KR101016698B1 - Tube type earth-anchor - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an earth anchor. More specifically, there is a tube in which the pressure is maintained by air or other fluid in the earth anchor body, and there is a pipe in friction with the ground outside the tube. The pipes are divided in 6-8 directions in the longitudinal direction, and spirals protrude to increase friction. Since the main body is fixed to the ground using the expansion of the tube, no grouting is required, and construction can be performed immediately after installation. The present invention relates to an environmentally friendly tubular earth anchor that can be simply removed after construction and is recyclable.

The tubular earth anchor of the present invention includes a head portion having a tip portion forming a cone shape; A cylindrical body connected to the rear end of the head and having an intermediate portion divided into six to eight branches in a longitudinal direction; A rubber tube inserted into the main body and expandable; A first connector connecting the head part and the main body; A strand wire supporter connected to the rear end of the main body; A second connector connecting the main body and the strand supporter; And a plurality of strand wires mounted on the strand wire supporter and having a predetermined length. Characterized in that it comprises a.

Tubular earth anchor of the present invention by the configuration as described above do not need to grout after buried in the ground, can be installed immediately after installation. Immediately after construction can be removed, and after removal can be reused to shorten the construction time, there is an effect that can reduce the construction cost.

Earth anchors, tubes, fusing units

Description

Tube-type earth anchors {Tube type earth-anchor}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an earth anchor. More specifically, there is a tube in which the pressure is maintained by air or other fluid in the earth anchor body, and there is a pipe in friction with the ground outside the tube. The pipes are divided in 6-8 directions in the longitudinal direction, and spirals protrude to increase friction. Since the main body is fixed to the ground using the expansion of the tube, no grouting is required, and construction can be performed immediately after installation. The present invention relates to an environmentally friendly tubular earth anchor that can be simply removed after construction and is recyclable.

In general, earth anchors have been used to hold soil panels in the ground to keep soil panels resistant to earth pressure when digging in deep trenches or foundations with steep incline or more than the angle of repose. The anchor body was installed in a buried hole as a grout by installing the fixing unit wound in the U-shaped tension member differently in the anchor body, and tightened the strand of the tension member in the ground by fastening means such as a cone wedge. The conventional earth anchor mounted as described above was able to support the soil that could be collapsed by earth pressure by offsetting each other's force to be passed by the earth's tensile force and earth pressure generated in the tension member around the fixing means.

Conventional earth anchors have the following problems. When removing the stranded wire of the earth anchor, the arc-shaped curved portion of the tensile material is smaller than the radius of curvature due to the elasticity of the stranded wire, so it often does not come out well. At this time, the ground anchor left buried under the ground became an obstacle in the case of digging or pile for construction in the adjacent site. In addition, before removing the strand, there was also the inconvenience of dismantling the fixing means after installing and re-tensioning the tensioning equipment to release the tension force acting from the upper fixing portion to the lower fixing portion of the earth anchor.

The present invention has been made to solve the above problems, and the object of the present invention is to fix the main body in the ground by using the expansion of the tube, so no grout work is required, and construction can be performed immediately after installation. It is to provide an environmentally friendly tubular earth anchor that can be simply removed after construction and is recyclable.

The tubular earth anchor of the present invention includes a head portion having a tip portion forming a cone shape; A cylindrical body connected to the rear end of the head and having an intermediate portion divided into six to eight branches in a longitudinal direction; A rubber tube inserted into the main body and expandable; A first connector connecting the head part and the main body; A strand wire supporter connected to the rear end of the main body; A second connector connecting the main body and the strand supporter; And a plurality of strand wires mounted on the strand wire supporter and having a predetermined length. Characterized in that it comprises a.

The tubular earth anchor may include a tube cap having a first fluid hole at one end of the rubber tube and fitted through the first fluid hole; .

The tubular earth anchor may include an extension nipple having a second fluid hole at the other end of the rubber tube and fitted through the second fluid hole; .

In addition, the tubular earth anchor is connected to the other side of the extension nipple, the fluid plug into which the fluid is injected; A coupling nipple connecting the extension nipple and the fluid plug; .

In addition, the main body is characterized in that the expansion and fixed by the rubber tube when fixed in the ground.

In addition, the main body is characterized in that a plurality can be arranged in series.

In addition, the outer periphery of the main body is characterized in that the thread protruding in the longitudinal direction.

Tubular earth anchor of the present invention by the configuration as described above do not need to grout after buried in the ground, can be installed immediately after installation. Immediately after construction can be removed, and after removal can be reused to shorten the construction time, there is an effect that can reduce the construction cost.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view showing a tubular earth anchor of the present invention, Figure 2 is a cross-sectional view showing a tubular earth anchor of the present invention. Figure 3 is an exploded perspective view showing a connection structure of the rubber tube of the present invention, Figure 4 is a cross-sectional view showing an additional body of the present invention.

1 and 2, the tubular earth anchor of the present invention includes a head part 100, a main body 200, a rubber tube 300, first and second connectors 400 and 600, a strand wire supporter 500, and A strand 700 is provided. The tip portion of the head portion 100 forms a cone shape with a sharp front portion. This is to facilitate the head portion 100 to penetrate the ground. The angle of the head portion 100 cone may be 50 ~ 70 °. The rear end of the head portion 100 forms a cylindrical shape. At this time, if the diameter of the rear end of the head portion 100 is too large, it is difficult to penetrate the ground so that the diameter can be limited to 90 ~ 110mm. The head part 100 may be a carbon steel (S45C) material which is surface-treated by parkarizing.

1 and 2, the first connector 400 is connected to the other end of the head part 100. The first connector 400 forms a cylindrical shape. One end of the first connector 400 is formed to be smaller than the diameter of the head portion 100 to be fitted to the head portion 100. The other end of the first connector 400 also has the same shape as one end. The first connector 400 may be made of a stainless steel (Sus) material which is surface treated by parkarizing.

1 and 2, the main body 200 is connected to the other end of the first connector 400. The main body 200 has a cylindrical shape having a predetermined length, and the other side portion of the first connector 400 is fitted at one end thereof. The main body 200 is divided into 6-8 branches in the longitudinal direction of the middle portion. The main body 200 increases in volume as a gap is formed in the longitudinal direction, and a thread 210 is protruded in the longitudinal direction on the outer circumference of the main body 200, thereby increasing frictional force with the ground when buried in the ground, thereby increasing the fixing effect. Can be. The overall length of the main body 200 may be 1100 to 1300 mm. The length of the split portion of the main body 200 may be 960 to 1160 mm. The main body 200 may be made of polycarbonate (PC) or polybutylene terephthalate (PBT), which is a plastic having high strength and good elasticity.

2 and 3, the rubber tube 300 is inserted into the main body 200. The rubber tube 300 has a cylindrical shape, the diameter decreases toward both ends, and the first and second fluid holes 350 and 360 for fluid injection and discharge are formed at both ends. The material of the first and second fluid holes 350 and 360 may be stainless steel (Sus). The rubber tube can expand during fluid injection and increase in volume. The material of the rubber tube 300 is synthetic rubber, neoprene rubber, bu or S rubber and bu or N rubber, and similar to the natural rubber, but not easily deteriorated in chemicals, friction, oil, heat, air, light, etc. Because of its high elasticity, neoprene rubber can be used to make oil hoses, tapes, soles, tires, and wires.

2 and 3, the tube cap 310 is mounted in the first fluid hole 350. Tube cap 310 has a head portion of the nut shape, the rear end is a cylindrical shape. The tube cap 310 may be mounted by screwing the first fluid hole 350 to prevent leakage of the fluid when the fluid is injected. The tube cap 350 and the first fluid hole 350 may be mounted by screwing. Tube cap 310 may be a stainless steel (Sus) material. An O-ring may be added between the first fluid hole 350 and the tube cap 310 for airtightness.

2 and 3, the extension nipple 320 is connected to the other end of the rubber tube 300. Extension nipple 320 forms the shape of a hexagonal column having a predetermined length and has a cylindrical connection portion on both sides. One end portion of the extension nipple 320 may be mounted by screwing into the second fluid hole 350. The extension nipple 320 connects the rubber tube 300 to the fluid plug 330 or an additional rubber tube. Extension nipple 320 may be used a stainless steel (Sus) material. An o-ring may be added to the connection portion of the extension nipple 320 for airtightness.

2 and 3, the coupling nipple 340 is connected to the other side of the extension nipple 320. The coupling nipple 340 has an outer circumference forming a hexagonal pillar shape, and an inner circumference forming a cylindrical shape. The coupling nipple 340 connects the extension nipple 320 and the fluid plug 330, and the coupling method may be screw coupling. The coupling nipple 340 may be made of stainless steel (Sus). O-rings may be added to the connection portion of the coupling nipple 340 for airtightness.

2 and 3, the fluid plug 330 is connected to the other end of the coupling nipple 340. The fluid plug 330 may use a PM type coupler. The fluid plug 330 serves as a connection with the fluid container for fluid injection or removal. The fluid plug 330 is equipped with a backflow prevention device to communicate only when the fluid is injected or removed, and a minicoupler type that is normally sealed may be applied. The fluid plug 330 and the coupling nipple 340 may be screwed together, and an O-ring may be added for airtightness.

1 and 2, the second connector 600 is connected to the other end of the main body 100. The second connector 600 has a cylindrical shape. The second connector 600 has only a connection position, and has the same structure, shape, and material as the first connector 400.

1 and 2, the other end of the second connector 600, the strand support member 500 is connected. The strand support member 500 is blocked on the other side in the cylindrical shape, the other side is provided with a lifespan for connecting a plurality of strands 700, the center has a central hole for the injection of fluid injection or removal means. The strand wire supporter 500 may be made of a stainless steel (Sus) material which is surface treated by parkarizing.

1 and 2, a plurality of strands 600 are mounted on the other side of the strand support 500. The strand 600 is formed in a cylindrical shape having a predetermined length. One side of the strand 600 is fixed to the other side of the strand support 500, the other side of the strand 600 is fixed to the support of the ground, and serves to transmit the force received from the ground to the tubular earth anchor. Steel of the strand wire 600 may be used, the length is adjustable according to the distance from the surface to the tubular earth anchor.

Referring to FIG. 4, a plurality of main bodies 100 may be connected in series as necessary, and one embodiment of the main body 100 will be described. The tubular earth anchor of the present invention may add a second body 202 to secure more bearing capacity when buried in the ground. The second body 202 is connected to the rear end of the second a connector 601, and the second rubber tube 302 is inserted into the second body 202. The second rubber tube 302 is connected to the rear end of the first extension nipple 321. A second b connector 602 is connected to the rear end of the second body 202, and the strand wire supporter 500 is connected to the rear end of the second b connector 602. A second extension nipple 322 is connected to the rear end of the second rubber tube 302, and a coupling nipple 340 and a fluid plug 330 are connected to the rear end of the second extension nipple 322.

Hereinafter will be described with reference to the drawings the operation of the present invention configured as described above.

Tubular earth anchors penetrate the surface and are anchored to the ground. The tubular earth anchor fixed at a constant depth is injected with fluid through the fluid plug 330. The rubber tube 300 into which the fluid is injected is expanded, and the volume of the main body 100 is increased by the expansion of the rubber tube 300. The tubular earth anchor is firmly fixed to the ground by the stretched main body 100 and supports the force pulled from the other side of the strand 700.

When the tubular earth anchor is removed, the fluid is drawn out through the fluid plug 330. When the fluid is removed, the rubber tube 300 is contracted, the main body 100 is also contracted and a gap is formed between the tubular earth anchor and the ground, which is fixed to the ground, and becomes easy to remove. The removed tubular earth anchor is reusable.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best explain their invention in the best way possible. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention, and do not satisfy all of the technical idea of the present invention, various equivalents that may be substituted for them at the time of the present application It should be understood that there may be water and variations.

1 is a perspective view showing a tubular earth anchor of the present invention.

2 is a cross-sectional view showing the tubular earth anchor of the present invention.

Figure 3 is an exploded perspective view showing a connection structure of the rubber tube of the present invention.

4 is a cross-sectional view showing an additional body of the present invention.

<Description of the symbols for the main parts of the drawings>

100: head

200: main body 201: first main body

202: second body 210: thread

300: rubber tube 301: first rubber tube

302: second rubber tube 310: tube cap

320: nipple extension 321: first extension nipple

322: second extension nipple 330: fluid plug

340: coupling nipple 350: first fluid hole

351: fluid hole 1a 352: fluid hole 1b

360: second fluid hole 361: 2a fluid hole

362: 2b fluid hole

400: first connector

500: stranded wire support

600: second connector

601 connector 2a 602 connector 2b

700: stranded wire

Claims (7)

A head portion 100 having a tip portion forming a cone shape; A cylindrical body 200 connected to the rear end of the head part 100 and having an intermediate portion divided into 6 to 8 branches in a longitudinal direction; A rubber tube 300 inserted into the main body 200 and expandable; A first connector 400 connecting the head part 100 and the main body 200; A strand wire supporter 500 connected to a rear end of the main body 200; A second connector 600 connecting the main body 200 and the strand support 500; And a plurality of strands 700 mounted on the strand supporter 600 and having a predetermined length. Tubular earth anchor comprising a. The method of claim 1, The tubular earth anchor A tube cap 310 having a first fluid hole 350 at one end of the rubber tube 300 and fitted through the first fluid hole 350; Tubular earth anchor comprising a. 3. The method of claim 2, The tubular earth anchor An extension nipple 320 having a second fluid hole 360 at the other end of the rubber tube 300 and fitted through the second fluid hole 360; Tubular earth anchor comprising a. The method of claim 3, wherein The tubular earth anchor A fluid plug 330 connected to the other side of the extension nipple 320 and into which fluid is injected; A coupling nipple 340 connecting the extension nipple 320 and the fluid plug 330; Tubular earth anchor comprising a. The method of claim 1, The main body 200 is a tubular earth anchor, characterized in that the expansion and fixed by the rubber tube 300 when fixed in the ground. The method according to any one of claims 1 to 5, The main body 200 is a tubular earth anchor, characterized in that a plurality can be arranged in series. The method according to any one of claims 1 to 5, Tubular earth anchor, characterized in that the thread 210 is protruded in the longitudinal direction on the outer periphery of the main body 200.

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