KR102073344B1 - Noise Reduction Structure for Hydraulic Breaker - Google Patents

Abstract

According to the noise damping structure of the hydraulic breaker of the present invention, when assembling the hydraulic breaker has a lower sound absorbing material and a lower damper of elastic material having elasticity in the lower portion of the breaker body, the lower sound absorbing material and the lower damper is compressed when the piston hits the chisel And to expand and firmly support the breaker body due to the repulsive force, while filling the gap between the bracket assembly and the chisel and the front bush flange due to the deformation due to the compression to suppress the transmission of the breaker body during hydraulic breaker operation, thereby preventing the hydraulic breaker There is an effect to shield the leakage noise generated during operation.

Description

Noise Reduction Structure for Hydraulic Breaker

The present invention relates to a noise attenuation structure of a hydraulic breaker, and more particularly to attenuating noise generated in the process of hitting a chisel in contact with a to-be-removed piston provided with a reciprocating movement inside a cylinder of the hydraulic breaker body. It relates to a noise damping structure of a hydraulic breaker for.

In general, the hydraulic breaker is a device that is installed in construction machinery such as excavators, loaders, etc. to crush rock or concrete, and the piston strikes the chisel while repeatedly raising and lowering the stroke inside the cylinder, and contacts the crushed object. The chisel is transferred to the crushed object by the impact energy generated by the impact of the piston to crush the crushed object.

The noise generated during the operation of the hydraulic breaker is a blow sound generated when the piston hits the chisel, and a vibration sound and chisel generated by the piston, the chisel, and the surrounding parts vibrating due to the blow cause the shredded material to be crushed. It can be divided into crushing sound generated when.

In other words, when the piston hits the chisel, a very loud blow sound is generated from the cylinder formed inside the breaker body, and part of the blow sound passes through the wall of the breaker body and propagates to the outside. It propagates through the gap between the lower bushes.

In addition, the vibration of the piston, chisel, breaker body, bracket, etc. due to the impact at the time of the impact is generated noise.

In order to reduce such noise, conventionally, only a lower damper having a high hardness is installed in the lower portion of the breaker body without a lower sound absorbing material, and a material that is generally non-elastic is used even when the lower sound absorbing material is additionally installed.

Therefore, in the structure of a general hydraulic breaker, the impact portion at which the piston strikes the chisel and the position to be exposed are exposed to the lower part of the breaker body, and the lower damper having the high hardness is mounted at the position where the noise and vibration caused by the impact are the greatest. As a result, it is difficult to obtain the effects of leakage noise shielding and vibration attenuation due to the spacing between materials and material properties.

Republic of Korea Patent Registration No. 10-1650081

The present invention has been made to solve the above problems, when assembling the hydraulic breaker has a lower sound absorbing material and a lower damper of elastic material having elasticity in the lower portion of the breaker body, the lower sound absorbing material and the lower damper when the piston strikes the chisel By compressing and stretching the unit to firmly support the breaker body due to the repulsive force, while filling the gap between the bracket assembly and the chisel and the front bush flange due to the deformation caused by the compression to suppress the transmission of the breaker body during hydraulic breaker operation, It is to provide a noise attenuation structure of the hydraulic breaker to shield the leakage noise generated during the operation of the hydraulic breaker.

Noise reduction structure of the hydraulic breaker of the present invention for achieving the above object has an outer diameter smaller than the outer diameter of the breaker body while communicating with the assembly hole of the lower breaker body is formed in the center through the hole through which the upper end of the chisel is inserted, The front bushing is inserted into the lower portion of the breaker body, the lower end is installed to be exposed to the lower side of the breaker body; The assembly step is formed on the lower side of the bracket provided to surround the breaker body is formed to have a diameter of the size that can be inserted into the exposed portion of the front bush while having the same center as the open hole into which the upper end of the chisel is inserted, An elastic material is formed between the exposed portion of the front bush and the assembly step, the height of which is formed to be greater than the height of the assembly step, the width of which is provided with a lower sound absorbing material formed smaller than the radially outer length of the assembly step, the lower side and the bracket of the breaker body It is made of an elastic material between the height is formed larger than the height of the protrusion of the front bush, the width is characterized in that the lower damper is formed smaller than the radial length of one side of the assembly surface of the breaker body.

The lower damper and the lower sound absorbing material may be provided to have a first free space and a second free space in the width direction, respectively, to seal the gap in a compression-deformed shape after the final assembly to shield the noise.

The lower damper or lower sound absorbing material may be formed of a synthetic resin material that is compressible and stretchable, including rubber, urethane, and plastic having elasticity.

The lower damper or lower sound absorbing material may be provided by forming a plurality of thin layers of the same material.

The lower damper or lower sound absorbing material may be provided by forming a plurality of thin layers formed of two or more different materials.

In the bracket assembly surrounding the breaker body, the inner length of the assembly may be smaller than the height of the lower damper plus the height of the assembly surface from the upper surface to the lower surface of the breaker body and the height of the upper damper at the same time. Can be.

According to the noise damping structure of the hydraulic breaker of the present invention as described above, when the hydraulic breaker is assembled, the lower sound absorbing material and the lower damper of elastic material having elasticity in the lower part of the breaker body, the lower sound absorbing material when the piston strikes the chisel The lower damper is compressed and stretched to firmly support the breaker body due to the repulsion force, while the deformation due to compression fills the gap between the bracket assembly and the chisel and the front bush flange to transmit vibration of the breaker body during hydraulic breaker operation. By suppressing, there is an effect that it is possible to shield the leakage noise generated during the operation of the hydraulic breaker.

1 and 2 are views for explaining the noise attenuation structure of the hydraulic breaker according to an embodiment of the present invention,
3 is a view for explaining the lower sound absorbing material constituting the noise attenuation structure of the hydraulic breaker according to an embodiment of the present invention,
4 is a view for explaining the lower damper constituting the noise attenuation structure of the hydraulic breaker according to an embodiment of the present invention,
5 and 6 are views for explaining another form of the lower damper and the lower sound absorbing material constituting the noise damping structure of the hydraulic breaker according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

Noise attenuation structure of the hydraulic breaker according to an embodiment of the present invention, as shown in Figures 1 and 2, the breaker body 100, the bracket 110, the front bush 130, the lower sound absorbing material 200, the lower damper It comprises a 250 and a chisel 300.

A piston for reciprocating by hydraulic pressure is installed in the cylinder of the breaker main body 100, and an upper end of one side of the chisel 300 is inserted into an assembly hole under the breaker main body 100 and positioned inside the cylinder, and the bracket 110 is provided. Is provided to surround all of the breaker body (100).

The front bushing 130 has an outer diameter smaller than the outer diameter of the breaker main body 100 and communicates with the assembly hole under the breaker main body 100 so that a through hole into which the upper end of the chisel is inserted is formed in the center, and the upper end of the breaker main body 100 Inserted into the lower portion of the lower end is installed to be exposed to the lower side of the breaker body (100).

The remaining portion of the breaker body 100 except for the portion where the front bushing 130 is exposed is formed by assembling 119.

An opening hole in which the upper end of the chisel 300 is inserted into the center of the lower side of the bracket 110 provided to surround the breaker body 100 is communicated with the assembly hole of the breaker body 100 and the through-hole of the front bushing 130. 117 is formed.

On the lower side of the bracket 110 provided to surround the breaker body 100, an assembly step 113 into which an exposed portion of the front bush 130 is inserted to have the same center portion as the opening hole 117 is formed. The assembly step 113 is formed on the upper side of the opening hole 117 to have a diameter of a size sufficient to have an exposed portion of the front bushing 130 having the same central portion as the opening hole 117, the breaker An assembly upper surface 115 is formed inside the lower side of the bracket 110 corresponding to the assembling surface 119 formed at the lower side of the main body 100.

The upper end of the chisel 300 is fastened to the cylinder inside the breaker body 100 while passing through the opening hole 117, the through hole of the front bush 130, and the assembly hole of the breaker body 100.

Between the exposed portion of the front bush 130 and the assembly step 113 is provided with a lower sound absorbing material 200 made of an elastic material is formed in a ring shape so that the upper end of the chisel 300 can penetrate.

As shown in FIG. 3, the lower sound absorbing material 200 has a height a2 larger than the height a1 of the assembly step 113, and the width a4 is a radially outer length a3 of the assembly step 113. If the lower sound absorbing material 200 is provided between the exposed portion of the front bush 130 and the assembly step 113, a slight first clearance is formed in the width direction.

The lower damper 250 formed of an elastic material is formed in a ring shape so that the exposed portion of the front bushing 130 can pass between the assembling surface 119 of the breaker body 100 and the assembling top surface 115 of the bracket 110. Is provided.

As shown in FIG. 4, the lower damper 250 has a height b2 greater than the protruding height b1 of the front bushing 130 protruding to the lower side of the breaker body 100, and the width b4 is assembled. If the lower damper 250 is provided between the assembling surface 119 of the breaker body 100 and the assembling top surface 115 of the bracket 110, the width of the lower surface 119 is smaller than the radial length b3 of one side. Some second clearance in the direction.

The lower sound absorbing material 200 and the lower damper 250 may be formed in a circular ring shape or a polygonal ring shape, and there is no limitation due to the shape thereof.

In addition, the material may be formed of a synthetic resin material that can be compressed and stretched, such as rubber, urethane, plastic having elasticity.

As described above, the noise attenuating structure of the hydraulic breaker is configured, and when the piston of the breaker main body 100 descends, the piston strikes the chisel 300 to crush the crushed object by the impact force applied to the chisel 300.

At this time, as shown in Figure 2, the lower sound absorbing material 200, the shape change such as compression and extension occurs between the assembly step 113 and the front bush 130, the lower damper 250 is

A shape change such as compression and extension occurs between the assembly top surface 115 and the assembly surface 119, and thus, a first margin between the breaker body 100, the front bushing 130, the chisel 300, and the bracket 110 is provided. The gap between the space and the second free space is filled.

In this way, the noise generated from the breaker body during operation of the hydraulic breaker, and the noise transmitted by the vibration of the bracket 110 is transmitted to the outside through the lower bracket 110, the lower sound absorbing material 200 and the lower damper 250 By double suppression through, it is possible to effectively block the leakage noise generated during the operation of the hydraulic breaker.

On the other hand, as shown in Figure 5, as another embodiment of the present invention, the lower sound absorbing material 200 may be provided by forming a plurality of thin layers formed of the same material, wherein, the sum of the plurality of stacked height is the assembly step It should be formed larger than the height a1 of 113.

Similarly, the lower damper 250 may be formed by thinly forming a plurality of the same material and stacked in plurality, wherein the sum of the plurality of stacked heights protrudes from the front bushing 130 protruding toward the lower side of the breaker body 100. It should be formed larger than the height b1.

As shown in Figure 6, as another embodiment of the present invention, the lower sound absorbing material may be provided with two or more different materials, each of the first lower sound absorbing material 202 and the second lower sound absorbing material ( 203 may be stacked and provided, wherein the sum of the stacked heights is greater than the height a1 of the assembly step 113.

Similarly, the lower dampers may be provided with two or more kinds of different materials, and the first lower dampers 252 and the second lower dampers 253 formed by different materials may be stacked and provided. The sum of the heights should be greater than the protruding height b1 of the front bushing 130 protruding to the lower side of the breaker body 100.

In addition, as shown in Figure 2, in the bracket assembly surrounding the breaker body 100, the assembly inner length (E) from the upper surface to the lower surface of the breaker body 100 at the height (b2) of the lower damper 250 It has a smaller value than the height of the assembly surface (C) plus the height (D) of the upper damper 290, which is the sum of the heights of the components before assembly is the internal length of the assembly after assembly. The numerical change means that the damper, which is an elastic body of the component, is compressed in the height direction during assembly, and the impact noise and vibration noise of the breaker body can be shielded due to the compression and extension of the lower damper 250.

According to the noise attenuation structure of the hydraulic breaker of the present invention as described above, when assembling the hydraulic breaker is provided with a lower sound absorbing material and a lower damper of elastic material having elasticity in the lower portion of the breaker body, the lower sound absorbing material when the piston strikes the chisel The lower damper is compressed and stretched to firmly support the breaker body due to the repulsion force, while the deformation due to compression fills the gap between the bracket assembly and the chisel and the front bush flange to transmit vibration of the breaker body during hydraulic breaker operation. By suppressing, there is an effect that it is possible to shield the leakage noise generated during the operation of the hydraulic breaker.

In the above description has been described by presenting a preferred embodiment of the present invention, the present invention is not necessarily limited thereto, and those skilled in the art to which the present invention pertains should be within the scope not departing from the technical spirit of the present invention. It will be readily appreciated that various substitutions, modifications and variations can be made.

100: breaker body 110: bracket
113: assembly step 117: opening hole
130: front bush 200: lower sound absorbing material
250: lower damper 300: chisel

Claims (6)

In the noise reduction structure of the hydraulic breaker consisting of a configuration comprising a piston, a chisel and a bracket;
It has a smaller diameter than the outer diameter of the breaker body and communicates with the assembly hole under the breaker body to form a through hole into which the upper end of the chisel is inserted in the center, and the upper end is inserted into the lower portion of the breaker body, and the lower end is exposed to the lower side of the breaker body. A front bush installed to be provided;
An assembly step formed on the lower side of the bracket provided to surround the breaker body and having a diameter equal to that of the open hole into which the upper end of the chisel is inserted, and having a diameter that can be inserted into the exposed portion of the front bush, has an upper side of the open hole. Formed in; An assembly upper surface is formed inside the lower side of the bracket corresponding to the assembled surface formed of the remaining portion except for the portion where the front bush is exposed on the lower side of the breaker body; The upper end of the chisel is fastened to the cylinder inside the breaker body while passing through the opening hole, the front bushing through the assembly hole of the breaker body;
The lower sound absorbing material made of an elastic material provided between the exposed portion of the front bush and the assembly step has a height a2 greater than the height a1 of the assembly step, and the width a4 is a radially outer length a3 of the assembly step. The lower sound absorbing material is provided between the exposed portion of the front bush and the assembly step so that a first clearance is formed in the width direction;
The lower damper provided between the lower side of the breaker body and the bracket has a height b2 greater than the protruding height b1 of the front bushing protruding to the lower side of the breaker body, and the width b4 is one side radial length of the assembled surface. and the lower damper is provided between the assembly surface of the breaker body and the assembly upper surface of the bracket, so that a second clearance is formed in the width direction of the hydraulic breaker. delete The noise damping structure of claim 1, wherein the lower damper or the lower sound absorbing material is formed of a synthetic resin material that is compressible and stretchable, including rubber, urethane, and plastic having elasticity. The noise damping structure of a hydraulic breaker according to claim 1, wherein the lower damper or the lower sound absorbing material is formed by thinly stacking a plurality of the same materials. The noise damping structure of a hydraulic breaker according to claim 1, wherein the lower damper or the lower sound absorbing material is formed of two or more different materials, which are thinly stacked and stacked in plurality. The method of claim 1, wherein the inner length of the assembly in the bracket assembly surrounding the breaker body is less than the height of the lower damper plus the assembly surface height from the upper surface to the lower surface of the breaker body and the height of the upper damper at the same time. Noise attenuation structure of the hydraulic breaker, characterized in that formed to have.

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