KR100370067B1 - bearing assembly - Google Patents

Abstract

The present invention is to improve the structure of the bearing to shorten the process time and to reduce the material cost.

To this end, according to the aspect of the present invention, in the bearing assembly provided with a retainer positioned between the outer ring and the inner ring to fix the position of the ball, the retainer is a hollow circle so as to be located between the inner ring and the outer ring; It has a shaped body and a plurality of fixtures protruding toward the ball side along the circumference of the body, and consists entirely of a single structure formed by plastic injection.

In addition, the two fixing bodies form a pair so that the ball is inserted and fixed, and the ends of the pair of fixing bodies face each other, and the distance between the opposite ends is smaller than the diameter of the ball, and the ends It provides a bearing assembly characterized in that the thickness of the portion is made thin.

Description

Bearing assembly

The present invention relates to a bearing assembly, and more particularly to a retainer in a bearing assembly.

In general, the bearing assembly is positioned between the stationary body and the drive shaft to smoothly rotate the drive shaft, and its use range is very large, and its types are also very diverse.

As shown in FIG. 1A, the bearing assembly includes an outer ring 1 fixed to a bearing housing (not shown), an inner ring 2 positioned within the outer ring and supporting a drive shaft (not shown), and the outer ring; A ball 3 positioned between the inner ring, a retainer 4 positioned between the outer ring and the inner ring to fix the position of the ball, and a sealing member mounted to the outside of the retainer to block water or foreign matter. It consists of (5).

In addition, as shown in FIGS. 1A and 1B, the retainer 4 fixes the ball 3 located between the outer ring 1 and the inner ring 2, and the inner ring and the outer ring. When this is combined, a gap is generated therebetween, and is composed of an upper retainer 4a inserted into a gap formed on one side of the gap, and a lower retainer 4b inserted into a live gap on the other side.

Here, a plurality of curved portions 4c and 4d having an arc shape are formed around the upper and lower retainers 4a and 4b, and are formed toward the ball 3 in a direction perpendicular to the circumference and the circumference thereof. It is formed at equal intervals along the.

On the other hand, the bearing configured as described above is assembled as follows.

First, the outer circumferential surface of the inner ring 2 is brought into contact with one side of the inner circumferential surface of the outer ring 1 to form a space portion at the other side where the inner ring and the outer ring are not in contact.

Then, after inserting the ball (3) into the space portion, the air pressure is applied so that the ball is disposed at a predetermined interval between the outer ring (1) and the inner ring (2).

Thereafter, the upper retainer 4a is seated in a gap formed on one side of the gap formed between the outer ring 1 and the inner ring 2, and at the same time, the curved portion 4c of the upper retainer is placed on the ball 3. The lower retainer 4b is seated in the gap formed on the other side, and the curved portion 4d of the lower retainer is in contact with the ball so that the upper retainer and the lower retainer are in contact with each other. Join the (non) curved part.

The sealing member 5 is mounted to prevent water and foreign matter from penetrating the gap.

As mentioned above, the prior art made as described above serves to support the shaft while helping to rotate the shaft smoothly.

However, the prior art made as described above has the following problems.

Spark welding while inserting separately configured upper retainer 4a and lower retainer 4b into a gap formed on one side and a gap formed on the other side among the gaps formed between the outer ring 1 and the inner ring 2 There is a problem in that the process time is lengthened by bonding the upper retainer and the lower retainer using the back and the like.

That is, when the inner ring is rotated by the axial drive, the retainer 4 has two independent structures, upper and lower, for preventing the flow of the balls 3 located between the outer ring 1 and the inner ring 2 (Fig. 1b), the material cost of the bearing increases, and as the two independent structures have to be bonded to each other, the complexity of the process is accompanied, resulting in a long process time and a failure rate.

The present invention has been made to solve the problems of the prior art, the object of the present invention is to improve the structure of the bearing assembly, reducing the process time and the material cost.

Figure 1a is a partial cutaway view showing the structure of a bearing assembly according to the prior art

Figure 1b is a perspective view showing the structure of a retainer according to the prior art.

Figure 2a is a partial cutaway view showing the structure of a bearing assembly according to the present invention.

Figure 2b is a front view showing the structure of the retainer according to the present invention.

FIG. 2C is a cross-sectional view taken along line II of FIG. 2B; FIG.

Explanation of symbols for main parts of the drawings

1: outer ring 2: inner ring

3: ball 10: retainer

11: body 12: fixture

12a: inner circumference

In order to achieve the above object, according to the aspect of the present invention, in the bearing assembly provided with a retainer positioned between the outer ring and the inner ring to fix the position of the ball, the retainer is located between the inner ring and the outer ring It consists of a single structure having a hollow circle shape and a plurality of fixtures protruding toward the ball side along the circumference of the body, and formed by plastic injection as a whole.

In addition, the two fixing bodies form a pair so that the ball is inserted and fixed, and the ends of the pair of fixing bodies face each other, and the distance between the opposite ends is smaller than the diameter of the ball, and the ends It provides a bearing assembly characterized in that the thickness of the portion is made thin.

Referring to the drawings to describe the above content in more detail as follows.

Figure 2a is a partial cutaway view showing the structure of the bearing assembly according to the invention, Figure 2b is a front view showing the structure of the retainer according to the present invention.

2C is a cross-sectional view taken along line II of FIG. 2B.

As shown in Fig. 2a and 2b, the present invention relates to a retainer for fixing the ball of the bearing, the retainer 10 is a hollow circle so as to be located between the outer ring (1) and the inner ring (2) It has a body 11 in shape and a plurality of fixtures 12 protruding toward the ball side along the circumference of the body, and consists of a single structure formed by plastic injection.

That is, as the retainer 10 is made of a single structure formed by plastic injection as described above, it is easy to inject and mass production is possible, and the production cost is reduced compared to the retainer composed of two structures as mentioned in the prior art. do.

In addition, two fixing bodies form a pair so that the ball 3 is inserted into and fixed to the fixing body 12.

At this time, in order to prevent the ball from being separated from the fixture after the ball 3 is inserted into the fixture 12, the ends of the pair of fixtures are formed to face each other, the ends facing the The distance d between the parts becomes smaller than the diameter of the ball.

However, if the diameter (D) of the ball (3) is larger than the distance (d) between the ends of the pair of fixture 12 as described above, when the ball is inserted into the ball between the ends of the fixture It will not be inserted.

In order to solve this problem, when the ball is inserted, that is, when the end portion of the fixing body 12 is inserted into the ball 3, the end portion is opened along the circumference of the ball, so that the ball is inserted into the ball. The tip thickness t of the stagnation is formed thin.

In addition, the present invention is a structure that can be fixed by inserting the ball (3) as described above, there is no need for the conventional bonding process used in the present invention used to fix the ball.

Therefore, the manufacturing process is simplified, and thus the process time and the defective rate can be minimized.

On the other hand, it is preferable that the inner circumferential surface 12a of the ball insertion portion formed by the pair of fixing bodies 12 has an arc shape.

The reason is that when the inner ring is rotated when driving the shaft, the ball 3 flows in contact with the outer ring 1, the inner ring 2 and the retainer 10, wherein the inner circumferential surface of the ball insertion part ( When 12a) has the same shape as the ball, as the ball and the inner circumferential surface of the ball insertion portion are evenly contacted, the concentrated load (or concentrated load) in one place does not reach the inner circumferential surface, so that the retainer Cracks generated by weakening can be prevented in advance.

On the other hand, as shown in Figure 2b and 2c, it is preferable that a predetermined size of the space portion (A) is formed between the inner circumferential surface 12a of the ball insertion portion and the outer circumferential surface of the ball (3).

The reason is to smooth the flow of the ball (3), if there is no free space between the ball (3) and the inner circumferential surface (12a) of the ball insertion portion, the inner ring (2) can be rotated This is because the flow of the ball does not occur when the shaft supported on the inner ring cannot be rotated smoothly.

The present invention made as described above is assembled as follows.

First, as mentioned in the prior art, the outer peripheral surface of the inner ring 2 is contacted with one side of the inner circumferential surface of the outer ring 1 to form a space portion on the other side where the inner ring and the outer ring are not in contact.

Then, after inserting the ball 3 into the space portion, when the air pressure is applied to the ball, it is arranged while moving the predetermined interval between the outer ring and the inner ring to maintain the equal intervals.

Then, the retainer of this invention fixes the said ball.

That is, when the retainer 10 is inserted toward the ball 3 disposed between the outer ring 1 and the inner ring 2, the end of the fixing body 12 is pushed to both sides while contacting the ball. In this case, the distance d between the end portions of the fixture is greater than the diameter D of the ball so that the ball is inserted into and fixed to the inner circumferential surface 12a of the fixture.

As described above, the present invention, in order to improve the retainer of the bearing consisting of two independent structures used in the prior art, by replacing the plastic injection molding as a single structure, the manufacturing cost of the bearing is reduced, the injection of the retainer is easy Mass production is possible.

In the assembly of the bearing, conventionally, retainers of two independent structures are bonded to each other to fix the balls. However, the present invention simplifies the assembly process by only inserting and fixing the balls as a single structure.

Therefore, the process time is shortened and the defect rate is reduced.

It also includes all the effects mentioned in the detailed description of the invention.

Claims (3)

A bearing assembly having a retainer positioned between an outer ring and an inner ring to fix a ball position, The retainer; It is composed of a single structure formed by plastic injection as a whole having a body having a hollow circular shape so as to be located between the inner ring and the outer ring and a plurality of fixtures protruding toward the ball side along the circumference of the body. The two fixing bodies form a pair so that the ball is inserted and fixed, the ends of the pair of fixing bodies face each other, and the distance between the opposite ends is smaller than the diameter of the ball, and the thickness of the end portion. Bearing assembly, characterized in that is formed thin. The method of claim 1, And the inner circumferential surface of the ball insertion portion formed by the pair of fixtures has an arc shape. The method according to claim 1 or 2, When the ball is fastened, the bearing assembly, characterized in that a space of a predetermined size is formed between the inner circumferential surface of the ball insertion portion and the outer circumferential surface of the ball.