KR200400728Y1 - Low - Noise Type Hydraulic Breaker - Google Patents

Abstract

The present invention relates to a hydraulic breaker, the insertion groove is formed in the inner peripheral surface of the lower cylinder end portion, and the cylindrical sound absorbing material is installed and installed in the insertion groove, and the concave groove is formed in the portion where the piston and chisel contact each other, and the concave groove is made of special steel. Work by absorbing and cushioning shock noise and vibration generated when the piston hits the chisel by seating the manufactured ball or by forming a concave portion integrally with the lower end surface of the piston in contact with the chisel. As a low noise type hydraulic breaker that can reduce noise,

The specific solution of the low-noise hydraulic breaker of the present invention as described above is installed in the cylinder (1) and the cylinder (1) to which the upper cylinder (10) and the lower cylinder (11) are coupled and reciprocated by hydraulic pressure. In the hydraulic breaker comprising a piston (2) to be hit by the piston (2) and the chisel (3) to crush the rock and the like while descending in a certain stroke,

The insertion groove 110 is formed on the inner circumferential surface of the lower cylinder 11 and the cylindrical sound absorbing material 111 is attached to the insertion groove 110, and both ends of the sound absorbing material 111 are provided with leaf springs 112. ,

The concave groove 23 is formed in a portion where the piston 2 and the chisel 3 are in contact with each other, and the ball 4 made of special steel is seated in the concave groove 23,

The concave portion 20 is integrally formed on the lower end surface of the piston 2 in contact with the chisel 3 on the front end surface of the chisel 3;

The concave portion 21 is integrally formed on the lower end surface of the piston 2 in contact with the chisel 3 on the front end surface of the chisel 3; have.

The present invention having the configuration as described above forms a concave groove in the sound absorbing material and the piston and the chisel contacting the sound absorbing material installed in the insertion groove of the inner peripheral surface of the lower cylinder front end to the impact noise and vibration generated when the piston and chisel contact. When the piston hits the chisel by seating the ball in the concave groove, the absorbing noise and vibration are first absorbed from the sound absorbing material. The impact noise and vibration can be absorbed or dampened by the impact of the blower. In particular, the blown to the outside as the convex portion of the piston hits the center of the front end face of the chisel as the convex portion of the piston hits the recess of the chisel. Improve the working environment by buffering noise and vibration, and furthermore I will be able to solve the problem.

Description

Low Noise Type Hydraulic Breaker

The present invention relates to a hydraulic breaker, the insertion groove is formed in the inner peripheral surface of the lower cylinder end portion, and the cylindrical sound absorbing material is installed and installed in the insertion groove, and the concave groove is formed in the portion where the piston and chisel contact each other, and the concave groove is made of special steel. Work by absorbing and cushioning shock noise and vibration generated when the piston hits the chisel by seating the manufactured ball or by forming a concave portion integrally with the lower end surface of the piston in contact with the chisel. The present invention relates to a low noise hydraulic breaker capable of reducing noise.

In general, hydraulic breakers are widely used for crushing concrete or rock by installing them on construction machinery such as excavators and loaders. The crushing tool is a chisel, which is a hydraulic tool of a cylinder. Crush.

In recent years, the noise regulations of construction sites have been strengthened, and the report on construction machinery noise level labeling has been changed to mandatory in 2006, and more than 20 products including excavators, dozers, loaders, and breakers will be designated as mandatory targets.

In addition, if the area within 50m from residential areas, apartment houses, schools, hospitals, public libraries, etc. is to be designated as a constant temperature area, and a specific construction with high noise level is required in accordance with the environmental regulations in the constant temperature area, a soundproofing facility shall be installed before the construction. The report of change in addition of large construction equipment should also be compulsory.

In accordance with these regulations, the breaker included in the noise level recommendation targets the development of low noise products using promotion measures such as the certification of the low noise type breaker which reduces the noise by improving the conventional hydraulic breaker to avoid the noise regulation. .

The noise generated during the operation of the hydraulic breaker is mainly caused by the blow sound generated when the piston reciprocating inside the breaker hits the chisel, which is the hitting tool that is in contact with the workpiece. It is similar to the principle of hitting the crushed object by hitting the chimney. Generally, the noise level of the breaker used in the construction site is about 90 ~ 110dB depending on the breaker size at a distance of 7.5m from the breaker body.

Such a general breaker has a problem that can not buffer and reduce the impact noise or vibration.

The low noise type hydraulic breaker of the present invention is designed to reduce the impact noise or vibration as described above.

First of all, a separate sound absorbing material is installed on the inner circumferential surface of the lower cylinder to increase the noise removal efficiency by directly absorbing the noise source that causes hitting noise and vibration by hitting it.

Next, as described above, a ball made of a special steel is applied to the contact surface between the piston and the chisel in order to reduce the hitting noise and vibration at the same time and at the same time to minimize the piston not directly hitting the chisel and radiating the hitting noise to the outside. When the piston hits the ball by forming a concave groove, the bottom surface of the piston is concave to prevent the emission of blow noise to the outside, and the blow noise to the outside as the ball hits the concave groove of the chisel. It is possible to minimize the noise, so that the noise caused by hitting noise and vibration generated by the blow is absorbed directly from the place where the purpose is to increase the noise removal efficiency,

Except for the components of the ball, convex portion on the lower end of the piston to form a concave in the front end of the chisel by hitting the strongest surface of the piston and the chisel to the most concave part of the center of the front end of the chisel to blow out noise By minimizing divergence, the purpose is to increase the noise removal efficiency by directly absorbing the noise sources that generate the hitting noise and vibration due to the blow.

Specific solution means of the low-noise hydraulic breaker of the present invention for achieving the above object is [a cylinder and a piston coupled to the upper cylinder and the lower cylinder and installed inside the cylinder to reciprocate by hydraulic pressure and the piston In a hydraulic breaker including a chisel to be struck by a rock and crushed rock while descending in a predetermined stroke, an insertion groove is formed in the inner circumferential surface of the lower cylinder tip and the cylindrical sound absorbing material is attached and installed at both ends of the sound absorbing material. That is,

A concave groove is formed in a portion where the piston and the chisel contact each other, and a ball made of a special steel is seated in the concave groove,

The concave portion is formed integrally with the concave portion at the distal end of the piston in contact with the chisel;

The convex portion is formed on the front end face of the chisel, and the concave portion is integrally formed on the lower end surface of the piston in contact with the chisel.

Hereinafter, a detailed description of the low noise type hydraulic breaker of the present invention will be described with reference to the drawings.

1 is a schematic coupling cross-sectional view of the low noise hydraulic breaker of the present invention, Figure 2 is an enlarged cross-sectional view of the use state of the main portion of Figure 1 separated in the low noise hydraulic breaker of the present invention, Figure 3 is a low noise type of the present invention Figure 4 is a state diagram showing the coupling state of the sound absorbing material attached to the inner peripheral surface of the lower cylinder tip in the hydraulic breaker, Figure 4 is a schematic coupling cross-sectional view showing another embodiment in the low noise hydraulic breaker of the present invention, Figure 5 is the present invention 4 is an enlarged cross-sectional view of a state in which the main part of FIG. 4 is separated in the low-noise hydraulic breaker, and FIG. 6 is a schematic cross-sectional view showing another embodiment of the low-noise hydraulic breaker of the present invention, and FIG. It is an enlarged sectional view of the use state which isolate | separated the principal part of FIG. 6 in the type | mold hydraulic breaker.

First, the general hydraulic breaker will be described.

Largely composed of a cylinder (1), a piston (2) and a chisel (3), the cylinder (1) has a structure in which the upper cylinder 10 and the lower cylinder (11) are combined.

On the other hand, the piston is installed inside the cylinder (1) to reciprocate by the hydraulic pressure and the chisel (3) is hit by the piston (2) to perform a function of crushing the rock while descending in a certain stroke. Consists of.

In the hydraulic breaker of the general configuration as described above in detail the specific configuration of the present invention,

An insertion groove 110 is formed on an inner circumferential surface of the front end of the lower cylinder 11, and a cylindrical sound absorbing material 111 is attached to the insertion groove 110.

That is, the portion where the sound absorbing material 111 is attached is installed in a portion where the piston 2 hits the chisel 3 and the blow noise is generated as shown in FIGS. 1 and 2. The both ends of the sound absorbing material 111 is provided with a leaf spring (112).

Next, the configuration of the piston 2 and the chisel 3 configured in the lower cylinder 11 configured as described above, that is, the concave groove 23 in the portion where the piston 2 and the chisel 3 are in contact with each other. To form a ball 4 made of special steel in the concave groove 23 is seated.

In detail, the semicircular groove of the concave groove 23 is formed at the lower end surface of the piston 2 and the front end surface of the chisel 3 so that the ball 4 can be inserted.

Preferably, the concave portion 20 is integrally formed on the front end surface of the chisel 3 without the configuration of the ball 4, and the convex portion 20 is integrated on the lower surface of the piston 2 contacting the chisel 3. The convex portion 31 may be formed on the distal end surface of the chisel 3 or the concave portion 21 may be integrally formed on the lower surface of the piston 2 in contact with the chisel 3. The radius of curvature of the convex portion 30 formed on the distal end surface of the chisel 3 or the convex portion 31 formed on the distal end surface of the chisel 3 and the convex portion 20 or the piston formed on the lower end surface of the piston 2 ( By configuring the radius of curvature of the concave portion 21 formed on the lower surface of 2) to minimize the impact noise and vibration by minimizing the contact area when the piston (2) hits the chisel (3).

As described above, the configuration for the low noise type hydraulic breaker of the present invention will be described in detail below.

First, the chisel 3 is placed in the crushed part of the crushed object in a state in which the present invention is mounted on a construction machine such as an excavator or a loader, and the piston 2 reciprocates to hit the front end surface of the chisel 3 to avoid bleeding. To shred crushed material.

At this time, as shown in Figure 1 is a cylindrical sound absorbing material 111 is attached to the outer circumferential surface contacting the piston 2 and the chisel 3, that is, the insertion groove 110 formed on the inner circumferential surface of the lower cylinder 11 Concave grooves primarily absorbed and cushioned by the reciprocating motion of the piston 2 and at the same time secondaryly formed in the contact surface of the piston 2 and the chisel 3 as shown in FIGS. Specifically, absorbing and cushioning the hitting noise by the ball 4 made of special steel settled in (23), the piston (2) does not hit the chisel (3) directly, the recessed groove (23) of the piston (2) When the ball strikes the ball 4, the impact of the blow to the chisel (3) is to enable the dispersion and absorption of the blow noise.

4 and 5, the convex portion 20 hits the concave portion 30 formed on the distal end surface of the chisel 3 as shown in FIGS. 4 and 5. The radius of curvature of the concave portion 30 at the distal end of the chisel 3 is increased at the distal end surface of the chisel 3 when the contact surface is wide in the state where the lower end surface of the chisel 3 and the front end surface of the chisel 3 are flat. The contact surface is minimized as the radius of curvature of the convex portion 20 of the concave portion 20 is minimized, and at the same time, the contact surface is concentrated at the center of the concave portion 30 and the impact noise to the outside can be minimized due to the concave portion. will be.

Next, as another embodiment, as shown in FIGS. 6 and 7, the concave portion 21 hits the convex portion 31 formed on the front end surface of the chisel 3 as shown in FIGS. 6 and 7. 2) the radius of curvature of the convex portion 31 at the distal end surface of the chisel 3 increases the impact noise due to the wide contact surface while the distal end surface of the chisel 3 is flat. It is relatively smaller than the curvature radius of the concave portion 21 of the surface to minimize the contact surface and at the same time the contact surface is concentrated to the center of the concave portion 21 and at the same time it can minimize the emission noise to the outside due to the characteristics of the concave portion It is.

Accordingly, the convex portion 20 and the concave portion 21 are respectively minimized at the lower end surface of the ball 4 or the piston 2 and the front end surface of the chisel 3 while minimizing the primary impact noise by the sound absorbing material 111. And by configuring the concave portion 30, the convex portion 31 can minimize the noise during the impact.

The present invention having the configuration as described above forms a concave groove in the sound absorbing material and the piston and the chisel contacting the sound absorbing material installed in the insertion groove of the inner peripheral surface of the lower cylinder front end to the impact noise and vibration generated when the piston and chisel contact. When the piston hits the chisel by seating the ball in the concave groove, the absorbing noise and vibration are first absorbed from the sound absorbing material. The impact noise and vibration can be absorbed or dampened by the impact of the blower. In particular, the blown to the outside as the convex portion of the piston hits the center of the front end face of the chisel as the convex portion of the piston hits the recess of the chisel. Improve the working environment by buffering noise and vibration, and furthermore I will be able to solve the problem.

Although specific embodiments of the present invention have been illustrated and described above, the present invention is not limited to the above-described embodiments, and the general knowledge in the technical field of the present invention without departing from the spirit of the present invention. Various changes and modifications may be made by the person who owns them.

1 is a schematic coupling cross-sectional view of the low noise hydraulic breaker of the present invention,

Figure 2 is an enlarged cross-sectional view of the use state of the main portion of Figure 1 separated in the low noise hydraulic breaker of the present invention,

3 is a state diagram showing a coupling state of the sound absorbing material attached to the inner circumferential surface of the lower cylinder tip in the low noise type hydraulic breaker of the present invention;

Figure 4 is a schematic coupling cross-sectional view showing another embodiment in the low noise hydraulic breaker of the present invention,

5 is an enlarged cross-sectional view of a use state in which the main part of FIG.

Figure 6 is a schematic cross-sectional view showing another embodiment in the low noise hydraulic breaker of the present invention,

7 is an enlarged cross-sectional view of a state in which the main part of FIG. 6 is separated in the low noise hydraulic breaker of the present invention.

<Explanation of symbols for the main parts of the drawings>

                    1: cylinder 2: piston

                    3: chisel 4: ball

                   10: upper cylinder 11: lower cylinder

                   20: convex portion 21: concave portion

                   30 concave portion 31 convex portion

                   23: concave groove 110: insertion groove

                  111: sound absorbing material 112: leaf spring

Claims (4)

The cylinder 1 coupled to the upper cylinder 10 and the lower cylinder 11 and the piston 2 installed inside the cylinder 1 and reciprocating by hydraulic pressure are hit by the piston 2 and are fixed. In a hydraulic breaker including a chisel (3) which breaks rocks and the like while descending to a stroke, Insertion groove 110 is formed on the inner circumferential surface of the lower cylinder 11, and the cylindrical sound absorbing material 111 is attached to the insertion groove 110, and both ends of the sound absorbing material 111 are provided with leaf springs 112. Low noise type hydraulic breaker. The method of claim 1, Low noise type hydraulic breaker, characterized in that the concave groove 23 is formed in the portion where the piston 2 and the chisel 3 contact each other, and the ball 4 made of special steel is seated in the concave groove 23. . The method of claim 1, Low noise type hydraulic breaker, characterized in that the concave portion (20) integrally formed on the lower end surface of the piston (2) in contact with the chisel (3) in the front end surface of the chisel (3). The method of claim 1, A low noise hydraulic breaker, characterized in that the front end surface of the chisel (3) is formed integrally with a concave portion (21) on the lower surface of the piston (2) in contact with the chisel (3).