KR20090004601U - Hydraulic haulers - Google Patents

Abstract

The present invention is a hydraulic crusher for dividing or crushing the rock by inserting it into a work hole formed in the rock, the thread is formed on the upper side and the lower side is provided with a plurality of insertion holes in communication with each other in the longitudinal direction, one end is operated A body to which a hydraulic line is connected so that fluid is introduced into the insertion hole; A plurality of pistons respectively inserted into the insertion holes of the body to move forward or backward through the insertion holes by the pressure of the working fluid; And a plurality of piston caps screwed into an upper portion of the insertion hole of the body to prevent separation of the piston and maintain airtightness, wherein the piston has a recessed hole having a predetermined depth in a lower center thereof, and the body is formed from an inner bottom surface. Characterized in that the insertion shaft is formed to extend in the vertical direction to be inserted into the recessed hole of the insertion hole, to minimize the noise and vibration of the construction area through a compact structure and light weight, and to prevent the pressure applied to the rock to be dispersed effectively It has the effect of performing shredding.

Jackhammer, hydraulic, shred, perforated, piston

Description

Hydraulic Rock Splitter

The present invention relates to a hydraulic rock drill, and more specifically, to compact the structure and light weight, to minimize the noise and vibration in the construction area, and to prevent the pressure applied to the rock rock hydraulic crushing to perform efficient rock crushing work It is about the flag.

In general, blasting is the traditional method used to break up workpieces in civil engineering, construction sites, or mines.

During the blasting work, the blasting method, which is widely applied as a control blasting method for suppressing damage to the work object during blasting and obtaining a smooth fracture surface, includes smooth blasting and pre-spliting. Although line drilling, etc., is generally used, the blasting energy is difficult to control sufficiently, so that many cracks are generated around the workpiece and the workpiece is greatly damaged.

In addition, in recent years, risks such as vibration and noise caused by blasting have emerged as social problems, and as the interest in environmental problems has increased, there has been a demand for countermeasures.

In addition, the existing rock crushing method causes breakdowns and damages caused by civil complaints such as overbreaking and cracking in the area adjacent to the noise and vibration dust during the rock cutting work carried out at the construction site. There was a problem.

The present invention has been devised to solve the above problems, to achieve a hydraulic hauler that can achieve a more efficient rock crushing work by achieving a lighter weight of a compact structure and applying a uniform pressure to the rock to be worked. There is this.

In addition, the present invention is installed so that the piston actually applying pressure to the rock is moved only in the vertical direction without being rocked or rotated, so that the pressure to the rock to be applied to the rock without any dispersion of the pressure to the rock rock have.

According to an aspect of the present invention for achieving the above object, a hydraulic crusher for inserting into a work hole formed in the rock to divide or crush the rock, a plurality of inserts are formed on the upper side and the lower side is in communication with each other A body having a hole in the longitudinal direction, and one end of the body to which a hydraulic line is connected so that a working fluid flows into the insertion hole; A plurality of pistons respectively inserted into the insertion holes of the body to move forward or backward through the insertion holes by the pressure of the working fluid; And a plurality of piston caps screwed to an upper side of the insertion hole of the body to prevent separation of the piston and maintain airtightness, wherein the piston has a recessed hole having a predetermined depth in a lower center thereof, and the body is formed from an inner bottom surface. It is characterized in that the insertion shaft extending in the vertical direction is inserted into the recessed hole of the insertion hole.

Preferably, the insertion shaft is formed in a cross-sectional gear shape, the recessed hole is characterized in that formed in the same shape as the insertion shaft to be engaged with the insertion shaft.

More preferably, the body is composed of a plurality, each body is characterized in that the communication with each other via a hydraulic hose.

The hydraulic hauler according to the present invention is economical and has no noise and vibration due to its compact structure and light weight hydraulic hauler, and can be operated by freely adjusting the cutting direction and cutting surface of the rock. The continuous review process of drilling and halving incisions can be performed continuously, which can shorten the construction period, remove restrictions on construction zones, reduce manpower requirements, and apply uniform pressure to the rock to be subjected to rock crushing work. There is an effect that can be performed more efficiently.

In addition, the present invention is because the insertion shaft is inserted and fixed to the recessed hole of the piston, the piston moves only in the vertical direction, so that the pressing force of the piston is not dispersed, all are applied to the rock, so that more efficient rock crushing operation can be performed. .

In addition, the present invention is easy to insert the hydraulic haulma into the work hole even when the work hole drilled in the rock is not formed in a straight line, it is possible to improve the work efficiency.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the hydraulic haulma according to the present invention.

1 is a perspective view of a hydraulic hauler according to the present invention, Figure 2 is an exploded perspective view of the hydraulic hauler according to the present invention, Figure 3 is a cross-sectional view of the hydraulic hauler according to the present invention.

As shown in Figures 1 to 3, the hydraulic haul 100 according to the present invention is largely configured to include a body 110, a piston 120, and a piston cap 130.

The body 110 is provided with a plurality of insertion holes 111 in the longitudinal direction, one end is connected to the hydraulic line 150 (see Fig. 5), the handle 140 of a predetermined shape is attached.

Insertion hole 111 is formed so that the lower side is in communication with each other in the body 110, the working fluid flowing through the hydraulic line 150 is introduced into each insertion hole (111).

A screw thread 111a is formed on the upper inner surface of the insertion hole 111 so that the piston cap 130, which will be described later, is screwed to the insertion hole 111.

At this time, the insertion shaft 112 extending in the vertical direction from the inner bottom surface of the body 110 is formed in the insertion hole 111.

The piston 120 is inserted into each insertion hole 111, respectively, to move forward or backward through the insertion hole 111 by the operating pressure of the working fluid flowing through the hydraulic line 150.

Specifically, a depression hole 121 having a predetermined depth is formed in the lower portion of the piston 120, and when the piston 120 is inserted into the insertion hole 111, the depression hole 121 is formed from the bottom surface of the body 110. The extended insertion shaft 112 is fitted so that the piston 120 is firmly fixed inside the insertion hole 111.

The combination of the recessed hole 121 and the insertion shaft 112 as described above, when the piston 120 is moved forward or backward by the operating pressure of the working fluid, the play between the piston 120 and the piston cap 130. It is possible to prevent the piston 120 swing in the horizontal direction that may occur due to.

On the other hand, the piston cap 130 is formed on the outer periphery of the threaded portion (130a) to be engaged with the threaded portion (111a) of the insertion hole 111, and screwed into the inside of the insertion hole 111 to the operating pressure of the working fluid It prevents the piston 120 moving forward by the body 110 from being separated from the body 110, and at the same time serves to maintain the airtight.

In addition, it is natural that the piston 120 and the piston cap 130 may be configured to add a conventional sealing member to more securely maintain its airtightness. The plate-shaped pressing piece 200 (refer FIG. 5) can be used together.

4 is a view showing another embodiment of the hydraulic haulma according to the present invention, to form an insertion shaft 112 extending in the vertical direction from the bottom of the body 110 in the shape of a gear, the depression of the piston 120 The hole 121 is also configured to have a shape engaged with the insertion shaft 112.

That is, since the cross section of the insertion shaft 112 becomes a gear shape, and the recessed hole 121 also has a cross section of the same shape as the cross section of the insertion shaft 112, the piston 120 is fitted to the insertion shaft 112 When removed, the piston 120 does not shake or rotate inside the insertion hole 111.

Therefore, the piston 120 is more firmly fixed to the insertion shaft 112, the piston 120 can move only in the vertical direction when the working pressure of the working fluid, so that the piston 120 acting on the rock Since the pressing force is not dispersed, the plurality of pistons 120 may apply uniform pressure to perform the rock crushing operation more efficiently.

At this time, the number of gears of the insertion shaft 112 is made smaller than the number of gears of the recessed hole 121, so that a part of the working fluid flows into the recessed hole 121 of the piston 120, so that the pressing force on the rock is further increased. It can be configured to increase.

Hereinafter, with reference to the drawings will be described in detail the operation of the hydraulic haulma according to the present invention.

5 is a cross-sectional view showing a state in which the hydraulic hauler perforated according to the present invention is installed in the work hole, the hydraulic hauler 100 according to the present invention is disclosed in the domestic patent application No. 2004-0092089 filed by the applicant It is used by being inserted into the work hole 300 of the rock to be drilled by a drilling device (not shown) or the like.

In more detail, the hydraulic hauler 100 is placed in the work hole 300 formed in the rock to be crushed, and the hydraulic fluid 150 connected to one end of the hydraulic hauler 100 is connected to the working fluid from the outside. When a pressure is applied, pressure is applied to each piston 120 positioned in the body 110 according to Pascal's Principle to push the piston 120 out of the insertion hole 111 of the body 110. The piston 120 is applied to a predetermined pressure on the pressing piece 200 which is spaced apart from the body 110 by a predetermined distance, the pressing piece 200 is a strong pressure to push one side of the work hole 300 Since the work hole 300 is crushed by the pressure generated in the hydraulic hauler 100.

Here, since the depression hole 121 is formed in the piston 120, the contact area of the piston 120 in contact with the working fluid is increased, and as a result, the operating pressing force of the piston 120 is doubled.

Thereafter, when the pressure applied to the piston 120 is removed, the piston 120 is returned to its original position and the operator removes the hydraulic hauler 100 and the pressing piece 200 from the work hole 300 by using the handle 140. , The operation is complete.

On the other hand, Figure 6 is a cross-sectional view showing a state in which the hydraulic shale of another form according to the present invention is installed in the work hole perforated.

As shown, the body 110 is divided into a plurality, and each of the divided bodies 110 is connected to each other by a hydraulic hose 160 is in communication.

As such, by dividing the body 110 into a plurality, the hydraulic hauler 100 according to the present invention even when the work hole 300 is not bored in a straight line at the time of rock drilling work inside the work hole 300 It becomes easy to insert in.

The embodiments of the present invention described above are merely illustrative of the technical idea of the present invention, and the protection scope of the present invention should be interpreted by the following claims. In addition, one of ordinary skill in the art to which the present invention belongs will be able to various modifications and variations without departing from the essential characteristics of the present invention, all technical ideas within the scope equivalent to the present invention of the present invention It should be interpreted as being included in the scope of rights.

As described above, the hydraulic hauler according to the present invention is economical, noise and vibration-free rock crushing operation through a compact structure and light weight hydraulic hauler, and can be operated by freely adjusting the cutting direction and cutting surface of the rock In addition, it is possible to shorten the construction period because the rock drilling and separation of the rock cuts can be continuously carried out, and the constraints on the construction section can be eliminated and the required manpower can be reduced. It is effective to perform rock crushing work more efficiently by adding a.

In addition, the present invention is because the insertion shaft is inserted and fixed in the depression hole of the piston, the piston moves only in the vertical direction, the pressure applied to the piston is not evenly distributed evenly to the rock, it is possible to perform more efficient rock crushing operation. .

In addition, the present invention is easy to insert the hydraulic haulma into the work hole even when the work hole drilled in the rock is not formed in a straight line, it is possible to improve the work efficiency.

1 is a perspective view of a hydraulic haulma according to the present invention,

2 is an exploded perspective view of the hydraulic haulma according to the present invention,

3 is a cross-sectional view of the hydraulic haulma according to the present invention,

4 is a view showing another form of the hydraulic haulma according to the present invention,

5 is a cross-sectional view showing a state in which the hydraulic hauler perforated according to the present invention is installed in the working hole,

Figure 6 is a cross-sectional view showing a state in which the work hole drilled in another form of hydraulic haulma according to the present invention.

-Explanation of symbols for the main parts of the drawings-

100: hydraulic haulage 110: body

111: insertion hole 111a: thread

112: insertion shaft 120: piston

121: depression hole 130: piston cap

130a: thread 140: handle

150: hydraulic line 160: hydraulic hose

200: pressure piece 300: workman

Claims (3)

A hydraulic hauler that is inserted into a work hole formed in the rock to divide or fracture the rock, A body having a screw thread formed on an upper side thereof and having a plurality of insertion holes in a lower side communicating with each other in a length direction, and one end of which is connected to a hydraulic line so that a working fluid flows into the insertion hole; A plurality of pistons respectively inserted into the insertion holes of the body to move forward or backward through the insertion holes by the pressure of the working fluid; And It includes a plurality of piston cap screwed to the upper side of the insertion hole of the body to prevent the separation of the piston and maintain airtightness, The piston is a hydraulic haulage, characterized in that the depression hole of a predetermined depth is formed in the lower center, and the body is formed in the insertion shaft extending in the vertical direction from the inner bottom surface to be inserted into the depression hole of the insertion hole. The method of claim 1, The insertion shaft has a cross section is formed in the shape of a gear, the depression hole is a hydraulic haulma, characterized in that formed in the same shape as the insertion shaft to be engaged with the insertion shaft. The method according to claim 1 or 2, The body is made of a plurality, each hydraulic body is characterized in that the hydraulic hose communicated with each other through a hydraulic hose.

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