KR102259036B1 - Method of installing a foundation soil barrier wall for a building that prevents soil inflow and secures construction stability and the installation structure of the foundation soil barrier wall - Google Patents

Abstract

The present invention relates to a building foundation barrier wall installation method with a soil inflow prevention property and construction stability, and a foundation barrier wall installation structure. The structure comprises a plurality of H-beam bodies (10), an insertion member (30), and a joint unit (36).

Description

Method of installing a foundation soil barrier wall for a building that prevents soil inflow and secures construction stability and the installation structure of the foundation soil barrier wall}

The present invention relates to a method for installing a foundation mud wall for a building in which soil inflow prevention and construction stability are secured, and a structure for installing the foundation mud wall, and more particularly, to secure the outer and inner sealing properties of the wall installed for soil barrier, so that from the outside of the wall. In addition to preventing the inflow of soil, it prevents the inflow of soil and secures construction stability by increasing the bonding and fixing power of the H-beam body and the walls connected therebetween to ensure the stability of the construction. It relates to a method and a structure for installing the foundation mud wall.

In general, in order to install underground structures such as sewage pipes, city gas pipes, electric power underground works, large rain boxes, underground communal openings, etc., or to build underground structures such as underground floors or subways of buildings, excavation of the ground to a planned depth During the construction and excavation work, an earthen barrier structure should be installed to prevent sediment from collapsing at the excavation site, and groundwater leaching from the ground should be blocked from entering the excavation site.

Existing soil barrier construction used a method of stabilizing the ground by inserting an H-pile into the ground and inserting a wooden earth plate between them to install a soil barrier structure, and then filling the soil behind the structure to stabilize the ground. However, this method has a risk of ground subsidence and ground collapse because the ground is not stabilized due to the soil on the backside of the soil barrier, and since it uses a common wooden soil plate, the shielding function is low, and it is difficult to recover the soil plate during the backfilling process. Since it is buried and dead in the basement, there is a problem that the recyclability of materials is degraded, and secondary environmental pollution occurs due to the buried earth plate.

In order to solve this problem, in recent years, a lot of technologies using a steel panel instead of a wooden earth plate have been developed and proposed.

For example, these are methods of connecting steel panels to the flanges or webs of the H-pile.

Specifically, Patent No. 10-1403350 has a space between the flanges of the H-pile as a fitting groove, a lower end fixing portion having a width corresponding to the fitting groove is provided at the lower end of the steel panel, and the upper end of the steel panel is the steel material. Disclosed is an earth retaining structure including a fixing block to fix the upper part after the panel is inserted into the fitting groove. However, the steel panel used in this technology is installed between the flanges of the H pile, and since the bottom fixing part is inserted, if the verticality of the H pile is not high, it is difficult to insert smoothly and the order performance is difficult to exhibit. have.

In addition, in the case of installing a retaining structure by inserting an earth plate made of steel between the H piles, Registration Patent No. 10-0975824 provides stability by providing insertion grooves through which the flanges of the H pile can be inserted at both ends of the earth plate made of the steel material. We propose a technology that can improve the durability and durability. However, the H-pile flange insertion groove of the earth plate used in this technology is formed by welding a piece of steel bent on one side of the steel plate, and is configured to decrease in width as the earth plate is inserted. It is a structure that the flange is pinched, and it is difficult to exert a sufficient order function even if the insertion is made.

As described above, in the related art of the conventional earthing method, a panel is installed with a steel plate on an H pile to be used as an earthing structure, and technologies for constructing a water shielding facility at the same time are disclosed. However, in the prior art, most of the steel panel or the section steel structure is installed between the wedges of the H pile, and when the steel panel or the section steel structure is not directly input but is slightly crooked, the H pile or its internal structure There was a problem that it was jammed in and the insertion into the lower part was not made smoothly.

Registered Patent No. 10-1403350 Registered Patent No. 10-0975824

Accordingly, the present invention was devised to eliminate the above-described problems, and secured the outer and inner sealing properties of the wall installed for earthing to prevent the inflow of soil from the outside of the wall, as well as connecting the H beam body and the underlying H beam body therebetween. It was completed as a technical task with the focus on the method of installing the foundation wall of a building with secured construction stability and prevention of soil inflow to secure the stability of construction by increasing the bonding of the walls and the fixing power between the walls and the installation structure of the foundation wall. .

”형태로 형성되어 H빔체(10)의 측판부(12) 단부가 삽입 고정되는 제1결합홈부(38)가 형성되고, 상기 제1내측밀착부(33), 제2간격유지부(34) 및 제2내측밀착부(35)는 상기 제1결합홈부(38)의 반대방향인 “

”형태로 형성되어 마주하는 H빔체(10) 사이에 구비되는 기초흙막이 벽체(90)의 단부가 삽입 고정되는 제2결합홈부(39)가 형성되며, 상기 작동공간부(37) 내의 양 제2내측밀착부(35) 사이에 탄성스프링체(80)가 구비되어, 상기 탄성스프링체(80)의 외향압에 의해 제2내측밀착부(35)를 가압함으로써 제2결합홈부(39)에 삽입된 벽체(90)의 단부와, 제1결합홈부(38)에 삽입된 H빔체(10)의 측판부(12) 단부를 가압고정하도록 구성하는 것을 포함하여 이루어짐을 특징으로 하는 토사 유입방지 및 시공 안정성이 확보된 건축물 기초흙막이 벽체 설치구조를 제공한다.The present invention for achieving the above technical problem, in the construction of the foundation soil barrier wall installation structure of a building in which soil inflow prevention and construction stability are secured, a plurality of H-beam bodies 10 vertically installed at regular intervals on the ground; The H-beam body is composed of both side plate portions 12 positioned inside and outside the building facing the building, and a joint portion 14 vertically connecting the side plate portions 12, and of the side plate portion 12 A fitting member 30 integrally fixed to both ends positioned on one side; The fitting member 30 has an outer contact portion 31 that is in close contact with the outer surfaces of the ends of each of the side plate portions 12, and the outer contact portion 31 is extended and bent inward from the outer contact portion 31 to the edge of the side plate portion 12. The first gap maintaining part 32 in close contact with the first gap maintaining part 32, and a first inner contact that is extended and bent in parallel with the outer contact part 31 in the first gap maintaining part 32 to be in close contact with the inner surface of the side plate part 12 A second gap maintaining part 34 which is extended and bent along the joint 14 at the first inner contact part 33 and adheres to the surface of the joint 14, and the second gap is maintained. The second inner contact portion 35 that is extended and bent in parallel with the first inner contact portion 33 in the portion 34 and the second inner contact portion 35 that faces from the second inner contact portion 35 It consists of a joint 36 that is positioned parallel to the joint 14 while being connected to each other to form an operating space 37 between the joint 14, and the outer contact portion 31, the first The gap maintaining part 32 and the first inner contact part 33 are “

The first coupling groove 38 is formed in the shape of the side plate portion 12 of the H beam body 10 to be inserted and fixed, and the first inner contact portion 33, the second gap holding portion 34 And the second inner contact portion 35 is the opposite direction of the first coupling groove 38

A second coupling groove 39 into which the end of the foundation wall 90 is inserted and fixed is formed between the H-beam bodies 10 facing each other is formed, and both the second in the operating space 37 An elastic spring body 80 is provided between the inner contact portions 35, and is inserted into the second coupling groove 39 by pressing the second inner contact portion 35 by the outward pressure of the elastic spring body 80. Prevention and construction of soil inflow, characterized in that it comprises a configuration to press and fix the end of the wall 90 and the end of the side plate 12 of the H beam body 10 inserted into the first coupling groove 38 The foundation soil barrier of a building with secured stability provides a wall installation structure.

At this time, the fitting member 30 is formed of a urethane material to secure airtightness between each other in close contact, and the end of the side plate portion 12 of the H beam body 10 is inserted into the first coupling groove 38 and the second In the state where the end of the wall 90 is inserted into the coupling groove 39, the outer contact portion 31, the side plate portion 12 of the H-beam body 10, the first inner contact portion 33, and the wall 90 ) Characterized in that it is configured to be fastened and fixed by a bolt member 98 penetrating the end of the).

In addition, by protruding the spacer support 72 on the surface of the joint 14 of the H-beam body 10 located in the operating space 37, both ends of the spacer support 72 are located inside the second inner side. It is characterized in that it is configured to maintain a gap between the two second inner contact portions 35 facing each other by being in close contact with each of the facing inner surfaces of the contact portions 35.

In addition, both side plate portions 12 of the H-beam body 10 are arranged in multiple stages in a vertical direction, respectively, and a pair of vertical wing portions 21 that are in close contact with the outer surfaces of each boundary portion of the multi-stage arranged side plate portions 12 ), and a sealing member (20) consisting of a horizontal joint (23) connecting the pair of vertical blades (21) through each boundary portion of the side plate (12), and the horizontal joint (23) A plurality of through holes 24 through which the soil passes are formed, and the sealing member 20 is formed of a urethane material.

In addition, by providing an elastic spring body 80 to which an outward pressure is applied to the inner surfaces of both walls 90 that face each other, both walls 90 are pressed outwardly by the elastic spring body 80. It is configured to increase the adhesion between the wall 90 and the vertical wing part 21 while maintaining the distance of 90), and the elastic spring body 80 is a fixed support fixed between the walls 90 ( The elastic spring body 80 is connected to and fixed to 60, and the elastic spring body 80 has a center zone 81, a spring 89 seated on both sides of the center zone 81, and the outer side of the spring 89 Consisting of a contact table 85 that is provided and is in close contact with the inner surface of the wall 90 facing each other, the fixing support 60 has a horizontal support 61 fixed between the two walls 90, and the horizontal support ( 61) is continuously formed in the vertical upper side or the lower side of the elastic spring body 80, the first end fixing body 65 and the second end fixing body each having openings 65a and 66a formed therein to receive and fix the center zone 81 of the elastic spring body 80 It characterized in that it consists of (67).

And, in a state in which the uppermost walls 90 are positioned on a horizontal straight line at the upper end of the H beam body 10, the yaw stepped portion 16 on the joint 14 of the H beam body 10 It is formed, and has a receiving groove portion 54 that is fitted while being seated in the concave stepped portion 16, the surface of the joint 14 and the inner surface of both walls 90, respectively, on both sides of the receiving groove portion 54 It is characterized in that it is configured to maintain the distance between the upper ends of the H-beam body 10 and both walls 90 by inserting and fixing the top gap holding body 90 on which the vertical support portion 52 is formed in close contact with the H-beam body 10 and both walls 90.

”형태로 형성되어 H빔체(10)의 측판부(12) 단부가 삽입 고정되는 제1결합홈부(38)가 형성되고, 상기 제1내측밀착부(33), 제2간격유지부(34) 및 제2내측밀착부(35)는 상기 제1결합홈부(38)의 반대방향인 “

”형태로 형성되어 마주하는 H빔체(10) 사이에 구비되는 기초흙막이 벽체(90)의 단부가 삽입 고정되는 제2결합홈부(39)가 형성되며, 상기 작동공간부(37) 내의 양 제2내측밀착부(35) 사이에 탄성스프링체(80)가 구비되어, 상기 탄성스프링체(80)의 외향압에 의해 제2내측밀착부(35)를 가압함으로써 제2결합홈부(39)에 삽입된 벽체(90)의 단부와, 제1결합홈부(38)에 삽입된 H빔체(10)의 측판부(12) 단부를 가압고정하도록 하고, 상기 끼움부재(30)는 밀착되는 상호간에 밀폐성 확보를 위해 우레탄 재질로 형성되고, 상기 제1결합홈부(38) 내에 H빔체(10)의 측판부(12) 단부가 삽입되고 상기 제2결합홈부(39) 내에 벽체(90)의 단부가 삽입된 상태에서, 상기 외측밀착부(31), H빔체(10)의 측판부(12), 제1내측밀착부(33) 및 벽체(90)의 단부를 관통하는 볼트부재(98)에 의해 체결 고정되도록 하며, 상기 작동공간부(37) 내에 위치되는 H빔체(10)의 이음부(14) 표면상에 간격지지체(72)를 돌출 형성하여, 상기 간격지지체(72)의 양측단부가 양 제2내측밀착부(35)의 마주하는 내면에 각각 밀착되도록 함으로써 마주하는 양 제2내측밀착부(35) 간의 간격이 유지되도록 하고, 상기 H빔체(10)의 양 측판부(12)는 각각 수직방향으로 다단 배열되어지되, 상기 다단 배열된 양 측판부(12)의 각 경계부 외측면에 밀착되는 한쌍의 수직날개부(21)와, 상기 양 측판부(12)의 각 경계부 사이를 관통하여 한쌍의 수직날개부(21)를 연결하는 수평이음부(23)로 구성되는 밀폐부재(20)를 구비하고, 상기 수평이음부(23) 상에 토사가 통과되는 관통공(24)이 다수 형성되며, 상기 밀폐부재(20)는 우레탄 재질로 형성되도록 함을 특징으로 하는 토사 유입방지 및 시공 안정성이 확보된 건축물 기초흙막이 벽체 설치방법을 제공한다.In another aspect of the present invention, in constructing a method for installing a foundation soil barrier wall for a building in which soil inflow prevention and construction stability are ensured, preparing a plurality of H-beam bodies 10 vertically installed at regular intervals on the ground; The H-beam body is composed of both side plate portions 12 positioned inside and outside the building facing the building, and a joint portion 14 vertically connecting the side plate portions 12, and of the side plate portion 12 A fitting member 30 integrally fixed to both ends positioned on one side is prepared, and the fitting member 30 includes an outer contact portion 31 that is in close contact with the outer surfaces of the ends of each of the side plate portions 12, A first gap holding portion 32 that is extended and bent inward from the outer contact portion 31 to be in close contact with the rim of the side plate portion 12, and an outer contact portion 31 at the first gap maintaining portion 32 The first inner contact portion 33 that is extended and bent in parallel to the side plate portion 12 to be in close contact with the inner surface, and the first inner contact portion 33 is extendedly bent along the joint 14 to be bent to a joint ( 14) a second gap maintaining portion 34 in close contact with the surface, and a second inner bonding portion 35 that is extended and bent in parallel with the first inner bonding portion 33 in the second gap maintaining portion 34, As the ends of the second inner contact portions 35 facing each other in the second inner contact portion 35 are connected to each other, the operating space 37 is positioned parallel to the joint 14 so that the operating space 37 is formed between the joint 14 and the second inner contact portion 35. Consisting of a joint 36 formed, the outer contact portion 31, the first gap maintaining portion 32, and the first inner contact portion 33 is “

The first coupling groove 38 is formed in the shape of the side plate portion 12 of the H beam body 10 to be inserted and fixed, and the first inner contact portion 33, the second gap holding portion 34 And the second inner contact portion 35 is the opposite direction of the first coupling groove 38

A second coupling groove 39 into which the end of the foundation wall 90 is inserted and fixed is formed between the H-beam bodies 10 facing each other is formed, and both the second in the operating space 37 An elastic spring body 80 is provided between the inner contact portions 35, and is inserted into the second coupling groove 39 by pressing the second inner contact portion 35 by the outward pressure of the elastic spring body 80. The end of the wall body 90 and the end of the side plate 12 of the H beam body 10 inserted into the first coupling groove 38 are pressure-fixed, and the fitting member 30 secures airtightness between each other in close contact. For the purpose, the end of the side plate 12 of the H beam body 10 is inserted into the first coupling groove 38 and the end of the wall 90 is inserted into the second coupling groove 39. In the state, the outer contact portion 31, the side plate portion 12 of the H-beam body 10, the first inner contact portion 33, and fastened and fixed by a bolt member 98 penetrating the end of the wall 90 So that the spacer support 72 is protruded on the surface of the joint 14 of the H beam body 10 located in the operating space 37, so that both ends of the spacer support 72 are both second By making each of the inner contacting portions 35 in close contact with each other, the distance between the two second inner contacting portions 35 that face each other is maintained, and both side plate portions 12 of the H-beam body 10 are vertically Doedoe arranged in multiple stages, a pair of vertical wing portions 21 in close contact with the outer surfaces of each boundary portion of the two side plate portions 12 arranged in the multi-stage, and a pair of A sealing member 20 consisting of a horizontal joint 23 connecting the vertical wing 21 is provided, and a plurality of through holes 24 through which soil passes are formed on the horizontal joint 23, The sealing member 20 provides a method for installing a foundation wall of a building, which is characterized in that it is formed of a urethane material, preventing soil inflow and securing construction stability.

According to the present invention described above, there is an effect of preventing the inflow of soil from the outside of the wall by securing the airtightness of the outside and the inside of the wall installed for soil barrier, and preventing the leakage of soil from the inside of the wall.

In addition, there is an effect of securing the stability of construction by increasing the bonding and fixing force between the H-beam body and the wall connected therebetween.

1 is a perspective view showing an example of a perspective implementation of a structure for installing a foundation wall of a building in which soil inflow prevention and construction stability are secured according to the present invention
2 and 3 are exemplary views of a fitting member according to the present invention
4 is an exemplary view illustrating the configuration of an elastic spring body according to the present invention
Figure 5 is an exemplary embodiment of the sealing member according to the present invention
6 and 7 are exemplary diagrams of a modified embodiment of the sealing member according to the present invention
8 and 9 are exemplary views of a fixed support according to the present invention
10 is an exemplary diagram of an embodiment of the upper gap holding member according to the present invention

It will be described in more detail below with reference to the accompanying drawings specific details for the implementation of the present invention.

The present invention secures the outer and inner airtightness of the wall installed for earth protection to prevent the inflow of soil from the outside of the wall, as well as the combination of the H-beam body and the wall connected therebetween and increase the fixing force between them. It relates to a method of installing a foundation soil barrier wall for a building that has secured construction stability and prevention of soil inflow to ensure the stability of the building, and the foundation soil barrier wall installation structure. Referring to FIGS. 1 to 10, the H beam body 10, the fitting member 30 ), including a wall 90 and an elastic spring 80.

The H-beam body 10 for the implementation of the present invention is installed on the ground at regular intervals as shown in FIG. 1, and the H-beam body includes both side plate portions 12 located inside and outside facing the building. , It consists of a joint 14 connecting the vertically between the two side plates 12.

As shown in Fig. 1, the walls 90 are spaced apart between the facing adjacent H beam bodies 10 to be fixed, so that the foundation soil membrane of the building is installed as a wall. In this case, in the present invention, the wall 90 is an H beam body ( A fitting member 30 was provided as a means for fixing to 10).

The fitting member 30 is to be integrally fixed to both ends positioned on one side of the side plate part 12 as shown in FIG. 2. Looking in more detail, the fitting member 30 includes both side plate parts 12 ) An outer contact portion 31 that is in close contact with the outer surface of each end, and a first gap holding portion 32 that is extended and bent inward from the outer contact portion 31 to be in close contact with the rim of the side plate portion 12, and , A first inner contact portion 33 that is extended and bent in parallel with the outer contact portion 31 in the first gap maintaining portion 32 to be in close contact with the inner surface of the side plate portion 12, and the first inner contact portion The second gap holding portion 34 which is extended and bent along the joint 14 at (33) and adheres to the surface of the joint 14, and the first inner contact portion 33 at the second gap holding portion 34 ), the second inner contact portion 35 that is extended and bent in parallel to the second inner contact portion 35 and the ends of the second inner contact portion 35 that face from the second inner contact portion 35 are connected to each other while being parallel to the joint 14 It consists of a joint 36 that is located and the operating space 37 is formed between the joint 14 and the joint.

At this time, the shape of the fitting member 30 is based on the joint 36, the outer contact portion 31, the first gap maintaining portion 32, the inner contact portion 33, the gap maintaining portion 34, and The shape of the second inner contact portion 35 is made to be symmetrical.

”형태로 형성되어 H빔체(10)의 측판부(12) 단부가 삽입 고정되는 제1결합홈부(38)가 형성되고, 상기 제1내측밀착부(33), 제2간격유지부(34) 및 제2내측밀착부(35)는 상기 제1결합홈부(38)의 반대방향인 “

”형태로 형성되어 마주하는 H빔체(10) 사이에 구비되는 기초흙막이 벽체(90)의 단부가 삽입 고정되는 제2결합홈부(39)가 형성되는 것이다.In the fitting member 30, as shown in FIG. 2, the outer contact portion 31, the first gap maintaining portion 32, and the first inner contact portion 33 are “

The first coupling groove 38 is formed in the shape of the side plate portion 12 of the H beam body 10 to be inserted and fixed, and the first inner contact portion 33, the second gap holding portion 34 And the second inner contact portion 35 is the opposite direction of the first coupling groove 38

A second coupling groove 39 is formed in which the end of the foundation soil wall 90 is inserted and fixed to be formed in a shape and provided between the facing H beam bodies 10.

At this time, the fitting member 30 is preferably formed of a urethane material in order to secure airtightness between each other in close contact, but may be used as a general metal material including stainless steel material.

In the state in which the end of the side plate 12 of the H beam body 10 is inserted into the first coupling groove 38 and the end of the wall 90 is inserted into the second coupling groove 39, the outer contact is made. The portion 31, the side plate portion 12 of the H beam body 10, the first inner contact portion 33, and a bolt member 98 passing through the end portion of the wall body 90 is configured to be fastened and fixed.

In order to secure the fitting member 30 in close contact with the end of the side plate 12 of the H-beam body 10, the operation as in FIG. A spacer support 72 is protruded on the surface of the joint 14 of the H-beam body 10 located in the space 37, so that both ends of the spacer support 72 have both second inner contact portions 35 ) May be configured to maintain the gap between the two second inner contact portions 35 facing each other by being in close contact with each of the opposite inner surfaces of the ).

At this time, the spacer support 72 may be formed of a metal material to be welded and fixed on the H beam body 10, and the spacer support 72 is formed of a synthetic resin material such as urethane material to increase mutual airtightness. It can be implemented.

In addition, in order to ensure that the fitting member 30 is more firmly fixed on the H beam body 10, an elastic spring between the second inner contact portions 35 in the operating space 37 as shown in FIG. 2 A sieve 80 is provided, and the end of the wall 90 inserted into the second coupling groove 39 by pressing the second inner contact portion 35 by the outward pressure of the elastic spring body 80, 1 It is configured to press and fix the end of the side plate 12 of the H beam body 10 inserted into the coupling groove 38.

At this time, the elastic spring body 80 is a center zone 81 as shown in FIG. 4 as an embodiment, springs 89 that are respectively seated on both sides of the center zone 81, and the spring 89 It is provided on the outside and consists of a contact table 85 that is in close contact with the inner surface of the facing wall 90.

On the other hand, as another embodiment of the present invention, as shown in FIG. 5, both side plates 12 of the H-beam body 10 are arranged in multiple stages in a vertical direction, respectively, and each boundary portion of the two side plates 12 arranged in multiple stages Sealing consisting of a pair of vertical wings 21 in close contact with the outer surface, and a horizontal joint 23 connecting the pair of vertical wings 21 by penetrating between each boundary of the side plates 12 A member 20 may be provided.

Due to the sealing member 20 like the above structure, it is easy to maintain the gap between the two walls 90, and the boundary between the upper and lower side plates 12, which is a part where the soil, etc., flows into, and blocks the gap. It is possible to prevent the inflow of the back.

In this case, the sealing member 20 may have a horizontal joint 23 formed in a flat plate shape as shown in FIG. 6A, but in this case, the filling material such as concrete filled between the two walls 90 may be upper and lower. Since the flow is difficult, there is a concern that the wall composition is not intact, so to prevent this, a number of through holes 24 through which the soil passes through the horizontal joint 23 are formed on the horizontal joint 23 as shown in Fig. 6(b). This is desirable. In addition, the sealing member 20 is formed of a synthetic resin material such as a urethane material to secure airtightness.

As another embodiment of the sealing member 20, a horizontal joint of the sealing member 20 as in FIG. 7 is not formed as in FIG. 6(b), and instead of the through hole 24 as in FIG. A part of the middle side of (23) can be cut to provide a spaced part (23a). This is a structure in which the sealing member 20 is formed separately so as to be symmetrical on both sides.

On the other hand, as another embodiment of the present invention, adhesion between the wall 90 and the sealing material 20 in a state where the sealing member 20 is provided at the boundary between the upper and lower walls 90 as shown in FIG. 8. In addition to increasing the, in order to firmly maintain the gap between the facing walls 90, an elastic spring body 80 is provided to which an outward pressure is applied to the inner surfaces of the facing walls 90. It was configured to increase the adhesion between the walls 90 and the vertical blades 21 while maintaining the distance between the walls 90 by pressing the walls 90 outward by the elastic spring body 80. .

At this time, the structure of the elastic spring body 80 is the same as that of the structure described above with reference to FIG. 4.

In addition, the elastic spring body 80 is preferably provided to be provided in at least two, the elastic spring body 80 in order to ensure that the elastic spring body 80 is firmly maintained in a fixed position in place. ) Is connected and fixed to the fixing support 60 fixed between the two walls 90.

A more detailed structure of the fixing support 60 is a horizontal support 61 fixed between both walls 90 as shown in FIG. 9, and an elastic spring formed continuously in the vertical upper or lower side of the horizontal support 61. To accommodate and fix the center zone 81 of the body 80, the opening portions 65a and 66a are formed of a first end fixture 65 and a second end fixture 67, respectively.

At this time, the horizontal support 61 must be fixed to the inner surfaces of both walls 90, so that it is formed as a hexahedral body having a quadrangular cross-section so that it is positioned parallel to the inner surface of the wall 90 to face each other. It is preferable to form a groove 93 on the inner side of the wall 90 as shown in FIG. 8 for mutual fixation, and then insert a horizontal support 61 into the groove 93 to fix it.

In addition, it is preferable that the elastic spring body 80 is also inserted and fixed with the contact table 85 of the elastic spring body 80 in the groove 92 formed on the inner surface of the wall 90.

In addition, the horizontal support 61, the first end fixing body 65 and the second end fixing body 67 are connected to each other by a vertical connecting rod 63 so that the position is fixed, and the first end fixing body 65 is an elastic spring. It is preferable that the opening portion (65a) is formed in the left or right direction so that the center zone 81 of the body 80 is inserted in the lateral direction, and the second end fixing body 67 is the elastic spring body 80 It is preferable that the opening portion 66a is formed on the upper end side so that the center zone 81 is inserted from the top to the bottom.

On the other hand, as another embodiment of the present invention, in a state in which the uppermost walls 90 are positioned on a horizontal straight line at the upper end of the H beam body 10 as shown in FIG. 10, the H beam body 10 and both walls In order to maintain the upper end spacing of (90), an upper spacing retainer 90 may be provided.

In order to configure the upper interval holding member 90, first, a concave-in stepped portion 16 is formed at the upper end of the joint portion 14 of the H-beam body 10, and is fitted while being seated in the concave-in stepped portion 16. The upper gap holding member (which has a groove portion 54) and is formed with a vertical support portion 52 that is in close contact with the surface of the joint portion 14 and the inner surface of both walls 90, respectively, on both sides of the receiving groove portion 54 ( 90) was inserted and implemented to be fixed.

In this case, the upper gap holding member 90 is preferably provided with a metal material to perform the gap maintaining function, and although not shown, the upper surface of the yaw stepped portion 16 and the yaw stepped portion 16 facing upward and downward. Each of the protrusions and grooves is formed on the lower surface to further secure mutual fastening and fixing force as a fitting structure, and the upper gap holding member 90 is fixed on the concave stepped portion 16 of the H-beam body 10. There is a need, which can be solved with a structure such as welding or bolting from the top of the top gap holding member 90.

”형태로 형성되어 H빔체(10)의 측판부(12) 단부가 삽입 고정되는 제1결합홈부(38)가 형성되고, 상기 제1내측밀착부(33), 제2간격유지부(34) 및 제2내측밀착부(35)는 상기 제1결합홈부(38)의 반대방향인 “

”형태로 형성되어 마주하는 H빔체(10) 사이에 구비되는 기초흙막이 벽체(90)의 단부가 삽입 고정되는 제2결합홈부(39)가 형성되며, 상기 작동공간부(37) 내의 양 제2내측밀착부(35) 사이에 탄성스프링체(80)가 구비되어, 상기 탄성스프링체(80)의 외향압에 의해 제2내측밀착부(35)를 가압함으로써 제2결합홈부(39)에 삽입된 벽체(90)의 단부와, 제1결합홈부(38)에 삽입된 H빔체(10)의 측판부(12) 단부를 가압고정하도록 하고, 상기 끼움부재(30)는 밀착되는 상호간에 밀폐성 확보를 위해 우레탄 재질로 형성되고, 상기 제1결합홈부(38) 내에 H빔체(10)의 측판부(12) 단부가 삽입되고 상기 제2결합홈부(39) 내에 벽체(90)의 단부가 삽입된 상태에서, 상기 외측밀착부(31), H빔체(10)의 측판부(12), 제1내측밀착부(33) 및 벽체(90)의 단부를 관통하는 볼트부재(98)에 의해 체결 고정되도록 하며, 상기 작동공간부(37) 내에 위치되는 H빔체(10)의 이음부(14) 표면상에 간격지지체(72)를 돌출 형성하여, 상기 간격지지체(72)의 양측단부가 양 제2내측밀착부(35)의 마주하는 내면에 각각 밀착되도록 함으로써 마주하는 양 제2내측밀착부(35) 간의 간격이 유지되도록 하고, 상기 H빔체(10)의 양 측판부(12)는 각각 수직방향으로 다단 배열되어지되, 상기 다단 배열된 양 측판부(12)의 각 경계부 외측면에 밀착되는 한쌍의 수직날개부(21)와, 상기 양 측판부(12)의 각 경계부 사이를 관통하여 한쌍의 수직날개부(21)를 연결하는 수평이음부(23)로 구성되는 밀폐부재(20)를 구비하고, 상기 수평이음부(23) 상에 토사가 통과되는 관통공(24)이 다수 형성되며, 상기 밀폐부재(20)는 우레탄 재질로 형성되도록 하여 이루어지게 한다.The method for installing a foundation soil barrier wall for a building using the foundation soil barrier wall installation structure of the present invention that prevents soil inflow and the construction stability of the present invention as described above, prepares a plurality of H beam bodies 10 vertically installed at regular intervals on the ground, and ; The H-beam body is composed of both side plate portions 12 positioned inside and outside the building facing the building, and a joint portion 14 vertically connecting the side plate portions 12, and of the side plate portion 12 A fitting member 30 integrally fixed to both ends positioned on one side is prepared, and the fitting member 30 includes an outer contact portion 31 that is in close contact with the outer surfaces of the ends of each of the side plate portions 12, A first gap holding portion 32 that is extended and bent inward from the outer contact portion 31 to be in close contact with the rim of the side plate portion 12, and an outer contact portion 31 at the first gap maintaining portion 32 The first inner contact portion 33 that is extended and bent in parallel to the side plate portion 12 to be in close contact with the inner surface, and the first inner contact portion 33 is extendedly bent along the joint 14 to be bent to a joint ( 14) a second gap maintaining portion 34 in close contact with the surface, and a second inner bonding portion 35 that is extended and bent in parallel with the first inner bonding portion 33 in the second gap maintaining portion 34, As the ends of the second inner contact portions 35 facing each other in the second inner contact portion 35 are connected to each other, the operating space 37 is positioned parallel to the joint 14 so that the operating space 37 is formed between the joint 14 and the second inner contact portion 35. Consisting of a joint 36 formed, the outer contact portion 31, the first gap maintaining portion 32, and the first inner contact portion 33 is “

The first coupling groove 38 is formed in the shape of the side plate portion 12 of the H beam body 10 to be inserted and fixed, and the first inner contact portion 33, the second gap holding portion 34 And the second inner contact portion 35 is the opposite direction of the first coupling groove 38

A second coupling groove 39 into which the end of the foundation wall 90 is inserted and fixed is formed between the H-beam bodies 10 facing each other is formed, and both the second in the operating space 37 An elastic spring body 80 is provided between the inner contact portions 35, and is inserted into the second coupling groove 39 by pressing the second inner contact portion 35 by the outward pressure of the elastic spring body 80. The end of the wall body 90 and the end of the side plate 12 of the H beam body 10 inserted into the first coupling groove 38 are pressure-fixed, and the fitting member 30 secures airtightness between each other in close contact. For the purpose, the end of the side plate 12 of the H beam body 10 is inserted into the first coupling groove 38 and the end of the wall 90 is inserted into the second coupling groove 39. In the state, the outer contact portion 31, the side plate portion 12 of the H beam body 10, the first inner contact portion 33, and fastened by a bolt member 98 penetrating the end of the wall 90 So that the spacer support 72 is protruded on the surface of the joint 14 of the H beam body 10 located in the operating space 37, so that both ends of the spacer support 72 are By making each of the inner contact portions 35 in close contact with each other, the distance between the two second inner contact portions 35 facing each other is maintained, and both side plate portions 12 of the H-beam body 10 are vertically aligned. Doedoe arranged in multiple stages, a pair of vertical wing portions 21 in close contact with the outer surfaces of each boundary portion of the two side plate portions 12 arranged in the multi-stage, and a pair of A sealing member 20 consisting of a horizontal joint 23 connecting the vertical wing 21 is provided, and a plurality of through holes 24 through which soil passes are formed on the horizontal joint 23, The sealing member 20 is made to be formed of a urethane material.

According to the method of installing the foundation soil wall for a building with the prevention of soil inflow and the construction stability of the present invention as described above, and the foundation soil barrier wall installation structure, the soil from the outside of the wall is secured by securing the outer and inner sealing properties of the wall installed for soil barrier. In addition to preventing inflow, it is possible to prevent the outflow of soil from the inside of the wall, and in addition, it is possible to secure the stability of construction by increasing the coupling and fixing force between the H-beam body and the wall connected therebetween. do.

The present invention described above has been described with reference to an embodiment shown in the drawings, but this is only exemplary, and various modifications and other equivalent embodiments are possible from those of ordinary skill in the art. Should be clarified. Accordingly, the true technical protection scope of the present invention should be interpreted by the appended claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10: H beam body 12: side plate
14: joint 30: fitting member
31: outer contact portion 32: first gap maintaining portion
33: first inner contact portion 34: second gap maintaining portion
35: second inner contact portion 36: joint
37: operating space 38: first coupling groove
39: second coupling groove 80: elastic spring body
90: wall

Claims (7)

In constructing the installation structure of the foundation wall of a building that prevents soil inflow and secures construction stability,
A plurality of H-beam bodies 10 vertically installed on the ground at regular intervals; The H-beam body is composed of both side plate portions 12 positioned on the inside and outside facing the building, and a joint portion 14 vertically connecting the two side plate portions 12,
A fitting member 30 integrally fixed to both ends positioned on one side of the side plate 12; The fitting member 30 has an outer contact portion 31 that is in close contact with the outer surfaces of the ends of each of the side plate portions 12, and the outer contact portion 31 is extended and bent inward from the outer contact portion 31 to the edge of the side plate portion 12. The first gap maintaining part 32 in close contact with the first gap maintaining part 32, and a first inner contact that is extended and bent in parallel with the outer contact part 31 in the first gap maintaining part 32 to be in close contact with the inner surface of the side plate part 12 A second gap maintaining part 34 which is extended and bent along the joint 14 at the first inner contact part 33 and adheres to the surface of the joint 14, and the second gap is maintained. The second inner contact portion 35 that is extended and bent in parallel with the first inner contact portion 33 in the portion 34 and the second inner contact portion 35 that faces from the second inner contact portion 35 It is composed of a joint 36 that is positioned parallel to the joint 14 while being connected to each other to form an operating space 37 between the joint 14,
The outer contact portion 31, the first gap maintaining portion 32, and the first inner contact portion 33 is “

The first coupling groove 38 is formed in the shape of the side plate portion 12 of the H beam body 10 to be inserted and fixed, and the first inner contact portion 33, the second gap holding portion 34 And the second inner contact portion 35 is the opposite direction of the first coupling groove 38

A second coupling groove 39 is formed in which the end of the foundation soil wall 90 is inserted and fixed, which is formed in a shape and provided between the facing H beam bodies 10,
An elastic spring body 80 is provided between the two second inner contact portions 35 in the operating space 37, so that the second inner contact portion 35 is contacted by the outward pressure of the elastic spring body 80. It includes a configuration to press and fix the end of the wall 90 inserted into the second coupling groove 39 and the end of the side plate 12 of the H beam body 10 inserted into the first coupling groove 38 by pressing The structure of the foundation soil barrier wall installation structure of a building in which soil inflow prevention and construction stability are ensured.
The method of claim 1,
The fitting member 30 is formed of a urethane material to secure airtightness between each other in close contact, and the end of the side plate 12 of the H beam body 10 is inserted into the first coupling groove 38 and the second coupling groove (39) In the state where the end of the wall 90 is inserted, the outer contact portion 31, the side plate portion 12 of the H-beam body 10, the first inner contact portion 33, and the wall 90 The foundation soil wall installation structure of a building with secured soil inflow prevention and construction stability, characterized in that it is configured to be fastened and fixed by a bolt member 98 passing through the end.
The method of claim 2,
The spacer support 72 is protruded on the surface of the joint 14 of the H beam body 10 located in the operating space 37, so that both ends of the spacer support 72 are both second inner contact portions. (35) The foundation soil wall installation structure of a building with secured soil inflow prevention and construction stability, characterized in that it is configured to maintain the gap between the two second inner contact portions 35 facing each other by being in close contact with each of the facing inner surfaces of 35.
The method of claim 3,
Both side plate portions 12 of the H beam body 10 are arranged in multiple stages in a vertical direction, respectively, and a pair of vertical wing portions 21 in close contact with the outer surfaces of each boundary portion of the multi-stage arranged side plate portions 12 and , With a sealing member 20 consisting of a horizontal joint 23 connecting the pair of vertical wing portions 21 by penetrating between the boundary portions of the both side plates 12, and the horizontal joint 23 ) A plurality of through-holes 24 through which the soil passes are formed, and the sealing member 20 is formed of a urethane material.
The method of claim 4,
Both walls 90 are provided with an elastic spring body 80 to which an outward pressure is applied to the inner surfaces of the opposite walls 90, and press both walls 90 outward by the elastic spring body 80. It is configured to increase the adhesion between the wall 90 and the vertical wing part 21 while maintaining the spacing of the wall body 90, and the elastic spring body 80 is a fixed support 60 fixed between the walls 90 Connected to and fixed,
The elastic spring body 80 includes a center zone 81, a spring 89 seated on both sides of the center zone 81, and a wall 90 provided on the outside of the spring 89 and facing each other. Consisting of a contact zone 85 that is in close contact with the inner surface of,
The fixed support 60 is a horizontal support 61 fixed between the two walls 90, and is continuously formed in the vertical upper side or the lower side of the horizontal support 61, and the center zone 81 of the elastic spring body 80 ) To accommodate and fix the foundation of a building with a first stage fixing body 65 and a second stage fixing body 67 each formed with openings 65a and 66a to accommodate and fixing the soil and sand inflow prevention and construction stability. Installation structure.
The method of claim 5,
In a state in which the uppermost walls 90 are positioned on a horizontal straight line at the upper end of the H beam body 10, a concave stepped portion 16 is formed on the joint 14 of the H beam body 10, and ,
It has a receiving groove portion 54 that is fitted while being seated in the concave stepped portion 16, and is in close contact with the surface of the joint 14 and the inner surface of both walls 90 at both sides of the receiving groove portion 54, respectively. Preventing soil inflow and construction stability, characterized in that it is configured to maintain the distance between the upper ends of the H-beam body 10 and both walls 90 by inserting and fixing the upper gap holding body 90 on which the vertical support part 52 is formed. Secured building foundation soil barrier wall installation structure.
In constructing the method of installing the foundation soil barrier wall of a building that has secured soil inflow prevention and construction stability,
To prepare a plurality of H-beam bodies 10 vertically installed at regular intervals on the ground; The H-beam body is composed of both side plate portions 12 positioned on the inside and outside facing the building, and a joint portion 14 vertically connecting the two side plate portions 12,
A fitting member 30 integrally fixed to both ends positioned on one side of the side plate 12 is prepared, and the fitting member 30 is an outer side in close contact with the outer surface of each end of the side plate 12 A close contact part 31, a first gap maintaining part 32 that is extended and bent inward from the outer contact part 31 to be in close contact with the rim of the side plate part 12, and the first gap maintaining part 32 In the first inner contact portion 33 that is extended and bent parallel to the outer contact portion 31 to be in close contact with the inner surface of the side plate portion 12, and the joint 14 at the first inner contact portion 33 A second gap maintaining portion 34 that is bent extended and adhered to the surface of the joint 14, and a second inner side that is extended and bent parallel to the first inner bonding portion 33 in the second gap maintaining portion 34 The contact portion 35 and the end portions of the second inner contact portion 35 facing each other in the second inner contact portion 35 are connected to each other and are positioned parallel to the joint portion 14 to be disposed between the joint portion 14 and the joint portion 14. It consists of a joint 36 in which the operating space 37 is formed,
The outer contact portion 31, the first gap maintaining portion 32, and the first inner contact portion 33 is “

The first coupling groove 38 is formed in the shape of the side plate portion 12 of the H beam body 10 to be inserted and fixed, and the first inner contact portion 33, the second gap holding portion 34 And the second inner contact portion 35 is the opposite direction of the first coupling groove 38

A second coupling groove 39 is formed in which the end of the foundation soil wall 90 is inserted and fixed, which is formed in a shape and provided between the facing H beam bodies 10,
An elastic spring body 80 is provided between the two second inner contact portions 35 in the operating space 37, so that the second inner contact portion 35 is contacted by the outward pressure of the elastic spring body 80. By pressing, the end of the wall 90 inserted into the second coupling groove 39 and the end of the side plate 12 of the H beam body 10 inserted into the first coupling groove 38 are pressed and fixed,
The fitting member 30 is formed of a urethane material to secure airtightness between each other in close contact, and the end of the side plate 12 of the H beam body 10 is inserted into the first coupling groove 38 and the second coupling groove (39) In the state where the end of the wall 90 is inserted, the outer contact portion 31, the side plate portion 12 of the H-beam body 10, the first inner contact portion 33, and the wall 90 It is to be fastened and fixed by a bolt member 98 penetrating through the end portion, and the spacing support 72 is protruded on the surface of the joint 14 of the H beam body 10 located in the operating space 37, By ensuring that both side ends of the spacer support 72 are in close contact with the opposite inner surfaces of the second inner contacting portions 35, the distance between the two second inner contacting portions 35 that face each other is maintained, and the H beam body ( Both side plate portions 12 of 10) are arranged in multiple stages in a vertical direction, respectively, and a pair of vertical wing portions 21 in close contact with the outer surfaces of each boundary portion of the multi-stage arranged side plate portions 12, and the both side plates It includes a sealing member 20 consisting of a horizontal joint 23 connecting a pair of vertical wing portions 21 through each boundary portion of the portion 12, and the soil on the horizontal joint 23 A plurality of through-holes 24 through which are passed are formed, and the sealing member 20 is formed of a urethane material.

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