KR102305112B1 - Hera for repairing crack on building surface - Google Patents

Abstract

The present invention relates to a functional spatula for crack repair cladding thickness quality. The functional spatula for crack repair cladding thickness quality. The functional spatula for crack repair cladding thickness quality includes: a blade (10) for repairing a cracked part (C) of a building with a paste putty; and a handle (20) combined with one end of the blade (10). The blade (10) includes: a blade body (11) becoming gradually wider while going forward from a combination end (11a) combined with the handle (20) while having a curved surface (12) formed therein; a fabric layer (13) embedded in the blade body (11) to apply three-dimensional durability; and an edge end (14) formed on a front lower surface of the blade body (11) across from the combination end (11a), and becoming gradually thinner while going forward. Therefore, the present invention is capable of enabling high-quality repairing on a cracked part.

Description

Functional Hera for repairing crack on building surface

The present invention relates to a spatula for repairing cracks in a building, and more particularly, to a functional spatula for crack repair coating thickness quality, which can be used semi-permanently and can maintain high-quality coating thickness uniformly.

1 is a perspective view of a conventional crack repair spatula for repairing cracks on the surface of a building.

A conventional spatula is composed of a flat blade 1 made of a rubber material and a handle 2 connected to the blade 1, and the blade 1 and the handle 2 are fastened by bolts and nuts. At this time, the blade (1) is gradually thinner toward the opposite side of the handle (2) to form a sharp edge (3).

In order to repair the cracks formed on the surface of the building using such a spatula, the worker holds the handle 2 and spreads the dough putty, which is a crack repair agent, with the blade 1, then burys the cracks along the cracks, and then attaches the blade 1 to the building. While moving in close contact with the surface, the dough putty was filled with cracks such as cracks or crack grooves formed along the top of the crack, and then flattened.

However, in order to bring the edge end 3 into close contact with the building surface, it is necessary to hold the handle 2 and strongly press the blade 1, but over time, the blade 1 loses elasticity and becomes a bent state. In this case, it is necessary to press the blade 1 with a stronger force in order to bring the edge end 3 into close contact with the building surface, thereby causing a lot of strain on the wrist of the operator.

In addition, since the blade 1 is made of a rubber material, the abrasive groove 3a partially worn as the sharp edge 3 is rubbed at a finely uneven building surface or a sharp edge between a crack and the building surface is formed, and the wear groove 3a left putty on the surface of the building or the surface of the putty covering filling the cracks was uneven, resulting in poor repair quality.

And since the flat blade 1 has a limited amount of dough putty that can be floated at one time, it was necessary to repeatedly knead the dough putty several times when the crack area was large, which increased the time required for the repair process and increased fatigue. .

The present invention was created to solve the above problems, it can be used semi-permanently because it does not wear out even after repeated use, and it does not require a lot of force in the repair process, so it can prevent strain on the wrist, and it can float at once. An object of the present invention is to provide a functional spatula for crack repair coating thickness quality that can reduce the time required in the repair process by increasing the amount of dough putty, which is a crack repair agent.

In order to achieve the above object, a functional spatula for crack repair coating thickness quality according to the present invention, a blade 10 for repairing the crack area (C) of a building with kneaded putty, and the blade 10 In the Hera including a handle 20 coupled to one end, the blade 10 has a curved surface ( 12) and a blade body 11 formed thereon; a fabric layer 13 embedded in the blade body 11 to give three-dimensional durability; It characterized in that it comprises a; as formed on the front lower surface of the blade body 11 opposite the coupling end (11a), the edge end (14) that becomes thinner toward the front.

In the present invention, it further includes a round edge (15) formed at the end of the edge end (14).

In the present invention, the curved surface 12 is a first curved surface (12a) curved toward the edge end 14 on the basis of the horizontal surface (L) passing through the center of the blade body 11, and the and a second curved surface (12b) curved toward the handle (20); The angle between the first curved surface 12a and the horizontal plane L is greater than the angle between the second curved surface 12b and the horizontal piece L.

According to the present invention, the blade body 11 has a uniform thickness (D) from the coupling end (11a) to the edge end (14), and the curved surface that is gradually curved toward the edge end (14) side of the blade body (11) (12) is formed, and since the fabric layer 13 is embedded in the blade body 11, the initial elasticity can be maintained even if the blade body 11 is repeatedly pressed to the building surface B1 for repair, and thus Accordingly, it is possible to prevent strain on the wrist of the operator even if the maintenance work is carried out for a long time, and since the elasticity is kept constant, the cracked area can be repaired with a uniform coating thickness.

In addition, since the blade body 11 is bent downward toward the edge end 14 side, the edge end 14 can be brought into close contact with a small force, and it is possible to prevent further strain on the operator's wrist.

In addition, since the edge 14 is in close contact with the building surface in a large area, the surface in close contact with the building surface increases in the process of repairing cracks with putty, and accordingly, the pressure applied to the edge 14 is dispersed and the edge It is possible to prevent the end 14 from being worn. Accordingly, semi-permanent use is possible.

And since the blade body 11 is bent downward, there is a large amount of dough putty that can be floated at once, and accordingly, it is possible to reduce the number of times to float the dough putty in the process of filling cracks with putty. time can be shortened.

1 is a perspective view of a conventional crack repair spatula for repairing cracks on the surface of a building;
2 is a perspective view of a spatula for repairing cracks according to the present invention;
3 is a cross-sectional view of the Hera for incidental use along the line III-III' of FIG. 2;
Figure 4 is a plan view showing an extract of the blade of Figure 2;
Figure 5 is a view for explaining that the round edge of Figure 2 is in close contact with the upper both surfaces of the cracked portion.

Hereinafter, a functional spatula for crack repair coating thickness quality according to the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, what is described as "upper" or "upper" may include not only those directly above in contact, but also those above in non-contact. Terms such as first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. The singular expression includes the plural expression unless the context clearly dictates otherwise. In addition, when a part "includes" a certain component, this means that other components may be further included, rather than excluding other components, unless otherwise stated. In addition, terms such as "...unit" and "module" described in the specification mean a unit that processes at least one function or operation. Where certain embodiments are otherwise feasible, a specific process sequence may be performed different from the described sequence. For example, two processes described in succession may be performed substantially simultaneously, or may be performed in an order opposite to the order described.

2 is a perspective view of a spatula for repairing cracks according to the present invention, FIG. 3 is a cross-sectional view of a spatula along the line III-III' of FIG. 2, and FIG. 4 is a plan view showing the blade of FIG. , FIG. 5 is a view for explaining that the round edge of FIG. 2 is in close contact with the upper both surfaces of the crack site.

As shown, the functional spatula for crack repair coating thickness quality according to the present invention includes a blade 10 for repairing the crack area (C) of a building with kneaded putty as a crack repair material, and one end of the blade 10 It includes a handle 20 connected to the center.

The front of the handle 20 has a structure in which a bracket 21 having a groove having a cross section of a “u” is formed, and after the blade 10 is inserted into the bracket 21 , the bolt nut penetrates the bracket 21 . By being fastened, the blade 10 is coupled to the handle 20 .

The blade 10 includes a blade body 11 having a curved surface 12 that is bent at the same time as the width is widened from the coupling end 11a to which the handle 20 is coupled to the front side; a fabric layer 13 embedded in the blade body 11 to give three-dimensional durability; The edge end 14 which is formed on the front lower surface of the blade body 11 opposite the coupling end 11a and becomes thinner toward the front; and a round edge (15) formed to be rounded at the end of the edge end (14).

The blade body 11 is implemented by heating a mixture of sulfur powder, carbon black, zinc oxide, silica and a catalyst in natural rubber. Since the vulcanized rubber makes a bridge structure through sulfur atoms, the blade body 11 has very high elasticity, and the strength is greatly increased. The blade body 11 has a uniform thickness (D) between the coupling end (11a) and the edge end (14), in this case, the thickness (D) is 3 to 10mm, preferably has a thickness of 5mm.

The curved surface 12 is, as shown in FIG. 3, a first curved surface (12a) bent downward from the edge end 14 side with respect to the horizontal surface (L) passing through the center of the blade body 11 . And, it includes a second curved surface (12b) bent downward from the handle (20) side. At this time, the angle between the first curved surface 12a and the horizontal plane L is greater than the angle between the second curved surface 12b and the horizontal piece L. Accordingly, the bending angle of the curved surface 12 gradually increases from the handle 20 side toward the edge end 14 side.

This curved surface 12 forms a space in the blade body 11 that is progressively dented from the handle 20 side to the edge end 14, and the dented space is the amount of dough putty that can float for repair work. can make it big

In addition, as the bending angle gradually increases toward the edge end 14, the edge end 14 can be brought into close contact with the building surface B1 with a small force, thereby reducing fatigue in the maintenance work process.

The fabric layer 13, as shown in FIG. 3, is implemented by woven polyester and rayon fibers in the transverse and longitudinal directions. The fabric layer 13 is built into the blade body 11 so that the blade body 11 can maintain the curved surface 12 to provide durability in the form of granules.

In this way, the blade body 11 has a uniform thickness between the coupling end 11a and the edge end 14, and the blade body 11 is curved toward the edge end 14. A curved surface 12 is formed. , since the fabric layer 13 is embedded, the blade body 11 is attached to the building surface ( B) Even if repeatedly pressed to the side, the blade body 11 maintains the elasticity to recover to the bent initial state.

The edge end 14 is formed obliquely toward the floor on the front end surface of the blade body 11 of a uniform thickness (D) as shown in FIG. 3, and the width formed by the edge end 14 is 1 in the range of ˜3 cm, preferably 2 cm. Since the edge end 14 is formed on the blade body 11 of a uniform thickness (D), when the blade body 11 is pressed for repair work, the edge end 14 is formed with the building surface (B) and wide It is closely adhered to the area, and thus the pressure applied to the edge 14 is distributed, so that the edge 14 is minimized from being abraded by friction with the building surface or the edge of the cracked area. Accordingly, it is possible to improve the repair quality by preventing the putty from remaining on the surface of the building after the repair work is completed or the surface of the putty covering filling the cracks from becoming uneven.

The round edge 15 is formed by processing the end of the edge end 14 to be round. The round edge 15 is in close contact with the greatest force at the crack site when the edge end 14 is moved in close contact with the building surface (B) and the crack site, and thus putty into the crack (C) of the crack site Not only can (P) penetrate effectively, but also the cracks can be repaired flatly, resulting in improved repair quality. That is, by the round edge 15, the boundary between the crack site such as the crack C or the crack groove C1 and the building surface B does not remain, so that the repair quality can be improved.

If the round edge 15 is not employed, when the blade body 11 is pressed, the edge end 14 may lift at the boundary between the crack site and the building surface (B), and in this case, at the edge or interface of the crack site As the putty remains, the repair quality may be deteriorated.

As described above, according to the present invention, the blade body 11 has a uniform thickness D from the coupling end 11a to the edge end 14, and gradually bends toward the edge end 14 on the blade body 11. The curved surface 12 is formed, and the fabric layer 13 is embedded in the blade body 11, so that the initial elasticity can be maintained even if the blade body 11 is repeatedly pressed against the building surface B1 for repair. Therefore, even if the maintenance work for a long time, it is possible to prevent the operator's wrist from being strained, and since the elasticity is kept constant, the cracked area can be repaired with a uniform coating thickness.

In addition, since the blade body 11 is bent downward toward the edge end 14 side, the edge end 14 can be brought into close contact with a small force, and it is possible to prevent further strain on the operator's wrist.

In addition, since the edge 14 is in close contact with the building surface in a large area, the surface in close contact with the building surface increases in the process of repairing cracks with putty, and accordingly, the pressure applied to the edge 14 is dispersed and the edge It is possible to prevent the end 14 from being worn. Accordingly, semi-permanent use is possible.

And since the blade body 11 is bent downward, it is possible to increase the amount of dough putty that can float at a time, and accordingly, it is possible to reduce the number of times to float the dough putty in the process of filling cracks with putty. time can be shortened.

Although the present invention has been described with reference to one embodiment shown in the drawings, which is only exemplary, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom.

10 ... blade 11 ... blade body
11a ... coupling end 12 ... curved surface
12a ... first curved surface 12a ... second curved surface
13 ... fabric layer 14 ... edge edge
15 ... round edge 20 ... handle

Claims (3)

In the Hera comprising a blade (10) for repairing a cracked area (C) of a building with kneading putty, and a handle (20) coupled to one end of the blade (10),
The blade 10 is
a blade body 11 formed with a curved surface 12 that is bent downwardly at the same time as the width increases toward the front side from the coupling end 11a to which the handle 20 is coupled;
a fabric layer 13 embedded in the blade body 11 to give three-dimensional durability;
The edge end 14 formed obliquely toward the floor on the front end face of the blade body 11 opposite the coupling end 11a;
The curved surface 12 is a first curved surface 12a bent toward the edge end 14 on the basis of the horizontal surface L passing through the center of the blade body 11, and the handle 20 toward the side. Comprising a second curved surface (12b) to be bent,
Functionality for crack repair coating thickness quality, characterized in that the angle between the first curved surface 12a and the horizontal surface L is greater than the angle formed by the second curved surface 12b with the horizontal piece L Hera. According to claim 1,
Functional spatula for crack repair coating thickness quality, characterized in that it further comprises a round edge (15) formed at the end of the edge end (14). 3. The method of claim 2,
The blade body 11 is a functional spatula for crack repair coating thickness quality, characterized in that it has a uniform thickness between the coupling end (11a) and the edge end (14).

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