KR100746879B1 - Anchor - Google Patents

Abstract

An earth pressure type permanent anchor is provided to reinforce the ground more strongly by increasing bearing capacity against the ground and frictional force between a wedge and the ground. The earth pressure type permanent anchor(100) for reinforcing the ground strongly by driving all wedges into the ground and increasing bearing capacity against the ground comprises an anchor head(10) inserted to the inside of an excavation hole(2) of the ground(1) and composed of a fixture(11) fixed with the front end of a tension member and a cap(12) coupled to the fixture to be separable to protect the fixture, one or more tension members(20) fixed to the fixture of the anchor head at the front end and tensed at the rear end by a tensioner to be inserted to the inside of the excavation hole by a pressure device(21) to solidify the ground, a packer(30) installed in the middle of the tension member to close up the excavation hole and supported by a packer ring, and a wedge device composed of a slider(50) drew out when drawing out the anchor head by tensing the tension member and a wedge(60) widened to the outside when sliding by pulling out the slider and driven in the excavation hole.

Description

Acupressure permanent anchor {ANCHOR}

1 is a perspective view of acupressure permanent anchor according to a first embodiment of the present invention.

Figure 2 is an exploded perspective view of acupressure permanent anchor according to the first embodiment of the present invention.

Figure 3 is a longitudinal sectional view of acupressure permanent anchor according to the first embodiment of the present invention.

Figure 4 is an operational state diagram of acupressure permanent anchor according to the first embodiment of the present invention.

5 is a perspective view of acupressure permanent anchor according to a second embodiment of the present invention.

Figure 6 is a longitudinal cross-sectional view of acupressure permanent anchor according to a second embodiment of the present invention.

7 is an operational state diagram of acupressure permanent anchor according to a second embodiment of the present invention.

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

1: ground, 2: excavator

10: fixing head, 20: tension member

30: packer, 40: wedge means

50: slider, 60: wedge

210: operating rod, 220: nail rod

230: wedge, 240: head

The present invention relates to an acupressure permanent anchor, and more particularly, a bearing force for pulling out of the anchor is made by a wedge type, not made by a grout, and a pressure type to increase the stiffness by the wedge It is about a permanent anchor.

In general, anchors are used to prevent the collapse of the incision surface at the incision site and slope stability, to prevent the groundwater of large structures such as buildings or dams, to prevent the collapse of the excavating wall surface in the underground construction of large buildings, and also to prevent earthquakes. It is installed to prevent the movement or distortion of the structure when constructing a building or a large steel tower.

In the excavation method, drill holes are drilled in the ground where there is a risk of collapse, and the grout hose, a plurality of tension members and a load body are prepared and inserted into the hole, and then through the grout hose. When the grout is injected and the injected grout is cured together with the lower body, the fastener is fastened to the other end of the tension member and the tension member in the strand is tensioned using hydraulic equipment to stabilize the target structure.

Such anchors support the tensile force from the surface by the ground pressure of the grouting or frictional forces with the ground.

In this excavation method, the anchor component is divided into a fixing part exerting the required stress, a free part transmitting the stress exerted in the mounting site, and a fixture for acting the required stress on the structure. Among these components, the anchoring part is determined by the adhesion resistance of the ground, cement grout, cement grout and tension member. The free part used in the excavation method may be made of, for example, a tension member coated with a wire rope in which a plurality of steel wires are twisted.

However, the anchor according to the prior art has the following problems.

The anchor according to the prior art is to give the stiffness to the pull by the bearing pressure of the grout, there are a number of joints in the periphery of the excavation hole in which the anchor is inserted depending on the state of the ground. Therefore, since the grout is filled by the injection pressure, when the grout is injected into the drilling hole, the grout leaks from the drilling hole through the cutting, and thus the filling rate inside the drilling hole is lowered, thereby failing to substantially reinforce the ground. At this time, even if the joint is formed only in a part, since the entire area inside the excavation hole is one space, voids are generated in the grout filled in the entire area of the excavation hole, thereby preventing reinforcement. Here, since there is no way to measure the strength inside the excavation hole, the construction proceeds without recognizing the presence of voids, and eventually a large accident due to ground collapse may occur.

In addition, because the outer circumferential surface of the anchor is usually a flat surface, a separation phenomenon occurs between the grout and the anchor, and thus the anchor is drawn out at the excavation hole when the tension member is tensioned, resulting in a ground collapse.

In addition, there is a problem that is not structurally stable due to the intensive load at the tip fixing unit lengthened the length of the fixing unit. However, if the fixing unit is long, there are problems such as unit cost and construction difficulty.

The present invention is to solve the problems as described above, as the anchor is pulled to increase the holding force against the ground, and to increase the friction between the wedge and the ground to strengthen the ground more firmly acupressure permanent Its purpose is to provide an anchor.

Acupressure permanent anchor according to the present invention for achieving the object as described above comprises a wedge means to be embedded in the excavation hole in the ground while opening the tension of the tension member fixed to the fixing head, the wedge means is drawn out of the tension member It is characterized by consisting of a slider that moves backwards in time and the entire area is opened by the backward movement of the slider and wedges that are driven to the ground.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

<Example 1>

1 to 4, the permanent anchor 100 according to the present embodiment, the fixing head 10 is inserted into the excavation hole (2) in the ground (2); At least one tension member 20 having a front end fixed to the fixing head 10 and a rear end connected to the acupressure means 21 outside the excavation hole 2; A packer 30 installed in the middle of the tension member 20 to seal the excavation hole 2; Consists of the wedge means 40 which is formed when the tension member 20 is pulled into the excavation hole (2), and will be described in detail below.

The fixing head 10 is a cap 12 for protecting the fixing bracket 11 by being detachably coupled (screwed or the like) to the fixing bracket 11 and the fixing bracket 11 to which the distal end of the tension member 20 is fixed. Can be done.

The tension member 20 has its front end (inside the anchor hole 2) fixed to the fixing bracket 11 of the fixing head 10 and the rear end (inlet of the anchor hole 2) through a tensioner (not shown). The ground 1 is firmly inserted by being tensioned and inserted into the anchor hole 2 by the acupressure means 21 (pressure plate, head, etc.).

The packer 30 is a conventional packer, and a hydraulic or milk injection type is used. The anchor hole is installed at a position spaced to the rear of the slider 50 of the wedge means 40, which will be described later, and is expanded by the injection of hydraulic or milk. (2) It is sealed. Before and after the packer 30, the tension members 20 are movably penetrated, respectively, and a packer ring (not shown) supporting the packer 30 is installed. That is, the packer 30 is installed by the packer ring, which is well known, and thus a detailed description thereof will be omitted.

The wedge means 40 is opened to the outside during the sliding by the draw of the slider 50 and the slider 50 is drawn together when the fixing head 10 is drawn by the tension of the tension member 20 of the excavation hole (2) It consists of a wedge 60 is embedded in the ground (1).

Slider 50 is the end portion is fixed to the rear of the fixing head 10, the cylindrical body 51 through which the tension material 20 passes therein; It consists of 1 and 2 slip parts 52 and 53.

The first and second slip portions 52 and 53 allow the wedge 60 to be opened using the inclination thereof, and each tip portion may be processed at a right angle.

The wedge 60 has a semicircular cross section and is coupled to the outer circumference of the slider 50 to form a circle. The wedge 60 is slidably coupled to the inner circumference at an angle corresponding to the first and second slip portions 52 and 53. The third and fourth slip portions 61 and 62 are formed to be opened by reversing the slider 50 so as to be anchored to the ground 1 around the excavation hole 2 so that the anchor 100 is fixed.

A cylindrical space 63 is formed between the third and fourth slip portions 61 and 62 of the wedge 60, and the two spaces 63 (the second slip portion 53 of the slider 50 and the wedge 60). Between the third slip portion 61) of the) elastic member, for example, a coil spring 70 is installed. The coil spring 70 supports the slider 50 and the wedge 60 at a predetermined interval at an initial stage (no tensile force is applied). The coil spring 70 may be selectively used, and the first and second slip parts 52 and 53 may be separately formed and supported by the coil spring 70.

The pair of wedges 60 are bent by the band 64 so that they do not escape from the slider 50 upon insertion of the anchor 100. The band 64 prevents the wedges 60 from being separated from the slider 50 when the anchor 100 is inserted, but has a strength that breaks so that the wedge 60 is opened when the tension member 20 is tensioned.

The operation of the acupressure permanent anchor according to the present embodiment configured as described above is as follows.

After drilling the excavation hole (2) in the ground (1), the anchor 100 according to this embodiment is inserted. The anchor 100 is maintained by the pair of wedges 60 coupled to the slider 50 by the band 64, and also by the elasticity of the coil spring 70 when the coil spring 70 is employed. 60 and the slider 50 maintain the gap without shaking.

When the anchor 100 is inserted, the packer 30 is in a contracted state so that interference with the excavation hole 2 does not occur (see FIG. 3).

Injecting fluid or milk into the packer 30 after the insertion of the anchor 100 is completed, the packer 30 is expanded and the inlet side of the excavation hole 2 is sealed by the packer 30 (see FIG. 4). ).

When the tension member 20 is gradually tensioned through a tensioner (not shown), the tension member 20 is tensioned so that the slider 50 together with the fixing head 10 moves to the rear (left of the drawing reference). At this time, as the slider 50 is drawn out due to the inclination of the first and second slip portions 52 and 53 of the slider 50 and the third and fourth slip portions 61 and 62 of the wedge 60, the wedge 60 is pulled out. Will be far from the center of the circle. The wedge 60 does not pivot through the first, second, third, and fourth slip portions 52, 53, 61, 62, so that the entire region opens together to the ground 1 side. As the frictional force between and increases, it is possible to secure a large support stiffness.

Since the coil spring 70 is initially in a compressed state, the wedge 60 may be pushed by the restoring force during the operation between the slider 50 and the wedge 60 so that the wedge 60 may be more opened.

After the fixing is completed, the grout may be injected into the excavation hole 2 to seal the excavation hole 2. The grout injected by the present embodiment can be injected only at the inlet side of the excavation hole 2 because it simply seals the excavation hole 2 irrespective of the holding force for drawing.

In the state in which the compression-type permanent anchor 100 according to the present invention is installed, the pulling force may be applied to the anchor 100 by stress, tensile force, etc. of the ground, and as the anchor 100 is drawn out, the wedge 60 becomes wider and ground ( Deeply embedded in 1), because the entire wedge 60 is embedded in the ground (1), the stiffness is increased so that the anchor 100 is not drawn out.

<Example 2>

As shown in Figures 5 to 7, the acupressure permanent anchor 200 according to the present embodiment,

An operating rod 210 mounted to the excavation hole 2 in the ground 1 so as to be idle; A nail rod 220 which is moved back and forth by the operation of the operation rod 210; Wedge 230 is embedded in the ground (1) around the excavation hole (2) when the nail bar 220 is reversed; Consists of the head 240 to induce the opening of the wedge 230, each component will be described in detail below.

The operating rod 210 is, for example, a rod-shaped rod having a circular cross section, and a screw portion 211 is formed at the tip portion (inside the excavation hole 2).

The nail bar 220 is, for example, a rod-shaped body 221 having a circular cross section, a fixing plate 222 formed with a diameter larger than the body 221 at the distal end of the body 221, and an operating rod at the rear end of the body 221. Comprising a screw portion 223 coupled to the screw portion 211 of the 210 and the first slip portion 224 inclined so that the cross-sectional area is widened to the front end portion of the inner peripheral surface of the body 221.

That is, the nail bar 220 is moved back and forth by the rotation operation of the operating rod 210, so that the wedge 230 is opened when the reverse.

For example, the wedge 230 is a pair of semi-circular cross-sections, each of which has a second slip portion 231 formed at an angle corresponding to the first slip portion 224 on its inner circumferential surface to form a first slip portion 224 of the nail rod 220. The outer peripheral portion is slidably coupled. That is, when the nail bar 220 is drawn out, the wedge 230 opens and is anchored to the ground 1 to anchor the anchor 200.

The head 240 is cylindrical and slidably coupled to the front of the wedge 230 of the nail rod 220 to induce the opening of the wedge 230. The connection structure between the wedge 230 and the head 240 is, for example, the third slip portion 241 is formed to be inclined so that the cross-sectional area is wider toward the tip portion in the middle of the outer peripheral surface of the head 240, the tip portion of the wedge 230 The guide protrusion 232 sliding along the third slip portion 241 is formed therein.

Looking at the cross-sectional shape of the wedge 230, in the semi-cylindrical inclined second slip portion 231 is formed so as to decrease the thickness from the rear end, a straight line maintaining the same thickness at the end of the second slip portion 231 The part 233 is provided, and the guide protrusion 232 protruding toward the center from the end of the straight portion 233 is formed. The wedge 230 may have a plurality of protrusions formed on the outer circumferential surface to increase friction.

The coil spring 250 may be mounted between the first slip part 224 of the nail bar 220 and the head 240 as an elastic member supporting the nail bar 220 and the head 240. .

In the figure, reference numeral 234 denotes a band supporting the pair of wedges 230 so as not to open when installed. The band 234 has the same function as the band of the first embodiment, and detailed description thereof will be omitted.

The operation of the acupressure permanent anchor according to the present embodiment configured as described above is as follows.

The drilling hole 2 for insertion of the acupressure permanent anchor 100 according to the present embodiment is drilled in the ground 1 to insert the anchor 100 into the drilling hole 2.

When the operating rod 210 is rotated, the nail rod 220 moves backward (left of the drawing reference), and the nail rod 220 moves backward with the first and second slip portions 224 and 231 and the third slip portion 241. The wedge 230 is opened by the guide protrusion 232. At this time, the wedge 230 operates as a whole so that a part of the wedge 230 is not embedded in the ground 1, but the entire outer circumferential surface is embedded in the ground 1.

In this case, as the drawing force is applied to the nail bar 220, the wedge 230 is more firmly embedded in the ground 1.

This embodiment can also be sealed by injecting grout into the inlet side of the excavation hole 2 as in the first embodiment described above.

As described above, according to the acupressure permanent anchor according to the present invention, the stiffness caused by the anchor blades is generated regardless of the grout bearing pressure, so that joints are present in the ground or the ground can be effectively reinforced. Therefore, safety accidents can be prevented, and construction period can be shortened. In particular, the entire outer circumferential surface of the wedges is embedded in the ground, thereby increasing the frictional force with the ground.

While the invention has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the invention, the invention is not limited to the configuration and operation as such is shown and described. Rather, it will be apparent to those skilled in the art that many changes and modifications to the present invention are possible without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

Claims (5)

delete delete delete A threaded portion formed at a distal end thereof and rotatably installed in the excavation hole in the ground; A rod-shaped body, a fixed plate formed at a larger end portion of the body than the body, a screw portion coupled to a threaded portion of the operating rod at a rear end portion of the body, and inclined so that the cross-sectional area is widened while going to the tip portion of the inner peripheral surface of the body A nail bar made up of a first slip and moved back and forth by the rotation of the operating rod; A pair of semi-circular cross sections and a second slip portion having an angle corresponding to the first slip portion is formed on an inner circumferential surface thereof, and is slidably coupled to an outer circumferential portion of the first slip portion of the nail rod to be pulled out into an excavation hole when the nail rod is pulled out. Wedges of; It includes a cylindrical head slidably coupled to the nail bar in front of the wedge to induce the opening of the wedge, Along the outer circumferential surface of the head is a third slip portion is formed so that the cross-sectional area is wider toward the tip portion, the acupressure permanent anchor, characterized in that the front end portion of the wedge is formed with a guide protrusion sliding along the third slip portion. The permanent anchor according to claim 4, wherein an elastic member for supporting the head is mounted between the first slip portion of the nail bar and the head.

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