WO2021109505A1

WO2021109505A1 - Support holder for bearing polishing

Info

Publication number: WO2021109505A1
Application number: PCT/CN2020/093571
Authority: WO
Inventors: 蔡盼
Original assignee: 台州浙盛轴承科技有限公司
Priority date: 2019-12-06
Filing date: 2020-05-30
Publication date: 2021-06-10
Also published as: CN111002118A; CN111002118B

Abstract

A support holder for bearing polishing comprises a cylindrical base (10) and an adjustment device (20), wherein the adjustment device (20) comprises several limiting blocks (23) distributed evenly around the rotation center axis of the base (10) and configured to move radially and move toward or away synchronously; the limiting block (23) comprises an upper limiting block (231) positioned on the upper side of the base (10); a pair of radially arranged horizontal support rods (236) are formed in the middle of the upper limiting block (231); the pair of horizontal support rods (236) are on the same plane and one horizontal support rod (236) is radially arranged inward and the other is radially arranged outward; and the remote end of the pair of horizontal support rods (236) is provided with a rotatable annular lower support ring (24).

Description

Support placement seat for bearing grinding

Technical field

The present invention relates to the technical field of bearing processing, in particular to a support placement seat for bearing grinding.

Background technique

In the production process of bearing parts, it is usually necessary to perform fine grinding to make the surface of the bearing parts smoother to prevent large abrasion and damage during the work process after assembly. The bearing part usually needs to be supported by a support base during the processing, because the bearing part is usually in a rotating state during the processing. Therefore, the contact surface of the bearing member and the support base is likely to cause greater wear.

Summary of the invention

The purpose of the present invention is to solve the technical problem that the lower end surface of the bearing part is easy to wear during the fine grinding, and to provide a supporting place for bearing grinding.

The technical solutions of the present invention to solve the above technical problems are as follows: A support and placement seat for bearing grinding includes a cylindrical base and an adjusting device; the adjusting device includes a number of limit blocks evenly distributed around the rotation center axis of the base as the axis. ; The limit block moves radially and moves closer or away synchronously; the limit block includes an upper limit block located on the upper side of the base; a pair of radially arranged horizontal support rods are formed in the middle of the upper limit block; a pair of horizontal support rods are in the same plane One horizontal support rod is arranged radially inward and the other horizontal support rod is arranged radially outward; a rotatable annular lower support ring is arranged at one end of a pair of horizontal support rods away from each other.

As a preference of the above technical solution, the upper limit block is cylindrical.

As a preference of the above technical solution, the upper end surface of the upper limit block is formed with a vertical support rod arranged vertically upward; the upper end of the vertical support rod is provided with a rotatable annular upper support ring; the upper limit block is located on the upper end. In the cylindrical surface where the outer cylindrical surface of the support ring is located.

As a preference of the above technical solution, both the upper support ring and the lower support ring are bearings.

As a preference of the above technical solution, the upper end surface of the base is formed with a number of rectangular groove-shaped radial moving grooves evenly distributed on the circumference; the lower part of the base is formed with a circular groove-shaped rotary drive groove; the inner and outer side walls of the radial moving groove A radial guide rod arranged radially is formed in between; a square columnar upper guide block is formed on the lower end surface of the upper limit block; the upper guide block is radially sleeved on the radial guide rod; the lower end surface of the upper guide block A cylindrical lower drive rod is formed; a circular plate-shaped drive plate is rotatably arranged in the rotary drive groove; a number of arc hole-shaped drive arc holes that are evenly distributed on the circumference and cooperate with the lower drive rod are formed on the drive plate; The driving rod arc sliding is arranged in the driving arc hole; the upper limit block moves radially with the rotation of the driving plate.

As a preference of the above technical solution, a rotary drive motor is fixed at the center of the bottom surface of the rotary drive slot; the drive plate is fixed on the upper end of the output shaft of the rotary drive motor.

As a preference of the above technical solution, a circular plate-shaped lower stop block is formed on the lower end surface of the lower drive rod; the diameter of the lower stop block is larger than the diameter of the lower drive rod and the upper end surface of the lower stop block and the drive plate Lower end face contact.

The beneficial effects of the present invention are: to effectively reduce the wear of the lower end surface of the bearing during grinding, and to adapt to the grinding of the inner surface and the outer surface.

Description of the drawings

Figure 1 is a schematic structural view of a cross-section of the present invention;

FIG. 2 is a schematic top view of the structure of the driving board 22 of the present invention.

In the figure, 10, base; 100, radial movement slot; 101, radial guide rod; 102, rotary drive slot; 20, adjustment device; 21, rotary drive motor; 22, drive plate, 220, drive arc hole; 23 , Limit block; 231, upper limit block; 232, upper guide block; 233, lower drive rod; 234, lower stop block; 235, vertical support rod; 236, horizontal support rod; 24, lower support ring; 25 , Upper support ring.

Detailed ways

As shown in Figures 1 and 2, a support and placement seat for bearing polishing includes a cylindrical base 10 and an adjustment device 20; the adjustment device 20 includes a number of limits uniformly distributed around the rotation center axis of the base 10 Position block 23; the limit block 23 moves radially and moves closer or away synchronously; the limit block 23 includes an upper limit block 231 located on the upper side of the base 10; a pair of radially arranged horizontal support rods 236 are formed in the middle of the upper limit block 231 A pair of horizontal support rods 236 are on the same plane and one horizontal support rod 236 is arranged radially inward and the other horizontal support rod 236 is arranged radially outward; a pair of horizontal support rods 236 away from one end is provided with a rotatable ring形的下支持环24。 Shaped lower support ring 24.

As shown in FIG. 1, the upper limit block 231 is cylindrical.

As shown in FIG. 1, the upper end surface of the upper limit block 231 is formed with a vertical support rod 235 arranged vertically upward; the upper end of the vertical support rod 235 is provided with a rotatable annular upper support ring 25; The block 231 is located in the cylindrical surface where the outer cylindrical surface of the upper support ring 25 is located.

As shown in Fig. 1, the upper support ring 25 and the lower support ring 24 are both bearings.

As shown in Figures 1 and 2, the upper end surface of the base 10 is formed with a number of rectangular groove-shaped radial moving grooves 100 evenly distributed around the circumference; the lower part of the base 10 is formed with a circular groove-shaped rotary drive groove 102; A radial guide rod 101 is formed between the inner and outer side walls of the moving groove 100; a square columnar upper guide block 232 is formed on the lower end surface of the upper limit block 231; the upper guide block 232 is radially sleeved in the radial direction. On the guide rod 101; the lower end surface of the upper guide block 232 is formed with a cylindrical lower drive rod 233; a circular plate-shaped drive plate 22 is rotatably arranged in the rotary drive groove 102; a number of evenly distributed circles are formed on the drive plate 22 The arc hole-shaped driving arc hole 220 is matched with the lower driving rod 233; the lower driving rod 233 is slidably arranged in the driving arc hole 220; the upper limit block 231 moves radially with the rotation of the driving plate 22.

As shown in FIG. 1, a rotary drive motor 21 is fixed at the center of the bottom surface of the rotary drive slot 102; the drive plate 22 is fixed on the upper end of the output shaft of the rotary drive motor 21.

As shown in Figure 1, the lower end surface of the lower driving rod 233 is formed with a circular plate-shaped lower stop block 234; the diameter of the lower stop block 234 is larger than the diameter of the lower driving rod 233 and the upper end surface of the lower stop block 234 It is in contact with the lower end surface of the drive plate 22.

The working principle of the support placement seat used for bearing grinding;

When the inner cylindrical surface of the bearing needs to be finely ground, the limit block 23 is synchronously driven to move closer or away by rotating the drive plate 22, and then the bearing is placed between all the upper limit blocks 231 so that the bottom of the bearing abuts against the inner lower support ring 24. The outer cylindrical surface is in contact with all the upper support rings 25, which facilitates the subsequent precision grinding of the inner cylindrical surface of the bearing;

When the outer cylindrical surface of the bearing needs to be finely ground, firstly by rotating the drive plate 22, the limit block 23 is synchronously driven to approach or move away, and then all the upper limit blocks 231 are placed in the bearing so that the bottom of the bearing abuts against the outer lower support ring 24 , The inner cylindrical surface is in contact with all the upper support rings 25, which facilitates the subsequent fine grinding of the outer cylindrical surface of the bearing;

This effectively reduces the wear on the lower end surface of the bearing during grinding, and adapts to the grinding of the inner and outer surfaces.

The above content is only the preferred embodiments of the present invention. For those of ordinary skill in the art, according to the ideas of the present invention, there will be changes in the specific implementation and the scope of application. The content of this specification should not be construed as a reference to the present invention. limits.

Claims

A support placement seat for bearing grinding, which is characterized in that it includes a cylindrical base (10) and an adjusting device (20); the adjusting device (20) includes a plurality of uniform circumferences taking the rotation center axis of the base (10) as the axis Distributed limit blocks (23); limit blocks (23) move radially and move closer and move away synchronously; limit blocks (23) include upper limit blocks (231) located on the upper side of the base (10); upper limit blocks (231) A pair of radially arranged horizontal support rods (236) are formed in the middle part; a pair of horizontal support rods (236) are on the same plane and one horizontal support rod (236) is radially inward, and the other horizontal support rod (236) ) Is arranged radially outward; a pair of horizontal support rods (236) are provided with a rotatable annular lower support ring (24) at one end away from each other.
The support placement seat for bearing grinding according to claim 1, wherein the upper limit block (231) is cylindrical.
A support placement seat for bearing grinding according to claim 1, wherein the upper end surface of the upper limit block (231) is formed with a vertical support rod (235) arranged vertically upward; the vertical support The upper end of the rod (235) is provided with a rotatable annular upper support ring (25); the upper limit block (231) is located in the cylindrical surface where the outer cylindrical surface of the upper support ring (25) is located.
The support placement seat for bearing grinding according to claim 3, characterized in that: the upper support ring (25) and the lower support ring (24) are both bearings.
The support and placement seat for bearing grinding according to claim 1, characterized in that: the upper end surface of the base (10) is formed with a plurality of rectangular groove-shaped radial moving grooves (100) evenly distributed on the circumference; the base; The lower part of (10) is formed with a circular groove-shaped rotary drive groove (102); a radial guide rod (101) arranged radially is formed between the inner and outer side walls of the radial moving groove (100); the upper limit block ( A square columnar upper guide block (232) is formed on the lower end surface of 231); the upper guide block (232) is radially sleeved on the radial guide rod (101); the lower end surface of the upper guide block (232) is formed with A cylindrical lower drive rod (233); a circular plate-shaped drive plate (22) is rotatably arranged in the rotary drive groove (102); a number of evenly distributed and lower drive rods (233) are formed on the drive plate (22). ) The matching circular arc hole-shaped driving arc hole (220); the lower driving rod (233) is slidably arranged in the driving arc hole (220); the upper limit block (231) rotates radially with the driving plate (22) mobile.
A support placement seat for bearing grinding according to claim 5, characterized in that: the center of the bottom surface of the rotary drive slot (102) is fixed with a rotary drive motor (21); the drive plate (22) is fixed on the rotary drive motor (21) The upper end of the output shaft.
A support placement seat for bearing grinding according to claim 5, characterized in that: a circular plate-shaped lower stop block (234) is formed on the lower end surface of the lower driving rod (233); The diameter of the block (234) is larger than the diameter of the lower driving rod (233) and the upper end surface of the lower stop block (234) is in contact with the lower end surface of the driving plate (22).