KR20190115655A - Concrete structure construction frame using insulation instead of formwork and method of installing the same - Google Patents

Abstract

The present invention relates to a concrete structure manufacturing frame using an insulation block instead of a form and an installation method thereof. The frame for manufacturing a concrete structure comprises: a plurality of insulation blocks functioning as a form, and having a protrusion and a groove formed on a front and a rear end thereof to be coupled to each other in a longitudinal direction, a first and a second coupling unit formed on a lower and an upper surface thereof to be unevenness-coupled to each other in a vertical direction, and a coupling hole formed to be vertically penetrated when coupled to the protrusion and the groove; a coupling bar inserted into the coupling hole of the insulation blocks to couple the insulation blocks in the longitudinal direction and in the vertical direction when the plurality of insulation blocks are stacked side by side to be separated from each other by the thickness of the concrete structure to face each other; and a connection part placed in the thickness direction to insert the coupling bar into both ends thereof to be installed between vertically arranged insulation blocks. According to the present invention, the insulation blocks are integrated into the concrete structure to contribute to energy saving by excellent insulation effects. The use of waste materials such as a form is suppressed to greatly contribute to eco-friendly construction, resource saving, and waste material reduction. Construction is facilitated by the stacking structure of the insulation blocks to allow economic construction by labor cost reduction. Defects rates can be reduced by construction reliability improvement of the insulation blocks.

Description

Concrete structure construction frame using insulation instead of formwork and method of installing the same}

The present invention relates to a concrete structure manufacturing frame using a heat insulating block instead of a formwork and a method for installing the same, more specifically, by making the heat insulating block integral with the concrete structure, it can contribute to energy saving due to the excellent heat insulation effect, formwork By restraining the use of waste materials, etc., it can greatly contribute to eco-friendly construction, resource reduction, and waste generation, and the concrete structure manufacturing frame using the insulating block instead of the formwork to make easy construction due to the laminated structure of the insulating block, and its It relates to the installation method.

In general, when curing a structure having a predetermined thickness, such as walls or floors with concrete, concrete formwork is to be constructed, formwork panels having a predetermined size are used by interconnecting.

In the method of manufacturing a concrete structure by such a formwork, in order to solve the limitation of the reuse of formwork, to prevent the inhibition of the surrounding environment when dismantling the formwork, and to solve the problem that takes a lot of time and personnel due to the dismantling of the formwork. , The technology for using the insulation panel instead of the formwork has been developed, as the prior art, Korean Patent No. 10-1523987 "H-type fixture used for the wall formwork and the method of manufacturing the eco formwork for the wall using the same" It has been suggested.

This prior art, the steel H-shaped fixture used to form the formwork of the building wall has a web formed in the center between the outer flange and the inner flange, the outer flange is formed wider than the inner flange, the inner In the inner center of the outer flange, projections are continuously formed along the inner and outer flanges, the outer center of the inner flange is formed with a b-shaped protrusion, the vertical end of the b-shaped protrusion is formed with a circular rod, the wall A pair of H-shaped fixtures are installed to face each other at predetermined intervals to form a formwork, and a space connecting bar of plastic material is installed between the H-shaped fixtures to maintain a pair of H-shaped fixtures at predetermined intervals. The protrusion protrudes a predetermined length horizontally from the outer center of the inner flange to the outer side to form a horizontal portion. The vertical portion is bent vertically upward from the horizontal end portion to form a vertical portion. A circular rod is formed at the vertical portion end portion, and a linear connecting bar has a linear length portion at the center portion of the space connecting bar, and both ends are formed inside the vertical portion. A circular groove portion is formed, and a portion of the circumference is formed as a circular ring portion opened downward, and the circular ring of the space connecting bar is fastened to the circular rod of the H-shaped fixture so that the H-shaped fixture and the space connecting bar are integrally coupled. It is configured.

However, this prior art has the following problems.

First, there is a problem in that the H-shaped fixtures are continuously installed at the top to cause interference during concrete placing, causing difficulties in the filling of concrete into the formwork.

Second, due to the structure that the H-type fixture is simply fitted to the insulation panel, there is a problem in that it is difficult to improve the durability by having a limit to increase the bonding force therebetween.

Third, the fastening part is broken or dismantled due to the load of the concrete being poured due to the fastening structure of the H-type fastener and the space connecting bar, and the position is changed by sliding along the longitudinal direction of the H-type fastener. There is a problem that causes durability deterioration.

Fourth, the outer flange of the H-shaped fixture is exposed to the outer surface of the insulation panel, thereby forming a step by the thickness of the outer flange with respect to the exposed surface of the insulation panel, and due to this step, the insulation material is insulated with crimped cement as in the prior art. When attaching to the outer surface of the panel, finishing the grooves on the exterior material to eliminate such steps, or requiring a separate process, not only is it expensive and time-consuming for the finishing work, There is a problem that can not use the insulation panels that do not need.

In order to solve the problems of the prior art as described above, the present invention is to ensure that the insulating block is integrated with the concrete structure, thereby contributing to energy saving due to the excellent heat insulation effect, eco-friendly construction by suppressing the use of waste materials such as formwork, It contributes greatly to the reduction of resources and waste generation, and allows easy construction due to the laminated structure of the insulation block, thereby enabling economic construction by reducing labor costs, and reducing the defect rate by improving the construction reliability of the insulation block. , Minimize interference when placing concrete due to the excellent openness at the top of the insulating block, facilitate work on filling of concrete, etc.Double combined structure by the uneven coupling structure between the insulating blocks and the coupling structure through the coupling bar, overall durability Contributes greatly to improvement, By connecting the coupling bars to be joined to each other by the connecting piece to provide a rigid structure to withstand the concrete load to be poured, and to prevent the step formation on the outer surface of the insulating block, and to give a flatness, Minimize time and effort, and by directly using the insulating block having a finished surface for the formwork purpose, it is possible to omit the finishing construction.

Other objects of the present invention will be readily understood through the following description of the embodiments.

In order to achieve the object as described above, according to one aspect of the present invention, in the frame for the production of concrete structures, the protrusion and the groove portion is formed in the front and rear, respectively, to serve as a formwork, and to be coupled in the longitudinal direction a plurality A heat insulating block having first and second coupling parts formed on a bottom surface and an upper surface thereof so as to be unevenly coupled to a plurality of up and down directions, and a coupling hole formed to vertically penetrate when the protrusion and the groove are coupled to each other; When the insulating blocks are stacked side by side so as to face each other spaced apart by the thickness of the concrete structure, the coupling bar for coupling the insulating block in the longitudinal direction and vertical direction by being inserted into the coupling hole of the insulating block; There is provided a concrete structure manufacturing frame using the insulating block in place of the formwork; and a connecting piece which is placed in the thickness direction and installed between the insulating blocks are arranged up and down by the coupling bar is fitted at both ends, respectively.

The insulating block, the first coupling portion is formed in the longitudinal direction over all the faces facing downwards is made of a plurality of grooves arranged side by side, the second coupling portion is formed in the longitudinal direction over all the faces facing upwards A plurality of protrusions may be formed side by side.

The insulating block, the receiving groove for accommodating the connection piece may be formed on any one or both of the upper and lower surfaces.

The connection piece may have a coupling hole in which the coupling bars are inserted at both ends thereof, and a surface contact supporting part supporting the outer surface of the insulating block on one or both of the upper and lower surfaces thereof may be vertically provided.

By forming a bent portion in the insulating block, by connecting the insulating block to be bent to each other, it may further comprise a corner insulating block to form a bent structure of the concrete structure.

A flat cross section is formed in a "c" shape by two bent portions, and grooves for both ends are coupled to each of the protrusions of the insulating block, or protrusions for coupling to each of the grooves of the insulating block are formed, thereby being spaced apart from each other. Blocking insulating blocks are connected to each other to block the formation space of the concrete structure, the first and second coupling portions are formed on the bottom and top surfaces, respectively, and the coupling insulating block is formed so as to be connected to the coupling hole of the insulating block It may further include.

According to another aspect of the present invention, a method for installing a concrete structure manufacturing frame using a concrete structure manufacturing frame using a heat insulating block according to one aspect of the present invention instead of a formwork, wherein the insulating bar is coupled to the coupling hole Coupling the protrusions and the grooves in a longitudinal direction so as to face side by side with each other by the thickness of the concrete structure in the inserted state; Installing the connecting pieces on the insulating block, each of which is placed in the thickness direction and the coupling bars are fitted at both ends; Stacking a new insulating block on the insulating block installed on the bottom by uneven coupling of the first and second coupling parts such that the connecting piece is sandwiched therebetween; And alternately repeating the step of installing the connecting piece on the insulating block and laminating a new insulating block, so that the insulating block is stacked up to a desired height. A frame installation method is provided.

According to the concrete structure manufacturing frame and the installation method thereof using the insulating block according to the present invention instead of the formwork, by making the insulating block integral with the concrete structure, can contribute to energy saving due to the excellent insulation effect, waste materials such as formwork By suppressing the use, it can greatly contribute to eco-friendly construction, resource reduction and waste generation reduction, and easy construction is achieved by the laminated structure of the insulation block, so that economic construction can be achieved through labor cost reduction, and insulation block. The defect rate can be reduced by improving the reliability of construction, and the excellent openness at the top of the insulating block can minimize the interference when placing concrete, facilitate the work on filling of concrete, etc. By the coupling structure through and coupling bar Due to the heavy coupling structure, it can greatly contribute to improving the overall durability, it is possible to provide a rigid structure to withstand the concrete load to be poured by connecting the coupling bars coupled to the insulating block with each other by the connecting piece, the outer surface of the insulating block By preventing the formation of the step, and by providing flatness, it is possible to minimize the time and effort required for the finish construction, and by directly using the insulating block having a finished surface for the formwork, eliminating the finish construction Can be.

1 is a side view showing a concrete structure manufacturing frame using a heat insulating block instead of a formwork according to an embodiment of the present invention.
2 is a cross-sectional view taken along line AA of FIG. 1.
Figure 3 is a perspective view of the insulating block in a concrete structure manufacturing frame using the insulating block in accordance with an embodiment of the present invention instead of the formwork.
Figure 4 is a perspective view showing an example of the connecting piece in the concrete structure manufacturing frame using the insulating block according to an embodiment of the present invention instead of the formwork.
5 is a perspective view showing another example of the connecting piece in the concrete structure manufacturing frame using the insulating block according to an embodiment of the present invention instead of the formwork.
Figure 6 is a perspective view showing another example of the connecting piece in the concrete structure manufacturing frame using the insulating block according to an embodiment of the present invention instead of the formwork.
Figure 7 is a plan view showing a corner in a concrete structure manufacturing frame using a heat insulating block instead of a formwork according to an embodiment of the present invention.
8 is a plan view showing an example of a blocking structure of the formation space of the concrete structure in the concrete structure manufacturing frame using the insulating block according to an embodiment of the present invention instead of the formwork.
Figure 9 is a side view showing an example of the blocking structure of the formation space of the concrete structure in the concrete structure manufacturing frame using the insulating block according to an embodiment of the present invention instead of the formwork.

As the inventive concept allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to the specific embodiments, but should be understood in a way that includes all changes, equivalents, and substitutes included in the spirit and scope of the present invention, and may be modified in various other forms. It is to be understood that the scope of the present invention is not limited to the following examples.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, and like reference numerals denote the same or corresponding elements regardless of reference numerals, and redundant description thereof will be omitted.

1 is a side view showing a concrete structure manufacturing frame using a heat insulating block according to an embodiment of the present invention instead of a formwork, Figure 2 is a cross-sectional view taken along the line A-A of FIG.

1 and 2, the concrete structure manufacturing frame 100 using the insulating block in accordance with an embodiment of the present invention instead of the form includes an insulating block 110, the coupling bar 120 and the connecting piece (130, 140, 150). can do.

1 to 3, the insulating block 110 serves as a formwork, and a protrusion 111 and a groove 112 are formed at the front and rear ends thereof so as to be coupled to the plurality in the longitudinal direction, respectively, The first and second coupling parts 113 and 114 are formed on the bottom and the upper surface to be unevenly coupled, and the coupling holes 115 are formed to penetrate vertically when the protrusions 111 and the grooves 112 are coupled to each other. Insulating block 110, including PF board, extruded thermal insulation board, cement board, CRC composite panel (non-asbestos fiber reinforced cement board), has a thermal insulation function, and further has the functionality of non-combustible, and can also be used as a formwork It may be made of panels of various materials having durability to strength, and in order to omit a finishing process, at least an exposed surface may be finished or finished decorated surface. The insulating block 110 may be fixed so as not to move on the floor surface by the lumber or various brackets or wood when installed on the floor surface.

The insulating block 110 may be formed of a groove in which a plurality of first coupling parts 113 are formed in a longitudinal direction over all surfaces facing downward, and a plurality of second coupling parts 114 are directed upward. It is formed in the longitudinal direction across the surface may be formed of a plurality of protrusions arranged side by side. Here, all the surfaces facing downward or upward, even if a step is formed on the bottom or the upper surface by the formation of the protrusion 111 or the groove 112, as in this embodiment, irrespective of the step 111 or the step It may mean all surfaces facing upward or downward, including the groove 112.

The insulating block 110 may be formed in any one or both of the upper and lower surfaces of the receiving grooves 116 and 117 for accommodating the connecting pieces 130, l40, and 150, depending on the position of the coupling hole 115. The number and formation positions of the 116 and 117 are determined, and the connecting pieces 130, 140 and 150 are accommodated in the receiving grooves 116 and 117, thereby preventing lifting due to the interposition of the connecting pieces 130, 140 and 150 when stacked in a large number, thereby increasing the adhesion force during the stacking. .

Coupling bar 120 when the insulating block 110 is stacked side by side so as to face each other spaced apart by the thickness of the concrete structure, the length of the insulating block 110 is inserted into the coupling hole 115 of the insulating block 110. To combine in the up and down directions. The coupling bar 120 may be made of, for example, a metal material, but various materials capable of maintaining strength may be selected. For example, the coupling bar 120 may be made of steel. In addition, the coupling bar 120 may be fixed using a pinch or a separate bracket on the bottom surface, but is not necessarily fixed to the bottom surface.

The connecting pieces 130, 140, and 150 are placed in the thickness direction of the concrete structure and are installed between the insulating blocks 110 arranged up and down by fitting the coupling bars 120 at both ends, for example, as shown in FIGS. 2 and 4. , The connecting piece 130 according to the example is installed on the bottom surface, the coupling bar 120 is formed in each of the coupling holes 131 to be inserted at both ends, the upper surface is in contact with the outer surface of the insulating block 110 The surface contact support 132 may be provided vertically. In addition, referring to Figures 2 and 5, the connecting piece 140 according to another example is installed in the middle portion, the coupling bar 120 is inserted into each end of the coupling hole 141 is formed, the upper and lower surfaces In contact with the outer surface of the insulating block 110, the surface contact support parts 142 and 143 may be provided vertically. 2 and 6, when the connecting piece 150 according to another example is installed at the top, a coupling hole 151 for inserting the coupling bars 120 at both ends is formed, and the surface contact paper is provided. The branch may be omitted, in view of being located at the top, the surface contact support may be provided on the lower surface.

Referring to FIG. 7, corner insulation blocks 160 and 170 may be provided to form corners of the formwork. Since the corner insulating blocks 160 and 170 form the bent portions 168 and 178 in the insulating block 110, as in the insulating block 110, protrusions, grooves, first coupling portions, second coupling portions 164 and 174, and the like. It may have a coupling hole and a receiving groove. In addition, the corner insulation blocks 160 and 170 may be formed of two or more types of different lengths according to the installation positions of the inconor and the outconor. Therefore, the corner insulation blocks 160 and 170 may have a folded structure of the concrete structure, that is, a folded structure in the formation space S of the concrete structure.

As shown in Figure 8, in order to block one end of the forming space (S) of the concrete structure, the blocking insulation block 180 may be provided. Block insulation block 180 is formed by the two bent portion (188) of the flat cross-section "'" shape, both ends of the groove portion 182 or to be coupled to each of the protrusions 111 of the insulating block 110 or Protrusions for coupling to each of the grooves 112 of the insulating block 110 are formed, respectively, by connecting the insulating blocks 110 spaced apart from each other to block the formation space (S) of the concrete structure, the first coupling portion ( Not shown) and the second coupling part 184 may be formed on the bottom and top surfaces, respectively, and coupling holes (not shown) may be formed to be connected to the coupling holes 115 of the insulating block 110.

Referring to the installation method of the concrete structure manufacturing frame using the insulating block according to the present invention having such a configuration instead of the formwork as follows.

First, the protruding portion 111 and the groove portion 112 in the longitudinal direction so as to face each other side by side as much as the thickness of the concrete structure on the floor in a state that the insulating block 110 is inserted into the coupling hole 115, the coupling bar 120. Combine them so that they are arranged. At this time, the coupling bar 120 may be fixed in advance to the bottom surface before installation of the bottom surface of the insulating block 110, or may be installed in the coupling hole 115 of the insulating block 110 installed on the bottom surface. In addition, the connection piece 130 may be installed on the bottom surface by connecting the connection piece 130 to the coupling bar 120 pre-installed on the bottom surface of the insulating block 110.

When the installation of the insulating block 110 on the bottom surface is finished, it is placed in the thickness direction of the concrete structure to install a connecting piece 140, the coupling bar 120 is fitted to both ends, respectively, in the insulating block 110. And, if necessary, the corner insulation blocks 160 and 170 and the blocking insulation block 180 may be properly assembled and installed as described above.

When the installation of the connecting piece 140 to the insulating block 110 is finished, the first and second coupling parts so that the connecting piece 140 is sandwiched between the new insulating block 110 on the insulating block 110 installed on the bottom surface. (113, 114) to be laminated by the uneven coupling.

Then, by alternately repeating the step of installing the connecting pieces 140, 150 in the insulating block and the step of stacking the new insulating block 110, the insulating block 110 to be stacked to the desired height. In this case, as necessary, the corner insulation blocks 160 and 170 and the blocking insulation block 180 may be properly assembled and installed.

According to the concrete structure manufacturing frame and the installation method thereof using the insulating block according to the present invention instead of the formwork, by making the insulating block integral with the concrete structure, it can contribute to energy saving due to the excellent insulating effect, such as formwork By curbing the use of waste materials, they can greatly contribute to eco-friendly construction, resource reduction and waste generation.

In addition, according to the present invention, by making the easy construction due to the laminated structure of the insulating block, it is possible to achieve economic construction by reducing the labor cost, it is possible to reduce the defect rate by improving the construction reliability of the insulating block, Due to the excellent openness of the top of the insulating block can minimize the interference when placing the concrete, it can be easy to work on the filling of concrete.

In addition, according to the present invention, due to the double coupling structure by the concave-convex coupling structure between the insulating block and the coupling bar through the coupling bar, it can contribute greatly to the overall durability improvement, and is poured by connecting the coupling bar coupled to the insulating block with each other by the connecting piece It can provide a rigid structure to withstand concrete loads.

In addition, according to the present invention, by preventing the step formation on the outer surface of the insulating block, by providing a flatness, it is possible to minimize the time and effort required for the finishing construction, and to provide an insulating block having a finished surface By using it directly for formwork, the finishing work can be omitted.

As described above with reference to the accompanying drawings, the present invention, of course, various modifications and variations can be made within the scope without departing from the spirit of the invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims below and equivalents thereof.

110: insulation block 111: protrusion
112: groove portion 113: first coupling portion
114: second coupling portion 115: coupling hole
116,117: accommodation groove 120: coupling bar
130,140,150: Connecting piece 131,141,151: Joining hole
132,142,143: surface contact support 160,170: corner insulation block
164,174: second coupling portion 168,178: bending portion
180: insulation block 182: groove
184: second coupling portion 188: bending portion

Claims (7)

In the framework for the manufacture of concrete structures,
It serves as a formwork, and the protrusions and grooves are formed at the front and rear ends, respectively, to be coupled to the plurality in the longitudinal direction, and the first and second coupling parts are respectively formed on the bottom and the upper surface so as to be coupled to the unevenness in the vertical direction, the protrusions and A heat insulating block having a coupling hole formed so as to vertically penetrate when coupled to each other in the groove;
When the insulating blocks are stacked side by side so as to face each other spaced apart by the thickness of the concrete structure, the coupling bar for coupling the insulating block in the longitudinal direction and vertical direction by being inserted into the coupling hole of the insulating block; And
A connection piece disposed between the insulating blocks placed in the thickness direction and arranged above and below the coupling bars at both ends thereof, respectively;
Containing, a concrete structure production frame using a heat insulating block instead of formwork. The method according to claim 1,
The insulating block,
The first coupling portion is formed in the longitudinal direction over all the faces facing downwards are made of a plurality of grooves are arranged side by side, the second coupling portion is formed in the longitudinal direction over all the faces facing upwards, the plurality are arranged side by side Concrete structure manufacturing frame using a thermal insulation block, instead of a formwork. The method according to claim 1,
The insulating block,
Receiving groove for accommodating the connecting piece is formed on any one or both of the upper and lower surfaces, concrete structure manufacturing frame using the insulating block instead of the formwork. The method according to claim 1,
The connecting piece,
The coupling bar is formed in each of the coupling bar is inserted into both ends, the surface contact support for supporting the outer surface of the insulating block vertically provided on one or both of the upper and lower surfaces, the concrete to use the insulating block instead of the formwork Structure building frame. The method according to claim 1,
By forming a bent portion in the insulating block, by connecting the insulating block to bend each other, further comprising a corner insulating block to form a bent structure of the concrete structure, a concrete structure manufacturing frame using the insulating block instead of the formwork. The method according to claim 1,
A flat cross section is formed in a "c" shape by two bent portions, and grooves for both ends are coupled to each of the protrusions of the insulating block or protrusions for coupling to each of the grooves of the insulating block, respectively, thereby being spaced apart from each other. Blocking insulating blocks are connected to each other to block the formation space of the concrete structure, the first and second coupling parts are formed on the bottom and top surfaces, respectively, the blocking insulation block is formed so as to be connected to the coupling hole of the insulating block Further comprising, a concrete structure production frame using a heat insulating block instead of formwork. A method of installing a concrete structure manufacturing frame using a concrete structure manufacturing frame using the insulating block according to any one of claims 1 to 6 in place of the formwork,
Engaging the protrusion and the groove in a longitudinal direction so that the insulating block faces the side by side with each other by the thickness of the concrete structure in a state in which the coupling bar is inserted into the coupling hole;
Installing the connecting pieces on the insulating block, each of which is placed in the thickness direction and the coupling bars are fitted at both ends;
Stacking a new insulating block on the insulating block installed on the bottom surface by the concave-convex coupling of the first and second coupling parts so that the connecting piece is sandwiched therebetween; And
Alternately repeating the step of installing the connecting piece on the insulating block and laminating a new insulating block, such that the insulating block is laminated to a desired height;
Containing, concrete structure manufacturing frame installation method using the insulating block instead of the formwork.