KR102571803B1 - Pipe laying method using the earth frame - Google Patents

Abstract

This invention relates to a pipe burial method using an earth frame.
This invention is a pipe burial method using an earth frame provided to embed a pipe at a predetermined depth from the top of the ground, wherein the earth frame is installed on the ground where the pipe is to be buried, after the lower part of the earth frame is seated on the ground An earth frame mounting step provided repeatedly at regular intervals in the longitudinal direction where the pipe is to be buried; An excavation step of excavating the ground located on the lower side of the earth frame to a predetermined depth using an excavator; A pipe construction step in which a pipe is placed on an excavation floor located below the earth frame and the pipe is constructed in a longitudinal direction by a pipe fitting; A backfill compaction step of backfilling and compacting the soil to the top of the pipe construction; and an earth frame drawing step in which a earth frame is drawn by providing a drawing part on the top of the compacted ground.
Therefore, this invention allows the earth frame to be drawn in at the same time as the excavation depth by its own weight or the lower load load at the same time as excavation so that sufficient working space can be secured, and then the steel earth plate, anti-rise panel, pipe and pipe support is installed, and then the pipe can be easily buried through backfilling and compaction, drawing step, and road pavement step.

Description

Pipe laying method using earth frame {PIPE LAYING METHOD USING THE EARTH FRAME}

This invention relates to a pipe burial method using an earth frame, and in particular, at the same time as excavation, the earth frame is drawn in at the same time as the excavation depth by its own weight or the lower load so that sufficient working space can be secured. , the anti-rise panel, pipe and pipe support are installed, and then the pipe can be easily buried through backfilling and compaction, drawing step, and road paving step.

In the process of installing a pipe in a place with few obstacles such as roads and rivers, the size of the obstacle and the burial depth of the pipe are determined in terms of the protection of the pipe after installation. When the pipe is buried in the road, the cover height at the end of the pipe after the pipe is buried is about 1.0 m, so that the stability of the pipe can be secured against the load during the passage of road vehicles.

Therefore, the excavation depth is the diameter of the pipe and the depth of 1.0 m of cover height. When the compaction of the road is sound and the scale is small, the pipe is buried after excavating directly without installing temporary facilities.

However, when the size of the pipe increases, temporary retaining facilities are installed to prevent collapse of the excavation surface. Generally, temporary construction methods for installing simple members are applied because the ground is hard and the earth pressure is low.

On the other hand, as such a prior art, a method for constructing a retaining facility for burying a pipe under a road in Registered Patent Publication No. 10-1656367 (2016.09.05.) has been proposed, but this method for constructing a temporary retaining facility has been proposed in a river high water site, a landfill, or a coastal area However, in cases where the ground strength is not solid, such as in island areas, there are problems in that there are many difficulties in laying pipes, uneconomical costs increase, and the construction period is prolonged.

In addition, there was a problem in that the construction ground (temporary road, etc.) by the weight of heavy equipment had to be created separately.

Registered Patent Publication No. 10-1656367 (2016.09.05.)

This invention has a simple process, convenient construction management, and prevents safety accidents to be suitable for civil engineering structures, offshore structures, waterworks structures, irrigation and drain structures, and places where the ground is soft, such as high water areas in rivers, factories and apartment complexes, so that continuous construction can be conveniently carried out on sites with long lengths.

This invention is a pipe burial method using an earth frame provided to embed the pipe P at a predetermined depth from the top of the ground GS,
After the lower part of the earth frame (A) is seated on the upper part of the ground (GS) where the pipe (P) is to be buried, the earth frame (A) is installed in the longitudinal direction in which the pipe (P) is buried in the upper part of the ground (GS) Earth frame load-loading step of supplying water to the storage tank 410 of the load-loading unit 40 provided at the top of the earth frame (A) in a state where it is repeatedly provided at regular intervals so that the load is increased by the storage amount. An earth frame mounting step (S100) further comprising (S110); By using an excavator, the ground (GS) located on the lower side of the earth frame (A) is excavated to a predetermined depth, and the lower end of the earth frame (A) is excavated by the weight of the earth frame (A) and the load of the storage tank (410) Digging into the lower part, after the lower part of the earth frame (A) is located on the excavation floor (BM), the steel earth plate 50 between the vertical frame 20 on one side and the vertical frame 20 on the other side of the earth frame A An excavation step (S200) further including a steel soil plate insertion step (S210) into which the inserted; The pipe (P) is placed on the excavation floor (BM) located below the earth frame (A), and the pipe (P) is constructed in the longitudinal direction by the pipe joint (FG), but the lower part of the earth frame (A) After the anti-rise panel 70 is fitted in the longitudinal direction to the excavation floor (BM) located in the unidirectional upper edge of the anti-rise panel 70, each panel provided on the lower inner side of the vertical frame 20 A panel that prevents the anti-lift panel 70 from being lifted upward by the support piece 630 even when a force that is pressed by the support piece 630 of the support 60 and moves upward due to heaving or boiling is applied A pipe construction step (S300) further comprising a support fitting step (S310); A backfill compaction step (S400) of backfilling and compacting the soil (S0) to the top of the pipe (P); and an earth frame drawing step (S500) of drawing the earth frame (A) by providing a drawing part (90) on the top of the compacted ground (GS).

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In addition, in the pipe construction step (S300), the pipe support rod 810 is provided to face the top of the pipe P, and the pipe support rod 810 has a rod fixing piece 811 provided at both ends of the vertical It is characterized in that the pipe support rod fitting step (S320) is inserted into the coupling groove 821 of the rod coupling piece 820 provided on the inside of the frame 20 is further included.

In addition, in the backfill compaction step (S400), the separation and elevation of the pipe support rod in which the separation of the pipe support 80 and the separation of the anti-rise panel 70 are performed before the soil SO is backfilled to the top of the pipe P. It is characterized in that the panel separation step (S410) is further included.

Further, the soil frame drawing step (S400) further includes a road paving step (S600) of paving the road thereafter.

This invention allows the lower part of the horizontal frame provided at both ends of the horizontal frame to be pulled in at the same time as the depth of the excavation by its own weight at the same time as excavation, so that the ground is soft, such as the high water area of a river, such as factories and apartment complexes. It is possible to obtain the effect of continuous construction in a site or a long site.

In addition, as the load acts downward by a separate loader in addition to the weight of the earth frame composed of a horizontal frame and a vertical frame, it is possible to obtain an effect that can be more easily introduced toward the excavated floor.

In addition, through this, there is no pre-construction of separate driving or drilling work, so that the process can be simplified and the effect of convenient construction management can be obtained.

In addition, through this, it is possible to obtain an effect in which the steel soil plate, the anti-rise panel, the pipe and the pipe support can be easily constructed.

In addition, through this, it is possible to obtain an effect that the pipe can be easily buried by preventing heaving and boiling.

In addition, through this, it is possible to obtain an effect suitable for civil structures, offshore structures, waterworks structures, irrigation and drain structures.

And through this, it is possible to obtain the effect of preventing safety accidents occurring during work.

1 is a flow chart showing a pipe burial method using an earth frame according to this invention.
Figure 2 is a configuration diagram showing a pipe burial method using an earth frame according to the present invention.
Figure 3 is a perspective view showing the construction state of the earth frame in the pipe burial method using the earth frame according to this invention.
Figure 4 shows that in the pipe burial method using the earth frame according to the present invention, the steel earth plate is removed in the construction state of the earth frame, the pipe is placed on the anti-rise panel, and the pipe is supported by the pipe support perspective view.
Figure 5 is a perspective view showing the earth frame separated and applied to the pipe burial method using the earth frame according to this invention.
Figure 6 is a perspective view showing a state in which the earth frame is provided with a lower load load in the pipe burial method using the earth frame according to the present invention.

An embodiment of the present invention will be described with reference to the accompanying drawings.

Figure 1 is a flow chart showing a pipe burial method using an earth frame according to the present invention, Figure 2 is a block diagram showing a pipe burial method using an earth frame according to the present invention, Figure 3 is a block diagram showing the present invention 4 is a perspective view showing the construction state of the earth frame in the pipe burial method using the earth frame according to the present invention, in the pipe burial method using the earth frame according to the present invention, the forced earth plate is removed in the construction state of the earth frame, A perspective view showing that the pipe is placed on the rise prevention panel and the pipe is supported by the pipe support, and Figure 5 is a perspective view showing the earth frame separated and applied to the pipe burial method using the earth frame according to the present invention , Figure 6 is a perspective view showing a state in which the earth frame is provided with a load under the earth frame in the pipe burial method using the earth frame according to the present invention.

In order to prevent heaving or boiling depending on the ground conditions of the underground water, safety can be ensured by excavating a trench as much as the penetration depth and additionally driving piles from the bottom. Since the depth of penetration is a very important decision to secure safety, it determines the success or failure of construction. As the depth of penetration increases, the construction cost increases exponentially. The penetration depth of the prior art is a minimum of 1.5 m, 2.5 m for normal ground conditions, and 5 to 6 m for soft ground conditions, which expresses the discrimination of construction. The soil frame for pipe burial according to this invention has the advantage of not requiring an embedding depth.

In the pipe burial method using the earth frame according to the present invention, sufficient working space is secured by excavating in a river where the ground is soft and has low adhesive force, and at the same time, the earth frame is drawn in at the same depth as the excavation depth by its own weight or the lower load load After making it possible, the steel soil plate, anti-rise panel, pipe and pipe support are installed, and then the pipe can be easily buried through backfilling and compaction, drawing step, and road paving step, thereby improving the construction speed and In order to increase reliability and prevent safety accidents, the earth frame applied to the pipe burial method will be described first before explaining the pipe burial method using the earth frame.

The earth frame (A) applied to the pipe burial method using the earth frame according to the present invention is provided with a horizontal frame 10, a vertical frame 20 and a reinforcing frame 30, as shown in FIGS. 3 to 6 has been

Here, the horizontal frame 10 is provided with a welded joint where the upper end of the vertical frame 20 having a form of being upright downward at both ends having a predetermined length is buttted, so that the lower part has an open channel shape as a whole. It is provided so that sufficient working space can be secured at the inner lower part.

The reinforcing frame 30 is provided inside the horizontal frame 10 and the vertical frame 20 to prevent a change in the distance between the lower ends of the horizontal frame 10. At this time, as the vertical frame 20 is provided with an insertion guide 110 inclined from the outside to the inside at the lower end, it can be more easily seated or dug into the excavated floor by its own weight in the process of excavation. there will be

The horizontal frame 10, the vertical frame 20, and the reinforcing frame 30 preferably have an I shape as a way to maintain sufficient rigidity while reducing the amount of material used. That is, it is preferable to be provided with I-beams or H-beams.

The earth frame (A) is provided with a lower load member 40 having a predetermined space on the upper part of one side and the other side of the horizontal frame 10 arranged to maintain a certain distance, so that the lower part, that is, the excavated floor, is easily used in the excavation process. It is equipped to dig into.

The lower loading portion 40 is provided as a storage tank 410 with only the top open, so that water is supplied from the outside through a water supply unit (not shown) in the state where the earth frame A is installed, and the filled state is maintained. Due to the weight, the lower end of the soil frame A can be more easily penetrated into the excavated lower part.

A discharge valve 420 is provided at the lower part of the storage tank 410 so that the load lower part 40 is kept light in the process of pulling out the earth frame A after the pipe P is buried. It is provided so that drawing can be made possible using little power.

A steel soil plate 50 is provided between the vertical frames 20 on one side and the other side, which are arranged to maintain the predetermined distance, so that the surrounding soil can be prevented from flowing down during the excavation process. At this time, the steel soil plate 50 is preferably omitted when the excavated periphery is hard.

The earth frame (A) is provided with a panel support 60 spaced apart from the bottom of the vertical frame 20 at a predetermined interval toward the top, so that the anti-rise panel 70 seated on the excavated floor is pressed there is. This is to prevent the boiling phenomenon in which upward seepage flow occurs in the excavation due to the water level difference between the water level on the back of the steel soil plate 50 and the excavation in the sandy ground, which is due to the shear resistance of the soil by boiling. This is to prevent a collapse accident from occurring due to loss of this loss and loss of resistance earth pressure on the front of the temporary facility.

In addition, in the soft clay ground, when the soil weight of the excavation back surface is greater than the ground bearing capacity below the excavation bottom surface, the soil in the ground slides down to prevent the thawing phenomenon in which the excavation bottom surface swells.

To this end, the panel support 60 is provided as a support piece 630 having a coupling pin 620 fitted into a coupling hole 610 provided inside the vertical frame 20 .

The coupling hole 610 is a method for preventing the coupling pin 620 provided on the support piece 630 from being separated in the reverse direction from an easily inserted state. It is equipped to have a shape.

This is because the coupling pin 620 has the form of a stud bolt so that it is easily inserted through the wide part of the lower diameter and then moved to the upper part so that the coupling pin 620 is inserted into the narrow part, in the reverse direction This is to prevent separation.

This is when the anti-rise panel 70 is moved upward by the boiling phenomenon, as it moves upward, the anti-rise panel 70 is moved from the bottom in the excavation to the top by the support piece 630. can be prevented from floating.

The support piece 630 is a method for hanging the upper edge of the anti-lift panel 70 while one side is in close contact with the vertical inner surface of the vertical frame 20. It is equipped to have a shape.

The anti-rise panel 70 has a reinforcing rib inside the reinforcing rim member 720 while the upper portion of the reinforcing rim member 720 butts against the lower portion of the panel member 710 having a rectangular shape and is provided as a welded joint. 730 is provided to have a certain interval, so that sufficient strength can be maintained.

The anti-rise panel 70 is provided with a movable connector hole 701 at both ends in the longitudinal direction so that it can be moved in the longitudinal direction by using a wire or a separate hook during installation and disassembly. .

The reinforcing rib 730 is a square-shaped "reinforcing rib" as a way to maintain sufficient strength while lightening the weight by reducing the amount of material used. “It is desirable to have a shape.

In this invention, the reinforcing rib 730 has a square tube shape, but in addition to this shape, a channel with an open top " " and " "It is desirable to have any one of the forms.

The pipe (P) is provided to be placed on top of the anti-lift panel 70 supported by the panel support 60, and is provided to have a continuous form in the longitudinal direction by a pipe connector not shown.

Although the boiling phenomenon is prevented to some extent by the anti-rising panel 70, the tube P is directed from the bottom of the vertical frame 20 to the top as a way to prevent it from being lifted from the bottom due to excessive pressure. The pipe support 80 is provided at a spaced apart at regular intervals so that the top of the pipe P seated on the anti-rise panel 70 can be pressed.

The tube support 80 is provided with a tube support rod 810 and a rod coupling piece 820, and the tube support rod 810 is at both ends. A mold rod fixing piece 811 is provided, and the rod coupling piece 820 It is provided as a coupling piece body 822 having a mold coupling groove 821 and is provided so that it can be maintained in a coupled state by bolting or welding joint by facing the inside of the vertical frame 20.

When the tube support rod 810 is rotated by 90° in a state in which the rod fixing pieces 811 provided at both ends of the pipe support rod 810 are inserted through the open portion of the coupling piece body 822, The coupled state in the form of an interference fit to the coupling groove 821 can be maintained.

To this end, it is preferable that the coupling groove 821 is provided to have an elliptical shape. That is, the open portion of the coupling groove 821 is the rod fixing piece 811 The upper and lower parts adjacent to the open part of the coupling groove 821, which are equal to or slightly larger than the horizontal length so that insertion can be easily performed, are provided smaller than the vertical length of the rod fixing piece 811, so that the pipe support rod When 810 is rotated 90°, the rod fixture 811 By being in shape, the upper and lower ends can be inserted and coupled from the inside of the coupling groove 821.

On the other hand, the earth frame (A) is provided with a hanging hole 201 at the top of the vertical frame 20 as a way to draw it out after the installation of the pipe (P) is completed, so that the wire 930 of the drawing part 90 It is provided for hanging.

In the drawing part 90, the support frame 920 is provided under the drawing frame 910 having a channel shape, and the wire winding part in which the wire 930 is wound on the top of the drawing frame 910 ( 940) is provided, the earth frame A can be drawn by driving the wire winding unit 940.

As shown in FIGS. 1 and 2, in the pipe burial method using such an earth frame, first, in the earth frame mounting step (S100), the earth frame (A) is placed on top of the ground (GS) where the pipe (P) is to be buried. After the lower part is seated, another earth frame (A) is repeatedly provided at regular intervals in the longitudinal direction in which the pipe (P) is to be buried in the upper part of the ground (GS), and then the earth frame (A) is used by an excavator The ground (GS) located on the lower side of A) is excavated to a predetermined depth (excavation step (S200)).

At this time, in the earth frame mounting step (S100), after the earth frame (A) is repeatedly provided in the longitudinal direction on the upper part of the ground by the spacing frame (SF), the load load provided on the upper part of the earth frame (A) By supplying water to the storage tank 410 of (40) and further including an earth frame load loading step (S110) in which the load is increased by the storage amount, the earth frame A can be moved downward at the same time as excavation. .

At this time, in the excavation step (S200), after the lower part of the earth frame (A) is located on the excavation floor (BM), the steel earth plate ( 50) is further included, so that the excavated side wall can be prevented from collapsing to the lower inside.

Next, in the pipe construction step (S300), the pipe (P) is placed on the excavation floor (BM) located below the earth frame (A), and the pipe (P) is constructed in the longitudinal direction by the pipe fitting (FG). Let it be.

At this time, in the pipe construction step (S300), the anti-lift panel 70 is fitted in the longitudinal direction to the excavation floor (BM) located below the earth frame (A), and then the unidirectional of the anti-lift panel 70 A panel support fitting step (S310) in which both upper corners are pressed by the support pieces 630 of each panel support 60 provided on the lower inner side of the vertical frame 20 is further included, and then the tube ( P) is provided so that the pipe support rod 810 is opposite to the upper part.

At this time, the pipe support rod 810 is a pipe support in which the rod fixing pieces 811 provided at both ends are inserted into the coupling grooves 821 of the rod coupling pieces 820 provided inside the vertical frame 20. It is preferable to further include a rod fitting step (S320).

Next, in the backfill compaction step (S400), the soil (S0) is backfilled and compacted to the top where the pipe (P) is constructed, and then a drawing part (90) is provided on the top of the compacted ground (GS) to form an earth frame The pipe is buried through the earth frame drawing step (S500) in which (A) is drawn.

At this time, in the backfill compaction step (S400), before the soil SO is backfilled to the top of the pipe P, the pipe support rod separation and elevation in which the pipe support 80 and the anti-rise panel 70 are separated are separated. It is preferable to further include a panel separation step (S410).

Next, it is preferable to finish through a road pavement step (S600) of road paving after the earth frame (A) is drawn to the top where the pipe (P) is buried in the earth frame drawing step (S400).

S100: earth frame seating step S200: excavation step
S300: Pipe construction step S400: Backfill compaction step
S500: earth frame drawing step 10: horizontal frame
20: vertical frame 30: reinforcement frame
40: load lower part 50: steel soil plate
60: panel support 70: rise prevention panel
80: pipe support 110: insertion guide
410: reservoir 420: discharge valve

Claims (5)

In the pipe burial method using an earth frame provided to embed the pipe (P) to a predetermined depth from the top of the ground (GS),
After the lower part of the earth frame (A) is seated on the upper part of the ground (GS) where the pipe (P) is to be buried, the earth frame (A) is installed in the longitudinal direction in which the pipe (P) is buried in the upper part of the ground (GS) Earth frame load-loading step of supplying water to the storage tank 410 of the load-loading unit 40 provided at the top of the earth frame (A) in a state where it is repeatedly provided at regular intervals so that the load is increased by the storage amount. An earth frame mounting step (S100) further comprising (S110);
By using an excavator, the ground (GS) located on the lower side of the earth frame (A) is excavated to a predetermined depth, and the lower end of the earth frame (A) is excavated by the weight of the earth frame (A) and the load of the storage tank (410) Digging into the lower part, after the lower part of the earth frame (A) is located on the excavation floor (BM), the steel earth plate 50 between the vertical frame 20 on one side and the vertical frame 20 on the other side of the earth frame A An excavation step (S200) further including a steel soil plate insertion step (S210) into which the inserted;
The pipe (P) is placed on the excavation floor (BM) located below the earth frame (A), and the pipe (P) is constructed in the longitudinal direction by the pipe joint (FG), but the lower part of the earth frame (A) After the anti-lift panel 70 is fitted in the longitudinal direction to the excavation floor (BM) located in the unidirectional upper edge of the anti-lift panel 70, each panel provided on the lower inner side of the vertical frame 20 A panel that prevents the anti-lift panel 70 from being lifted upward by the support piece 630 even when a force that is pressed by the support piece 630 of the support 60 and moved upward due to heaving or boiling is applied A pipe construction step (S300) further comprising a support fitting step (S310);
A backfill compaction step (S400) of backfilling and compacting the soil (S0) to the top of the pipe (P); and
A pipe burial method using an earth frame, characterized in that it includes an earth frame drawing step (S500) in which the earth frame (A) is drawn by providing a drawing portion (90) on the top of the compacted ground (GS).
delete delete delete According to claim 1,
The pipe construction step (S300)
A tube support rod 810 is provided so as to face the upper part of the tube P, and the tube support rod 810 has rod fixing pieces 811 provided on both ends of the rod provided on the inside of the vertical frame 20 A pipe burial method using an earth frame, characterized in that it further includes a pipe support rod fitting step (S320) inserted into the coupling groove 821 of the coupling piece 820.

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