KR20180106562A - Hydraulic breaker valve switching control adjuster - Google Patents

Abstract

The present invention relates to a valve switching control adjuster in a hydraulic breaker. In a hydraulic breaker (100) including a piston (120), a chisel (130), a back head (140), and a valve (150), a hydraulic adjuster (154) is connected to a hydraulic control path (153) communicating with a side of an inflow path (152) from a high pressure path (151) disposed at a lower end of the valve (150) in order to control switching of the valve (150) by a vertical movement of a valve sheet (155) by adjusting hydraulic pressure of a fluid. The valve switching control adjuster in a hydraulic breaker according to the present invention provides a smooth operation of the hydraulic breaker, enhances stroke efficiency by the smooth operation of the hydraulic breaker, and remarkably increases durability and the lifespan of products by preventing damages of components of the hydraulic breaker by preventing pulsation of a hose.

Description

[0001] Hydraulic breaker valve switching control adjuster in a hydraulic breaker [0002]

[0001] The present invention relates to a hydraulic breaker, and more particularly, to a valve change control adjuster according to hydraulic pressure and flow control of a fluid flowing along a hydraulic circuit in a hydraulic breaker, When the valve is disabled, the valve is lifted by instantaneous axial pressure to enable smooth operation of the breaker. When the valve housing is aged, the allowable tolerance to the outer diameter of the valve increases, So that the operation of the valve can be smoothly performed when the valve is not desired to be switched by the valve of the hydraulic breaker, and the hysteresis of the hose caused by the increase of the hitting force of the chisel and the high- This relates to a transition control adjuster.

A conventional hydraulic breaker is operated by the hydraulic pressure or pneumatic pressure of an excavator to be mounted, and the piston for driving, which is mounted inside the hydraulic breaker body in which the power is reciprocally moved up and down within a certain area by intermittent action on the upper surface of the piston, The head of the chisel exposed to the outside is hit to the head of the chisel and the tip of the chisel is used to perform the operation of crushing the chisel while it is in contact with the crushing object such as rock.

The hydraulic breaker is provided with a back head which is filled with nitrogen gas, a cylinder main body which is mounted in a state in which the hitting piston can reciprocate, a high pressure supply port and a low pressure discharge port on one side of the cylinder body, And a front head having a hydraulic valve for switching the hydraulic pressure supply direction and having a chisel for crushing the rock mass by being strongly lowered by the hitting piston at the lower end of the cylinder body.

As described above, the front head is mounted so that the chisel can reciprocate. The upper end of the chisel is kept inserted into the front head, and the lower end of the chisel is installed in a state of being protruded by a predetermined length from the lower end of the front head. do.

The two chisel pins assembled in a state of being fixed to the front head are installed in a state of being inserted into the movement grooves formed on both sides of the upper end of the chisel so that the reciprocating movement of the chisel is enabled and at the same time the chuck is restrained without being detached from the front head .

On the other hand, the striking piston repeatedly reciprocates upward and downward, that is, up and down strokes, by the hydraulic pressure circulating in the hydraulic passages formed in the wall surface of the cylinder body, and strikes the chisel, It will be shredded.

Many of the structures of the hydraulic breaker having the above general concept are well known.

For example, Korean Patent Registration No. 10-0078639 and Korean Patent Registration No. 10-0343888.

The valve used in the embodiments of the above prior art is generally provided outside the cylinder body. In the cylinder body, a flow path is formed from the cylinder body to the valve side so that a high-pressure fluid is provided or a low- So that the reciprocating motion of the hitting piston can be controlled through the oil passage switching.

This hydraulic breaker is set so as to supply a high pressure of a constant pressure for supplying a high pressure. For example, when hydraulic pressure is supplied to maintain the internal pressure of the hydraulic breaker at 180 kg / cm 2, the internal pressure of the hydraulic breaker is about 150 kg / Is known to maintain only the hydraulic pressure.

The reason why the internal hydraulic pressure does not maintain the proper value is that the hydraulic pressure of the high pressure flows backward to the high pressure inlet side when the chisel descends and the crushed material is hit, This is because the oil inside the hydraulic breaker leaks to the low-pressure outlet side to lower the internal pressure.

That is, as the use of the hydraulic breaker progresses, the temperature of the hydraulic pressure rises and a clearance is formed between the outer diameter of the valve and the inner diameter of the valve housing, and an aging deformation of the valve housing is caused to enlarge the inner diameter of the valve housing. And the like, and an oil leaking phenomenon occurs.

In accordance with such oil leakage phenomenon, a hydraulic pressure is applied to the cylinder body side at a high pressure to raise the piston for striking so that the valve seat of the valve rises and the high pressure oil passage is opened to switch the high pressure The valve seat can not be raised to the highest point and the valve seat is lowered.

When the maximum top dead center of the valve seat is not reached when the valve is switched, the operation of the breaker becomes impossible.

Accordingly, when the valve seat can not be raised by the valve switching, the flow of the high-pressure fluid flowing through the valve is obstructed, so that the hitting piston descends downwardly, failing to exert a hitting force to strongly hit the chisel.

Further, there is a problem that a pulsation phenomenon is generated in the hose connected to provide the hydraulic pressure when the high pressure and low pressure are switched to the valve actual side.

The reverse flow and the ripple phenomenon caused by the leakage of the high-pressure fluid in the valve chamber not only cause a problem of dropping the internal pressure of the hydraulic breaker but also cause a shock to be transmitted to the components constituting the hydraulic pressure supply device. This causes a problem of reducing the impact energy of the chisel due to the reduction of the internal pressure. As a result, the efficiency of the crushing operation is lowered.

Korean Patent Registration No. 10-0078639 Korean Patent Registration No. 10-0343888 Korean Patent Publication No. 10-2012-0041995

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to solve the above problem, The purpose of which is to enable smooth operation of the hydraulic breaker despite the rise.

In the present invention, due to aging deformation in the valve housing when the hydraulic breaker is used for a certain period of time or more, the allowable tolerance with respect to the outer diameter of the valve due to the inner diameter of the valve housing is increased, thereby causing oil leaking phenomenon, When the valve is not desired, it is effective to control it effectively and to enable smooth operation of the hydraulic breaker by valve switching as desired.

Further, the present invention has a structure in which, as in the prior art, the choke is struck by the maximum gas pressure on the back head of the hydraulic breaker and the striking piston is struck to provide a strong striking force to the crushed material, It is possible to overcome the problems caused by providing the pressure and to provide the appropriate pressure to the back head. However, instantaneous axial pressure generation induces a smooth valve switching due to the rise and fall of the valve to improve the operation efficiency and work efficiency of the hydraulic breaker There are other purposes for heightening.

In addition, the present invention can be configured such that the switching speed of the valve can be made faster than the previous one, so that the pulsation phenomenon of the high-pressure and low-pressure hoses can be remarkably reduced to prevent damage to the components of the hydraulic breaker due to the ripple phenomenon There is another purpose.

According to an aspect of the present invention,

A piston 120 that reciprocates by hydraulic pressure in the cylinder 110 and a chisel 130 which is hit by the piston 120 to descend at a constant stroke and crushes a rock or a ground, And a valve 150 for controlling the high pressure and low pressure hydraulic pressure to be switched for up and down reciprocating motion of the piston 120 Wherein the hydraulic breaker (100)

The hydraulic pressure inside the cylinder 110 flows from the high pressure passage 151 provided at the lower end of the valve 150 to the valve 150 in the passage forming the inflow and outflow route of the hydraulic pressure into the valve 150 inside the cylinder 110. [ A hydraulic pressure regulator 154 is connected to a hydraulic pressure regulating passage 153 communicating with a side surface of the inflow passage 152 which is introduced into the inside of the valve body 150 through the inflow passage 152, So that the switching of the valve 150 by the upward and downward flow of the valve seat 155 is controlled.

According to the present invention, when the hydraulic breaker is used, it is possible to smoothly operate the hydraulic breaker by solving the problem that the switching of the valve is not convenient due to the oil leak due to the increase in the hydraulic pressure temperature, The valve seat can be smoothly raised up to the maximum top dead center in accordance with provision of the instantaneous high pressure to the valve seat inside the valve due to the momentary pressure rise of the fluid flowing into the valve side in a state where an appropriate pressure is provided rather than being provided, So that it is possible to improve the striking efficiency by the smooth operation of the striker.

Further, according to the present invention, the switching speed of the valve can be made to be relatively higher than the switching speed advanced in the previous valve, thereby preventing the hose from being pulsated due to the connection with the cylinder, It is expected that the durability and service life of the product according to the present invention can be remarkably increased.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic front section view of a hydraulic breaker to which the present invention is applied;
FIG. 2 is an enlarged view showing an enlarged view of 'A' in FIG.
Fig. 3 is a schematic plan view of the valve adopted in the present invention
FIG. 4 is a view illustrating a flow path in which a fluid flows from a cylinder side to a valve interior side in a state where the valve switching control adjuster of the present invention applied to the valve of FIG. 3 is applied. A general flat section showing the states that are not
FIG. 5 is a schematic view showing an example in which the area of the cross flow passage area is reduced by using the valve switching control adjuster of the present invention in the state of FIG. 4 to increase the instantaneous flow rate of the fluid and thereby to instantaneously increase the fluid pressure. Cross-section

It is to be understood that the specific structural or functional descriptions of embodiments of the present invention disclosed herein are only for the purpose of illustrating embodiments of the inventive concept, It is intended to include all changes, equivalents, or alternatives falling within the spirit and scope of the present invention, as various changes can be made and have various forms, and terms and words used in the specification and claims are to be understood to be either conventional The inventor of the present invention is not limited to the meaning of the present invention and the inventor can define the concept of the term appropriately in order to explain his invention in the best way. . Therefore, it is to be understood that the present invention is not limited to the embodiments described in the description of the present invention and that it is the most preferred embodiment of the present invention shown in the drawings, and does not represent all the technical ideas of the present invention. It should be understood that various equivalents and modifications are possible or possible.

Also, unless otherwise defined in the description of the present invention, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs I have. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the meaning of the context in the relevant art and, unless explicitly defined herein, are to be interpreted as ideal or overly formal Do not.

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

As shown in the accompanying drawings, according to the present invention, the instantaneous fluid velocity is increased by arbitrarily adjusting the width of the flow passage connected from the cylinder to the valve side so that the valve can be switched by the rising of the valve seat in accordance with the instantaneous oil pressure rise, The valve top control point can be fully raised up to the maximum top dead center of the seat so that the hydraulic breaker can be operated smoothly and the striking force to the chisel side can be ensured.

To this end, the present invention achieves its object through adjustment of the flow path of the valve 150 that regulates the pressure of the fluid in the hydraulic breaker 100 having the normal structure.

The hydraulic breaker 100 is normally provided with a back head 140 filled with nitrogen gas at the upper end to maintain a predetermined pressure and the cylinder 110 is connected to the lower end of the back head 140, And a valve 150 for controlling the hydraulic pressure to be switched between a high pressure and a low pressure for up and down movement of the piston 120 is provided.

Although the valve 150 is illustrated as being provided outside the cylinder 110 in the present invention, it is also applicable to an example in which the valve 150 is provided inside the cylinder 110.

As shown in the figure, the valve 150 controls the flow of the fluid supplied into the cylinder 110. In the valve 150, the high-pressure and low-pressure A plurality of chambers 156 (156a to 156f) which are formed at the outer side of the valve seat 155 and at the inner surface of the valve 150 are provided.

A gap D is formed between the chamber 156 (156a to 156f) and the valve seat 155, which is different from the chamber, and the flow of the fluid is also generated through the gap D.

When the aging phenomenon occurs due to the temperature rise of the fluid in the gap (D), the gap width changes, and the fluid flow rate changes.

The high pressure fluid fails to raise the valve seat 155 inside the valve 150 to the maximum top dead point due to the occurrence of the flow amount change and fails to switch the valve 150 so that the high pressure fluid can not be supplied to the inside of the cylinder 110 Resulting in a reduction in the hitting force.

Therefore, in order to solve this problem, a high-pressure fluid flows to the valve 150 side through the chambers 156a to 156f and the valve seat 155 inside the valve 150 is raised to the maximum upper dead point, So that a high pressure due to the instantaneous axial pressure can be generated inside the valve 150.

In order to generate the instantaneous accumulation pressure, as shown in the figure, a hydraulic control flow path 153 connected from the inflow path 152 and a valve seat 155 inside the valve 150 are provided from the hydraulic control flow path 153 The valve seat 155 inside the valve 150 is pulled up to the maximum upper dead point by providing the fluid at a high pressure to the side of the space 157 and the high pressure is supplied instantaneously, So that it can flow into the cylinder 110 side.

In this way, when the valve is completely switched, the high pressure hydraulic pressure is supplied to the cylinder 110 side, so that the piston 120 exerts a strong hitting force against the chisel 130, thereby enabling a smooth operation of the hydraulic breaker.

4 to 5, when the valve 150 is used for a predetermined period of time, an aging deformation is generated, and the valve housing inner diameter is enlarged by the hydraulic pressure regulating valve 154. As a result, .

Therefore, if the allowable error with respect to the valve outer diameter is increased, the oil leaking phenomenon occurs and the valve is not easily switched. In this case, the hydraulic pressure regulator 154 can be arbitrarily controlled.

3, the hydraulic pressure regulator 154 is formed with an oil passage blocking portion 154b at an end portion of an inserting portion 154a for forming a screw on the outer surface thereof, And the hydraulic pressure regulator 154 is moved from the hydraulic pressure regulating passage 153 to the inner space 157 of the valve 150 according to the entry and exit position through the variable passage 153a, So that the instantaneous velocity of the fluid flowing due to the area reduction displacement of the cross flow passage area 153c leading to the space inflow passage 153b connected to the fluid passage 153b can be increased.

The hydraulic control flow path 153 and the variable flow path 153a connected to the cross flow path area 153c are connected in a linear form and the hydraulic control flow path 153 and the variable flow path 153a and the space inflow path 153b It is preferable that they are orthogonally connected.

As shown in FIG. 5, the width of the cross flow path area 153c, which is the midway point of the hydraulic control flow path 153, is varied by arbitrary adjustment of the hydraulic pressure regulator 154.

Reference numeral 158 denotes a cap which is opened and closed to allow filling of the fluid into the valve 150.

In the variable adjustment of the flow path, the flow velocity instantaneously increases according to the well-known Bernoulli's theorem in the fluid dynamics, and the fluid that flows into the space 157 of the valve 150 under the influence of this phenomenon, Is provided.

The valve seat 155 inside the valve 150 is moved upward to switch the flow of the fluid flowing in the valve 150, so that the high-pressure fluid flows into the cylinder 110 side And the pressure of the high pressure fluid is added to the pressure of the back head 140 to cause the piston 120 to strike the chisel 130 strongly and then to move down the valve seat 155 .

In the meantime, by controlling the hydraulic pressure regulator 154 provided in the present invention, it is possible to further inject a pressure of about 5 to 7 bar at the maximum gas pressure filled in the back head 140, As a result of the experiment, it was found that the hitting force by which the piston 120 hits the chisel 130 according to the additional injection is increased to about 30 to 50%.

In addition, by reducing the flow passage area of the hydraulic pressure regulating passage 152 by adjusting the hydraulic pressure regulator 154, the switching speed due to the vertical movement of the valve seat 155 inside the valve 150 is increased. The pulsation of the hose (i.e., the fluid supply hose) caused by the high-pressure and low-pressure switching of the pump is remarkably reduced.

While the present invention has been described with reference to the particular embodiments and drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Various modifications and changes may be made.

Accordingly, it is to be understood that the technical idea of the present invention is to be understood by the following claims, and all of its equivalents or equivalents fall within the technical scope of the present invention.

100; Hydraulic breaker 110; cylinder
120; Piston 130; Chisel
140; Back head 150; valve
151; A high-pressure channel 152; Inlet flow path
153; A hydraulic control passage 153a; Variable flow path
153b; Space inflow channel 153c; Cross-flow area
154; A hydraulic pressure regulator 154a,
154b; Flow blocking portion 155; Valve seat
156 (156a-156e); Chamber 157; space
158; cap

Claims (3)

A piston 120 that reciprocates by hydraulic pressure in the cylinder 110 and a chisel 130 which is hit by the piston 120 to descend at a constant stroke and crushes a rock or a ground, And a valve 150 for controlling the high pressure and low pressure hydraulic pressure to be switched for up and down reciprocating motion of the piston 120 Wherein the hydraulic breaker (100)
The hydraulic pressure inside the cylinder 110 flows from the high pressure passage 151 provided at the lower end of the valve 150 to the valve 150 in the passage forming the inflow and outflow route of the hydraulic pressure into the valve 150 inside the cylinder 110. [ A hydraulic pressure regulator 154 is connected to a hydraulic pressure regulating passage 153 communicating with a side surface of the inflow passage 152 which is introduced into the inside of the valve body 150 through the inflow passage 152, , And the switching of the valve (150) by the upward and downward movement of the valve seat (155) is controlled by adjusting the hydraulic pressure of the fluid flowing into the valve seat (155).
The method according to claim 1,
The hydraulic pressure regulator 154 is provided with a flow passage blocking portion 154b at an end side of an inserting portion 154a for forming a screw on the outer surface thereof and a variable flow passage 154b communicating with the hydraulic pressure regulating passage 153 of the valve 150 153a are screwed to the inner circumferential surface of the valve 150 so that the hydraulic pressure regulator 154 is connected to the space inflow passage 157 from the hydraulic pressure regulating passage 153 to the valve inner space 157 in accordance with the entry / exit position through the variable passage 153a 153b to allow the instantaneous velocity of the fluid flowing by the area reduced displacement of the cross flow passage area (153c) to be increased. ≪ Desc / Clms Page number 19 >
3. The method of claim 2,
The hydraulic control flow path 153 and the variable flow path 153a connected to the cross flow path area 153c are connected in a linear form and the hydraulic control flow path 153 and the variable flow path 153a and the space inflow path 153b A valve switching control adjuster in a hydraulic breaker, including an orthogonal connection.

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