KR20110000152A - Compactor - Google Patents

Abstract

PURPOSE: A compactor having a buffer part is provided to prevent an impact applied to compactor parts and impact noise produced during compaction by absorbing an impact caused by the compaction part. CONSTITUTION: A compactor comprises a housing part(200), a compaction part(100), a hydraulic motor(300), and a buffer part(400). The housing part is coupled with an arm part. The compaction part is coupled with the housing part. The hydraulic motor moves the compaction part up and down. The buffer part is formed on four corners which contact the top of the compaction part and the bottom of the housing part according to the operation of the hydraulic motor.

Description

Compactor with shock absorber {COMPACTOR}

The present invention is a compactor for compacting the ground after mounting on the arm of the heavy equipment using heavy equipment such as an excavator to compact the ground after the retaining wall or retaining wall construction dug during construction of water and sewage In particular, the hydraulic compactor is a compacting plate, which is a part that touches the ground in the compactor to avoid frequent occurrence of component damage of the compactor due to vibration caused by vertical movement of the hydraulic compactor, and the upper surface of the compaction plate The present invention relates to a compactor having a shock absorbing portion for mitigating and absorbing the impact between the lower end of the housing plate and the compaction plate in a state where the housing plates to be positioned are separated from each other.

In general, the pipes are buried in the ground while the ground is excavated for gas work, water supply and sewage work, and plumbing work. We are working to solidify the ground to finish the non-deflated ground.

The compactor is generally used as a compactor, and the compactor is mounted on the arm of heavy machinery such as a fork-lane and is compacting ground or retaining wall evenly by the impact force of the compactor's hydraulic shock. As is well known.

Such a compactor generally has fastening means for easily fastening to an end of a heavy equipment arm such as a fork-lane at the upper end of the housing formed in both sides, and has a hitting part for reciprocating the compaction plate and the compaction plate at the lower end of the housing. By hitting the compaction plate by the up and down reciprocating motion by the hydraulic pressure to compact the ground.

According to such a conventional compactor, the compaction plate and both housings connected to the compaction plate may be interconnected or separated, but both the compaction plate and both housings are connected or spaced apart. When the impact force is provided by the hydraulic supply in the state of contact with the ground, the impact force is also transmitted to the compaction plate and both housings.

Due to such impact force, the binding force between the compaction plate and both housings may be reduced, leading to component breakdown, and maintenance work is essentially required after a certain time of use.

In addition, when excessive hydraulic pressure is applied in the process of operating the compactor by hydraulic pressure, a considerable pressure may be provided to a driving means such as a motor, resulting in damage to the component, thereby increasing the service life of the component and the compactor as a whole. It may act as a factor to reduce the service life of the.

Therefore, the present invention has been made to solve the above problems, even if the compactor mounted on the arm of the fork-lane performs the operation of compacting the ground in contact with the ground, so that the impact force between the compactor and the housing of the compactor is absorbed The aim is to extend the service life of the product, as well as to significantly reduce the noise generated during operation.

In addition, the present invention is configured to bypass when the hydraulic pressure provided to the compactor to act relatively high to offset the load or load or pressure generated in the component by a significant hydraulic pressure, the service life and the compactness of each component Another purpose is to extend the service life of the entire factor.

The present invention for solving the above problems,

In the compactor structure mounted on the arm of the heavy equipment for compacting the ground,

A housing part 200 to be coupled with the arm part,

A compaction part 100 coupled to the housing part,

Hydraulic motor 300 for raising and lowering the compaction unit,

According to the operation of the hydraulic motor 300 is characterized in that the buffer unit 400 is formed in each of the four ears in contact with the lower surface of the housing 200 and the top of the compaction unit 100.

In addition, the present invention is characterized in that when the excess hydraulic pressure is provided to the hydraulic motor 300 is bypassed to the inlet block 310 via the bypass line 330.

According to the present invention, in the structure of the compactor having a configuration of the housing spaced apart from the compaction plate, when the compaction plate connected to the housing by hydraulic pressure to the ground through the vertical reciprocating motion and the compaction plate during the vertical reciprocating motion The shock absorbing part is formed at the parts in contact with the housing to absorb the impact force generated when the compaction plate is grounded, thereby preventing the impact from being applied to the compactor parts, suppressing the impact noise generated during compaction, and providing excessive hydraulic pressure. By bypassing when the hydraulic pressure is formed to reduce the load on the hydraulic motor, it can be expected to significantly extend the service life of the compactor.

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

The present invention relates to a compactor for compacting the ground firmly mounted on the arm of heavy equipment, such as a fork crane, as shown in the drawing, the impact generated when the compaction plate 110 is moved up and down while compacting the ground It is to prevent the transmission, and if the hydraulic pressure is excessively acted to bypass it to extend the service life of the hydraulic motor 300.

To this end, the present invention,

In the compactor structure mounted on the arm of the heavy equipment for compacting the ground,

A housing part 200 to be coupled with the arm part,

A compaction part 100 coupled to the housing part,

Hydraulic motor 300 for raising and lowering the compaction unit,

According to the operation of the hydraulic motor 300 provides a compactor having a buffer unit, characterized in that the buffer unit 400 is formed on each of the four ears in contact with the lower surface of the housing unit 200 and the top of the compaction unit 100. .

As shown in FIG. 8, the housing part 200 is configured to be connected to the arm part 20 of the heavy equipment 10, and a coupling panel 201 is provided upward to be connected to the arm part 20. The side panels 210 are connected to each other to the lower side of the coupling panel 201 and are spaced apart and fixed.

The center of the side plate 210 is to form a cutout portion 250 having a shape of the lower opening, so that the hydraulic motor 300 to be described later through the cutout 250 can be located.

On the other hand, the plate plate 220 is connected to both ends of the side plate plate 210 to support the spaced apart state, and also as shown in Figures 1 and 2 to the lower side of each side plate plate 210, respectively. The lower reinforcing plate 230 was fixed.

The lower reinforcing plate 230 is in contact with or separated from the buffer unit 400 respectively positioned on the four ears of the upper surface of the compaction plate 110 of the compaction unit 100 to be described later, by the buffer unit 400 When the compaction plate 110 moves up and down according to the operation of the hydraulic motor 300, the impact force is prevented from being transmitted to the housing 200, thereby absorbing the impact force provided to the entire compactor. It is possible to extend the service life.

The buffer 400 proposed for this is fixed to the upper surface of the compaction plate 110 of the compaction unit 100, as shown in Figures 2 to 3, the compaction plate 110 is a configuration for compacting the ground as in the prior art, A vertical fixing plate 120 spaced apart and vertically fixed to the center of the upper surface of the compaction plate 110 is provided.

On the other hand, the insertion hole 121 is drilled in the center of the vertical fixing plate 120, so that the eccentric shaft 350 connected to the hydraulic motor 300 can be fitted.

In addition, the vertical fixing plate 120 is connected to each other to form an accommodating part 130 for accommodating the eccentric shaft 350.

As shown in FIGS. 5 to 6 according to the rotation of the eccentric shaft 350 is located in the receiving portion 130, the compaction plate 110 of the compaction portion 100 is to move up and down to compact the ground. .

Meanwhile, as shown in FIGS. 1 and 2, the front and rear inner surfaces of the side plate 210 and the vertical fixing plate of the compaction part 100 are used to connect the housing part 200 and the compaction part 100. 120) to form a connection member 240 for connecting between the outer surface.

Since the torsion phenomenon occurs according to the up and down movement of the compaction plate 110, the connection member 240 is preferably made of a material having flexibility such as rubber material.

As described above, according to the vertical movement of the compaction plate 110, the upper surface of the compaction plate 110 and the lower reinforcing plate 230 provided at the lower side of the side plate plate 210 of the housing part 200 are in contact with each other and the impact force is transmitted as it is. In order to prevent that, as shown in the accompanying drawings, it is preferable to fix the buffer unit 400 respectively on the upper surface of the compaction plate 110, that is, the position of the lower reinforcing plate 230.

The buffer unit 400 is made of a rubber material.

For example, when there is no configuration of the buffer 400, the impact force generated when the ground is compacted throughout the compactor is transmitted as it is, and the phenomenon of being damaged by the continuous deformation and the impact on the connection member 240 may be caused. It may be generated, it will be prevented appropriately by the buffer 400.

Accordingly, the compaction plate 110 moves up and down by the operation of the hydraulic motor 300 in the state in which the compactor is coupled to the arm part 20 of the heavy equipment 10 by the shock absorbing unit 400 to compact the ground. At this time, the shock absorbing portion of the lower reinforcing plate 230 and the upper surface of the compaction plate 110 of the side plate plate 210 of the compaction plate 110 and the housing plate 200 is generated according to the impact Since the 400 is in contact with the gentle, it can greatly reduce the impact noise generated when the ground is compacted, as well as to prevent the impact force is transmitted as it is throughout the compactor, and the impact force is the arm portion 20 And it is to be prevented from being delivered to the heavy equipment (10).

In addition, such a ground compaction operation is provided with a hydraulic motor 300 as shown in Figure 4, provided with an inlet block 310 for introducing the hydraulic pressure to one side of the body constituting the hydraulic motor 300, The inlet hose 301 is connected to the inlet block 310, and the other side of the body is provided with a discharge block 320 and a discharge hose 302 for discharging the inflow hydraulic pressure.

In addition, when the hydraulic pressure flowing into the hydraulic motor 300 through the inlet hose 301 is excessively supplied more than necessary to increase the internal pressure, the hydraulic motor 300 is damaged and is supplied excessively. There is a need to relieve the increased pressure.

To this end, as shown in FIG. 4 and the like, it is preferable to include a bypass line 330 for bypassing the hydraulic pressure excessively supplied in the hydraulic motor 300 to the inflow block 310 side.

Therefore, the eccentric shaft 350, which is supplied along the inlet hose 301 to the inlet block 310 side of the hydraulic motor 300 and connected to the shaft of the hydraulic motor 300, is rotated for the compaction operation, and the compaction plate When the ground 110 is moved up and down and the ground is crushed, if excessive hydraulic pressure is provided to the hydraulic motor 300 along the hydraulic hose 301 according to the sudden load or the surrounding conditions and conditions, the hydraulic pressure toward the bypass line 330 side. This is discharged to be bypassed to the inlet block 310, so that the proper hydraulic pressure in the hydraulic motor 300 can be maintained at all times.

1 is a perspective view showing a compactor according to the present invention

Figure 2 is an exploded perspective view showing the separation of FIG.

Figure 3 is a perspective view showing the separation of the compaction portion of the configuration of the present invention

Figure 4 is a perspective view showing the separation of the hydraulic motor of the configuration of the present invention

5 to 7 are cross-sectional views schematically showing a state in which the compaction plate is moved up and down by a hydraulic motor to compact the ground.

8 is a view showing a state of compacting the ground in a state in which the compactor according to the present invention is mounted on the arm of the heavy equipment

※ Brief description of the main symbols in the drawings

100; Compaction unit 110; Compaction board

120; Vertical fixing plate 121; Insertion hole

130; Receptacle 200; Housing part

201; A coupling panel 210; Side plate

220; Plate plate 230; Lower reinforcement plate

240; Connection member 250; Incision

300; Hydraulic motor 301; Inlet hose

302; Discharge hose 310; Inflow Block

320; Discharge block 330; Bypass line

340; Cover frame 350; Eccentric shaft

400; Buffer part B; bearing

Claims (4)

In the compactor structure mounted on the arm of the heavy equipment for compacting the ground, A housing part 200 to be coupled with the arm part, A compaction part 100 coupled to the housing part, Hydraulic motor 300 for raising and lowering the compaction unit, According to the operation of the hydraulic motor 300, a compactor having a shock absorbing portion, characterized in that the buffer unit 400 is formed on each of the four ears in contact with the lower surface of the housing portion 200 and the compaction portion (100). The method of claim 1, The housing part 200 is connected to the upper coupling panel 201 and the lower side of the coupling panel 201 to be coupled to the arm portion of the heavy equipment, respectively, and continue to form a cutout portion 250 in the center. The side plate plate 210, the plate plate 220 for connecting and supporting both ends of the side plate plate 210 and the lower reinforcing plate 230 to be fixed to the lower side of each side plate plate 210, respectively The compactor which has a buffer part containing. The method of claim 1, The compaction unit 100 is spaced from the center of the compaction plate 110 and the upper surface of the compaction plate 110 for compacting the ground vertically fixed plate 120, the insertion hole 121 is formed, respectively, The lower reinforcing plate 230 is connected to the vertical fixing plate 120 and provided to the lower end side of the accommodating part 130 and the side plate plate 210 of the housing part 200 in which the hydraulic motor 300 is located. ) Is a compactor having a shock absorbing portion including contact with the shock absorbing portion 400 in accordance with the up and down lifting motion by the hydraulic motor 300 of the compaction plate 110 to mitigate the impact. The method of claim 1, The hydraulic motor 300 is provided with an inlet block 310 for introducing the hydraulic pressure by the inlet hose 301 to one side of the body and the discharge block 320 and the discharge block 320 for discharging the hydraulic pressure introduced to the other side And a discharge hose 302 connected to the shock absorber 302, and a bypass line 330 for bypassing the hydraulic pressure to the inflow block 310 when excessive hydraulic pressure is generated in the hydraulic motor 300 is provided. Compactor with wealth.

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