KR20120121979A - Roller Assembly - Google Patents

Abstract

PURPOSE: A roller assembly is provided to make a semipermanent roller assembly and to prevent the separation of a roller and a supporting member while being used in poor conditions or over a long period of time. CONSTITUTION: A roller assembly comprises a gear(2), a supporting shaft(8), a bearing(5), a supporting member(9), and a roller(7). The gear is rotated by an external power. The supporting shaft rotatably supports the gear. Protrusions are formed on a part of the surface of the supporting shaft. The bearing is adjacent to the gear and is assembled on the supporting shaft. The supporting member is assembled on the protrusions of the supporting shaft. The roller surrounds the surface of the supporting member and is formed by a resin. Roller grooves are formed inside the roller to insert the protrusions of the supporting member.

Description

Roller Assembly {Roller Assembly}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a roller assembly, and more particularly, to a long life roller assembly used in an automated facility or the like for transporting pallets or products used in a production line.

In general, roller assemblies used in automated equipment, conveyors, etc. are made of various structures. However, in the semiconductor manufacturing process, the LCD manufacturing process, or the organic light emitting diode manufacturing process, foreign matters occur even after long-term use of the equipment, or defects occur during product transfer during fixing, a huge loss occurs. Therefore, most of the roller material used in the roller assembly is used as ultra-high molecular weight polyethylene (UHMW-PE) rather than the general resin. By the way, ultra high molecular weight polyethylene has a high ductility and is sensitive to temperature causes a lot of problems.

1 is an assembled view and an exploded perspective view of a conventional roller assembly

2 is a cross-sectional view according to an embodiment of the present invention.

In the related art, as shown in FIG. 1, the support shaft 8 and the support member 9 are cylindrically formed and press-fitted inside the roller 7, and the fixing member 6 is fixed to the side of the roller 7 with a screw 7. ) Is fixed laterally. The bearing 5 is fixed in both side directions of the roller 7, and the roller assembly is attached to the external equipment through the bearing 5 so as to perform a smooth operation. In addition, the gear 2 is attached to one side of the support shaft 8 so that the roller assembly is rotated by receiving power from the outside through the gear 2. In other words, the gear 2, the roller 7, the support member 9 and the support shaft 8 are integrally formed to constitute a roller assembly. Accordingly, when a product or pallet is in contact with the surface of the roller assembly, the roller assembly is rotated by the power transmitted from the gear 2, and the product or pallet in the manufacturing process is moved using this rotational force.

However, in the early stage of the product, even if the roller assembly is in normal operation, when the use time is long, the overload load from the outside, or a high temperature environment, the roller 7 formed of ultra-high molecular weight polyethylene (UHMW-PE) is expanded. Usually, the physical properties of ultra high molecular weight polyethylene (UHMW-PE) have the advantages of good elasticity, relatively softness, and no foreign matter. However, when pressed with other parts, the fastening force is weak, deformation is easy, and heat is weak. As a result, the clamping force of the roller 7 and the support member 9 is weakened, and only the support shaft 8 and the support member 9 turn away. In addition, the fixing member 6, which is fastened with screws at the side of the roller 7, also has a lapse of time, and a fastening force is deteriorated due to external shock, vibration, or use environment. ) Is pulled out in the axial direction. In other words, due to external poor use environment or long time use, the lowering of the elastic force and the fastening force of the roller 7 are weakened, so that the roller 7 and the support member 9 are separated from each other, or the roller 7 and the support shaft 8 are separated. There is a limit to fundamentally solve the defect that the operation stops or the roller 7 is separated from each other, and provide a roller assembly that can be used semi-permanently.

The present invention has been made to solve the above problems of the prior art,

Due to poor external environment or prolonged use, the roller and the support member are separated from each other, or the roller and the support shaft are separated from each other, the operation stops or the rollers are poorly solved. The purpose is to provide a roller assembly.

In order to achieve the above object, a gear is formed to be rotatable by receiving power from the outside, and a support shaft supporting the gear to be rotatable and having a protrusion formed on a part of the surface thereof.

A bearing adjacent to the gear and assembled to the support shaft, a support member assembled to the protrusion of the support shaft, and a roller formed around the surface of the support member and assembled to form a resin, wherein the support member protrusion is formed on a part of the support member. It is formed, characterized in that the roller groove is formed to be inserted into the support member projection inside the roller.

In addition, the roller may be formed of ultra high molecular weight polyethylene (UHMW-PE) and the support member may be formed of aluminum.

And it is characterized in that the support member is formed on the surface of the support member is formed so as to be press-fitted with the roller.

In addition, a portion of the support shaft has a concave-convex shape, it is characterized in that the concave-convex portion of the support shaft is forcibly pressed into the inner hole of the support member by placing a hole inside the support member. In addition, a plurality of support member protrusions having different sizes may be formed on the surface of the support member. The support member may be press-fitted into a portion of the roller assembly, and a roller side protrusion may be provided on a portion of the roller assembly to prevent the roller assembly from being separated in one direction of the support member.

And a groove is formed on one side of the roller assembly and a groove is formed on a part of the support shaft, and the roller assembly is separated from one side of the support shaft by inserting and assembling a roller fixing ring using the grooves of the two points. It is characterized by preventing that.

According to the invention, the gear is formed to be rotatable by receiving power from the outside,

Support shaft rotatably supports the gears with protrusions

And a roller formed of a resin that surrounds the surface of the support member and the support member assembled to the protrusion of the support shaft. A support member protrusion is formed on a part of the support member, and the support member protrusion is formed inside the roller. As the roller groove is formed and assembled to be insertable, the roller and the support member are separated due to poor external environment or long time use, and either the roller is pulled out in the axial direction or the roller is rotated due to the separation of the support member and the roller. As a result, it is possible to fundamentally solve the defect and realize a roller assembly that can be used semi-permanently.

1 is an assembled view and an exploded perspective view of a conventional roller assembly.
2 is a cross-sectional view according to an embodiment of the present invention
3 is an exploded perspective view according to an embodiment of the present invention
Figure 4 is a cross-sectional view of the roller and the support member according to an embodiment of the present invention
5 is a cross-sectional view of the roller and the support member according to another embodiment of the present invention

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is an exploded perspective view according to an embodiment of the present invention;

4 is a cross-sectional view of the roller and the support member according to an embodiment of the present invention;

5 is a cross-sectional view of the roller and the support member according to another embodiment of the present invention.

3 and 4, the support shaft 8 and the support member 9 are formed in a cylindrical shape and press-fitted inside the roller 7 as shown in FIGS. 3 and 4. The bearing 5 is fixed to the support shaft 8 in both side directions of the roller 7, and the roller assembly is attached to the external equipment through the bearing 5 to perform a smooth operation. In addition, the gear 2 is attached to one side of the support shaft 8 so that the roller assembly is rotated by receiving power from the outside through the gear 2. In other words, the gear 2, the roller 7, the support member 9 and the support shaft 8 are integrally formed to constitute a roller assembly. Accordingly, when a product or pallet is in contact with the surface of the roller assembly, the roller assembly is rotated by the power transmitted from the gear 2, and the product or pallet in the manufacturing process is moved using this rotational force.

In the present invention, due to external poor use environment or long time use, the roller 7 and the support member 9 are separated, and either one of the rollers is pulled out in the direction of the support shaft 8, or the support shaft 9 is separated, or the support member 9 and It has been devised with a focus on fundamentally failing the rollers 7 due to the separation of the rollers 7. In Fig. 5, a part of the support shaft 8 is provided with a concave-convex portion by a knurling method or the like, so that the inner hole of the support member 9 is forcibly pressed into the concave-convex portion to tighten the force between the support shaft 8 and the support member 9. Maximized. 4 (a) or 5 (a), the roller groove 21a is placed inside the roller 7 so that the support member protrusion 21b can be inserted therein. That is, the roller groove 21a and the support member protrusion ( 21b) is designed such that the support member 9 and the roller 7 are not slipped or separated from each other in the rotational direction of the roller 7 in any case. And the shaft support hole 22 was provided in one side surface of the roller 7 so that the support shaft 8 may penetrate. Because of this, when the support shaft (8) is assembled with the roller (7) to make the center to improve the concentricity and to improve the quality. In addition, by arranging a hole in the inner portion of the roller 7 so that the support member 9 can be press-fitted, the roller side protrusion 24 is placed on one side of the roller 7 to prevent the press-in from being over a predetermined length. Based on (9), the roller 7 was designed so as not to fall out in one direction in any case. 4 (b) or 5 (b), the support member surface projection 23 is provided on the surface of the support member 9 separately from the support member projection 21b to support the support member 9 and the roller 7. When pressed and assembled to maximize the clamping force. In addition, the roller fixing ring 20 was used so that the roller 7 and the support shaft 8 were fixed by using the groove by placing a groove in a part of the roller 7 and a part of the support shaft 8. That is, even if the roller 7 is separated from the support member 9, the roller is prevented from moving in the direction of the gear 2 about the support shaft 8.

In other words, the roller 7 and the support member 9 are provided with a roller groove 21a and a support member protrusion 21b to prevent the roller 7 and the support member 9 from being deviated in the rotational direction or from slipping. Even in this case, the roller side protrusions 24 and the roller fixing ring 20 are disposed in order to prevent them from being separated in the direction of the support shaft 8. In particular, in order to reduce the cost in the manufacturing process, the support member 9 and the support member protrusion 21b are separately formed without forming a fixed key form integrally. Usually, the support member 9 uses a lot of aluminum material and can be molded integrally by extrusion.

According to the present invention, due to a poor external environment or a long time use, the roller 7 and the support member 9 are separated and either one falls out in the direction of the support shaft 8 or the support member 9 and the roller 7 The separation of the rollers 7 essentially solves the failure of the roller 7 in the direction of rotation, devised a roller assembly that can be used semi-permanently.

In the above, the configuration and operation of the present invention has been shown in accordance with the above description and drawings, but this is merely an example, and various changes and modifications are possible without departing from the spirit and scope of the present invention. .

1: Screw 1a, 1b, 1c, 1d,: Screw
2: gear 3: ring
4: stopper 5: bearing
6: fixing member 7: roller
8 support shaft 9 support member
20: roller fixing ring 21: roller fixing projection
21a: roller groove 21b: support member protrusion
22: shaft support hole 23: support member surface projection
24: roller side projection

Claims (7)

Gears formed to be rotatable by receiving power from the outside,
A support shaft rotatably supporting the gear and having protrusions formed on a portion of the surface thereof;
A bearing adjacent to the gear and assembled to the support shaft,
A support member assembled to the protrusion of the support shaft,
Wrapping and assembling the surface of the support member and comprises a roller formed of a resin,
A roller assembly, characterized in that a support member protrusion is formed on a portion of the support member, and a roller groove is formed inside the roller to allow the support member protrusion to be inserted therein.

The method according to claim 1,
The roller assembly is characterized in that the roller is formed of ultra high molecular weight polyethylene (UHMW-PE) and the support member is formed of aluminum.
The method according to claim 1,
Roller assembly, characterized in that the support member is formed on the surface of the support member surface projection to be pressed into the roller

The method of claim 1,
A roller assembly having a concave-convex shape on a portion of the support shaft and a hole inside the support member such that the concave-convex portion of the support shaft is press-fitted into the inner hole of the support member.
The method according to claim 1,
Roller assembly, characterized in that formed on the surface of the support member having a plurality of support member projections of different sizes.
The method of claim 1,
A roller assembly, wherein the support member is press-fitted into a portion of the roller assembly, and a roller side protrusion is provided on a portion of the roller assembly to prevent the roller assembly from being separated in one direction of the support member.
The method according to claim 1,
A groove is formed on one side of the roller assembly and a groove is provided on a part of the support shaft, and the roller assembly is separated from one side of the support shaft by inserting and assembling a roller fixing ring using the grooves of the two points. Roller assembly characterized in that to prevent

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