KR100601386B1 - A plate with a hydraulic jack and excavating method using this plate - Google Patents

Abstract

The present invention relates to a plate equipped with a hydraulic jack and an excavation method using the same, which has a predetermined length, and the tip is hydraulically between at least a pair of angles 22 attached to the bottom surface of the pointed underground excavation plate 21. Since the hydraulic jack 31 made of a cylinder is fixedly installed, automation and simultaneous propulsion can be achieved, thereby shortening the air and reducing the cost.

Description

A plate with a hydraulic jack and excavating method using this plate}             

1A and 1B are side and plan views of a plate with a hydraulic jack according to the present invention.

FIG. 1C is a cross-sectional view taken along the line A-A of FIG. 1B.

Figure 2 is an enlarged side view of the support member provided on the plate.

3A is a view showing a state in which the support member is supported with respect to the support hole.

FIG. 3B is a detailed view of portion A of FIG. 3A.

Figure 4 is a view for explaining the step of pushing the plate with a hydraulic jack according to the present invention.

Figure 5a is a rear view showing a state in which a plurality of plates with a hydraulic jack according to the present invention is aligned on the side of the underground tunnel.

5B is a cross-sectional view taken along the line A-A of FIG. 5A.

6A and 6B are views illustrating a construction concept using a conventional method plate and a method of pushing the method plate.

The present invention relates to a plate having a hydraulic jack for excavating the earth and sand tunnels and an excavation method using the same.

More specifically, in the excavation construction of the earth and sand tunnel having a predetermined cross-sectional size, as in the conventional method of the shield method, the operator lifts the manual hydraulic jack and does not push the method plates one by one. The present invention relates to a plate equipped with a hydraulic jack capable of shortening the air and reducing costs due to automation and simultaneous propulsion, while improving the directionality by eliminating the eccentricity of force transmission.

The method of shielding method using Messer Plate is to excavate the ground by installing the Messer Plate in the outer periphery of the excavation surface of the earth and sand tunnel, install the support ball, and then make the secondary structure necessary for the stability of the ground. Underground tunnel excavation method that installs (electric bulb, tunnel, etc.).

More specifically, as shown in FIG. 6A, when the horizontal shaft C is formed to form at least two places A and B of vertical shafts and connects the vertical shafts, the entrance to the oscillation tool of the vertical shaft A is performed. After excavating, install the steel support ball 10 according to the shape of the excavation section, and in parallel by engaging a plurality of mesa plate 20 on the outer peripheral side of the support hole 10 by engaging the bent portion on its side Proceeding the underground excavation while pushing the method plate 20 in the direction to be excavated, and at the same time repeating the excavation process to install a new support hole with a predetermined interval (for example, 60cm ~ 80cm), finally the vertical shaft (B) It is a method of forming a horizontal shaft (C) to reach the working tool of.

The mesoplate 20 is pushed one by one while operating by inserting the manual hydraulic jack 30 for each messer plate 20 as shown in Figure 6b, when the new membrane-excavation surface is formed by excavating the membrane (40) ) To support the curtain and install the additional support (10). In this way, the excavation process is repeated, and the excavation and supporting work for the underground tunnel is carried out to the final target point.

At this time, between the jibo and jibo by using a tie rod to connect the jibo ball to each other to stabilize the jibo ball and insert the earth plate (50, 60b) to fill the excavation surface between the jibo ball and the jibo ball, the earth plate on the top of the jibo ball In order to closely support the ground, the wedge (60a) is installed to support the load (earth pressure, etc.) transmitted from the ground in contact with the upper support hole, and the excavation progress through the upper ground reinforcement grouting and primary rehabilitation Membrane stability, water treatment and ground subsidence are prevented. Thus, by forming a secondary concrete structure (power bulb, culvert, etc.) of the cross section required for the excavation surface, the underground tunnel suitable for the purpose is finally completed.

However, in the above-described method of the method using a method plate, the operator holds the manual hydraulic jack and pushes the method plate one by one while operating by inserting every one of the method plates, which causes a problem that the air lengthens and the construction cost increases accordingly. .

Moreover, the use of manual hydraulic jacks results in eccentricity in the transmission of forces, while the small propulsion capacity of manual hydraulic jacks (e.g. 5 to 10 tonnes) is not sufficient to form large meserplates, which should only be applied to small-scale tunnel excavation. The problem was that the limitation was that.

Accordingly, the present invention has been made to solve the above non-economical and limiting problems, by using a plate integrally formed by inserting a hydraulic jack in the underground excavation by the method of the shield method, automation and simultaneous propulsion while improving the direction It is an object of the present invention to provide a plate equipped with a hydraulic jack and an excavation method using the same, which can reduce air and reduce costs.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus and a process according to the present invention will be described in detail with reference to the accompanying drawings, in which like elements are designated with like reference numerals.

1A and 1B are side and top views of a plate with a hydraulic jack according to the invention, in which these figures show a new plate 21 according to the invention, the plate 21 being soiled and excavated in cross section. As a method plate manufactured to a predetermined length according to the size, etc., similar to the conventional method plate 20, the overall size is preferably formed larger than the conventional.

In detail, the plate 21 according to the present invention, as shown in Figures 1a and 1b has a predetermined length while the tip is pointed, and the rear part is a cantilevered structure to correspond to the earth pressure, but the plate 21 At least one pair of angles 22 are attached to the bottom of the plate and face each other in the longitudinal direction of the plate 21, and a hydraulic jack 31 made of a hydraulic cylinder is fixed between these angles 22. The rear end of the hydraulic jack 31 is provided with a support member 32 hingedly pivotally pivoted backwards at any angle. Further, beam members 23 having recesses formed on at least one side surface, such as an I beam, are attached to the bottom surfaces of both ends of the plate 21. The angle 22, the hydraulic jack 31, and the beam member 23 are attached to the bottom surface of the plate 21 by, for example, welding.

Figure 2 is a side view showing the support member 32 provided in the plate 21, as shown in the figure the support member 32 is bent several times to have a cross-sectional shape of a substantially rhombic shape, The parts corresponding to the sides of the lozenge are perpendicular to each other. In addition, one of the portions corresponding to the side of the lozenge of the support member 32 is provided with a stepped portion 33 forming a right angle and a locking step 34 positioned at a predetermined distance from the stepped portion 33. It is.

Accordingly, one wing portion of a conventional H beam (eg, 250 × 250) installed as the support hole 10 can be inserted in the space between the step portion 33 and the locking step 34 as described below, and each other. Since the right side sides of the rhombic shape support the inner surface of the H beam, the support member 32 cannot be turned, and the propulsion force generated when the hydraulic jack 31 is extended is carried out through the support member 32. The support hole 10 is supported (see FIGS. 3A and 3B). Those skilled in the art are well aware that such support member 32 may be formed of a metallic material or a high strength plastic by a conventional manufacturing method such as casting.

Now, a method for excavating the earth and sand tunnel using the plate according to the present invention configured as described above will be described.

First, at least two vertical shafts (A, B) are formed as in the prior art, and the inlet is excavated in the oscillation work tool of one vertical shaft (A), and then the steel support hole 10 is provided according to the form of the excavated cross section ( 6a). On the outer circumferential side of the support 10, a plurality of plates 21 according to the present invention are installed in parallel, and then the plates 21 are pushed in the direction to be excavated.

The parallel installation of the plates 21 is arranged in parallel with each other by inserting the key members 24 between the beam members 23 attached to the bottom surfaces of both ends of these plates 21 and having recesses formed on at least one side surface thereof. Will be. These plates 21 do not move in the lateral or vertical direction, but can only move in the longitudinal direction. 5a shows a state in which a plurality of plates 21 having a hydraulic jack 31 according to the present invention are arranged on the side of the underground tunnel.

In addition, the propulsion of the plate 21, as shown in Figure 4, a plurality of hydraulic lines (not shown) in the connector (not shown) in the hydraulic jack 31 provided in the plurality of plates 21 according to the present invention. When the fluid is applied to these hydraulic lines simultaneously or sequentially, the hydraulic jacks 31 of each plate 21 simultaneously or rapidly expand sequentially, and the support at the rear end of the extended hydraulic jacks 31 As the member 32 is supported against the support hole 10, the plate 21 is advanced forward or at the same time in rapid succession due to its reaction force. On the other hand, in Figure 5b is a plurality of plates 21 having a hydraulic jack 31 according to the present invention are arranged in the side of the underground tunnel and sequentially showing the situation in which they are pushed, but this is easy to understand the present invention The plurality of plates 21 can be pushed simultaneously.

Next, when the hydraulic pressure is released from the hydraulic line, the hydraulic jack 31 of each plate 21 contracts, and the support member 32 exits the support hole 10 and goes along the hydraulic jack 31 which contracts. When the support member 32 meets the support ball 10, the support member 32 is freely pivoted to the rear and can be folded at the same height as the angle 22 or the beam member 23, so that the plate 21 is You will move forward without difficulty.

When a new membrane drilling surface is formed by the excavation as described above, the membrane barrier 40 is installed to protect the membrane, and the excavation that installs a new support ball 10 at a predetermined interval (farther than conventional, for example, 100 cm to 120 cm). By repeating the supporting step, the horizontal shaft C is finally formed up to the work tool reaching the vertical shaft B.

Of course, between the jibo and jibo by using a tie rod to connect the jibo ball to each other to stabilize the jibo ball and insert the earth plate (50, 60b) to fill the excavation surface between the jibo ball and the jibo ball, the earth plate on the top of the jibo ball The wedge (60a) is installed to be in close contact with the support to properly support the load (earth pressure, etc.) transmitted from the ground in contact with the support of the upper support (see Figure 6b). In addition, through the upper ground reinforcing grouting and primary rehabilitation, the membrane stability, water treatment and ground subsidence during the excavation progress is prevented. Thus, by forming a secondary concrete structure (power bulb, culvert, etc.) of the cross section required for the excavation surface, the underground tunnel suitable for the purpose is finally completed.

According to the present invention as described above, by using the plate formed integrally with the hydraulic jack is inserted, the operator does not push the plates one by one by holding the manual hydraulic jack, the automation and simultaneous propulsion is achieved to achieve air shortening and cost reduction effect Will be.

Furthermore, the use of automated plates increases the propulsion capacity to about 20 tonnes more than before, making it possible to form the plates up to about 500 mm wider than the prior art, which can be applied to large-scale tunnel excavation. Will be.

Claims (6)

In the underground excavation plate having a predetermined length, the tip is, A hydraulic jack 31 made of a hydraulic cylinder is fixed to the bottom of the plate, and an angle member for fixing the hydraulic jack 31 made of the hydraulic cylinder to the bottom of the plate is installed, while a plate is provided on the bottom of the plate. A beam member 23 is formed to move forward in the longitudinal direction when moved by the hydraulic jack, and a plurality of hydraulic supply lines for supplying hydraulic pressure to operate the hydraulic jack are connected to the connector of the hydraulic jack 31 so that the hydraulic jack can be extended. And a support member is formed at the rear end of the hydraulic jack so that the plate is supported for rapid advancement. The method of claim 1, An angle member for fixing the hydraulic jack to the bottom surface of the plate is a pair of angles 22 are attached to both sides of the hydraulic jack in the longitudinal direction, the support member formed at the rear end of the hydraulic jack is connected to the hydraulic jack and hinge so as to be pivotable. Plate. The method of claim 1, One side of the beam member is formed with a concave portion, and one of the side edges of the support member 32 has a stepped portion 33 formed at a right angle and a locking step 34 positioned at a predetermined distance from the stepped portion 33. ) Is provided with a plate. In the conventional construction method for excavating earth and sand tunnel using the underground excavation plate, Installing a plurality of plates 21 in parallel, Connecting a plurality of hydraulic lines to hydraulic jacks 31 fixed to the plurality of plates 21, respectively; Applying fluid to the hydraulic jacks 31 of the plates 21 to extend these hydraulic jacks 31 simultaneously or sequentially; The support member 32 at one end of the extended hydraulic jack 31 is supported against the support ball 10 while the plate 21 to move forward or simultaneously forward or backward with its reaction force, but the beam member 23 on the bottom of the plate Installation so that the plate is advanced in the longitudinal direction, And releasing the hydraulic pressure to contract the hydraulic jacks (31) of each plate (21). delete The method of claim 4, wherein In the step of installing the plurality of plates 21 in parallel, a recess is formed in one side of the beam member provided on both bottom surfaces of the plate 21 to insert the key member 24 between the beam member 23. Excavation method characterized in that.

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