CN216531034U - Integrative installation device of jump ring ball of motor shaft - Google Patents

Abstract

The utility model provides an integrated mounting device for a clamp spring and a ball of a motor shaft, and belongs to the technical field of motor assembly. It is including the motor shaft base of locating the frame upside, motor shaft base both sides respectively set up a bearing assembly devices, one side that bearing assembly devices is close to the motor shaft base set up the bearing mounting groove, set up in the bearing mounting groove and can promote the first driver part that its bearing outwards removed, bearing assembly devices downside set up and can drive bearing assembly devices and be close to or keep away from the second driver part of motor shaft base along the horizontal direction. The second driving part can drive the bearing assembling mechanism to do reciprocating linear motion along the horizontal direction, so that the bearing assembling mechanism is driven to be close to or far away from the base of the motor shaft along the horizontal direction. When the bearing mounting groove is attached to the motor shaft on the base of the motor shaft, the first driving part drives the bearing in the bearing mounting groove to move outwards and be mounted in a corresponding position of the motor shaft, and therefore the mounting of the bearing in the motor shaft is completed.

Description

Integrative installation device of jump ring ball of motor shaft

Technical Field

The utility model belongs to the technical field of motor assembly, and relates to a clamp spring and ball integrated mounting device for a motor shaft.

Background

With the development trend of the market, the motor is commonly used in the mechanical field. The motor shaft is generally made of high-quality carbon steel, such as 35^#Steel, 45^#And (3) steel. The two materials belong to medium carbon steel, and the strength, the rigidity and the toughness of the two materials can meet the working requirements of a motor shaft. The motor shaft has high rotating speed and small torque, and adopts 45^#Making ofAnd other heat treatment is not needed, the raw material is in a normalized state, and the supply performance of the raw material can meet the mechanical performance requirement of the motor shaft. The equipment for rapidly installing the bearing is urgently needed to be researched and developed, so that the bearing is accurately installed on the motor shaft, the stability of motor shaft assembly is improved, and the overall performance and efficiency of the machine are improved.

Disclosure of Invention

The utility model aims to solve the problems and provides an integrated mounting device for a clamp spring and a ball of a motor shaft.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides an integrative installation device of jump ring ball of motor shaft, is including the motor shaft base of locating the frame upside, motor shaft base both sides respectively set up a bearing assembly devices, one side that bearing assembly devices is close to the motor shaft base set up the bearing mounting groove, set up the first driver part that can promote its own bearing outwards to remove in the bearing mounting groove, bearing assembly devices downside set up and to drive bearing assembly devices along the horizontal direction be close to or keep away from the second driver part of motor shaft base.

In the integrated mounting device for the clamp spring and the ball of the motor shaft, the upper side of the base of the motor shaft is provided with an arc-shaped hollow structure for mounting the motor shaft, and the bearing mounting groove is superposed with the axial lead of the motor shaft mounted on the arc-shaped hollow structure.

In the above-mentioned integrated mounting device for the snap spring and the ball of the motor shaft, the second driving part includes a movable seat with a slide way arranged at the lower side of the bearing assembly mechanism, and a guide rail connected in the slide way in a sliding manner.

In the integrative installation device of jump ring ball of foretell motor shaft, bearing assembly devices one side that is close to the motor shaft base inwards extend and set up hollow structure, hollow structure's opening part set up to the bearing mounting groove, and the diameter of bearing mounting groove is not less than the diameter of bearing, first driver part cup joint in hollow structure's inboard, and first driver part supports to lean on to the bearing mounting groove and keeps away from open-ended one end.

In the integrative installation device of jump ring ball of foretell motor shaft, first drive part including the inboard push rod and the push rod that set up of hollow structure keep away from the motor that bearing mounting groove one end is connected, and the one end that the push rod is close to the bearing mounting groove supports by in the bearing mounting groove.

In the integrated mounting device for the clamp spring and the ball of the motor shaft, a feeding mechanism is arranged on one side of the bearing assembly mechanism, and the feeding mechanism is arranged on one side close to the bearing mounting groove.

In the integrated mounting device for the snap spring and the ball of the motor shaft, the feeding mechanism comprises a feeding base which is slidably arranged on the slide way, one side of the feeding base, which is close to the bearing mounting groove, is provided with a feeding port, and one side of the feeding port, which is far away from the bearing mounting groove, is provided with a guide plate.

In the integrated mounting device for the clamp spring and the ball of the motor shaft, the feeding slide way is arranged on the upper side of the feeding base, and the material storage mechanism is arranged on the upper side of the feeding slide way.

In the integrative installation device of jump ring ball of foretell motor shaft, storage mechanism include a plurality of storage silos that set up side by side, the width and the thickness of storage silo are all not less than the diameter of bearing, the storage mechanism downside set up the passageway, the storage silo sets up the upside at the passageway, and one side that the storage silo is close to the passageway sets up the opening.

In the integrated mounting device for the snap spring and the ball of the motor shaft, the width of the channel is not less than the diameter of the bearing, and the height of the channel is not less than the height of the bearing.

Compared with the prior art, the utility model has the advantages that:

in the utility model, the second driving part can drive the bearing assembling mechanism to do reciprocating linear motion along the horizontal direction, so that the bearing assembling mechanism is driven to be close to or far away from the base of the motor shaft along the horizontal direction. When the bearing mounting groove is attached to the motor shaft on the base of the motor shaft, the first driving part drives the bearing in the bearing mounting groove to move outwards and be mounted in a corresponding position of the motor shaft, and therefore the mounting of the bearing in the motor shaft is completed. Therefore, the bearing assembling mechanisms on the two sides of the motor shaft base can move close to or away from the motor shaft base, so that the bearing in the motor shaft can be accurately assembled, the fault rate of a machine is reduced, and the stability of the machine is improved.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a partially enlarged view of a in fig. 1.

Fig. 3 is a schematic structural view of the first driving part.

Fig. 4 is a schematic view of the structure of the motor shaft base.

Fig. 5 is a schematic view of the position of the channel.

In the figure: the device comprises a rack 1, a motor shaft base 2, a bearing assembling mechanism 3, a bearing mounting groove 4, a bearing 5, a first driving part 6, a second driving part 7, a motor shaft 8, an arc-shaped groove 9, a moving seat 10, a guide rail 11, a push rod 12, a motor 13, a feeding mechanism 14, a slide way 15, a feeding base 16, a feeding opening 17, a guide plate 18, a feeding slide way 19, a storage mechanism 20, a storage bin 21, a channel 22, a hollow structure 23 and an opening 24.

Detailed Description

The present invention is further illustrated by the following specific examples.

As shown in fig. 1-5, an integrative installation device of jump ring ball of motor shaft, including locating the motor shaft base 2 of 1 upside in frame, motor shaft base 2 both sides respectively set up a bearing assembly devices 3, one side that bearing assembly devices 3 is close to motor shaft base 2 set up bearing mounting groove 4, set up in the bearing mounting groove 4 and can promote the first driver part 6 that wherein bearing 5 outwards removed, 3 downside of bearing assembly devices set up and can drive bearing assembly devices 3 and be close to or keep away from motor shaft base 2 along the horizontal direction second driver part 7.

The bearing 5 is previously installed in the bearing installation groove 4. The second drive member 7 is actuated and the second drive member 7 drives the bearing mounting mechanism 3 toward the motor shaft base 2. The first drive member 6 is actuated while the bearing mounting groove 4 abuts the motor shaft 8 on the motor shaft base 2. The bearings 5 in the bearing mounting grooves 4 are outwardly moved to be mounted in corresponding positions of the motor shaft 8 by the first driving part 6, thereby completing the mounting of the bearings 5 in the motor shaft 8.

In the present embodiment, the second driving member 7 can drive the bearing mounting mechanism 3 to reciprocate linearly in the horizontal direction, thereby driving the bearing mounting mechanism 3 to approach or separate from the motor shaft base 2 in the horizontal direction.

Preferably, the upper side of the motor shaft base 2 is provided with an arc-shaped groove 9 for installing the motor shaft 8, and the shaft axes of the bearing installation groove 4 and the motor shaft 8 installed on the arc-shaped groove 9 are overlapped. The arcuate shape of the arcuate recess 9 facilitates installation of the motor shaft 8.

Preferably, the second driving member 7 includes a moving seat 10 with a slideway arranged at the lower side of the bearing assembling mechanism 3, and a guide rail 11 slidably connected in the slideway. The movable housing 10 is moved in the guide rail 11 so that the bearing mounting mechanism 3 is close to or away from the motor shaft base 2, facilitating the mounting of the bearing 5 to the motor shaft 8.

Preferably, one side of the bearing assembling mechanism 3 close to the motor shaft base 2 extends inwards to form a hollow structure 23, an opening of the hollow structure 23 is formed as a bearing installation groove 4, the diameter of the bearing installation groove 4 is not smaller than that of the bearing 5, the first driving part 6 is sleeved on the inner side of the hollow structure 23, and the first driving part 6 abuts against one end, far away from the opening, of the bearing installation groove 4. In this embodiment, the first driving member 6 abuts against the end of the bearing installation groove 4 far away from the opening, and after the bearing installation groove 4 is moved to the motor shaft 8 attached to the motor shaft base 2, the first driving member 6 drives the bearing 5 in the bearing installation groove 4 to move outwards and install the bearing 5 in the motor shaft 8 at a corresponding position, thereby completing the installation of the bearing 5 in the motor shaft 8.

Preferably, the first driving part 6 includes a push rod 12 disposed inside the hollow structure 23 and a motor 13 connected to one end of the push rod 12 away from the bearing installation slot 4, and one end of the push rod 12 close to the bearing installation slot 4 abuts against the bearing installation slot 4. After the bearing mounting groove 4 is moved to the motor shaft 8 attached to the motor shaft base 2, the push rod 12 pushes the bearing 5 in the bearing mounting groove 4 to move outwards and be mounted on the corresponding position of the motor shaft 8, and therefore the mounting of the bearing 5 in the motor shaft 8 is completed.

Preferably, a feeding mechanism 14 is arranged on one side of the bearing assembling mechanism 3, and the feeding mechanism 14 is arranged on one side close to the bearing installation groove 4. The bearing 5 is fitted into the bearing-fitting groove 4 by the feed mechanism 14 in preparation for further fitting of the motor shaft 8.

Preferably, the feeding mechanism 14 comprises a feeding base 16 slidably arranged on the slide way 15, a feeding port 17 is arranged on one side of the feeding base 16 close to the bearing installation groove 4, and a guide plate 18 is arranged on one side of the feeding port 17 far away from the bearing installation groove 4. At least one side wall of the feeding base 16 is provided with a sliding part which can move on the slide way 15, so that the feeding port 17 is driven to be close to the bearing installation groove 4 for feeding. In the process of moving the bearing 5 in the bearing installation groove 4 into the bearing installation groove 4, the guide plate 18 plays a role of guiding the bearing 5.

Preferably, a feeding slide way 19 is arranged on the upper side of the feeding base 16, and a storing mechanism 20 is arranged on the upper side of the feeding slide way 19. The bearings 5 in the magazine 20 are distributed to the feeding base 16 via the feeding runners 19 for later feeding.

Preferably, storage mechanism 20 include a plurality of storage silos 21 that set up side by side, the width and the thickness of storage silo 21 are all not less than the diameter of bearing 5, storage mechanism 20 downside set up passageway 22, storage silo 21 sets up the upside at passageway 22, and one side that storage silo 21 is close to passageway 22 sets up opening 24. The width and the thickness of the storage bin 21 are not smaller than the diameter of the bearing 5, so that the bearing 5 can be conveniently and transversely placed in the storage bin 21 for stacking.

Preferably, the width of the channel 22 is not less than the diameter of the bearing 5, and the height of the channel 22 is not less than the height of the bearing 5. The width and height of the channel 22 is no less than the diameter of the bearing 5, facilitating passage of the bearing 5 in the storage bin 21 through the channel 22 into the feeder slide 19.

The working process of the embodiment is as follows: (1) the bearing 5 is mounted in the bearing mounting groove 4. (2) The second drive member 7 is actuated and the second drive member 7 drives the bearing mounting mechanism 3 toward the motor shaft base 2. (3) The first drive member 6 is actuated while the bearing mounting groove 4 abuts the motor shaft 8 on the motor shaft base 2. The bearings 5 in the bearing mounting grooves 4 are outwardly moved to be mounted in corresponding positions of the motor shaft 8 by the first driving part 6, thereby completing the mounting of the bearings 5 in the motor shaft 8.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Claims (10)

1. The utility model provides an integrative installation device of jump ring ball of motor shaft, a serial communication port, including motor shaft base (2) of locating frame (1) upside, motor shaft base (2) both sides respectively set up a bearing assembly devices (3), one side that bearing assembly devices (3) are close to motor shaft base (2) set up bearing mounting groove (4), set up in bearing mounting groove (4) and can promote first driver part (6) that wherein bearing (5) outwards removed, bearing assembly devices (3) downside set up and can drive second driver part (7) that bearing assembly devices (3) are close to or keep away from motor shaft base (2) along the horizontal direction.

2. The circlip and ball integrated mounting device of the motor shaft as claimed in claim 1, wherein the motor shaft base (2) is provided with an arc groove (9) for mounting the motor shaft (8), and the bearing mounting groove (4) is coincident with the axis of the motor shaft (8) mounted on the arc groove (9).

3. The circlip and ball integrated mounting device for motor shaft of claim 1, characterized in that the second driving part (7) comprises a moving seat (10) with a slide way arranged at the lower side of the bearing assembly mechanism (3), and a guide rail (11) connected in the slide way in a sliding way.

4. The circlip and ball integrated installation device of the motor shaft as claimed in claim 1, wherein the bearing assembly mechanism (3) is provided with a hollow structure (23) extending inwards from one side close to the base (2) of the motor shaft, the opening of the hollow structure (23) is provided with a bearing installation groove (4), the diameter of the bearing installation groove (4) is not less than that of the bearing (5), the first driving part (6) is sleeved on the inner side of the hollow structure (23), and the first driving part (6) abuts against one end, away from the opening, of the bearing installation groove (4).

5. The circlip and ball integrated installation device of motor shaft of claim 4, characterized in that the first driving part (6) comprises a push rod (12) arranged inside the hollow structure (23) and a motor (13) connected with one end of the push rod (12) far away from the bearing installation groove (4), and one end of the push rod (12) close to the bearing installation groove (4) is abutted against the bearing installation groove (4).

6. The circlip and ball integrated mounting device for motor shafts as claimed in claim 1, characterized in that the bearing assembly mechanism (3) is provided with a feeding mechanism (14) at one side, and the feeding mechanism (14) is arranged at one side close to the bearing mounting groove (4).

7. The circlip and ball integrated mounting device for the motor shaft as claimed in claim 6, wherein the feeding mechanism (14) comprises a feeding base (16) slidably arranged on the slide way (15), a feeding port (17) is arranged on one side of the feeding base (16) close to the bearing mounting groove (4), and a guide plate (18) is arranged on one side of the feeding port (17) far away from the bearing mounting groove (4).

8. The integrated mounting device for the circlip and ball of the motor shaft as claimed in claim 7, characterized in that the feeding base (16) is provided with a feeding slide way (19) at the upper side, and the feeding slide way (19) is provided with a storing mechanism (20) at the upper side.

9. The integrated mounting device for the clamp spring and the ball of the motor shaft as claimed in claim 8, wherein the storage mechanism (20) comprises a plurality of storage bins (21) arranged side by side, the width and the thickness of each storage bin (21) are not smaller than the diameter of the bearing (5), a channel (22) is arranged on the lower side of the storage mechanism (20), the storage bins (21) are arranged on the upper side of the channel (22), and an opening (24) is arranged on one side of each storage bin (21) close to the channel (22).

10. The circlip ball integral installation device of a motor shaft as claimed in claim 9, wherein the width of the channel (22) is not less than the diameter of the bearing (5), and the height of the channel (22) is not less than the height of the bearing (5).

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