KR20210155475A - Retaining Soil Pressure Pack And Backfilling Structure, Supporting Structure For Retaining Wall - Google Patents

Abstract

The present invention relates to a soil pressure transfer pack filled with a dry filler, a backfilling structure between posts and a wale or H-piles and a wale of a retaining wall using the same, and a support structure of a retaining wall, and more particularly, to a soil pressure transfer pack filled with a dry filler, a backfilling structure between posts and a wale or H-piles and a wale of a retaining wall using the same, and a support structure of a retaining wall, which may finish construction by inserting a soil pressure transfer pack, filled with a filler such as concrete and cement cured by water in a mesh type sack, in a groove between the retaining wall and the wale or between the retaining wall and a beam or a slab portion and performing a curing process. A desirable embodiment according to the present invention provides the soil pressure transfer pack filled with the dry filler includes: the sack made of a mesh with a set size; and the filler with which the inside of the sack is filled and which is cured by water. The present invention can reduce a construction period.

Description

The earth pressure transfer pack filled with dry filler material and the filling structure between the piles and the wale or the H pile and the wale of the retaining wall using the same, and the supporting structure of the retaining wall {Retaining Soil Pressure Pack And Backfilling Structure, Supporting Structure For Retaining Wall}

The present invention relates to an earth pressure transfer pack filled with dry filler material, a structure for filling a groove between a pile and a wale of a retaining wall or an H file and a wale using the same, and a support structure of a retaining wall, and more particularly, to the inside of a net-type sack. By pouring water or immersing the earth pressure transfer pack filled with fillers such as concrete or cement, which is hardened by water, in the groove between the retaining wall and the wale, or between the retaining wall and the beam or slab, and hardening It relates to an earth pressure transfer pack filled with dry filler material to complete the work, and a filling structure between a pile and a wale of a retaining wall or an H file and a wale using the same, and a support structure of the retaining wall.

In general, when the retaining wall and the wale are spaced apart, the bearing capacity of the wale for the retaining wall is inevitably reduced, and there is a problem in that the retaining wall may eventually collapse due to the earth pressure.

In order to solve this problem, conventionally, a method of making a form by plywood in the space between the retaining wall and the wale and pouring concrete therein has been used, but there are disadvantages such as difficulty in construction and an increase in construction cost, In particular, there was a problem in that it was difficult to install the formwork in the narrow space between the retaining wall and the wale. In addition to accurately measuring the separation distance between the wales, the construction had to be done without errors, and since both sides of the retaining wall and the wale had to be welded, a separate construction period was required due to the large amount of welding.

In addition, in general, when constructing an underground structure, the reverse drilling method is used for reasons such as safety of the underground structure and shortening of the period. Thus, the interlayer slab supports the earth pressure of the retaining wall. At this time, in order to support the earth pressure of the retaining wall, there was a problem in that the construction was difficult and economical efficiency was lowered because a structure such as a wale or edge beam was needed.

As the technology that is the background of the present invention, there is Patent Registration No. 1364227 "Jarbara jack for filling the groove between the retaining wall and the wale" (Patent Document 1). In the background art, 'a plastic case 20 with an open upper part, and expandable and contractible wrinkle parts 21 on both sides and the bottom surface; a hook portion 22 integrally molded on the front upper end of the plastic case 20 so as to be hung on the wale 12; A rigid reinforcing surface 24 formed integrally with the upper end of the rear surface of the plastic case 20 and having a mounting hole 23 for fastening with the retaining wall 10 formed therethrough; The plastic case 20 is configured to include a stacking coupling means 30 integrally formed on the front and rear surfaces of the plastic case 20 so as to be laminated and coupled to each other; The lamination coupling means 30 includes: a first binding hole 31 and a third binding hole 33 formed through the hook portion 22 of the plastic case 20; a second binding hole 32 penetrating through the upper end of the rear surface of the plastic case 20; We propose a bellows jack for filling the groove between the retaining wall and the wale, characterized in that the first to third binding holes (31, 32, 33) are sequentially inserted through, and then is composed of a binding band (34) to be bound.

However, the background art has a problem of poor durability because the configuration is complicated and it has to support the load only with the hook part 22, and the bellows jack is usually used only for the retaining wale and the use distance is short as 100 to 150 mm, which is required in the reverse hitting junction. There was a problem that construction was impossible at 400-1000mm, which is the thickness of the underground outer wall.

Patent Registration No. 1364227 "Jarbara jack for filling the groove between the retaining wall and the wale"

The present invention is to solve the above problems, and the on-site installation process is very simple and economical is very good, and the required welding work is spot welding (tag welding) for fixing, so construction is simple, and the steel frame material is greatly reduced Then, it is a dry method that prevents the decrease in constructability and increase in cost and absorbs construction errors to prevent the increase in construction period and cost, as well as the lightweight material that can be transported and constructed by manpower to prevent deterioration in workability and increase in construction cost. An object of the present invention is to provide an earth pressure transfer pack filled with a filler and a structure for filling a groove between a pile and a wale of a retaining wall or an H file and a wale of a retaining wall using the same, and a support structure of the retaining wall.

The present invention includes a sack made of a mesh of a certain size; An object of the present invention is to provide an earth pressure transfer pack filled with a dry filler, characterized in that it consists of; a filler that is filled inside the sack and cured by water.

In addition, an object of the present invention is to provide an earth pressure transfer pack filled with a dry filler, characterized in that the filler is dry concrete or dry cement.

In addition, an object of the present invention is to provide an earth pressure transfer pack filled with a dry filler, characterized in that an elastic member having elasticity is mixed in the filler at a certain ratio.

In addition, the installation member inserted into the space between the pile and the wale of the retaining wall or the H file and the wale and one end is joined to the wale, and the earth pressure transfer pack by immersing it in water or pouring water into the installation member from the upper part of the retaining wall and the wale To provide a filling structure between the pile and the wale of the retaining wall using the earth pressure transfer pack filled with dry filler, characterized in that it is inserted to fill the spaced space and hardened to transmit the earth pressure, or between the H file and the wale.

In addition, it is intended to provide a filling structure between the pile and the wale of the retaining wall using the earth pressure transfer pack filled with the dry filler, characterized in that the installation member has any one of H, U, and L sections, or between the H pile and the wale.

In addition, the support bracket fixed to the retaining wall, the support beam installed on the support bracket and the support bracket, the cheolgol beam mounted on the upper part of the support beam in the longitudinal direction, and the retaining wall spaced apart by a predetermined width in the lateral direction An earth pressure support member consisting of an end plate formed to protrude from the upper part of the structure's cheolgolbo to the upper part, a support of a certain length, and an installation member of a certain length joined to the other end of the support, between the end plate and the H file, one end of the support The addition is configured to be joined to the end plate, and the earth pressure transfer pack is immersed in water or poured with water and inserted to fill the space between the other end of the support and the H file at the top of the installation member, characterized in that it is hardened to transmit earth pressure An object of the present invention is to provide a retaining wall support structure of a reverse pounding structure using an earth pressure transfer pack filled with dry filler material.

In addition, the installation member is to provide a retaining wall support structure of the inverted structure using the earth pressure transfer pack filled with dry filler, characterized in that any one of H, U, L cross-section.

The earth pressure transfer pack filled with the dry filler of the present invention, the filling structure between the pile and the wale of the retaining wall or the H file and the wale using the same, and the supporting structure of the retaining wall are made of concrete or On-site installation by inserting the earth pressure transfer pack filled with fillers such as cement into the groove between the retaining wall and the wale or between the retaining wall and the beam or slab part by pouring water or immersing it in water to complete the construction. The process is very simple and economical, and the necessary welding work is not only easy to construct with fixed spot welding (tag welding), but also construction by absorbing construction errors and reducing workability and cost by significantly reducing steel frame materials. Not only can the increase in period and construction cost be prevented, but the material used is lightweight and can be transported and constructed by manpower, which has a very useful effect to prevent deterioration of workability and increase in construction cost.

In particular, the existing reverse rudder joint technology had a problem in that the construction period was delayed due to the large amount of welding required, but the present invention can work in parallel with the deck and steel frame work, and the construction time is very short, which is very effective in shortening the construction period to be.

In addition, in the past, it is difficult to cope with the concrete curved surface of the retaining wall, so although it is actually measured and cut the steel frame or angle, it is not welded to the concrete surface and the construction is difficult because the surface is not straight. It has a very useful effect that can be applied to the curved or sloped surface of concrete.

The following drawings attached to this specification illustrate preferred embodiments of the present invention, and serve to further understand the technical spirit of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings It should not be construed as being limited.
1 is a perspective view of an earth pressure transfer pack filled with a dry filler of the present invention.
2 is a cross-sectional view of the earth pressure transfer pack filled with the dry filler of the present invention.
3 is a view showing the structure of filling the groove between the pile and the wale of the retaining wall using the earth pressure transfer pack filled with the dry filler of the present invention.
4 is a diagram illustrating a structure of filling a groove between an H file and a wale using the earth pressure transfer pack filled with the dry filler material of the present invention.
Figure 5a is a perspective view showing the retaining wall support structure of the inverted structure using the earth pressure transfer pack filled with the dry filler of the present invention.
5B is a plan view of FIG. 5A.
5C is a diagram illustrating another embodiment of FIG. 5B.
5D is a plan view of FIG. 5A.
6 is a cross-sectional view showing various embodiments of the installation member of the present invention.
7 is a perspective view of the earth pressure support member of the present invention.

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention will be described in detail according to a preferred embodiment.

1 is a perspective view of the earth pressure transfer pack filled with the dry filler of the present invention, and FIG. 2 is a cross-sectional view of the earth pressure transfer pack filled with the dry filler of the present invention.

As shown in FIG. 1 , the earth pressure transfer pack 10 filled with the dry filler of the present invention includes a sack 110 made of a mesh of a certain size and a filler 120 filled in the sack 110 .

The sack 110 is made in the form of a net so that a pitcher is possible, and is factory-manufactured to a predetermined size, preferably 10 to 30 cm in length.

The inside of the bag 110 is filled with a filler 120, and the filler 120 may be made of various materials that are hardened by immersing in water or pouring water, preferably made of dry concrete or dry cement, The earth pressure transfer pack 10 of the present invention can be installed after spraying or immersing in water so that the filler is cured.

In particular, by allowing the elastic member having elasticity to be mixed in the filler 120 at a certain ratio, it may be possible to accommodate an error caused by a temperature change or the like when it is constructed in a groove between the retaining wall and the wale.

Such an elastic member may be made of various known members such as rubber material, synthetic resin, urethane foam, styrofoam, and the like.

3 is a view showing the filling structure between the pile and the wale of the retaining wall using the earth pressure transfer pack filled with the dry filler of the present invention, and FIG. 6 is a cross-sectional view showing various embodiments of the installation member of the present invention.

As shown in Figure 3, between the pile (2) and the wale (5) of the retaining wall can be filled using the earth pressure transfer pack 10 of the present invention.

As shown in the figure, the retaining wall is constructed using the CIP method due to a construction error during construction. Because it is heavy, it is difficult to transport the manpower, and the gap between the piles (2) and the wale (5) must be measured every time to fill the grooves, so construction was difficult.

However, in the present invention, after inserting and bonding the installation member 710 in the space between the pile 2 and the wale 5 of the retaining wall, immerse in water or pour water into the earth pressure transfer pack 10 to install the installation member 710. In the upper part of the retaining wall (1) and the wale (5) to fill the space between the insert and harden to fill the groove to deliver the earth pressure.

Therefore, even if the space between the piles 2 and the wale 5 is changed every time, the earth pressure transfer pack 10 has a fluid shape, so it can be filled in response to it, and is hardened by water to sufficiently transmit the earth pressure. will be.

In particular, in the case of the installation member 710, it simply serves to mount the earth pressure transfer pack 10, and only one end of the installation member 710 is attached to the wale 5 by a variety of known methods such as simple fixing tag welding. It is joined and the other end is installed in a non-bonded state, so installation is very easy. The length of the is manufactured in batches, only one end is joined, and the error is absorbed by the earth pressure transfer pack 10, so the other end does not need to be joined with the pile 2).

Accordingly, the installation member 710 only serves to mount the earth pressure transfer pack 10 , and the earth pressure transfer pack 10 serves to transmit the earth pressure.

Such an installation member 710 may be made of various steel materials of a certain length, and as shown in FIG. 6 , various types such as an H-shaped cross-section, a U-shaped cross-section, and a B-shaped cross-section in which the earth pressure transfer pack 10 can be mounted. can be made into a shape.

4 is a diagram illustrating a structure of filling a groove between an H file and a wale using the earth pressure transfer pack filled with the dry filler material of the present invention.

As shown in Fig. 4, it is possible to fill the groove by inserting the earth pressure transfer pack 10 of the present invention into the space between the H file 21 and the wale 5 of the side wall.

In the present invention, after inserting and bonding the installation member 710 in the space between the H file 21 and the wale 5 of the side wall, the earth pressure transfer pack 10 is attached to the upper part of the installation member 710 in the H file of the side wall ( After inserting to fill the space between 21) and the wale (5), the earth pressure transfer pack (10) is hardened to fill the grooves to transmit earth pressure.

The earth pressure transfer pack 10 may be immersed in water or hardened by pouring water.

Therefore, even if the space between the H file 21 and the wale 5 is changed every time, the earth pressure transfer pack 10 can be filled correspondingly because the shape is fluid and can be cured by water to sufficiently transmit the earth pressure. there will be

In particular, in the case of the installation member 710, it simply serves to mount the earth pressure transfer pack 10, and only one end of the installation member 710 is joined to the wale 5 by various methods such as welding and the other end. is installed in an unbonded state, so installation is very easy. At this time, the length of the installation member 710 to be installed is configured to be rather short without the need to exactly match the space between the H file 21 and the wale 5, and one end Only the joint is joined and the other end is not joined to the pile (2), so a separate special joining means is not required.

Accordingly, the installation member 710 only serves to mount the earth pressure transfer pack 10 , and the earth pressure transfer pack 10 serves to transmit the earth pressure.

Such an installation member 710 may be made of various steel materials of a certain length, and as shown in FIG. 6 , various types such as an H-shaped cross-section, a U-shaped cross-section, and a B-shaped cross-section in which the earth pressure transfer pack 10 can be mounted. can be made into a shape.

Figure 5a is a perspective view showing the retaining wall support structure of the reverse striking structure using the earth pressure transfer pack filled with the dry filler of the present invention, Figure 5b is a plan view of Figure 5a, Figure 5c is another embodiment of Figure 5b Figure 5d is a plan view of Figure 5a, Figure 7 is a perspective view of the earth pressure support member of the present invention.

In the present invention, it is possible to form a structure for supporting the retaining wall of the inverted structure by using the earth pressure transfer pack 10 as shown in FIG. 5 .

As shown in Figures 5a and 5b, the retaining wall (1) of the reverse rudder structure generally has H piles 21 embedded at predetermined intervals, and the flange surface of the H piles 21 has a support bracket 22 and , the support bracket 22 and the support beam 23 installed on the upper part of the support bracket 22, and the support beam 23 cheolgolbo 24 mounted in the longitudinal direction on the upper part is configured.

In addition, in the present invention, as shown in Fig. 5c, it is applicable even when the H file 21 is not configured. Although it is cut, it is not welded to the concrete surface and the surface is not flat, so construction is difficult, but in the present invention, the earth pressure transfer pack 10 is used to apply to the concrete curved surface or inclined surface of the retaining wall 1 .

At this time, in the present invention, the end plate 27 is formed to protrude upward from the upper part of the cheolgolbo 24 of the underground structure in the transverse direction by spacing a predetermined width from the retaining wall 1 to configure it.

The end plate 27 is a member for installing the earth pressure support member 70 of the present invention, which will be described later, as well as serving as a side formwork when constructing a deck plate, etc. on the upper part of the cheolgolbo 24 and pouring concrete. is also used

The earth pressure support member 70 for transmitting the earth pressure in the present invention is, as shown in FIGS. 5 and 7, a support 720 of a certain length, and an installation member of a certain length joined to the other end of the support 720 ( 710).

The earth pressure support member 70 is installed by being inserted into the space apart from the H file 21 of the end plate 27 and the retaining wall 1, and for each H file 21, the H file of the retaining wall 1 ( 21) and may be installed in a space away from, or may be installed in a space separated from the H-pillar 21 of the retaining wall 1 only in a part of the H-pillar (21).

The support 720 may be made of a member of various known lengths, such as an H file, and a separate installation member 710 is bonded to the end of the support 720 .

In this case, the end plate 721 is configured at the end of the support unit 720 to facilitate bonding of the installation member 710 .

Such earth pressure support member 70 is configured such that one end, that is, the end of the support 720, is joined to the end plate 27 at one end of the support 720 between the end plate 27 and the H pile 21. The earth pressure transfer pack 10 is inserted into the upper portion of the installation member 710 to fill the space between the other end of the support unit 720 and the H file 21, and hardened to transmit earth pressure.

Accordingly, the installation member 710 serves only to mount the earth pressure transfer pack 10 , and the earth pressure transfer pack 10 receives the earth pressure and transmits it to the support 720 .

Such an installation member 710 may be made of various steel materials of a certain length, and as shown in FIG. 6 , various types such as an H-shaped cross-section, a U-shaped cross-section, and a B-shaped cross-section in which the earth pressure transfer pack 10 can be mounted. can be made into a shape.

In particular, when the installation member 710 is made of a B-shaped member as shown in FIG. 7B , the end portion may be partially cut and used if necessary.

The earth pressure transfer pack filled with the dry filler of the present invention as described above, the filling structure between the pile and the wale of the retaining wall or the H file and the wale using the same, and the support structure of the retaining wall are cured by water inside the mesh-type sack By pouring or immersing the earth pressure transfer pack filled with fillers such as concrete or cement into the groove between the retaining wall and the wale or between the retaining wall and the beam or slab part, hardening it to complete the construction. , the on-site installation process is very simple and economical, and the required welding work is not only easy to install with fixed spot welding (tag welding), but also significantly reduces the number of steel frame materials to prevent deterioration in workability and increase in cost, and to reduce construction errors. Not only can the increase in construction period and construction cost be prevented by absorbing it, but it also has a very useful effect in that the material used is lightweight and can be transported and constructed by manpower, thereby preventing deterioration in workability and increase in construction cost.

In particular, the existing reverse rudder joint technology had a problem in that the construction period was delayed due to the large amount of welding required, but the present invention can work in parallel with the deck and steel frame work, and the construction time is very short, which is very effective in shortening the construction period to be.

In addition, in the past, it is difficult to cope with the concrete curved surface of the retaining wall, so although it is actually measured and cut the steel frame or angle, it is not welded to the concrete surface and the construction is difficult because the surface is not straight. It has a very useful effect that can be applied to the curved or sloped surface of concrete.

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art can make various modifications and modified inventions without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

1: retaining wall
2: pile
5: belt
10: earth pressure transfer pack
110 : battery
120: filling material
21 : H file
22: support bracket
23: support beam
24 : Cheolgolbo
27: end plate
70: earth pressure support member
710: installation member
720: support

Claims (7)

a sack 110 made of a mesh of a certain size;
An earth pressure transfer pack filled with a dry filler, characterized in that it; The method according to claim 1,
The filler 120 is an earth pressure transfer pack filled with a dry filler, characterized in that it is dry concrete or dry cement. The method according to claim 1,
An earth pressure transfer pack filled with a dry filler, characterized in that the filler 120 is mixed with an elastic member having elasticity in a certain ratio. In the groove filling structure between the pile and the wale of any one of claims 1 to 3, or the H file and the wale,
An installation member 710 that is inserted into the space between the pile 2 and the wale 5 of the retaining wall or the H file 21 and the wale 5 and one end is joined to the wale 5,
Immerse it in water or pour water into the earth pressure transfer pack 10 to fill the space between the retaining wall 1 and the wale 5 at the top of the installation member 710, and harden it to deliver the earth pressure. A structure for filling in the grooves between the piles of the retaining wall and the wale or the H pile and the wale using an earth pressure transfer pack filled with dry filler material. 5. The method according to claim 4,
The installation member 710 is a filling structure between the pile and the wale of the retaining wall using the earth pressure transfer pack filled with the dry filler, or the H file and the wale, characterized in that it has any one of H, U, and L cross sections. In the retaining wall support structure of the inverted structure using the earth pressure transfer pack filled with the dry filler of any one of claims 1 to 3,
The support bracket 22 fixedly installed on the retaining wall 1, the support beam 23 installed on the upper part of the support bracket 22 and the support bracket 22, and the support beam 23 mounted on the upper part in the longitudinal direction An end plate 27 formed to protrude upward from the upper part of the Cheolgolbo 24 of the underground structure in the transverse direction by spacing a predetermined width from the Cheolgolbo 24 and the retaining wall 1;
Between the end plate 27 and the H file 21, the earth pressure support member 70 comprising a support 720 of a certain length and an installation member 710 of a certain length joined to the other end of the support 720 One end of the support 720 is configured to be joined to the end plate 27, and the other end of the support 720 and the H file from the top of the installation member 710 by immersing it in water or pouring water into the earth pressure transfer pack 10 (21) The retaining wall support structure of the reverse rudder structure using an earth pressure transfer pack filled with a dry filler, characterized in that it is hardened by inserting it to fill the space between it and so as to transmit the earth pressure. 7. The method of claim 6,
The installation member 710 is a retaining wall support structure of a reverse strike structure using an earth pressure transfer pack filled with a dry filler, characterized in that it has any one of H, U, and L cross sections.

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