CN211708554U - Bearing press-fitting line - Google Patents

Abstract

The utility model provides a bearing press fitting line, including a supporting bench, all locate bearing feeding equipment, bearing equipment of impressing, guide equipment on the supporting bench to and compress tightly equipment, bearing feeding equipment is used for storing the bearing to send into bearing equipment of impressing one by one, bearing equipment of impressing is equipped with two, and is used for the pivot of impressing the rotor both ends with the bearing respectively, guide equipment is used for leading the rotor to being close to bearing equipment of impressing department, it is in to compress tightly equipment when bearing equipment of impressing is on the rotor, is used for the stationary rotor position. The utility model discloses in, bearing feeding equipment carries the bearing to two among the bearing impress equipment, then two bearing impress equipment impresses two bearings respectively in the pivot that is located the rotor both ends of guide equipment, has realized automated processing production, has reduced the waste of cost of labor to production efficiency has been improved greatly.

Description

Bearing press-fitting line

Technical Field

The utility model relates to the technical field of machining, especially, relate to a bearing press-fitting line.

Background

With the rapid development of economy, the mode of production and processing by manpower in a factory can not meet the development requirements gradually, in the production and manufacturing of the motor, in the traditional processing, an operator needs to manually put one bearing into a lower press-fitting clamping fixture, put a rotor into a press-fitting machine, put the other bearing into the upper end of a rotor rotating shaft, and hold the rotor by hand to carry out bearing press-fitting at two ends.

However, the press-fitting mode is low in automation degree, manual operation is needed, the production efficiency is low, and the operation risk coefficient is large.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a reduce cost of labor's bearing pressure equipment line.

In order to achieve the above object, the present invention provides the following technical solutions:

the utility model provides a bearing press fitting line, includes a supporting bench, all locates bearing feeding equipment, bearing press fitting equipment, guide equipment on the supporting bench to and compress tightly the equipment, bearing feeding equipment is used for storing the bearing to send into bearing press fitting equipment one by one, bearing press fitting equipment is equipped with two, and is used for the pivot at the rotor both ends of impressing the bearing respectively, guide equipment is used for leading the rotor to being close to bearing press fitting equipment department, it is in to compress tightly the equipment when bearing press fitting equipment impresses the bearing on the rotor for the fixed rotor position.

Preferably, the material guiding device comprises a slide, a processing station and a separating mechanism, the slide is obliquely and downwards arranged on the supporting table, the processing station is arranged on the slide and used for positioning the rotor so as to press the bearing into the rotor by the bearing press-in device, and the separating mechanism is used for driving the rotor to separate from the processing station.

Preferably, the slide includes two vertically arranged and mutually opposite guide plates, a gap between the two guide plates is provided for the rotor to partially extend into, and tops of the two guide plates are respectively used for abutting against a rotating shaft of the rotor, so that the rotor is displaced along the two guide plates.

Preferably, the processing station is a positioning groove formed in the two material guide plates, the two positioning grooves are opposite to each other, and the two positioning grooves are used for enabling the rotating shafts at the two ends of the rotor to extend into and position the rotor.

Preferably, the separation mechanism includes a separation block disposed between the two guide plates, and a separation driving assembly for driving the separation block to extend to between the two positioning slots, so as to push the rotor out of between the two positioning slots.

Preferably, the compacting device comprises compacting blocks located above the two positioning grooves, and a compacting driving assembly used for driving the compacting blocks to compact the rotors located on the two positioning grooves.

Preferably, bearing feeding equipment is including the rotatory feed bin that is used for storing the bearing, be used for with bearing in the rotatory feed bin carries out the material feeding unit who pay-off one by one to and rotary drive device, rotatory feed bin all is equipped with a plurality of stations of depositing that are used for depositing the bearing along the circumferencial direction, rotary drive device is used for the drive rotatory feed bin rotates to the station of depositing rotates to material feeding unit department.

Preferably, rotatory feed bin includes the carousel to and all locate along the carousel circumferencial direction a plurality of on the carousel deposit the station, the carousel passes through the rotation driving device drive rotates.

Preferably, the bearing press-in equipment comprises a material storage device, a material distribution device, a press-in station and a press-in driving device, wherein the material storage device is used for storing the bearings, the material distribution device is used for sorting the bearings in the material storage device one by one to the press-in station, and the press-in station is used for placing the bearings and driving the press-in station to press the bearings into a rotating shaft of the rotor through the press-in driving device.

Preferably, the material storage device comprises a material storage plate arranged in the vertical direction, a material storage groove for the bearing to pass through is formed in the material storage plate in the vertical direction, a blocking plate for preventing the bearing from being separated from the material storage plate is arranged on a groove cover of the material storage groove, and the material distribution device is arranged below the material storage plate and used for sorting the bearing.

Compared with the prior art, the utility model discloses a scheme has following advantage:

the utility model discloses in, bearing feeding equipment carries the bearing to two among the bearing impress equipment, then two bearing impress equipment impresses two bearings respectively in the pivot that is located the rotor both ends of guide equipment, has realized automated processing production, has reduced the waste of cost of labor to production efficiency has been improved greatly.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a perspective view of an overall structure of an embodiment of the present invention;

FIG. 2 is an enlarged view of FIG. 1 at A;

FIG. 3 is a perspective view of the middle bearing feeding device of the present invention;

FIG. 4 is a perspective view of the middle bearing feeding device of the present invention in another direction;

fig. 5 is a perspective view of the middle bearing press-in device of the present invention;

fig. 6 is an enlarged view of fig. 5 at B.

Reference numerals: 1. a support table; 2. a control unit; 3. a bearing feeding device; 31. a feeding support frame; 32. rotating the stock bin; 321. storing the station; 3211. a limiting column; 322. a turntable; 3221. a limiting groove; 33. a limiting device; 331. inserting a block; 332. a limiting cylinder; 34. a material storage detection device; 341. mounting a bracket; 342. a material storage detection switch; 35. a feeding device; 351. fixing the disc; 352. a feeding mechanism; 3521. a feeding plate; 3522. a feed chute; 3523. a pushing block; 3524. a push cylinder; 4. a bearing press-in device; 41. a material storage device; 411. storing a material plate; 412. a material storage groove; 413. a blocking plate; 42. a material distributing device; 421. a material distributing fixing plate; 422. a material distributing and moving plate; 4221. an avoidance groove; 423. a material distribution driving assembly; 43. pressing into a station; 431. pressing the block; 432. pressing the groove; 44. mounting a plate; 45. pressing in a driving device; 451. a drive block; 452. pressing in a slide rail; 453. pressing into the platform; 454. driving the screw rod; 455. pressing in a driving piece; 46. a guide rail; 47. a pressure sensor; 48. a stock detection switch; 49. divide material detection switch.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present invention, and should not be construed as limiting the present invention.

It will be understood by those within the art that, unless expressly stated otherwise, the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. As used herein, the term "and/or" includes all or any element and all combinations of one or more of the associated listed items.

As shown in fig. 1 to 6, the utility model relates to a bearing press-fitting line, including a supporting bench 1, all locate bearing feeding equipment 3, bearing impress equipment 4, guide equipment on the supporting bench 1 to and compress tightly the equipment, bearing feeding equipment 3 is used for storing the bearing to send into bearing impress equipment 4 one by one, bearing impress equipment 4 is equipped with two, and is used for the pivot at bearing impress rotor both ends respectively, guide equipment is used for the direction rotor to being close to bearing impress equipment 4's position department, it is in to compress tightly equipment when bearing impress equipment 4 impresses the bearing on the rotor, is used for the fixed rotor position. The bearing feeding equipment 3, the bearing pressing-in equipment 4, the material guiding equipment and the pressing equipment are controlled to work by the control unit 2.

The utility model discloses in, bearing feeding equipment 3 carries the bearing to two among the bearing impress equipment 4, then two bearing impress equipment 4 impresses two bearings respectively in the pivot that is located the rotor both ends of guide equipment, has realized automated processing production, has reduced the waste of cost of labor to production efficiency has been improved greatly.

Guide equipment includes slide, processing station to and break away from mechanism (not shown in the figure, lower with), the slide slope is located downwards prop up supporting bench 1 and go up planar middle part, processing station is equipped with two, two processing station and two 4 one-to-ones of bearing equipment of impressing, two processing station locates the slide middle part, and two processing station follows slide direction interval sets up, processing station is used for when rotor displacement to processing station, fixes a position rotor position to supply 4 bearing of equipment of impressing of bearing to break away from in the pivot of rotor, break away from the mechanism and be used for driving the rotor and break away from processing station.

The supporting table 1 is provided with two guide fixing seats which are opposite to each other, a gap is reserved between the two guide fixing seats, the slide way comprises two vertically arranged guide plates which are opposite to each other, the two guide plates are respectively fixed on the upper parts of the two guide fixing seats which are opposite to each other, a rotor part extends into the gap between the two guide plates, and rotating shafts at the two ends of the rotor are abutted against the tops of the two guide plates, so that the rotor moves along the direction of the guide plates.

The processing station is provided with positioning grooves formed in the two material guide plates, the positioning grooves are arc-shaped grooves, the two positioning grooves are opposite to each other, and the two positioning grooves are used for enabling rotating shafts at two ends of the rotor to extend into the positioning grooves so as to achieve rotor positioning.

The separation mechanism comprises a separation block (not shown in the figure, the lower part is the same) arranged between the two guide fixing seats and a separation driving assembly (not shown in the figure, the lower part is the same) for driving the separation block to extend to a position between the two positioning grooves and continue to displace along the guide plate, the separation block and the separation driving assembly are both arranged below the positioning grooves relatively, the separation driving assembly is preferably a separation driving cylinder fixed on the guide fixing seats, and a telescopic rod of the separation driving cylinder is fixedly connected with the separation block.

The pressing device is provided with two pressing devices and two processing stations in one-to-one correspondence, each pressing device comprises a pressing fixing seat fixed on the supporting table 1 and located on one side of each processing station, pressing blocks arranged on the pressing fixing seats and a pressing driving assembly, the pressing driving assembly is preferably a pressing driving cylinder, the pressing blocks are located on two opposite positioning grooves, the pressing driving cylinders are used for driving the pressing blocks to move towards the two opposite positioning grooves so as to be used for positioning the rotor to the two opposite positioning grooves in a displacement mode, the pressing blocks press the rotor to the two opposite positioning grooves, and therefore the bearing pressing device 4 can work conveniently.

Preferably, the pressing device further comprises a butting block fixed on the pressing fixed seat, and the butting block is opposite to the two opposite positioning grooves.

Bearing feeding equipment 3 is including being fixed in pay-off support frame 31 on the supporting bench 1, all locates rotatory feed bin 32, material feeding unit 35 on the pay-off support frame 31 to and rotary drive device, rotatory feed bin 32 be used for storing the bearing material feeding unit 35 be used for with pay-off is carried out one by one to the bearing in the rotatory feed bin 32, rotatory feed bin 32 all is equipped with a plurality of stations 321 of depositing that are used for depositing the bearing along the circumferencial direction, rotary drive device is used for the drive rotatory feed bin 32 rotates to the station 321 of will depositing rotates to material feeding unit 35 department.

Rotatory feed bin 32 has stored a plurality of bearings to material feeding unit 35 is used for with the bearing that rotatory feed bin 32 stored carries out the pay-off one by one, need not manual operation and gets the material one by one, realizes automatic pay-off, has reduced the cost of labor, and has improved production efficiency.

Rotatory feed bin 32 is including locating carousel 322 on the pay-off support frame 31 to and all locate along carousel 322 circumferencial direction a plurality of on the carousel 322 deposit station 321, carousel 322 passes through the rotation driving device drive rotates.

The storage station 321 comprises three limiting columns 3211 vertically fixed on the turntable 322, a triangular space is enclosed by the three limiting columns 3211 for placing bearings, and a plurality of bearings are horizontally stacked among the three limiting columns 3211.

Preferably, the top ends of the limiting columns 3211 are truncated cone-shaped, so that the bearings can be conveniently stacked among the three limiting columns 3211.

The rotary table 322 is provided with a plurality of avoiding holes (not shown in the figure, the same below) for allowing the bearings to pass through between the three limiting posts 3211 of the storage station 321, the feeding device 35 comprises a fixed disc 351 and a feeding mechanism 352, the fixed disc 351 is provided with two avoiding holes (not shown in the figure, the same below), the two avoiding holes correspond to the two avoiding holes one by one, the two avoiding holes are located at two ends of the fixed disc 351 along the diameter direction of the fixed disc, when the avoiding holes of the rotary table 322 are aligned to the avoiding holes, the bearings can fall into the avoiding holes of the fixed disc 351 from the storage station 321, the feeding mechanism 352 is provided with two feeding mechanisms 352 corresponding to the two avoiding holes one by one, and the two feeding mechanisms 352 correspond to the two bearing pressing devices 4 one by one, two feeding mechanism 352 all locates fixed disk 351 below and be located two the hole below of stepping down. The fixed disc 351 is provided with two yielding holes so as to synchronously send the bearing to the bearing press-in equipment 4 through the feeding mechanism 352.

Opening (not shown in the figure, lower with) has been seted up at fixed disk 351 middle part, rotary drive device is including being fixed in the rotary drive motor (not shown in the figure, lower with), belt pulley (not shown in the figure, lower with), belt (not shown in the figure, lower with) on the pay-off support frame 31 to and rotary drive axle (not shown in the figure, lower with), rotary drive axle one end is passed fixed in on fixed disk 351 opening and being fixed in carousel 322, its other end is fixed with the belt pulley, be fixed with on rotary drive motor's the output shaft the belt pulley, the belt is around locating two on the belt pulley, in order to drive through rotary drive motor carousel 322 rotates.

Feeding mechanism 352 is including locating the feed plate 3521 of fixed disk 351 below to and the propelling movement subassembly, the feed plate 3521 level is placed, the one end of feed plate 3521 is located the hole department of stepping down of fixed disk 351, and its other end is located bearing impress equipment 4 department, feed chute 3522 has been seted up on the feed plate 3521, feed chute 3522 is close to the one end in hole of stepping down is the feed inlet, feed chute 3522 is close to the one end of bearing impress equipment 4 is the discharge gate, feed chute 3522's feed inlet is just right the hole of stepping down of fixed disk 351 to be used for receiving the bearing on the carousel 322 one by one, the propelling movement subassembly is located feed plate 3521 is close to the tip of feed inlet to the bearing that will fall to feed chute 3522 promotes along feed chute 3522's discharge gate direction.

The pushing assembly comprises a pushing block 3523 arranged at one end, close to the feeding port, of the feeding groove 3522 and a pushing cylinder 3524 used for driving the pushing block to push the bearing, the pushing cylinder 3524 is fixed on the feeding support frame 31, and the pushing block 3523 is fixedly connected with an expansion rod of the pushing cylinder 3524.

The pushing block 3523 is driven by the pushing cylinder 3524 to push the bearing falling from the turntable 322 to the feeding groove 3522 to move towards the direction of the discharging opening of the feeding groove 3522, so that the bearing does not influence the next bearing to fall to the feeding groove 3522, and the bearings are fed one by one.

Bearing feeding equipment 3 still includes carousel 322 dodge the hole with fixed disk 351 dodge the hole just right to when carrying the bearing, play restriction carousel 322 pivoted stop device 33.

All be equipped with a plurality of spacing grooves 3221 along the circumferencial direction on the carousel 322 periphery, stop device 33 is including inserting piece 331, and be used for the drive insert piece 331 insert locate spacing cylinder 332 on the spacing groove 3221, spacing cylinder 332 is fixed in on the pay-off support frame 31, insert piece 331 and be fixed in on spacing cylinder 332's the telescopic link, spacing cylinder 332 drive insert piece 331 insert after locating spacing groove 3221, the restriction carousel 322 rotates, in order to guarantee carousel 322 is when defeated material to feeding mechanism 352, carousel 322 can not take place to rotate.

Bearing feeding equipment 3 is still including being used for detecting whether deposit station 321 has still deposited the storage detection device 34 of bearing, storage detection device 34 is fixed in on the pay-off support frame 31, and is close to one of it the hole department of stepping down of fixed disk 351 to whether still deposited the bearing on the station 321 of depositing that is used for detecting this hole of stepping down corresponds.

The storage detection device 34 is fixed in the mounting bracket 341 on the feeding support frame 31 and fixed in the storage detection switch 342 on the mounting bracket 341, the storage detection switch 342 is just opposite to the abdicating hole corresponding to the storage station 321 for detecting whether a bearing is arranged on the storage station 321 which is blanking.

The material storage detection switch 342 detects that the storage station 321 has no bearing, then the driving cylinder drives the plug 331 to exit from the limit groove 3221 so as to remove the limitation on the rotation of the turntable 322, and further the rotary driving motor drives the turntable 322 to rotate so as to drive other storage stations 321 on the turntable 322 to the abdicating opening of the fixed disk 351 so as to continuously feed the bearing to the bearing press-in equipment 4.

The two bearing press-in devices 4 correspond to the two processing stations one by one, one side of each processing station is provided with the pressing device, the bearing press-in equipment 4 is arranged at the other side of the processing station, namely, the two sides of one processing station are respectively provided with the corresponding pressing equipment and the bearing press-in equipment 4, the pressing devices and the bearing pressing devices 4 on two sides of one processing station are opposite to the pressing devices and the bearing pressing devices 4 on two sides of the other processing station, when the bearing pressing-in equipment 4 presses the bearing into the rotating shaft at one end of the rotor, the abutting block on the pressing-in equipment corresponding to the bearing pressing-in equipment 4 abuts against the rotating shaft at the other end of the rotor, therefore, the press-in work of the bearings on the rotating shafts at the two ends of the rotor is completed by arranging the two bearing press-in devices 4 and the two pressing devices.

The bearing press-in equipment 4 comprises a material storage device 41, a material distribution device 42, a press-in station 43 and a press-in driving device 45, wherein the material storage device 41 is used for storing the bearings conveyed to the material conveying structures corresponding to the material storage device, the material distribution device 42 is used for sorting the bearings in the material storage device 41 to the press-in station 43 one by one, and the press-in station 43 is used for placing the bearings and pressing the bearings into a rotating shaft of a rotor through the press-in driving device 45 driving the press-in station 43.

The bearings of the material storage device 41 are sorted out one by one through the material distribution device 42 and are driven to the pressing-in station 43, then the pressing-in driving device 45 drives the pressing-in station 43 to move to the processing station corresponding to the pressing-in station, the bearings are pressed into the rotating shaft of the rotor, the bearing is pressed into the rotating shaft of the rotor, the pressing-in work of the bearings is completed in an automatic mode, an operator does not need to hold the rotor, the safety is improved, the labor cost is saved, and the production and processing efficiency is greatly improved.

The bearing press-in device 4 further comprises a mounting plate 44 fixed on the support table 1, the material storage device 41 comprises a material storage plate 411 arranged along the vertical direction, the material storage plate 411 is fixed on the mounting plate 44, the material storage plate 411 is close to the feeding plate 3521, a material storage groove 412 for a bearing to pass through is vertically arranged on one side of the material storage plate 411 close to the feeding plate 3521, an inclined guide surface (not shown in the figure, the same applies below) is arranged on an opening of the material storage groove 412 close to the feeding plate 3521 so that the bearing is vertically stacked in the material storage groove 412 under the action of the guide surface when the feeding plate 3521 feeds the horizontally arranged bearing into the material storage groove 412, a blocking plate 413 for preventing the bearing from separating from the material storage plate 411 is arranged on a notch cover of the material storage groove 412 close to the feeding plate 3521, and the material distribution device 42 is arranged below the material storage plate 411, for sorting the bearings.

The material distributing device 42 includes a material distributing fixing plate 421, a material distributing moving plate 422, and a material distributing driving assembly 423, which are all fixed on the mounting plate 44, the material distributing driving assembly 423 is preferably a material distributing driving cylinder, the material distributing fixing plate 421 abuts against the lower end of the material storing plate 411, the material distributing fixing plate 421 is provided with a material distributing groove (not shown in the figure, the same below) along the horizontal direction for a bearing to pass through, a feed inlet extending upward at one end of the material distributing groove is communicated with the material storing groove 412, a discharge outlet extending downward at the other end thereof is communicated to the pressing-in station 43, the material distributing moving plate 422 abuts against one side of the material distributing fixing plate 421 where the material distributing groove is opened, the material distributing moving plate 422 is used for blocking the bearing in the material storing groove 412 from falling into the material distributing groove, and an avoiding groove 4221 for the bearing, the material distributing driving assembly 423 is used for driving the material distributing moving plate 422 to move.

The station 43 of impressing is including locating the pressing block 431 under the discharge gate of distributing groove, pressing block 431 offers the groove 432 of impressing that is used for placing the bearing, pressing groove 432 bottom is the circular arc groove to be used for stably placing the bearing, pressing groove 432 just rather than corresponding the processing station, just pressing groove 432 just is to one side opening of this processing station, pressing block 431 with drive arrangement 45 of impressing is connected to supply pressing block 431 to drive the bearing to impress in the rotor pivot.

The press-in driving device 45 includes a press-in driving mechanism for driving the press-in block 431 to move in the direction of the rotation axis of the rotor. The press-in driving mechanism comprises a driving block 451 connected to the press-in block 431 and a press-in driving assembly for driving the bearing of the press-in station 43 to press in the rotating shaft of the rotor. The driving block 451 is fixedly connected to one side of the pressing block 431 away from the machining station, so that the pressing block 431 is pushed to move towards the machining station through the pressing driving assembly, and finally the bearing is pressed onto the rotating shaft of the rotor.

The press-in driving component comprises a press-in sliding rail 452, a press-in platform 453 and a driving screw rod 454, and a press-in driver 455, said press-in driver 455 preferably being a press-in drive motor, two press-in sliding rails 452 are provided, and the two press-in sliding rails 452 are parallel to each other, and fixed to the support table 1, the press-in platform 453 is connected to the press-in slide rail 452, and can slide relative to the press-in slide rail 452, the lower part of the press-in platform 453 is connected with the driving screw rod 454 in a threaded manner, the press-in driving piece 455 is used for driving the driving screw rod 454 to rotate, so as to drive the press-in platform 453 to slide along the press-in slide rail 452, the driving block 451 is connected to the press-in platform 453, so as to push the pressing block 431 to move towards the processing station corresponding to the pressing block 431 by pressing the driving block 451 through the pressing driving piece 455.

Preferably, a guide rail 46 is arranged on the press-in platform 453 along a direction parallel to the press-in slide rail 452, the driving block 451 is connected to the guide rail 46 and can slide relative to the guide rail 46, a pressure sensor 47 is arranged at one end of the press-in platform 453, which is located at the end of the guide rail 46, which is far away from the press-in station 43, and the pressure sensor 47 is used for detecting the pressure when the driving block 451 drives the press-in station 43 to press the bearing into the rotor rotating shaft and limiting the pressure applied by the driving block 451 to the press-in station 43 when the bearing is pressed in, to not.

The upper portion of the material storage plate 411 is provided with a material storage detection switch 48 for detecting material storage of the material storage plate 411, the material storage detection switch 48 is connected to the upper portion of the material storage plate 411 to detect whether a bearing is stored on the upper portion of the material storage plate 411, if the bearing is stored, the material storage groove 412 is full of the bearing, and the feeding mechanism 352 is stopped to continue feeding the material to the material storage plate 411.

The material distributing fixing plate 421 is provided with a material distributing detection switch 49 for detecting whether a bearing passes through. Whether a bearing falls into the pressing-in groove 432 of the pressing-in block 431 from the material storage groove 412 is identified through the material distribution detection switch 49, and when the bearing falls into the pressing-in groove 432 is identified, the driving block 451 is driven by the pressing-in driving motor to drive the pressing-in block 431 to move towards the corresponding processing station, and the bearing is pressed into a rotating shaft of a rotor of the processing station.

The foregoing is only a partial embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a bearing press fitting line which characterized by: including a supporting bench, all locate bearing feeding equipment, bearing impress equipment, guide equipment on the supporting bench to and compress tightly the equipment, bearing feeding equipment is used for storing the bearing to send into bearing impress equipment one by one, bearing impress equipment is equipped with two, and is used for the pivot at the rotor both ends of impressing the bearing respectively, guide equipment is used for leading the rotor to being close to bearing impress equipment department, it is in to compress tightly the equipment when bearing impress equipment impress bearing on the rotor for the fixed rotor position.

2. The bearing press-fit line according to claim 1, wherein: the guide equipment comprises a slide, a processing station and a separation mechanism, the slide is obliquely and downwards arranged on the supporting table, the processing station is arranged on the slide and used for positioning the rotor so that the bearing pressing equipment can press the bearing into the rotor, and the separation mechanism is used for driving the rotor to separate from the processing station.

3. The bearing press-fit line according to claim 2, wherein: the slide way comprises two material guide plates which are vertically arranged and are opposite to each other, a rotor part extends into a gap between the two material guide plates, and the tops of the two material guide plates are respectively used for being abutted against a rotating shaft of the rotor so as to enable the rotor to move along the two material guide plates.

4. A bearing press-fit line according to claim 3, wherein: the processing station is a positioning groove arranged on the two material guide plates, the two positioning grooves are opposite to each other, and the two positioning grooves are used for enabling the rotating shafts at the two ends of the rotor to extend into and position the rotor.

5. The bearing press-fit line according to claim 4, wherein: the separation mechanism comprises a separation block arranged between the two guide plates and a separation driving assembly for driving the separation block to extend to a position between the two positioning grooves, so that the rotor is pushed out of the position between the two positioning grooves.

6. The bearing press-fit line according to claim 5, wherein: the pressing equipment comprises pressing blocks located above the two positioning grooves and a pressing driving assembly used for driving the pressing blocks to press and position the rotors on the two positioning grooves.

7. The bearing press-fit line according to claim 1, wherein: bearing feeding equipment is including the rotatory feed bin that is used for storing the bearing, be used for with bearing in the rotatory feed bin carries out the material feeding unit of pay-off one by one to and rotary drive device, rotatory feed bin all is equipped with a plurality of stations of depositing that are used for depositing the bearing along the circumferencial direction, rotary drive device is used for the drive rotatory feed bin rotates to deposit the station and rotate to material feeding unit department.

8. The bearing press-fit line according to claim 7, wherein: rotatory feed bin includes the carousel to and all locate along the carousel circumferencial direction a plurality of on the carousel deposit the station, the carousel passes through the rotation driving device drive rotates.

9. The bearing press-fit line according to claim 1, wherein: the bearing press-in equipment comprises a material storage device, a material distribution device, a press-in station and a press-in driving device, wherein the material storage device is used for storing bearings, the material distribution device is used for sorting the bearings in the material storage device one by one to the press-in station, and the press-in station is used for placing the bearings and driving the press-in station to press the bearings into a rotating shaft of a rotor through the press-in driving device.

10. The bearing press-fit line according to claim 9, wherein: the material storage device comprises a material storage plate arranged in the vertical direction, a material storage groove used for allowing the bearing to pass through is formed in the material storage plate in the vertical direction, a blocking plate used for preventing the bearing from being separated from the material storage plate is arranged on a groove opening cover of the material storage groove, and the material distribution device is arranged below the material storage plate and used for sorting the bearing.

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