, connect through eighth spring (6021) between seventh slider (602) and second straight rack (601).

6. An auxiliary mounting device for a magnetic shoe of an electric machine according to claim 5, wherein: the air-blowing fan is characterized by further comprising second fixing columns (7), third connecting rods (701), air-blowing fans (702) and air outlets (703), wherein the second fixing columns (7) are fixed in the middle of the top walls of the two second fixing plates (201) close to the front positions, the two second fixing columns (7) are connected through the two third connecting rods (701), the two air-blowing fans (702) are fixed at the bottoms of the third connecting rods (701), and one air outlet (703) is fixed below each air-blowing fan (702) on each third connecting rod (701).

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