KR100966276B1 - Screw piece for insulating material construction - Google Patents

Abstract

The present invention relates to a screw piece for the insulation material construction of the concrete wall surface so that the insulation and finishing materials on the concrete wall surface can be easily and easily maintained and maintained after construction.

The construction is in the screw piece for the construction of the heat insulating material of the concrete wall in which the heat insulating material and the finishing material is fixed to the surface of the concrete wall sequentially using the fixing means,

 Conical head portion 41 is formed in the center of the upper surface of the "+" type and "-" shaped hand tool coupling groove 42, the neck 43 is formed in the lower portion of the head of the cone and the lower end of the neck Has a diameter smaller than the diameter of the neck has a shaft 44 pointed to the bottom is formed, the outer periphery of the neck and the shaft is composed of a screw 45 is connected to each other.

And the screw formed to be connected to the outer periphery of the neck and the shaft is made of a plate shape gradually thicker toward the neck and axis from the blade portion 46 of the tip, the screw on one side upper / lower surface of the step (47) 48 is formed, and the stepped portion formed on the upper and lower surfaces of the plate-shaped screw is formed from the upper side to the lower side of the screw on one side collinear line of the screw, and the outer diameter of the screw formed to be connected to the outer circumferential edge of the neck and the shaft. Is made smaller than the top outer diameter of the head.

Concrete, Wall, Insulation, Finish, Screw Piece

Description

Screw piece for insulation of concrete wall construction {SCREW PIECE FOR INSULATING MATERIAL CONSTRUCTION}

The present invention relates to a screw piece for the insulation material construction of the concrete wall surface so that in the construction of the insulation material and the finishing material on the concrete wall surface, it is simple and easy to maintain the robustness after construction.

In general, insulators and finishes are constructed on the walls of buildings constructed by pouring concrete to prevent insulation, soundproofing, and water leakage, and various methods have been developed and proposed in the related art.

For example, as a conventional method of constructing a heat insulating material and a finishing material, which is widely used, the heat insulating material 2 of styrofoam having a plate shape is directly attached to the wall surface 1 using an adhesive B as shown in FIG. On the surface of the heat insulator 2, a connecting member 3 made of a material such as wood, metal, synthetic resin, etc. is installed at predetermined intervals, and then the finishing material 4 is fixed to nails, screws, or a Taka gun. It is the structure to make the installation by using.

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 this problem, as shown in FIG. Afterwards, the surface of each sand layer was sprayed again, and the heat insulating material 2 was fixed to the wall 1 by the method of mutual bonding of the sand layers sprayed with the adhesive. And the surface of the heat insulating material (2) was fixed to the finish material (3) by using a double-sided tape (5).

Since the method of fixing the heat insulating material (2) and the finishing material (3) of the above method using sand (6), the effect of heat insulation may be good, but there is a problem that the adhesive strength is poor, and the particle size of the sand should be uniform There is a difficulty in preparing sand and it takes a lot of time.

The present invention has been invented to solve the above problems, the purpose of which is easy and easy in the construction work in the construction of the insulation and the finishing material on the concrete wall, as well as maintaining the robustness after construction as well as insulation and sound insulation and leakage It is to provide a screw piece for the insulation construction of the concrete wall to prevent it.

In order to achieve the above object, the screw piece for insulation construction of the concrete wall surface of the present invention has a cone-shaped head portion 41 having a "+" type and a "-" shaped hand tool coupling groove 42 formed at the center of the upper surface thereof. A neck 43 is formed at a lower portion of the head of the conical shape, and a shaft 44 having a diameter smaller than the diameter of the neck and having a sharp bottom is formed at a lower end of the neck, and a screw 45 at the outer circumference of the neck and the shaft. Are formed to be connected to each other.

And the screw formed to be connected to the outer periphery of the neck and the shaft is made of a plate shape gradually thicker toward the neck and axis from the blade portion 46 of the tip, the screw on one side upper / lower surface of the step (47) 48 is formed, and the stepped portion formed on the upper and lower surfaces of the plate-shaped screw is formed from the upper side to the lower side of the screw on one side collinear line of the screw, and the outer diameter of the screw formed to be connected to the outer circumferential edge of the neck and the shaft. Is made smaller than the top outer diameter of the head.

In addition, the construction method of the heat insulating material of the concrete wall surface of the present invention for achieving the above object is to install the heat insulating material 20 and the finishing material 30 on the surface of the concrete wall sequentially by using a fixing means,

Providing a heat insulator 20 having a rough surface 21 processed to have a predetermined roughness on one side surface thereof, and having a recessed groove 22 formed at a predetermined interval on the rough surface; Applying and filling adhesive to part or all of the rough surface and the concave groove (22); Adhering one side of the adhesive-coated insulator 20 to a corresponding surface of the concrete wall surface; Superimposing a finish 30 on the other surface of the heat insulating material 20 adhered to the corresponding surface of the concrete wall surface; After the step, a conical head portion 41 having a "+" or "-" shaped hand tool coupling groove 22 is formed at the center of the upper surface, and a neck 43 is formed at the lower portion of the head of the conical shape. The lower end of the neck having a diameter smaller than the diameter of the neck is formed with a pointed shaft 44, the lower end of the neck and the outer periphery of the shaft by using a screw piece 40 formed so that the screw 45 is connected to each other the finishing material It penetrates through and consists of a configuration comprising the step of fixing to the insulation.

As described above, the present invention has the effect of reducing the construction time and reducing the construction cost by simply and easily constructing the insulation and the finishing material on the wall of the crete, and secondly, ensuring safety by continuously maintaining the robustness after construction. There is an effect, and third, there is an effect that can protect the wall surface of the building by being able to prevent insulation and sound insulation and leakage.

Specific contents of the present invention for achieving the above effect is to first fix the heat insulating material 20 to the corresponding surface of the concrete wall surface 10, the specific method is one side of the heat insulating material 20 (face attached to the wall surface 10) ) By using a roller (not shown) formed with a projection to form a surface roughness, that is, a rough surface 21. And one side of the heat insulating material 20, the rough surface 21 is formed to form a recess groove 22 is filled with the adhesive.

The reason for forming the rough surface 22 on one side of the heat insulating material 20 is to improve the adhesive force of the adhesive (B) described below, the reason for forming the recess groove 22 is the adhesive (B) It is to increase the adhesive strength by filling.

The concave groove 22 is processed by a cutter or the like, and the depth and the width are 2 to 4 mm, respectively, the shape is sufficient to be cylindrical or triangular or more polygons, the spacing of the concave groove 22 is preferably 30 to 40 mm. .

When the rough surface 21 and the concave groove 22 are formed on one side of the heat insulating material 20, the adhesive B is applied to all or part of the rough surface 21 or filled into the concave groove 22. It is glued to the corresponding surface of the concrete wall surface 10. When the heat insulating material 20 is bonded to the concrete wall surface 10 as described above, a strong adhesion is achieved by the adhesive filled in the recess groove 22 and the adhesive applied to the rough surface 21.

Thereafter, the finishing material 30 is superposed on the other surface of the insulating material 20, and the screw piece 40 penetrates the finishing material 30 and is fixed to the insulating material 20. However, the finish 30 processes a hole to fix the screw piece 40 before overlapping the insulation (20).

In the above process, the structure of the screw piece 40 has a conical head portion 41 having a "+" or "-" shaped hand tool coupling groove 42 formed in the center of the upper surface as shown in FIGS. 4 to 6. A neck 43 is formed at a lower portion of the head of the conical shape, and a shaft 44 having a diameter smaller than the diameter of the neck and having a sharp bottom is formed at a lower end of the neck, and a screw at the outer periphery of the neck and the shaft. 45 are formed to be connected to each other.

And the screw 45 formed to be connected to the outer periphery of the neck 43 and the shaft 44 is formed in a plate shape gradually thickening toward the neck and the shaft from the blade portion 46 of the tip, the plate-like Steps 47 and 48 are formed on upper and lower surfaces of one side of the screw.

In addition, the stepped protrusions 47 and 48 formed on one side of the plate-shaped screw 45 on the upper and lower surfaces thereof are formed from the upper side to the lower side of the screw on one side of the screw, and the outer circumference of the neck 43 and the shaft 44. The outer diameter r of the screws 45 that are connected to each other in the kite is smaller than the uppermost outer diameter R of the head 41.

The reason why the shape of the head 41 is conical in the structure of the screw piece 40 is to increase the coupling force with the hole punched in the finish 30, and the diameter of the neck 43 is the axis 44. The reason for making the diameter larger than is that fixing the screw piece 40 causes a large stress between the lower end of the head 41 and the upper end of the neck 43, so that the head 41 moves from the neck 43. The diameter of the neck 43 is made larger than the diameter of the shaft 44 in the reinforcement dimension in order to prevent the breakage occurs.

In addition, the bottom of the shaft 44 is pointed to form the smooth fixing of the screw piece 40, the screw 45 is formed to be connected to each other on the outer periphery of the neck 43 and the shaft 44 One reason is that it is also formed for the smooth fixing of the screw piece (40). However, the screw 45 is formed in the shape of a plate gradually thicker from the blade portion 46 of the tip to the neck 43 and the shaft 44, for the purpose of providing the firmness of the screw 45 to be.

In addition, the reason why the screw 45 is plate-shaped is to increase the bonding force between the heat insulating material 20 and the finish material 30 as well as to serve as an anchor. And the reason why the stepped 47, 48 is formed on one side upper / lower surface of the plate-shaped screw 45, as described above also increases the coupling force between the heat insulating material 20 and the finishing material 30, as well as more anchor effect. It is to increase the height, and to prevent the loosening shape of the screw piece (40).

On the other hand, the outer diameter (r) of the screw 45 formed to be connected to the outer periphery of the neck 43 and the shaft 44 is formed smaller than the uppermost outer diameter (R) of the head 41, the reason is the screw 45 When the outer diameter (r) of the () is larger than the uppermost outer diameter (R) of the head portion 41, the fixing of the finishing material 30 fixed by the head portion 41 is not firm and flow occurs. Therefore, it is preferable that the outer diameter r of the screw 45 is smaller than the uppermost outer diameter R of the head 41.

As described above, in the present invention, as shown in FIGS. 7 and 8, the heat insulating material 20 is firmly fixed to the wall surface 10 by the rough surface 21 and the recess groove 22 and the adhesive B. In addition, the finishing material 30 is firmly fixed by the screw piece 40 to the heat insulator 20, thereby maintaining the firmness after construction has the advantage of preventing rulon, heat insulation and sound insulation and leakage.

1 is a cross-sectional view of a first embodiment for explaining a method for constructing a heat insulating material of a conventional concrete wall;

1 is a cross-sectional view of a second embodiment for explaining a method for constructing a heat insulating material of a conventional concrete wall;

3 is a cross-sectional view illustrating a heat insulating material structure of the present invention;

4 is a perspective view for explaining a screw piece structure of the present invention,

Figure 5 is a side view for explaining the screw piece structure of the present invention,

6 is a cross-sectional view illustrating the screw piece structure of the present invention;

Figure 7 is a cross-sectional view for explaining the process of constructing the insulation on the concrete wall surface of the present invention,

Figure 8 is a cross-sectional view of a state in which the insulation is installed on the concrete wall surface of the present invention.

Description of the Related Art [0002]

10 wall 20 insulation

21: rough side 22: indentation groove

30: finishing material 40: screw piece

41: head 42: hand tool coupling groove

43: neck 44: axis

45: screw 46: blade

47,48: step R, r: head and screw outer diameter

Claims (8)

The upper portion of the piece for fixing the heat insulating material on the surface of the concrete wall surface is formed in the center of the upper surface of the conical head portion 41 is formed with a "+" type and "-" shaped hand tool coupling groove 42, the head of the conical shape ( 41) The lower portion of the neck 43 is formed, the lower end of the neck 43 has a diameter smaller than the diameter of the neck is formed with a pointed shaft 44, the screw 45 is connected to each other on the outer periphery of the neck and shaft In the form of a fork, The screw 45 formed to be connected to each other on the outer circumferential edge of the neck 43 and the shaft 44 is formed in a plate shape gradually thicker toward the neck and the shaft from the blade portion 46 of the tip, the screw (45) One step (47, 48) is formed on the upper and lower surfaces, Steps 47 and 48 formed on the upper and lower surfaces of one side of the plate-shaped screw 45 are formed from the upper side to the lower side of the screw on one side collinear line of the screw. The outer diameter of the screw (45) formed to be connected to each other on the outer periphery of the neck (43) and the shaft (44) is smaller than the outer diameter of the top of the head portion 41, the construction of the heat insulating material screw piece. delete delete delete delete delete delete delete

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