CN219273905U - Motor stator and dust collector of frock - Google Patents

Abstract

The utility model provides a motor stator and a dust removing device of a tool, which comprises a frame, a transmission mechanism, a clamping mechanism, a dust removing mechanism and a dust collecting mechanism, wherein the transmission mechanism for transmitting the stator tool is arranged on one side in the frame; the dust removing mechanism comprises an upper cover, a lifting mechanism I for driving the upper cover to lift, a blowing cleaning mechanism and an electrostatic dust removing mechanism; the dust collection mechanism comprises a lower cover and a lifting mechanism II for driving the lower cover to lift, the upper cover and the lower cover are closed to form a dust collection cavity during dust collection, the bottom of the lower cover is connected with a dust collection air pipe, and the dust collection air pipe is connected with a dust collector. The utility model adopts a mode of combining electrostatic dust removal and blowing dust removal, and the dust collection mechanism is used for dust collection, so that the dust collection is clean and thorough, the cleaning effect is good, and the pollution to the environment in the dust collection process can be reduced.

Description

Motor stator and dust collector of frock

Technical Field

The utility model relates to the technical field of stator assembly, in particular to a motor stator and a dust removing device of a tool.

Background

The stator is a stationary part of the motor or the generator, and mainly comprises a stator core and coils wound on the stator core. In the assembly process of the stator, dust can be carried on the stator and the positioning tool of the stator and generate static electricity due to the exposed environment, the static electricity can enable the dust to adhere to the stator and the tool, if the dust is not removed, the dust can accumulate to have adverse effects on the assembly of the stator, and even the motor is scrapped to generate unnecessary loss when the dust is serious. Therefore, a dust removing device of a motor stator is needed, and dust is removed cleanly and thoroughly.

Disclosure of Invention

The utility model aims to provide a motor stator and a dust removing device of a tool, which are used for overcoming the defects in the prior art.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the utility model provides a dust collector of motor stator and frock, includes frame, transmission mechanism, presss from both sides and gets mechanism, dust removal mechanism and dust absorption mechanism, one side is equipped with the transmission mechanism of transmission stator and stator frock in the frame, and transmission mechanism includes the transmission line body and locates the internal climbing mechanism of transmission line, transmission mechanism one side is equipped with the workstation, be equipped with on the workstation and press from both sides and get the mechanism, press from both sides and get the mechanism top and be equipped with dust removal mechanism, the below is equipped with dust absorption mechanism; the dust removing mechanism comprises an upper cover, a lifting mechanism I for driving the upper cover to lift, a blowing cleaning mechanism and an electrostatic dust removing mechanism, wherein the blowing cleaning mechanism and the electrostatic dust removing mechanism are connected with an external air source through an air pipe, the external air source comprises a pressure storage machine and a dryer which are sequentially connected, the external air is stored and dried, and then the blowing cleaning is carried out, so that the damage to a stator can be reduced while the cleaning force is increased; the dust collection mechanism comprises a lower cover and a lifting mechanism II for driving the lower cover to lift, the lower cover is in sliding connection with the workbench through the lifting mechanism II, the upper cover and the lower cover are closed to form a closed dust collection cavity during dust collection, the lower cover is of a conical structure with a large upper part and a small lower part, the bottom of the lower cover is connected with a dust collection air pipe, the lower cover is of a conical structure, the dust collection air pipe is good in dust collection effect, and the dust collection air pipe is connected with a dust collector.

Further, the motor stator and the dust removing device of the tool are characterized in that the clamping mechanism comprises a traversing mechanism and a clamping jaw mechanism arranged on the traversing mechanism, and buffering and limiting assemblies are arranged on the traversing mechanism and the clamping jaw mechanism. The travel of the sliding table cylinder and the clamping jaw cylinder is limited through the buffering limiting assembly, accurate positioning is achieved, and noise generated by collision is eliminated.

Furthermore, the dust removing device of the motor stator and the tool comprises a bottom plate, a sliding table cylinder, a sliding rail I and a sliding plate, wherein the bottom plate is fixed on the workbench, the sliding table cylinder and the sliding rail are both fixed on the bottom plate, the sliding plate is connected to the sliding plate of the sliding table cylinder and the sliding rail I, and the sliding rail I enables the movement of the sliding plate to be more stable and smooth; the bottom plate is provided with an avoidance hole which is communicated with the workbench and is used for allowing the lower cover to pass through.

Further, the dust collector of foretell motor stator and frock, clamping jaw mechanism includes slide rail two, clamping jaw cylinder, clamping jaw, sideslip board one side is equipped with two relative clamping jaw cylinders that set up, and the opposite side is equipped with two slide rails two with clamping jaw cylinder parallel arrangement, the output of clamping jaw cylinder respectively with the end-to-end connection of a clamping jaw, the clamping jaw is kept away from the one end of clamping jaw cylinder and is connected with the slider on the slide rail two, and the setting of slide rail two makes the removal of sideslip board more stable, smooth and easy, and when pressing from both sides and getting, two clamping jaw cylinders stretch out simultaneously, and two clamping jaws move in opposite directions, clamping jaw and stator frock cooperatees and can press from both sides tight frock, otherwise, the clamping jaw loosens stator frock.

Further, the first elevating system of dust collector of above-mentioned motor stator and frock, elevating system includes stand, roof, lift cylinder one, lifter plate, the workstation four corners is equipped with the stand, the stand top is connected with the roof, roof top is fixed with lift cylinder one, lift cylinder one output is connected with the connecting seat through floating joint, the connecting seat below is connected with the fixed plate, the four corners of fixed plate is equipped with the guide pillar, the guide pillar other end is connected with the lifter plate, the four corners of lifter plate is equipped with linear bearing and passes through linear bearing and stand sliding connection, just the upper shield upper end is fixed on the fixed plate, and the lower extreme cover is established in the spacing hole at lifter plate center, and the spacing hole can avoid the upper shield lower extreme to rock at the removal in-process, and has the cooperation that utilizes upper shield and lower cover.

Further, the dust collector of foretell motor stator and frock, the mechanism of cleaning of blowing locates on the fixed plate, including blowing gas post, rotary joint, the gas post upper end of blowing is the connecting pipe, and the lower extreme is the cylinder of blowing, the cylinder of blowing is located the upper cover, and its vertical direction both sides are equipped with a plurality of gas holes, the connecting pipe top is connected with rotary joint, rotary joint is connected with outside air supply to be connected with the fixed plate through the joint connection seat, when blowing the gas post rotation blows, the outside air supply connecting pipe of being connected with rotary joint can not follow rotatoryly, just the connecting pipe is still through rotary mechanism and fixed plate swivelling joint.

Further, the dust collector of foretell motor stator and frock, rotary mechanism includes servo motor, bearing fixed plate, the fixed plate below is equipped with the bearing fixed plate of being connected through the spliced pole, the connecting pipe both ends are equipped with the bearing frame, one end the bearing frame is connected with the fixed plate, and the other end bearing frame is connected with the bearing fixed plate, still be equipped with the synchronizing wheel of locating between two bearing frames on the connecting pipe, servo motor locates the fixed plate top and drives the connecting pipe rotation through the hold-in range transmission. The blowing column is rotated by the rotating mechanism, so that the blowing area can be enlarged, and the dust removal effect is improved. When the lifting cylinder stretches out, the connecting seat is driven to descend, the connecting seat drives the fixing plate fixedly connected with the connecting seat to descend, the fixing plate descends to drive the lifting plate to slide along the upright post and drive the upper cover, the air blowing column and the ion air nozzle to move downwards, when the lifting mechanism stops, the lower end of the air blowing column stretches into the inner hole of the stator, and part of air blowing holes are positioned above the stator, so that the inside and the top of the stator are cleaned.

Further, the electrostatic dust removing mechanism comprises an ion generator and an ion air nozzle, wherein the ion generator is fixed above the top plate, a plurality of ion air nozzles are arranged and are connected with the ion generator through ion air pipes, and the ion air pipes extend to the lower part of the fixing plate through holes in the drag chain and the fixing plate; the ion wind nozzle is arranged on the periphery of the bearing fixing plate, a plurality of mounting holes are formed in the periphery of the bearing fixing plate, and the ion wind nozzle is adjustably mounted on the bearing fixing plate through the mounting holes. The ion blast nozzle is convenient to install and good in cleaning effect.

Further, the dust collector of foretell motor stator and frock, elevating system II includes lift cylinder II, lower cover connecting plate, the both sides are equipped with lift cylinder II that the symmetry set up on the workstation, lift cylinder II both sides are equipped with the guide bar that the symmetry set up, lift cylinder II output is equipped with the guide bar connecting plate, the guide bar upper end is connected with the guide bar connecting plate, and the lower extreme passes the workstation and is connected with lower cover connecting plate, guide bar outside cover is equipped with the linear bearing who fixes on the workstation, lower cover is fixed on lower cover connecting plate. When dust is removed, the lifting cylinder II stretches out to drive the guide rod to move upwards, so that the lower cover connecting plate and the lower cover are driven to move upwards and are matched with the upper cover which moves downwards to form a dust removing cavity.

Further, the dust collector of the motor stator and the tool comprises a suction pump and a dust collection box which are sequentially connected along the suction direction. The waste gas containing dust in the dust removing cavity is sucked by the suction pump through the lower cover and the dust suction air pipe, dust in the waste gas is collected and treated by the dust collecting box, and the rest air is discharged into the air, so that the pollution to the environment can be reduced.

Compared with the prior art, the utility model has the beneficial effects that: the dust on the stator and the stator tool is cleaned by adopting a mode of combining electrostatic dust removal and blowing dust removal, and the dust in the dust removing cavity is sucked away by adopting a dust suction mechanism after the dust is cleaned, so that the subsequent collection and treatment are carried out, the dust is prevented from adhering to the tool again, and the environmental pollution can be reduced; the automatic degree is high, clean up, thoroughly, and the cleaning effect is good, is favorable to the equipment of stator and motor.

Drawings

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

FIG. 1 is a schematic diagram of a motor stator and a dust collector of a tool of the present utility model;

FIG. 2 is a schematic diagram of a part of a dust removing device of a motor stator and a tool of the utility model;

FIG. 3 is a schematic diagram of a part of a dust removing device of a motor stator and a tool of the utility model;

FIG. 4 is a schematic structural diagram showing a clamping mechanism of the dust removing device of the motor stator and the tool according to the present utility model;

FIG. 5 is a schematic diagram of a second structure of a clamping mechanism of the dust removing device of the motor stator and the tool of the present utility model;

FIG. 6 is a schematic diagram of a part of a dust collector of the motor stator and the tool of the present utility model;

FIG. 7 is a schematic rear view of the structure of FIG. 6;

FIG. 8 is a schematic structural view of a dust removing mechanism of a dust removing device of a motor stator and a tool of the present utility model;

FIG. 9 is a schematic side elevational view of FIG. 8;

in the figure: 1. a frame; 2. a transmission mechanism;

3. a clamping mechanism; 31. a traversing mechanism; 311. a bottom plate; 312. a slipway cylinder; 313. a first slide rail; 314. a transverse moving plate; 32 jaw mechanism; 321. a second slide rail; 322. a clamping jaw cylinder; 323. a clamping jaw; 33 a buffer stop assembly;

4. a dust removing mechanism; 41. an upper cover; 42. a lifting mechanism I; 421. a column; 422. a top plate; 423. a lifting cylinder I; 424. a lifting plate; 425. a connecting seat; 426. a fixing plate; 427. a guide post; 43. a blowing cleaning mechanism; 431. a blowing column; 4311. a connecting pipe; 4312. a blowing column; 432. a rotary joint; 433. a servo motor; 434. a bearing fixing plate; 435. a synchronizing wheel; 44. an electrostatic dust removing mechanism; 441. an ion generator; 442. an ion tuyere; 443. an ion air pipe; 45 storage presses; 46. a dryer;

5. a dust collection mechanism; 51. a lower cover; 52. a lifting mechanism II; 521. a lifting cylinder II; 522. a lower cover connecting plate; 523. a guide rod; 524. a guide rod connecting plate; 53. dust collection air pipes; 54. a dust collector; 541. a getter pump; 542. a dust collection box;

6. stator tooling; 7. a working table.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1-9, the dust removing device for the motor stator and the tool comprises a frame 1, a transmission mechanism 2, a clamping mechanism 3, a dust removing mechanism 4 and a dust collecting mechanism 5, wherein the transmission mechanism 2 for transmitting the stator and the stator tool 6 is arranged on one side in the frame 1, a workbench 7 is arranged on one side of the transmission mechanism 2, the clamping mechanism 3 is arranged on the workbench 7, the dust removing mechanism 4 is arranged above the clamping mechanism 3, and the dust collecting mechanism 5 is arranged below the clamping mechanism 3; the dust removing mechanism 4 comprises an upper cover 41, a lifting mechanism I42 for driving the upper cover 41 to lift, a blowing cleaning mechanism 43 and an electrostatic dust removing mechanism 44, wherein the blowing cleaning mechanism 43 and the electrostatic dust removing mechanism 44 are connected with an external air source through air pipes, the external air source comprises an accumulator 45 and a dryer 46 which are sequentially connected, and the external air is accumulated and dried and then subjected to dust blowing cleaning, so that the damage to a stator can be reduced while the cleaning force is increased; the dust collection mechanism 5 comprises a lower cover 51 and a lifting mechanism II 52 for driving the lower cover 51 to lift, the lower cover 51 is in sliding connection with the workbench 7 through the lifting mechanism II 52, the upper cover 41 and the lower cover 51 are closed to form a closed dust collection cavity during dust collection, the lower cover 51 is of a conical structure with a large upper part and a small lower part, the bottom of the lower cover is connected with a dust collection air pipe 53, the lower cover is good in dust collection effect due to the conical structure, the dust collection air pipe 53 is connected with a dust collector 54, and the dust collector 54 comprises a suction pump 541 and a dust collection box 542 which are sequentially connected along the suction direction. The dust-contained waste gas in the dust-removing cavity is sucked by the suction pump 541 through the lower cover 51 and the dust-collecting air pipe 53, dust in the waste gas is collected and treated by the dust-collecting box 542, and the rest air is discharged into the air, so that the pollution to the environment can be reduced.

The weighing device for detecting the stator phase number provided by the utility model has the principle that: the transmission mechanism 2 comprises a transmission line body and a lifting mechanism arranged in the transmission line body, the stator tool 6 is conveyed to a station to be cleaned in the frame 1 through the transmission line body, after the station to be cleaned is sensed by a sensing switch and blocked and limited by a stopper, the lifting mechanism lifts the stator tool 6, the clamping mechanism 3 clamps the stator tool 6 to a detection station, then the lifting mechanism I42 and the lifting mechanism II 52 are started, the upper cover 41 and the lower cover 51 are mutually close to each other, the stator tool 6 on the clamping mechanism 3 is sealed in a dust removing cavity, the air blowing cleaning mechanism 43 and the electrostatic dust removing mechanism 44 are started, dust and static electricity on the stator and the stator tool 6 are cleaned, the electrostatic dust removing and the air blowing dust removing are combined to clean up dust on the stator and the stator tool, then the dust removing mechanism 5 is started, the dust in the dust removing cavity is sucked to the dust collector 54 for subsequent treatment, the dust in the dust removing cavity is cleaned up, and the dust is prevented from adhering to the tool; after the cleaning is finished, the upper cover 41 and the lower cover 51 are opened, the clamping mechanism 3 clamps the work clamp to a transmission line body, the transmission line body starts to transmit the stator tool 6 to the next station, and the next stator and the cleaning of the stator tool are started in the circulation. The dust collector of this motor stator degree of automation is high, and clean up, thoroughly, the cleaning effect is good, is favorable to the equipment of stator and motor.

Example 2

Based on the structure of the first embodiment, as shown in fig. 4-5, the gripping mechanism 3 includes a traversing mechanism 31 and a clamping jaw mechanism 32 disposed on the traversing mechanism 31, and buffering and limiting assemblies 33 are disposed on the traversing mechanism 31 and the clamping jaw mechanism 32. The travel of the sliding table cylinder 312 and the clamping jaw cylinder 322 is limited through the buffering limiting assembly 33, so that accurate positioning is realized, and noise generated by collision is eliminated.

The traversing mechanism 31 comprises a bottom plate 311, a sliding table cylinder 312, a first sliding rail 313 and a traversing plate 314, wherein the bottom plate 311 is fixed on the workbench 7, the sliding table cylinder 312 and the sliding rail 313 are both fixed on the bottom plate 311, the traversing plate 314 is connected to the sliding plates of the sliding table cylinder 312 and the first sliding rail 313, and the first sliding rail 313 enables the traversing plate 314 to move more stably and smoothly; the bottom plate 311 is provided with a avoiding hole which is communicated with the workbench 7 and allows the lower cover 51 to pass through.

The clamping jaw mechanism 32 comprises a second sliding rail 321, a clamping jaw air cylinder 322 and a clamping jaw 323, two clamping jaw air cylinders 322 which are oppositely arranged are arranged on one side of the transverse moving plate 314, two second sliding rails 323 which are parallel to the clamping jaw air cylinders 322 are arranged on the other side of the transverse moving plate, the output ends of the clamping jaw air cylinders 322 are respectively connected with the tail ends of one clamping jaw 323, one ends of the clamping jaw 323, which are far away from the clamping jaw air cylinders 322, are connected with sliding blocks on the second sliding rail 321, the two clamping jaw air cylinders 322 extend out simultaneously when the clamping jaw 323 is clamped, the two clamping jaws 323 move in opposite directions, the clamping jaw 323 is matched with the stator tool 6, and otherwise, the clamping jaw 323 loosens the stator tool 6.

Example 3

Based on the second structure of the embodiment, as shown in fig. 6-9, the first lifting mechanism 42 includes a column 421, a top plate 422, a first lifting cylinder 423 and a lifting plate 424, the four corners of the working table 7 are provided with the column 421, the top end of the column 421 is connected with the top plate 422, the first lifting cylinder 423 is fixed above the top plate 422, the output end of the first lifting cylinder 423 is connected with a connecting seat 425 through a floating joint, a fixed plate 426 is connected below the connecting seat 425, the four corners of the fixed plate 426 are provided with guide posts 427, the other ends of the guide posts 427 are connected with the lifting plate 424, four corners of the lifting plate 424 are provided with linear bearings and are slidably connected with the column 421 through the linear bearings, the upper end of the upper cover 41 is fixed on the fixed plate 426, the lower end of the upper cover 41 is sleeved in a limiting hole in the center of the lifting plate 424, the limiting hole can avoid the lower end of the upper cover 41 from shaking in the moving process, and the upper cover 41 is matched with the lower cover 51.

In addition, the blowing cleaning mechanism 43 is disposed on the fixed plate 426 and comprises a blowing column 431 and a rotary joint 432, the upper end of the blowing column 431 is a connecting pipe 4311, the lower end of the blowing column 4312 is a blowing column 4312, the blowing column 4312 is disposed in the upper cover 41, a plurality of blowing holes are disposed on two sides of the vertical direction of the blowing column 4312, the top end of the connecting pipe 4311 is connected with the rotary joint 432, the rotary joint 432 is connected with an external air source and is connected with the fixed plate 426 through a joint connecting seat, and when the blowing column 431 blows in a rotary mode, the external air source connecting pipe connected with the rotary joint 432 does not rotate along with the rotary joint, and the connecting pipe 4311 is further connected with the fixed plate 426 in a rotary mode through the rotary mechanism.

In the above structure, the rotating mechanism comprises a servo motor 433 and a bearing fixing plate 434, the bearing fixing plate 434 connected by a connecting column is arranged below the fixing plate 426, bearing seats are arranged at two ends of the connecting pipe 4311, one end of the connecting pipe is connected with the fixing plate 426, the bearing seat at the other end of the connecting pipe is connected with the bearing fixing plate 434, a synchronous wheel 435 arranged between the two bearing seats is further arranged on the connecting pipe 4311, and the servo motor 433 is arranged above the fixing plate 426 and drives the connecting pipe 4311 to rotate by synchronous belt transmission. The blowing area can be enlarged and the dust removal effect can be improved by rotating the blowing column 431 by the rotating mechanism. When the lifting cylinder I423 stretches out, the connecting seat 425 is driven to descend, the connecting seat 425 drives the fixing plate 426 fixedly connected with the connecting seat 425 to descend, the fixing plate 426 descends to drive the lifting plate 424 to slide along the upright post 421 and drive the upper cover 41, the air blowing column 431 and the ion air nozzle 441 to move downwards, when the lifting mechanism I42 stops, the lower end of the air blowing column 4312 stretches into an inner hole of the stator, and part of air blowing holes are positioned above the stator, so that the cleaning of the inside and the top of the stator is facilitated.

In addition, the electrostatic dust collection mechanism 44 includes an ion generator 441 and an ion air nozzle 442, the ion generator 441 is fixed above the top plate 422, the ion air nozzle 442 is provided with a plurality of ion air pipes 443 connected with the ion generator 441, in this embodiment, 4 ion air pipes 443 are respectively provided on four sides of the bearing fixing plate 434, and the ion air pipes 443 extend to the lower side of the fixing plate 426 through the drag chain and the through holes on the fixing plate 436; the ion wind nozzle 442 is disposed on the circumference of the bearing fixing plate 434, and the circumference of the bearing fixing plate 434 is provided with a plurality of mounting holes, and the ion wind nozzle 442 is adjustably mounted on the bearing fixing plate 434 through the mounting holes. The ion blast nozzle is convenient to install and good in cleaning effect.

As shown in fig. 6-7, the lifting mechanism two 52 includes a lifting cylinder two 521 and a lower cover connecting plate 522, two sides of the workbench 7 are provided with lifting cylinders two 521 which are symmetrically arranged, two sides of the lifting cylinder two 521 are provided with guide rods 523 which are symmetrically arranged, the output end of the lifting cylinder two 521 is provided with a guide rod connecting plate 524, the upper end of the guide rod 523 is connected with the guide rod connecting plate 524, the lower end of the guide rod 523 penetrates through the workbench 7 to be connected with the lower cover connecting plate 522, the outer side of the guide rod 523 is sleeved with a linear bearing fixed on the workbench 7, and the lower cover 51 is fixed on the lower cover connecting plate 522. When the dust is removed, the lifting cylinder II 521 extends out to drive the guide rod 523 to move upwards, so that the lower cover connecting plate 522 and the lower cover 51 are driven to move upwards, and the lower cover connecting plate 522 and the lower cover 51 are matched with the upper cover 41 which moves downwards to form a dust removing cavity.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. A dust collector of motor stator and frock, its characterized in that: the device comprises a frame (1), a transmission mechanism (2), a clamping mechanism (3), a dust removing mechanism (4) and a dust collecting mechanism (5), wherein the transmission mechanism (2) for transmitting a stator tool (6) is arranged on one side in the frame (1), a workbench (7) is arranged on one side of the transmission mechanism (2), the clamping mechanism (3) is arranged on the workbench (7), the dust removing mechanism (4) is arranged above the clamping mechanism (3), and the dust collecting mechanism (5) is arranged below the clamping mechanism; the dust removing mechanism (4) comprises an upper cover (41), a lifting mechanism I (42) for driving the upper cover (41) to lift, an air blowing cleaning mechanism (43) and an electrostatic dust removing mechanism (44), wherein the air blowing cleaning mechanism (43) and the electrostatic dust removing mechanism (44) are connected with an external air source through air pipes, and the external air source comprises a pressure storage machine (45) and a dryer (46) which are connected in sequence; the dust collection mechanism (5) comprises a lower cover (51) and a lifting mechanism II (52) for driving the lower cover (51) to lift, the lower cover (51) is connected with the workbench (7) in a sliding manner through the lifting mechanism II (52), the upper cover (41) and the lower cover (51) are closed to form a closed dust collection cavity during dust collection, the lower cover (51) is of a conical structure with a large upper part and a small lower part, the bottom of the lower cover is connected with a dust collection air pipe (53), and the dust collection air pipe (53) is connected with the dust collector (54).

2. The motor stator and tool dust collector of claim 1, wherein: the clamping mechanism (3) comprises a traversing mechanism (31) and a clamping jaw mechanism (32) arranged on the traversing mechanism (31), and buffering and limiting components (33) are arranged on the traversing mechanism (31) and the clamping jaw mechanism (32).

3. The motor stator and tool dust collector of claim 2, wherein: the transverse moving mechanism (31) comprises a bottom plate (311), a sliding table cylinder (312), a first sliding rail (313) and a transverse moving plate (314), wherein the bottom plate (311) is fixed on the workbench (7), the sliding table cylinder (312) and the first sliding rail (313) are both fixed on the bottom plate (311), and the transverse moving plate (314) is connected to the sliding plates of the sliding table cylinder (312) and the first sliding rail (313).

4. A motor stator and tool dust collector according to claim 3, wherein: clamping jaw mechanism (32) are including slide rail two (321), clamping jaw cylinder (322), clamping jaw (323), sideslip board (314) one side is equipped with two clamping jaw cylinders (322) of relative setting, and the opposite side is equipped with two slide rails two (321) with clamping jaw cylinder (322) parallel arrangement, the output of clamping jaw cylinder (322) respectively with the end-to-end connection of a clamping jaw (323), clamping jaw (323) are kept away from the one end of clamping jaw cylinder (322) and are connected with the slider on slide rail two (321), clamping jaw (323) cooperate with stator frock (6).

5. The motor stator and tool dust collector of claim 1, wherein: the lifting mechanism I (42) comprises a stand column (421), a top plate (422), a lifting cylinder I (423) and a lifting plate (424), the stand column (421) is arranged at four corners of the workbench (7), the top end of the stand column (421) is connected with the top plate (422), the lifting cylinder I (423) is fixed above the top plate (422), the output end of the lifting cylinder I (423) is connected with a connecting seat (425) through a floating joint, the lower part of the connecting seat (425) is connected with a fixed plate (426), guide posts (427) are arranged at four corners of the fixed plate (426), the other ends of the guide posts (427) are connected with the lifting plate (424), linear bearings are arranged at four corners of the lifting plate (424) and are in sliding connection with the stand column (421) through the linear bearings, and the upper cover (41) is fixed on the fixed plate (426), and the lower end of the upper cover is sleeved in a limiting hole in the center of the lifting plate (424).

6. The motor stator and tool dust collector of claim 5, wherein: the utility model provides a cleaning mechanism (43) of blowing locate on fixed plate (426), including blowing post (431), rotary joint (432), blowing post (431) upper end is connecting pipe (4311), and the lower extreme is blowing post (4312), blowing post (4312) are located upper shield (41), and its vertical direction both sides are equipped with a plurality of gas holes, connecting pipe (4311) top is connected with rotary joint (432), rotary joint (432) are connected with outside air supply to be connected with fixed plate (426) through joint connection seat, just connecting pipe (4311) still through rotary mechanism and fixed plate (426) swivelling joint.

7. The motor stator and tool dust collector of claim 6, wherein: the rotating mechanism comprises a servo motor (433) and a bearing fixing plate (434), the bearing fixing plate (434) connected through a connecting column is arranged below the fixing plate (426), bearing seats are arranged at two ends of a connecting pipe (4311), one end of each connecting pipe is connected with the fixing plate (426), the bearing seats at the other end of each connecting pipe are connected with the bearing fixing plate (434), a synchronous wheel (435) arranged between the two bearing seats is further arranged on the connecting pipe (4311), and the servo motor (433) is arranged above the fixing plate (426) and drives the connecting pipe (4311) to rotate through a synchronous belt transmission.

8. The motor stator and tool dust collector of claim 1, wherein: the electrostatic dust collection mechanism (44) comprises an ion generator (441) and an ion air nozzle (442), wherein the ion generator (441) is fixed above a top plate (422), and a plurality of ion air nozzles (442) are arranged and connected with the ion generator (441) through ion air pipes (443); the ion wind nozzle (442) is arranged on the periphery of the bearing fixing plate (434), a plurality of mounting holes are formed in the periphery of the bearing fixing plate (434), and the ion wind nozzle (442) is adjustably mounted on the bearing fixing plate (434) through the mounting holes.

9. The motor stator and tool dust collector of claim 1, wherein: lifting mechanism II (52) are including lift cylinder II (521), lower cover connecting plate (522), both sides are equipped with lift cylinder II (521) of symmetry setting on workstation (7), lift cylinder II (521) both sides are equipped with guide bar (523) of symmetry setting, lift cylinder II (521) output is equipped with guide bar connecting plate (524), guide bar (523) upper end is connected with guide bar connecting plate (524), and the lower extreme passes workstation (7) and is connected with lower cover connecting plate (522), guide bar (523) outside cover is equipped with the linear bearing of fixing on workstation (7), lower cover (51) are fixed on lower cover connecting plate (522).

10. The motor stator and tool dust collector of claim 1, wherein: the vacuum cleaner (54) includes a suction pump (541) and a dust box (542) that are sequentially connected in a suction direction.

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