CN222244534U - Bearing assembly quality is used in bearing production - Google Patents

Abstract

The utility model discloses a bearing assembly device for bearing production, in particular to the technical field of bearing production, which comprises a base, a supporting plate is arranged above the base, the utility model discloses a support plate, including the backup pad, the backup pad top is provided with the mounting box, the inside clamping assembly that is provided with of mounting box, base and backup pad junction are provided with lifting assembly. The clamping device can clamp and fix bearings with different sizes, so that the assembly work is more convenient, the working efficiency is effectively improved, and the height of the clamping mechanism can be adjusted, so that the device can be suitable for workers with different heights.

Description

Bearing assembly quality is used in bearing production

Technical Field

The utility model relates to the field of bearing production, in particular to a bearing assembly device for bearing production.

Background

Bearings are components that act to fix, rotate and reduce the coefficient of friction of a load during mechanical transmission. It can also be said that the other members serve to reduce the friction coefficient during the transmission of the motion force and to keep the center position of the rotating shaft fixed when the other members are moved relative to each other on the shaft. Its main function is to support the mechanical rotator to reduce the mechanical load friction coefficient of the equipment in the transmission process, and its accuracy, performance, life and reliability play a decisive role in the accuracy, performance, life and reliability of the host.

After the bearing is produced, the bearing is assembled with other devices to form a group of complete mechanical structure, and most of the prior art is that a worker holds the bearing by hand, so that the method has higher labor intensity and lower working efficiency, and the wrist of the worker is damaged by holding the bearing with small weight for a long time.

Disclosure of utility model

The technical problem to be solved is that the handheld bearing assembly has higher labor intensity and low working efficiency.

Aiming at the defects of the prior art, the utility model provides a bearing assembly device for bearing production, which solves the problems in the background art.

The technical scheme is as follows:

in order to achieve the above purpose, the utility model is realized by the following technical scheme:

The utility model provides a bearing assembly quality for bearing production, includes the base, the base top is provided with the backup pad, the backup pad top is provided with the mounting box, the inside clamping assembly that is provided with of mounting box, base and backup pad junction are provided with lifting unit.

In one possible implementation, the mounting box is annular and fixedly connected to the top of the support plate.

In one possible implementation manner, the clamping assembly comprises a cavity, a top rod, a top plate, a rubber pad, a swivel and an arc plate, wherein the cavity is formed inside the mounting box and is annular, the top rod penetrates through and is slidably connected to the inner wall of the cavity, the top plate is fixedly connected to the outer end of the top rod, the rubber pad is fixedly connected to the outer side of the top plate, the swivel is annular and rotatably connected to the cavity, and the arc plate is fixedly connected to one side of the swivel and is identical to the top rod in number.

In one possible implementation, the clamping assembly further comprises an arc-shaped groove, a sliding rod and an arc-shaped spring, wherein the arc-shaped groove is formed in the outer side surface of the mounting box and is communicated with the cavity, the sliding rod is slidably connected to the arc-shaped groove and is fixedly connected to the swivel ring at the inner end, and the arc-shaped spring is fixedly installed inside the arc-shaped groove and is fixedly connected to one side of the inner wall of the arc-shaped groove and one side of the sliding rod at two ends of the arc-shaped spring respectively.

In one possible implementation manner, the clamping assembly further comprises a first sliding groove, a first sliding block and a first spring, the first sliding groove is formed in the inner wall of the cavity and is located on one side of the ejector rod, the first sliding block is fixedly connected to the ejector rod and is slidably connected to the first sliding groove, the first spring is fixedly installed inside the first sliding groove, two ends of the first spring are fixedly connected to the inner wall of one side of the first sliding groove and one side of the first sliding block respectively, and the elastic force of the arc-shaped spring is larger than that of the first spring.

In one possible implementation manner, the lifting assembly comprises a lifting groove, a through hole, a clamping groove and a fixing rod, wherein the lifting groove is formed in the top of the base, the supporting plate is slidably connected with the lifting groove, the through holes are provided with a plurality of groups and penetrate through the supporting plate, the clamping groove is formed in the inner wall of one side of the lifting groove, and the fixing rod penetrates through the inner wall of the other side of the lifting groove and is matched with the clamping groove and the size of the through hole.

In one possible implementation manner, the lifting assembly further comprises a second sliding groove, a second sliding block, a second spring and a pulling plate, wherein the second sliding groove is formed in the base and is located at the periphery of the fixing rod, the second sliding block is fixedly connected with the fixing rod and is slidably connected with the second sliding groove, the second spring is sleeved on the periphery of the fixing rod, two ends of the second spring are fixedly connected with one side of the second sliding block and one side inner wall of the second sliding groove respectively, and the pulling plate is fixedly connected with the outer end of the fixing rod.

The beneficial effects are that:

Firstly, through being provided with the clamping assembly, slide the slide bar upwards along the arc groove and make it extrude arc spring, in this process, the swivel drives the arc along with the slide bar synchronous motion and remove from the ejector pin rear, when the arc removed from the ejector pin rear, first spring resilience and drive the ejector pin along first spout to the cavity inboard remove until roof and installation box inner wall closely laminate, then place the bearing in the installation box center, loosen the slide bar, the arc spring resilience and drive swivel and arc through the slide bar and reverse move, when arc and ejector pin contact, because the elasticity of arc spring is greater than the elasticity of first spring, so the ejector pin can be outwards ejecting by the arc, can fix the bearing in current position along with the ejector pin outwards when the ejector pin moves until closely laminate with the bearing with the ejector pin, this design can make the device carry out the centre gripping to the bearing of different sizes fixed for assembly work is more convenient, effectively improve work efficiency;

Secondly, through being provided with lifting unit, outside pulling arm-tie makes it drive the dead lever outside and removes and extrude the second spring through the second slider, after the dead lever removes from through-hole and draw-in groove, slide the backup pad along the lift groove and make it drive the synchronous lift of installation box, after sliding to suitable height, loosen the arm-tie, the second spring is kick-backed and drive the dead lever to the medial movement through the second slider, can fix the backup pad at current height when the dead lever passes corresponding through-hole and inserts in the draw-in groove, this design can adjust clamping mechanism's height for the device can be applicable to the staff of different heights.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for those skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a cross-sectional view of the mounting box structure of the present utility model;

FIG. 3 is a schematic view of an arc-shaped slot structure according to the present utility model;

FIG. 4 is a schematic view of a first chute according to the present utility model;

Fig. 5 is a cross-sectional view of a base structure of the present utility model.

Reference numerals illustrate:

1. The device comprises a base, 2, a supporting plate, 3, a mounting box, 4, a clamping assembly, 41, a cavity, 42, a top rod, 43, a top plate, 44, a rubber pad, 45, a swivel, 46, an arc-shaped plate, 47, an arc-shaped groove, 48, a sliding rod, 49, an arc-shaped spring, 410, a first sliding groove, 411, a first sliding block, 412, a first spring, 5, a lifting assembly, 51, a lifting groove, 52, a through hole, 53, a clamping groove, 54, a fixing rod, 55, a second sliding groove, 56, a second sliding block, 57, a second spring, 58 and a pulling plate.

Detailed Description

The embodiment of the application solves the problems in the prior art by providing a bearing assembly device for bearing production.

The technical scheme in the embodiment of the application aims to solve the problems, and the overall thought is as follows:

The specific structure of this embodiment, as shown in fig. 1 to 5, a bearing assembly device for bearing production, including base 1, base 1 top is provided with backup pad 2, and backup pad 2 top is provided with mounting box 3, and mounting box 3 is inside to be provided with clamping component 4, and base 1 and backup pad 2 junction is provided with lifting component 5.

In some examples, the mounting box 3 is annular and fixedly attached to the top of the support plate 2.

In some examples, the clamping assembly 4 includes a cavity 41, a top rod 42, a top plate 43, a rubber pad 44, a swivel 45 and an arc plate 46, the cavity 41 is opened inside the mounting box 3 and is annular, the top rod 42 penetrates through and is slidably connected to the inner wall of the cavity 41, the top plate 43 is fixedly connected to the outer end of the top rod 42, the rubber pad 44 is fixedly connected to the outer side of the top plate 43, the swivel 45 is annular and is rotatably connected to the cavity 41, the arc plate 46 is fixedly connected to one side of the swivel 45 and is the same as the number of the top rods 42, the arc plate 46 can be driven to rotate synchronously by rotating the swivel 45, and the arc plate 46 can be outwards ejected when the arc plate 46 moves to the rear of the top rod 42.

In some examples, the clamping assembly 4 further includes an arc groove 47, a sliding rod 48 and an arc spring 49, the arc groove 47 is formed on the outer side surface of the mounting box 3 and is communicated with the cavity 41, the sliding rod 48 is slidably connected to the arc groove 47, the inner end of the arc spring 49 is fixedly connected to the swivel 45, the arc spring 49 is fixedly installed inside the arc groove 47, two ends of the arc spring are respectively fixedly connected to one side inner wall of the arc groove 47 and one side of the sliding rod 48, the arc spring 46 can be driven to rotate by the swivel 45 and the arc spring 49 can be extruded by the arc spring 49, the sliding rod 48 is loosened, and the arc spring 49 rebounds and drives the swivel 45 and the arc plate 46 to reversely rotate by the sliding rod 48.

In some examples, the clamping assembly 4 further includes a first chute 410, a first slider 411 and a first spring 412, where the first chute 410 is opened on the inner wall of the cavity 41 and is located at one side of the ejector rod 42, the first slider 411 is fixedly connected to the ejector rod 42 and is slidingly connected to the first chute 410, the first spring 412 is fixedly installed inside the first chute 410, two ends of the first spring 412 are respectively fixedly connected to one side inner wall of the first chute 410 and one side of the first slider 411, the elastic force of the arc spring 49 is greater than that of the first spring 412, when the arc spring 49 is not stressed, the slide rod 48 drives the arc plate 46 to be located right behind the ejector rod 42 through the swivel 45, and at this time, the ejector rod 42 drives the first slider 411 to slide outwards along the first chute 410 and squeeze the first spring 412, and slides the slide rod 48 along the arc groove 47 to squeeze the arc spring 49, the swivel 45 drives the arc plate 46 to move away from the rear of the ejector rod 42, and the first spring 412 rebounds and drives the ejector rod 42 to move towards the inner side of the cavity 41 through the first slider 411.

In some examples, the lifting assembly 5 includes a lifting groove 51, a through hole 52, a clamping groove 53 and a fixing rod 54, the lifting groove 51 is formed at the top of the base 1, the supporting plate 2 is slidably connected to the lifting groove 51, the through hole 52 is provided with a plurality of groups and penetrates through the supporting plate 2, the clamping groove 53 is formed on one side inner wall of the lifting groove 51, the fixing rod 54 penetrates through the other side inner wall of the lifting groove 51 and is matched with the clamping groove 53 and the through hole 52 in size, the fixing rod 54 penetrates through the through hole 52 and is inserted into the clamping groove 53 to fix the supporting plate 2 at the current height, and the fixing rod 54 can adjust the height of the supporting plate 2 along the lifting groove 51 when moving out of the through hole 52 and the clamping groove 53.

In some examples, the lifting assembly 5 further includes a second chute 55, a second slider 56, a second spring 57 and a pull plate 58, where the second chute 55 is opened inside the base 1 and is located at the periphery of the fixing rod 54, the second slider 56 is fixedly connected to the fixing rod 54 and is slidably connected to the second chute 55, the second spring 57 is sleeved on the periphery of the fixing rod 54, two ends of the second spring 57 are respectively fixedly connected to one side of the second slider 56 and one side inner wall of the second chute 55, the pull plate 58 is fixedly connected to the outer end of the fixing rod 54, pulling the pull plate 58 outwards can drive the fixing rod 54 to move outwards and squeeze the second spring 57 through the second slider 56, and releasing the pull plate 58, the second spring 57 rebounds to drive the fixing rod 54 to move inwards through the second slider 56.

In a specific application scene, when the bearing and other devices need to be assembled, slide bar 48 is firstly slid upwards along arc groove 47 to enable the bearing to extrude arc spring 49, in the process, rotating ring 45 drives arc plate 46 to synchronously move along with slide bar 48 and move away from the rear of ejector rod 42, when arc plate 46 moves away from the rear of ejector rod 42, first spring 412 rebounds and drives ejector rod 42 to move towards the inner side of cavity 41 along first sliding groove 410 until top plate 43 is tightly attached to the inner wall of mounting box 3 through first sliding block 411, then the bearing is placed in the center of mounting box 3, slide bar 48 is released, arc spring 49 rebounds and drives rotating ring 45 and arc plate 46 to reversely move through slide bar 48, when arc plate 46 contacts ejector rod 42, because the elasticity of arc spring 49 is larger than that of first spring 412, ejector rod 42 can be ejected outwards by arc plate 46, when rubber pad 44 and top plate 43 move outwards along with ejector rod 42 until the bearing is attached, at the current position can begin assembly work, when the device is used by staff of different heights, pull plate 58 to move outwards to enable the fixed rod 54 and drive fixed rod to move outwards and move towards the inner side of mounting box 52 through second sliding block 54 and move towards the corresponding to second sliding block 53 through second sliding block 53, and move outwards and move towards the corresponding sliding block 54, and move outwards through second sliding block 53 and move towards the fixed rod 52, and accordingly can be fixed to move towards the fixed rod 52, and move towards the fixed rod 52 is moved towards the fixed rod 52, and can be moved towards the fixed rod 52.

By adopting the technical scheme, the device not only can clamp and fix bearings with different sizes, so that the assembly work is more convenient and faster, the working efficiency is effectively improved, but also can adjust the height of the clamping mechanism, so that the device can be suitable for workers with different heights.

Finally, it should be noted that the above-mentioned examples are given for the purpose of illustration only and are not intended to limit the utility model to the particular embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present utility model.

Claims (4)

1. A bearing assembly device for bearing production, comprising a base (1), characterized in that: a support plate (2) is arranged above the base (1), a mounting box (3) is arranged on the top of the support plate (2), a clamping assembly (4) is arranged inside the mounting box (3), a lifting assembly (5) is arranged at the connection between the base (1) and the support plate (2), the clamping assembly (4) comprises a cavity (41), a push rod (42), a top plate (43), a rubber pad (44), a swivel (45) and The arc plate (46) is provided inside the installation box (3) and is annular in shape. The push rod (42) penetrates and is slidably connected to the inner wall of the cavity (41). The top plate (43) is fixedly connected to the outer end of the push rod (42). The rubber pad (44) is fixedly connected to the outer side of the top plate (43). The rotating ring (45) is annular in shape and is rotatably connected to the cavity (41). The arc plate (46) is fixedly connected to one side of the rotating ring (45) and is the same in number as the push rod (42). The clamp The holding assembly (4) further comprises an arc groove (47), a slide bar (48) and an arc spring (49), wherein the arc groove (47) is provided on the outer surface of the installation box (3) and is communicated with the cavity (41), the slide bar (48) is slidably connected to the arc groove (47) and the inner end thereof is fixedly connected to the rotating ring (45), the arc spring (49) is fixedly installed inside the arc groove (47) and the two ends thereof are respectively fixedly connected to the inner wall of one side of the arc groove (47) and one side of the slide bar (48), and the lifting assembly (5 ) comprises a lifting groove (51), a through hole (52), a clamping groove (53) and a fixing rod (54), wherein the lifting groove (51) is provided at the top of the base (1), the support plate (2) is slidably connected to the lifting groove (51), the through hole (52) is provided in a plurality of groups and passes through the support plate (2), the clamping groove (53) is provided on the inner wall of one side of the lifting groove (51), and the fixing rod (54) passes through the inner wall of the other side of the lifting groove (51) and is adapted to the size of the clamping groove (53) and the through hole (52). 2. A bearing assembly device for bearing production according to claim 1, characterized in that the mounting box (3) is annular and fixedly connected to the top of the support plate (2). 3. A bearing assembly device for bearing production according to claim 1, characterized in that: the clamping assembly (4) also includes a first slide groove (410), a first slider (411) and a first spring (412), the first slide groove (410) is opened on the inner wall of the cavity (41) and is on the side of the push rod (42), the first slider (411) is fixedly connected to the push rod (42) and slidably connected to the first slide groove (410), the first spring (412) is fixedly installed inside the first slide groove (410) and its two ends are respectively fixedly connected to the inner wall of one side of the first slide groove (410) and one side of the first slider (411), and the elastic force of the arc spring (49) is greater than the elastic force of the first spring (412). 4. A bearing assembly device for bearing production according to claim 1, characterized in that: the lifting component (5) also includes a second slide groove (55), a second slider (56), a second spring (57) and a pull plate (58), the second slide groove (55) is opened inside the base (1) and is located at the outer periphery of the fixed rod (54), the second slider (56) is fixedly connected to the fixed rod (54) and slidably connected to the second slide groove (55), the second spring (57) is sleeved on the outer periphery of the fixed rod (54) and its two ends are respectively fixedly connected to one side of the second slider (56) and the inner wall of one side of the second slide groove (55), and the pull plate (58) is fixedly connected to the outer end of the fixed rod (54).