KR20080109273A - Construction method heat insulation of concrete wall or the structure and have application to exclusive screw - Google Patents

Abstract

A heat insulating construction method of a concrete wall is provided to attach and construct a finishing material directly to the surface of an insulating material simply and quickly. A heat insulating construction method of a concrete wall comprises the steps of preparing an insulating material(S100) preparing for the adiabatic material, forming a coarse surface(S200), forming many retreated grooves having the appointed width and depth(S300), applying gypsum bond or adhesives partially to the retreated grooves and the coarse surface of the insulating material(S400), attaching the insulating material partially attached with the gypsum bond or the adhesives to a concrete wall(S500), preparing an exclusive screw(S600), and attaching a finishing material directly to the surface of the insulating material(S700).

Description

Insulation construction method of concrete wall and its structure and dedicated screw applied to it {CONSTRUCTION METHOD HEAT INSULATION OF CONCRETE WALL OR THE STRUCTURE AND HAVE APPLICATION TO EXCLUSIVE SCREW}

1 is a cross-sectional view of a wall by a conventional method for thermal insulation of concrete walls.

Figure 2 is a cross-sectional view of the wall by the heat insulation construction method of another conventional concrete wall.

Figure 3 is a cross-sectional view of the wall by the conventional method of thermal insulation of another concrete wall.

Figure 4 is a process flow diagram showing a method for thermal insulation construction of a concrete wall according to the invention.

Figure 5 is a cross-sectional view of the wall by the insulation construction method of the concrete wall according to the invention.

Figure 6 is an enlarged partial cross-sectional view extracting the main part of the heat insulating material applied to the method of thermal insulation construction of the concrete wall according to the invention.

Figure 7 is a perspective view of a dedicated screw applied to the insulation construction method of the concrete wall according to the invention.

8 is a cross-sectional view of the dedicated screw applied to the insulation construction method of the concrete wall according to the present invention.

9a to 9c is a configuration diagram showing a step-by-step construction method of the concrete wall according to the invention.

<Explanation of symbols for the main parts of the drawings>

1, 10: concrete wall 2, 20: insulation

3: connecting member 4, 30: finishing material

5, 23 double-sided tape 6: sand

21: groove groove 22: rough surface

B: adhesive (or gypsum bond) 40: special screw

41: head 42: thread

42a: horizontal plane 42b: inclined plane

43: wedge

The present invention relates to a method for thermal insulation construction of a concrete wall and its structure, and a dedicated screw applied thereto. More specifically, in constructing a heat insulating material and a finishing material on a concrete wall, an adhesive is applied to one surface of the heat insulating material directly contacting the surface of the concrete wall. A method of thermal insulation of concrete walls that forms a permeable recess indenting groove, directly attaches and insulates the heat insulating material to the wall using an adhesive, and then directly fixes and attaches the finishing material as a dedicated screw manufactured separately on the heat insulating material. And by providing the structure and the dedicated screw for the insulation construction of the concrete wall applied thereto, not only shorten the insulation construction work time, but also improve the workability and construction cost can be easily and easily performed even for unskilled workers. You can get the effect that you can.

In general, the interior of the building wall is constructed by pouring concrete to the insulation for sound insulation and sound insulation, etc., the construction method of such a heat insulating material has been proposed and widely used in the prior art.

For example, as a conventional heat insulating material construction method that is most widely constructed, as shown in FIG. 1, a heat insulating material 2 of styrofoam having a plate shape as shown in FIG. 1 is attached to a wall 1 using an adhesive B. FIG. ), And the connecting member 3 made of a material such as wood, metal, synthetic resin, etc. on the surface of the heat insulating material 2 at predetermined intervals, and then using the connecting member 3 to finish the finishing material 4 ) Is designed to attach using nails, screws or tacker guns.

However, the construction method is not only deterioration in workability by the construction of the connecting member 3 for the construction of the finishing material 4 on the surface of the heat insulating material 2, but also highly skilled workers to adjust the vertical and horizontal Or there was a difficult problem.

In order to solve such a problem, recently, as shown in FIG. 2, an adhesive B is applied to one surface of the wall 1 and the heat insulating material 2 abutting the same, and sand 6 is disposed thereon. Sprinkle to a predetermined thickness to increase the adhesive force of the heat insulating material 2 is adhesively fixed to the wall (1), the other side of the heat insulating material 2 is adhesively fixed to the wall (1) by using a double-sided tape (5) ) To the heat insulator 2 was used.

However, such a construction method also requires the quality of the sand 6 used to increase the adhesion between the wall 1 and the heat insulator 2, the diameter of which is equal, the thinness of the high quality is required, and the production cost naturally increases. There was a problem that the work time and manpower was wasted in addition to the process of spraying (6) and keeping the thickness constant.

In addition, referring to Patent Registration No. 10-632270 entitled "Insulation construction method of a concrete wall and its structure" registered and filed by the applicant of the present invention, it is a concrete wall (10) as shown in FIG. A rough surface 22 and a concave groove 21 is formed on one surface of the heat insulating material 20 in contact with the c), and is bonded to the wall 10 using a gypsum bond or an adhesive, and the surface of the heat insulating material 20 is After adhering the double-sided adhesive tape 23 having a high adhesive strength at regular intervals, using the double-sided adhesive tape 23 was bonded to the finishing material 30 made of gypsum board or the like.

However, the above construction method, as a result of the present inventors carried out at various sites, in order to obtain sufficient strength by bonding the finishing material 30 to the heat insulating material 20 using the double-sided adhesive tape 23, the heat insulating material 20 In attaching the double-sided adhesive tape 23 to the surface of the c), not only a process of accurately attaching the tape to have a certain width and length is necessary, but also the work of attaching the double-sided adhesive tape is very skilled and takes a lot of time. There was this.

The present invention was created in order to solve the above problems of the prior art, and in the construction of fixing the finish on the surface of the concrete wall and the adhesive fixed heat insulating material, using a specially prepared dedicated screw to the finish material on the surface of the heat insulating material It is an object of the invention to provide a thermal insulation construction method of a concrete wall that can be directly fixed and quickly installed.

Still another object of the present invention is to fix and fix the finishing material directly on the surface of the concrete wall and the adhesive fixed heat insulating material, as well as fixing and fixing the finishing material is very simple and fast, the finishing material fixedly attached to the surface of the heat insulating material is It is to provide a dedicated screw for thermal insulation construction of concrete walls to be fixed and attached while maintaining sufficient strength.

Insulation construction method of the concrete wall of the present invention for achieving the above object, as illustrated in Figure 4, the step of preparing a heat insulating material; Forming a rough surface on one surface of the heat insulating material adjacent to the concrete wall by a roller having a plurality of protrusions protruding therefrom; Forming a recessed groove spaced at a predetermined interval on the rough surface; Partially applying a gypsum bond or adhesive to the recessed grooves and rough surfaces formed in the insulation; Until the process step of attaching the gypsum bond or adhesive-coated insulating material to the concrete wall, it is the same as the patent application No. 10-632270 "Insulation construction method of the concrete wall and its structure" that the applicant of the present invention is pre-registered. .

That is, in the insulation construction method of the concrete wall to apply a plaster bond or adhesive to the recessed grooves and the rough surface formed in the heat insulating material as described above, and to be fixed to attach to the concrete wall,

It is manufactured separately, and the head part is formed in the form of "+" or "-" so that it can be fixed by the existing manual driver or electric driver, and the shape of the thread is formed in the horizontal side of the head side, the wedge side in the inclined surface Preparing a dedicated screw to be formed;

Attaching the finishing material to be fixed directly to the heat insulating material by using the dedicated screw; Insulation construction method of a concrete wall, characterized in that comprises a.

The heat insulation structure of the concrete wall of this invention is a concrete wall formed by the conventional method; A heat insulating material adhered to and fixed with a gypsum bond or an adhesive using a plurality of concave grooves formed on one surface in contact with the wall; A finishing material attached directly to the surface of the heat insulating material attached to the concrete wall; It is a heat insulating structure of the concrete wall, characterized in that consisting of a dedicated screw to attach the finishing material to be firmly fixed to the heat insulating material.

The dedicated screw applied to the present invention is formed in the form of "+" or "-" so that the head can be fixed by tightening with a conventional manual or electric driver, the length is 35mm ~ 60mm, the outer diameter is 10mm, the inner diameter is 4mm, the height of the thread is 3mm, the pitch of the thread is formed to 6mm, the length of the wedge portion of the incomplete screw portion of the end of the dedicated screw is formed of 6mm, the shape of the thread is formed in the horizontal plane of the head side of the wedge The side is a dedicated screw for thermal insulation construction of a concrete wall, characterized in that formed by the inclined surface having an angle of 26 ° 33 '.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Attached Figure 4 is a process diagram showing a method of thermal insulation of the concrete wall according to the invention, Figure 5 is a cross-sectional configuration of the wall by the method of thermal insulation of the concrete wall according to the invention, Figure 6 is a concrete according to the present invention This is a partial enlarged sectional view extracting the essential part of the heat insulating material applied to the heat insulation construction method of the wall.

And, Figure 7 is a perspective view of a dedicated screw applied to the heat insulation construction method of the concrete wall according to the invention, Figure 8 is a cross-sectional view of a dedicated screw applied to the heat insulation construction method of the concrete wall according to the invention, Figures 9a to 9c Is a block diagram showing step by step the method of thermal insulation construction of a concrete wall according to the present invention.

First, FIG. 4 and FIG. 5 are process diagrams showing a method of thermal insulation of a concrete wall of the present invention, and a cross-sectional configuration diagram of a wall by the same thermal insulation construction method.

Preparing a heat insulator (step: S100);

A rough surface processing step (step S200) of forming a rough surface on one surface of the heat insulating material to be bonded to the concrete wall formed by a conventional method, that is, one surface of the heat insulating material contacting the wall by processing means such as a roller having a plurality of protrusions;

A concave groove processing step (S300) forming a plurality of concave groove portions having a predetermined width and depth, spaced apart at a predetermined interval on the rough surface processed in the process;

An adhesive coating step (step S400) of partially applying a gypsum bond or an adhesive to the recessed groove and the rough surface of the heat insulating material processed in the above process;

A heat insulating material attaching step (S500) of attaching a heat insulating material partially coated with a gypsum bond or adhesive in the process to the concrete wall;

The head is made separately and is formed in the form of "+" or "-" so that it can be fastened by using a conventional manual or electric driver. The length is 35mm ~ 60mm, the outer diameter is 10mm, the inner diameter is 4mm, and the height of the thread is Prepare a dedicated screw having a pitch of 3 mm and a screw thread of 6 mm, wherein the length of the wedge portion, which is an incomplete screw end of the dedicated screw, is 6 mm, and the shape of the screw thread is formed in a horizontal plane and the wedge side is 26 ° 33. A dedicated screw preparation process (step: S600) for thermal insulation construction of a concrete wall formed of an inclined surface having an angle of ′;

Finishing material attachment step of directly fixing the finishing material to the surface of the heat insulating material attached to the concrete wall using the dedicated screw prepared in the process (step: S700);

Including a thermal insulation material construction work of the concrete wall, including the insulation construction method of the concrete wall is provided.

In the present invention, as shown in Figure 5, by attaching the finishing material 30 directly to the surface of the heat insulating material 20 fixedly attached to the concrete wall 10 by the adhesion of gypsum bond or adhesive (B), Figure 7 and Using a dedicated screw 40 for thermal insulation construction of the concrete wall illustrated in Figure 8 provides a thermal insulation structure of the concrete wall to be fixed by attaching the finishing material 30 directly to the surface of the insulating material 20.

The dedicated screw 40 for thermal insulation construction of the concrete wall applied to the construction method and the thermal insulation structure, as illustrated in Figures 7 and 8, the head 41 is fixed by tightening with a conventional manual driver or electric driver. It is formed in the form of "+" or "-", the length of the dedicated screw 40 is 35mm ~ 60mm, the outer diameter is 10mm, the inner diameter is 4mm, the height of the thread 42, 3mm, the pitch of the thread 42 Is formed in 6mm, the length of the wedge portion 43, which is the end of the incomplete screw portion of the dedicated screw 40 is formed in 6mm, the shape of the thread 42 is formed in the horizontal portion (42a) of the head 41 side And the wedge portion 43 side is a dedicated screw, characterized in that formed by forming an inclined surface (42b) having an angle of 26 ° 33 '.

The heat insulating material 20 applied to the present invention is formed of a material such as styrofoam or extruded polystyrene foam (trade name: iso pink, etc.) having heat insulation and sound insulation, and the surface is slippery and smooth due to the nature of the material. Therefore, a plurality of regular recessed grooves 21 and rough surfaces 22 are formed at predetermined intervals on the surface of the heat insulating material 20 bonded to the building inner wall concrete wall 10.

The recessed groove 21 of the heat insulating material 20 is processed by a cutter or the like, the depth is 2 ~ 4mm, the width is 2 ~ 4mm, the shape is cylindrical or square, the interval between the recessed groove 21 is 30 It is preferable to set it as -40 mm.

The rough surface 22 of the heat insulating material 20 is formed by processing means such as a roller protruding a plurality of projections.

In addition, the interval arrangement between the recessed groove 21 and the recessed groove 21 of the heat insulator 20 is preferably the best horizontal line, even if arranged in a vertical or checkered square or diagonal rhombus shape You can get the result.

The recess 21 of the heat insulator 20 provides a space in which the gypsum bond or the adhesive B, which is an adhesive means of the wall 10 and the heat insulator 20, is buried, so that the adhesive force is significantly increased, so that the gypsum bond or the adhesive is required. Even when the adhesive coating is applied to the part partially, the same adhesive effect as the coating on the front surface is obtained.

The finishing material 30 is formed of a gypsum board, etc. in the form of a conventional finishing material, and is fixed to the heat insulating material 20 by a dedicated screw 40, so no additional gypsum bond or adhesive is required, and construction in the field is easy. Even if you are not a skilled technician, it provides a simple and easy operation.

Generally, the thickness of the interior finishing material 30 used is a product of the thickness of 9 ~ 25mm is applied according to the wall 10 to be insulated, wherein the ratio of the thickness of the finishing material thickness and the dedicated screw is 1: 1.5 ~ 3 It is desirable to.

The dedicated screw 40 is installed at a predetermined interval (approximately 300mm ~ 500mm interval) to be fixed to the heat insulating material 20 and the finishing material 30 to be attached, preferably according to the applicant's experimental results 400mm interval This is the most efficient.

Then, the dedicated screw 40 is preferably penetrated by 20mm or more in the heat insulating material 20 to penetrate through the thickness (9mm ~ 25mm) of the finishing material 30.

The scope of the present invention is not limited to the embodiments described so far, and various changes, modifications, or substitutions may be made by those skilled in the art within the technical spirit and claims of the present invention, and such embodiments Should be understood to fall within the scope of the present invention.

As described above, by using the construction method and structure of the insulating wall according to the present invention, and a dedicated screw applied thereto, by providing a construction method in which the recessed groove is formed on one surface of the insulating material adjacent to the concrete wall, the wall and the heat insulating material Increasing the adhesive strength of the, and by applying a gypsum bond or adhesive only to the necessary portion, there is an effect of reducing the material cost.

In addition, since the installation by fixing the finish directly on the surface of the heat insulating material by a dedicated screw of the present invention separately manufactured, which is the same as the conventional simple screwing operation, anyone can easily and easily work even if not highly skilled workers In addition, the cost of materials such as an expensive double-sided adhesive tape is reduced, and the fixing force of the finishing material is also enhanced.

Claims (5)

Preparing a heat insulator 20 (step: S100); One surface of the heat insulating material 20 to be bonded to the concrete wall 10 formed by a conventional method, that is, one surface of the heat insulating material 20 in contact with the wall 10 is rough surface 22 by processing means such as a roller formed with a plurality of projections Rough surface processing process (step: S200) to form a; A concave groove processing step (S300) forming a plurality of concave grooves 21 having a predetermined width and depth, spaced apart at a predetermined interval on the rough surface 22 processed in the process; An adhesive coating step (step S400) of partially applying a gypsum bond or adhesive (B) to the recessed grooves 21 and the rough surface 22 of the heat insulating material 20 processed in the above process; In the process, the insulating material 20 and the finishing material on the concrete wall 10 are subjected to the heat insulating material attaching process (step: S500) to attach the insulating material 20 to which the gypsum bond or the adhesive B is partially applied to the concrete wall 10. In constructing (30), The head 41 of the dedicated screw 40, which is manufactured separately, is formed in a "+" type or a "-" type to be fixed by tightening it with an existing manual driver or an electric driver, and the length is 35 mm to 60 mm, and the outer diameter. Silver 10mm, inner diameter is 4mm, the height of the thread 42 is 3mm, the pitch of the thread 42 is formed of 6mm, the length of the wedge portion 43, which is an end incomplete screw portion of the dedicated screw 40 is formed of 6mm, The screw thread 42 is formed in the horizontal portion (42a) of the head 41 side and the wedge portion (43) side dedicated screw for insulation construction of the concrete wall formed of the inclined surface (42b) having an angle of 26 ° 33 ' A process (step: S600); Finishing material attachment process (step: S700) for directly fixing and attaching the finishing material 30 to the surface of the heat insulating material 20 attached to the concrete wall 10 using the dedicated screw 40 prepared in the process; Insulation construction method of the concrete wall, characterized in that the construction of the insulation of the concrete wall is made. In constructing the heat insulating material 20 and the finishing material 30 to the concrete wall 10 to configure the heat insulation structure of the concrete wall, A concrete wall 10 formed by a conventional method; A heat insulator 20 attached to the wall 10 by a gypsum bond or an adhesive B to be fixed by using a plurality of concave grooves 21 and a rough surface 22 formed on one surface thereof; A finishing material 30 directly attached to the surface of the heat insulating material 20 attached to the concrete wall 10; Insulation structure of the concrete wall, characterized in that it comprises a dedicated screw 40 for attaching the finishing material 30 to be firmly fixed to the heat insulating material (20). The method according to claim 1 or 2, The recessed groove 21 of the heat insulator 20 is processed by a cutter or the like, the depth and the width is 2 ~ 4mm, the shape of the cylindrical or rectangular shape, the interval between the recessed groove 21 is 40mm, the recess An interval structure between the groove portion 21 and the recessed groove portion 21 is arranged in any one of a horizontal shape, a vertical line shape, a square shape of a checkerboard shape, or a rhombic shape in a diagonal direction. A process of preparing a heat insulating material, a process of forming a plurality of recessed grooves on one surface of the heat insulating material) and a rough surface, and applying a gypsum bond or an adhesive using the recessed grooves and the rough surface of the heat insulating material processed in the above process, In constructing the heat insulation structure of the concrete wall by constructing the heat insulating material 20 and the finishing material 30 on the concrete wall 10 through the heat insulating material attachment process to attach to the concrete wall, The head 41 is formed in a "+" type or "-" type to be fixed by tightening with a conventional manual driver or an electric driver, etc. The length is 35mm ~ 60mm, the outer diameter is 10mm, the inner diameter is 4mm, the height of the thread 42 is 3mm, the pitch of the thread 42 is formed to 6mm, the wedge portion 43 which is an end incomplete screw portion of the dedicated screw 40 The length of the is formed to 6mm, the shape of the thread 42 is formed in the head portion 41 side of the horizontal surface 42a, the wedge portion 43 side is formed of the inclined surface 42b having an angle of 26 ° 33 ' Dedicated screw for insulation construction of concrete walls, characterized in that configured by. The method of claim 4, wherein The dedicated screw 40 is a concrete wall, characterized in that the ratio of the finishing material 30 and the dedicated screw 40 is 1: 1.5 to 3 according to the thickness of the finishing material 30 fixedly attached to the heat insulating material 20. Dedicated screw for insulation construction.

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