KR20220139744A - Construction structure of concrete wall with insulation material - Google Patents

Abstract

The present invention relates to a construction structure of a concrete wall with insulation materials. More specifically, provided is a construction structure of a concrete wall with insulation materials, wherein the load of stacked insulation materials can be supported, deformation of and damage to the insulation materials can be prevented during a construction process, and a gap between inner and outer insulation materials can be supported firmly while being supported. The present invention can support a load applied to the insulation materials by inserting a steel wire horizontally between the high stacked insulation materials, can increase the strength to maintain the combined state without distortion, and can prevent deformation of and damage to the insulation materials even if the insulation materials are stacked high. In addition, the present invention can allow a steel wire installed on the inner and outer insulation materials and vertical and horizontal iron reinforcing rods configured on a concrete wall to be installed while intersecting with each other using a spacing maintaining plate, thereby integrating the same with the concrete wall to support the concrete wall and increasing the strength of supporting the stacked insulation materials.

Description

Construction structure of concrete wall with insulation material

The present invention relates to a construction structure of a concrete wall composed of an insulating material, and more specifically, it can support the load of the laminated insulating material, can prevent deformation and damage of the insulating material during the construction process, It is to provide a construction structure of a concrete wall composed of an insulating material that can be maintained and supported firmly at the same time.

In the construction structure of a general concrete wall, the formwork is installed on the inside and outside, and the reinforcing bar is installed between the formwork and the formwork, and then the concrete is poured to construct the concrete wall.

After the concrete wall is constructed, it is necessary to remove the inner and outer formwork and install the insulating material, but recently, to solve this problem, an insulating material is used instead of the formwork so that the concrete wall can be constructed between the insulating materials. Korean Patent Publication No. 10-2108621 and Korean Utility Model Publication No. 20-0440000 are provided.

In the prior art, in order to provide a thermal insulation effect, a concrete wall is constructed by installing an insulating material made of Styrofoam on the inside and outside, connecting the inner and outer insulation with a connecting piece or a support spacer, and then pouring concrete. It is fixed to the concrete wall by a connecting piece or a support spacer, and is configured to be laminated by inserting insulation materials up and down at a height of about 2m50 to construct a concrete wall, but the insulation made of Styrofoam is weak in strength, so Due to the weight of the reinforcing bars and the weight of the laminated concrete, the insulation could not be supported and the shape of the insulation was deformed or damaged, so there was a problem that the insulation had to be replaced or reconstructed.

And, among the prior art, in the construction structure in which reinforcing bars are placed vertically in the laminated insulation material, the side seam of the insulation material and the adjacent insulation material are not in close contact and are often constructed spaced apart. There is a problem that can be lost or damaged, and the other problem is that the worker must put it into the inside of the insulation accurately vertically, but because the force to press the rebar is not constant, it has to go into the inside of the insulation at an angle during work and work again, or the insulation material is damaged during construction There was a problem in construction that had to be replaced with a new one and work again.

KR 10-2108621 B1 2020.05.07. KR 20-0440000 Y1 2008.05.19.

Accordingly, the present inventor has researched and developed to solve the problems of the construction structure of the concrete wall, and in the present invention, the insulation made of Styrofoam can be prevented from being deformed or damaged in the process of constructing the concrete wall, and the upper and lower to increase the strength of the laminated insulation, increase the strength of the side joint of the insulation and the adjacent insulation, maintain the space where the concrete wall is to be formed, and provide strong support for the concrete The present invention has been completed with a technical problem in providing a construction structure of a wall.

In the present invention as a means for solving the problem, a concrete wall constructed by installing horizontal and vertical reinforcing bars and then pouring concrete; Constructed inside the concrete wall, a '+' shape is connected in the longitudinal direction on the lower surface to form a protruding fitting protrusion, and on the upper surface, an insertion groove is formed in the longitudinal direction at the center corresponding to the lower surface, the Gap maintaining plate insertion grooves are formed at regular intervals on both sides of the insertion groove, and at the lower ends of both sides of the insertion groove, the insulating material with fitting grooves is connected left and right to match the length of the concrete wall so that the steel wire can be inserted along the insertion groove. and an inner insulation layer stacked up and down to match the height of the concrete wall; It is configured on the outside of the concrete wall, and a '#' shape is formed on the lower surface to form a protruding fitting protrusion, and an insertion groove is formed in the center in the longitudinal direction to correspond to the lower surface on the upper surface, and the Gap maintaining plate insertion grooves are formed at regular intervals on both sides of the insertion groove, and at the lower ends of both sides of the insertion groove, the insulation material with fitting grooves is connected to the left and right to match the length of the concrete wall so that the steel wire can be inserted along the insertion groove. And an outer insulation body laminated up and down to match the height of the concrete wall; In order to form a concrete wall between the inner and outer insulators and to maintain the gap, the inserted steel wire holds the fitting grooves of the inner and outer insulators formed on the upper surface of the insulator laminated on the inner and outer insulators, respectively. It is seated and coupled to the spacing plate insertion groove while giving it, and a rebar seating groove formed in the middle part so that the horizontal reinforcing bar constructed in the concrete wall can be seated and supported, and the reinforcing bar seating groove formed in the middle part and inserted into the insulation material at both ends and wrapped around the steel wire to support it Consists of including; spacing plate composed of a pressing piece.

As another problem solving means, in the present invention, the steel wire is made of a wire having a thickness of 3 to 10 mm, and is cut to a predetermined length and used.

As another problem solving means, in the present invention, the spacing plate is a thin steel plate, and the width is smaller than that of the spacing plate insertion groove.

As another problem solving means, the end of the pressing piece in the present invention is formed to be inclined diagonally.

As another problem solving means in the present invention, a '+' shape on the lower surface of the inner insulator and a '#' shape on the lower surface of the outer insulator are respectively connected in the longitudinal direction to the fitting protrusion formed in the connection portion of each shape. An air outlet is formed to form a trough in the transverse direction so that the upper surface and the lower surface can be smoothly coupled.

As another problem solving means in the present invention, when the steel wire on one side of the corner is lengthened to the outer insulation body at the corner of the inner insulation body in the present invention, the cross section of the steel wire on the other side touches the steel wire on the one side and ends short, and the steel wire on the inner insulation body on the upper layer is In the lower layer, the corners with long steel wires are shortened, and the shorter corners are made of longer steel wires, so that the steel wire treatment of the corners can be crossed for each layer on the inner insulation, so that it can be fixed and stably supported with the concrete wall.

The construction structure of the concrete wall composed of the unitary material of the present invention provides the following effects.

- It is possible to increase the strength that the laminated insulation can support by the horizontally combined steel wire.

- Even if the insulation material is stacked high, it provides the effect of preventing the appearance of deformation or damage.

- By composing a spacing plate, horizontal reinforcing bars can be inserted and supported, and the concrete wall and inner and outer insulation are integrated to provide the effect of firmly fixing.

- By installing the steel wire horizontally on the insulation material and the adjacent insulation material, the joint part can be fixed and installed firmly and closely, and it provides the effect of increasing the strength to support the load applied from the upper part.

1 is a view showing the construction structure of a concrete wall;
2 is a plan view showing the construction structure of a concrete wall;
3 is a plan view showing a corner part of the construction structure of a concrete wall;
4 is an exploded view showing the construction structure of a concrete wall;
5A and 5B are views of an insulator used as an inner insulator;
6A and 6B are views of an insulating material used as an outer thermal insulator;
7 is a view showing a state in which a gap maintaining plate is coupled to an insulating material;
8 is a plan view showing a state in which a space maintaining plate is coupled to an insulating material;
9 is a cross-sectional view showing a state in which a gap maintaining plate is coupled to an insulating material;
10 is a view showing an embodiment of the spacing plate
11 is a view showing a state in which a steel wire is installed on the laminated insulating material;

Hereinafter, in conjunction with the accompanying drawings in the embodiments of the present invention, the technical solutions in the embodiments of the present invention will be clearly and completely explained. Of course, it is obvious that the described embodiments are merely preferred embodiments of the present invention, and not all embodiments. According to the embodiment of the present invention, all other embodiments obtained by a person skilled in the art without creative labor fall within the protection scope of the present invention.

1 is a view showing the construction structure of a concrete wall, FIG. 2 is a plan view showing the construction structure of the concrete wall, and FIG. 3 is a plan view showing a corner part of the construction structure of the concrete wall. , Figure 4 is an exploded view showing the construction structure of the concrete wall.

Hereinafter, the configuration of the present invention will be described in detail based on the accompanying drawings.

The present invention is a structure for constructing a concrete wall composed of a heat insulator, and a horizontal reinforcing bar ( It consists of a concrete wall 130 constructed by pouring concrete after installing 130a) and vertical reinforcing bars 130b.

5A and 5B are views of an insulator used as an inner insulator, and FIGS. 6A and 6B are views of an insulator used as an outer insulator.

The insulator 200 has a thickness of 60 mm when used as the inner insulator 110, and when used as the outer insulator 120, it is used by making the thickness of 120 mm to block outside air, and generally provides a thermal insulation effect. It is made of Styrofoam so that it can be used, and it can be made of glass foam if necessary, and a '+' shape is connected in the longitudinal direction to the lower surface of the inner heat insulator 110 and a protruding fitting protrusion 210a is formed, and the upper surface is formed. The insertion groove portion 220a is formed in the center in the longitudinal direction to correspond to the lower surface, and the spacing plate insertion groove 222a is formed at regular intervals on both sides of the insertion groove portion 220a. Fitting grooves 221a are formed at both lower ends of the insertion groove 220a so that the steel wire 300 can be inserted along the insertion groove 220 .

On the lower surface of the outer insulator 120, the '#' shape is connected in the longitudinal direction to form a protruding fitting protrusion 210b, and the upper surface has an insertion groove 220b in the longitudinal direction in the center to correspond to the lower surface. is formed, and a gap maintaining plate insertion groove (222b) is formed at regular intervals on both sides of the insertion groove portion (220b). Fitting grooves 221b are formed at both lower ends of the insertion groove 220b so that the steel wire 300 can be inserted along the insertion groove 220b.

A '+' shape on the lower surface of the inner insulator 110 and a '#' shape on the lower surface of the outer insulator 120 are respectively connected in the longitudinal direction to the fitting protrusions 210a and 210b of the respective shapes. Air outlets 223a and 223b are formed in the connection portion to form a trough in the transverse direction so that the upper surface and the lower surface can be smoothly coupled.

The steel wire 300 is made of wire having a thickness of 3 to 10 mm, cut to a predetermined length and used, and the steel wire 300 is inserted into the fitting grooves 221a and 221b formed on both inner sides of the insertion grooves 220a and 220b. All of them can be fitted, or only one side can be fitted as needed.

7 is a view showing a state in which the spacing plate is coupled to the insulating material, FIG. 8 is a plan view showing a state in which the spacing plate is coupled to the insulating material, and FIG. 9 is a state in which the spacing plate is coupled to the insulating material A cross-sectional view is shown.

The gap maintaining plate 400 is a heat insulator 200 laminated on the inner and outer insulators 110 and 120 so that the concrete wall 130 is formed between the inner and outer insulators 110 and 120 and the gap is maintained. ) while holding the steel wire 300 inserted into the fitting groove 221a of the inner insulator and the fitting groove 221b of the outer insulator formed on the upper surface of the spacer plate insertion grooves 222a and 222b, they are seated and coupled. The width of the thin steel plate is made slightly smaller than the spacing plate insertion grooves 222a and 222b, and the reinforcing bars formed in the middle part are seated so that the horizontal rebar 130a configured in the concrete wall 130 can be seated and supported. It is composed of a groove 410 and a pressing piece 420 that is inserted into the heat insulating material 200 at both ends and can be supported by pressing and surrounding the steel wire 300 .

The concrete wall 130 may be more firmly constructed by installing vertical reinforcing bars 130b to intersect with the horizontal reinforcing bars 130a seated and supported on the spacing plate 400 .

One or several pressing pieces 420 may be formed to match the number of steel wires 300 fitted into the fitting grooves 221a and 221b.

And the steel wire 300 and the steel wire 300 do not overlap in the portion where the steel wire 300 and the steel wire 300 are connected so that the ends of the steel wire 300 and the adjacent steel wire 300 are in contact, and the abutting part is wrapped in the center. It is possible to firmly support the steel wire 300 by inserting the spacing plate 400 to be fixed.

10 is a view showing an embodiment of the spacing plate,

The pressing piece 420 may stand vertically as shown in (a) of FIG. 10, and the end of the pressing piece 420 is formed to be inclined diagonally as shown in FIG. After being combined, it can be prevented from being separated by an external impact in advance, and it is possible to maintain a firmly fixed state.

The inner thermal insulation body 110 has a heat insulator 200 connected to the left and right to match the length of the concrete wall 130 , and the insulation 200 is stacked up and down to match the height of the concrete wall 130 , upper and lower Since the steel wire 300 is sandwiched between the insulators 200 stacked with each other, a portion having a weak bonding force can be supported in the left and right coupling portions of the insulator 200, and strength can be increased.

In addition, the steel wire 300 may be bent in a 'L' shape for the corner portion C1 of the inner insulator 110 , but to cross each other for complete coupling of the upper and lower surfaces of the inner insulator 110 . It cannot be installed, and in another embodiment, when the steel wire on one side of the corner is lengthened to the outer insulation body 120, the cross section of the steel wire 300 on the other side touches the steel wire 300 on the one side to finish it short, and the inner insulation body on the upper layer The steel wire 300 at 110 is fixed with the concrete wall 130 by shortening the corner where the steel wire is lengthened in the lower layer, and lengthening the steel wire at the short corner so that the steel wire treatment of the corner can be crossed for each layer in the inner insulation body. It is constructed so that it can be stably supported.

And the outer insulation 120 is connected to the left and right so that the insulating material 200 to match the length of the concrete wall 130, the insulation 200 is stacked to match the height of the wall in the upper and lower portions, the longitudinally connected insulator 200 ) and the transversely connected insulator 200 is configured to be inserted into the fitting groove 221 using the steel wire 300 bent in the 'L' shape at the corner portion C2 where it meets.

11 is a view showing a state in which a steel wire is installed on the laminated insulating material;

By installing the steel wire 300 horizontally to the insulating material 200 and the neighboring insulating material 200, the side seam portion E of the insulating material 200 and the neighboring insulating material 200 can be fixed and installed firmly and closely. It is possible to increase the strength to support the load of the concrete wall 130 that is generated during construction, and the joint portion (E) can be constructed without the phenomenon of being spaced apart.

The construction structure 100 of the present invention configured as described above can construct a concrete wall using a heat insulating material instead of a formwork, and a steel wire 300 is horizontally installed between the highly laminated heat insulating material 200 and the heat insulating material 200 . It can support the load applied to the heat insulator 200 by entering inside, and the strength can be increased so that the combined state can be maintained without distortion, and even if the heat insulator 200 is stacked high, deformation or damage of the heat insulator 200 can be prevented. there will be

And the present invention installs the vertical and horizontal reinforcing bars 130a and 130b constituted in the steel wire 300 and the concrete wall 130 installed on the inner and outer insulators 110 and 120 to intersect with the spacing plate 400, By being integrated with the concrete wall 130, it can be firmly supported, and the strength of supporting the laminated insulating material 200 can be increased.

In the present invention, the steel wire 300 and the steel wire 300 are not overlapped in the portion where the steel wire 300 is connected, but the spacing plate 400 is inserted so that the end of the steel wire 300 and the adjacent steel wire 300 abut. Since it can be fixed, the heat insulating material 200 and the stacked heat insulating material 200 can be installed firmly and closely without separation, and the steel wire 300 can be firmly supported.

The above is merely a preferred embodiment formed by a slight improvement of the present invention, and is by no means intended to limit the present invention, and all equivalent changes or equivalent changes made to the improvements of the present invention, or combinations not shown in this specification are all should be included within the protection scope of the present invention.

100: construction structure
110: inner insulation
120: outer insulation
130: concrete wall
130a: horizontal reinforcing bar 130b: vertical reinforcing bar
200: insulation
210a, 210b: fitting protrusion
220a, 220b: insertion groove 221a, 221b: fitting groove
222a, 222b: spacing plate insertion groove
223a, 223b: air outlet
300: liner
400: spacing plate 410: reinforcing bar seating groove 420: pressing piece

Claims (11)

a concrete wall 130 constructed by pouring concrete after installing the horizontal reinforcing bars 130a and the vertical reinforcing bars 130b;
Constructed inside the concrete wall 130, a '+' shape is connected in the longitudinal direction on the lower surface to form a protruding fitting protrusion 210a, and the upper surface is inserted in the longitudinal direction at the center corresponding to the lower surface A groove portion (220a) is formed, and a gap maintaining plate insertion groove (222a) is formed at regular intervals on both sides of the insertion groove portion (220a), and at both lower ends of the insertion groove portion (220a), a steel wire along the insertion groove portion (220a) Insulation 200 in which the fitting groove 221a is formed so that the 300 can be inserted is connected to the left and right to match the length of the concrete wall 130, and is stacked up and down to match the height of the concrete wall 130. Inner insulation a sieve 110;
It is configured on the outside of the concrete wall 130, and the '#' shape is connected in the longitudinal direction on the lower surface to form a protruding fitting protrusion 210b, and the upper surface is inserted in the center in the longitudinal direction to correspond to the lower surface. A groove portion (220b) is formed, a gap maintaining plate insertion groove (222b) is formed at regular intervals on both sides of the insertion groove portion (220b), and at both lower ends of the insertion groove portion (220b), a steel wire along the insertion groove portion (220b) External insulator 120 stacked up and down to match the height of the concrete wall 130 by connecting the insulating material having the fitting groove 221b so that the 300 can be inserted left and right to match the length of the concrete wall 130 )Wow;
Inner insulation formed on the upper surface of the insulator 200 laminated on the inner and outer insulators 110 and 120 so that the concrete wall 130 is formed between the inner and outer insulators 110 and 120 and the gap can be maintained. While holding the steel wire 300 inserted into the fitting groove 221a of the sieve and the fitting groove 221b of the outer insulation body, it is seated and coupled to the spacing plate insertion grooves 222a and 222b, and is attached to the concrete wall 130. A reinforcing bar seating groove 410 formed in the middle portion so that the configured horizontal reinforcing bar 130a can be seated and supported, and a pressing piece that is inserted into the heat insulating material 200 at both ends and wrapped around the steel wire 300 to support it. A construction structure of a concrete wall comprising a heat insulator, characterized in that it comprises;
The method according to claim 1,
The steel wire 300 is made of a wire having a thickness of 3 to 10 mm, and is cut to a predetermined length and used.
The method according to claim 1,
The construction structure of a concrete wall comprising an insulating material, characterized in that the end of the pressing piece 420 is formed to be inclined diagonally.
The method according to claim 1,
The spacing plate 400 is a thin iron plate, and the width is smaller than that of the spacing plate insertion grooves (222a, 222b).
The method according to claim 1,
A '+' shape on the lower surface of the inner insulator 110 and a '#' shape on the lower surface of the outer insulator 120 are respectively connected in the longitudinal direction to the fitting protrusions 210a and 210b of the respective shapes. A construction structure of a concrete wall comprising an insulator, characterized in that air outlets (223a, 223b) are formed in the connection part to form a trough in the transverse direction so that the upper and lower surfaces can be smoothly coupled.
The method according to claim 1,
In the corner portion (C1) of the inner insulation 110, when the steel wire 300 on one side of the corner is lengthened to the outer insulation body 120, the cross section of the steel wire 300 on the other side touches the steel wire 300 on the one side to finish it short. , The steel wire 300 in the inner insulation 110 in the upper layer shortens the corner where the steel wire 300 is lengthened in the lower layer, and the shorter corner lengthens the steel wire 300 to the inner insulation 110 by layer. Construction structure of a concrete wall comprising a heat insulator, characterized in that it is fixed to the concrete wall 130 so that the treatment of the steel wire 300 can be crossed so that it can be stably supported.
The method according to claim 1,
A construction structure of a concrete wall comprising a heat insulator, characterized in that the steel wire 300 is bent in a 'L' shape at the corner portion C1 of the inner insulator 110 .
The method according to claim 1,
A construction structure of a concrete wall comprising a heat insulator, characterized in that the steel wire 300 is bent in a 'L' shape at the corner portion C2 of the outer insulator 120 .
The method according to claim 1,
The construction structure of a concrete wall comprising an insulating material, characterized in that one or more of the pressing pieces 420 are formed to match the number of steel wires inserted into the fitting grooves 221 .
The method according to claim 1,
The concrete wall 130 has a construction structure of a concrete wall comprising an insulating material, characterized in that the vertical reinforcement (130b) is installed to cross the horizontal reinforcement (130a) supported by being seated on the spacing plate (400).
The method according to claim 1,
Construction structure of a concrete wall comprising a heat insulator, characterized in that all of the steel wire 300 is inserted into the fitting grooves 221 formed on both inner sides of the insertion groove 220, or only one side is inserted as needed.

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