KR20190051267A - Double wall structure using horizental connector and construction method therefor - Google Patents

Abstract

The present invention relates to a double wall structure using a horizontal connector and a construction method thereof, which can more safely and quickly construct a double wall structure. The double wall structure using a horizontal connector is integrally manufactured by depositing concrete in a space between an external side wall and an internal side wall, and a fixing groove is formed on an internal side surface of the external side wall and the internal side wall in advance. Moreover, after a fixing port having a block shape inserted into the fixing groove is formed to be installed on an end portion surface of the horizontal connector, concrete is deposited in a space between the external side wall and the internal side wall for the horizontal connector to be embedded therein.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a double wall structure using a horizontal connection,

The present invention relates to a double wall structure using a horizontal connector and a construction method thereof. More particularly, the present invention relates to a double-wall structure using a horizontal connection structure which is constructed with a double-wall structure and safer and quicker construction, and a construction method thereof.

FIG. 1A shows a construction cross-sectional view of a conventional double wall structure.

That is, the outer wall 20 and the inner wall 10 are formed as precast vertical walls,

The lattice root 40 is formed so as to protrude from one side surface of the inner wall 10 and the outer wall 20,

It can be seen that the concrete 30 is laid in such a manner that the lattice roots 40 between the outer wall 20 and the inner wall 10 are embedded and integrated with each other.

At this time, the outer wall 20 and the inner wall 10 are independently installed so as to face each other with the lattice roots 40 facing each other. In order to restrain each other, a horizontal connection bolt 22 exposed at the front of the outer wall 20 In addition,

It can be seen that a bracket 23 is integrally formed at the lower end of the outer side wall 20 and the inner side wall 10 at the lower ends of the outer side wall 20 and the inner side wall 10 to prevent the breakage, 23) are fixed to the floor by fixing bolts.

However, in the double wall structure according to FIG. 1A, workability can be ensured especially for the installation of the horizontal connection bolts 22, however, a cross-sectional loss of the outer wall 20 is generated and the outer wall 20 and the inner wall 10 The manufacturing cost of the outer wall 20 and the inner wall 10 is increased by manufacturing the bracket 23 integrally.

The conventional double wall structure as shown in FIG.

The outer wall 20 and the inner wall 10 are connected to each other by using the inner connection reinforcing bar 31 without any loss in cross section and the outer wall 20 and the inner wall 10 are connected to each other, The support pillars 24 are formed at the lower ends of the protrusions 24a and 24b to prevent conduction.

However, since the space between the outer side wall 20 and the inner side wall 10 is very narrow as a work space, there is a problem that workability of the inner connection reinforcing rib 31 may be very low.

In the conventional double wall structure according to FIG. 1C, the double walls 10 and 20 are manufactured in the factory by using the connecting truss 32, the bracket 33 is formed at the lower end of the double wall, ) Is inserted into the space. At this time, it can be seen that the support can be used to prevent the fall.

However, manufacturing of the double walls 10, 20 in the factory by using the connection truss 32 is disadvantageous in terms of manufacturing cost because the corresponding factory facilities are required.

As a result, it can be seen that there is a lot of room for improvement in connection with the connection and the preventing means for restraining the outer wall and the inner wall in the manufacturing and construction of the conventional double wall structure.

Korean Patent No. 10-1193895 (Title: Anchor wall structure combined with precast concrete member and site-laid concrete and method of constructing the wall structure structure, publication date: November 01, 2006) Korean Patent No. 10-1630235 (Name of the invention: Method of constructing a PC truss wall structure with enhanced safety and method of constructing an underground structure using the same, date of publication: June 14, 2016) Korean Patent No. 10-1301076 (Title of the invention: Method of constructing a wall structure using a precast front wall and a back wall, published on Sep. 03, 2013)

Accordingly, it is an object of the present invention to provide a double wall structure having outer side walls and inner side walls, in which the spaces between the outer side walls and the inner side walls are constrained to each other in a lateral direction And to provide a double wall structure using a horizontal connector that can be easily connected in a longitudinal direction of the structure, and a method of constructing the same.

In order to achieve the above object, a double wall structure using a horizontal connector

The present invention relates to a double wall structure in which concrete is placed in a space between an outer wall and an inner wall to integrally form a fixing groove on the inner wall of the outer wall or the inner wall and a block type fixing member inserted into the fixing groove on the end face of the horizontal connection And then the concrete is placed in the space between the outer wall or the inner wall so that the horizontal connector is embedded.

The conduction preventing means according to the present invention can be divided into a lower portion and an upper portion, and the conduction prevention can be prevented when the concrete is poured, thus making it possible to construct a more stable wall structure.

In addition, the outer side wall and the inner side wall of the present invention are easily confined to each other by using a horizontal connection, so that a double wall structure can be constructed while ensuring workability and workability.

Further, according to the present invention, the outer side wall and the inner side wall can be structurally and simply connected to each other in the longitudinal direction, thereby enabling rapid construction.

FIGS. 1A, 1B and 1C are diagrams illustrating examples of construction of a double wall structure using a conventional outer wall and an inner wall;
FIGS. 2A, 2B and 2C are perspective views of a double wall structure using a horizontal connector according to the present invention,
FIG. 3 is a perspective view of a device for preventing a double wall structure from falling by using a horizontal connector according to the present invention. FIG.
FIGS. 4A, 4B and 4C are perspective views illustrating a longitudinal connection structure of a double wall structure using a horizontal connector according to the present invention,
5 is a view illustrating a construction procedure of a double wall structure using a horizontal connector according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as " comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

[Double wall structure using the horizontal connector of the present invention]

(Horizontal restraint of the outer wall 100a and the inner wall 100b)

FIGS. 2A, 2B and 2C illustrate a perspective view of a dual wall structure 100 using a horizontal connector 200 of the present invention.

In FIG. 2A, the double wall structure 100 using the horizontal connector 330 of the present invention can be identified.

That is, in arranging the outer side wall 100a and the inner side wall 100b so as to face each other and restricting each other,

It can be said that the outer wall 100a and the inner wall 100b are constrained to each other by using the horizontal connector 200 and can be easily operated in the space S1 between the outer wall 100a and the inner wall 100b .

The outer side wall 100a and the inner side wall 100b are formed as a precast concrete vertical plate, but they may be manufactured integrally with a reinforcing material such as a lattice root.

The outer side wall 100a and the inner side wall 100b are integrally formed by placing the concrete C in the interspace S1 so that the side wall 100a and the inner side wall 100b are connected to each other by a horizontal connection member 200) is used.

It can be seen that the horizontal connector 200 is formed using concrete as a transverse member previously formed on inner side surfaces of the outer side wall 100a or the inner side wall 100b facing each other.

First, as shown in FIG. 2A, it can be seen that the horizontal connector 200 is a concrete member extending in the transverse direction at the edges of the outer wall 100a or the inner wall 100b as a rod member 210 having a rectangular cross section. The horizontal connector 200 is referred to as a rod member.

The rod-shaped horizontal connector 200 has a fixing groove formed on the inner surface of the outer wall 100a or the inner wall 100b in advance and a block-shaped fixing member inserted into the fixing groove on the end surface of the horizontal connector 200 The concrete structure C is placed in the space S1 between the outer wall 100a or the inner wall 100b so that the horizontal connection hole 200 is embedded in the double wall structure 100 using the horizontal connection .

As a result, it is possible to simplify the construction of the horizontal connector 200, which is a rod member, and the number of the horizontal connector 200 can be adjusted, thereby ensuring economical efficiency and workability.

Next, as shown in FIG. 2B, a concrete member extending laterally to the corners of the plurality of vertical plates 220 is sandwiched between the inner side surfaces of the outer side wall 100a or the inner side wall 100b, ). ≪ / RTI > This horizontal connector 200 is referred to as a vertical plate.

The vertical plate-shaped horizontal connector 200 may have a fixing groove formed in the inner surface of the outer wall 100a or the inner wall 100b in advance and a block-shaped fixing member inserted into the fixing groove on the end surface of the horizontal connector 200 The double wall structure 100 using the horizontal connector is manufactured by placing the concrete C in the space S1 between the outer wall 100a or the inner wall 100b so that the horizontal connector 200 is buried do.

When the horizontal connector 200 is used as the vertical plate, the vertical plate is continuously formed over the entire height of the outer wall 100a or the inner wall 100b to improve the support performance between the inner side surfaces of the outer side wall 100a or the inner side wall 100b And a large number of through holes 230 are formed in the vertical plate when the concrete C is poured.

The vertical plate-like horizontal connector 200 is particularly advantageous when the space between the inner side surfaces of the outer side wall 100a or the inner side wall 100b is large.

Next, as shown in FIG. 2C, a rod member type and a vertical plate type horizontal connector 200 are formed in combination between the inner side surfaces of the outer side wall 100a or the inner side wall 100b. In this configuration, a vertical connection member 200 is formed between the inner wall of the outer wall 100a and the inner wall 100b at the corner thereof and the vertical connection member 200 is formed on the inner wall of the corner, thereby integrating the outer wall 100a or the inner wall 100b It can be said that it is a very advantageous form.

[An apparatus for preventing a double wall structure from falling (400)]

FIG. 3 is a perspective view illustrating an apparatus 400 for preventing a double-wall structure using a horizontal connector according to the present invention.

The double wall structure 100 according to the present invention exhibits its function as a conduction waterproofing function and a preventive force adjusting means according to the height of the double wall structure 100. [

Referring to FIG. 3, it can be seen that the double-walled structure 100 is constructed.

The double wall structure 100 refers to a state in which the outer wall 100a and the inner wall 100b are integrated by concrete or each of the outer wall 100a and the inner wall 100b.

Referring to FIG. 3, since the double wall structure 100 has a predetermined height, the size of the conduction moment differs for each of the double wall structures 100.

In order to prevent the lateral wall of the double wall structure 100 from being conducted, the present invention is characterized in that an angle member 410 extending laterally from the upper surface of the double wall structure 100 is fixed,

That is, on the upper surface of the double wall structure 100, the upper surface horizontal portion 411 of the angle member 410 is fixed by using a fixed anchor,

A side vertical portion 412 of the angle member is provided on the side surface of the double wall structure 100 so as to be fixed while changing the position of the upper end of the inclined rod 420. In the side vertical portion 412, The upper end of the slanting rod 420 is sandwiched between the support portions so that the fastening bolt 413 passes through the upper ends of the slanting rods 420 and the vertical supports.

The lower end of the slanting rod 420 may be integrally fixed to the upper surface of the support member 430. The slanting rod 420 may be formed of a steel scaffold commonly used in the field, And can be temporarily fixed to the floor using an anchor which is not shown.

Further, according to FIG. 3, the angle member 410 and the slanting rod 420 serve to support the upper end of the double wall structure 100 from the side.

However, since the concrete insertion pressure is generated also at the lower end of the double wall structure 100, the present invention uses the lower end turn preventing device using the hydraulic jack 451. [

In this case, a bottom end preventing device for supporting between the lower end of the double wall structure 100 and the upper surface of the floor is provided before the concrete is installed in the state where the double wall structure 100 is initially installed on the floor, 452 and the horizontal portion 453 are hingedly connected at right angles to adjust the vertical portion 452 to be in close contact with the front surface of the double wall structure 100,

The horizontal portion 453 is fixed to the floor,

The horizontal portion 453 and the vertical portion 452 are configured to secure a supporting force by an inclined member (or a turnbuckle) 454 to facilitate installation and support,

And a hydraulic jack 451 is further provided between the jack bracket 455 and the front surface of the double wall structure 100 so that the hydraulic jack 451 can be supported by the hydraulic pressure However, it is finally recovered.

The use of such a hydraulic jack 451 can prevent conduction of the double wall structure 100 due to an unexpected acting load (to generate a conduction preventing force as a jack) and can prevent conduction of the double wall structure with the slope rod 420 It is possible to reliably prevent a safety accident caused by

[Longitudinal connection of double wall structure 100]

Figs. 4A and 4B show a longitudinal connection structure of the double wall structure of the present invention. Fig.

The double wall structure 100 of the present invention is installed to construct a double wall structure such as a storage tank structure. The double wall structure 100 integrates the outer wall and the inner wall by concrete casting. The outer wall and the inner wall are precast And is made to have a certain height and width so as to be advantageous for transportation and installation.

Accordingly, a plurality of outer side walls and inner side walls are required to be connected to each other in the longitudinal direction. The outer side wall and the inner side wall manufactured by the precast method can use various methods such as a front end groove, a non-shrinkage mortar, and a fixing nut.

However, since it is not a method that can be connected and installed easily in the construction process, the workability is inevitably lowered.

Therefore, the present invention uses two methods.

First, as shown in FIG. 4A, the front end groove 510 is formed on one side of the outer side wall or the inner side wall to be exposed. It is understood that the vertical insertion groove 520 is formed under the exposed front end groove 510.

A front end block 530 is formed on the other side of the outer side wall and the inner side wall so that the front end block 530 of the outer side wall and the inner side wall adjacent to the dedicated groove 510 of the installed outer side wall and the inner side wall is horizontally inserted The adjacent outer wall and the inner wall are lowered so that the front end block 530 is naturally inserted into the vertical insertion groove 520 so that the double wall structure 100 can be connected in the longitudinal direction.

Second, as shown in FIG. 4B, a front end groove 510 is also formed on one side of one side outer wall and inner side wall. It can be seen that a vertical latching groove 550 is formed under the exposed front end groove 510.

The shear grooves 510 are exposed on the other side surfaces of the outer and inner walls so that the shear grooves 510 are exposed and the shear grooves 560 are exposed. The rotating hook 570 is positioned inside the front end groove 510 and the front end groove 510 of the outer wall and the inner wall adjacent to the dedicated groove 510 of the installed outer wall and the inner wall are communicated with each other, So that the rotating hook 570 is hooked on the vertical hooking groove 550 to allow the double wall structure 100 to be connected in the longitudinal direction.

Accordingly, the vertical hooking groove 550 may have a position and a shape that can be hooked when the rotating hook 570 is engaged with the front end groove 510, and the vertical hooking groove may be formed as an opening in consideration of the rotation error.

The fixed reinforcing bars 560 are arranged to be horizontally inserted into the front end grooves 510 and may be pulled out through a pipe embedded in the outer and inner walls so as to be rotatable.

4b, the loop hook 570 is used to expose a loop reinforcement bent in a semicircular shape horizontally in the inside of the front end groove 510, and the loop reinforcement 580 is rotated It is also possible to connect them by hanging them.

[Method of constructing the double wall structure using the horizontal connector 330 of the present invention]

FIGS. 5A and 5B illustrate a construction procedure of a double wall structure using a horizontal connector according to the present invention.

At this time, the double wall structure 100 is constructed such that the floor is installed first like a storage tank structure, and the double wall structure 100 is connected to have a certain lengthwise direction on the upper surface of the floor.

The bottom of the bottom of the storage tank structure is firstly constructed using a cast concrete, etc.

When the bottom plate 610 is completed, the column structure 620 is first applied to the bottom plate 610 so as to extend upward, and the top plate 630 is installed between the upper ends of the column structure 620. Of course, it is of course possible to construct the top plate without installing the post structure 620.

Also, the double wall structure 100 of the present invention is installed between the column structures 620.

5a, the outer side wall 100a and the inner side wall 100b of the bottom plate 610 and the column structure 620, which have been previously constructed, are connected to each other in the longitudinal direction.

That is, the bottom plate 610 is formed in such a manner that the bottom plate 610 is formed to have a predetermined thickness with the cast concrete placed on the ground, and the column structure 620 spaced apart from each other on the upper surface of the bottom plate 610 is extended upward,

The extended length of the double-walled structure 100 is constructed such that a plurality of outer side walls and inner side walls are longitudinally connected to each other in accordance with the extended length between the columnar structures.

As shown in FIG. 5, the connecting operation in the longitudinal direction can be performed while the front end block 530 is inserted into the vertical insertion groove 520 of the front end groove 510 formed in the outer and inner walls,

The rotation hooks 570 may be hooked to the vertical hooking grooves 550 in a state in which the front end grooves 510 formed on the outer and inner walls are in communication with each other.

As shown in FIG. 5B, when the double wall structure 100 is connected between the plurality of column structures 620, the bottom plate and side walls of the storage tank structure A are all completed.

The upper plate is completed by mounting the precast upper plate 630 while supporting the both ends of the girder between the upper ends of the column structure 620 so that the storage vessel structure A in which the storage space S2 is formed can be constructed .

This storage structure (A) may be buried in the ground or the top surface of the top plate may be exposed.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: double wall structure
100a: outer side wall 100b: inner side wall
110: insert hole 120: horizontal groove
200: horizontal connector 210: rod member
220: vertical plate 230: through hole
400: anti-falling device 410: angle member
411: upper surface horizontal part 412:
420: slant bar 430: support member
451: Hydraulic jack 452: Vertical section
453: Horizontal part 454: Turnbuckle
455: Jack bracket
510: shear groove 520: vertical insertion groove
530: Shearing block 550: Vertical locking groove
560: rotating bar 570: rotating hook
610: bottom plate 620: column structure
630: Top plate A: Storage structure
S1: space S2: storage space
C: Concrete

Claims (9)

In a double wall structure 100 manufactured by casting concrete C in a space S1 between an outer wall 100a and an inner wall 100b,
A fixing groove is formed in the inner surface of the outer wall 100a or the inner wall 100b in advance and a block type fixture inserted into the fixing groove is formed on the end surface of the horizontal coupling hole 200. Then, Is formed by placing concrete (C) in the space (S1) between the outer wall (100a) or the inner wall (100b) so as to be filled with the concrete. The method according to claim 1,
The horizontal connector (200)
A horizontal connector formed in a vertical plate shape formed to extend vertically between the inner side surfaces of the outer side wall 100a or the inner side wall 100b or a bar member type formed to extend between the corners of the outer side wall 100a or the inner side wall 100b Double Wall Structures Using. The method according to claim 1,
The horizontal connector (200)
A horizontal connector formed in a vertical plate shape extending upwardly and downwardly between a rod member formed to extend between the corners of the outer wall 100a or the inner wall 100b and an inner surface of the outer wall 100a or the inner wall 100b Double walled structures used together. The method according to claim 1,
The double-walled structure (100)
The turnover prevention device 400 is further provided, and the turnover prevention device 400
A top surface horizontal portion 411 fixed to the top surface of the double wall structure 100; And an angle member (410) extending laterally from an upper surface of the double wall structure (100), including side supporting portions (412) extending from the upper surface horizontal portion (411) to a side surface of the double wall structure. And
The fastening bolts 413 penetrate the upper ends of the sloping rods 420 and the both side supporting portions 412 in a state where the upper ends are sandwiched between the vertical supporting portions formed to face each other on the sloping side supporting portions 412, A double wall structure using a horizontal connector comprising an inclined bar (420) to be fixed. 5. The method of claim 4,
A lower end turn preventing device for supporting between the lower end of the double wall structure 100 and the upper surface of the floor is further provided on the upper surface of the floor,
The vertical portion 452 and the horizontal portion 453 are hingedly connected at a right angle so that the vertical portion 452 is in close contact with the front surface of the double wall structure 100. The horizontal portion 453 and the vertical portion 452 A jack bracket 455 is provided on the upper surface of the horizontal portion and a hydraulic jack 451 is provided between the jack bracket 455 and the front surface of the double wall structure 100 so as to secure the hydraulic jack 451 Of the double wall structure using the horizontal connection for supporting by hydraulic pressure. (a) providing the outer side wall 100a and the inner side wall 100b so as to face each other to be formed in the interspace S1;
(b) forming a fixing groove in advance in the inner side surface of the outer side wall 100a or the inner side wall 100b, and forming and fixing a block type fixing member inserted into the fixing groove on the end face of the horizontal coupling member 200; And
(c) placing the concrete (C) in a space (S1) between the outer wall (100a) and the inner wall (100b) connected to each other by the horizontal connector (200) Construction method of wall structure. The method according to claim 6,
The double wall structure 100 of step (a) is further provided with an anti-reflection device 400,
The anti-reflection device 400 includes a top surface horizontal portion 411 fixed to the upper surface of the double wall structure 100; And an angle member (410) extending laterally from an upper surface of the double wall structure (100), including side supporting portions (412) extending from the upper surface horizontal portion (411) to a side surface of the double wall structure. And the upper bolt 413 is passed through the upper ends of the sloping rods 420 and the side supporting portions 412 in such a manner that the upper end is sandwiched between the two vertical supporting portions formed on the side supporting portions. And a slanting rod (420)
The lower end portion of the bottom wall of the double wall structure 100 is provided with a bottom end preventing device for supporting the lower end of the double wall structure 100 between the bottom end and the top of the bottom wall. The vertical wall 452 is in close contact with the front surface of the double wall structure 100. The jack wall 455 is provided on the upper surface of the horizontal wall and the hydraulic jack 455 is provided between the jack wall 455 and the front surface of the double wall structure 100, (451) so that the hydraulic jack (451) can be supported by the hydraulic pressure. The method according to claim 6,
Between the step (b) and the step (c)
The double wall structures 100 using horizontal connectors are connected to each other in the longitudinal direction,
A front end groove 510 is formed on one side of one side outer wall and an inner side wall so that a vertical insertion groove 520 is formed under the exposed front end groove 510,
A front end block 530 is formed on the other side of the outer side wall and the inner side wall so that the front end block 530 of the outer side wall and the inner side wall adjacent to the installed outer side wall and the dedicated groove 510 of the inner side wall are horizontally inserted, The method for constructing a double wall structure using a horizontal connector for lowering an outer wall and an inner wall so that the front block (530) is inserted into a vertical insertion groove (520) to connect the double wall structure (100) in the longitudinal direction. The method according to claim 6,
Between the step (b) and the step (c)
The double wall structures 100 using horizontal connectors are connected to each other in the longitudinal direction,
The front end groove 510 is exposed on one side of one side outer wall and the inner side wall and the exposed loop reinforcing bar 580 or the vertical hooking groove 550 is formed under the exposed front end groove 510,
The shear grooves 510 are exposed on the outer side wall and the other side walls of the inner side wall so that the shear grooves 510 are exposed and the shear grooves 510 are exposed. The rotation hook 570 is positioned inside the front end groove 510 and the front end grooves 510 of the outer wall and the inner wall adjacent to the dedicated groove 510 of the previously installed outer wall and the inner wall are communicated with each other, The horizontal hooks 570 are hooked to the loop reinforcements 580 or the vertical hooking grooves 550 by rotating the rotating reinforcing bar 560 extending outward so that the double wall structure 100 is connected in the longitudinal direction, A method of constructing a double wall structure using.

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