KR101284182B1 - Reinforced rock bolt nail using prestressed and its manufacture methode and its construction method - Google Patents

Abstract

The present invention improves the reinforcement of the ground by tensioning the steel in the state where the steel wrapped in the steel pipe is inserted into the boring hole of the ground to improve the reinforcement of the ground, when the steel is tensioned, the wedge is supported by the elastic member of the elastic member to maintain the tension state of the steel It also relates to the ground-reinforced rock bolts and their construction methods using prestresses that can reinforce the ground by holding the grout from the distal end of the drilled hole through the steel pipe as well as maintaining the injection effect by the grout gravity.

Description

Reinforced rock bolt nail using prestressed and its manufacture methode and its construction method}

The present invention relates to a ground-reinforced rock bolt using prestress, and more particularly, the steel is tensioned by improving the reinforcement of the ground by tensioning the steel in a state where the steel wrapped with the steel pipe is inserted and settled in the drilling hole of the ground. At this time, the wedge is supported by the elastic member to maintain the tension of the steel, and the grout is injected from the distal end of the drilled hole through the steel pipe, so that the prestress can be reinforced by obtaining the dense injection effect by the grout gravity. It relates to the ground reinforced rock bolt used and its construction method.

In general, as the industry develops, slope reinforcement is performed to suppress slope breakdown and sliding of mountainous areas that occur in the foundation roads and complexes.The slope reinforcement method is a method of reducing activity and increasing resistance, depending on the purpose of construction. It is divided into various types such as surface protection method, and among them, low-strength enhancement method includes rock bolt, earth anchor, small nail, stepped retaining wall, and the like.

The small nail is a method of reinforcing a slope using a nail and a front plate (concrete), forming a perforation hole on the slope, inserting a nail into the perforation hole, and then inserting a grouting material into the perforation hole. In this state, the nail and the pressure plate are fixed to the slope, and the nail-fixed slope is reinforced with shotcrete, which is difficult to process and increases manufacturing cost as the weight per unit length of the nail increases. There was this.

In order to solve the above problems, recently, the ground reinforcement method and ground reinforcement device using PC strands have been disclosed as 10-2009-0091011.

The published patent discloses a chiropractor in which a PC strand is provided with a diameter fixing agent into a cylindrical guide rod inserted into a cylindrical guide rod, the guide rod is pulled out, and the PC strand is tensioned and fastened to the acupressure plate. It is configured to grout through the grouting hole formed in the.

However, the published patent has the advantage of solving the conventional problems, but it does not prevent the corrosion of the PC strands by drawing the guide rods, and also because the adhesion area of the grout is narrow, it does not prevent the tensile cracking of the grout as well as the pressure plate. Since the grouting is made from the upper part of the drilled hole through the formed grouting hole, there is a difficult problem of tight injection.

In addition, since the load acts on the strand as the ground behaves, there is a problem that the load carrying capacity of the ductility cannot be fully utilized. There was a problem that the construction is difficult because it can not be adjusted.

In view of the above-described conventional defects, the object of the present invention is to prevent the corrosion of the steel material and to facilitate load transfer as the attachment area of the grout is widened since the steel pipe wrapped with the steel is buried in the ground. In addition to reducing the frequency of the cracks, as well as grouting from the lower portion of the upper through the hole through the steel pipe to provide a ground-reinforced rock bolt using the prestress to be injected tightly by the gravity of the grout and its construction method.

In addition, another object of the present invention, by applying the load to the steel to fully utilize the load transfer capacity of the steel, and the ground reinforcement effect can be obtained by applying the prestressing to the ground, as well as a few in the strong ground depending on the ground conditions, soft In the ground, it is to provide a ground reinforced rock bolt and its construction method using the prestress to install a large number of fixing cones and to expand the ground area by the ground cones for a reliable construction.

In addition, another object of the present invention, because the elastic member supports the wedge mounted on the steel material to prevent the loosening phenomenon of the prestressed steel, and also to transfer to the base plate to the prestress to maintain the tension in the ground behavior It is to provide a ground reinforcement rock bolt used and its construction method.

Ground reinforced rock bolt using the present invention,

A steel material coupled to the steel pipe and inserted into the ground hole;

A fixing member fixed to the steel to allow a fixing unit to be installed;

The fixing member is fixed to the distal end of the steel pipe is characterized in that it comprises a fixing unit is fixed to the drilling hole while the ground cone is extended along the inclined surface of the fixing member moving upward by the pulling of the steel.

Ground reinforced rock bolt using the present invention,

A steel material having a tip portion fixed to a drilling hole in the ground;

It is characterized in that it is configured to include a steel support for maintaining the tension of the steel by elastically supporting the wedge coupled to the steel elastic member to prevent the restoration of the steel is pulled to be installed to the rear end of the steel.

Ground reinforced rock bolt using the present invention,

A steel material coupled to the steel pipe and inserted into the ground hole;

A fixing member fixed to the steel to allow a fixing unit to be installed;

A fixing part fixed to the front end of the fixing member and the steel pipe and fixed to the drilling hole while the ground cone extends along an inclined surface of the fixing member moving upward by pulling the steel;

It is characterized in that it is configured to include a steel support for maintaining the tension of the steel by elastically supporting the wedge coupled to the steel elastic member to prevent the restoration of the steel is pulled to be installed to the rear end of the steel.

According to the present invention, the steel is combined with the sheath pipe is buried in the ground so that the steel pipe is double buried to prevent the corrosion of the steel, and as the attachment area of the grout widens, it is easy to transfer load and reduce the frequency of cracks However, the fixing unit coupled to the steel becomes the full length of the perforation to transmit the load, so that it can transmit a relatively large load, and the load can be transmitted homogeneously and grouted from the lower part of the perforation hole to the upper through the steel pipe, so that it is tightly held by the grout gravity. It can be injected to have the advantage of achieving a solid construction.

In addition, according to the present invention, by applying a load to the steel to fully utilize the load transmission capacity of the steel and prestressing the ground, the ground is condensed by applying a compressive force to obtain the ground reinforcement effect as well as depending on the ground conditions In a strong ground, a small number, in a soft ground can have the advantage to install a large number of fixing cones and to increase the ground area by the ground cone to ensure a reliable construction.

In addition, according to the present invention, because the elastic member supports the wedge mounted on the steel material to prevent the loosening of the prestressed steel, and also transfer to the base plate to maintain the tension in the ground behavior to improve the quality of the ground strengthening It can have the advantage.

1 is a perspective view of the present invention
Figure 2 is an exploded perspective view of the fixing unit of the present invention
Figure 3 is a cross-
Figure 4 is an exploded perspective view of the steel support of the present invention
5 is a cross-
6a to 6f is a construction process diagram of the present invention
Figure 7 is a cross-sectional view of another embodiment of the fixing unit of the present invention

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view of the present invention, Figure 2 is an exploded perspective view of the fixing unit of the present invention, Figure 3 is a cross-sectional view of Figure 2, Figure 4 is an exploded perspective view of the steel support of the present invention, Figure 5 is a cross-sectional view of FIG.

Ground reinforcement rock bolt 100 using the prestress of the present invention is composed of a steel material 110 is coupled to the steel pipe (110a) is inserted into the boring hole 10 of the ground, and fixed to the steel material (110) The fixing member 120 is installed so that the 130 is installed, the fixing member 120 is fixed to the front end of the fixing member 120 and the steel pipe (110a) of the fixing member 131 to be moved upward by the pulling of the steel (110) The ground cone 133 extends along the inclined surface 131 ′ and includes a fixing unit 130 that is fixed to the drilling hole 10.

In addition, the ground-reinforced rock bolt 100 using the prestress of the present invention is composed of a steel material 110, the front end of which is fixed to the drilling hole 10 of the ground, is installed to the rear end of the steel material 110 to tension In order to prevent the restoration of the steel 110 to be pulled, the wedge 143 coupled to the steel 110 is elastically supported while pressing the elastic member 145 to support the steel support 140 for maintaining the tension of the steel 110. It is configured to include.

In addition, the ground-reinforced rock bolt 100 using the present invention is composed of a steel material 110 is coupled to the steel pipe (110a) is inserted into the boring hole 10 of the ground, is fixed to the steel material (110) The fixing member 120 is configured to install the fixing unit 130, the fixing member 120 is fixed to the front end of the fixing member 120 and the steel pipe (110a) and the fixing member 131 is moved upward by the pulling of the steel (110) The ground cone 133 is expanded along the inclined surface 131 ') and the fixing unit 130 is fixed to the punching hole 10, and is installed at the rear end of the steel 110 and is pulled to tension. Consists of supporting the elastic wedge 143 coupled to the steel material 110 to prevent the restoration of the 110 to the elastic member 145 while supporting the elastic member 145 to maintain the tension of the steel material 110 It will be described in more detail as follows.

The steel 110 is preferably formed of a material that is tensioned by steel bars or strands.

The fixing unit 130 is provided with a fixing member 131 fixed to the fixing member 120, the operation guide member 132 is fixed to the steel pipe (110a) while receiving the fixing member 131 is provided. The inclined surface 133 ′ is in close contact with the inclined surface 131 ′ of the fixing member 131 by being coupled to the outer circumferential surface of the operating guide member 132 by a radially penetrating operating guide space 132 ′. 132 is provided with a ground cone 133 protruding outward, and is provided with an elastic ring 134 is coupled to the installation groove 133a of the ground cone 133 to prevent flow.

It is preferable that a plurality of ground protrusions 133b protrude from the ground cone 133 on an outer circumferential surface thereof.

It is further provided with a fastening protection cap 135 is fastened to the operation guide member 132 is fixed.

At least one fixing unit 130a is preferably fixed to the fixing unit 130 in a stack according to the ground conditions.

The steel support part 140 is provided with a base 141 that is accommodated so that the steel 110 protrudes, and is in close contact with the ground, and is coupled to the steel 110 so that the steel 110 protrudes and is connected to the base 141. There is provided a receiving member 142 is in close contact, the wedge 143 is coupled to the steel 110 protruding to the receiving member 142 is provided to prevent the restoration of the steel material 110, the wedge 143 of the The fastening member 144 is fastened to the receiving member 142 to prevent the separation is provided, the elastic member 145 is mounted to the wedge 143 and the fastening member 144 to support the elastic wedge 143 while being elastically supported. It is provided, including.

Fixed to the fastening member 144 is further provided with a protective cap 146 to protect the front end of the steel (110).

It is preferable that the sheath pipe 110b is mounted on the steel 110.

The following describes the manufacturing and construction process of the present invention configured as described above.

First, as shown in FIGS. 6A to 6F, the steel 110 that is tensioned by the steel rod or the stranded wire is manufactured more than the length of the drilling hole 10, and protrudes above the drilling hole 10 to support the steel support 140. It can be made to a length that can be combined with).

In addition, the end of the steel 110 is fixed to the fixing member 120, the fixing member 120 is compressed by an external force applied in a state that accommodates the end of the steel 110 and the fixing member 120 and It is preferable to form the steel 110 integrally.

After the fixing member 120 is coupled to the steel pipe 110a in a state in which the sheath tube 110b is coupled to the outer circumferential surface of the fixed steel member 120, the fixing member 120 is positioned at the end of the steel pipe 110a. The fixing member 131 of the fixing unit 130 is fixed to the fixing member 120.

Here, the fixing member 131 may be fixed to the fixing member 120 by welding, but a coupling method by screwing is preferable.

When the fixing member 131 is fixed to the fixing member 120, the operation guide member 132 is in close contact with the end of the steel pipe (110a). At this time, the fixing member 131 is positioned inside the operation guide member 132 and the operation guide member 132 and the steel pipe 110a are fixed by welding and screwing.

Further, the ground cone 133 is coupled to the operation guide space 132 ′ of the operation guide member 132 so that the inclined surface 133 ′ of the ground cone 133 is inclined on the inclined surface 131 ′ of the fixing member 131. The upper and lower portions of the ground cone 133 in which the inclined surface 133 'is in close contact with the inclined surface 131' of the fixing member 131 are in close contact with the outer surface of the operation guide member 132, and the ground cone 133 The elastic ring 134 is coupled to the installation groove 133a of the c) to prevent the ground cone 133 from being separated.

The process of fixing the fixing member 130 to the fixing member 120 and the steel pipe 110a fixed to the front end portion of the steel 110 as described above, but as shown in Figure 7, the fixing unit 130 At least one fusing unit 130a is laminated according to the condition of the ground so that the friction area of the ground cone 133 is wide so that it can be easily fixed even in the soft ground, and is fixed by welding and screwing. In addition, the operation guide member 132 of the laminated lower end fixing unit may be equipped with a fastening protection cap 135 to prevent inflow of soil into the operation guide member 132 when the drilling hole 10 is inserted.

When inserted into the drilling hole 10 of the ground in a state where at least one fixing unit 130 is fixed to the fixing member 120 and the steel pipe 110a fixed to the front end of the steel 110 according to the ground conditions In addition, the fixing unit 130 is inserted along the inner surface of the drilling hole 10 and at the same time the fastening protection cap 135 is in close contact with the bottom surface of the drilling hole 10, the fastening protection cap 135 to the outside The protruding portion is embedded in the bottom surface of the drilling hole 10 to prevent the flow.

At this time, the steel support unit 140 is installed at the rear end of the steel 110, while the base 141 of the steel support unit 140 is in close contact with the ground, the steel 110 and the steel pipe 110a is the base 141 Coupled to protrude into the through hole 141 ', and after coupling the through hole 142' of the receiving member 142 to the steel 110 protruding into the through hole 141 ', the receiving member 142 The outer circumferential surface of the lower end is fixed in close contact with the inner circumferential surface of the steel pipe 110a, which is preferably fixed by welding and screwing.

In addition, the elastic member 145 to the wedge 143 in a state in which the through hole 143 'of the wedge 143 is coupled to the steel 110 protruding into the through hole 142' of the receiving member 142. After close contact, the fastening member 144 is fastened to the receiving member 142 to be fixed, and the rear end portion of the steel 110 must protrude into the through hole 144 ′ of the fastening member 144.

When the steel support unit 140 is installed at the rear end of the steel 110, the steel 110 is first tensioned, and a fixing member fixed to the steel 110 according to the upper movement of the steel 110 that is primarily tensioned. As the 120 moves upward, and the fixing member 131 fixed to the fixing member 120 moves upward, the inclined surface 131 'of the fixing member 131 pushes the inclined surface 133', The ground cone 133 on which the inclined surface 133 'is formed extends outwardly of the operation guide member 132 and is fixed in close contact with the drilling hole 10.

Here, the elastic ring 134 coupled to the installation groove 133a of the ground cone 133 is formed of a material that can be stretched to its own elasticity so that it is not deformed or broken even when the ground cone 133 is expanded. Do not.

In addition, when the steel 110, which is primarily tensioned, moves upward, the wedge 143 coupled to the steel 110 also moves upward, but the wedge 143 is elastic while the elastic member 145 is pressed. Since it is supported, the wedge 143 moved to the upper portion of the steel 110 by the pressing force of the elastic member 145 is moved downward along the outer surface of the steel 110 is in close contact with the receiving member 142 In addition to maintaining the process of repeating the steel (110) every time the tension is to maintain the tension of the tensioned steel (110).

The grout is injected into the inside of the steel pipe 110a through the grout hose H coupled to the installation hole 141 ″ of the base 141 in the state where the steel 110 is primarily tensioned, and the injected grout is a steel pipe ( The grout is injected and cured from the lower part of the drilling hole 10 to the upper part while being injected into the drilling hole 10 through the operating guide space 132 ′ of the operation guide member 132 while moving downward along the inner surface of the 110a). Be sure to

When the grout injected into the boring hole 10 is cured, the steel material 110 is secondly tensioned to increase the reinforcement of the ground, so that the sheath pipe 110b is coupled to the outer circumferential surface of the steel material 110 so that the steel material ( 110 may be tensioned, and as the steel 110 is tensioned, the wedge 143 coupled to the steel 110 is moved to the upper portion, and the tensioned steel 110 is repeated by being restored by the elastic member 145. I can maintain tension.

At this time, as the steel 110 is tensioned in the state in which the fixing unit 130 is fixed inside the drilling hole 10, the compressive force for restoring the steel 110 is compressed to the ground through the base 141. The reinforcement can be further improved, and the rear end of the steel 110 to maintain a tensioned state by fastening the protective cap 146 to the fastening member 144, thereby protecting according to the external environment.

While the present invention has been described with reference to the particular embodiments and drawings, it is to be understood that the phraseology and terminology employed herein are for the purpose of description and should not be regarded as limiting in any ordinary or prejudicial sense. It must be interpreted in terms of meaning and concept. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only examples of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

100: rock bolt 110: steel
120: fixing member 130: fixing unit
131: fixing member 132: operation guide member
133: ground cone 134: elastic ring
135: fastening protection cap 140: steel support
141: base 142: receiving member
143: wedge 144: fastening member
145: elastic member 146: protective cap

Claims (17)

delete delete A steel material coupled to the steel pipe and inserted into the ground hole;
A fixing member fixed to the steel to allow a fixing unit to be installed;
A fixing member fixed to the fixing member is provided, and an operation guide member fixed to the steel pipe while accommodating the fixing member is provided and coupled to an operation guide space radially penetrated to the outer circumferential surface of the operation guide member to pull the steel. By the inclined surface along the inclined surface of the fixing member is provided with a grounding cone is fixed to the drilling hole while protruding and extending out of the operation guide member, the fixing portion is provided with an elastic ring coupled to the installation groove of the grounding cone to prevent flow Wow;
Prestress is characterized in that it comprises a steel support for maintaining the tension of the steel by elastically supporting the wedge coupled to the steel elastic member to prevent the restoration of the steel is pulled to be tensioned to the rear end of the steel Ground Reinforced Rock Bolts.
The method according to claim 3,
The steel is a prestressed ground reinforced rock bolt, characterized in that formed of a material that is tensioned by steel bars or strands.
delete The method according to claim 3,
Ground-reinforced rock bolt using a prestress, characterized in that the ground cone protrudes a plurality of ground projections on the outer circumferential surface.
The method according to claim 3,
Ground reinforced rock bolt using a prestress, characterized in that it further comprises a fastening protection cap is fastened to the operation guide member.
The method according to claim 3,
Ground reinforcement rock bolt using a prestress, characterized in that the fixing unit is fixed to be laminated at least one other fixing unit according to the ground conditions.
The method according to claim 3, Steel support portion,
A base receiving the steel material so as to protrude and being in close contact with the ground;
A receiving member coupled to the steel to closely adhere to the base such that the steel protrudes;
Wedges coupled to the steel protruding to the receiving member to prevent the restoration of the steel;
A fastening member fastened to the receiving member to prevent the wedge from being separated;
The ground-reinforced rock bolt using the prestress, characterized in that it is provided on the wedge and the fastening member is provided with an elastic member for supporting the wedge elastically.
The method according to claim 9,
Ground fastening rock bolt using a prestress characterized in that the fastening is fastened to the fastening member is further provided with a protective cap to protect the front end of the steel.
The method according to claim 3,
Ground reinforced rock bolt using a prestress, characterized in that the sheath pipe is mounted on the steel.
A manufacturing step of the steel to which the sheath pipe is coupled to a predetermined length;
Fixing the fixing member to the lower end of the steel;
Coupling the steel to which the fixing member is fixed to a steel pipe;
And installing a fixing unit in the fixing member protruding from the steel pipe,
The fixing unit installation step,
Fixing a fixing member to the fixing member;
Fixing an operation guide member radially penetrated to the steel pipe to accommodate the fixing member;
Coupling the inclined surface of the ground cone to the inclined surface of the fixing member by coupling to the operating guide space of the operating guide member;
Method of manufacturing ground-reinforced rock bolt using prestress, characterized in that it comprises the step of coupling the elastic ring to the installation groove of the ground cone.
The method of claim 12,
Method of manufacturing ground-reinforced rock bolt using prestress, characterized in that further comprising the step of fastening the protective cap to the operation guide member.
The method of claim 12,
The fixing unit is ground reinforcement rock bolt manufacturing method using a prestress, characterized in that fixed to be laminated at least one or more according to the ground conditions.
Inserting the leading end of the steel and the steel pipe to which the fixing unit is coupled in the manufacturing method of claim 12 into a boring hole of the ground;
Contacting the base to the ground while the through hole accommodates the rear end of the steel and the steel pipe;
Allowing the rear end of the steel to be in close contact with the base while receiving the through hole of the receiving member;
Coupling a wedge to a rear end portion of the steel protruding into the through hole of the accommodation member to closely adhere to the accommodation member;
Fastening and fastening the fastening member to the receiving member so that the steel protrudes through the hole in the state in which the elastic member is seated on the wedge;
A step of allowing the ground cone to be fixed in close contact with the perforation hole while the ground cone extends along the inclined surface of the fixing member that moves upward due to the primary tension of the steel;
Restoring the wedge moved according to the movement of the steel while preventing the flow when the elastic member is pressing the wedge coupled to the steel when the steel is tensioned;
Ground-strengthened rock bolt construction method using prestress, characterized in that it comprises the step of pouring and curing concrete to be injected from the lower portion of the drilling hole to the upper through the steel pipe.
The method according to claim 15,
Ground reinforcement rock bolt construction method using a prestress, characterized in that comprising the first step of tensioning the steel tensioned first.
The method according to claim 15,
The ground reinforced rock bolt construction method using a prestress, characterized in that further comprising the step of installing a protective cap on the fastening member to protect the rear end of the steel.

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