KR20130003915U - Joint assembly of construction machinery equipped with a shim - Google Patents

Abstract

The present invention relates to a joint assembly of a construction machine provided with a fastening shim, in a joint assembly of a construction machine having a first movable member and a second movable member for rotating friction movement about a hinge axis, the first movable A convex key is provided at one side of the member, and a fastening shim is positioned between the first movable member and the second movable member, and one side of the fastening shim is in contact with one side of the second movable member to perform a rotary frictional motion. And the other side of the fastening shim is formed with a key groove is fastened to the key of the first movable member, improving the operating performance of the working machine not only improve the durability of the construction machine, but also wear-resistant layer is formed on one side of the fastening shim friction And wear is reduced.

Description

Joint assembly of construction machine with fastening seam {JOINT ASSEMBLY OF CONSTRUCTION MACHINERY EQUIPPED WITH A SHIM}

The present invention relates to a joint assembly of a construction machine having a fastening shim, and more particularly, to a joint assembly of a construction machine capable of improving the durability of joints of a working machine such as an arm, a boom, or a bucket.

In general, as illustrated in FIG. 1, a construction machine includes an articulation portion such that an arm, a boom, or a bucket, and the like may perform joint movement.

As illustrated in FIG. 2, the joint part includes a hinge shaft 110 coupled to the bracket 120 of the bucket, an arm 140 rotating around the hinge shaft 110, and the arm 140. And a bush 108 fixed to the inner circumferential surface of the arm 140 by press fitting or the like so as to be interposed between the hinge shafts 110. In this structure, the arm 140 and the bush 108 are rotated about the hinge shaft 110.

On the other hand, since the arm 140 can make a sliding movement in the longitudinal direction of the hinge shaft 110, that is, the thrust direction, a bracket 120 for limiting the longitudinal movement of the hinge shaft 110 of the arm 140 is required. Do. The bracket 120 is subjected to the rotational friction movement with the arm 140 while receiving an axial load from the arm 140, this rotational friction movement causes the wear of the arm 140 and the bracket 120 side Increasing the play between the arm 140 and the bracket 120 reduces the operating performance of the work machine.

 It is possible to maintain the operability of the machine for a while by adjusting the play by inserting a shim of a certain thickness between the increased play to maintain operating performance, but over time the friction between the arm and the shim or between the sides of the bracket and the shim Due to this, additional wear may occur, so that the O-ring does not play a role, and foreign matter penetrates to the wear surface, thereby accelerating the wear of the bush 108 as well as the arm 140 and the bracket 120.

In order to solve this problem, the arm 140 is coupled to the heat-resistant wear-resistant disk 104, such as surface hardening to improve the wear resistance to reduce the increase in play due to wear, but having a high hardness Since the wear-resistant disk 104 accelerates the wear of the mating material, that is, the bracket 120, it is not a fundamental solution.

 Alternatively, abrasion resistance can be secured by installing a wear resistant disk on each side of the bracket 120 and the arm 140, but the bucket life is a consumable part, and the life span of the bracket exceeding the bucket life is not economical design.

In addition, as shown in FIG. 3, the bolt insertion hole 103 is formed in the wear-resistant disk 104, and a method of fixing to the arm 140 by the bolt 102 was used. However, in the case of the wear-resistant disk 104 fastened through the bolt, foreign matters such as soil and sand may be introduced through the bolt insertion hole 103, and the foreign matters thus fixed may act as an abrasive to rotate and frictional motion. There was a problem of accelerating the wear of the counterpart material.

In order to solve this problem, it is necessary to install the wear-resistant disk 104 by welding, press-fitting, etc. In this case, there is a problem in that the wear-resistant disk 104 cannot be reused when applied to the bracket 140.

In addition, the fixed coupling method using the bolt 102 as described above has a problem that the structure of the construction machine joint portion is complicated.

The present invention was created to improve the problems of the assembly of the joint of the conventional construction machine as described above, to prevent foreign substances such as earth and sand into the construction machine to maintain the operating performance of the work machine to ensure the durability of the construction machine joint The purpose of the present invention is to provide a joint assembly of a construction machine provided with a fastening shim that can improve the structure and simplify the structure of the joint.

The problem to be solved by the present invention is not limited to the above-mentioned problem to be solved, another problem to be solved is not mentioned can be clearly understood by those skilled in the art to which the present invention belongs. will be.

In order to achieve the object as described above, the joint assembly of the construction machine provided with a fastening shim according to the present invention is a joint assembly of a construction machine having a first movable member and a second movable member for rotating friction movement about a hinge axis. In the present invention, a convex key is provided at one side of the first movable member, a fastening shim is located between the first movable member and the second movable member, and one side of the fastening shim is one side of the second movable member. In contact with the rotary friction movement and the other side of the fastening shim is characterized in that the key groove is engaged with the key of the first movable member.

Preferably, the wear resistant layer is formed on one side of the fastening shim, and the wear resistant member is mounted on one side of the second movable member.

More preferably, the wear-resistant layer of the fastening shim and the wear-resistant disk of the second movable member are coated, bonded or surface hardened.

In addition, the fitting member located between the first movable member and the fastening shim is further mounted.

In addition, the thickness of the fitting member is thinner than the thickness of the key so that the combination of the key and the key groove can be maintained.

As described above, according to the joint assembly of a construction machine provided with a fastening shim according to the present invention, the fastening shim and the first movable member are fastened to limit the rotational movement of the fastening shim and the first movable member, thereby operating performance of the work machine. In addition to the improvement, the wear rest layer is formed on one side of the fastening shim when the fastening shim and the second movable member are in contact with each other to increase the durability of the joint of the construction machine by minimizing wear caused by friction.

In addition, the joint portion of the construction machine provided with a fastening shim according to the present invention is simple in its structure has the effect of improving the assembly characteristics of the joint portion and reduce the cost of parts and the like.

1 is a schematic diagram schematically showing an excavator which is one of the conventional construction machinery.
2 is a schematic cross-sectional view of a joint assembly of a conventional construction machine.
3 is a front view schematically showing the wear-resistant disk provided in FIG.
4 is a cross-sectional view schematically showing the joint assembly of the construction machine according to an embodiment of the present invention.
5 is a schematic exploded perspective view of the joint assembly of the construction machine shown in FIG.
6 is a schematic front view of the fastening shim provided in FIG. 4.
7 is a cross-sectional view schematically showing the joint assembly of the construction machine according to another embodiment of the present invention.
8 is a schematic exploded perspective view of the joint assembly of the construction machine shown in FIG.

Hereinafter, a joint assembly of a construction machine provided with a fastening shim according to an embodiment of the present invention will be described in detail.

4 is a cross-sectional view schematically showing the joint assembly of the construction machine according to an embodiment of the present invention, Figure 5 is a schematic exploded perspective view of the joint assembly of the construction machine shown in Figure 4, Figure 6 is provided in Figure 4 Is a schematic front view of a fastener.

4 to 6, the assembly of the construction machine joint portion according to the present embodiment, the first movable member 20 and the second movable member 40 and the fastening shim around the hinge axis 10 of the center of the joint portion. 30 is provided.

The first movable member 20 may be a bracket provided at one end of a working machine such as a bucket or a boom, and the second movable member 40 may be an arm and a boom.

The wear resistance member 42 is provided on the inner circumferential surface of the side portion of the second movable member 40. The wear resistant member 42 is fixed to the inner circumferential surface of the second movable member 40 by pressing or the like, and the hinge shaft 10 is coupled to the inside of the wear resistant member 42 and the hinge shaft 10 ) And rotational friction movement.

At this time, the first movable member 20 is located at both ends of the joint portion of the construction machine and subjected to the rotational friction movement with the second movable member 40 while receiving an axial load of the second movable member 40. A fastening shim 30 is interposed between the first movable member 20 and the second movable member 40 to reduce wear due to the rotational frictional movement of the member.

The fastening shim 30 is formed in a circular shape, and has a wear resistance by securing a high hardness by forming a wear-resistant layer 34 that is bonded, coated or surface hardened heat treatment on one side of the fastening shim 30.

The fastening shim 30 is formed in a structure having a circular step of the other side is smaller than the one side to enable the coupling with the second movable member 40, the wear-resistant member 42 and the wear-resistant layer ( Abrasion resistance of the mating material, that is, the first movable member 20 is ensured even when the rotary frictional motion is performed in contact with the other side formed by the step 34).

On the other hand, the key groove 32 is formed on the other side of the fastening shim 30 in the same direction as the radial direction.

In addition, a key 22 is formed in a radial direction of the first movable member 20 and in a direction perpendicular to the hinge axis 10. The key 22 is formed to protrude on one side of the first movable member 20. It is fastened to the key groove 32. The key 22 and the key groove 32 has a plurality, it is preferable that the key 22 or the key groove 32 is formed in the position facing the same number so as to be fastened.

At this time, the length of the key 22 may be different from the length of the key groove 32, the length of the key 22 can be modified as long as it can be fastened with the key (32).

In other words, the fastening shim 30 and the first movable member 20 are fastened by the key groove 32 and the key 22, so that rotational frictional motion is limited, so that the first movable member 20 and the fastening shim ( 36) reduce wear of the contact surface to ensure the durability of the joint assembly of the construction machine.

The joint assembly of the construction machine maintains a predetermined clearance for the rotational movement between the second movable member 40 and the fastening shim 30. At this time, soil or foreign matter may flow into the clearance during operation. Therefore, the O-ring or Y-seal 50 is further included between the second movable member 40 and the wear-resistant layer 34 provided on the fastening shim 30.

7 is a cross-sectional view schematically showing the joint assembly of the construction machine according to another embodiment of the present invention.

As shown in FIG. 7, one side of the fastening shim 30 fastened to the first movable member 20 is formed as a fixed end and the fastening shim 30 is in contact with the second movable member 40. The other side of) is formed as a free end.

When the driving time of the work machine increases under the above conditions, the surface where the fastening shim 30 and the second movable member 40 contact each other generates friction due to rotational movement, and wear occurs due to the friction. As the clearance increases, the O-ring located between the wear-resistant member 42 and the fastening shim 30 loses the function of blocking foreign substances.

8 is a schematic exploded perspective view of the joint assembly of the construction machine shown in FIG.

As illustrated in FIG. 8, the fitting member 36 has a thickness t smaller than the thickness T of the key 22 provided at one side of the first movable member 20.

At this time, the thickness t of the fitting member 36 should be smaller than the thickness T of the key 22, and the key groove 32 formed in the key 22 and the fastening shim 30 may be fastened. The fitting member 36 can be provided only if it is within the range.

When the fitting member 36 is provided, the minimum clearance maintained for the relative rotational movement of the first movable member 20 and the second movable member 40 coupled to one side of the fastening shim 30 is maintained and increased. The sliding movement of the first movable member 20 and the coupling shim 30 in the longitudinal direction of the hinge shaft 10 is restricted by the gap between the coupling shim 36 and the second movable member 40. It does not cause the malfunction of the O-ring or Y-seal 50 provided in the.

In addition, the fitting member 36 is formed in a donut shape and the fitting member 36 may vary in shape and size depending on the shape of the work machine.

The technical idea should not be interpreted as being limited to the above-described embodiment of the present invention. As well as the scope of the present invention, the present invention is capable of various modifications at the level of ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Therefore, such improvements and modifications fall within the protection scope of the present invention as long as it will be apparent to those skilled in the art.

102: bolt 103: bolt hole
104: wear-resistant disc 108: bush
110: hinge shaft 120: bracket
140: cancer
10: hinge shaft 20: first movable member
22: key 30: fastening
32: keyway 34: wear-resistant layer
36: fitting member 40: second movable member
42: wear resistant member 50: O-ring or Y-seal
t: thickness of fitting member T: thickness of key

Claims (7)

In the joint assembly of a construction machine having a first movable member 20 and a second movable member 40 for rotating friction movement about the hinge shaft 10,
A key 22 is formed to be convex on one side of the first movable member 20,
A fastening shim 30 is positioned between the first movable member 20 and the second movable member 40.
One side of the fastening shim 30 is in contact with one side of the second movable member 40 to perform a friction friction movement, the other side of the fastening shim 30, the key 22 of the first movable member 20 The joint assembly of the construction machine, characterized in that the key groove 32 is fastened with. The method of claim 1,
Wear-resistant layer 34 is formed on one side of the fastening shim 30, one side of the second movable member 40, the joint assembly of the construction machine, characterized in that the wear-resistant member 42 is mounted. The method of claim 2,
The joint layer assembly of the construction machine, characterized in that the wear-resistant layer (34) of the fastening seam (30) and the wear-resistant member (42) of the second movable member (40) is coated, bonded or surface hardened heat treatment. 3. The method according to claim 1 or 2,
Joint assembly of the construction machine, it characterized in that the fitting member 36 can be further mounted between the first movable member (20) and the fastening shim (30). The method of claim 3,
The thickness t of the fitting member 36 is thinner than the thickness T of the key 22 so that the combination of the key 22 and the key groove 32 can be maintained. Assembly. In the fastening shim (30) provided between the first movable member 20 and the second movable member 40, which rotates about the hinge shaft 10 in the joint assembly of the construction machine,
One side is in contact with one side of the second movable member 40, the wear-resistant member 42 is mounted to perform a rotational friction movement,
The other side is a fastening shim, characterized in that the key groove 32 is engaged with the key 22 formed convexly formed on one side of the first movable member (20). The method according to claim 6,
Fastening shim, characterized in that the wear-resistant layer 34 is formed on one side of the fastening shim (30).

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