KR200496769Y1 - Tilting reinforcement structure of slewing drive - Google Patents

Abstract

In the present invention, since the tilting reinforcement whose upper end is located on the same horizontal line as the upper end of the swing bearing of the swing drive is fixed by welding to the inner open space of the swing bearing, the external force transmitted to the swing drive during the tilting operation of equipment such as an excavator is reduced. As it is simultaneously transmitted and distributed to the swing bearing as well as the tilting reinforcement body, the moment of force caused by the external force applied to the swing drive can be minimized, preventing cracking and damage of the swing drive in advance, and assembly is easy due to the simple structure. Of course, cost reduction can be induced as installability is greatly improved and the existing swing drive can be used as it is, oil leakage of the swing drive can be prevented, and the tilting reinforcement structure of the swing drive enables long-term use of excavator equipment is initiated.

Description

Tilting reinforcement structure of slewing drive}

The present invention relates to a tilting reinforcement structure of a swing drive, and more particularly, when rotation and tilting of equipment are performed, the external force applied to the swing drive by the tilting operation is dispersed and supported, thereby causing breakage, damage and failure of the swing drive It relates to a tilting reinforcing structure of a swing drive that not only prevents in advance, but also improves productivity and assembly by a simple structure and induces cost reduction.

In general, a swing drive refers to a gearbox designed to transmit torque during rotation and safely withstand radial and axial loads. Assembled in a box.

This swing drive is coupled to the inner circumference of the outer race to increase durability and lifespan by dispersing the external force even when an external force is applied due to an abnormal moment generated during the operation of equipment such as an excavator. It is provided with a protrusion and has a receiving groove concave inward on both sides, inserts a plurality of rolling bodies into the receiving groove on both sides, and rotatably mounts a plurality of rollers along the circumferential direction between the outer circumferential surface of the rail and the outer race It is composed of a cloud body and a triangular arrangement.

However, since a plurality of rollers are disposed in the clearance section between the retainer ring and the support ring in such a conventional swing drive, when an external force such as an abnormal moment or excessive load acts on the swing drive, a plurality of balls are pushed radially outward. As a result, it is relatively vulnerable to radial force, and there is a problem in that oil leakage occurs as well as damage.

In addition, since a plurality of balls and a support structure for preventing their separation are added, the internal structure is relatively complex, resulting in a decrease in productivity.

Accordingly, the present applicant has devised a swing drive registered in Patent No. 10-1719076 in order to solve the problems of the conventional swing drive. A plurality of balls are inserted and disposed between the inner race and the radial inner surface of the inner race, a first sealing material is disposed between the radial inner surface of the housing of the swing driver and the radial outer surface of the outer race, and between the radial outer surface of the inner race and the radial inner surface of the outer race. In order to prevent inflow of foreign matter into the formed gap, second sealing materials are disposed on both sides of the coupling portion, respectively.

The swing drive devised by the present applicant having such a configuration can greatly improve dust and water resistance, prevent oil leakage, and support axial force and radial force moment during operation of the equipment.

However, the swing drive devised by the present applicant firmly supports the moment for the rotational motion of the excavator's bucket or tongs, but does not properly support the tilting moment for the tilting motion, so that the swing drive may be broken or damaged. is occurring frequently.

That is, in the case of the swing drive devised by the present applicant, the inside is hollowed out and the bearing force for the rotation motion is formed by the swing bearing provided on the circumference, support for the hollow inside of the swing drive during the tilting operation of the equipment There is a problem in that the bearing force is concentrated on the swing bearing of the swing drive because the swing drive is not made at all, and the swing drive is damaged, such as being broken.

Patent Document 1: Korean Registered Patent No. 10-1719076 (registered on March 16, 2017) Patent Document 2: Korean Registered Patent No. 10-1413040 (registered on June 23, 2014)

The present invention can greatly improve the support for the swing drive by dispersing the force moment generated during the tilting operation as well as the rotation of equipment such as an excavator or tongs without being concentrated on the swing bearing of the swing drive, as well as It is an object of the present invention to provide a tilting reinforcing structure for a swing drive to prevent breakage and damage of the swing drive, to improve assembly and mountability with the swing drive by a simple assembly structure, and to minimize costs.

As a means for achieving the above object, the tilting reinforcement structure of the swing drive of the present invention includes a housing, a swing bearing provided inside the housing and having an open space inside, and a swing drive having a driving unit gear-engaged with the swing bearing To disperse the external force applied to the swing drive during the tilting operation, the outer surface is in close contact with the inner open space of the swing bearing, and the upper part is welded and fixed by the upper end of the open space of the swing bearing and the first welding part, and the lower part of the swing bearing A tilting reinforcing body welded and fixed to the lower end of the open space by a second weld is provided, and the upper end of the tilting reinforcing body is provided to be located on the same horizontal line as the upper end of the swing bearing, so that the lower surface of the connection part of the equipment to which the swing drive is connected is In the tilting reinforcement structure in which the external force applied to the swing drive during the tilting operation of the equipment is transmitted and dispersed to the swing bearing and the tilting reinforcement by being in close contact with the upper end of the swing bearing and the upper end of the tilting reinforcement, the tilting reinforcement A tilting reinforcement surface located on the same horizontal line as the top of the swing bearing is provided at the top, and the tilting reinforcement surface extends from the top of the tilting reinforcement body but is bent and extended toward the swing bearing to expand the contact area with the equipment for tilting A binding protrusion is provided on the inner surface of the open space of the swing bearing to facilitate the dispersion of external force by operation and to prevent the tilting reinforcement body from falling out of the open space of the swing bearing. The outer surface is provided with a binding groove inserted into the binding protrusion and bound.

Furthermore, the tilting reinforcement body is made of a cylindrical shape whose outer surface is in close contact with the inner surface of the open space portion of the swing bearing, or a plurality of plate shapes whose outer surface is in close contact with the inner surface of the open space portion of the swing bearing.

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In the present invention, since the tilting reinforcement whose upper end is located on the same horizontal line as the upper end of the swing bearing of the swing drive is fixed by welding to the inner open space of the swing bearing, the external force transmitted to the swing drive during the tilting operation of equipment such as an excavator is reduced. As it is simultaneously transmitted and distributed to the swing bearing as well as the tilting reinforcement body, the moment of force caused by the external force applied to the swing drive can be minimized, preventing cracking and damage of the swing drive in advance, and assembly is easy due to the simple structure. Of course, cost reduction can be induced as installability is greatly improved and the existing swing drive can be used as it is, oil leakage of the swing drive can be prevented, and excavator equipment can be used for a long time.

1 is a perspective view showing a swing drive to which a tilting reinforcing structure of the swing drive of the present invention is applied.
Figure 2 is an exploded perspective view showing the main components of the tilting reinforcement structure of the swing drive of the present invention.
Figure 3 is a configuration diagram showing the essential parts of the tilting reinforcing structure of the swing drive of the present invention.
4 is a configuration diagram of a state in which the swing drive to which the tilting reinforcing structure of the swing drive of the present invention is applied is mounted on equipment.
5 is a conceptual diagram showing a tilting state diagram of equipment equipped with a swing drive to which the tilting reinforcing structure of the swing drive of the present invention is applied.
6 is an exploded perspective view showing another embodiment of the tilting reinforcing structure of the swing drive of the present invention.
7 and 8 are configuration diagrams respectively showing other embodiments of the tilting reinforcing structure of the swing drive of the present invention.

Hereinafter, other objects and features of the present invention in addition to the above objects will be clearly revealed through the description of the embodiments with reference to the accompanying drawings.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the present application, they should not be interpreted in an ideal or excessively formal meaning. don't

Hereinafter, a tilting reinforcing structure of a swing drive according to an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

As shown, the present invention includes a housing (1), a swing bearing (3) provided inside the housing (1) and having an open space (2) inside, and a driving unit gear-engaged with the swing bearing (3). (4) It relates to a tilting reinforcement structure for dispersing an external force applied to the swing drive during the tilting operation of the swing drive.

The present invention is connected to the linkage of the equipment 101, for example, the excavator bucket, and transmits torque when the excavator bucket picks up and carries construction materials or wood, or when the industrial machine rotates, and stabilizes the moment for the applied load. in order to be able to withstand it.

To this end, in the present invention, the outer surface 11 is in close contact with the inner open space portion 2 of the swing bearing 3, and the upper portion is the upper end of the open space portion 2 of the swing bearing 3 and the first welded portion 12 It is fixed by welding and the lower part is provided with a tilting reinforcement 10 that is welded and fixed by the lower end of the open space part 2 of the swing bearing 3 and the second weld part 13.

At this time, the tilting reinforcement body 10 is made of a cylindrical shape whose outer surface is in close contact with the inner surface of the open space part 2 of the swing bearing 3, or the inner surface of the open space part 2 of the swing bearing 3 It may be made of a plurality of arcuate plates in the same way as the arcuate inner surface of the open space portion 2 so that the outer surfaces are in close contact with each other.

In addition, the upper end 10a of the tilting reinforcement 10 is provided to be positioned on the same horizontal line a as the upper end 3a of the swing bearing 3.

Accordingly, as the lower surface of the connection part of the equipment 101 to which the swing drive is connected adheres to the upper end 3a of the swing bearing 3 and the upper end 10a of the tilting reinforcement 10, respectively, During the tilting operation, the external force applied to the swing drive is transmitted to the swing bearing 3 and the tilting reinforcement body 10 and dispersed.

In this way, since the external force applied to the swing drive during the tilting operation of the equipment 101 is distributed and transmitted to the swing bearing 3 and the tilting reinforcement body 10, for example, an excavator bucket or tongs can pick up construction materials or wood. It can stably withstand the load moment applied to the swing drive when rotating or tilting while carrying or holding construction materials or timber.

Moreover, since the upper end (3a) of the swing bearing (3) and the upper end (10a) of the tilting reinforcement body (10) are located on the same horizontal line (a), the connection with the equipment (101) is the upper end of the swing bearing (3) (3a) and the upper end 10a of the tilting reinforcement 10 can be connected in close contact at the same time, so that the external force generated during the tilting operation is transmitted to the swing bearing 3 and the tilting reinforcement 10, respectively, so that the swing bearing ( 3), it is possible to prevent oil leakage of the swing drive equipped with the swing bearing 3 and minimize the load on the drive unit 4 because it is dispersed rather than concentrated only on 3).

In addition, after the tilting reinforcement body 10 of the present invention is brought into close contact with the inner surface of the inner open space portion 2 of the swing bearing 3, the outer surface 11 is adhered to, and then the first welding portion 12 and the second welding portion 13 By welding and fixing the tilting reinforcement body 10 to the upper end of the open space part 2 of the swing bearing 3 and the lower end of the open space part 2 of the swing bearing 3, the tilting reinforcement body 10 can be easily and conveniently It can be installed in the open space inside the swing bearing 3 of the swing drive, greatly improving installation and assembling properties, and economical cost reduction can be obtained because the existing swing drive can be used as it is.

The upper end (10a) of the tilting reinforcement body (10) of the present invention is provided with a tilting reinforcement surface (14) located on the same horizontal line (a) as the upper end (3a) of the swing bearing (3), the tilting reinforcement The surface 14 extends from the upper end 10a of the tilting reinforcement body 10 and is bent and extended toward the swing bearing 3.

In this way, as the tilting reinforcement surface 14 extends from the upper end 10a of the tilting reinforcement 10 so that it is located on the same horizontal line as the upper end 3a of the swing bearing 3, the equipment 101 It is possible to further expand the contact area with the external force according to the tilting operation can be more easily dispersed, it is possible to more reliably prevent the concentration of external force on the side of the swing bearing (3).

A binding protrusion 20 is provided on the inner surface of the open space portion 2 of the swing bearing 3 of the present invention, and a binding groove that is inserted into the binding protrusion 20 and bound on the outer surface of the tilting reinforcement body 10 (21) is provided.

As such, since the binding protrusion 20 is provided on the inner surface of the open space portion 2 and the binding groove 21 into which the binding protrusion 20 is inserted is provided on the outer surface of the tilting reinforcement body 10, the tilting reinforcement body ( 10) can be more firmly fixed to the open space portion 2 of the swing bearing 3 to prevent the tilting reinforcement 10 from falling out of the open space portion 2 of the swing bearing 3. can

As described above, the present invention has been described by specific details such as specific components and limited embodiments and drawings, but this is provided to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments. Those skilled in the art can make various modifications and variations from these descriptions.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and not only the claims to be described later, but all modifications equivalent or equivalent to these claims will be said to belong to the scope of the present invention.

10: tilting reinforcement 10a: top of tilting reinforcement
11: tilting reinforcement outer surface 12: first welding part
13: second welding part 14: tilting reinforcement surface
20: binding protrusion 21: binding groove

Claims (4)

A housing (1), a swing drive having a swing bearing (3) provided inside the housing (1) and having an open space portion (2) on the inside, and a drive unit (4) gear-engaged with the swing bearing (3). In order to disperse the external force applied to the swing drive during the tilting operation, the outer surface 11 is in close contact with the inner open space part 2 of the swing bearing 3, and the upper part is the top of the open space part 2 of the swing bearing 3 And the tilting reinforcement 10 is welded and fixed by the first weld 12 and the lower portion is welded and fixed by the lower end of the open space portion 2 of the swing bearing 3 and the second weld 13, the The upper end (10a) of the tilting reinforcement 10 is provided to be located on the same horizontal line (a) as the upper end (3a) of the swing bearing (3), so that the lower surface of the connection part of the equipment 101 to which the swing drive is connected is the swing bearing By being in close contact with the upper end (3a) of (3) and the upper end (10a) of the tilting reinforcement body (10), the external force applied to the swing drive during the tilting operation of the equipment is applied to the swing bearing (3) and the tilting reinforcement body (10) In the tilting reinforcement structure made to be transmitted and dispersed,
At the upper end (10a) of the tilting reinforcement body (10)
A tilting reinforcing surface 14 positioned on the same horizontal line as the upper end 3a of the swing bearing 3 is provided, and the tilting reinforcing surface 14 is the upper end 10a of the tilting reinforcing body 10 It extends from, but is bent and extended toward the swing bearing 3 to expand the contact area with the equipment 101 so that the external force is easily dispersed by the tilting operation,
A locking protrusion 20 is provided on the inner surface of the open space 2 of the swing bearing 3 to prevent the tilting reinforcement 10 from falling out of the open space 2 of the swing bearing 3. And, the tilting reinforcement structure of the swing drive, characterized in that the outer surface of the tilting reinforcement body 10 is provided with a binding groove 21 inserted into the binding protrusion 20 and bound.
According to claim 1,
The tilting reinforcement body 10,
The outer surface is made of a cylinder in close contact with the inner surface of the open space portion 2 of the swing bearing 3, or
Tilting reinforcement structure of the swing drive, characterized in that the outer surface is in close contact with the inner surface of the open space part (2) of the swing bearing (3) in the same arc-shaped inner surface as the arc-shaped inner surface of the swing drive.
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