KR102553362B1 - Reinforcement tool for Crack prevention of Brick Wall and construction method thereof - Google Patents

Abstract

The present invention relates to a reinforcer for masonry crack prevention and a construction method thereof and, more specifically, to a reinforcer for masonry crack prevention capable of securing the safety of a constructed wall by reinforcing a cracked part formed on a masonry wall with a reinforcer such that the cracked part does not become wider, and a construction method thereof. The present invention comprises: a body (10) formed into a U-shape; an adhesive (12) attached to one side of the body (10); and a reinforcer (100) formed by applying a protecting agent (14) to the body (10), to which the adhesive has been applied (12), and curing the protecting agent thereon. Advisably, the reinforcer (100) is installed to surround a vertical cracked part (402) formed on a masonry wall (200) and constructed on a joint between the masonry wall (200) and another masonry wall (200). Accordingly, the reinforcer, which is miniaturized and lightened, is used to prevent a crack occurring in a masonry wall, thereby having an effect of shortening a construction period and having an effect of considerably improving economic feasibility with a reduction in material and manpower costs. Moreover, in accordance with the present invention, the reinforcer can prevent dust and noise occurring during removal, thereby having an effect on solving environmental issues and reducing environmental pollution.

Description

Reinforcement tool for crack prevention of Brick Wall and construction method thereof}

The present invention relates to a reinforcement tool for preventing masonry cracks and a construction method thereof, and more particularly, to a place where repair and reinforcement in a cracked state is required among buildings constructed with stucco bricks and currently used, or an earthquake or ground that may occur in the future For structures that require preventive measures for areas where losses may occur due to natural disasters such as subsidence, the safety of construction walls against earthquakes, etc. It relates to reinforcement tools for preventing masonry cracks and construction methods for preventing cracks in masonry walls that can be secured.

In general, when finishing a building with chibang bricks, usually stucco bricks are used, and after stacking cement bricks or constructing concrete walls on the inside, installing insulation on the wall facing the outside, and stacking stucco bricks on the outside facing the insulation After that, install the joint and finish it.

At this time, as a means to prevent the fall of the stucco brick and the occurrence of cracks, various reinforcing irons are used to connect to the pre-constructed structure, that is, the cement masonry wall or concrete wall to provide a support shaft, or to fix the bricks in the horizontal direction. It has been constructed by applying a construction method to suppress cracks by supporting the external force that is trying to open between bricks by installing it, and it is maintained. It has occurred in the form of damage, and consequently, human life or property damage has occurred, and a repair and reinforcement plan that can solve these unsafe elements is needed.

However, in the existing technologies, there is a method of preventing cracks from opening any more and suppressing additional cracks by installing long ironwork after partially removing the joints of the stucco brick surface, but even this is insufficient in the ability to resist longitudinal cracks. It was limited as a construction method for lateral cracks, and the ability to cope with transverse cracks was lost, and the workability, economy, and adhesion performance between materials were insufficient.

In addition, in the case of stucco bricks used as a finishing material for buildings as described above, it often occurs that some of the stucco bricks stacked on the retaining wall fall off or collapse due to external pressure such as earthquake or natural settlement.

In particular, in recent years, there has been a phenomenon in which exterior materials such as stucco bricks completely collapse due to frequent earthquakes, which is due to the weak adhesion between the exterior materials such as stucco bricks and the retaining wall.

In general, when laying stucco bricks used as exterior materials for retaining walls, bonding is performed using adhesives or cement pastes, and these cement pastes perform the function of joints.

At this time, since the curing period has already passed and the cement pool applied for the construction of the stucco bricks does not mix with each other and separates, it can be said that the adhesion with the retaining wall did not become strong from the beginning, and the stucco bricks It is maintained in a fixed state only by the cement paste.

For this reason, when the ground subsides, excavation work around the building, or an earthquake occurs, the stucco bricks are separated from the retaining wall, and in severe cases, the entire wall collapses, leading to a safety accident.

In addition, a repair and reinforcement method that can prevent additional cracks and reinforce the cracked concrete wall or floor surface was required, and reinforcement materials were constructed and installed.

However, the existing reinforcing materials and reinforcing methods have a problem in that the length of the reinforcing material is long and bulky, so that a lot of time is spent during demolition work after reinforcing, and economical efficiency is low due to excessive input of material and labor costs.

In addition, since the amount of demolition increases in proportion to the size of the reinforcing material, the dust and noise generated during demolition cause serious environmental problems. When constructing, there was a problem of poor adhesion performance due to the difference in physical properties between the epoxy-based bonding agent and the joints.

Korean Patent Publication No. 10-2018-0086228 (published on July 26, 2018) Korean Registered Patent No. 10-0207857 (registered on April 13, 1999) Korean Registered Patent No. 20-0291469 (registered on September 26, 2002)

The present invention has been made to solve the above problems, and by inserting and fixing a reinforcing tool capable of fixing and holding the masonry wall, cracks occur in the masonry wall and catch the masonry wall trying to spread and expand, thereby improving safety. Its purpose is to provide a reinforcement tool for preventing masonry cracks and a construction method for preventing cracks that can be secured.

An object of the present invention is to provide a reinforcement tool for preventing cracks in masonry, which can reduce the amount of dust and noise removed during demolition and reduce the amount of demolished objects by reducing the size and weight of the reinforcing tool for preventing cracks in masonry walls.

In addition, the present invention installs a reinforcing tool to prevent cracking, applies an adhesive, uses a reinforcing tool to which yarn is applied, applies an adhesive to the reinforcing tool and the demolition part, and constructs a joint to perform adhesion between the construction part and the joint joint surface. Its purpose is to provide a reinforcement tool for preventing masonry cracks that can improve and a construction method thereof.

The present invention can repair and reinforce the stucco brick without going through the process of demolishing or reconstructing it, and can repair and reinforce it after removing it by minimizing a part of the mortar for lamination between the joints and masonry constituting the structure of the stucco brick, and Unlike the method that relied on the load capacity proportional to the length of the fastened ironwork, it is possible to increase the attachment performance between the reinforcing fixture and the joint by providing a means with an efficient load capacity by reducing the length and forming irregularities by applying silica sand to the surface of the reinforcing fixture. The purpose is to provide reinforcement tools for preventing masonry cracks and their construction methods that can reduce dust, noise, labor costs, etc. generated proportionally by reducing the amount and reduce the amount of waste generated accordingly.

The present invention is not limited to the above-described objects, and other objects not mentioned may be provided within a range that can be clearly understood by those skilled in the art to which the present invention belongs.

The present invention includes a body 10 made of a D-shaped (c) shape; An adhesive 12 adhered to one side of the body 10; It is characterized in that the reinforcement 100 is formed by applying a protective agent 14 to the body 10 to which the adhesive 12 is applied and curing it.

It is preferable that the reinforcing hole 100 is installed to cover the vertical cracks 402 formed in the masonry wall 200 and installed in the joint between the masonry wall 200 and the masonry wall 200 .

The protective agent 14 is preferably silica sand.

And, in the present invention, in a construction wall in which a masonry wall 200 with joints and a concrete wall 300 are constructed and cracks occur in the longitudinal direction in the masonry wall 200 to form vertical cracks 402,

A joint and mortar demolition step (S10) of removing the joint and mortar formed around the vertical crack portion 402;

A mortar layer drilling step (S20) of forming a plurality of holes in the mortar layer after removing the joint and the mortar;

After forming a hole in the mortar layer, a dust cleaning step (S30) of removing dust generated when the hole is drilled in a state in which the hole is drilled;

After drilling the hole, an injection solution filling step (S40) of injecting and filling the hole with a filler;

A reinforcing tool construction step (S50) of filling the hole with a filler and inserting the reinforcing tool 100 into the hole into which the filler is injected so that the vertical crack 402 is firmly fixed without widening;

It is characterized in that it includes an adhesive application step (S60) of inserting the reinforcing ball 100 to prevent cracking of the vertical crack portion 402, and then applying and attaching the adhesive.

As described above, the present invention has the effect of shortening the construction period by preventing cracks generated in the masonry wall using a small and lightweight reinforcing tool, and greatly improving economic feasibility by reducing material and labor costs. .

In addition, the present invention has an effect of solving environmental problems and reducing environmental pollution by preventing dust and noise generated during demolition.

In addition, the present invention has the effect of increasing the reliability of construction and preventing safety accidents by greatly improving the adhesion with the sink part during construction of the reinforcing tool.

1 is a perspective view showing a structure in which a reinforcing tool for preventing masonry cracks of the present invention is installed
Figure 2 is a front view showing a structure in which the reinforcing tool for preventing masonry cracks of the present invention is constructed
Figure 3 is a side view showing a structure in which the reinforcing tool for preventing masonry cracks of the present invention is constructed
Figure 4 is a plan view showing a structure in which the reinforcing tool for preventing masonry cracks of the present invention is constructed
Figure 5 is a construction view showing a crack prevention construction method of the reinforcing tool for preventing masonry cracks of the present invention
Figure 6 is a process chart showing the crack prevention construction method of the reinforcing tool for preventing masonry cracks of the present invention

Objects, other objects, features and advantages of the present invention below will be easily understood through the following preferred embodiments in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms.

Rather, the embodiments introduced herein are provided so that the disclosed content will be thorough and complete and the spirit of the present invention will be sufficiently conveyed to those skilled in the art.

Embodiments described and illustrated herein also include complementary embodiments thereof.

In this specification, singular forms also include plural forms unless specifically stated otherwise in a phrase. Elements referred to as 'comprise' and/or 'comprising' used in the specification do not exclude the presence or addition of one or more other elements.

In addition, in describing configurations described as embodiments below, descriptions of technical details that are well known in the technical field to which the present invention pertains and are not directly related to the present invention will be omitted. This is to further clarify the gist of the present invention without obscuring it by omitting unnecessary description.

Hereinafter, specific embodiments according to the reinforcing tool for preventing masonry cracks and the construction method of the present invention will be described.

1 is a perspective view showing a structure in which a reinforcement for preventing cracks in masonry of the present invention is installed, FIG. 2 is a front view showing a structure in which a reinforcement for preventing cracks in masonry according to the present invention is installed, and FIG. 3 is a reinforcement for preventing cracks in masonry according to the present invention. It is a side view showing a structure in which spheres are constructed, and FIG. 4 is a plan view showing a structure in which a reinforcing sphere for preventing masonry cracks according to the present invention is constructed.

Further, FIG. 5 is a construction diagram showing a crack-preventing construction method for a reinforcement member for preventing masonry cracks according to the present invention, and FIG. 6 is a process diagram showing a method for crack-preventing a reinforcement member for preventing masonry crack prevention according to the present invention.

Referring to FIGS. 1 to 6, the reinforcing tool for preventing cracks in masonry and the construction method thereof according to the present invention will be described. As shown in FIGS. 1 to 4, the reinforcing tool 100 is a reinforcing material in the shape of (10), an adhesive 12 bonded to one side of the reinforcing material 10, and a protective agent 14 such as silica sand that is bonded to the adhesive 12 to reinforce the reinforcing material 10.

Referring to FIG. 1, first, a crack-reinforcing construction wall 400 is installed, and a masonry wall 200 with vertical cracks 402 formed in a longitudinal direction is installed on the crack-reinforcing construction wall 400. , and a concrete wall 300 is constructed and installed at the rear of the masonry wall 200.

Vertical cracks 402 are generated in the longitudinal direction at the front of the masonry wall 200, and a plurality of reinforcing holes 100 are installed to prevent the vertical cracks 402.

The plurality of reinforcing holes 100 may be constructed and installed at the upper, middle, and lower ends of the masonry wall 200, respectively, and are preferably installed at joints to prevent cracks in the vertical cracks 402. .

Referring to FIG. 2, first, a masonry wall 200 is constructed, and longitudinal cracks 402 and transverse cracks 404 are formed in the entirety of the masonry wall 200.

A plurality of reinforcing balls 100 are coupled to the vertical crack part 402, and a plurality of reinforcing balls 102 are coupled to the horizontal crack part 404.

The plurality of reinforcing spheres 100 are formed in a D-shaped (c) shape, and the plurality of reinforcing spheres 102 are formed by combining a concavo-convex upper sphere and a lower sphere formed in a letter O shape.

Subsequently, referring to FIG. 3, a concrete wall 300 is constructed on one side, and a masonry wall 200 is constructed on the other side, and cracks are formed between the joints where the masonry wall 200 is constructed. A reinforcing tool 100 is installed to prevent this.

4 is a plan view showing a structure in which the reinforcing tool of the present invention is installed, in which a masonry wall 200 is constructed on the front side of a concrete wall 300, and a vertical crack 402 is formed in the masonry wall 200. has been

At this time, the reinforcing tool 100 is installed in the form of a diggut character or a stapler so as to surround the left and right portions of the vertical crack 402 .

5 is a construction diagram showing a crack reinforcement construction method using a reinforcement tool for preventing cracks according to the present invention. First, a concrete wall 300 is constructed, and a masonry wall 200 is installed in the entirety of the concrete wall 300. is installed, and a vertical crack 402 is formed in the masonry wall 200.

When the vertical cracks 402 are formed as described above, the demolition part 104 is formed by removing the joint and the mortar in the area where the vertical cracks 402 are formed.

It is preferable to perform the demolition work with a length of 300-380mm, a thickness of 5-10mm, and a depth of 10-20mm based on the vertical crack portion 402.

Thereafter, two holes are drilled in the masonry wall 200, and furthermore, two to four holes 106 may be formed. At this time, the diameter of the hole is preferably formed in the range of 5-10 mm and the depth is formed in the range of 40-60 mm.

After drilling the hole, the filling part 108 is prepared by removing dust generated from the drilling part.

After the filling part 108 is provided in the two holes of the perforation part 106 formed as described above, the filling material is filled in the hole. It is preferable to use a chemical anchor injection solution as the filler.

Subsequently, after filling the hole of the perforation part 106 with a filler, the reinforcement part 100 is inserted and constructed to prepare the reinforcing part 110 . The reinforcing tool 100 is preferably made of metal, and furthermore, synthetic resin, engineering plastics, non-ferrous alloys, and the like can be used.

By inserting the reinforcing ball 100 to catch the force that the vertical crack 402 tends to expand, it can be restrained efficiently.

The reinforcement 100 is made of a body 10 in the shape of a D-shaped (c) or stapler, and an adhesive 12 is applied to one side thereof, and a protective agent 14 such as silica sand is applied to one side of the adhesive 12. to form

Thereafter, curing is performed using a predetermined time and temperature so that the adhesive 12 and the protective agent 14 are firmly attached to the body 10 .

After constructing the reinforcing sphere 100 to the vertical crack part 402 so that the crack does not open any more, new and old adhesives are applied to the reinforcing sphere 100 and the demolition part 104 to form an adhesive part 112 ) is formed so that the reinforcing ball 100 is firmly attached while wrapping the entire left and right sides of the crack part of the masonry wall 200.

By constructing the adhesive and the joint on the reinforcing sphere 100 inserted as described above, the adhesion performance of the joint joint surface and the construction part of the vertical crack part is excellently constructed, and then, after a predetermined curing process, the crack prevention reinforcing sphere is used. The construction method is complete.

On the other hand, Figure 6 is a process diagram showing a construction method using the anti-crack reinforcing tool of the present invention. First, after finding the crack part in the state of being constructed on the masonry wall 200 and finding the vertical crack part 402, Remove the joints and mortar formed in the vertical cracks 402 (removal of joints and mortar (S10)).

After removing the joints and mortar of the longitudinal cracks 402, a plurality of holes are formed in the mortar layer on the left and right sides of the longitudinal cracks 402 to surround the longitudinal cracks 402 (mortar layer drilling step (S20)).

After drilling the hole as described above, the dust generated from the area where the mortar is removed and the area where the hole is drilled is cleaned using a dust reducer (dust cleaning step (S30)).

The drilled hole is cleaned, and a filler is injected into the hole to be filled (injection liquid filling step (S40)).

After injecting the filler, a reinforcing ball 100 is formed in the hole (reinforcing ball forming step (S90)), and the reinforcing ball 100 is inserted and installed to cover the vertical crack part 402. Do (reinforcement construction step (S50)).

In addition, after the reinforcing ball 100 is installed and fixed so that the vertical crack part 402 is not widened, an adhesive is applied to one side of the reinforcing ball 100 to be attached (adhesive application step (S60)).

After applying the reinforcement 100 and the adhesive as described above, the joint is constructed (joint construction step (S70)), and cured by providing a predetermined time and temperature (curing step (S80))

On the other hand, in the step of forming the reinforcing sphere 100 (S90), first, using a reinforcing material such as a metal material, a non-metal material, an alloy material, or a non-alloy material is bent into a D-shaped (c) shape (reinforcement material processing step (S92)), Applying an adhesive to one side of the reinforcing material (adhesive application step (S94)), and then curing at a predetermined time and temperature to complete (curing step (S96)) after applying the adhesive.

The technical problems to be achieved in the present invention are not limited to the above-mentioned technical problems, and other technical problems not mentioned can be variously implemented by those skilled in the art to which the present invention belongs, and within this range It will be said that technical modifications are within the scope of the present invention.

10: stiffener 12: adhesive
14: protective agent
100: reinforcement
102: reinforcement 104: demolition part
106: perforation part 108: filling part
110: reinforcement part 112: adhesive part
200: masonry wall
300: concrete wall 400: crack reinforcement construction wall
402: longitudinal cracks 404: transverse cracks

Claims (4)

delete delete delete In a construction wall in which a masonry wall (200) with joints and a concrete wall (300) are constructed, and cracks are generated in the longitudinal direction in the masonry wall (200), and vertical cracks (402) are formed,
A joint and mortar demolition step (S10) of removing the joint and mortar formed around the vertical crack portion 402;
After removing the joint and mortar, a mortar layer drilling step (S20) of forming a plurality of holes in the mortar layer;
After forming a hole in the mortar layer, a dust cleaning step (S30) of removing dust generated when the hole is drilled in a state in which the hole is drilled;
After drilling the hole, an injection liquid filling step (S40) of injecting and filling the hole with a filler, which is a chemical anchor injection liquid;
A reinforcing ball 100 formed by curing and applying a protective agent 14 to the body 10 to which the adhesive 12 is applied is prepared, and the reinforcing ball 100 is inserted and worked so that the vertical cracks 402 are stretched. to hold on to the strength to
The reinforcement 100 is formed by applying an adhesive 12 to one side of the body 10 in the shape of a D-shaped character (c) or a stapler and applying a protective agent 14 to one side of the adhesive 12 after,
After constructing the reinforcing sphere 100 to the vertical crack part 402 so that the crack does not open any more, new and old adhesives are applied to the reinforcing sphere 100 and the demolition part 104 to form an adhesive part 112 ) is formed so that the reinforcing ball 100 is firmly attached while wrapping the entire left and right sides of the crack of the masonry wall 200,
The protective agent 14 is silica sand,
Based on the longitudinal crack 402, demolition work is performed with a length of 300-380 mm, a thickness of 5-10 mm, and a depth of 10-20 mm, and two holes are drilled in the masonry wall 200, the diameter of the hole is 5 It is formed in the range of -10mm and the depth is formed in 40-60mm,
A reinforcing tool construction step (S50) of filling the hole with a filler and inserting the reinforcing tool 100 into the hole into which the filler is injected so that the vertical crack 402 is firmly fixed without widening;
An adhesive application step (S60) of inserting the reinforcing ball 100 to prevent cracking of the vertical crack portion 402 and then applying and attaching the adhesive,
The reinforcing ball construction step (S50) includes a reinforcement ball forming step (S90),
In the reinforcing sphere forming step (S90), using any one of the reinforcing materials of a metal material, a non-metal material, an alloy material or a non-alloy material is bent into a D-shaped (c) shape (reinforcing material processing step (S92)), and one of the reinforcing materials Applying an adhesive to the side surface (adhesive application step (S94)), and after applying the adhesive, curing at a predetermined time and temperature to complete (curing step (S96)). Crack prevention construction method using reinforcement.

Images