KR101285288B1 - Hydraulic breaker with low noise and vibration structure - Google Patents

Abstract

In the hydraulic breaker which generates the striking force through the chisel 17 in association with the lifting and lowering movement of the piston 15 installed on the cylinder 10, the upper chamber 21 and the lower chamber 22 on the cylinder 10. A control valve 30 having a sleeve 40 and a spool 50 is installed to switch the flow path to the valve, the sleeve 40 having at least a striking port 41 and a rising port 43, the spool 50 is a cylindrical structure having a hollow 53 of the upper and lower light, characterized in that the inner jaw 62 on the inner surface with the upper jaw 55 and the outer groove 56 on the outer surface.
Accordingly, there is an effect of reducing the vibration and noise generated during the lifting and lowering process of the chisel hitting piston while improving the durability of the valve for controlling the lifting and lowering of the piston.

Description

Hydraulic breaker with low noise and vibration structure

The present invention relates to a hydraulic breaker having a low noise vibration structure, and more particularly, to reduce vibration and noise generated during the raising and lowering of the chisel blow piston, and to improve the durability of the valve controlling the raising and lowering of the piston. A hydraulic breaker in a structure.

Excavators, breakers, perforators, generators, navigators, loaders, etc. used in various construction sites have undergone many improvements in terms of performance and ease of operation. There is an urgent need for structural improvement. For example, in the case of a breaker that is frequently used for rock crushing or foundation work, aside from various safety accidents, difficulties may be aggravated by air delay caused by civil complaints.

According to one of the prior arts, Korean Patent Laid-Open Publication No. 2009-0008694, "Noise Breaker for Hydraulic Breaker", includes: a cylinder in which a piston is reciprocally mounted in an inner receiving space; Chisel vertically reciprocating by the strike of the piston; A valve controlling a supply of a fluid required for the reciprocating motion of the piston; And a blocking member covering four sides except for one side and the other side of the cylinder to reduce noise and vibration and block the transmission to the outside. Propose a configuration that includes. This reduces the vibrations and noise generated in the cylinder by covering the main part with the blocking member, but still causes problems in fine parts such as chisels.

According to the "Low-noise hydraulic breaker" of Korean Patent Laid-Open Publication No. 2009-0055050 by the present applicant, in a hydraulic breaker including a head cap, a cylinder body, front heads, and a bracket assembly, a small diameter portion and a large diameter in the chisel operation hole are provided. A cover plate formed together with upper and lower portions and inserted into and fixed to the chisel operation hole; It proposes a configuration further comprising; a soundproof plate located in the space formed between the single-layer surface formed in the chisel operation hole and the support surface formed in the cover plate to surround the outer peripheral surface of the hitting chisel. This has the effect of reducing the impact noise of the piston, but there is a disadvantage that requires continuous management because the noise leaks when worn.

An object of the present invention for improving the conventional problems as described above, low noise and vibration structure to reduce the vibration and noise generated during the lifting and lowering process of the chisel blow piston to improve the durability of the valve for controlling the lifting and lowering of the piston To provide a hydraulic breaker.

In order to achieve the above object, the present invention is a hydraulic breaker for generating a striking force through the chisel in conjunction with the lifting and lowering movement of the piston installed on the cylinder: a sleeve and to switch the flow path for the upper chamber and the lower chamber on the cylinder A control valve having a spool is installed, and the sleeve has at least a striking port and a rising port, and the spool has a hollow structure having a hollow of upper and lower light, and has an inner jaw on the inner surface with an upper jaw and an outer groove on the outer surface. Characterized in that.

In addition, according to the present invention is characterized in that the spool has an internal inclined surface on the inner jaw.

In addition, according to the present invention is characterized in that the spool has an external inclined surface on the stepped portion of the outer groove.

In addition, according to the present invention is characterized in that it comprises a buffer port for performing damping by a closed circuit on the sleeve to mitigate the impact of the spool rising.

As a modification of the present invention, it is characterized in that a corrugated pipe in a state in which airtightness is kept up and down is installed at a portion at which the chisel enters and exits from the lower end of the cylinder.

According to the present invention as described above, there is an effect of reducing the vibration and noise generated in the raising and lowering process of the chisel hitting piston while improving the durability of the valve for controlling the raising and lowering of the piston.

1 is a sectional front view showing the main structure of the hydraulic breaker of the present invention.
FIG. 2 is a configuration diagram showing the partial cross section in the side of FIG. 1. FIG.
Figure 3 is a block diagram showing a control valve of the hydraulic breaker according to the present invention
4 is a configuration diagram showing a hydraulic breaker according to a modification of the present invention.

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

1 and 2 simultaneously show half-sectional states at the respective stroke stages in accordance with the lifting and lowering motion of the piston 15 and the chisel 17. FIG. 3 simultaneously shows a half cross-sectional state at each stroke as a result of the lifting and lowering motion of the spool 50.

The present invention relates to a hydraulic breaker that generates a striking force through the chisel 17 in conjunction with the lifting and lowering movement of the piston 15 installed on the cylinder 10, and the upper chamber 21 on the cylinder 10 and A control valve 30 having a sleeve 40 and a spool 50 is installed to switch the flow path to the lower chamber 22. The high pressure connector 25 and the low pressure connector 26 are exposed to the outside of the cylinder 10, and communicate with the high pressure passage 35 and the low pressure passage 36 therein, respectively. In the cylinder 10, the upper chamber 21 and the lower chamber 22 are formed at two upper and lower points where the piston 15 is in contact with each other. On the other hand, the head cap 12 formed on the upper end of the cylinder 10 may be filled with nitrogen.

More specifically, the upper chamber 21 performs the downward movement of the piston 15 when the high pressure hydraulic fluid is reached, and the lower chamber 22 performs the upward movement of the piston 15 when the high pressure hydraulic fluid is reached. The control valve 30 is installed at one side of the cylinder 10 to alternate the filling of the hydraulic oil into the upper chamber 21 or the lower chamber 22. The control valve 30 is provided with a sleeve 40 and the valve cap 32 in a space capable of raising and lowering the spool 50. The basic configuration of such a control valve 30 can refer to a known method, including Korean Patent Publication No. 2009-54105.

In this case, the sleeve 40 of the present invention includes at least a striking port 41 and a rising port 43. The blow port 41 is formed at the lower side adjacent to the high pressure passage 35 and communicates with the flow path of the high pressure hydraulic oil going to the upper chamber 21. The lift port 43 is formed at an intermediate position and exerts a lift force on the spool 50 when the hydraulic oil arrives. In the middle of the blow port 41 and the rising port 43, a drain port 42 for discharging the hydraulic oil of the upper chamber 21 is formed. When the high pressure hydraulic fluid reaches the upper chamber 21, a blow is made to the lowering of the chisel 17, and the rising resistance of the chisel 17 is removed when the hydraulic oil of the upper chamber 21 is drained.

In addition, according to the present invention, the spool 50 is a cylindrical structure having a hollow 53 of upper and lower light, and has an inner jaw 62 on its inner surface while having an upper jaw 55 and an outer groove 56 on its outer surface. . Since the spool 50 has a hollow cylinder 53 of upper and lower light as a circular cylinder, the upper surface 51 is larger than the lower surface 52 so that when the external force does not act, the spool 50 is led to the lowered state. The upper jaw 55 communicates with the lift port 43 to generate a blow force by applying a lift force to the spool 50 when the hydraulic oil is reached, and the outer groove 56 has an upper chamber 21 of the blow port 41. And the drain port 42 communicate with each other to release the striking force. When the spool 50 is moved up and down during the movement of the hydraulic fluid is generated, this phenomenon is intensified and acts as one of the causes causing the vibration and noise of the hydraulic breaker. In this way, the inner jaw 62 is formed on the inner surface of the spool 50 to maintain concentricity during the movement of the valve (particularly lowering), and consequently to prevent rapid deterioration of durability.

In addition, according to the present invention, the spool 50 has an inner inclined surface 64 on the inner jaw 62. The internal inclined surface 64 facilitates flow path switching while alleviating the shaking of the spool 50 due to the instantaneous pressure change of the working oil. The angle of the internal inclined surface 64 is in the range of 70 to 80 degrees, and may be any type of normal light or narrow light.

In addition, according to the present invention, the spool 50 has an external inclined surface 66 on the stepped portion of the outer groove 56. During the lifting and lowering motion of the spool 50, the stepped portion of the outer groove 56 may cause a torsion phenomenon to the spool 50 while reciprocating the hitting port 41 and the drain port 42. Accordingly, the external slope 56 is formed on the stepped portion of the outer groove 56, and in particular, the role of maintaining the concentricity is expected.

In detail, when a phenomenon in which the hydraulic fluid is not concentrically maintained between the sleeve 40 and the spool 50 having a different vibration pattern in the process of shocking in and out through the port of the control valve 30 and switching the flow path is repeated, Vibration and noise gradually intensifies and eventually reaches a state where the spool 50 is fixed. However, despite the vibration and noise in the construction site, the work is forced to be a reality, so structural improvements are required for more reliability and durability.

In addition, according to the present invention may be provided with a buffer port 44 for performing damping by a closed circuit on the sleeve 40 to mitigate the impact of the spool (50). The buffer port 44 is provided at a position spaced apart from the striking port 41, the drain port 42, and the rising port 43, and may constitute a closed circuit disconnected from other circuits on the cylinder 10. When the spool 50 rises sharply, damping is performed in the buffer port 44 to reduce vibration and noise.

As a modification of the present invention, a configuration in which a corrugated pipe 68 is provided in a state where airtightness is maintained up and down in a portion where the chisel 17 enters and exits from the lower end of the cylinder 10 is also possible. Despite the structural improvements of the present invention, the noise inevitably increases as the main parts are replaced or the equipment is aged. The corrugated pipe 68 uses rubber or synthetic resin having weather resistance and combines one end of the cylinder 10 to be hermetically sealed to the other end of the cylinder 10. Accordingly, even if the chisel 17 is raised and lowered, the corrugated pipe 68 is stretched to reduce noise, thereby at least reducing the risk of air delay due to civil complaints.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

10: cylinder 15: piston
21: upper chamber 22: lower chamber
25: high pressure connector 26: low pressure connector
30: control valve 35: high pressure passage
40: sleeve 41: blow port
42: drain port 43: rising port
44: buffer port 50: spool
53: hollow 55: outer jaw
56: outer groove 62: inner jaw
64: internal inclined plane 66: external inclined plane
68: corrugated pipe

Claims (5)

In a hydraulic breaker which generates a striking force through the chisel 17 in conjunction with the lifting and lowering movement of the piston 15 installed on the cylinder 10:
A control valve 30 having a sleeve 40 and a spool 50 is provided to switch flow paths for the upper chamber 21 and the lower chamber 22 on the cylinder 10,
The sleeve 40 has at least a striking port 41 and a rising port 43,
The spool 50 is a cylindrical structure having a hollow 53 of upper and lower light, and has an upper jaw 55 and an outer groove 56 on an outer surface thereof, and has an inner jaw 62 on an inner surface thereof. Hydraulic breaker of the structure. The method of claim 1,
The spool 50 is a hydraulic breaker of low noise and vibration structure, characterized in that it has an internal inclined surface 64 on the inner jaw (62). The method of claim 1,
The spool 50 is a hydraulic breaker of low noise and vibration structure, characterized in that it has an external inclined surface 66 on the step of the outer groove (56). The method of claim 1,
A hydraulic breaker of low noise and vibration structure, characterized in that it comprises a buffer port (44) for performing damping by a closed circuit on the sleeve (40) to mitigate the rising impact of the spool (50). The method of claim 1,
A hydraulic breaker of low noise and vibration structure, characterized in that a corrugated pipe (68) is installed at a lower end of the cylinder (10) in a state in which airtightness is maintained up and down at a portion where the chisel (17) enters and exits.

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