KR102608696B1 - Reinforcing frame for repairing cracked road surface or subsidence ground and method for repairing cracked road surface or subsidence ground using the reinforcing frame - Google Patents

Abstract

The present invention is a crack that can quickly and easily repair cracks that occur on the roof floor or road surface of a concrete structure and subsidence that occurs as the ground becomes soft due to various natural or artificial factors, while preventing additional cracks and subsidence. It relates to a reinforcing frame for repairing a road surface or subsiding ground and a method for repairing a cracked road surface or subsiding ground using the reinforcing frame.
An upper frame 10 having a rectangular structure to cope with a cracked road surface or subsiding ground, and a plurality of support bars 20 that connect the upper frame 10 to prevent distortion of the upper frame and provide rigidity; , a cohesive unit 30 of a circular or polygonal shape that is fused and fixed to the support bar 20 and the upper frame 10 to strengthen the tensile force and at the same time improve the cohesive force when pouring asphalt or mortar, and the upper frame ( It is each fixed to the lower corner of 10), and includes a height adjustment spiral 41 formed on the outer peripheral surface and a support 40 to which the height adjustment plate 50 is coupled through the spiral.

Description

Reinforcing frame for repairing cracked road surface or subsidence ground and method for repairing cracked road surface or subsidence ground using the reinforcing frame {Reinforcing frame for repairing cracked road surface or subsidence ground and method for repairing cracked road surface or subsidence ground using the reinforcing frame}

The present invention relates to a reinforcing frame for repairing a cracked road surface or subsiding ground and a method for repairing a cracked road surface or subsiding ground using the reinforcing frame. In more detail, it relates to cracks occurring on the roof floor or road surface of a concrete structure and various natural or artificial factors. A reinforcing frame for repairing cracked road surfaces or subsiding ground that can quickly and easily repair the subsiding ground caused by weakening the ground and at the same time prevent additional cracks and settlement, and a method for repairing cracked road surfaces or subsiding ground using the reinforcing frame. It's about.

In general, newly built structures using concrete, such as houses, multi-family houses, villas, apartments, and officetels, may have cracks on the floor or walls of rooftops, and cracks may also occur on paved roads.

As time passes, the cracks that develop in this way become more and more wide, and during the rainy season or on days with heavy rain, moisture accumulates inside or underground the concrete structure, or rainwater falls. When repairing this, waterproofing liquid is poured into the cracks. Alternatively, it can be completed by injecting silicone, etc. and applying a waterproofing liquid to the surface.

In addition, if the cracked area is large, waterproofing liquid or silicone can be forcibly injected using a packer and then finished. However, if the cracked area is a small gap leak of about 0.1 to 1mm, the same method as above is used. Since it is not possible to forcibly inject waterproofing fluid or silicone, waterproofing is sometimes done by making a hole around the cracked area and then forcibly injecting waterproofing fluid or silicone through the hole. A 'V'-shaped incision is made in the cracked area. Then, waterproofing was done by injecting waterproofing liquid or silicone into the 'V' shaped groove.

In the end, when repairing a cracked area, there is a common point in generally drilling a gap or hole in the cracked area and injecting waterproofing liquid or silicone, etc. As an example, Patent Application No. 10-2012-0072812 (invention of Name: Waterproofing and repair construction method for cracked parts of a building).

In Patent Application No. 10-2012-0072812, a plurality of diagonal holes are drilled around the crack area, and a waterproofing material made of urethane, silicone, foam resin, or mortar mixed with a hardener is injected into the inside of the hole. Next, a technology for repair construction by sealing using wood and cork is disclosed.

Another example is Patent Registration No. 10-183539 (title of the invention: expansion unit for repairing cracks in concrete structures and crack repair construction method using the expansion unit), in which the applicant of the present application is registered as the patentee, which covers the crack region. A technology for repairing with a new unit has been disclosed, but it has the disadvantages of the difficulty of injecting an elastic agent when fixing the new unit, and the lack of solid contact between the adhesive and the existing concrete surface.

However, the bigger problem is that once a crack occurs, it is caused not only by water leakage but also by ground subsidence or the influence of the surrounding environment, so the cracked gap gradually expands, and repair work is carried out using the above-mentioned repair method. However, if a crack has already occurred once, there is a high possibility that cracks will occur in the future.

Cracked road surfaces lead to ground subsidence. Ground subsidence is caused by cracks, and wet ground surfaces such as reclamation or dredging landfills such as coastal wetlands, rivers, lakes, and ports are caused by various natural or artificial factors. As a result, ground subsidence occurs as the ground is not sufficiently compacted and becomes soft.

As described above, soft subsiding ground may form puddles during rainy weather, hindering the flow of vehicles, or cause various safety accidents or lead to potential safety accidents depending on the location of the subsiding ground, so prompt repair is required.

As a repair and reinforcement method for such subsiding ground, there is Korean Patent No. 10-0226153, and the gist of the disclosure is to cut the ground soil by spraying high-pressure water and compressed air from a nozzle installed at the tip of the injection rod, and mix it with water. By making it into a state and discharging it to the ground and at the same time injecting ground improvement materials such as sand, gravel, or ready-mixed concrete through the large space of the injection rod material, this ground improvement material pushes the mixed ground soil at the top to the ground. It is characterized by improving the soft ground by replacing the cut portion with ground improvement material while discharging.

And Korean Patent Application No. 10-1997-024623 discloses a method of excavating the ground to a certain depth, inserting a grout injection rod into the excavation hole, raising the rod from the bottom of the excavation hole, and compacting and grouting the ground, registered in Korea. Patent No. 10-0145637 is a powdered solid for improving soft ground by mixing 50 to 200 kg of cement per 1㎥ of soft soil to be treated for soft ground, 10 to 20% of fly ash and 1 to 3% of lignin sulfonate based on the weight of cement. A method of improving soft ground is disclosed by mixing and stirring 0.5 to 1 m3 of water with a topical agent and then injecting it into the soft ground.

However, the above-mentioned methods for repairing and reinforcing soft ground use separate repair agents, so they cause contamination of the soil environment, have the disadvantage of being expensive for materials, and have the problem that there is always a possibility of recurrence in the future.

1. Patent Application No. 10-2012-0072812 (Title of invention: Waterproofing and repair construction method for cracked parts of a building) 2. Patent Registration No. 10-183539 (Title of invention: Expandable unit for repairing cracks in concrete structures and crack repair construction method using the expandable unit) 3. Patent Registration No. 10-0226153 (Title of invention: Soft ground improvement method) 4. Patent Application No. 10-1997-024623 (Title of invention: Grout injection method and device for improving soft ground 5. Patent Registration No. 10-0145637 (Title of invention: Manufacturing method of solidifying agent for soft ground improvement and soft ground improvement method)

Accordingly, the present invention recognizes the above-mentioned problems and seeks to provide a solution to them. The purpose of the present invention is to quickly address cracks that occur on the roof floor or road surface of concrete structures and subsidence that occurs as the ground becomes soft due to various natural or artificial factors. The purpose is to provide a reinforcing frame for repairing cracked road surfaces or subsiding ground that can be easily repaired and at the same time prevent additional cracks and settlement, and a method for repairing cracked road surfaces or subsiding ground using the reinforcing frame.

The reinforcement frame (S) for repairing a cracked road surface or subsiding ground of the present invention for achieving the above object includes an upper frame (10) having a rectangular structure to cope with a cracked road surface or subsiding ground, and the upper frame ( 10) are connected to prevent distortion of the upper frame and provide rigidity, and are respectively fused and fixed to the support bars 20 and the upper frame 10 to strengthen the tensile force and at the same time ascon or A cohesive unit 30 of a circular or polygonal shape that improves cohesion when pouring mortar is fixed to the lower corner of the upper frame 10, and a height adjustment spiral 41 is formed on the outer peripheral surface and through the spiral. It is characterized in that it includes a support 40 to which the height adjustment plate 50 is coupled.

In addition, the cohesive units 30 are each additionally configured in the downward direction, and are connected and fixed through a connecting rod 31.

And the method of repairing a cracked road surface or subsiding ground using a reinforcing frame for repairing a cracked road surface or subsiding ground involves excavating a trench to a depth of 20 to 50 cm around the subsiding ground that occurred as the cracked road surface or ground became soft. Step (S100), a buried fixing groove drilling step (S200) of drilling an embedded fixing groove (60) in which the reinforcement frame (S) is embedded and fixed to one side of the cracked road surface or subsiding ground where the excavation was performed, and the embedded fixing groove (60) A primer application step (S300) of applying a primer with a waterproof function to the surface of a cracked road surface or subsiding ground after drilling, and an upper part having a rectangular structure to cope with the cracked road surface or subsiding ground after applying the primer. A plurality of support bars 20 that connect the frame 10 and the upper frame 10 to provide rigidity while preventing distortion of the upper frame, and are fused to the support bars 20 and the upper frame 10, respectively. A cohesive unit 30 of a circular or polygonal shape that is fixed and strengthens the tensile force and at the same time improves the cohesive force when pouring asphalt or mortar, is fixed to the lower corner of the upper frame 10, and has a height adjustment spiral on the outer peripheral surface ( As soon as 41) is formed, a reinforcing frame (S) including a support 40 to which the height adjustment plate 50 is coupled through the spiral is installed and fixed, and the support 40 is inserted into the embedded fixing groove 60. A fixing step (S400) of installing the reinforcing frame while fixing it, a pouring/curing step (S500) of pouring and curing the asphalt concrete or mortar on the cracked road surface or the upper part of the subsiding ground where the reinforcing frame (S) is installed, and the asphalt concrete or mortar It is characterized by consisting of a surrounding clean-up stage (S600) in which the surrounding area of the cracked road surface or subsiding ground that has been repaired and reinforced after curing is cleaned up.

In addition, the reinforcing frame (S) is configured to be installed on a cracked road surface or subsiding ground, and is characterized in that it can be installed and fixed in a series or parallel direction.

The reinforcing frame for repairing a cracked road surface or subsiding ground of the present invention having the characteristics described above and the method for repairing a cracked road surface or subsiding ground using the reinforcing frame include cracks generated on the roof floor or road surface of a concrete structure, and various natural or artificial factors. This makes it possible to quickly and easily repair subsidence caused by weakening the ground, and provides durability and rigidity after repair to prevent further cracks and subsidence.

1 is a perspective view showing a preferred embodiment of the present invention.
Figure 2 is a partially cut away perspective view showing a preferred embodiment of the present invention.
Figure 3 is a block diagram showing a preferred embodiment of the present invention.
Figure 4 is an application example showing a preferred embodiment of the present invention.
Figure 5 is a perspective view showing another embodiment of the present invention.

Hereinafter, the present invention will be described in detail according to the attached drawings and preferred embodiments.

First, the reinforcing frame (S) for repairing cracked road surfaces or subsiding ground provided by the present invention has an upper frame (10) having a rectangular structure to cope with cracked road surfaces or subsiding ground, as shown in FIGS. 1 and 2. It is provided.

The upper frame is easy to manufacture with circular reinforcing bars or reinforcing bars with a square cross section. Rectangular shapes may be advantageous considering the crack area, but they can also be manufactured in circular or oval shapes.

A plurality of support bars 20 are fused and fixed between the upper frames 10 to prevent distortion of the upper frame and provide rigidity.

This support bar (BAR) performs a tensile strength strengthening function to firmly hold the upper frame to prevent further expansion of the gap caused by cracking, and is connected to the support bar 20 and the upper frame 10. The cohesive units 30, each of which is fused and fixed, also perform the same function.

In particular, the cohesive unit 30 may be configured in a circular or polygonal shape, and since asphalt or mortar is poured inside it, the cohesive force between the reinforcing frame (S) and the asphalt or mortar is improved.

In addition, the supports 40 are fused and fixed to the lower corners of the upper frame 10, and a height adjustment spiral 41 is formed on the outer peripheral surface of the support 40, and a height adjustment plate 50 is formed through the spiral. It consists of a structure that is bonded and fixed.

Therefore, the height adjustment plate 50 is installed while coupled to the support 40, and can be easily installed on a horizontal or inclined surface through manipulation of the height adjustment plate 50, as well as the height adjustment plate ( 50) prevents additional entry in the downward direction.

In addition, the cohesion units 30 are each additionally configured in the lower direction, and can be connected and fixed through the connecting rod 31, so that sufficient cohesion can be exerted even in a repair area where the excavation is deep.

In addition, the cohesive unit 30 can be configured in a three-dimensional form with an upper and lower double structure as shown in FIG. 2. In this case, it can be usefully used in repair sites where deep trenches have been dug, thereby improving the rigidity and Durability is provided.

This cohesive unit 30 is configured on the inside of the upper frame 10, but can also be fixed in the outer direction. In addition to the support 30, a sub-support 70 can be configured on one side of the support 30. As such, this sub support bar (70) is fixed in a form crossing the support bar (20) to strengthen the overall rigidity and tensile force.

On the other hand, the method of repairing a cracked road surface or subsiding ground using a reinforcing frame for repairing a cracked road surface or subsiding ground is as shown in FIG. 3. As shown in FIG. Carry out digging to a depth of 50cm (S100).

An embedded fixing groove 60 in which the reinforcement frame (S) is embedded and fixed is drilled on one side of the cracked road surface or subsiding ground where the excavation is performed (S200), and the surface of the cracked road surface or subsiding ground is drilled after drilling the embedded fixing groove 60. Apply a primer with a waterproof function (S300).

The order of the perforation step and the primer application step may be changed, and in this case, an additional primer may be applied to secure the waterproof function.

After applying the primer, the reinforcing frame (S) is installed and fixed as described above, and the reinforcing frame is installed and fixed while inserting the support bar (40) into the embedded fixing groove (60) (S400).

Asphalt concrete or mortar is poured and cured on the cracked road surface or the upper part of the subsiding ground where the reinforcement frame (S) is installed (S500), and the curing time can be shortened by applying a hardener or quick-setting agent after pouring.

After curing the asphalt concrete or mortar, the area around the repaired and reinforced cracked road surface or subsiding ground is cleaned up (S600), and if there is a lane on the repaired road surface or subsiding ground, the lane can be completed by constructing a lane.

The reinforcement frame (S) is configured to be installed on a cracked road surface or subsiding ground, and can be installed and fixed in a series or parallel direction, and thus the repair work on the cracked road surface or subsiding ground is completed.

Although the embodiments of the present invention have been described, those skilled in the art can understand the present invention by adding, changing, deleting, or adding components without departing from the spirit of the present invention as set forth in the patent claims. Various modifications and changes may be made, and this will also be included within the scope of the rights of the present invention.

S: reinforcement frame
S100: Trench stage
S200: Buried fixed groove drilling step
S300: Primer application step
S400: Reinforcement frame installation fixing stage
S500: Pouring/curing stage
S600: Stage of organizing surroundings
10: upper frame 20: support bar
30: Cohesion unit 31: Connecting rod
40: support 41: spiral
50: Height adjustment plate
60: Buried fixing groove 70: Sub support

Claims (4)

delete delete A trench digging step (S100) of excavating a trench to a depth of 20 to 50 cm around the subsiding ground that occurred as the cracked road surface or ground became soft; and,
A buried fixing groove drilling step (S200) of drilling an embedded fixing groove 60 in which the reinforcing frame (S) is embedded and fixed to one side of the cracked road surface or subsiding ground where the trench has been dug (S200); and,
A primer application step (S300) of applying a primer with a waterproof function to the surface of a cracked road surface or subsiding ground after drilling the buried fixing groove 60; and,
An upper frame 10 having a rectangular structure to cope with a cracked road surface or subsiding ground after applying the primer, and a plurality of support bars that connect the upper frame 10 to prevent distortion of the upper frame and provide rigidity (20) and a cohesive unit (30) of a circular or polygonal shape that is fused and fixed to the support bar (20) and the upper frame (10), respectively, to strengthen the tensile force and at the same time improve the cohesive force when pouring asphalt or mortar, It is fixed to the lower edge of the upper frame 10, and a height adjustment spiral 41 is formed on the outer circumferential surface, and a reinforcing frame including a support 40 to which the height adjustment plate 50 is coupled through the spiral ( A reinforcing frame installation and fixing step (S400) in which S) is installed and fixed while inserting the support 40 into the buried fixing groove 60; and,
A pouring/curing step (S500) in which asphalt concrete or mortar is poured and cured on the cracked road surface or the upper part of the subsiding ground where the reinforcing frame (S) is installed; and,
A surrounding preparation step (S600) of tidying up the area around the cracked road surface or subsiding ground repaired and reinforced after curing the asphalt or mortar;
A method of repairing a cracked road surface or subsiding ground using a reinforcing frame for repairing a cracked road surface or subsiding ground, characterized in that it consists of:
According to paragraph 3,
The reinforcing frame (S) is configured to be installed on one or more cracked road surfaces or subsiding ground, and can be installed and fixed in a series or parallel direction. Repairing cracked road surfaces or subsiding ground using a reinforcing frame for repairing cracked road surfaces or subsiding ground. method.