CN214281157U - Motor rotor shaft sleeve assembly machine - Google Patents

Abstract

The utility model provides an electric motor rotor axle sleeve assembly machine, including the frame, be fixed with the electric motor rotor locating piece in the frame, electric motor rotor locating piece bilateral symmetry is equipped with axle sleeve embolia device and axle sleeve push in device, electric motor rotor locating piece top is equipped with the electric motor rotor compact heap, the electric motor rotor compact heap is used for compressing tightly the electric motor rotor of location on the electric motor rotor locating piece, axle sleeve embolia device is used for snatching the axle sleeve and tentatively embolias electric motor rotor's epaxial with the axle sleeve, axle sleeve push in device is used for impressing the axle sleeve that tentatively embolias the assigned position. The utility model discloses the process of impressing the axle sleeve divide into two steps, embolias and impress respectively, replaces to utilize the axle sleeve to press directly of axle sleeve, guarantees that the axle sleeve cover targets in place to can press down simultaneously electric motor rotor diaxon, improve production efficiency.

Description

Motor rotor shaft sleeve assembly machine

Technical Field

The utility model belongs to the technical field of electric motor rotor technique and specifically relates to an electric motor rotor axle sleeve assembly machine.

Background

Referring to chinese patent CN201920615857.2, an automatic motor rotor shaft sleeve pressing device includes an operation console, a controller, a shaft sleeve vibration disk, a shaft sleeve guide rail, a shaft sleeve pressing assembly, a gasket pressing assembly, a clamping pressing assembly, and a rotor guide rail, where the shaft sleeve guide rail is disposed in front of the shaft sleeve vibration disk, the other end of the shaft sleeve guide rail is provided with the shaft sleeve pressing assembly, the rotor guide rail is disposed in front of the shaft sleeve guide rail, the gasket pressing assembly is disposed on one side of the rotor guide rail, the two gasket pressing assemblies are disposed side by side, and the clamping pressing assembly is disposed on the left side of the gasket pressing assembly; the axle sleeve subassembly of impressing includes that the axle sleeve presss from both sides, slide rail, axle sleeve upper and lower guide rail, axle sleeve front and back slide rail, axle sleeve front and back guide rail, installs at the axle sleeve front and back piston rod on axle sleeve front and back slide rail right side around the axle sleeve and installs at the axle sleeve upper and back piston rod on slide rail right side around the axle sleeve, slide rail and axle sleeve front and back guide rail cooperation installation about the axle sleeve, the left side of slide rail about the axle sleeve is installed to the axle sleeve clamp, utilizes the axle sleeve to press from both sides the clamp that realizes the axle sleeve and gets and press, therefore has very high requirement to the intensity that the axle sleeve pressed from both sides, and the axle sleeve presss from both sides to moving parts, and repetitious usage is difficult to avoid appearing becoming flexible to cost of maintenance is high, and what more has influences normal production. Utilize the axle sleeve to press in addition, be the rigidity collision between axle sleeve and the rotor, can not guarantee that the axle sleeve cover targets in place, what more can lead to the axle sleeve to warp to damage, the device is only applicable to simultaneously and presses to an axle, can not satisfy the diaxon and press simultaneously, and production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides a prior art utilize the axle sleeve clamp to press down the axle sleeve and can not guarantee that the axle sleeve cover targets in place and only be applicable to and press down an axle simultaneously, can not satisfy the diaxon and press down simultaneously, the problem that production efficiency is low provides an electric motor rotor axle sleeve assembly machine, press the process with the axle sleeve and divide into two steps, embolia and impress respectively, replace and utilize the axle sleeve clamp to press down directly of axle sleeve, guarantee that the axle sleeve cover targets in place to can press down simultaneously electric motor rotor diaxon, improve production efficiency.

In order to realize the purpose, the following technical scheme is provided:

an assembling machine for a motor rotor shaft sleeve comprises a frame, a motor rotor positioning block is fixed on the frame, a shaft sleeve sleeving device and a shaft sleeve pressing device are symmetrically arranged on two sides of the motor rotor positioning block, a motor rotor pressing block is arranged above the motor rotor positioning block, the motor rotor pressing block is used for pressing the motor rotor positioned on the motor rotor positioning block, the shaft sleeve sleeving device is used for grabbing the shaft sleeve and sleeving the shaft sleeve on a shaft of the motor rotor preliminarily, the shaft sleeve pressing device is used for pressing the preliminarily sleeved shaft sleeve to a designated position, the frame is also provided with a motor rotor transmission device and a motor rotor shaft sleeve selecting device, the motor rotor transmission device is used for motor rotor transmission, the motor rotor shaft sleeve selecting device is used for screening and conveying shaft sleeves of the motor rotors, and a plurality of positioning grooves are formed in the motor rotor positioning blocks.

The utility model discloses the during operation is earlier put electric motor rotor and is fixed a position on the electric motor rotor locating piece, and electric motor rotor compact heap work this moment will be put electric motor rotor on the electric motor rotor locating piece and compress tightly, and the axle sleeve embolias the device and snatchs the axle sleeve and embolias electric motor rotor's epaxial with the axle sleeve tentatively this moment, and the axle sleeve that axle sleeve push in device tentatively embolias the assigned position again. The shaft sleeve pressing process is divided into two steps, namely sleeving and pressing, and the shaft sleeve is directly pressed by a shaft sleeve clamp to ensure that the shaft sleeve is in place. Because electric motor rotor locating piece bilateral symmetry is equipped with axle sleeve embolia device and axle sleeve push in device, the utility model discloses can press simultaneously electric motor rotor diaxon, improve production efficiency.

Preferably, the shaft sleeve sleeving device comprises a fifth cylinder fixed on the frame, one side of an ejector rod of the fifth cylinder is connected with a rotating device, a sixth cylinder is fixed on the rotating device, the ejector rod of the sixth cylinder is connected with a sleeve rod through a first spring, and the diameter of the sleeve rod is larger than a certain numerical value of the motor rotor shaft.

When the initial position, perpendicularly downwards, its below is equipped with the axle sleeve, the hole of axle sleeve is aimed at to the loop bar, the ejector pin of during operation fifth cylinder is ejecting, the loop bar inserts the hole of axle sleeve, because the diameter of loop bar is greater than the certain numerical value of electric motor rotor axle, the loop bar can block the axle sleeve, the ejector pin of fifth cylinder resets this moment, the axle sleeve up moves along with the loop bar, then rotary device is rotatory 90 degrees, it is rotatory 90 degrees to drive the loop bar, the loop bar is aimed at the axle that compresses tightly the electric motor rotor on the electric motor rotor locating piece this moment, the ejector pin of sixth cylinder is ejecting, the loop bar contacts with electric motor rotor's axle, and take place flexible collision under the effect of first spring, the loop bar is inwards shrunk afterwards, the axle sleeve embolias electric motor rotor's epa.

Preferably, the shaft sleeve press-in device comprises a seventh cylinder fixed on the frame, a push rod of the seventh cylinder is connected with a press-in rod, a press-in groove is arranged at the front end of the press-in rod, and the depth of the press-in groove is set according to the press-in distance required.

When the motor rotor pressing-in device works, the ejector rod of the seventh cylinder is ejected out, the end face of the pressing-in rod is in contact with the end face of the shaft sleeve, the pressing-in groove gives way for the shaft of the motor rotor, the pressing-in groove is set according to the pressing-in distance needed, and when the shaft of the motor rotor is in contact with the bottom of the pressing-in groove, the ejector rod of the seventh cylinder resets to complete the pressing-in of the shaft sleeve.

Preferably, a second spring is connected between the push rod and the press rod of the seventh cylinder. The effect of setting up the second spring is with rigid collision transform flexible collision into, avoids crushing motor rotor's axle when impressing.

As preferred, electric motor rotor transmission device includes feeding rail, ejection of compact rail and feeds the piece, the feeding rail is equipped with certain inclination, the high-end conduct feed end of feeding rail, its low side setting is in electric motor rotor locating piece one side, the ejection of compact rail is equipped with certain inclination, the high-end setting of ejection of compact rail is in the front side of electric motor rotor locating piece, be equipped with rotor moving mechanism between feeding rail and the electric motor rotor locating piece, rotor moving mechanism moves the electric motor rotor on the feeding rail to the constant head tank, feed the piece setting in the both sides of electric motor rotor locating piece for carry the electric motor rotor on the constant head tank to the ejection of compact rail.

Need put the top of feeding rail according to same direction with electric motor rotor during this embodiment feeding, electric motor rotor rolls ejection of compact rail lower extreme by self gravity, rotor moving mechanism will be located the electric motor rotor of ejection of compact rail lower extreme and remove on the constant head tank of electric motor rotor locating piece, the equidistant a plurality of constant head tanks that are equipped with of electric motor rotor locating piece, feed a batch motion, the electric motor rotor jack-up that will be located on the constant head tank, and feed on the next constant head tank, and electric motor rotor on the last constant head tank is then fed the high-end of ejection of compact rail by the jack-up, last electric motor rotor follows the high-end landing of ejection of compact rail, accomplish electric motor rotor's transport, the utility model discloses transmit by electric motor rotor self gravity, simple structure, require the precision low, it is with low costs. The utility model discloses the axle that electric motor rotor locating piece made electric motor rotor both sides exposes out, and the axle sleeve is overlapped simultaneously to the axle of electric motor rotor both sides to the convenience, has improved production efficiency.

Preferably, the rotor moving mechanism is vertically connected with a first cylinder which vertically reciprocates, the first cylinder is horizontally connected with a second cylinder which is fixed on the frame, the rotor moving mechanism is provided with a gripper, and the gripper is provided with an air extractor.

When the first air cylinder contracts, the rotor moving mechanism grabs the motor rotor when vertically moving downwards, then the first air cylinder is ejected out, the rotor moving mechanism grabs the motor rotor and vertically moves upwards, the second air cylinder is ejected out at the moment, the rotor moving mechanism translates the motor rotor to the positioning groove, the second air cylinder resets, and the rotor moving mechanism is ready to grab a next motor rotor.

As preferred, electric motor rotor axle sleeve option device includes vibration portion and the screening dish of connection in vibration portion, the screening dish includes axle sleeve pond and the rail of feeding that sets up the spiral shell screwing in of screening dish inner wall, vibration portion vibration screening dish makes the axle sleeve in the axle sleeve pond be feed motion along feeding the rail, the rail outside of feeding is equipped with prevents falling the wall, the rail of feeding is including the initial rail, the single track rail, screening rail and the output rail that connect gradually.

Referring to fig. 8, the utility model is suitable for an electric motor rotor axle sleeve, this axle sleeve are equipped with 3 step faces, including the biggest shaft shoulder, middle shaft shoulder and minimum shaft shoulder, its shape is special, consequently need select the axle sleeve that accords with the settlement posture and carry out installation procedure on next step, it sets for the posture and is the bottom surface of the biggest shaft shoulder down, the terminal surface of minimum shaft shoulder up, the axle sleeve is feeding motion along feeding rail under the effect of vibration portion, through initial rail, the screening of single file rail and screening rail, export from the delivery track in order to accord with the settlement posture at last. The utility model discloses make the orientation of the axle sleeve face of choosing unanimous, avoid follow-up axle sleeve to put conversely, prevent to crush the axle sleeve or damage the condition of device and take place.

Preferably, a deflector rod is arranged between the initial rail and the single-row rail, the bottom of the deflector rod is fixed on an included angle between the falling-preventing wall and the single-row rail, the deflector rod deflects to the memory of the single-row rail at a certain angle, and the horizontal distance between the top of the deflector rod and the inner side of the single-row rail is the maximum outer diameter of the shaft sleeve. The shaft sleeves entering the initial rail are arranged side by side or overlapped, and the shifting rod is arranged for preparation before screening, so that the parallel or overlapped shaft sleeves sequentially and singly enter the single-row rail, the subsequent single screening is facilitated, and the screening success rate is improved.

Preferably, the inner side of the initial rail is higher than the outer side by a certain distance, the outer side of the screening rail is higher than the inner side by a certain distance, and the one-line rail is used for smoothly connecting the initial rail and the screening rail.

Due to the special shape of the shaft sleeve, the shaft sleeve is easily influenced by the gravity center when the shaft sleeve performs the feeding motion, the shaft sleeve is deviated, the inner side of the initial rail is arranged to be higher than the outer side for a certain distance, the influence of the gravity factor on the shaft sleeve is reduced, the shaft sleeve is prevented from falling into a shaft sleeve pool without being screened, the number of screened shaft sleeves is increased, and the screening efficiency is improved; the effect that the outside of screening rail is higher than inboard certain distance is utilizing its focus's influence to screen the axle sleeve, and the axle sleeve that does not accord with the settlement posture is under the action of gravity, and the focus shifts, finally falls the axle sleeve pond, and the axle sleeve that accords with the settlement posture is stayed on screening rail to export from the output rail.

Preferably, the inner side of the screening rail is provided with a baffle plate with a certain height, the output rail comprises a horizontal output section and a posture adjusting section, the posture adjusting section is connected with the screening rail, the shaft sleeve with a certain angle and meeting the set posture is adjusted into a horizontal shaft sleeve meeting the set posture, the horizontal shaft sleeve meeting the set posture is output from the horizontal output section, and the shaft sleeve can be conveniently grabbed by subsequent processes. The height of baffle is not higher than the thickness of the biggest shaft shoulder of axle sleeve for the axle sleeve that is not conform to and sets for the posture can overturn the baffle under the action of gravity and fall to the axle sleeve pond, guarantees simultaneously that the axle sleeve that accords with and sets for the posture does not because of the action of gravity landing to the axle sleeve pond in, improves the screening success rate.

The utility model has the advantages that:

1. the shaft sleeve pressing process is divided into two steps, namely sleeving and pressing, and the shaft sleeve is directly pressed by a shaft sleeve clamp to ensure that the shaft sleeve is in place.

2. Because electric motor rotor locating piece bilateral symmetry is equipped with axle sleeve embolia device and axle sleeve push in device, the utility model discloses can press simultaneously electric motor rotor diaxon, improve production efficiency.

3. The shaft sleeve does feed motion along the feeding rail under the action of the vibration part, passes through the screening of the initial rail, the single-row rail and the screening rail, and is finally output from the output rail in accordance with a set posture.

4. The utility model discloses make the orientation of the axle sleeve face of choosing unanimous, avoid follow-up axle sleeve to put conversely, prevent to crush the axle sleeve or damage the condition of device and take place.

5. The utility model discloses lean on electric motor rotor self gravity to transmit, simple structure requires the precision low, and is with low costs.

6. The utility model discloses the axle that electric motor rotor locating piece made electric motor rotor both sides exposes out, and the axle sleeve is overlapped simultaneously to the axle of electric motor rotor both sides to the convenience, has improved production efficiency.

Drawings

FIG. 1 is a schematic view of the overall structure of the embodiment;

FIG. 2 is a partial structural top view of the embodiment;

FIG. 3 is a top view of the rotor moving mechanism of the embodiment;

FIG. 4 is a side view of the feed block of the embodiment;

FIG. 5 is a layout view of a bushing nesting device and a bushing press-in device according to an embodiment;

FIG. 6 is a schematic view of an embodiment of an alternative arrangement of a rotor sleeve of an electric machine;

FIG. 7 is a schematic illustration of a feed rail of an embodiment;

FIG. 8 is a cross-sectional view of a rotor sleeve of an electric machine of an embodiment;

wherein: 1. a vibrating section; 2. a screening tray; 3. a shaft sleeve pool; 4. an initial rail; 5. a one-way rail; 6. screening rails; 7. an output rail; 8. a deflector rod; 9. a baffle plate; 10. a posture adjustment segment; 11. a fall prevention wall; 12. a maximum shoulder; 13. a middle shaft shoulder; 14. a minimum shoulder; 21. a frame; 22. a feed rail; 23. discharging the material rail; 24. positioning blocks; 25. a feeding block; 26. a rotor moving mechanism; 27. a limiting clamping plate; 28. a balance guide rail; 31. a motor rotor compression block; 32. a shaft sleeve press-in device; 33. the shaft sleeve is sleeved in the device; 241. positioning a groove; 251. a shaft clamping groove; 252. a third cylinder; 253. a fourth cylinder; 261. a first cylinder; 262. a gripper; 263. a second cylinder; 321. a seventh cylinder; 322. pressing in the rod; 323. pressing the groove; 331. a fifth cylinder; 332. a rotating device; 333. a sixth cylinder; 334. a loop bar.

Detailed Description

Example (b):

the embodiment provides an electric motor rotor shaft sleeve assembling machine, refer to fig. 1 and include frame 21, be fixed with electric motor rotor locating piece 24 on frame 21, electric motor rotor locating piece 24 bilateral symmetry is equipped with shaft sleeve emboliaing device 33 and shaft sleeve push-in device 32, electric motor rotor locating piece 24 top is equipped with electric motor rotor compact heap 31, electric motor rotor compact heap 31 is used for compressing tightly the electric motor rotor of location on electric motor rotor locating piece 24, shaft sleeve emboliaing device 33 is used for snatching the shaft sleeve and tentatively embolias electric motor rotor's axle with the shaft sleeve, shaft sleeve push-in device 32 is used for impressing the shaft sleeve of tentatively emboliaing to the assigned position, frame 21 still is equipped with electric motor rotor transmission device and electric motor rotor shaft sleeve option device, electric motor rotor transmission device is used for electric motor rotor transmission, electric motor rotor shaft sleeve option device is used for screening and conveying of electric motor rotor's shaft sleeve, be equipped with a plurality of constant head tank 241 on electric motor rotor locating piece 24.

Referring to fig. 2 and 3, the motor rotor transmission device includes a feeding rail 22, a discharging rail 23 and a feeding block 25, the feeding rail 22 is provided with a certain inclination, a high end of the feeding rail 22 serves as a feeding end, a low end of the feeding rail is disposed on one side of a motor rotor positioning block 24, the discharging rail 23 is provided with a certain inclination, a high end of the discharging rail 23 is disposed on a front side of the motor rotor positioning block 24, a rotor moving mechanism 26 is disposed between the feeding rail 22 and the motor rotor positioning block 24, the motor rotor on the feeding rail 22 is moved to a positioning groove 241 by the rotor moving mechanism 26, referring to fig. 4, the feeding block 25 is disposed on two sides of the motor rotor positioning block 241 and is used for conveying the motor rotor on the positioning groove to the discharging rail 23.

The rotor moving mechanism 26 is vertically connected with a first cylinder 261 for vertical reciprocating motion, the first cylinder 261 is horizontally connected with a second cylinder 263, and the second cylinder 263 is fixed on the frame 21. The feeding block 25 is vertically connected with a third cylinder 252 for vertical reciprocating motion, the third cylinder 252 is horizontally connected with a fourth cylinder 253, and the fourth cylinder 253 is fixed on the frame 21. The rotor moving mechanism 26 is provided with a hand grip 262, and the hand grip 262 is provided with an air suction device.

The feeding block 25 is provided with a plurality of shaft slots 251. The shaft clamping groove 251 is arranged to enable the shaft of the motor rotor to fall into the shaft clamping groove 251 to position the motor rotor when the feeding block 25 jacks up the motor rotor, so that the motor rotor is prevented from rolling on the feeding block 25, the positioning accuracy is high, and the motor rotor is prevented from falling off.

The shaft sleeve sleeving device 33 comprises a fifth air cylinder 331 fixed on the frame 21, one side of an ejector rod of the fifth air cylinder 331 is connected with a rotating device 332, a sixth air cylinder 333 is fixed on the rotating device 332, the ejector rod of the sixth air cylinder 333 is connected with a sleeve rod 334 through a first spring, and the diameter of the sleeve rod 334 is larger than a certain numerical value of a motor rotor shaft. The rotating device 332 is a rotating electric machine. The rotating motor is simple in structure and convenient to operate, and the production difficulty of equipment can be reduced. The bottom of feed rail 22 is equipped with spacing cardboard 27, sets up spacing cardboard 27 effect and carries on spacingly to electric motor rotor, and the accurate electric motor rotor that grabs of rotor moving mechanism 26 of being convenient for.

The feed rail 22 is provided with a balance guide rail 28 on one side. The shaft length difference of the two sides of the motor rotor of some models is large, the balance guide rail 28 is arranged, the long shaft of the motor rotor can be in contact with the balance guide rail 28, the condition that the motor rotor inclines due to the large shaft length difference of the two sides when the motor rotor falls in a rolling mode is avoided, the motor rotor is protected from falling, and the motor rotor is prevented from being damaged.

The bushing press-fitting device 32 includes a seventh cylinder 321 fixed to the frame 21, a press-fitting rod 322 is connected to a top rod of the seventh cylinder 321, a press-fitting groove 323 is provided at a front end of the press-fitting rod 322, and a depth of the press-fitting groove 323 is set according to a distance of press-fitting as required. A second spring is connected between the top rod of the seventh cylinder 321 and the press-in rod 322. The effect of setting up the second spring is with rigid collision transform flexible collision into, avoids crushing motor rotor's axle when impressing. A feeding rail 22 is arranged on one side of the motor rotor positioning block 24 of the frame 21, a rotor moving mechanism 26 is arranged between the feeding rail 22 and the motor rotor positioning block 24, a plurality of positioning grooves 241 are arranged on the motor rotor positioning block 24, and the motor rotor on the feeding rail 22 is moved to the positioning grooves 241 by the rotor moving mechanism 26. And the feeding blocks 25 are arranged on two sides of the motor rotor positioning block 24, the feeding blocks 25 perform feeding motion on the motor rotor on the positioning groove 241, and the machine is used for feeding, so that the production efficiency is improved. The feeding block 25 is provided with a plurality of shaft slots 251. The shaft clamping groove is arranged to enable the feeding block to jack up the motor rotor, the shaft of the motor rotor can fall into the shaft clamping groove to position the motor rotor, the motor rotor is prevented from rolling on the feeding block, positioning accuracy is high, and the motor rotor is prevented from falling.

Referring to fig. 6 and 7, the motor rotor shaft sleeve part selecting device comprises a vibrating portion 1 and a screening disc 2 connected to the vibrating portion 1, the screening disc 2 comprises a shaft sleeve pool 3 and a spiral ascending feeding rail arranged on the inner wall of the screening disc 2, the vibrating portion 1 vibrates the screening disc 2 to enable a shaft sleeve in the shaft sleeve pool 3 to perform feeding motion along the feeding rail, an anti-falling wall 11 is arranged on the outer side of the feeding rail, and the feeding rail comprises an initial rail 4, a one-way rail 5, a screening rail 6 and an output rail 7 which are sequentially connected.

The start of the initial rail 4 is smoothly connected with the bottom of the sleeve pool 3, and the start of the initial rail 4 narrows at an angle to the end. A deflector rod 8 is arranged between the initial rail 4 and the single-row rail 5, the bottom of the deflector rod 8 is fixed on an included angle between the anti-falling wall 11 and the single-row rail 5, the deflector rod 8 deflects to the memory of the single-row rail 5 at a certain angle, and the horizontal distance between the top of the deflector rod 8 and the inner side of the single-row rail 5 is the maximum outer diameter of the shaft sleeve. The inner side of the initial rail 4 is a certain distance higher than the outer side, the outer side of the screening rail 6 is a certain distance higher than the inner side, and the single-row rail 5 is used for smoothly connecting the initial rail 4 and the screening rail 6. The inner side of the screening rail 6 is provided with a baffle 9 with a certain height. The output rail 7 comprises a horizontal output section and a posture adjusting section 10, the posture adjusting section 10 is connected with the screening rail 6, the shaft sleeve which has a certain angle and accords with the set posture is adjusted into a horizontal shaft sleeve which accords with the set posture, the horizontal shaft sleeve which accords with the set posture is output from the horizontal output section, and the shaft sleeve can be conveniently grabbed by subsequent processes.

Referring to fig. 8, the utility model is suitable for an electric motor rotor axle sleeve, this axle sleeve are equipped with 3 step faces, including biggest shoulder 12, middle shoulder 13 and minimum shoulder 14, its shape is special, consequently need select the axle sleeve that accords with the settlement posture and carry out installation procedure on next step, it sets for the posture and is the bottom surface of biggest shoulder 12 down, the terminal surface of minimum shoulder 14 up, the axle sleeve is feeding motion along feeding the rail under the effect of vibration portion 1, through initial rail 4, the screening of single file rail 5 and screening rail 6, export the posture output in order to accord with from output rail 7 at last. The utility model discloses make the orientation of the axle sleeve face of choosing unanimous, avoid follow-up axle sleeve to put conversely, prevent to crush the axle sleeve or damage the condition of device and take place.

Shaft sleeve screening working process:

the shaft sleeves entering the initial rail 4 are arranged side by side or overlapped, and the shifting rod 8 is arranged for preparation before screening, so that the parallel or overlapped shaft sleeves sequentially and singly enter the single-row rail 5, the subsequent screening is conveniently and singly carried out, and the screening success rate is improved. The purpose of narrowing the initial rail 4 from the beginning to the end at a certain angle is to introduce more shaft sleeves at the large beginning, increase the number of screening shaft sleeves and improve the screening efficiency; on the other hand, the device is matched with the subsequent single-row rail 5.

Due to the special shape of the shaft sleeve, the shaft sleeve is easily influenced by the gravity center when the shaft sleeve performs the feeding motion, the shaft sleeve is deviated, the inner side of the initial rail 4 is arranged to be higher than the outer side for a certain distance, the influence of the gravity factor on the shaft sleeve is reduced, the shaft sleeve is prevented from falling into a shaft sleeve pool without being screened, the number of screened shaft sleeves is increased, and the screening efficiency is improved; the effect that the outside of screening rail 6 is higher than inboard certain distance is utilizing its focus's influence to screen the axle sleeve, and the axle sleeve that does not accord with the settlement posture is under the action of gravity, and the focus shifts, finally falls the axle sleeve pond, and the axle sleeve that accords with the settlement posture is stayed on screening rail 6 to export from output rail 7.

The baffle 9 is not higher than the thickness of the biggest shaft shoulder 12 of axle sleeve for the axle sleeve that is not conform to the settlement posture can overturn baffle 9 and drop the axle sleeve pond under the action of gravity, guarantees simultaneously that the axle sleeve that accords with the settlement posture does not because of the action of gravity landing to the axle sleeve pond in, improves the screening success rate.

The transmission working process of the motor rotor comprises the following steps:

when the third cylinder 252 is ejected, the feeding block 25 ejects the motor rotor, at this time, the fourth cylinder 253 is ejected, the feeding block 25 moves the motor rotor to the upper side of the next position, at this time, the third cylinder 252 is reset, the motor rotor falls into the positioning groove 241 or the high end of the discharging rail 23, then the fourth cylinder 253 is reset, and the feeding block 25 is ready for the next feeding movement. Feeding rail 22's top need be put according to same direction with electric motor rotor during this embodiment feeding, electric motor rotor rolls ejection of compact rail 23 lower extreme by self gravity, rotor moving mechanism 26 will be located the electric motor rotor of ejection of compact rail 23 lower extreme and remove on the constant head tank 241 of electric motor rotor locating piece 24, electric motor rotor locating piece 24 is equidistant to be equipped with a plurality of constant head tanks 241, feed 25 intermittent motion of piece, the electric motor rotor jack-up that will be located on constant head tank 241, and feed next constant head tank on, and electric motor rotor on the last constant head tank is then fed the high-end of ejection of compact rail 23 by the jack-up, last electric motor rotor follows ejection of compact rail 23's high-end landing, accomplish electric motor rotor's transport, the utility model discloses transmit by electric motor rotor self gravity, moreover, the steam generator is simple in structure, require the precision low, and is with low costs. The utility model discloses electric motor rotor locating piece 24 makes the axle of electric motor rotor both sides expose out, and the axle sleeve is overlapped simultaneously to the axle of electric motor rotor both sides to the convenience, has improved production efficiency.

When the first air cylinder 261 contracts, the rotor moving mechanism 26 vertically moves downwards to grasp the motor rotor, then the first air cylinder 261 ejects out, the rotor moving mechanism 26 grasps the motor rotor and vertically moves upwards, at the moment, the second air cylinder 263 ejects out, the rotor moving mechanism 26 translates the motor rotor to the positioning groove 241, the second air cylinder 263 resets, and the rotor moving mechanism 26 is ready to grasp one motor rotor.

The air extractor is used for grasping and releasing the motor rotor, when the rotor moving mechanism 26 moves vertically downwards, the air extractor extracts air to suck the motor rotor, when the rotor moving mechanism 26 translates the motor rotor above the positioning groove 241, the air extractor exhausts air to release the motor rotor, and the motor rotor falls into the positioning groove 241.

And (3) pressing in working process:

firstly, the motor rotor is placed on the motor rotor positioning block 24 for positioning, at the moment, the motor rotor pressing block 31 works to press the motor rotor placed on the motor rotor positioning block 24 tightly, at the moment, the shaft sleeve sleeving device 33 grabs the shaft sleeve and preliminarily sleeves the shaft sleeve on the shaft of the motor rotor, and the shaft sleeve preliminarily sleeved by the shaft sleeve pressing device 32 is pressed into a specified position. The shaft sleeve pressing process is divided into two steps, namely sleeving and pressing, and the shaft sleeve is directly pressed by a shaft sleeve clamp to ensure that the shaft sleeve is in place. Because electric motor rotor locating piece 24 bilateral symmetry is equipped with axle sleeve embolia device 33 and axle sleeve push in device 32, the utility model discloses can press simultaneously electric motor rotor diaxon, improve production efficiency. When the first air cylinder contracts, the rotor moving mechanism grabs the motor rotor when vertically moving downwards, then the first air cylinder is ejected out, the rotor moving mechanism grabs the motor rotor and vertically moves upwards, the second air cylinder is ejected out at the moment, the rotor moving mechanism translates the motor rotor to the positioning groove, the second air cylinder resets, and the rotor moving mechanism is ready to grab a next motor rotor. When the motor rotor is in an initial position, the motor rotor is vertically downward, a shaft sleeve is arranged below the motor rotor, a sleeve rod 334 is aligned with a hole of the shaft sleeve, a mandril of a fifth air cylinder 331 is ejected when the motor rotor works, the sleeve rod 334 is inserted into the hole of the shaft sleeve, the sleeve rod 334 can clamp the shaft sleeve due to the fact that the diameter of the sleeve rod 334 is larger than a certain numerical value of a motor rotor shaft, the mandril of the fifth air cylinder 331 is reset at the moment, the shaft sleeve moves upwards along with the sleeve rod 334, then a rotating device 332 rotates for 90 degrees to drive the sleeve rod 334 to rotate for 90 degrees, the sleeve rod 334 is aligned with a shaft of the motor rotor tightly pressed on a motor rotor positioning block 24 at the moment, the mandril of a sixth air cylinder 333 is ejected, the sleeve rod 334 is contacted with the shaft of the motor rotor and generates flexible collision under the action of a first spring, then the sleeve rod 334 contracts inwards, the shaft sleeve is sleeved on the shaft of the motor rotor, and the primary sleeving is completed.

When the press-in mechanism works, the ejector rod of the seventh air cylinder 321 is ejected, the end face of the press-in rod 322 is in contact with the end face of the shaft sleeve, the press-in groove 323 gives way for the shaft of the motor rotor, the depth of the press-in groove 323 is set according to the required press-in distance, and when the shaft of the motor rotor is in contact with the bottom of the press-in groove 323, the ejector rod of the seventh air cylinder 321 is reset to complete the press-in of the shaft sleeve.

Claims (10)

1. An electric motor rotor shaft sleeve assembling machine is characterized by comprising a machine frame (21), an electric motor rotor positioning block (24) is fixed on the machine frame (21), shaft sleeve sleeving devices (33) and shaft sleeve pressing devices (32) are symmetrically arranged on two sides of the electric motor rotor positioning block (24), an electric motor rotor pressing block (31) is arranged above the electric motor rotor positioning block (24), the electric motor rotor pressing block (31) is used for pressing an electric motor rotor positioned on the electric motor rotor positioning block (24), the shaft sleeve sleeving devices (33) are used for grabbing a shaft sleeve and preliminarily sleeving the shaft sleeve on a shaft of the electric motor rotor, the shaft sleeve pressing devices (32) are used for pressing the preliminarily sleeved shaft sleeve into a designated position, an electric motor rotor transmission device and an electric motor rotor shaft sleeve selecting device are further arranged on the machine frame (21), and the electric motor rotor transmission device is used for electric motor rotor transmission, the motor rotor shaft sleeve selecting device is used for screening and conveying shaft sleeves of motor rotors, and a plurality of positioning grooves (241) are formed in the motor rotor positioning block (24).

2. The motor rotor shaft sleeve assembling machine as claimed in claim 1, wherein said shaft sleeve sleeving device (33) comprises a fifth air cylinder (331) fixed on the frame (21), a rotating device (332) is connected to one side of a top rod of said fifth air cylinder (331), a sixth air cylinder (333) is fixed on said rotating device (332), a top rod of said sixth air cylinder (333) is connected with a sleeve rod (334) through a first spring, and the diameter of said sleeve rod (334) is larger than a certain value of the motor rotor shaft.

3. The motor rotor shaft sleeve assembling machine as claimed in claim 1, wherein said shaft sleeve pressing device (32) comprises a seventh air cylinder (321) fixed on the frame (21), the top rod of said seventh air cylinder (321) is connected with a pressing rod (322), the front end of said pressing rod (322) is provided with a pressing groove (323), and the depth of said pressing groove (323) is set according to the required pressing distance.

4. The motor rotor shaft sleeve assembling machine as claimed in claim 3, wherein a second spring is connected between the top rod of the seventh air cylinder (321) and the press-in rod (322).

5. The motor rotor shaft sleeve assembling machine as claimed in claim 1, wherein the motor rotor conveying device comprises a feeding rail (22), a discharging rail (23) and a feeding block (25), the feeding rail (22) is provided with a certain inclination, the high end of the feeding rail (22) is used as a feeding end, the lower end of the discharging rail is arranged at one side of a motor rotor positioning block (24), the discharging rail (23) is provided with a certain inclination, the high end of the discharging rail (23) is arranged at the front side of the motor rotor positioning block (24), a rotor moving mechanism (26) is arranged between the feeding rail (22) and the motor rotor positioning block (24), the rotor moving mechanism (26) moves the motor rotor on the feeding rail (22) to the positioning groove (241), the feeding blocks (25) are arranged on two sides of the motor rotor positioning block (24), the motor rotor is used for conveying the motor rotor on the positioning groove (241) to the discharging rail (23).

6. An assembling machine for shaft sleeves of rotors of electric motors as claimed in claim 5, wherein said rotor moving mechanism (26) is vertically connected with a first cylinder (261) for vertical reciprocating motion, said first cylinder (261) is horizontally connected with a second cylinder (263), said second cylinder (263) is fixed on the frame (21), said rotor moving mechanism (26) is provided with a gripper (262), and said gripper (262) is provided with an air extractor.

7. The motor rotor shaft sleeve assembling machine as claimed in claim 1, wherein the motor rotor shaft sleeve selecting device comprises a vibrating part (1) and a screening disc (2) connected to the vibrating part (1), the screening disc (2) comprises a shaft sleeve pool (3) and a spiral ascending feeding rail arranged on the inner wall of the screening disc (2), the vibrating part (1) vibrates the screening disc (2) to enable a shaft sleeve in the shaft sleeve pool (3) to perform feeding motion along the feeding rail, a falling-preventing wall (11) is arranged on the outer side of the feeding rail, and the feeding rail comprises an initial rail (4), a single-row rail (5), a screening rail (6) and an output rail (7) which are connected in sequence.

8. An electric motor rotor shaft sleeve assembling machine as claimed in claim 7, characterized in that a deflector rod (8) is arranged between the initial rail (4) and the one-way rail (5), the bottom of the deflector rod (8) is fixed on the included angle between the falling-prevention wall (11) and the one-way rail (5), the deflector rod (8) is deflected to the inner side of the one-way rail (5) at a certain angle, so that the horizontal distance between the top of the deflector rod (8) and the inner side of the one-way rail (5) is the maximum outer diameter of the shaft sleeve.

9. An electric motor rotor bushing assembling machine as claimed in claim 8, characterized in that said initial rail (4) is positioned at a distance above the outer side, said screening rail (6) is positioned at a distance above the inner side, and said one-way rail (5) is used to smoothly connect the initial rail (4) and the screening rail (6).

10. An electric motor rotor bushing assembling machine as claimed in claim 9, characterized in that said screening rail (6) is provided with a height baffle (9) inside, said output rail (7) comprises a horizontal output section and a posture adjusting section (10), said posture adjusting section (10) is connected with the screening rail (6) to adjust the bushing with a certain angle and conforming to the set posture into a horizontal bushing conforming to the set posture, and to output the horizontal bushing conforming to the set posture from the horizontal output section.

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