CN215420024U - Bearing installation mechanism of heat dissipation air-cooled bare motor - Google Patents

Abstract

A bearing installation mechanism of a heat dissipation air-cooled bare motor belongs to the technical field of motor assembly; the stator bracket is arranged to be matched with the extension of the third telescopic cylinder to lift the stator, the clamping cylinder at the upper side is matched with the extension of the clamping cylinder to clamp the stator, a bearing suction cylinder is convenient to assemble a bearing on the stator, by arranging the conveying belt, the conveying belt can convey the bearing to be installed to the bearing position of the bearing plate, so that the effect of automatic loading of the bearing is realized, the bearing top plate is arranged and matched with the extension of the second telescopic cylinder to drive the bearing top plate to ascend so as to realize the lifting action of the bearing, the bearing suction cylinder is matched with the overturning of the bearing suction cylinder to realize the suction of the bearing by the bearing suction cylinder, by arranging the bearing suction cylinder, the rack is driven to move by the extension of the first telescopic cylinder, the rotating gear is matched with the rack to move to rotate so as to drive the bearing suction cylinder to rotate, can realize that the bearing axis changes the horizontality into the horizontality from the horizontality, make things convenient for the bearing to install to the stator on.

Description

Bearing installation mechanism of heat dissipation air-cooled bare motor

Technical Field

The utility model belongs to the technical field of motor assembly, and particularly relates to a bearing mounting mechanism of a heat-dissipation air-cooled bare motor.

Background

An electric machine, commonly known as a "motor", refers to an electromagnetic device that converts or transmits electric energy according to the law of electromagnetic induction. The motor is generally composed of a stator, a rotor, and front and rear covers.

In the prior art, a motor assembly line generally adopts a mode that motor accessories are conveyed through a conveying belt of a production line, and workers manually assemble the motor accessories into a finished motor product on the edge of the production line. The assembly production line has the advantages of large occupied area, low automation degree, high production cost and low production efficiency. In order to solve the problems, an automatic assembly line of the motor appears in the market, and the automatic assembly line has certain degree of automation, but is not perfect enough, lacks of automatic correction and detection procedures, and causes that the yield of the produced motor is low.

Disclosure of Invention

The utility model mainly solves the technical problems in the prior art and provides a bearing mounting mechanism of a heat-dissipation air-cooled bare motor.

The technical problem of the utility model is mainly solved by the following technical scheme: a bearing installation mechanism of a heat dissipation air-cooled bare motor comprises a bearing installation part and a stator lifting part, wherein the bearing installation part is arranged at the upper side of the stator lifting part and comprises a first installation plate, two first guide rails are arranged at the upper end of the front end surface of the first installation plate side by side, a first sliding plate and a second sliding plate are arranged on the first guide rails, the first sliding plate and the second sliding plate are both connected with the first guide rails in a sliding manner, the first sliding plate is arranged at the left side of the second sliding plate, two first frame plates are arranged on the first sliding plate, a clamping cylinder is arranged between the two first frame plates, a clamping jaw is respectively arranged at two moving ends of the clamping cylinder, a first L-shaped installation frame is arranged on the second sliding plate, a second installation plate is arranged on the second sliding plate at the lower side of the first L-shaped installation frame, a rotating shaft is rotatably connected on the second installation plate, the utility model discloses a bearing suction tube, including the pivot, the front end swivelling joint of pivot is in the front end of first L type mounting bracket, the cover is equipped with the swivel mount in the pivot of swivel mount front side, the swivel mount all with pivot fixed connection with the swivel mount, the left end of swivel mount is connected with a bearing suction tube, be equipped with a sliding seat on the first L type mounting bracket of swivel gear upside, the sliding fit has the rack in the sliding seat, rack and swivel gear intermeshing, the front end of first L type mounting bracket is equipped with first telescopic cylinder, be connected with the connecting plate between the right-hand member of the end that stretches out of first telescopic cylinder and rack, the right-hand member of the end that stretches out of first telescopic cylinder respectively with the front and back both ends fixed connection of connecting plate.

Preferably, two second frame plates are arranged on a first mounting plate on the lower side of the second sliding plate, a first vertical plate is arranged on each of the inner sides of the two second frame plates, a second telescopic cylinder is arranged between the two first vertical plates, a bearing top plate is fixedly connected to the extending end of the second telescopic cylinder, a bearing plate is connected between the upper ends of the two first vertical plates, the bearing top plate is slidably matched in the bearing plate, and a bearing position is arranged on the bearing plate.

Preferably, the second L-shaped mounting frame on the right side of the second frame plate is provided with a transverse plate at the front end, a roller is rotatably connected to the transverse plate, and a conveying belt is sleeved on the roller.

Preferably, the stator lifting part comprises two second vertical plates, two second guide rails are erected between the two second vertical plates, a third sliding plate is slidably arranged on the two second guide rails, two third frame plates are arranged on the lower surface of the third sliding plate, a third telescopic cylinder is arranged between the two third frame plates, a stator bracket is arranged at the extending end of the third telescopic cylinder, and two stator supporting plates are symmetrically arranged on the third sliding plates on two sides of the stator bracket.

The utility model has the following beneficial effects: the stator bracket is arranged to be matched with the extension of the third telescopic cylinder to lift the stator, the clamping cylinder at the upper side is matched with the extension of the clamping cylinder to clamp the stator, a bearing suction cylinder is convenient to assemble a bearing on the stator, by arranging the conveying belt, the conveying belt can convey the bearing to be installed to the bearing position of the bearing plate, so that the effect of automatic loading of the bearing is realized, the bearing top plate is arranged and matched with the extension of the second telescopic cylinder to drive the bearing top plate to ascend so as to realize the lifting action of the bearing, the bearing suction cylinder is matched with the overturning of the bearing suction cylinder to realize the suction of the bearing by the bearing suction cylinder, by arranging the bearing suction cylinder, the rack is driven to move by the extension of the first telescopic cylinder, the rotating gear is matched with the rack to move to rotate so as to drive the bearing suction cylinder to rotate, can realize that the bearing axis changes the horizontality into the horizontality from the horizontality, make things convenient for the bearing to install to the stator on.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention;

fig. 2 is a schematic view of a position structure of the bearing suction cylinder of the present invention.

In the figure: 1. a first mounting plate; 2. a first guide rail; 3. a first slide plate; 4. a second slide plate; 5. a first frame plate; 6. A clamping cylinder; 7. a claw; 8. a first L-shaped mounting bracket; 9. a second mounting plate; 10. a rotating shaft; 11. a rotating sleeve; 12. a rotating gear; 13. a bearing suction tube; 14. a sliding seat; 15. a rack; 16. a first telescopic cylinder; 17. a connecting plate; 18. A second frame plate; 19. a first vertical plate; 20. a second telescopic cylinder; 21. a bearing top plate; 22. a carrier plate; 23. a bearing position; 24. a second L-shaped mounting bracket; 25. a transverse plate; 26. a roller; 27. a conveyor belt; 28. a second vertical plate; 29. a second guide rail; 30. a third slide plate; 31. a third frame plate; 32. a third telescopic cylinder; 33. a stator bracket; 34. stator supporting plate.

Detailed Description

The technical scheme of the utility model is further specifically described by the following embodiments and the accompanying drawings.

Example (b): a bearing installation mechanism of a heat dissipation air-cooled bare motor comprises a bearing installation part and a stator lifting part, wherein the bearing installation part is arranged at the upper side of the stator lifting part and comprises a first installation plate 1, two first guide rails 2 are arranged at the upper end of the front end surface of the first installation plate 1 side by side, two first sliding plates 3 and two second sliding plates 4 are arranged on the first guide rails 2, the first sliding plates 3 and the second sliding plates 4 are both connected with the first guide rails in a sliding fit manner, the first sliding plates 3 are arranged at the left side of the second sliding plates 4, two first frame plates 5 are arranged on the first sliding plates 3, a clamping cylinder 6 is arranged between the two first frame plates 5, two clamping jaws 7 are respectively arranged at two moving ends of the clamping cylinder 6, a first L-shaped installation frame 8 is arranged on the second sliding plates 4, a second installation plate 9 is arranged on the second sliding plate 4 at the lower side of the first L-shaped installation frame 8, the utility model discloses a bearing installation structure, including second mounting panel 9, swivelling joint has a pivot 10 on the second mounting panel 9, the front end swivelling joint of pivot 10 is in the front end of first L type mounting bracket 8, the cover is equipped with swivel sleeve 11 in the pivot 10, the cover is equipped with rotary gear 12 in the pivot 10 of swivel sleeve 11 front side, rotary gear 12 and swivel sleeve 11 all with pivot 10 fixed connection, the left end of swivel sleeve 11 is connected with a bearing suction tube 13, inhales a section of thick bamboo 13 through setting up the bearing, utilizes stretching out of first telescopic cylinder 16 to drive rack 15 and remove, and rotary gear 12 cooperation rack 15 removes and rotates, drives bearing suction tube 13 and rotates, can realize that the bearing axis changes from the horizontality into the horizontality, makes things convenient for the bearing to install to the stator on, be equipped with a sliding seat 14 on the first L type mounting bracket 8 of rotary gear 12 upside, sliding seat 14 is middle and is furnished with rack 15, the rack 15 and the rotary gear 12 are meshed with each other, a first telescopic cylinder 16 is arranged at the front end of the first L-shaped mounting frame 8, a connecting plate 17 is connected between the extending end of the first telescopic cylinder 16 and the right end of the rack 15, and the extending end of the first telescopic cylinder 16 and the right end of the rack 15 are fixedly connected with the front end and the rear end of the connecting plate 17 respectively.

Two second frame plates 18 are arranged on the first mounting plate 1 on the lower side of the second sliding plate 4, a first vertical plate 19 is arranged on each of the inner sides of the two second frame plates 18, a second telescopic cylinder 20 is arranged between the two first vertical plates 19, a bearing top plate 21 is fixedly connected to the extending end of the second telescopic cylinder 20, the bearing top plate 21 is driven to ascend by arranging the bearing top plate 21 in a manner of being matched with the extension of the second telescopic cylinder 20, the lifting action of a bearing is realized, the bearing suction cylinder 13 is matched with the overturning of the bearing suction cylinder 13, the bearing is sucked by the bearing suction cylinder 13, a bearing plate 22 is connected between the upper ends of the two first vertical plates 19, the bearing top plate 21 is slidably matched in the bearing plate 22, and a bearing position 23 is arranged on the bearing plate 22; a second L-shaped mounting frame 24 on the right side of the second frame plate 18, a transverse plate 25 is arranged at the front end of the second L-shaped mounting frame 24, a roller 26 is rotatably connected to the transverse plate 25, a conveying belt 27 is sleeved on the roller 26, and by arranging the conveying belt 27, the conveying belt 27 can convey a bearing to be mounted to the bearing position 23 of the bearing plate 22, so that the automatic bearing feeding effect is realized; the stator lifting part comprises two second vertical plates 28, two second guide rails 29 are erected between the second vertical plates 28, two third sliding plates 30 are slidably arranged on the second guide rails 29, two third frame plates 31 are arranged on the lower surfaces of the third sliding plates 30, two third telescopic cylinders 32 are arranged between the third frame plates 31, the extending ends of the third telescopic cylinders 32 are provided with stator brackets 33, the stator brackets 33 are arranged to match the extension of the third telescopic cylinders 32, the lifting of the stator is realized, the stator is clamped by the aid of the extension of the clamping cylinders 6 on the upper side, the bearing suction cylinders 13 are conveniently assembled on the stator, and two stator supporting plates 34 are symmetrically arranged on the third sliding plates 30 on two sides of each stator bracket 33.

Finally, it should be noted that the above embodiments are merely representative examples of the present invention. It is obvious that the utility model is not limited to the above-described embodiments, but that many variations are possible. Any simple modification, equivalent change and modification made to the above embodiments in accordance with the technical spirit of the present invention should be considered to be within the scope of the present invention.

Claims (4)

1. The utility model provides a bearing installation mechanism of naked body motor of heat dissipation air-cooled, includes bearing installation department and stator lift portion, its characterized in that: the upside of stator portion of lifting is located to the bearing installation department, the bearing installation department includes first mounting panel (1), the upper end of terminal surface is provided with two first guided way (2) side by side before first mounting panel (1), two be equipped with first slide (3) and second slide (4) on first guided way (2), first slide (3) and second slide (4) all with first guided way sliding rail sliding fit connection, first slide (3) are located the left side of second slide (4), be equipped with two first frame plate (5) on first slide (3), two be equipped with die clamping cylinder (6) between first frame plate (5), respectively be equipped with one jack catch (7) on two removal ends of die clamping cylinder (6), be equipped with one first L type mounting bracket (8) on second slide (4), be equipped with a second mounting panel (9) on second slide (4) of first L type mounting bracket (8) downside, the utility model discloses a rotary joint is connected with a pivot (10) on second mounting panel (9), the front end swivelling joint of pivot (10) is in the front end of first L type mounting bracket (8), the cover is equipped with swivel sleeve (11) on pivot (10), the cover is equipped with rotary gear (12) on pivot (10) of swivel sleeve (11) front side, rotary gear (12) and swivel sleeve (11) all with pivot (10) fixed connection, the left end of swivel sleeve (11) is connected with a bearing and inhales a section of thick bamboo (13), be equipped with one sliding seat (14) on first L type mounting bracket (8) of rotary gear (12) upside, be furnished with in sliding seat (14) sliding rack (15), rack (15) and rotary gear (12) intermeshing, the front end of first L type mounting bracket (8) is equipped with first telescopic cylinder (16), be connected with connecting plate (17) between the end that stretches out of first telescopic cylinder (16) and the right-hand member of rack (15), the extension end of the first telescopic cylinder (16) and the right end of the rack (15) are fixedly connected with the front end and the rear end of the connecting plate (17) respectively.

2. The bearing mounting mechanism of a heat-dissipating air-cooled bare motor according to claim 1, wherein: be equipped with two second frame plates (18) on first mounting panel (1) of second slide (4) downside, two the inboard of second frame plate (18) respectively is equipped with one first riser (19), two be equipped with second telescopic cylinder (20) between first riser (19), fixedly connected with bearing roof (21) are served in stretching out of second telescopic cylinder (20), two be connected with one loading board (22) between the upper end of first riser (19), bearing roof (21) sliding fit is in loading board (22), bearing position (23) have been seted up on loading board (22).

3. The bearing mounting mechanism of a heat-dissipating air-cooled bare motor according to claim 2, wherein: second L type mounting bracket (24) on second frame plate (18) right side, the front end of second L type mounting bracket (24) is equipped with a diaphragm (25), swivelling joint has roller bearing (26) on diaphragm (25), the cover is equipped with conveyer (27) on roller bearing (26).

4. The bearing mounting mechanism of a heat-dissipating air-cooled bare motor according to claim 1, wherein: the stator lifting part comprises two second vertical plates (28), two second guide rails (29) are erected between the second vertical plates (28), two third sliding plates (30) are arranged on the second guide rails (29), the lower surfaces of the third sliding plates (30) are provided with two third frame plates (31) and two third telescopic cylinders (32) are arranged between the third frame plates (31), the extending ends of the third telescopic cylinders (32) are provided with stator brackets (33), and the third sliding plates (30) on two sides of each stator bracket (33) are symmetrically provided with two stator supporting plates (34).

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