KR101517169B1 - The the underground structure to equip the pressing dievice - Google Patents

Abstract

The present invention relates to an underground structure having an underground press-in device used to press the underground structure into the ground when the underground structure is press-fitted into the ground, and more particularly, The present invention relates to an underground structure provided with a press-in device for under-press-fitting installed in an underground structure in accordance with a situation.
The present invention provides an underground structure having a concrete wall, a front end portion formed at a lower end portion of the wall, and an underground press-in device mounted inwardly of the wall, wherein the front end portion includes an outer plate formed vertically downward, A connecting rod for connecting and fixing the inner plate and the outer plate to each other, and an end shoe attached to the end of the outer plate for guiding the under-press fitting, Wherein the underground press-fitting device comprises: an upper conveying body fixedly mounted on the inside of the wall with a fixing bolt and moving down together with the underground structure; a lower conveying body mounted on the inside of the upper moving body and driven up and down; And a support plate for supporting the lower conveying member on the ground. The.

Description

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to an underground structure having an underground press-

The present invention relates to an underground structure having an underground press-in device used to press the underground structure into the ground when the underground structure is press-fitted into the ground, and more particularly, And an underground structure equipped with an underground press-fitting device for underground press-fitting of an underground structure in accordance with the situation.

A typical underground structure construction method is to construct a predetermined space by excavating the soil after excavation of the basement building site and installing a wall to prevent the collapse of the soil by using a large number of H-shaped beams and plate, So that the underground structure is constructed by constructing the basement wall and so on.

However, in the case of the underground structure construction method using the hypothetical earth retaining method as described above, when the soft ground or underground water inflow is excessive and it is difficult to destroy the underground structure, the H-shaped steel and the underground grouting soil plate are used to construct the slag disruption structure, There is a problem of extension of the air due to an increase in the number of processings such as work and construction of an underground structure. Accordingly, the 'Underground Structure Falling Construction Method' of Patent Application No. 10-2008-0053431, which was filed by the applicant of the present invention for a patent application, can shorten the air due to the invention, , And further, there is an effect that the subsidence of the surrounding ground can be prevented.

In the case of the above-mentioned technique, since the support file for supporting the press-in device is located at the lower side of the position where the underground structure is to be installed, it must be excavated together with the underground sand during the excavation work, In addition, by setting the position where the press-fitting device is to be installed in advance and forming the support file in a predetermined number at the fixing position of the ground corresponding to the installation position of the press-fitting device, When the installation position of the press-fitting device is changed according to an unexpected situation that may occur in the installation of the support pile, the supporting pile must be constructed on the ground in accordance with the changed position.

In addition, the applicant's patent No. 1222348 relates to a press-fitting device and a support structure for under-ground press-fitting of an underground structure, wherein an underground structure is formed on the ground, and then a plurality of underground structures are inserted into the underground structure And a support structure for supporting the press-fitting device.

Also in the case of the above-mentioned technique, there is a problem that the construction time is prolonged because the supporting file for supporting the press-fitting device must be separately provided, and the cost is increased due to the provision of the supporting file. Further, since the support pile must be constructed after fixing the position to be press-fitted in advance, there has been a problem in that it can not cope with the unexpected situation of the construction site properly.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide an underground structure that can be constructed by pressing and lowering an underground structure into the ground without constructing a temporary earth retaining structure, It is an object of the present invention to provide an underground structure provided with an underground press-fitting device which does not require support file operation.

In addition, the present invention can prevent the settlement of the surrounding ground by press-fitting the underground structures together with the excavation work space for the ground to which the underground structure is to be installed, so that the excavation work can be easily performed, It is possible to install a press fitting device in the underground structure depending on the condition of the ground and the condition of the construction site, so that the press fitting device can be placed in the underground structure in the optimum condition and the underground press fitting device The purpose of this project is to provide underground structures.

In order to achieve the above object, the present invention provides an underground structure including a concrete wall, a front end portion formed at a lower end portion of the wall, and an underground press-fitting device mounted inwardly of the wall, wherein the front end portion is vertically downward A connecting rod for connecting and fixing the inner plate and the outer plate to each other, and a connecting rod which is mounted on an end of the outer plate, Wherein the underground press-fitting device comprises: an upper conveying member fixedly mounted inside the wall by a fixing bolt and moving downward together with the underground structure; and an upper conveying member mounted on the inner side of the upper moving member, And a support plate for supporting the lower conveying body at the surface thereof. The provides an underground structure.

Since the tip portion of the present invention is a portion press-fitted into the ground, it is preferable that the tip portion is formed to be pointed. Thus, in the present invention, the inner plate and the outer plate are formed so as to meet each other at the lower end.

In the present invention, the inner plate may be further provided with a rock excavation guide for rock excavation. The rock excavation guide portion includes an excavation guide rod, an upper hook portion which is installed on the upper portion of the excavation guide rod and is seated in a seating rod installed in the longitudinal direction of the inner side plate, And an escape prevention ring for preventing escape. The rock excavation part is formed in the ground so that not only the earth but also the rock can be formed, so that the underground structure can be easily pressed into the ground. The excavation rod is provided with a rock excavation bit, and a rock excavation part connected to the rock excavation bit, and a rock excavation rod connected to the power source to rotate the rock excavation bit and connected to the rock excavation bit.

The upper conveying member of the present invention may be constituted by a fixing plate fixed to the fixing bolt and a fixing bar mounted on the fixing plate. The lower conveying member may include a hydraulic jack fixed to the upper conveying member and a support rod inserted into the outer side of the hydraulic jack and fixed at the piston rod of the hydraulic jack to a conical shape, And the support plate is fitted to support the lower conveying member on the ground. The upper conveying body is pulled by the hydraulic jack to press the underground structure into the ground after the lower conveying body is fixed to the ground.

In the present invention, since the underground structure is press-fitted into the ground without constructing the temporary retaining structure, the underground structure is constructed to shorten the construction period and the underground structure and the underground structure press- And the cost can be drastically reduced.

In addition, the present invention can prevent the settlement of the surrounding ground by press-fitting the underground structures together with the excavation work space for the ground to which the underground structure is to be installed, so that the excavation work can be easily performed, According to the condition of the ground and the condition of the construction site, it is possible to install the press fitting device in the underground structure, and the press fitting device can be placed in the underground structure in an optimal state, and the underground structure can be pressed into the ground.

1 is a plan view of an underground structure having an underground press-fitting device according to the present invention.
2 is a side view of an underground structure having an underground press-fitting device according to the present invention.
3 is a perspective view of an embodiment of an upper transfer member of an underground press-fitting apparatus according to the present invention.
4 is a perspective view of another embodiment of the upper conveying member of the under-press fitting apparatus according to the present invention.
5 is a perspective view of an embodiment of a lower conveying member of an underground press-fitting apparatus according to the present invention.
6 is a cross-sectional view of the lower conveying member of the under-press fitting apparatus of FIG. 5;
7 is a perspective view of another embodiment of the lower conveying member of the under-press fitting apparatus according to the present invention.
FIG. 8 is a perspective view of the lower conveying body, which is another embodiment of FIG. 7, coupled to the upper conveying body. FIG.
9 is a perspective view of the leading end of an underground structure according to the present invention.
10 is a side view of the distal end portion of Fig.
11 is a side view of an underground structure and a front end portion according to the present invention.
12 is a side view showing a ground structure connected to a bottom part of the underground structure according to the present invention.

Hereinafter, embodiments of the present invention in which the above objects can be specifically realized will be described in detail with reference to the accompanying drawings. In the description of the embodiments, the same names and symbols are used for the same components, and further description thereof will be omitted.

2 is a side view of an underground structure equipped with an underground press-fitting apparatus according to the present invention, and FIG. 3 is a side view of the underground press-fitting apparatus according to the present invention. FIG. 4 is a perspective view of another embodiment of the upper conveyor of the under-press fitting device according to the present invention, and FIG. 5 is a perspective view of the lower conveyor of the under- 7 is a perspective view of another embodiment of the lower conveying member of the under-press fitting apparatus according to the present invention, and FIG. 8 is a perspective view of the lower conveying member of FIG. 9 is a perspective view of a front end portion of an underground structure according to the present invention, FIG. 10 is a side view of the front end portion of FIG. 9, and FIG. 11 is a side elevational view of the bottom portion of the bottom structure according to another embodiment of the present invention. foot And FIG. 12 is a side view showing a ground structure connected to the underground structure according to the present invention and a bottom layer connected to the top end portion of the underground structure according to the present invention.

1 is a plan view of an underground structure 20 and an underground press-fitting device 10 for press-fitting an underground structure 20 according to the present invention. 1, an underground structure 20 having an underground press-fitting device 10 according to the present invention includes an underground structure 20 formed in a rectangular shape and a plurality of underground structures 20 installed inside the underground structure 20 In apparatus 10 of FIG. The underground press-fitting device 10 is mounted inside the underground structure 20 and presses the underground structure 20 into the ground. A rock excavation guide rod 220 for rock excavation is formed between the underground press-fitting devices 10. The under-press fitting device 10 can be fixedly mounted on a flat wall of an underground structure or mounted on an edge.

2 is a side view showing an installation state of an underground structure 20 in which an underground press-fitting device 10 is installed. 2, the underground structure 20 includes a wall body 200 made of concrete, which forms an underground structure, a front end portion 210 formed at a lower end portion of the wall body, a rock excavation installed inside the front end portion 210, And a guide bar 220. In addition, a plurality of fixing bolts 202 are vertically installed inside the wall body 200 made of concrete. The fixing bolts 202 may be formed by installing the bolts 202 when the wall 200 is formed, or may be formed of the fixing bolts 20 by providing anchor bolts on the finished concrete wall. The upper transfer member 100 of the under-press fitting device 10 is inserted into the bolt 202 and fixed by the nut 203 to the fixing bolt 202 fixedly installed up and down. The lower conveying body 110 is installed inside the upper conveying body 100.

Figs. 3 to 4 show the upper conveying body 100. Fig. As shown in Fig. 3, the upper conveying body 100 is installed on the inner surface of the wall 200. The structure of the upper conveying body 100 includes a fixing rod 101 in which the lower conveying body 110 moves up and down and a tightening ring 102 for fastening the lower conveying body 110 to the upper end of the fixing rod 101 A reinforcing plate 108 for firmly connecting the fixing plate 105 to which the fixing rod 101 is attached and the fixing rod 101 to the fixing plate 105 and a reinforcing plate 108 and a fixing plate 105 And a bracket 107 for reinforcing the engagement while fixing and supporting. The fastening ring 102 is further formed with a bolt hole 103 into which a bolt for coupling with the lower conveying body 110 is inserted. Fig. 4 shows another embodiment 100 'of the upper conveying body. 3 is different from the upper conveying body 100 of FIG. 3 in that the upper conveying body of FIG. 4 is an upper conveying body 100 'fastened to an edge. Therefore, the fixing plate 105 'is formed in a "A" shape. Since it is mounted on the corner of the square, it is formed in the letter 'A' shape, and the other constitution is the same as that of the embodiment of FIG. 3, so a detailed description of the constitution will be omitted.

Figs. 5 to 6 show views of the lower conveying member 110. Fig. 5 to 6, the lower conveying body 110 includes a piston rod 112 connected to a piston (not shown) of the hydraulic jack 111 and the hydraulic jack 111, a piston rod 112, A support rod 113 which moves upward and downward in accordance with the upward and downward movement of the piston rod 112 by the engagement of the piston rod 112 with the bolt 116 and the nut 117 and a support rod head A flange 118 provided at the upper end of the hydraulic jack 111 and a ring 120 installed at the center of the flange 118. The loop 120 is configured to allow the lower conveying body 110 to be lifted by inserting a rope through the rope insertion hole 104 of the fastening ring 102 of the upper conveying body 100. The rope is connected to the loop 120 to lift up the lower conveying member 110 and bolt the upper conveying member 100 and the lower conveying member 110 to each other by bolting to the fastening ring 102 of the upper conveying member 100, do. A nut fastening groove 115, which is a fastening groove of the bolt and the nut for coupling the piston rod 112 and the support rod 113, is formed on the support rod 113. The support rod head 114 is formed in a conical shape so that its lower portion is pointed. The supporting plate 130 is inserted into the support rod head 114 to support the lower conveying member 110. The diameter of the head insertion hole 131 formed in the support plate 130 is formed to be smaller than the maximum diameter of the support rod head 114 so that the support rod 130 ).

7 to 8 show views of another embodiment of the lower conveying member 110 '. 7, the lower conveying member 110 'includes a piston rod 112' connected to the pistons (not shown) of the hydraulic jack 111 'and the hydraulic jack 111', a piston rod 112 ' A conical support 114 'coupled by a coupling flange 113' and a bolt 117 'and a flange 113' formed at the upper end of the hydraulic jack 111 ' 118 '. As shown in FIG. 8, the lower conveying member 110 'is fastened by bolts to the flange 118' and the fastening ring 102 of the upper conveying member 100. Further, a ring for lifting the upper conveying member 110 'is formed, so that the lower conveying member 110' can be easily lifted into the upper conveying member 100. A bolt hole 115 'is formed in the coupling flange 113' formed at the end of the piston rod 112 'and a bolt hole formed in the upper flat surface 116' of the support 114 ' 113 'are fastened and fixed to each other. The support 114 'is formed in a conical shape so that the support plate 130 can be easily inserted. When the support plate 130 reaches a predetermined height, the support plate 130 can no longer move up to the upper portion, and thus the ground press-fitting apparatus can be supported on the ground.

Figs. 9 to 10 show views of the tip portion 210. Fig. The distal end portion 210 includes an inner plate 211 formed to be inclined at a predetermined angle so as to meet with each other at an outer plate 212 and an outer plate 212 and a lower end portion of the outer plate 212 and an inner plate 211 connecting the inner plate 211 and the outer plate 212 A connecting rod 214 and a front end shoe 213 installed at the lower end of the outer side plate 212 so that the front end portion thereof can be easily press-fitted into the ground. A seating rod 215 may be further provided at an upper end of the inner plate 211 to mount the rock excavation guide unit 220. The seating rod 215 has a planar portion 216 formed at an upper end of the inner plate 211 and fixes the seating rod 215 to the planar portion 216 through welding or the like. In addition, the seating rod 215 is not cut by a single pipe on the road but is cut and attached by a predetermined length so that the rock excavation guide unit 220 can be inserted. The rock excavation guide unit 220 includes a excavation guide rod 221, a hook 222 formed on the excavation guide rod 221 to be seated on the seating rod 215, And a release preventing ring 223 which is formed at the lower end of the inner plate 211 and prevents it from being separated. In the installation method, after the release preventing ring 223 at the lower end is inserted into the lower portion of the inner side plate 211, a hook portion of the excavation guide rod through the portion where the seating rod is not provided between the seating rod 215 and the seating rod 215 222 is inserted and the excavation guide rod 221 is moved to the left or right side, the installation is completed. The rock excavating portion 230 is inserted into the excavation guide rod 221 that has been installed. The rock excavating section 230 is composed of a excavating rod 231 rotated by a motor or the like and an excavating bit 232 connected to the excavating rod 231 and receiving a rotational force. The excavating bit 232 mounted at the end of the excavating rod 231 is eccentrically eccentrically outside the predetermined angle from the bottom of the excavating rod 231. Since the excavation bit 232 is eccentrically installed, the diameter of the rock excavated by the excavation bit becomes larger, so that the tip shoe 213 can be easily press-fitted into the ground. In FIG. 10, the excavating rod 231 is formed not to be a straight line but to be inclined outward, so that the excavating bit 232 is installed.

FIG. 11 shows a state in which concrete is poured into the wall 200 and the front end 210. FIG. A vertical reinforcing bar 201 is disposed inside the wall 200 to reinforce the strength and the width of the front end portion 210 is formed to be larger than the width of the wall body 200. This is to allow the wall 200 at the top of the tip 210 to be easily inserted into the ground. Also, a floor structure connecting groove 205 for forming the floor structure 30 is formed, and a plurality of horizontal reinforcing bars 204 are arranged through the floor structure connecting groove 205.

12 shows a state in which the floor structure 30 is connected through the floor structure connecting groove 205. As shown in FIG. A floor structure is provided through the floor structure connecting groove 205 and a horizontal reinforcing bar 301 for a floor structure is connected to a reinforcing bar exposed to the outside through a bottom structure connecting groove 205 by welding or the like, The floor structure 30 is formed of the concrete of FIG.

Hereinafter, a method of press-fitting the underground structure 20 into the ground will be described. First, an underground structure 20 is formed. The underground structure 20 is formed by the wall 200 and the tip portion 210. And a wall 200 is formed on the top of the front end 210 using a mold or the like. A reinforcing bar or the like is disposed inside the wall 200 to reinforce the strength of the wall. The fixing bolt 202 may be fixed to a reinforcing bar or the like while forming the wall 200 to be formed on the concrete wall. When the underground structure 20 is completed, the underground press fitting device 10 is fixedly mounted on the fixing bolt 202 on the inside of the underground structure 20. The underground press apparatus 10 comprises an upper conveying body 100, a lower conveying body 110, and a support plate 130.

Next, excavation is performed at a predetermined depth to the portion where an underground structure is to be formed. The underground structure 20 and the underground press-fitting device 10 are placed in the excavated portion and then the hydraulic jack 111 connected to the upper conveying body of the underground press-fitting device is driven to press the leading end portion 210 of the underground structure 20 into the ground . That is, the underground structure 20 is pulled by using the hydraulic jack 111 and press-fitted into the ground. When the underground structure 20 is inserted a predetermined depth into the ground, the inside of the underground structure 20 is excavated. The hydraulic jack 111 of the under-press fitting device 10 is driven to feed the lower conveying device 110 downward so as to be supported on the ground where the under-press fitting device 10 is excavated. In a state where the support plate 130 is inserted into the head 114 of the lower conveying member 110, the lower conveying member is further press-fitted downward so that the lower conveying member can be supported. When the lower conveying body 110 is completely supported, the upper conveying body 100 fixed to the underground structure 20 is pulled down to press the underground structure 20 into the ground. When the underground structure is pressured into the ground, the ground is excavated again, and the hydraulic jack is driven again by the excavated depth to transport the lower conveying body. This process is repeated to press the underground structure to a predetermined depth to complete the installation. When the installation of the underground structure 20 is completed, the floor structure is connected to the bottom structure connecting groove 205 formed in the underground structure 20.

The rock excavation unit 230 is driven through the rock excavation guide unit 220 provided on the inner plate 211 and the rock excavator unit 230 is driven by the rock excavation unit 230. In the case where the underground structure 20 is press- And then the hydraulic jack is driven again to press the underground structure into the ground.

It is to be understood by those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope of the invention, Accordingly, the above-described embodiments are to be considered illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents are intended to be included within the scope of the present invention.

10: Underground press-in device 20: Underground structure
30: floor structure 40: ground
100 (100 '): upper conveying body 101: fixing rod
102: fastening ring 103: bolt hole
104: rope insertion hole 105 (105 '): fixed plate
106: Bolt hole 107: Bracket
108: reinforced plate
110: lower conveying member 111: hydraulic jack
112: piston rod 113: support rod
114: support rod head 115: nut tightening groove
116: bolt 117: nut
118: Flange 119: Bolt hole
120: Ring
130: Support plate 131: Head insertion hole
200: concrete wall 201: vertical reinforcement
202: Fixing bolt 203: Fixing nut
204: horizontal reinforcement 205: floor structure connection groove
210: distal end 211: inner plate
212: outer plate 213: tip shoe
214: connecting rod 215: seat bar
216:
220: rock excavation guide portion 221: rock excavation guide rod
222: upper hook portion 223: release preventing ring
230: rock excavation part 231: rock excavation load
232: Rock excavation bit
301: Horizontal bars for floor structures

Claims (7)

1. A ground structure comprising a concrete wall, a front end portion formed at a lower end portion of the wall, and an underground press-in device mounted on the inner side of the wall,
Wherein the distal end portion comprises: an outer plate formed vertically downward; an inner plate formed by being inclined at a predetermined angle so as to meet at the lower end with the outer plate; a connecting rod connecting and fixing the inner plate and the outer plate; And an end shoe mounted on an end of the plate and guiding the under-press fitting,
The underground press apparatus includes an upper conveying body fixedly mounted on the inside of the wall by a fixing bolt and moving downward together with the underground structure, a lower conveying body mounted on the inside of the upper moving body and driven up and down, And a support plate for supporting the support member on the ground.
delete The method according to claim 1,
The inner plate is further provided with a rock excavation guide for rock excavation,
The rock excavation guide portion includes an excavation guide rod, an upper hook portion mounted on the upper portion of the excavation guide rod and seated in a seating rod installed in an upper longitudinal direction of the inner plate, and a lower hook portion provided on a lower portion of the excavation guide rod, And an escape prevention ring for preventing escape of the underground structure.
The method of claim 3,
In the excavation guide rod,
Wherein a rock excavation bit is inserted into a rock excavation section which is composed of a rock excavation bit and a rock excavation rod connected to the power source in connection with the rock excavation bit to rotate the rock excavation bit, structure.
The method according to claim 1,
Wherein the upper conveying member comprises a fixing plate fixed to the fixing bolt and a fixing bar mounted on the fixing plate.
6. The method of claim 5,
Wherein the lower conveying member comprises a hydraulic jack fixed to the upper conveying member and a lower end portion inserted into the outer side of the hydraulic jack and fixed to the piston rod of the hydraulic jack is a conical type support rod,
Wherein the supporting plate is fitted to the lower portion of the conical support bar of the lower conveying body to support the lower conveying body at the ground.
6. The method of claim 5,
Wherein the lower conveying member comprises a hydraulic jack fixed to the upper conveying member and a conical support mounted on an end of the piston rod of the hydraulic jack,
Wherein the lower conveying body is supported by a conical support of the lower conveying body to support the lower conveying body from the ground.

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