KR101991018B1 - Excavating method of vertical hole using underground excavating panel for excavating undergroundtunnel vertical hole - Google Patents

Abstract

The present invention relates to a vertical hole excavation method using an underground excavation panel for a vertical hole excavation wherein a plurality of excavation plates are connected in a longitudinal direction or a lateral direction, a hydraulic jack is mounted using a groove on a rear surface of the excavation plate, a reaction bar can be dismantled early by using propulsion to reduce an excavation operating process such that quick and stable vertical hole excavation work is enabled, and in addition, excavation operation in a narrow space is enabled. In addition, a perforation for injecting a grout (injection liquid) to the excavation plates is provided to grout in the cracks or cavities generated in a side wall of the vertical excavation part, thereby being capable of excavating and building vertical holes stably and without the fear of surface subsidence or soil runoff.

Description

Excavating method of vertical hole using underground excavating panel for excavating undergroundtunnel vertical hole}

The present invention relates to a vertical hole excavation method using the underground excavation panel for vertical hole excavation, more specifically, by using a plurality of excavation panels connected to reduce the vertical hole excavation process to perform vertical hole excavation work quickly and stably It is possible to excavate even in a narrow space, and grout in cracks or cavities generated on the side walls of vertical holes through the excavation panels so that it is stable and reliable without fear of surface subsidence and soil leakage. It is to provide a vertical hole excavation method using the underground excavation panel for vertical hole excavation that can build a vertical hole.

At present, a vertical excavator and a digging method for forming the vertical hole, as disclosed in Korean Patent Laid-Open Publication No. 10-2017-0106150, the support unit is installed to surround the vertical hole around the position where the vertical hole is to be installed, It is located surrounding the inner side of the support, one end is connected to the vertical hole and the other end is inserted between the ground and the propulsion part that prevents the inflow of groundwater or ground that can flow into the support and the support and the propulsion part is located between the propulsion part It can be seen that the vertical hole excavation system and a construction method using the same, including a propulsion device portion inserted into the cylinder structure to provide a driving force.

In the above method, since the reaction zone facilities are always present for the ground insertion of the propulsion unit until the excavation is completed, the construction and economical efficiency of the worker and the excavation equipment are restricted.

In addition, in the conventional vertical tool installation method, the vertical hole is drilled using a separate file puncher for the H-beam type pile at the desired excavation site, and in the case of using the vertical tool installation method as described above, a pile puncher is installed. It is difficult to apply the system in a narrow space because it requires additional vertical space and horizontal space for use.In addition, excavation of soil and groundwater by digging while installing a soil plate by inserting piles after drilling vertical holes A problem has occurred.

[Preceding technical literature]

1. Republic of Korea Patent Publication No. 10-2017-0106150

An object of the present invention for solving the problems as described above, by connecting the plurality of excavator plates in the longitudinal direction or the lateral direction and using the grooves of the back of the excavator plate to mount the hydraulic jack and propulsion to use to disassemble the reaction force early It is possible to reduce the excavation work process so that the vertical hole excavation work can be performed quickly and stably, and the excavation work can be performed even in a narrow space, and the drilling to inject grout into the excavation plates. The vertical hole excavation ground enables grouting in cracks or cavities generated on the sidewalls of vertical excavations so that vertical holes can be rigged stably and reliably without fear of surface subsidence or soil leakage. It is to provide a vertical hole excavation method using an excavation panel.

The method for constructing a vertical hole using the underground excavation panel for vertical hole excavation according to an embodiment of the present invention for achieving the above object, the tip portion of the tip shape, and a predetermined interval along the longitudinal direction A head excavation panel having a first body having a square pillar shape having a plurality of first propelling hook holes formed therein and having a first fastening member at a rear thereof; A square pillar having a coupling member coupled to the first coupling member to be connected to the first excavation panel, and having a plurality of second propulsion hook holes formed at predetermined intervals along a longitudinal direction and having a second coupling member at the rear; Connection excavation panel consisting of a second body of the shape; And the ribs provided to connect the plurality of head excavation panels and the plurality of connection excavation panels, respectively, wherein each of the head excavation panel and the connection excavation panel has a grout in a crack or a gap between the ground layers. Perforations for inserting the nozzle of the grouting device to be injected, and grout blocking member for preventing the grout injected into the gap of the ground layer to be discharged again through the perforation or to flow down into the first body or the second body. And the grout blocking member is configured to include a pipe threaded in the direction of the inner wall of the excavation hole of the first body or the second body, and a lid that is screwed with the protrusion of the pipe, so that the inner wall is screwed into the perforated screw thread. Making a step; Selecting the position at which the vertical hole is to be excavated and installing the head excavation panel at the hydraulic jack of the file puncher; Operating a hydraulic jack to vertically press the leading excavator panel in turn along a vertical hole edge; Discharging the excavated soil to the outside of the vertical hole through the vertical indentation of the leading excavator panel; After unwinding and opening the lid coupled with the pipe of the grout blocking member screwed to the perforation of the first body of the leading excavator panel, the nozzle of the grouting device is inserted into the pipe to inject the grout and then again Coupling and capping the lid to the pipe to perform a first grouting process; Separating the leading excavator panel from the hydraulic jack, and installing a connection excavator panel in the hydraulic jack; Inserting and coupling the coupling member of the connection excavator panel installed in the hydraulic jack to the first coupling member of the head excavator panel; Activating the hydraulic jack to vertically press the connecting excavator panel in turn along the vertical hole edge to further vertically press the leading excavator panel; After unscrewing and opening the lid coupled to the pipe of the grout blocking member screwed to the perforation of the second body of the connecting excavation panel, inserting the nozzle of the grouting device into the pipe to inject the grout and then again Coupling and covering a lid to the pipe to perform a second grouting process; And removing the head excavation panel and the connecting excavation panel from the vertical hole when the grouting process is completed and the vertical hole formation is completed.

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When performing vertical hole excavation work using the underground excavation panel according to the embodiment of the present invention as described above,

By connecting a plurality of excavator plates in the longitudinal or lateral direction and mounting and pushing hydraulic jacks using the grooves on the back of the excavator plate, the reaction table can be dismantled early, without creating a space between the ground and the panel. Greatly reduce the speed and make vertical hole excavation work possible, but excavation work is possible even in a narrow space,

In addition, by providing a hole for injecting grout (injection liquid) into the excavation panels to grout in the cracks or cavities generated in the side wall of the vertical excavation portion, the surface settlement or soil due to the gap of the ground layer It provides the effect of building vertical holes stably and securely without fear of spillage.

1 is a perspective view showing a underground excavation panel for vertical hole excavation according to an embodiment of the present invention.
Figure 2 is a perspective view of the underground excavation panel for vertical hole excavation according to another embodiment of the present invention.
3 and 4 are perspective views showing a plurality of underground excavator panels for vertical hole excavation in accordance with embodiments of the present invention connected via a rib.
5 is a view showing a state of use of the underground excavation panel for vertical hole excavation according to embodiments of the present invention.
6 is an explanatory view of propulsion of the excavator panel by the hydraulic jack.
Figure 7 is a cross-sectional view showing a state in which the excavation panels are coupled through the bolt in the vertical ground excavation panel according to embodiments of the present invention.
8 is a view showing an underground excavation panel provided with a perforation for injecting grout.
9A and 9B are perspective views showing one embodiment of a grout blocking member for preventing the discharge of the injected grout;
Figure 10 is a cross-sectional view showing another embodiment of the grout blocking member for preventing the discharge of the injected grout.
11 is a view showing an embodiment of injecting grout into the gap of the strata.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the vertical hole excavation panel and vertical hole excavation method using the same according to the present invention will be described in detail.

1 is a perspective view showing a vertical hole excavation panel according to an embodiment of the present invention, Figure 2 is a perspective view showing a vertical hole excavation panel according to another embodiment of the present invention, Figure 3 and Figure 4 is a perspective view showing a plurality of underground excavator panels for vertical hole excavation in accordance with embodiments of the present invention connected via a rib, Figure 5 is a use of the vertical hole excavation underground excavator panel according to the embodiments of the present invention Figure 6 is a view showing the state, Figure 6 is an explanatory view of the propulsion panel of the excavator by the hydraulic jack. 7 is a cross-sectional view showing a state in which the excavation panels are coupled through the bolt in the vertical excavation underground excavation panel according to the embodiments of the present invention, Figure 8 is an underground excavation panel having a perforation for injecting grout 9A and 9B are perspective views showing one embodiment of a grout blocking member for preventing the discharge of the injected grout, and FIG. 10 shows another embodiment of a grout blocking member for preventing the discharge of the injected grout. 11 is a cross-sectional view showing an embodiment of injecting grout into the gap between the layers.

First, in the drawings, the same components or parts are to be noted that the same reference numerals as possible. In addition, in describing the present invention, a detailed description of related known functions or configurations will be omitted in order not to obscure the subject matter of the present invention.

By connecting and using multiple excavation panels, it is possible to reduce the excavation process and to make tunnel excavation work quickly and stably, and to make vertical hole excavation work even in a narrow space. The underground excavation panel for vertical hole excavation according to the embodiment of the present invention, which can grout in cracks or cavities such as cracks or cavities, which can construct stable and reliable vertical holes without fear of surface settlement or soil leakage, is illustrated in FIGS. As shown in FIG. 11, the lead excavation panel 10, the connection excavation panel 20, and the ribs 30 are formed, and each of the lead excavation panel 10 and the connection excavation panel 20 is drilled 40. And grout blocking member 50 is provided.

As shown in FIGS. 1 and 2, the head excavation panel 10 has a tip-shaped tip portion 11 having a sharp wedge shape so as to effectively excavate the ground layer 1. A first fastening member 14 to be coupled to the subsequent connection excavation panel 20 is formed at the end opposite to the front end portion 11 of the first body 13 of the square pillar shape.

The number of the first fastening member 14 is at least one within a range capable of stable coupling.

A plurality of first propulsion hook holes 12 are formed on the bottom surface of the first body 13 of the leading excavator plate 10 to catch the hydraulic jack 5 at regular intervals along the axial direction.

As shown in FIGS. 1 and 2, the connection excavation panel 20 is coupled to the first fastening portion 14 to be coupled to the leading excavation panel 10 and the longitudinal direction along the longitudinal direction. It is composed of a square pillar-shaped second body 23 having a plurality of second propulsion hook holes 22 formed at predetermined intervals and a second fastening member 24 at the rear.

Each of the first fastening member 14 and the second fastening member 24, as shown in FIG. 2, is provided at one side so that the second insertion protrusion 28 of the coupling member 21 is inserted into the first fastening member 14 and the second fastening member 24. The insertion hole 16 and the other insertion side is provided with a first insertion protrusion 18 inserted into the second insertion hole 26 of the coupling member 21.

As shown in FIGS. 3 and 4, the ribs 30 are provided to connect the plurality of leading excavator panels 10 and the plurality of connection excavator panels 20, respectively.

In this case, the rib 30 may be used in the longitudinal direction in accordance with the length of the leading excavator panel 10 and the connection excavator panel 20.

In addition, the head excavation panel 10 and the connection excavation panel 20 can be firmly coupled through the bolt (27). This is described in detail as a fastening member in Korean Patent Application Publication No. 10-0440674 filed and registered by the applicant of the present invention will be omitted here.

Therefore, as shown in FIG. 5, an oscillating mount (not shown) is installed in front of the ground layer 1 to form a vertical hole, and a leading excavator plate 10 is provided on the side thereof, so that the hydraulic jack 5 (see FIG. 6). By advancing by)), the leading excavator plate 10 was buried deep in the ground.

In the present invention, grouting can be performed in the gaps 3 such as cracks and cavities generated in the sidewalls of the vertical holes, so that stable and reliable vertical holes can be constructed without fear of surface settlement or soil leakage. 9B, the grouting apparatus 2 for injecting grout into the cracks of the ground layer 1 or the gaps 3 of the cavities in the head excavation panel 10 or the connecting excavation panel 20. A perforation 40 is provided to allow the nozzle 4 to be inserted.

The grout blocking member 50 prevents the grout injected into the gap 3 of the ground layer 1 from being discharged again through the perforation 40 or flowing down into the first body 13 or the second body 23. ) Was provided.

Here, one embodiment of the grout blocking member 50, as shown in Figs. 9a and 9b, the stopper 51 is inserted into the perforation 40 and matched with the stopper 51, It is installed on the fixture 55 provided on the bottom surface of the first body 13 or the second body 23 on both sides is composed of a separation prevention member 53 for holding the stopper 51 is not detached.

Another embodiment of the grout blocking member 50 is, as shown in Figure 10, the inner wall of the perforation 40 is threaded so that the threaded engagement of the first body 13 or the second body 23 of the A pipe 56 threaded to the bottom and a lid 58 threaded to the pipe 56 are configured.

Therefore, as shown in FIG. 11, the grouting device 2 is connected to a gap 4 formed in the ground layer 1 through the perforations 40 provided in the head excavation panel 10 or the connection excavation panel 20. It is possible to build a stable and reliable vertical hole without the concern of surface settlement or soil leakage by making the ground layer 1 solid by injecting and filling grout.

Looking at the method of building a vertical hole using the underground excavation panel for vertical hole excavation according to an embodiment of the present invention as described above.

First, after selecting the position of the ground to excavate the vertical hole, the head excavation panel 10 is installed in the hydraulic jack 5 of the pile puncher (not shown).

Then, the hydraulic jack 5 is operated to vertically press the leading excavator panel 10 in sequence along the vertical hole edge.

Then, the soil excavated through the vertical indentation of the leading excavator panel 10 is discharged to the outside of the vertical hole using a suitable tool.

Then, the first grouting process is performed by inserting the nozzle 4 of the grouting apparatus 2 into the perforation 40 of the head excavation panel 10.

The head excavator panel 10 is separated from the hydraulic jack 5, and the connection excavator panel 20 is installed in the hydraulic jack 5. As shown in FIG.

The coupling member 21 of the connection excavation panel 20 installed in the hydraulic jack 5 is inserted into and connected to the first fastening member 14 of the head excavation panel 10.

The hydraulic jack 5 is operated to vertically press the connecting excavation panel 20 in sequence along the vertical hole edge to further vertically press the leading excavator panel 10.

Then, the second grouting process is performed by inserting the nozzle 4 of the grouting apparatus 2 into the perforation 40 of the head excavation panel 10.

When the grouting process is completed and the vertical hole formation is completed, the leading excavator panel 10 and the connection excavator panel 20 are removed from the vertical hole.

As described above, although the present invention has been described by way of limited embodiments, the present invention is not limited thereto, and the technical spirit of the present invention and the following will be described by those skilled in the art to which the present invention pertains. Various modifications and variations will be possible within the scope of the appended claims.

1: strata 2: grouting device
3: gap 4: nozzle
5: hydraulic jack
10: Lead Excavation Panel 11: Tip
12: 1st pushing hanger hole 13: 1st body
14: first fastening member
16: 1st insertion hole 18: 1st insertion protrusion
20: connecting excavation panel 21: coupling member
22: second propelling hook hole 23: second body
24: second fastening member
26: second insertion hole 27: bolt
28: second insertion protrusion
30: rib 40: perforated
50: grout blocking member 51: stopper
53: release preventing member 55: fastener
56: pipe 58: lid

Claims (5)

delete delete delete delete A square pillar shape having a tip end portion 11 having a tip shape and a plurality of first propulsion hook holes 12 formed at predetermined intervals along the longitudinal direction and having a first fastening member 14 at the rear thereof. A leading excavator panel 10 composed of a first body 13; A coupling member 21 coupled to the first fastening member 14 to be connected to the first excavating panel 10, and a plurality of second propulsion hook holes 22 formed at predetermined intervals along the longitudinal direction. And a connecting excavation panel 20 including a second body 23 having a square pillar shape having a second fastening member 24 at a rear side thereof. And ribs 30 provided to connect the plurality of head excavation panels 10 and the plurality of connection excavation panels 20, respectively, and the lead excavation panel 10 and the connection excavation panel 20. ), Each of the perforations 40 for inserting the nozzle 4 of the grouting apparatus 2 for injecting grout into the crack 3 of the ground layer 1 or the cavity 3 of the ground layer 1, and the gap 3 of the ground layer 1. The grout is inserted into the grout blocking member 50 is prevented from being discharged again through the perforation 40 or flowing down into the first body 13 or the second body 23, the grout The blocking member 50 is a pipe 56 screwed in the direction of the inner wall of the excavation hole of the first body 13 or the second body 23, and a lid 58 screwed with the protrusion of the pipe 56. Screwing the inner wall into the perforation 40 which is made of thread;
Installing the head excavation panel 10 in the hydraulic jack of the file puncher after selecting a position to excavate the vertical hole;
Operating the hydraulic jack (5) to vertically press the leading excavator panel (10) in sequence along the vertical hole edge;
Discharging the excavated soil to the outside of the vertical hole through the vertical indentation of the leading excavator panel (10);
After releasing and opening the lid 58 coupled with the pipe 56 of the grout blocking member 50 screwed to the perforation 40 of the first body 13 of the leading excavator panel 10, Inserting the nozzle (4) of the grouting apparatus (2) into the pipe (56) to inject the grout, and then attaching and covering the lid (58) to the pipe (56) to perform a first grouting process;
Separating the head excavator panel (10) from the hydraulic jack (5) and installing a connection excavator panel (20) in the hydraulic jack (5);
Inserting and coupling the coupling member 21 of the connection excavation panel 20 installed in the hydraulic jack 5 to the first fastening member 14 of the head excavation panel 10;
Operating the hydraulic jack (5) to vertically press the connecting excavator panel (20) in sequence along the vertical hole edge to further vertically press the leading excavator panel (10);
After releasing and opening the lid 58 coupled with the pipe 56 of the grout blocking member 50 screwed to the perforation 40 of the second body 23 of the connecting excavation panel 20, Inserting a nozzle (4) of the grouting device (2) into the pipe (56) to inject the grout, and then attaching and covering the lid (58) to the pipe (56) to perform a second grouting process; And
When the grouting process is completed and the vertical hole formation is completed, removing the leading excavation panel 10 and the connecting excavation panel 20 from the vertical hole; using the underground excavation panel for vertical hole excavation Vertical hole excavation method.

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