KR20190114121A - Apparatus for supporting earth wall retaining pannels - Google Patents

Abstract

The present invention relates to an apparatus for supporting an earth wall retaining panel for excavation, which comprises: a connection pipe having a plurality of positioning holes; a support assembly individually inserted into both sides of the connection pipe and individually connected to an earth wall retaining panel by a connection pin; and a fixing pin coupled to an arbitrary positioning hole of the connection pipe to fix the support assembly at an arbitrary position. According to the present invention, when supporting the earth wall retaining panels installed on a cut slope of a bed excavated underground path, in an inclined state, the earth wall retaining panels can be stably supported, and further, can be conveniently assembled and installed in a site.

Description

Excavating earthen panel support device {APPARATUS FOR SUPPORTING EARTH WALL RETAINING PANNELS}

The present invention relates to an excavation earth retaining panel support device.

In general, when buried water and sewage pipes on the ground or when constructing the underground structure of the building, the excavation work is carried out to excavate the ground. In the process of digging, earthquake works are also carried out to prevent soil from collapsing or spilling from the cut slope.

Digging works are carried out while digging or after digging. Such digging work and digging work are carried out in various ways depending on the surrounding environment, the soil condition of the ground, and the layout of buildings around the construction site.

When the water and sewage pipes are buried in the downtown area, the ground is dug a little wider than the width of the water and sewage pipes in consideration of the surrounding conditions and construction costs. Install the support device if possible.

Republic of Korea Patent Publication No. 2007-0118828 (December 18, 2007 Publication Date) (hereinafter referred to as the prior art 1) is a support device for supporting the prefabricated wall is to adhere the prefabricated wall to the underground wall using a spindle hydraulic jack or screw jack. There is disclosed a prefabricated retaining device for trench excavation while supporting a prefabricated wall. However, the prior art 1 has a disadvantage in that the prefabricated wall is not horizontally positioned so that the support of the prefabricated wall is not smooth when the support device is inclined.

Republic of Korea Patent Registration No. 10-1611897 (announced on April 14, 2016) (hereinafter referred to as the prior art 2) is a support device for supporting the panel consists of a plurality of parts in a place where the construction site is cramped There is a disadvantage that the work to assemble and install them becomes complicated.

An object of the present invention devised in view of the above problems is to provide an excavating earth panel support device for firmly supporting the earth retaining panels even when inclined when supporting the earth retaining panels installed on the cut slopes of the trenched underground passage. It is.

Another object of the present invention is to provide an excavating earthen panel support device that is simple to assemble and install in the trench site.

In order to achieve the object of the present invention, a connector; Support assemblies respectively inserted into both sides of the connecting pipe and connected to the earth screen panel by connecting pins; And coupling means for coupling the connection tube and the support assembly to adjust the spacing of the support assemblies, wherein the support assembly has one side inserted into the connection tube and the other side connected to the earthquake panel by the connection pin. A connecting rod having a stepped portion connected to the inside thereof; A base plate coupled to the connecting rod and supported by the stepped portion; Reinforcing rib connecting the base plate and the connecting rod; Support bending plates which are respectively located on both sides of the base plate relative to the connecting rod and in contact with the earth film panel; A compression coil spring provided between the base plate and the support bending plate to support the base plate and the support bending plate with elastic force; A guide member inserted into the compression coil spring and guiding the movement of the compression coil spring; A guide bolt to which the head is fixedly coupled to the support bending plate so as to be located inside the compression coil spring, and the thread part passes through the guide tube and the base plate; Excavating earthquake panel support apparatus is provided, including; a fastening nut for fastening to the threaded portion of the guide bolt to support the base plate.

The connecting rod includes a first rod having a uniform outer diameter, a second rod formed on one side of the first rod with an outer diameter greater than an outer diameter of the first rod, and an outer diameter of the second rod on one side of the second rod. And a third rod extending to a smaller outer diameter and having a fixing hole through which the connecting pin is inserted at one side thereof, wherein the stepped portion forming a perpendicular surface to a boundary between the second rod and the third rod is formed. It is preferable that the reinforcing rib is connected to the second rod.

Preferably, the guide member is a guide tube fixed to one side of the base plate.

The retaining panel includes a vertical rail to which the connecting rod is connected, and the plurality of vertical rails are provided at a plurality of spaced intervals in which opening opening grooves having a uniform width and length are set on a front plate of a square tube having a rectangular cross section. It is preferable that pinholes are provided in a row on both side plates of the square tube.

The base plate includes a rectangular plate having a uniform thickness, a bar through hole formed in the center of the rectangular plate, through which the connecting rod penetrates, and a bolt through hole respectively positioned at both sides of the bar through hole. It includes, the reinforcing rib is a triangular plate shape having a uniform thickness, the reinforcing rib is preferably four.

The base plate includes a rectangular plate portion having a uniform thickness, insertion protrusions extending on both sides of the rectangular plate portion, a sealing hole formed in the center of the rectangular plate portion, through which the connecting rod passes, and the sealing tube. Located in both sides of the hole includes a bolt through hole through which the guide bolt penetrates, the reinforcing rib is a trapezoidal plate portion having a uniform thickness, and the insertion hole is provided at the lower end of the plate portion is inserted into the insertion protrusion It includes, the reinforcing rib may be two.

The support assembly may include inserting a connecting rod through a rod through hole of the base plate; Connecting a base plate to the connecting rods by a plurality of reinforcing ribs, respectively, by welding; Connecting two guide tubes to the base plate, respectively, by welding; One end of the compression coil spring is connected by welding the head of the guide bolt to each support bending plate of the two needle-shaped support bending plates, and placing the compression coil spring on the support bending plate so that the guide bolt is located inward. Manufacturing an assembly by connecting to the support bending plate by welding; Supporting the compression coil spring on the base plate while inserting the guide bolt of the assembly through the bolt through hole of the base plate; Fastening the fastening nut to the threaded portion of the guide bolt through; It is preferably coupled to.

The present invention inserts two support assemblies to both sides of the connector, respectively, and adjusts the distance between both ends of the two support assemblies to fix the support assembly to the connector with a fixing pin, so that two earthquakes according to the cut slope distance of the underground passage Not only can the panel gaps be easily adjusted, but the assembly work in the field is easy and simple.

In addition, the present invention is supported by the present invention because the support bending plate is located on both sides of the connecting rod in the state that the connecting rod constituting the support assembly is rotatably connected to the retaining panel by the connecting pin is supported by the compression coil spring. Even if the height of the two retaining panels are positioned differently or the present invention is inclined, the connecting rod is supported by the elastic force of the compression coil spring up and down with the connecting pin as the axis, so that the height of the two retaining panels Is positioned differently from each other or even if the present invention is to be positioned obliquely will support the masonry panel firmly. Particularly, in the present invention, since one end is fixed to the base plate in a state where the guide member is positioned inside the compression coil spring, the compression coil spring is guided even when the guide bolt is deformed by excessive force acting on one of the two support bending plates. Guided by the member to prevent the compression coil spring from being separated.

In addition, since the component parts of the present invention are machined and connected to the component parts by welding, the manufacturing cost is reduced because the use of a mold is eliminated.

1 is a front view showing a state in which the excavating earthen panel support apparatus for supporting the earthen panels according to the present invention,
Figure 2 is a front view showing a part of the vertical rail constituting the retaining panel,
Figure 3 is a front view showing a support assembly constituting the excavating earth panel support device according to the present invention,
Figure 4 is a side view showing a support assembly constituting the excavating earth panel support device according to the present invention,
Figure 5 is a side view showing another example of the guide member constituting the excavating earthen panel support apparatus according to the present invention,
Figure 6 is a side view showing another example of the support assembly constituting the excavating earth panel support device according to the present invention,
7 is a front view showing another example of the base plate and the reinforcing ribs of the support assembly constituting the excavating earth panel support device according to the present invention,
Figure 8 is an exploded front view showing a part of the support assembly constituting the excavating earth panel support device according to the present invention,
Figure 9 is an exploded front view showing another part of the support assembly constituting the excavating earth panel support device according to the present invention,
Figure 10 is a front sectional view showing another embodiment of the coupling means constituting the excavating earth support panel according to the present invention.

Hereinafter, with reference to the accompanying drawings an embodiment of the excavating earth panel support device according to the present invention.

Figure 1 is a front view showing a state in which the excavating earthen panel support apparatus according to the present invention supports the earthen panels. 2 is a front view partially showing a vertical rail constituting the retaining panel. Figure 3 is a front view showing a support assembly constituting the excavating earth panel support apparatus according to the present invention. Figure 4 is a side view showing the support assembly constituting the excavating earth panel support apparatus according to the present invention.

As shown in FIG. 1, one embodiment of the excavating earth panel support device according to the present invention supports two earthquake panels 100 positioned at a distance from each other in a horizontal direction. The two retaining panels 100 are respectively supported in contact with the two theft slopes formed by digging to prevent the cut slopes from collapsing or the outflow of soil. The barrier panel 100 includes a rectangular panel 110 having a set area, and two vertical rails 120 coupled to each other in a vertical direction at both ends of the horizontal length direction of the panel 110. As an example of the vertical rail 120, as shown in Figure 2, the vertical rail 120 has an opening opening 121 having a uniform width and length is set on the front plate of the rectangular tube having a rectangular cross-sectional shape is set A plurality of spacers are provided at intervals, and the pinholes 123 are arranged in a row on both side plates 122 of the square tube.

One embodiment of the excavating earthquake panel support apparatus according to the present invention includes a connection pipe 200, support assembly 300, coupling means .

The connection pipe 200 is preferably a circular pipe. The connecting pipe 200 has a set length.

The support assembly 300 is inserted into both sides of the connection pipe 200, respectively, is connected to the earth block panel 100 by the connection pin 230. As an example of the support assembly 300, as shown in FIGS. 3 and 4, the support assembly 300 includes a connecting rod 310, a base plate 320, a reinforcing rib 330, a support bending plate 340, and compression. Coil spring 350, guide member 360, guide bolt 370, fastening nut 380 is included.

One end of the connecting rod 310 is inserted into the connecting pipe 200, and the other side of the connecting rod 310 is connected to the earth screen panel 100 by the connecting pin 230, and a stepped portion is provided on the inside thereof. In one example of the connecting rod 310, the connecting rod 310 is formed to extend to an outer diameter larger than the outer diameter of the first rod portion 311 and the first rod portion 311 having a uniform outer diameter, one of the first rod portion 311 The second rod portion 312 and the fixing hole 302 is formed on one side of the second rod portion 312 extending to an outer diameter smaller than the outer diameter of the second rod portion 312 and the connection pin 230 is inserted through one side thereof. It includes a third rod 313 provided. A stepped portion 314 forming a right angled surface is formed at the boundary between the second rod 312 and the third rod. The outer diameter of the first rod 311 and the outer diameter of the third rod 313 are preferably equal to each other. The outer diameter of the first rod 311 is smaller than the inner diameter of the connector 200 so that the first rod 311 is inserted into one side of the connector 200 and the outer diameter of the second rod 312 is the connector 200. It is formed larger than the inner diameter of).

The base plate 320 is coupled to the connecting rod 310 and supported by the stepped portion 314. In one example of the base plate 320, the base plate 320 is a rectangular plate 321 having a uniform thickness, and the through-hole hole 322 formed in the center of the rectangular plate 321 through which the connecting rod 310 is penetrated. And a bolt through hole 323 positioned at both sides of the rod through hole 322 and through which the guide bolt 370 passes. It is preferable that the base plate 320 is a rectangular plate whose length of one side is longer than the length of the other side, and the width of the base plate 320 is smaller than the width of the vertical rail opening groove 121 of the earth barrier panel 100. One side in the longitudinal direction is referred to as the first side and the other side as the second side based on the rod through hole 322 of the base plate 320. The inner diameter of the rod through hole 322 of the base plate 320 is larger than the outer diameter of the third rod portion 313 of the connecting rod 310 and smaller than the outer diameter of the second rod portion 312. Thus, the base plate 320 in a state in which the base plate 320 is coupled to the connecting rod 310 so that the third rod 313 of the connecting rod 310 penetrates the through-hole 322 of the base plate 320. The stepped portion 314 is caught and supported. The reinforcing rib 330 connects the base plate 320 and the connecting rod 310.

The reinforcing rib 330 is preferably a triangular plate shape having a uniform thickness. One side of the reinforcing rib 330 is in contact with the base plate 320 and the other side is coupled to contact the connecting rod 310 to connect the base plate 320 and the connecting rod 310. The other side of the reinforcing rib 330 is in contact with the second rod 312 of the connecting rod 310 and the length of the length of the second rod 312 of the reinforcing rib 330 in contact with the second rod 312 The same is preferable. The reinforcing rib 330 and the base plate 320 and the reinforcing rib 330 and the connecting rod 310 are preferably connected by welding. Two reinforcing ribs 330 are preferably provided on the first and second sides of the base plate 320 based on the connecting rod 310.

The support bending plate 340 is positioned on both sides of the base plate 320 on the basis of the connecting rod 310 and is in contact with the earth barrier panel 100. That is, the support bending plate 340 is positioned on the first side and the second side of the base plate 320, respectively. As an example of the support bending plate 340, the support bending plate 340 is a vertical plate portion 341 positioned in parallel with the base plate 320, and the vertical plate portion 341 of the vertical plate portion 341 at one end of the vertical plate portion 341 It includes a horizontal plate portion 342 extending in the direction. The vertical plate part 341 is positioned at a distance from one side of the base plate 320 by the length of the horizontal plate part 342, and the horizontal plate part 342 is located at one end of the base plate 320.

The compression coil spring 350 is provided between the base plate 320 and the vertical plate portion 341 of the support bending plate 340 to support the base plate 320 and the support bending plate 340 with an elastic force. Compression coil spring 350 is preferably one end is fixed to the vertical plate portion 341 of the support bending plate 340 and the other end is supported in contact with the base plate (320).

The guide member 360 is inserted into the compression coil spring 350 and one side is fixed to the base plate 320. As an example of the guide member, the guide member 360 is a guide tube made of a tube having a set length, and one end of the guide tube is fixedly coupled to the base plate 320 by welding. It is preferable that the end outer side of the guide pipe 360 located inside the compression coil spring 350 is formed in a curved surface. The length of the guide tube 360 is preferably 1/3 to 2/3 of the length of the uncompressed state of the compression coil spring 350. As another example of the guide member 360, as shown in Figure 5, the guide member 360 may be a compression coil spring having an outer diameter smaller than the inner diameter of the compression coil spring (350).

The guide bolt 370 is fixedly coupled to the head of the support bending plate 340 so as to be located inside the compression coil spring 350, the screw portion penetrates the guide member 360 and the base plate 320. The guide bolt 370 is fixedly coupled to the vertical plate portion 341 of the support bending plate 340 so that the longitudinal direction is perpendicular to the vertical plate portion 341 of the support bending plate 340. . The head of the guide bolt 370 is preferably fixedly coupled to the vertical plate portion 341 of the support bending plate 340 by welding.

The fastening nut 380 is fastened to the threaded portion of the guide bolt 370 to support the base plate 320. That is, the fastening nut 380 is fastened to the threaded portion of the guide bolt 370 in a state where the screw portion of the guide bolt 370 penetrates through the bolt through hole 323 of the base plate 320 to pressurize the base plate 320. Support in a state.

As another example of the base plate 320 and the reinforcing rib 330, as shown in FIGS. 6 and 7, the base plate 320 has a rectangular plate portion 325 having a uniform thickness, and the rectangular plate portion 325. Insertion protrusions 326 extending to both sides of the projections 326, the through-holes 322 formed in the center of the rectangular plate portion 325 through which the connecting rod 310 penetrates, and the through-holes 322 of the Located on both sides of the guide bolt 370 includes a through bolt holes 323 through. The reinforcing rib 330 includes a trapezoidal plate portion 333 having a uniform thickness, and an insertion hole 334 provided at the lower end of the plate portion 333 and into which the insertion protrusion 326 is inserted. 330 is preferably two. The reinforcing rib 330 is coupled to both sides of the base plate 320, respectively, and the insertion protrusion 326 of the base plate is inserted into the insertion hole 334 of the reinforcing rib 330 so that the surface of the reinforcing rib 330 is connected to the connecting rod. It is coupled to contact with the 310 is fixed to the connecting rod 310 and the base plate 320 by welding. The insertion protrusion 326 of the base plate 320 and the insertion hole 334 of the reinforcing rib 330 are preferably formed in a square shape to be matched with each other.

The process of assembling the support assembly 300 is as follows.

First, as shown in FIG. 8, the third rod part 313 of the connecting rod 310 is inserted through the rod through hole 322 of the base plate 320. The base plate 320 is connected to the connecting rods 310 by a plurality of reinforcing ribs 330, respectively, and is connected by welding. The reinforcing ribs 330 are preferably four. And connect the two guide pipes 360 to the base plate 320, respectively, by welding. The guide pipes 360 are respectively coupled to one side of the base plate 320 to form a concentric circle with the two bolt through holes 323 formed in the base plate 320.

Subsequently, as shown in FIG. 9, the head of the guide bolt 370 is connected to each support bending plate 340 of the two needle-shaped support bending plates 340 by welding, and the guide bolt 370 is inward. Compression coil spring 350 is positioned on the support bending plate 340 to be positioned to manufacture an assembly. As such, after assembling the assemblies of the support bending plate 340, the guide bolt 370, the compression coil spring 350, the guide bolts 370 of the two assemblies are bolt-through holes 323 of the base plate 320 The compression coil spring 350 is supported on the base plate 320 while each penetrating and inserted into the base plate 320, and the fastening nut 380 is fastened to the threaded portion of the guide bolt 370.

Coupling means couples the connection pipe 200 and the support assembly 300 so that the spacing of the support assembly 300 is adjustable. In one embodiment of the coupling means, the coupling means are spaced apart from each other in the positioning holes 201 and the connecting rods 310 of the support assembly 300 are provided at a predetermined interval on each side of the connecting pipe (200). Fixing pins 400 inserted through the positioning holes 301 provided, the positioning holes 201 of the connection pipe 200 and the positioning holes 301 of the connecting rod 310 of the support assembly 300. It includes. The positioning hole 201 of the connecting pipe 200 is formed to penetrate in the radial direction of the connecting pipe 200. The positioning hole 301 of the connecting rod 310 is formed in the first rod portion 311 of the connecting rod 310. The positioning hole 301 of the connecting rod 310 of the supporting assembly 300 and the positioning hole 201 of the connecting pipe 200 coincide at an arbitrary position to be inserted through the fixing pin 400 to support the supporting assembly 300. ) And the connecting pipe (200).

In another embodiment of the coupling means, as shown in Figure 10, the coupling means are formed on the inner peripheral surface of the inner threaded surface of the connecting pipe 200, respectively, and formed on the outer peripheral surface of the end of the connecting rod 310 of the support assembly 300 It includes male threads that are fastened to the female threads of the pipe 200. The female screw threads formed at both ends of the connecting pipe 200 are preferably formed of left and right screws such that the distance between the supporting assemblies 300 is closer or farther as the connecting pipe 200 is rotated forward and backward. .

Hereinafter, the operation and effects of the excavating earth panel support device according to the present invention.

First, the connecting rod 310 of the support assembly 300 is inserted into one side of the connecting pipe 200, and the positioning hole of the connecting connecting rod 310 and the positioning hole of the connecting pipe 200 are matched, and then the matched connection is made. The fixing pipe is inserted into the positioning hole of the pipe 200 and the connecting rod 310 to connect the connecting pipe 200 and the connecting rod 310. Then, the connecting rod 310 of the other supporting assembly 300 is inserted into the other side of the connecting tube 200, and the positioning hole 301 of the connecting connecting rod 310 and the positioning hole 201 of the connecting tube 200 are inserted. After matching, the fixing pin 400 is inserted into the matching hole 200 and the positioning holes 201 and 301 of the connecting rod 310 to connect the connecting tube 200 and the connecting rod 310. When the coupling means is another embodiment, the coupling pipe 200 and the support assembly 300 is screwed and the connection pipe 200 is rotated to adjust the distance between the two support assembly 300. Thus assembled assembling earth panel support device for connecting the earthquake panels 100 are located side by side at intervals from each other. At this time, the two support bending plate 340 of one support assembly 300 is inserted into the opening groove 121 of the vertical rail 120 of the retaining panel 100, the support bending plate 340 to the vertical rail ( 120 and the matching pins 123 of the fixing holes 302 of the connecting rod 310 and the two side plates 122 of the vertical rail 120, respectively, in contact with and supported by the connecting rod 310 Inserting the connecting pin 230 into the fixing hole 302 and the pinholes 123 of the fixing of one support assembly 300 to one earthenware panel 100, the other support assembly 300 is the same way the other It is fixed to one earthen panel 100. Excavating earthquake panel support apparatus according to the present invention is connected to a plurality of two earthquake panels (100). Soil panel 100 connected by a plurality of excavating earth panel support devices are located between the cut slopes dug to a set width to support the cut slopes. Meanwhile, the earthquake panels 100 connected by a plurality of excavation earthquake panel support devices are used to excavate the ground between the earthquake panels 100 with an excavator in a state in which the earthquake panels 100 are located in the ground to be dug, thereby constructing an underground passage. At this time, as the ground is excavated, the retaining panel 100 supports the cut slope of the underground passage which is excavated while moving downward by its own weight. As such, the water pipes or sewer pipes are installed in the underground passages while the cut slopes of the underground passages are supported by the soil barrier panels 100. The cut slopes of the underground passages are supported by the soil barrier panels 100 to provide the water pipes. The installation of sewer pipes prevents the cut slopes from collapsing or spilling.

As such, the present invention inserts the two support assemblies 300 to both sides of the connection pipe 200, respectively, and adjusts the distance between both ends of the two support assemblies 300 to fix the support assembly 300 to the fixed pin 400. Since it is fixed to the connecting pipe 200, as well as the distance between the two cutout panels 100 according to the cut slope distance of the underground passage as well as the assembly work in the field is easy and simple.

In addition, the present invention is a support bending plate 340 on both sides of the connecting rod 310 in a state in which the connecting rod 310 constituting the support assembly 300 is rotatably connected to the retaining panel 100 by the connecting pin 230. Since each of these support bending plate 340 is supported by the compression coil spring 350, even if the height of the two retaining panels 100 supported by the present invention are positioned differently or the present invention is inclined. The connecting rod 310 is supported by the elastic force of the compression coil spring 350 up and down with the connecting pin 230 as an axis so that the movement is possible, so that the heights of the two retaining panels 100 are different from each other or the present invention is inclined. Even if it is located will be firmly supporting the earthen panel 100. In particular, in the present invention, since one end is fixed to the base plate 320 in a state where the guide member 360 is located inside the compression coil spring 350, excessive force is applied to one of the two support bending plates 340. Even if the guide bolt 370 is deformed to act, the compression coil spring 350 is guided by the guide member 360 to prevent the compression coil spring 350 from being separated.

In addition, since the component parts of the present invention are machined and connected to the component parts by welding, the manufacturing cost is reduced because the use of a mold is eliminated.

200; Connector 300; Support assembly
310; Connecting rod 320; Base plate
330; Reinforcing rib 340; Bending plate
350; Compression coil spring 360; Guide plate
370; Guide bolt 380; Tightening Nut

Claims (7)

Connector;
Support assemblies respectively inserted into both sides of the connecting pipe and connected to the earth screen panel by connecting pins;
And coupling means for coupling the support tube and the support assembly to adjust the spacing of the support assemblies.
The support assembly is
A connecting rod having one end inserted into the connection pipe and the other end connected to the earth screen panel by the connection pin and having a stepped portion therein;
A base plate coupled to the connecting rod and supported by the stepped portion;
Reinforcing rib connecting the base plate and the connecting rod;
Support bending plates which are respectively located on both sides of the base plate relative to the connecting rod and in contact with the earth film panel;
A compression coil spring provided between the base plate and the support bending plate to support the base plate and the support bending plate with elastic force;
A guide member inserted into the compression coil spring and guiding the movement of the compression coil spring;
A guide bolt to which the head is fixedly coupled to the support bending plate so as to be located inside the compression coil spring, and the thread part passes through the guide tube and the base plate;
A fastening panel support apparatus for excavation comprising a; fastening nut fastened to the threaded portion of the guide bolt to support the base plate.
According to claim 1, The connecting rod is a first rod having a uniform outer diameter, a second rod formed on one side of the first rod portion extending to an outer diameter larger than the outer diameter of the first rod portion, and one side of the second rod portion A third rod extending to an outer diameter smaller than an outer diameter of the second rod and including a third rod having a fixing hole through which the connecting pin is inserted, and forming a perpendicular surface to a boundary between the second rod and the third rod; A stepping portion is formed, excavating earthen panel support device, characterized in that the reinforcing rib is connected to the second rod. According to claim 1, wherein the guide member is excavating earth panel support device, characterized in that the one side is a guide tube fixed to the base plate. According to claim 1, wherein the retaining panel includes a vertical rail to which the connecting rod is connected, wherein the vertical rail has a gap in which an opening opening groove having a uniform width and length is set on a front plate of a rectangular tube having a rectangular cross section. Excavating earth-panel support device, characterized in that provided with a plurality, the pinholes are provided in a row on each side plate of the square tube. The guide plate of claim 1, wherein the base plate has a uniform thickness plate, a sealing hole formed in the center of the rectangular plate, through which the connecting rod penetrates, and located at both sides of the sealing hole. It includes a through bolt through hole,
The reinforcing rib is a triangular plate shape having a uniform thickness, the reinforcing rib panel support device, characterized in that four. According to claim 1, wherein the base plate is a rectangular plate portion having a uniform thickness, the insertion projections extending to each of the sides of the rectangular plate portion protruding, and formed in the center of the rectangular plate portion through the rod through the connecting rod Holes and bolt through holes respectively positioned at both sides of the rod through hole and through which the guide bolt passes.
The reinforcing rib includes a trapezoidal plate portion having a uniform thickness, and an insertion hole provided at the lower end of the plate portion to insert the insertion protrusion, and the reinforcing rib support panel, characterized in that there are two. The method of claim 1, wherein the support assembly,
Inserting the connecting rod through the rod through hole of the base plate;
Connecting a base plate to the connecting rods by a plurality of reinforcing ribs, respectively, by welding;
Connecting two guide tubes to the base plate, respectively, by welding;
One end of the compression coil spring is connected by welding the head of the guide bolt to each support bending plate of the two needle-shaped support bending plates, and placing the compression coil spring on the support bending plate so that the guide bolt is located inward. Manufacturing an assembly by connecting to the support bending plate by welding;
Supporting the compression coil spring on the base plate while inserting the guide bolt of the assembly through the bolt through hole of the base plate;
And fastening a fastening nut to the threaded portion of the guide bolts.

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