KR20060100790A - The structure of screw anchor for slope reinforcement construction and the method using thereof - Google Patents

Abstract

The present invention is quickly installed on slopes and grounds generated by excavation, cutting, fill, etc. in construction civil engineering construction site to secure the stability of the foundation or structure, maximizing the tensile resistance of the screw anchor structure and easy screw anchor Regarding screw anchor structure for slope reinforcement for providing settlement and simplification of construction method, and its construction method,

The present invention provides a fixing part 10 for excavating and fixing the ground 1, a free part 20 connected to the fixing part 10 to tension the fixing part 10, and the free part 20. It is composed of an anchor head portion 30 for tightly fixing the ground (1) to the structure 2, such as the slope of the ground, concrete walls, the fixing portion 10 is formed with a screw portion 12 at the end, A hollow screw pipe 14 having a plurality of spiral blade pieces 13 formed on an outer circumferential surface thereof, a female connector 40 coupled to the threaded portion 12, and a screw groove 15 formed on one side thereof and coupled to the other side. It consists of an extension pipe (casing) 17 formed with a groove 16, the free portion 20 is a male connector 50 is coupled to the female connector 40, the male connector 50 and the deformed rebar Or it is made by connecting the bar 21 to the coupler 22, the anchor head portion 30 is characterized by consisting of the pressure plate 31 and the nut 32 or liner screw The screw anchor structure for slope reinforcement and the fixing unit 10 are rotated by an excavation equipment such as a drill motor to excavate the ground 1 so that the screw pipe 14 of the fixing unit 10 is inserted and fixed in the ground 1. And a coupling step of inserting and coupling the free portion 20 through the inside of the extension pipe (casing) 17 to the screw pipe 14 inserted and fixed in the ground 1 by the excavation step. When the free portion 20 is coupled to the screw pipe 14 in the step of removing the extension pipe (casing) 17 is coupled to the female connector 40 of the screw pipe 14, and extending in the step When the pipe (casing) 17 is removed, the tensioning step for contacting the ground (1) and the structure (2) by tensioning the deformed steel or bar 21 of the free portion 20 through a tensioner or liner screw, The end of the free portion 20 tensioned in the step to the anchor head portion 30 structure (2) It can be achieved by the screw anchor method for slope reinforcement, characterized in that the fixing step is fixed to the

Ground, Screw, Anchor, Connector, Rebar, Bar

Description

The structure of screw anchor for slope reinforcement construction and the method using according to the present invention.

1 is an exploded perspective view illustrating an embodiment of the present invention;

Figure 2 is a cross-sectional explanatory view of the male and female connectors illustrating one embodiment of the present invention,

3 is a cross-sectional explanatory diagram of a male and female connector illustrating another embodiment of the present invention;

Figure 4 is a cross-sectional explanatory view of the male and female connectors illustrating another embodiment of the present invention,

5 is an exploded perspective view illustrating another embodiment of the present invention;

Figures 6a-6h is a work flow diagram illustrating an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: Ground 2: Structure

10: fixing unit 12: screw unit

13: ply 14: screw pipe

15: screw groove 16: coupling groove

17: extension pipe 18: injection hole

19: screw 20: free part

21: deformed steel bar or bar 22: coupler

23: nut part 24: tightening screw part

30: anchor head portion 31: pressure plate

32: nut 40: female connector

41: connector thread portion 42: insertion portion

43: taper portion 44: coupling nut portion

45: injection hole 50: male connector

51: coupling screw portion 52: coupler coupling portion

53: engaging jaw 54: engaging protrusion

55: incision 56: injection hole

57: packing 58: injection hose

The present invention relates to a screw anchor structure for slope reinforcement and its construction method, and more specifically, by applying the nailing method to the existing anchor construction method on the slope and ground generated by excavation, cutting, fill, etc. The present invention relates to a screw anchor structure for slope reinforcement and its method, which ensures the stability of the foundation or structure, maximizes the tensile resistance of the screw anchor structure, and provides easy fixing of the screw anchor and simplicity of the method. .

In general, vertical or inclined ground slopes or foundation grounds generated by excavating, cutting, or laying soils in construction and civil engineering sites are often unstable and collapse or ground subsidence occurs. Even if it is stable, the ground is weakened or destroyed by wind and water damage in the long term if it is not reinforced. Therefore, it is the municipal government that is carrying out ground reinforcement work on the slope ground by excavation slope, cutting, and fill in order to prevent it.

Ground reinforcement works for suppressing the collapse and sliding of the slope as described above are largely used earth anchor method and soil-nailing method.

In the earth anchor method, the anchor body is formed at the tip of the tension member embedded in the ground by the injection of cement paste or cement mortar, and the anchor body is dynamically connected to the structure through the head of the tension member and the anchor body. The force applied to the lumber is a method used to reinforce the soft ground of the incision or slope by using the principle transmitted to the original ground through the anchor body.

In addition, the soil nailing method by installing a reinforcing agent (nail structure) on the original ground to maximize the original ground strength to form a composite reinforcement ground, by increasing the shear and tensile strength of the ground to suppress displacement and prevent ground loosening In the construction method, the basic design concept is to maintain stability on any inclined surface that the reinforcement soil walls can assume, by acting as a retaining wall, in which the ingot of the area reinforced by the nail structure acts as an integrated retaining wall.

Such methods are required to be constructed through at least five steps such as drilling, anchor body insertion, cement milk injection, curing and tensioning, which requires a lot of construction time and excessive construction costs due to the complexity of the structure. It was.

The present invention has been made in view of the above problems, the object of the present invention is to apply the nailing method to the existing anchor method quickly installed on the slope and ground caused by excavation, cut, fill, etc. To ensure the stability of the foundation or structure, to maximize the tensile resistance of the screw anchor structure, and to provide a screw anchor structure for the slope reinforcement for the easy anchoring and construction of the screw anchor structure and its method.

Features of the present invention for achieving the above object, the fixing portion 10 for excavating and fixing the ground (1), and a free portion connected to the fixing portion 10 to tension the fixing portion 10 And an anchor head portion 30 for tensioning the free portion 20 to securely fix the ground 1 to a structure 2 such as a slope of a ground, a concrete wall, and the fixing unit 10. ) Is a threaded portion 12 is formed at the end, a hollow screw pipe 14 formed with a plurality of spiral blade pieces 13 on the outer circumferential surface, a female connector 40 coupled to the threaded portion 12, and one side Screw groove 15 is formed in the extension pipe (casing) 17 formed on the other side coupling groove 16, the free portion 20 is a male connector 50 is coupled to the female connector 40 ), And the male connector 50 and the deformed steel bar or bar 21 by connecting the coupler 22, the anchor head portion 30 is the pressure plate 31 and the nut 32 or liner It can be achieved by a screw anchor structure for slope reinforcement, characterized in that consisting of a screw.

In addition, the excavation step of rotating the fixing unit 10 with an excavation equipment such as a drill motor to excavate the ground (1) and the screw pipe 14 of the fixing unit 10 is inserted and fixed in the ground (1), and A coupling step of inserting and coupling the free portion 20 through the inside of the extension pipe (casing) 17 to the screw pipe 14 inserted and fixed in the ground 1 by an excavation step, and the screw pipe 14 in this step. When the free portion 20 is coupled to the removal step of removing the extension pipe (casing) 17 is coupled to the female connector 40 of the screw pipe 14, and the extension pipe (casing) 17 in the step ) Is removed, the tensioning step for bringing the reinforcing bar or bar 21 of the free part 20 into tension through a tensioner or a liner screw, etc., to bring the ground 1 and the structure 2 into close contact with each other. Consists of a fixing step of fixing the end of the (20) to the structure (2) by the anchor head portion 30 It characterized in that it can be achieved by the slope reinforcement for building large screw hyacinth method as set.

Hereinafter, described in detail by the accompanying drawings a preferred embodiment for achieving the above object is as follows.

As shown in FIG. 1 to FIG. 6, the present invention provides a fixing part 10 for excavating and fixing the ground 1 and a free part connected to the fixing part 10 to tension the fixing part 10 ( 20) and an anchor head portion 30 for tensioning the free portion 20 to securely fix the ground 1 to a structure 2 such as a slope of the ground or a concrete wall.

The fixing unit 10 is composed of a screw pipe 14 and an extension pipe (casing) 17 coupled to each other by a female connector 40.

The screw pipe 14 is formed of a hollow pipe with a closed end, and a threaded portion 12 coupled to the female connector 40 is formed at an inner side of the end, and a plurality of holes for excavation of the ground 1 are formed on an outer circumferential surface thereof. Of the spiral blade pieces 13 are formed.

In addition, the screw pipe 14 is formed to penetrate through the injection hole 18 for injecting the cement milk is used to inject the cement milk, etc. into the ground (1).

The female connector 40 is formed with a connector screw portion 41 coupled to the screw portion 12 on one side of the outer surface and a square or hexagonal insert portion 42 on the other side is coupled to the extension pipe (casing) 17. It is formed to be recessed in the groove 16, the inner surface is a tapered portion 43 is formed so that the male connector 50 is easily inserted and the coupling nut portion 44 for coupling with the male connector 50 is formed do.

In addition, the male connector 50 may be formed to be pushed into the coupling nut portion 44 of the female connector 40 without forming a nut, and the connector screw portion 41 and the coupling nut portion of the female connector 40 may be formed. The injection hole 45 is formed to penetrate between 44 so as to be used when injecting cement milk into the ground 1.

The extension pipe (casing) 17 is formed of a hollow pipe, the coupling portion 15 of the square or hexagon is formed on one side of the outer surface, the insertion portion 42 or the screw of the female connector 40 on the other side Square or hexagonal coupling groove 16 is coupled to the groove 15 is formed.

In addition, a screw 19 is formed on the outer circumferential surface of the extension pipe (casing) 17 to facilitate the excavation work.

The free part 20 is configured by connecting the male connector 50 coupled to the female connector 40 and the male connector 50 and the deformed rebar or bar 21 by the coupler 22.

The male connector 50 has a coupling screw portion 51 that is screwed to the coupling nut portion 44 of the female connector 40 on one side, the coupler coupling of the shape such as a deformed steel bar or bar 21 on the other side A portion 52 is formed.

On the other hand, when the nut is not formed in the coupling nut portion 44 of the female connector 40, the male jaw 50 catches the coupling screw portion 51 at the tip of the female connector 40. The formed coupling protrusion 54 is formed, and the coupling protrusion 54 is formed with a cutout 55 so that the male connector 50 is easily inserted into the female connector 40.

In addition, a packing 57 having an injection hole 56 corresponding to the injection hole 45 and having an outer surface fitted to the taper portion 43 of the female connector 40 in the male connector 50 for injecting cement milk or the like. ) Is fitted.

The coupler 22 is formed with a nut part 23 tapered in both directions, and a tightening screw part 24 divided into two pieces on both sides of the inside of the nut part 23 is formed.

The coupling of the male connector 50 by the coupler 22 and the deformed rebar or bar 21 is coupled to the coupler coupling part 52 and the deformed bar or bar of the male connector 50 on both sides of the coupling screw part 24, respectively. When the end portion of the 21 is inserted and the nut part 23 is rotated, the nut part 23 is tapered so that the tightening screw part 24 presses the male connector 50 and the deformed steel bar or bar 21 to be coupled.

The anchor head portion 30 is composed of a pressure plate 31 and the nut (32).

Referring to the construction method according to the screw anchor structure for slope reinforcement construction configured as described above are as follows.

Screw anchor construction method for reinforcement of the present invention is an excavation step is inserted into the ground (1) by rotating the fixing unit 10 in the drilling equipment such as a drill motor, and the free portion 20 in the screw pipe 14 Coupling step of coupling, removing step of removing the extension pipe (casing) 17, the tension step of tensioning the free portion 20, and fixed to the structure (2) by the anchor head portion 30 It is a fixed step.

As shown in FIG. 6A, the excavation step includes a female connector in which a connector screw portion 41 of a female connector 40 is screwed to a screw portion 12 formed at a rear end of a screw pipe 14 of the fixing portion 10 ( 40, the drilling equipment such as a drill motor is mounted and rotated to excavate the ground 1 by the blade pieces 13 formed in the screw pipe 14 so that the screw pipe 14 of the fixing unit 10 is ground (1). Insert and fix it inside. In this case, in order to insert the screw pipe 14 deeper, the drilling equipment is dismantled and the coupling groove 16 of the extension pipe (casing) 17 is extended to the insertion part 42 of the female connector 40 and then the extension pipe. (Casing) The excavation work is repeated by mounting the excavation equipment in the screw groove 15 of 17, in order to excavate deeper, the bolt formed in the general extension pipe 17a as shown in FIG. It is screwed into 15) and extended by digging. As described above, the excavation work is carried out to an appropriate depth to insert and fix the fixing unit 10 into the ground 1.

As shown in FIG. 6B, the free portion 20 is inserted into the extension pipe (casing) 17 of the fixing part 10 which is excavated and fixed in the excavation step, as shown in FIG. 6B, to the rear end of the screw pipe 14. Rotating the male connector 50 coupled to the distal end of the free portion 20 with the tapered portion 43 of the female connector 40 formed therein, the coupling screw portion 51 of the male connector 50 is the female connector 40. The screw is coupled to the coupling nut portion 44 of the).

On the other hand, the female connector 40 does not have a coupling nut portion 44 is a tapered portion 43 of the female connector 40 using a male connector 50 at the tip of the free portion 20 formed with a coupling protrusion 54. When the male connector 50 coupled to the front end of the free part 20 is pushed into the female connector 40 while the incision 55 is contracted, the locking jaw 53 of the male connector 50 is inserted into the female connector. It is coupled to the tip of the (40).

The removal step is an extension pipe (casing) 17 coupled to the female connector 40 of the screw pipe 14 when the free portion 20 is coupled to the screw pipe 14 in the coupling step as shown in FIG. 6C. When the extension pipe (casing) 17 is pulled out, the blade piece 13 of the screw pipe 14 is supported on the ground 1 so that the extension pipe at the insertion portion 42 of the female connector 40 is removed. The coupling groove 16 of the (casing) 17 is separated so that the extension pipe (casing) 17 is removed.

As shown in FIG. 6D, when the extension pipe (casing) 17 is removed in the removal step, the reinforcing bar or bar 21 of the free part 20 is tensioned through the tensioner to support the ground 1 and the structure. (2) in close contact with the reinforcing bar or bar 21 is tensioned while being supported on the ground (1) by the blade piece 13 of the screw pipe (14).

Fixing step is a step of fixing the end of the free portion 20 is tensioned in the tension step in the structure (2) with the anchor head portion 30 to the structure (2) as shown in Figure 6e At the end of the (21) to support the structure (2) with a pressure plate 31 and tightened with a nut (32) is to fix the ground (1) and the structure (2) in close contact.

In addition, the injection hose 58 is inserted into the space from which the extension pipe (casing) 17 is removed between the removal step and the tension step, and cement milk is injected into the free portion 20. Input through) may further include an input step for firmly mounting the free portion 20 portion.

On the other hand, in the case of the soft ground (1), the cement milk injection step is placed between the removal step and the tension step to more firmly fix the ground (1) and the structure (2), the injection step is shown in Figure 6g Likewise, the injection hole 45 penetrates the female connector 40 of the fixing unit 10 between the connector screw portion 41 and the coupling nut portion 44 of the female connector 40. The male connector 50 is screwed into the coupling nut portion 44 of the female connector 40 by screwing the coupling threaded portion 51 into the tapered portion 43 so that the packing 57 fitted to the male connector 50 is fitted. When the cement milk is injected through the injection hose 58 connected to the injection hole 56 of the 57, the cement milk is injected through the inside of the screw pipe 14 through the injection hole 56 and the injection hole 45 ( 18) to be sprayed onto the surrounding ground 1 of the screw pipe 14 so that the screw pipe 14 is firmly supported on the ground 1. Will.

When the screw pipe 14 and the female connector 40 and the free part 20 of the fixing unit 10 are permanently buried in the ground 1, the screw pipe 14 and the female connector 40 and the free part ( 20) is preferably used by coating or plating.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the above-described embodiments, and the present invention is not limited to the above-described embodiments without departing from the spirit of the present invention as claimed in the claims. Various modifications can be made by those skilled in the art, and such modifications are intended to fall within the scope of the appended claims.

In the present invention as described above, the separate excavation work and the injection process of the cement milk can be omitted, it can be quickly installed on the slope and ground generated by excavation, cutting, fill, etc. in the construction site, It is possible to secure the stability of the foundation or structure, maximize the tensile resistance of the screw anchor structure, easily settle the screw anchor, and at the same time pursue the simplification of construction method, be environmentally friendly, and reduce the construction period. It is a useful invention which has many effects.

Claims (9)

A fixing part 10 for excavating the ground 1, a free part 20 connected to the fixing part 10 to tension the fixing part 10, and a free surface 20 by tensioning the free part 20. , Anchor head portion 30 for tightly fixing the ground (1) to a structure (2), such as a concrete wall, the fixing portion 10 is formed with a screw portion 12 at the end, a plurality of outer peripheral surface A hollow screw pipe 14 having a spiral blade 13 formed therein, a female connector 40 coupled to the screw portion 12, a screw groove 15 formed at one side thereof, and a coupling groove 16 formed at the other side thereof. Comprising an extension pipe (casing) 17 formed, the free portion 20 is a male connector 50 coupled to the female connector 40, the male connector 50 and a deformed steel bar or bar 21 It is made by connecting the coupler 22, the anchor head portion 30 is a screw anchor structure for slope reinforcement workers, characterized in that consisting of the pressure plate 31 and the nut (32). The method of claim 1, Slope reinforcement screw anchor structure, characterized in that a plurality of injection holes 18 for spraying cement milk or the like is formed on the outer circumferential surface of the screw pipe (14). The method of claim 1, Slope anchor construction screw anchor structure, characterized in that the screw 19 is formed to facilitate the excavation work on the outer peripheral surface of the extension pipe (casing) (17). The method of claim 1, The male and female connectors 40 and 50 have a connector screw portion 41 coupled to the screw portion 12 on one side of an outer surface thereof, and a square or hexagonal insert portion 42 on the other side thereof has the extension pipe (casing) 17. It is formed to be inserted into the coupling groove 16 of the), the inner surface is formed with a tapered portion 43 so that the male connector 50 is easily inserted and the coupling nut portion 44 for coupling with the male connector 50 The formed female connector 40 and the coupling screw portion 51 which is screwed to the coupling nut portion 44 of the female connector 40 on one side is formed, the other side coupler coupling of the shape such as a deformed steel bar or bar 21 Slope reinforcement screw anchor structure, characterized in that consisting of a male connector 50 formed portion 52. The method according to claim 1 and 4, The male and female connectors 40 and 50 have a female connector 40 that does not form a nut in the coupling nut portion 44, and a coupling protrusion having a locking jaw 53 formed to be caught by a tip of the female connector 40. 54 is formed, the screw anchor structure for slope reinforcement, characterized in that the coupling protrusion 54 is composed of a male connector 50 is formed with a cutout portion 55 to be easily inserted into the female connector (40). The method according to claim 1 and 4, The male and female connectors 40 and 50 have a female connector 40 formed so that the injection hole 45 penetrates between the connector screw portion 41 and the coupling nut portion 44, and a tapered portion of the female connector 40. 43) A screw anchor structure for slope reinforcement workers, characterized in that the outer surface is fitted to the fitting hole formed in the male connector (50) fitted with a packing (57) formed with an injection hole (56) corresponding to the injection hole (45). An excavation step of rotating the fixing unit 10 with an excavation equipment such as a drill motor to excavate the ground 1 so that the screw pipe 14 of the fixing unit 10 is inserted into the ground 1 and fixed; A coupling step of coupling the free portion 20 through an extension pipe (casing) 17 to the screw pipe 14 inserted and fixed in the ground by the excavation step; A removal step of removing the extension pipe (casing) 17 coupled to the female connector 40 of the screw pipe 14 when the free portion 20 is coupled to the screw pipe 14 in the above step; When the extension pipe (casing) 17 is removed in this step, the tensioning step for bringing the ground (1) and the structure (2) in close contact by tensioning the deformed reinforcement bar or bar 21 of the free portion 20 through a tensioner; Slope reinforcement screw anchor construction method characterized in that it comprises a fixing step of fixing the end of the free portion 20 is tensioned in the step to the structure (2) by the anchor head portion (30). The method of claim 7, wherein Insert the injection hose 58 into the space from which the extension pipe (casing) 17 is removed between the removal step and the tension step, and the cement part is injected into the free part 20 through the injection hose 58 to free the part. (20) The screw anchor method for slope reinforcement, characterized in that it further comprises a step of making the part firmly mounted. The method of claim 7, wherein The male connector 50 formed at the tip of the free part 20 in the female connector 40 through which the injection hole 45 passes between the connector screw part 41 and the coupling nut part 44 between the removing step and the tension step. The coupling screw portion 51 is screwed into the coupling nut portion 44 of the female connector 40 so that the taper portion 43 fits the packing 57 fitted to the male connector 50, and the packing 57 is injected. Cement milk injection step of injecting the cement milk through the injection hose 58 connected to the hole 56 and sprayed to the surrounding ground 1 of the screw pipe 14 by the injection hole 18 of the screw pipe 14 Slope anchoring method for slope reinforcement further comprising.

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