JP2000320551A - Structure of bearing retainer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To facilitate replacing work of a rolling body, improve maintenance and facilitate manufacturing. SOLUTION: This structure is of a thin cylindrical body and the assembly structure dividable by plural pieces 7. Holder holes 8 for turnably holding lots of roller members 4 are formed on these pieces 7. In order to assemble and cylindrically hold by plural pieces 7, the upper, lower and intermediate parts of the pieces 7 are wound and fixed by linear members 10 to the engage grooves 9 formed in the direction orthogonally crossing with a piece 7 in the longitudinal direction, namely the outer periphery direction of the holder.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a structure of a retainer in a bearing, which facilitates replacement work of a rolling element to dramatically improve maintenance management and facilitates manufacturing. .

[0002]

2. Description of the Related Art Conventionally, various bearings have been commercialized. For example, (1) a retainer which is relatively movably mounted on the outer periphery of a guide shaft and a cylindrical outer cylinder which supports the retainer from the outer periphery, and a number of steel balls are incorporated in the retainer. (2) A plurality of cylindrical rollers are incorporated into a cage, and a plurality of flat surfaces corresponding to the length dimension of the cylindrical rollers are formed on a guide shaft formed in the longitudinal direction of the outer periphery. One that is relatively movably mounted so as to roll the flat surface may be used.

[0003]

However, since these bearings are parts for supporting the movable member, they eventually wear out (particularly, steel balls and cylindrical rollers). For example, in the case of bearings using cylindrical rollers, it is difficult to make the pitch angle between the raceway surface of the guide shaft and the raceway surface of the outer cylinder and the pitch angle of the retainer, which contribute to skew, wear, and the like. For this reason, it is necessary to replace the bearing, but in order to remove the bearing from the guide shaft of the device and take out the retainer from the outer cylinder, it is necessary to disassemble a predetermined part of the device, It was troublesome. The present invention has been proposed in order to make the above exchange work easy and quick, and by making the retainer a structure that can be easily disassembled, it is possible to dramatically improve maintenance efficiency. It is another object of the present invention to provide a structure of a retainer in a bearing which facilitates manufacture.

[0004]

In order to solve the above-mentioned problems, the present invention has an outer cylinder and a retainer fitted to the inner wall of the outer cylinder, and a plurality of rolling elements are mounted on the retainer. As a built-in configuration, the retainer is movably mounted on the guide shaft, the retainer is configured to be assembled by joining a plurality of pieces by a linear member, and is fitted and mounted on the inner wall of the outer cylinder. , The piece has a plurality of rolling element holding holes corresponding to the shape of the rolling element, when replacing the rolling element,
The retainer was taken out of the outer cylinder, and the linear member was cut to separate the retainer into pieces, thereby enabling replacement. In the above-described configuration, the pieces are joined to each other and assembled as a retainer so that the rolling element retaining holes provided in the pieces are located at positions shifted by a predetermined rule with respect to the outer peripheral direction of the retainer. It was configured to be fitted into Also,
A configuration in which a groove for winding a linear member is formed in the piece for each rolling element holding hole, the pieces are joined to each other by the linear member, assembled as a retainer, and fitted and mounted on the inner wall of the outer cylinder. And Further, the piece is configured in a long shape, the size of the outer cylinder, the piece is cut in order to determine the length in the longitudinal direction according to the operation stroke, and the piece is joined by a linear member and assembled as a retainer. , Can be fitted and mounted on the inner wall of the outer cylinder.

[0005]

Next, one embodiment of the structure of the cage in the bearing according to the present invention will be described with reference to the accompanying drawings. FIG. 1 shows a bearing 1. This bearing 1 has a cylindrical outer cylinder 2 and a retainer 3 fitted and mounted on the inner wall of the outer cylinder 2, and a large number of rolling elements 4 (hereinafter referred to as "rollers 4"). And the roller member 4) is mounted so as to be relatively movable on the outer periphery of the guide shaft 5. In this case, the roller member 4 has a shape in which an intermediate portion is bulged. A plurality of splines 6 are engraved in the longitudinal direction of the outer peripheral surface of the guide shaft 5 so as to be in contact with the guide shaft 5 via the roller member 4 without any gap.

The retainer 3 is a thin-walled cylindrical body whose inner diameter is larger than the outer diameter of the guide shaft 5 and whose outer diameter is smaller than the inner diameter of the outer cylinder 2. The retainer 3 is
An assembled structure that can be divided by a plurality of pieces 7 (see FIG. 2). These pieces 7 are formed with holding holes 8 for holding a number of roller members 4.
The thickness of the piece 7 is thinner than the diameter of the roller member 4, the side facing the guide shaft 5, and the outer cylinder 2.
The roller member 4 is held so as to be exposed on both sides facing the. The holding hole 8 directs the longitudinal direction to the outer circumferential direction of the cage 3 and the rolling direction of the roller member 4 to the direction orthogonal to the outer circumferential of the cage 3, that is, the longitudinal direction of the cage. The holding hole 8 is formed so as to hold the roller member 4 in a rotatable state in the holding hole 8 from the inner and outer diameter sides of the piece 7.
The holding hole 8 can be formed such that the inner diameter side of the piece 7 is slightly larger than the outer diameter of the roller member 4 and the outer diameter side is smaller depending on the purpose. The side can be made slightly smaller and the outer diameter side can be made larger. In order to assemble and hold the retainer 3 in a cylindrical shape by the plurality of pieces 7, the upper and lower and intermediate portions of the piece 7 are engaged with the retainer 3 in a direction orthogonal to the longitudinal direction of the piece 7, that is, in an outer peripheral direction of the retainer 3. The wire 9 is wound around and fixed to the groove 9 (see FIG. 3).

According to the structure of the retainer 3 of the bearing 1 as described above, the bearing 1, particularly the roller member 4, disposed on the movable portion of the apparatus wears due to the operation of the apparatus for a predetermined service life, and When the rattle occurs in the part, the replacement operation is started. At this time, the retainer 3 is removed from the outer cylinder 2 by, for example, removing a retaining ring (not shown) for retaining the retainer 3.
It can be removed along the guide shaft 5 (see FIG. 1). The holder 3 can be disassembled into a plurality of pieces 7 by cutting the linear member 8 with an appropriate cutter tool or the like (see FIG. 3). The parts worn in this way can be easily replaced, and when assembling again, the piece 7 holding the roller member 4 can be assembled and held by the linear member 8 and pushed into the outer cylinder 2 for assembly. it can. As described above, when replacing the bearing 1, the operation can be performed without disassembling the device. As a result, maintenance work can be performed quickly and easily.

According to the bearing 1, since the retainer 3 has an assembled structure, there is a small gap between the adjacent pieces 7, 7, so that each piece 7 is located at the position of the spline 6 of the guide shaft 5. At the same time, the roller member 4 is automatically finely moved, and the roller member 4 can roll without shifting on the spline 6, so that an effect of reducing skew, wear, and the like can be obtained.

In the structure of the cage in the bearing according to the present invention, the piece 7 constituting the cage 3 may be formed to be long in the axial direction (see FIG. 4). In this case, the engagement groove 9 of the linear member 10 is formed in each of the pieces 7 between the holding holes 8 formed in the piece 7.

With such a structure, the pieces 7 can be arbitrarily cut and assembled according to the length of the outer cylinder 2 and the length of the stroke, and the manufacturing process can be further facilitated. Further, when the holding hole 8 of the piece 7 constituting the retainer 3 is machined, the machining is significantly easier than the case where the holding hole is machined in the integrally structured cage due to the shape of the piece 7.

Further, the structure of the cage in the bearing according to the present invention can be set so that the holding hole 8 is shifted according to a certain rule as shown in FIG.

With this configuration, when the cage 3 moves relative to the guide shaft 5, the impact when the roller member 4 of the cage 3 comes into contact with the outer periphery of the guide shaft 5 is averaged. Therefore, the durability can be improved at the contact portion such as the roller member 4 by suppressing the minute vibration.

[0014]

According to the present invention, even if the operation of the apparatus for a predetermined period requires replacement of the bearing disposed on the movable part, the replacement operation can be easily performed by separating the retainer into a plurality of pieces. Therefore, it is not necessary to disassemble the movable part of the apparatus and remove the bearing as in the past. Further, it is possible to arbitrarily cut and assemble pieces constituting the retainer in accordance with the length of the outer cylinder and the length of the stroke, so that the manufacturing process can be further facilitated.

[0015]

[Brief description of the drawings]

FIG. 1 is an exploded perspective view showing one embodiment of a bearing to which a structure of a retainer according to the present invention is applied.

FIG. 2 is an external perspective explanatory view of a cage in the bearing shown in FIG. 1;

FIG. 3 is a partial perspective explanatory view for explaining a structure of a retainer shown in FIG. 2;

FIG. 4 is a perspective explanatory view showing an example of a piece constituting a retainer in the bearing shown in FIG. 1;

FIG. 5 shows another example of the structure of the retainer according to the present invention.
It is an external appearance perspective explanatory view.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Bearing 2 Outer cylinder 3 Cage 4 Roller member 5 Guide shaft 6 Spline 7 Piece 8 Holding hole 9 Engagement groove 10 Linear member

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[Procedure amendment]

[Submission date] January 31, 2000 (200.1.3
1)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Claim 1

[Correction method] Change

[Correction contents]

[Procedure amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0004

[Correction method] Change

[Correction contents]

[0004]

In order to solve the above-mentioned problems, the present invention has an outer cylinder and a retainer fitted to the inner wall of the outer cylinder, and a plurality of rolling elements are mounted on the retainer. As a built-in configuration, the guide shaft is mounted so as to be relatively movable along the axial direction, the retainer is configured to be assembled by joining a plurality of pieces by a linear member,
It is configured to be fitted to the inner wall of the outer cylinder, and the piece corresponds to the shape of the rolling element, and the rotation direction of the rolling element is
It has a plurality of rolling element holding holes arranged in a row so as to be oriented in the axial direction, takes out the retainer from the outer cylinder , separates the retainer into a plurality of pieces by cutting the linear member,
The rolling element can be replaced. In the above configuration,
A configuration in which the pieces are joined to each other and assembled as a retainer so that the rolling element retaining holes provided in the pieces are shifted at predetermined positions with respect to the outer circumferential direction of the retainer, and are fitted into the inner wall of the outer cylinder. And Further, a groove for winding a linear member is formed in each of the pieces between the rolling element holding holes, and the pieces are joined to each other by the linear member to assemble as a retainer, and fitted and mounted on the inner wall of the outer cylinder. Configuration. Further, the piece is configured in a long shape, and the dimensions of the outer cylinder,
Pieces were cut to determine the length in the longitudinal direction in accordance with the operation stroke, and the pieces were joined together by a linear member to assemble as a retainer, which could be fitted and mounted on the inner wall of the outer cylinder.

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Claims (4)

[Claims] 1. A structure having an outer cylinder and a retainer fitted to the inner wall of the outer cylinder, wherein a plurality of rolling elements are incorporated into the retainer so as to be relatively movably mounted on a guide shaft. The retainer is configured to be assembled by joining a plurality of pieces by a linear member, and to be fitted and mounted on the inner wall of the outer cylinder, and the piece is configured to hold a plurality of rolling elements corresponding to the shape of the rolling elements. It is characterized by having a hole, when replacing the rolling element, taking out the retainer from the outer cylinder, cutting the linear member to separate the retainer into pieces and enabling replacement. The structure of the cage in the bearing. 2. The rolling element holding hole provided in the piece,
2. The structure as claimed in claim 1, wherein the pieces are joined to each other to assemble as a retainer so as to be shifted at a predetermined rule with respect to the outer circumferential direction of the retainer, and fitted and mounted on the inner wall of the outer cylinder. The structure of the cage in the bearing described. 3. The method according to claim 1, further comprising:
2. The structure according to claim 1, wherein a groove for winding the linear member is formed, the pieces are joined to each other by the linear member, assembled as a retainer, and fitted and mounted on the inner wall of the outer cylinder. The structure of the cage in the bearing. 4. The piece is formed in a long shape, the piece is cut to determine the length in the longitudinal direction according to the size of an outer cylinder and an operation stroke, and the piece is joined and held by a linear member. 4. The structure of the bearing in the bearing according to claim 1, wherein the cage is assembled as a container and can be fitted and mounted on the inner wall of the outer cylinder.