CN210536474U

CN210536474U - Device for automatically feeding bearing and adding glue

Info

Publication number: CN210536474U
Application number: CN201921444356.9U
Authority: CN
Inventors: 方绍林
Original assignee: Zhejiang Wanguan Motor Co ltd
Current assignee: Zhejiang Wanguan Motor Co ltd
Priority date: 2019-08-06
Filing date: 2019-09-02
Publication date: 2020-05-15
Anticipated expiration: 2029-09-02
Also published as: CN110391722A

Abstract

The utility model discloses an automatic bearing feeding and gluing device, which comprises a base (1), a workpiece fixing seat (2), a bearing assembling device (3) and a gluing device (4), wherein the workpiece fixing seat (2), the bearing assembling device (3) and the gluing device (4) are matched and fixedly arranged on the base (1); the workpiece fixing seat (2) is used for fixing the rotor (5), the bearing assembling device (3) is used for sleeving the fixed rotor (5) into the bearing (6), and the glue adding device (4) is used for adding glue for fixing the bearing (6) which is installed in place. The utility model adopts the above structure, can accomplish the cup joint assembly of bearing and add gluey fixed technology to the rotor in proper order, both fix a position accurately, easy operation can process in batches again, economical and practical.

Description

Device for automatically feeding bearing and adding glue

Technical Field

The utility model belongs to the technical field of the motor assembly, especially, relate to an automatic go into bearing and add device of gluing.

Background

An Electric machine (also known as "motor") refers to an electromagnetic device that converts or transmits Electric energy according to the law of electromagnetic induction. The rotor is an essential important component of the motor, and in order to realize the relative rotation between the rotor and the stator, two bearings are sleeved at two ends of a rotating shaft of the rotor respectively and are fixed by adding glue; the existing common rotor bearing sleeving and gluing processes are distributed, so that labor is consumed, time is wasted, and the working efficiency cannot be improved.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The to-be-solved technical problem of the utility model is to provide a can embolia the bearing and add gluey fixed bearing assembly quality for the rotor is automatic.

(II) technical scheme

In order to solve the technical problem, the utility model provides a device for automatically feeding and adding glue into a bearing, which comprises a base, a workpiece fixing seat, a bearing assembling device and a glue adding device, wherein the workpiece fixing seat, the bearing assembling device and the glue adding device are matched and fixedly arranged on the base; the workpiece fixing seat is used for fixing the rotor, the bearing assembling device is used for sleeving the fixed rotor into the bearing, and the glue adding device is used for adding glue to fix the bearing which is installed in place.

The top end of the workpiece fixing seat is provided with a U-shaped mounting rack with an upward opening, and the tops of two open ends of the U-shaped mounting rack are provided with U-shaped open slots which are coaxially distributed and matched with a rotating shaft of the rotor; the rotor is fixed on the workpiece fixing seat by clamping and embedding two ends of the rotating shaft in the U-shaped open slot.

The space between the U-shaped openings of the U-shaped mounting frame is matched with the axial width of the rotor main body of the rotor except the rotating shaft.

The bearing assembling device comprises a left bearing fixing seat, a right bearing moving seat, a first pressure device, a first pressure telescopic rod, a first fixing plate and a sliding rod; a workpiece sliding hole which is parallel to the axial direction of the U-shaped open slot and is matched with the sliding rod is formed in the side surface of the bottom end of the workpiece fixing seat; the side surface of the bottom end of the right bearing moving seat is also provided with a bearing sliding hole matched with the sliding rod, the side surface of the top end of the right bearing moving seat is also provided with a right bearing sleeve hole which is parallel to the axial direction of the bearing sliding hole and is matched with the bearing, and the bottom end of the right bearing sleeve hole is provided with a right rotating shaft moving hole which is coaxial with the right bearing sleeve hole and is matched with the rotating shaft; the side surface of the top end of the left bearing fixing seat is provided with a left bearing sleeve hole matched with the bearing, and the bottom end of the left bearing sleeve hole is provided with a left rotating shaft moving hole which is coaxial with the left bearing sleeve hole and matched with the rotating shaft; the middle of the first fixing plate is provided with a through hole matched with the first pressure telescopic rod;

the left bearing fixing seat and the first fixing plate are fixed on the base in a matching mode, and two ends of the sliding rod are fixed between the left bearing fixing seat and the first fixing plate in a matching mode; the workpiece fixing seat is arranged between the left bearing fixing seat and the first fixing plate in a matching manner and is movably sleeved on the sliding rod through a workpiece sliding hole; the right bearing moving seat is arranged between the workpiece fixing seat and the first fixing plate in a matching manner and movably sleeved on the sliding rod through a bearing sliding hole; the left bearing sleeve hole, the U-shaped open slot, the right bearing sleeve hole and the through hole are coaxially distributed; the first pressure device is matched and fixed on the outer side surface of the first fixing plate, one end of the first pressure telescopic rod is matched with the first pressure device for telescopic linkage, and the other end of the first pressure telescopic rod coaxially penetrates through the through hole and then is matched and fixedly connected with the right bearing moving seat.

The number of the sliding rods is two, and the two sliding rods are distributed in parallel; the number of the workpiece sliding holes and the number of the bearing sliding holes are two respectively matched with the sliding rods.

The glue adding device comprises a second fixing plate, a second pressure device, a second pressure telescopic rod, a fixed glue moving seat and a fixed glue injector; the second fixing plate is fixed on the base in a matching mode, and the second pressure device is fixed at the top end of the second fixing plate in a matching mode; the second pressure telescopic rods are vertically distributed, one end of each second pressure telescopic rod is matched with the second pressure device for telescopic linkage, and the other end of each second pressure telescopic rod is fixedly connected with the fixed glue moving seat; the injection ends of the two fixed glue injectors are vertically and downwards fixed on the fixed glue moving seat; the distance between the injection ends of the two fixed glue injectors is matched with the distance between the two bearings sleeved in place on the rotor; the injection ends of the two fixed glue injectors are positioned right above the bearings matched with the fixed glue injectors when the fixed glue injectors are sleeved in place.

Wherein, the top of the fixed glue injector is connected with a ventilation pressure pipeline and realizes the pressure injection of the fixed glue through the ventilation pressure pipeline.

Wherein, two clamps matched with the fixed glue injector are arranged on the fixed glue moving seat, and the axes of the clamping holes of the clamps are vertically distributed; the fixed glue injector is clamped and fixed on the fixed glue moving seat through a clamp.

The device for automatically feeding the bearing and adding the glue also comprises a rotary driving device, wherein the rotary driving device comprises a driving motor, a driving wheel and a driven wheel, and the driving wheel is matched with a driving shaft of the driving motor and is in transmission connection; the driving motor and the driven wheel are fixedly connected to the workpiece fixing seat, the driving wheel and the driven wheel are symmetrically distributed on two sides of the U-shaped mounting frame, and the axes of the driving wheel and the driven wheel are distributed in parallel with the axis of the U-shaped open slot; the rotary driving device is in matched transmission connection with the rotor through a transmission belt between the driving wheel and the driven wheel to realize that the rotor rotates by taking the axis line as the axis.

The device for automatically feeding the bearing and adding the glue further comprises a control device, and the control device is respectively matched and controlled to be connected with the first pressure device, the second pressure device, the driving motor and the air pressure output equipment at the top end of the fixed glue injector.

(III) advantageous effects

Compared with the prior art, the utility model utilizes the mechanical structure to position the rotor, cup joint the bearing and glue and fix, the positioning is accurate, the installation is convenient, the full-automatic batch assembly of the rotor bearing can be realized, and the utility model is economical and practical; the U-shaped mounting rack on the workpiece fixing seat is arranged, so that the rotor workpiece can be simply placed and fixed, the taking and the placing are simple, and the operation is convenient; in addition, this product can realize cup jointing the bearing and add the full automatic operation who glues through controlling means key start work, uses manpower sparingly and time, effectively increases work efficiency.

Drawings

Fig. 1 is a schematic structural diagram of the device for automatically feeding bearing and adding glue according to the present invention.

Fig. 2 is a schematic structural view of the rotor of the present invention.

Fig. 3 is a schematic structural diagram of the automatic bearing feeding and glue adding device with a rotor according to the present invention.

Description of reference numerals: 1. a base; 2. a workpiece fixing seat; 3. a bearing assembly device; 4. a glue adding device; 5. a rotor; 6. a bearing; 7. a rotation driving device; 8. a control device; 21. a U-shaped mounting bracket; 22. a workpiece sliding hole; 31. a left bearing fixing seat; 32. a right bearing moving seat; 33. a first pressure device; 34. a first pressure telescoping rod; 35. a first fixing plate; 36. a slide bar; 41. a second fixing plate; 42. a second pressure device; 43. a second pressure telescopic rod; 44. a fixed glue moving seat; 45. a fixed glue injector; 51. a rotating shaft; 52. a rotor body; 71. a drive motor; 72. a drive wheel; 73. a driven wheel; 211. a U-shaped open slot; 311. a left bearing sleeve hole; 321. a bearing sliding hole; 322. a right bearing sleeve hole; 351. a through hole; 441. a clamp; 451. an injection end; 3111. a left rotating shaft movable hole; 3221. a movable hole of the right rotating shaft.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

Fig. 1 and fig. 1 are schematic structural views of the automatic bearing feeding and gluing device of the present invention, which mainly embodies that the automatic bearing feeding and gluing device of the present invention is composed of a base 1, a workpiece fixing seat 2, a bearing assembling device 3, a gluing device 4, a rotation driving device 7 and a control device 8, and the structural composition and connection relationship of each component; fig. 2 is a schematic structural diagram of the rotor of the present invention, which emphasizes the rotor 5, the bearing 6, the rotating shaft 51 and the rotor body 52, and the connection relationship between them after they are assembled in place; fig. 3 is a schematic structural diagram of the automatic bearing feeding and glue adding device with a rotor according to the present invention, and mainly shows a schematic fixing diagram of the rotor 5 on the automatic bearing feeding and glue adding device.

The structure of the device for automatically feeding and adding glue into a bearing of the utility model is shown in figure 1, the device for automatically feeding and adding glue into a bearing comprises a base 1, a workpiece fixing seat 2, a bearing assembling device 3 and a glue adding device 4, wherein the workpiece fixing seat 2, the bearing assembling device 3 and the glue adding device 4 are fixedly arranged on the base 1 in a matching way; the workpiece fixing seat 2 is used for fixing the rotor 5, the bearing assembling device 3 is used for sleeving the fixed rotor 5 into the bearing 6, and the glue adding device 4 is used for adding glue to the bearing 6 which is installed in place for fixing. The above structure is adopted in the utility model, utilize mechanical structure to cup joint the bearing and glue fixedly for the rotor location promptly, fix a position accurately, simple to operate can realize rotor bearing's full-automatic batch assembly, and is economical practical again.

In this embodiment, the top end of the workpiece fixing seat 2 is provided with a U-shaped mounting bracket 21 with an upward opening, and the tops of two open ends of the U-shaped mounting bracket 21 are provided with U-shaped open slots 211 which are coaxially distributed and matched with the rotating shaft 51 of the rotor 5; the rotor 5 is fixed on the workpiece fixing seat 2 by clamping and embedding two ends of the rotating shaft 51 in the U-shaped opening groove 211. The utility model discloses an foretell rotor fixing device for putting of rotor is fixed very convenient, only need the manual work pick up the rotor simply put go make the pivot card imbed the U-shaped open slot can.

In this embodiment, the distance between the U-shaped openings of the U-shaped mounting frame 21 is matched with the axial width of the rotor body 52 of the rotor 5 except the rotating shaft 51, so as to effectively limit the axial movement of the rotor 5 and ensure the stability of the bearing 6 in axial sleeving; the thickness of the two open ends of the U-shaped mounting frame 21 is the distance between the bearing 6 and the rotor body 52 after the bearing 6 is mounted in place, i.e. the assembly and positioning of the bearing 6 are ensured, and the bearing 6 can be sleeved in place in one step.

In this embodiment, the bearing assembling apparatus 3 includes a left bearing fixing seat 31, a right bearing moving seat 32, a first pressure device 33, a first pressure expansion rod 34, a first fixing plate 35 and a sliding rod 36; the side surface of the bottom end of the workpiece fixing seat 2 is provided with a workpiece sliding hole 22 which is parallel to the axial direction of the U-shaped open slot 211 and is matched with the sliding rod 36; the side surface of the bottom end of the right bearing moving seat 32 is also provided with a bearing sliding hole 321 matched with the sliding rod 36, the side surface of the top end of the right bearing moving seat 32 is also provided with a right bearing sleeve hole 322 which is parallel to the axial direction of the bearing sliding hole 321 and matched with the bearing 6, and the bottom end of the right bearing sleeve hole 322 is provided with a right rotating shaft moving hole 3221 which is coaxial with the right bearing sleeve hole and matched with the rotating shaft 51; a left bearing sleeve hole 311 matched with the bearing 6 is formed in the side face of the top end of the left bearing fixing seat 31, and a left rotating shaft moving hole 3111 which is coaxial with the left bearing sleeve hole 311 and matched with the rotating shaft 51 is formed in the bottom end of the left bearing sleeve hole 311; a through hole 351 matched with the first pressure telescopic rod 34 is formed in the middle of the first fixing plate 35;

the left bearing fixing seat 31 and the first fixing plate 35 are fixed on the base 1 in a matching manner, and two ends of the sliding rod 36 are fixed between the left bearing fixing seat 31 and the first fixing plate 35 in a matching manner; the workpiece fixing seat 2 is arranged between the left bearing fixing seat 31 and the first fixing plate 35 in a matching manner and movably sleeved on the sliding rod 36 through the workpiece sliding hole 22; the right bearing moving seat 32 is arranged between the workpiece fixing seat 2 and the first fixing plate 35 in a matching manner and movably sleeved on the sliding rod 36 through a bearing sliding hole 321; the left bearing sleeve hole 311, the U-shaped open slot 211, the right bearing sleeve hole 322 and the through hole 351 are coaxially distributed; the first pressure device 33 is fixed on the outer side surface of the first fixing plate 35 in a matching manner, one end of the first pressure expansion link 34 is in matching, extending and retracting linkage with the first pressure device 33, and the other end of the first pressure expansion link 34 coaxially penetrates through the through hole 351 and then is in matching and fixed connection with the right bearing moving seat 32. The cross section of the sliding rod 36 is of a non-circular structure, so that the radial rotation of the workpiece fixing seat 2 and the right bearing moving seat 32 is effectively limited, and the coaxial stability of the bearing 6 during pressing is ensured.

The utility model adopts the above structure's bearing assembly quality 3, can cup joint two bearings 6 respectively in left bearing cup joints hole 311 and right bearing cup joints hole 322 in to drive first pressure telescopic link 34 through first pressure device 33 and promote right bearing and remove seat 32 and remove to work piece fixing base 2, and then the extrusion drives work piece fixing base 2 and embolias rotor 5's pivot 51 to two bearings 6 in moving together and assemble in place, simple structure is practical again.

In the embodiment, two sliding rods 36 are provided, and the two sliding rods 36 are distributed in parallel, so that smooth movement of the workpiece fixing seat 2 and the right bearing moving seat 32 is ensured, radial rotation of the workpiece fixing seat 2 and the right bearing moving seat 32 is effectively prevented, and the workpiece fixing seat and the right bearing moving seat are stable and smooth; the number of the workpiece slide holes 22 and the number of the bearing slide holes 321 are also two in accordance with the slide bars 36.

In this embodiment, the glue adding device 4 includes a second fixing plate 41, a second pressure device 42, a second pressure expansion rod 43, a fixing glue moving seat 44 and a fixing glue injector 45; the second fixing plate 41 is fixed on the base 1 in a matching way, and the second pressure device 42 is fixed at the top end of the second fixing plate 41 in a matching way; the second pressure telescopic rods 43 are vertically distributed, one end of each second pressure telescopic rod is matched with the second pressure device 42 for telescopic linkage, and the other end of each second pressure telescopic rod 43 is fixedly connected with the fixed glue moving seat 44; the number of the fixed glue injectors 45 is two, and the injection ends 451 of the two fixed glue injectors 45 are vertically fixed on the fixed glue moving seat 44 downwards; the distance between the injection ends 451 of the two fixed glue injectors 45 is matched with the distance between the two bearings 6 sleeved in place on the rotor 5; the injection ends 451 of the two fixed glue injectors 45 are located right above the matched bearings 6 when the fixed glue injectors are sleeved in place. Wherein, the distance between the two fixed glue injectors 45 can be adjusted on the fixed glue moving seat 44; furthermore, the U-shaped mounting frame 21 can also adjust the U-shaped opening pitch or replace the U-shaped mounting frame 21 matched with the U-shaped opening pitch according to the axial width of the rotor main body 52 of different rotors 5. The utility model discloses a glue adding device 4 drives second pressure telescopic link 43 through second pressure device 42 and promotes the fixed glue and removes seat 44 and do vertical lift motion to it cements to install 6 injecting glue of bearing that target in place to drive the vertical motion of fixed glue syringe 45, and is simple practical again.

Wherein, the first pressure device 33 and the second pressure device 42 are driven by air pressure, and are clean and environment-friendly. In addition, the first pressure device 33 and the second pressure device 42 can be driven by hydraulic pressure, so that high sleeving pressure is provided, and the sleeving requirement of the bearing 6 is ensured.

In this embodiment, the top end of the fixing glue injector 45 is connected to a ventilation pressure pipeline and the pressure injection of the fixing glue is realized through the air pressure pipeline, that is, the fixing glue injector 45 injects the fixing glue through air pressure extrusion.

In this embodiment, the fixed glue moving base 44 is provided with two clamps 441 matched with the fixed glue injector 45, and the axes of the clamping holes of the clamps 441 are vertically distributed; the fixed glue injector 45 is clamped and fixed on the fixed glue moving seat 44 through a clamp 441, and the structure can facilitate the replacement of the fixed glue injector 45.

In this embodiment, the device for automatically feeding the bearing and adding the glue further comprises a rotary driving device 7, the rotary driving device 7 comprises a driving motor 71, a driving wheel 72 and a driven wheel 73, and the driving wheel 72 is in matched transmission connection with a driving shaft of the driving motor 71; the driving motor 71 and the driven wheel 73 are fixedly connected to the workpiece fixing seat 2, the driving wheel 72 and the driven wheel 73 are symmetrically distributed on two sides of the U-shaped mounting frame 21, and the axes of the driving wheel 72 and the driven wheel 73 are distributed in parallel with the axis of the U-shaped open slot 211; the rotary driving device 7 is connected to the rotor 5 by a transmission belt between the driving pulley 72 and the driven pulley 73 so as to rotate the rotor 5 around the axis thereof. The utility model adopts the above structure rotary driving device 7, can drive rotor 6 and use its axial lead to rotate at the uniform velocity as the axle center in the injecting glue in-process to guarantee the even stability of injecting glue.

In this embodiment, the automatic device of going into the bearing and glue still includes controlling means 8, and this controlling means 8 respectively with the atmospheric pressure output device phase-match control connection on first pressure device 33, second pressure device 42, driving motor 71 and the fixed glue syringe 45 top to set up the switch that a key started on controlling means 8, thereby make the utility model discloses can realize a key automatic assembly bearing 6 and glue fixedly through controlling means 8, and then realize the full automatization of bearing 6 assembly, use manpower sparingly and time, realize batch production.

The utility model discloses a work flow as follows:

firstly, placing a rotor 5 on a workpiece fixing seat 2, and enabling a rotating shaft 51 of the rotor 5 to be clamped in a U-shaped open slot 211 of a U-shaped mounting frame 21 in a matching manner; and the two bearings 6 are respectively sleeved in the left bearing sleeve hole 311 and the right bearing sleeve hole 322;

the second step, start the starting switch on the controlling means 8, the utility model discloses the product begins work: firstly, the first pressure device 33 drives the first pressure telescopic rod 34 to push the right bearing moving seat 32 to move towards the workpiece fixing seat 2, so that two bearings 6 are sleeved on the rotating shaft 51 of the rotor 5 and assembled in place in the process of extruding and driving the workpiece fixing seat 2 to move together; secondly, the glue adding device 4 drives the second pressure telescopic rod 43 to push the fixed glue moving seat 44 to vertically move through the second pressure device 42, so as to drive the fixed glue injector 45 to vertically move to the position of the bearing 6 which is installed in place, and then the air pressure output device at the top end of the fixed glue injector 45 is started to inject and extrude the fixed glue into the joint of the bearing 6 and the rotating shaft 51 for glue injection and cementation for the fixed glue injector 45, and the rotary driving device 7 drives the rotor 6 to rotate at a constant speed by taking the axial lead of the rotor as the axis in the process.

And thirdly, after the glue is injected, the utility model discloses the first pressure device 33 and the second pressure device 42 of product reset simultaneously to the rotor that installs bearing 6 changes and does not assemble bearing 6 carries out the repeated operation.

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

Claims

1. The utility model provides an automatic go into bearing and add device of gluing which characterized in that: the device for automatically feeding the bearing and adding the glue comprises a base (1), a workpiece fixing seat (2), a bearing assembling device (3) and a glue adding device (4), wherein the workpiece fixing seat (2), the bearing assembling device (3) and the glue adding device (4) are fixedly installed on the base (1) in a matching mode; the workpiece fixing seat (2) is used for fixing the rotor (5), the bearing assembling device (3) is used for sleeving the fixed rotor (5) into the bearing (6), and the glue adding device (4) is used for adding glue for fixing the bearing (6) which is installed in place.

2. The automatic bearing feeding and gluing device of claim 1, wherein: the top end of the workpiece fixing seat (2) is provided with a U-shaped mounting rack (21) with an upward opening, and the tops of two open ends of the U-shaped mounting rack (21) are provided with U-shaped open grooves (211) which are coaxially distributed and matched with a rotating shaft (51) of the rotor (5); the rotor (5) is fixed on the workpiece fixing seat (2) by clamping and embedding two ends of the rotating shaft (51) in the U-shaped open slot (211).

3. The automatic bearing feeding and gluing device of claim 2, wherein: the distance between the U-shaped openings of the U-shaped mounting frame (21) is matched with the axial width of the rotor body (52) of the rotor (5) except the rotating shaft (51).

4. The automatic bearing feeding and gluing device of claim 2, wherein: the bearing assembling device (3) comprises a left bearing fixing seat (31), a right bearing moving seat (32), a first pressure device (33), a first pressure telescopic rod (34), a first fixing plate (35) and a sliding rod (36); a workpiece sliding hole (22) which is parallel to the axial direction of the U-shaped open slot (211) and matched with the sliding rod (36) is formed in the side surface of the bottom end of the workpiece fixing seat (2); the side surface of the bottom end of the right bearing moving seat (32) is also provided with a bearing sliding hole (321) matched with the sliding rod (36), the side surface of the top end of the right bearing moving seat (32) is also provided with a right bearing sleeve hole (322) which is parallel to the axial direction of the bearing sliding hole (321) and matched with the bearing (6), and the bottom end of the right bearing sleeve hole (322) is provided with a right rotating shaft moving hole (3221) which is coaxial with the right bearing sleeve hole and matched with the rotating shaft (51); a left bearing sleeve hole (311) matched with the bearing (6) is formed in the side face of the top end of the left bearing fixing seat (31), and a left rotating shaft moving hole (3111) which is coaxial with the left bearing sleeve hole and matched with the rotating shaft (51) is formed in the bottom end of the left bearing sleeve hole (311); a through hole (351) matched with the first pressure telescopic rod (34) is formed in the middle of the first fixing plate (35);

the left bearing fixing seat (31) and the first fixing plate (35) are fixed on the base (1) in a matching mode, and two ends of the sliding rod (36) are fixed between the left bearing fixing seat (31) and the first fixing plate (35) in a matching mode; the workpiece fixing seat (2) is arranged between the left bearing fixing seat (31) and the first fixing plate (35) in a matching manner and movably sleeved on the sliding rod (36) through the workpiece sliding hole (22); the right bearing moving seat (32) is arranged between the workpiece fixing seat (2) and the first fixing plate (35) in a matching manner and movably sleeved on the sliding rod (36) through a bearing sliding hole (321); the left bearing sleeve joint hole (311), the U-shaped open slot (211), the right bearing sleeve joint hole (322) and the through hole (351) are coaxially distributed; the first pressure device (33) is matched and fixed on the outer side face of the first fixing plate (35), one end of the first pressure telescopic rod (34) is matched with the first pressure device (33) in a telescopic linkage mode, and the other end of the first pressure telescopic rod (34) coaxially penetrates through the through hole (351) and then is matched and fixedly connected with the right bearing moving seat (32).

5. The automatic bearing feeding and gluing device of claim 4, wherein: the number of the sliding rods (36) is two, and the two sliding rods (36) are distributed in parallel; the number of the workpiece sliding holes (22) and the number of the bearing sliding holes (321) are respectively two and are matched with the sliding rods (36).

6. The automatic bearing feeding and gluing device of claim 4, wherein: the glue adding device (4) comprises a second fixing plate (41), a second pressure device (42), a second pressure telescopic rod (43), a fixed glue moving seat (44) and a fixed glue injector (45); the second fixing plate (41) is fixed on the base (1) in a matching manner, and the second pressure device (42) is fixed at the top end of the second fixing plate (41) in a matching manner; the second pressure telescopic rods (43) are vertically distributed, one end of each second pressure telescopic rod is matched with the second pressure device (42) in a telescopic linkage mode, and the other end of each second pressure telescopic rod (43) is fixedly connected with the fixed glue moving seat (44); the number of the fixed glue injectors (45) is two, and the injection ends (451) of the two fixed glue injectors (45) are vertically and downwards fixed on the fixed glue moving seat (44); the distance between the injection ends (451) of the two fixed glue injectors (45) is matched with the distance between the two bearings (6) sleeved in place on the rotor (5); the injection ends (451) of the two fixed glue injectors (45) are positioned right above the matched bearings (6) when the fixed glue injectors are sleeved in place.

7. The automatic bearing feeding and gluing device of claim 6, wherein: the top end of the fixing glue injector (45) is connected with a ventilation pressure pipeline and realizes the pressure injection of the fixing glue through the ventilation pressure pipeline.

8. The automatic bearing feeding and gluing device of claim 6, wherein: two clamps (441) matched with the fixed glue injector (45) are arranged on the fixed glue moving seat (44), and the axes of clamp holes of the clamps (441) are vertically distributed; the fixed glue injector (45) is clamped and fixed on the fixed glue moving seat (44) through a clamp (441).

9. The automatic bearing feeding and gluing device of claim 6, wherein: the device for automatically feeding the bearing and adding the glue further comprises a rotary driving device (7), wherein the rotary driving device (7) comprises a driving motor (71), a driving wheel (72) and a driven wheel (73), and the driving wheel (72) is in matched transmission connection with a driving shaft of the driving motor (71); the driving motor (71) and the driven wheel (73) are fixedly connected to the workpiece fixing seat (2), the driving wheel (72) and the driven wheel (73) are symmetrically distributed on two sides of the U-shaped mounting frame (21), and the axes of the driving wheel (72) and the driven wheel (73) are distributed in parallel with the axis of the U-shaped open slot (211); the rotary driving device (7) is in matched transmission connection with the rotor (5) through a transmission belt between the driving wheel (72) and the driven wheel (73) to realize that the rotor (5) rotates by taking the axial lead thereof as the axis.

10. The automated bearing loading and glue application apparatus of claim 9, wherein: the device for automatically feeding the bearing and adding the glue further comprises a control device (8), wherein the control device (8) is respectively matched and controlled to be connected with the first pressure device (33), the second pressure device (42), the driving motor (71) and the air pressure output equipment at the top end of the fixed glue injector (45).