KR102244983B1 - Restoration and construction method of roads around shoulders that have been subsided by weakening - Google Patents

Abstract

The present invention blocks recurrent subsidence during ground subsidence of roads around shoulders due to vehicle traffic load or weakening of the ground, and at the same time raises concrete paved roads to a target value quickly and stably, and minimizes traffic control time. It relates to the restoration and construction method of the road around the shoulder that was subsided due to the weakening of the ground.
Drill a number of injection grooves for injection of silicate resin and grout solution around the shoulder (60) where the ground has subsided and the pavement (R) using a core drill or a rock drill or a hand drill. Injecting groove drilling step (S100) and, after drilling the injection groove 70, a silicate resin is injected into the injection groove 70 to block the surroundings of voids or to form a coating film on the surface so that the grout solution is injected. The coating treatment step (S200) of the void portion to prevent the curing, the curing step (S300) of curing the void portion for 15 to 30 minutes after the coating film treatment using the silicate resin, and the injection groove (70) after the curing. ), a dedicated packer installation step (S400) of entering and installing and fixing the dedicated packer 80 for grout injection to the roadbed 40, and the truck 100 that is easy to move after the installation of the dedicated packer 80, and the A water tank 200 that is mounted on the loading box 110 of the truck and supplies water by operating a pump according to the opening and closing of the solenoid valve so that water can be supplied to the silo 400 when grout liquid is mixed, and the water tank ( It is provided on one side of 200), a loading unit 300 for loading and fixing a ton unit of cement, and a ton unit of cement loaded in the loading unit 300 is filled, and a grouting pump 500 is used to quantify the filled cement. ) It is easy to mix the silo 400 equipped with a load cell that senses the weight so that it can be supplied to the silo 400, and the cement supplied from the silo 400 and the water supplied from the water tank, and at the same time inject the mixed grout liquid. Grouting configured including a grouting pump 500 equipped with an injection nozzle 510 capable of performing, and a control box 600 for controlling the operation of the water tank 200 and the silo 400 and the grouting pump 500 The grout solution is filled to the pores 50 formed in the surface layer 10 and the base layer 20 by connecting the injection nozzle 510 and the installed dedicated packer 80 while moving using the construction method automation device (S). Grau to infuse In order to prevent the backflow of the grout liquid injected through the dedicated packer 80 after the grout liquid injection step (S500) and the backflow prevention valve 81 of the dedicated packer 80 is closed to prevent backflow The prevention step (S600), the hardening step (S700) of curing the injected grout liquid 90, and the dedicated packer 80 inserted and fixed in the injection groove 70 after hardening the grout liquid is removed and removed. It consists of an inspection step (S800) of inspecting whether the surface layer 10 and the base layer 20 of the ground has been raised by the injected grout liquid.

Description

Restoration and construction method of roads around shoulders that have been subsided by weakening}

The present invention relates to a method for restoring a road around the shoulder that has been subsided due to weakening of the ground, and in more detail, it blocks recurrent subsidence during ground subsidence of the road around the shoulder due to the traffic load of the vehicle or the weakening of the ground on the road, and at the same time concrete pavement It is related to the restoration and construction method of the roads around the shoulder that have been subsided by ground weakening that can quickly and stably raise the road to the target value, but minimize the traffic control time.

In general, looking at a cross-section of a concrete pavement road, as shown in FIG. 1, it can be divided into a surface layer 10, a base layer 20, a sub base layer 30, and a hearth 40 in a downward direction.

Here, the surface layer is the surface of the roadway through which the vehicle passes, and in the industry it is referred to as the'main pavement concrete layer', and the base layer is the layer constructed immediately below the surface layer through which the vehicle passes, and in the industry it is called the'lean concrete layer'. , The sub-base is a part where the surface layer and the lower part of the base layer are filled with coarse gravel to strengthen the surface layer, and the subgrade is a layer that supports the base layer and the sub-base layer, where drainage is performed.

In concrete paved roads as described above, ground subsidence as shown in Fig. 1 occurs due to natural factors that cause subsidence due to soft ground and artificial factors that cause subsidence due to loads caused by excessive vehicle traffic. A grouting method was applied to the part where the was generated and repair work was performed.

Grouting is a grout solution that is a mixture of cement, aggregate, bentonite, and water to improve the ground and prevent leakage. It is a method of improving the mechanical properties and permeability of rock mass, and recently it is applied to subsided roads and soft ground to repair roads.

As a prior art in which grouting liquid is injected into the gap 50 in the area where settlement has occurred using the grouting method as described above to repair the subsided road, Patent Registration No. 10-1178138 (Invention Name of: The method of grouting the subsided road surface and soft ground).

The above patent registration No. 10-1178138 is that when subsidence of the road occurs, the surface layer (main paved concrete layer) and the base layer (lean concrete layer) are drilled using a core drill, and then a grouting solution is injected to perform repair construction. There was a drawback in that it was effective to some extent when the part where the was occurred is in the middle of the road, but when the part where the ground subsidence occurred was the edge of the road with a shoulder, it was not effective.

That is, when subsidence occurs at the edge of the paved road on which the shoulder was constructed, as shown in FIG. 2, due to the effect of ground subsidence, the gap 50 to the vicinity of the shoulder 60 and the portion where the shoulder 60 and the surface layer 10 abuts. This happens.

As described above, when the void 50 occurs, a pressure loss occurs due to the void, and even if grout fluid is injected due to the pressure loss, it is difficult to raise the surface layer 10 as much as expected.

This is directly linked to work delay or repair of defects, resulting in problems such as cost loss from the perspective of the construction company and adversely affecting the reliability of the industry.

1. Patent Registration No. 10-1178138 (Name of invention: Method of grouting construction of subsided road surface and soft ground)

Therefore, in the present invention, the above problems are recognized and the solution is suggested. By quickly repairing cracks and subsidences in consideration of the passage of the vehicle, it is possible to prevent work delays and minimize the cost and time associated with repairing defects. Its purpose is to provide a method of restoring the road around the shoulder that has been subsided due to possible ground weakness.

In order to achieve the above object, the method of restoring the road around the shoulder that has been subsided by the weakening of the ground according to the present invention is the injection groove for injecting silicate resin and grout solution into the vicinity of the shoulder (60) and the pavement (R) where the ground has subsided. Drilling a plurality of holes using a core drill and or a rock drill or a hand drill, but the injection groove drilling step (S100) of drilling up to the hearth 40, and the injection groove 70 after drilling the injection groove 70 Injecting a silicate resin into the pores to block the periphery of the pores or to form a coating film on the surface to prevent pressure loss when the grout solution is injected (S200), and the pores are treated with the silicate resin. A curing step (S300) of curing for 15 to 30 minutes after coating treatment, and a dedicated packer for entering and installing and fixing a dedicated packer 80 for grout injection into the inside of the injection groove 70 after curing to the hearth 40 After the installation step (S400) and the dedicated packer (80) is installed, it is mounted on a truck 100 that is easy to move and a loading box 110 of the truck, and is electronic so that water can be supplied to the silo 400 when the grout liquid is mixed. A water tank 200 for supplying water by operating a pump according to the opening and closing of the valve, a loading part 300 provided on one side of the water tank 200 and in which ton-unit cement is loaded and fixed, and the loading A silo 400 equipped with a load cell that senses the weight so that the cement of the ton unit loaded in the part 300 is filled, and the filled cement can be supplied to the grouting pump 500 in a fixed quantity, and the silo 400 A grouting pump 500 equipped with an injection nozzle 510 capable of injecting the mixed grout liquid while making it easy to mix cement supplied from a fixed quantity and water supplied from the water tank, and the water tank 200 An injection nozzle 510 and a dedicated packer 80 installed while moving using an automated device for constructing a grouting method (S) configured including a control box 600 that controls the operation of the silo 400 and the grouting pump 500 ) To fill the grout solution to the pores 50 formed in the surface layer 10 and the base layer 20 (S500), and the grout solution injected through a dedicated packer 80 after the grout solution is injected. Backflow prevention step (S600) of preventing backflow by closing the backflow prevention valve 81 of the dedicated packer 80 to prevent backflow of grout liquid, and curing step (S700) of curing the injected grout liquid 90 Wow, after the grout liquid is hardened, the dedicated packer 80 inserted and fixed in the injection groove 70 is removed and removed, and then it is checked whether the surface layer 10 and the base layer 20 of the ground are raised by the injected grout liquid. It characterized in that it consists of an inspection step (S800) to inspect.

In addition, the grout liquid injection is characterized in that the grout liquid is injected at an injection pressure set through the control box 600.

In addition, in the step of coating the void portion by injecting the silicate resin, the coating film treatment is performed around the edge of the portion where the void is formed, and if the void is wide, the coating layer is divided and treated.

In addition, when the surface layer 10 and the base layer 20 are not raised as much as the planned height in the inspection step, a silicate resin is forcibly injected to make a fine adjustment impression.

The restoration construction method of the road around the shoulder that has been subsided by the weakening of the ground according to the present invention having the above characteristics can quickly restore (raise) the paved road of the subsided ground in consideration of the passage of the vehicle. It is easy to fine-tune and raise the subsidence pavement, thereby minimizing the cost and time associated with repairing defects in the future.

1 is a cross-sectional configuration diagram showing a cross section of a concrete pavement road
Figure 2 is an exemplary cross-sectional view showing an outflow state when grout liquid is injected
Fig. 3 is an exemplary cross-sectional view showing a state in which a silicate resin is injected to perform a coating treatment.
Figure 4 is a front configuration diagram showing an automated device for grouting construction method of the present invention
5 is a front configuration diagram showing a grouting pump among the devices of FIG. 3
6 is a block diagram showing a maintenance method according to a preferred embodiment of the present invention

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

First, the method for restoring the road around the shoulder that has been subsided by the weakening of the ground provided by the present invention is, first, core drilling the injection groove for injecting silicate resin and grout solution in the vicinity of the shoulder 60 where the ground has subsided and the pavement. However, a plurality of drilling is performed using a rock drill or a hand drill, and drilling is performed up to the hearth 40 (S100).

After drilling the injection groove as described above, a silicate resin is injected into the injection groove 70 to block the vicinity of the pores, or a coating film is formed on the surface to prevent pressure loss when the grout solution is injected. A coating treatment is performed on the (S200).

When the coating treatment is performed as described above, since the entire pore area is coated as well as around the shoulder, pressure loss can be prevented, and the effect is increased when the grout liquid is injected.

The silicate resin can be used after mixing the main material and the curing agent in a ratio of about 1:1 (wt%), and when injected using a dedicated packer 92 as shown in FIG. 3, it has excellent curing properties and is about 20 minutes Since it is hardened inside and outside, there is no effect on subsequent work such as work delay.

In addition, in the step of coating the void portion by injecting the silicate resin, the coating film treatment is performed around the edge of the portion where the void is formed, but if the void is wide, the process may be divided and treated.

After curing for 15 to 30 minutes after coating the voids with silicate resin as described above (S300), a dedicated packer 80 for grout injection is placed in the inside of the injection groove 70 to the hearth 40. Entry and installation are fixed (S400).

After the dedicated packer 80 is installed, it is mounted on a truck 100 that is easy to move and a loading box 110 of the truck, and the pump is opened and closed according to the opening and closing of the solenoid valve so that water can be supplied to the silo 400 when the grout liquid is mixed. A water tank 200 for supplying water by operation, a loading part 300 provided on one side of the water tank 200, in which cement in tonnes is loaded and fixed, and a loading part 300 loaded in the loading part 300 A silo 400 equipped with a load cell that senses the weight so that cement is filled in ton units and can be supplied to the grouting pump 500 in a quantitative amount, and cement and water quantitatively supplied from the silo 400 A grouting pump 500 equipped with an injection nozzle 510 capable of injecting the mixed grout liquid while making it easy to mix the water supplied from the tank, the water tank 200 and the silo 400 and the grouting pump The grout liquid is connected to the injection nozzle 510 and the installed dedicated packer 80 while moving using the grouting method construction automation device (S) configured including the control box 600 that controls the operation of the 500. The grout liquid 90 is injected so as to be filled up to the pores 50 formed in the surface layer 10 and the base layer 20 (S500).

The automatic device (S) for construction of the grouting method is easy to move as shown in Figs. 3 to 4, so it has excellent short-distance and long-distance mobility during maintenance work, and the grout liquid is mixed in the control box 600 and the injection pressure is adjusted. It can be set to a set value, and at the same time, the final injection is made through the discharge/injection port 580 to prevent delays in work due to the formulation in advance, and quick maintenance work is possible, as well as minimizing traffic control time. It becomes.

In the past, when moving between points for repair work, workers manually transported or moved by loading tools and materials, but this problem was solved through the boom crane 700 of the automatic device for construction of the grouting method (S). , It was easy to work quickly because it was possible to inject while moving.

After injecting the grout liquid using the automatic device (S) for the construction of the grouting method as described above, the valve 81 for preventing backflow of the dedicated packer 80 in order to prevent the backflow of the grout liquid injected through the dedicated packer 80. ) To prevent backflow (S600).

When the grout liquid 90 injected while preventing backflow as described above is hardened (S700), the dedicated packer 80 inserted and fixed in the injection groove 70 is removed and removed, and the surface layer 10 and the base layer of the ground The final repair work is completed by checking whether (20) has been raised by the injected grout liquid (S800).

In addition, if the surface layer 10 and the base layer 20 are not raised by the planned height in the above inspection step, only silicate resin can be forcibly injected using a dedicated pump, thereby allowing fine adjustment without additional maintenance work. It is done.

Embodiments of the present invention have been described, but those of ordinary skill in the art can use the present invention by adding, changing, deleting, or adding components within the scope not departing from the spirit of the present invention described in the claims. Various modifications and changes will be possible, and this will also be said to be included within the scope of the present invention.

R: concrete pavement
10: surface layer 20: base layer
30: subbase 40: road
50: void 60: shoulder
70: injection groove 80: dedicated packer
81: valve 90: grout liquid
91: silicate resin 92: silicate resin exclusive packer
S: Automatic device for grouting construction method
100: truck 110: loading box
200: water tank 300: loading part
400: silo 500: grouting pump
510: injection nozzle 520: hopper
530: hydraulic tank 540: hydraulic pump
550: blender 560: hydraulic motor
570: open/close lever 580: discharge/inlet
590: drive engine 600: control box
700: boom crane

Claims (4)

In the restoration construction of the road around the shoulder that was subsided due to the weakening of the ground,
A plurality of injection grooves for injection of silicate resin and grout solution in the vicinity of the shoulder 60 submerged in the weakening of the ground and on the pavement are drilled on the shoulder 60 using a core drill and or a rock drill or a hand drill, but the roadbed 40 Injecting groove perforation step (S100) to perforate up to ); Wow,
After the injection groove 70 is punctured, a silicate resin is injected into the injection groove 70 to block the vicinity of the pores, or a coating film is formed on the surface to prevent pressure loss when the grout solution is injected. A coating treatment step (S200) of performing the treatment, focusing on the edge of the portion where the void is formed, and dividing and treating the void when the void is wide; Wow,
A curing step (S300) of curing for 15 to 30 minutes after coating the pores using the silicate resin; Wow,
A dedicated packer installation step (S400) of entering and fixing the packer 80 for grout injection into the hearth 40 after the curing in the injection groove 70; Wow,
After installing the dedicated packer 80, the injection nozzle 510 and the installed dedicated packer 80 are connected to inject the grout liquid to fill the pores 50 formed in the surface layer 10 and the base layer 20. (S500); Wow,
Backflow prevention step (S600) of closing the backflow prevention valve 81 of the dedicated packer 80 to prevent backflow of the grout liquid injected through the dedicated packer 80 after the grout liquid injection (S600); Wow,
A curing step (S700) of curing the injected grout liquid 90; Wow,
After the grout liquid is hardened, the dedicated packer 80 inserted and fixed in the injection groove 70 is removed and removed, and then the surface layer 10 and the base layer 20 of the ground are examined whether or not the surface layer 10 and the base layer 20 are raised by the injected grout solution. Inspection step (S800);
A method for restoring roads around the shoulders that have been subsided by weakening of the ground, characterized in that consisting of. delete delete delete

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