KR101235169B1 - An anchor assembly - Google Patents

Abstract

The present invention relates to an anchor assembly having an expanded pressure plate to increase the pressure to prevent the anchor body from slipping out of the drill hole during tension.
Since the acupressure plate is pressed by the action force by the seesaw action of the first link and the second link, it is possible to provide improved acupressure than before. In particular, by providing the link length (L1) on the main rod 10 side longer than the link length (L2) on the side of the pressure plate 90 around the pivot pin (35) to provide a greater bearing force than the tensile force provided by the provided tension ball It becomes possible to enable stable anchoring of the anchor body.

Description

Anchor assembly with extended acupressure plate

The present invention relates to an anchor assembly having an expandable pressure plate, and more particularly, to an anchor assembly having an expandable pressure plate to increase the bearing pressure to prevent the anchor body from slipping out of the boring hole during tension.

The present invention relates to an improvement of Korean Patent Application No. 2011-12363 filed by the applicant.

As shown in FIGS. 1 and 2, the first application anchor assembly is rotated while being supported by a plurality of pivoting blades 250 supported by the plurality of pivoting links 260 during tensioning by the tension bar 280. Although there is an effect that uniform ground pressure can be generated by uniform contact with the ground 300, there are the following problems.

That is, as shown in Figure 3, since the length of L1 is considerably shorter than the length of L2 structurally compared to the tensile force (F1) of the tension rod 280, the bearing pressure (F2) of the rotating blades 250 to act small do. Accordingly, when tension is applied to the tension bar 280, there is a problem that a small friction force acts between the pivoting blade 250 and the ground 300 so that the anchor body slips and is discharged from the hole.

Korean Patent Application No. 2011-12363

The present invention was created to solve the above problems, to provide an anchor assembly having an expanded pressure plate improved in its structure so that the anchor body can be stably settled in the drilling hole by increasing the friction force with the ground Its purpose is to.

The present invention to achieve the above object is provided with an anchor body which is inserted into and fixed in the drilling hole drilled in the ground, and a tension sphere connected to the anchor body and the tip thereof is fixed in the tension state at the inlet side of the drilling hole; In the anchor assembly to stabilize the ground,

The anchor body is:

A main rod to which at least one fixing block is fixed;

At least one movable block coupled to the main rod so as to be slidably movable, the at least one movable block being connected to the tension sphere and moved by the tension of the tension sphere;

A first link one end of which is rotatably coupled to the moving block;

A second link one end of which is rotatably coupled to the fixed block and rotatably coupled to the first link and the pivot pin;

An acupressure plate rotatably coupled to each other end of the first link and the second link, the pressure plate being in close contact with or separated from the inner wall of the drilling hole;
A tow block which is connected by the movable block and a connecting rod and moved together with the movable block, and one end of the tension sphere is screwed, one end is coupled to the towing block, and the tension sphere is removably received therein, and the other end is It is provided with a hollow tube fixed to the inlet side of the drilling hole, the tension sphere is a rebar,

The first link and the second link is characterized in that the link length of the main rod side is formed longer than the link length of the pressure plate side around the pivot pin.

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In addition, the tension sphere is characterized in that a plurality of wire wires.

The acupressure plate may include a rotation plate to which the first link and the second link are rotatably coupled, and an acupressure block fixed to the outer surface of the rotation plate at regular intervals and each having a toothed protrusion. .

First, since the acupressure plate is pressed by the action force by the seesaw action of the first link and the second link, it is possible to provide improved acupressure than before. In particular, by providing the link length (L1) on the main rod 10 side longer than the link length (L2) on the side of the pressure plate 90 around the pivot pin (35) to provide a greater bearing force than the tensile force provided by the provided tension ball It becomes possible to enable stable anchoring of the anchor body.

Second, since the ground 300 is buried between the acupressure blocks 92 having the toothed projections 92a formed at a predetermined interval, it is possible to provide improved tensile strength by providing greater frictional force than in the related art.

1 and 2 is a schematic view showing the anchor assembly filed by the present applicant,
Figure 3 is a schematic diagram illustrating the bearing pressure versus the tension in the anchor assembly of Figure 2,
4 is a schematic view showing an anchor assembly of an embodiment of the present invention;
5 is a perspective view showing a connection state between the pressure plate and the first and second links,
6A and 6B are schematic views illustrating a construction state of the anchor assembly of FIG. 5;
7 is a schematic view showing another embodiment of the present invention;
Figure 8 is a schematic diagram illustrating the bearing pressure versus tensile force in the anchor assembly of the present invention.

The anchor assembly of the embodiment of the present invention increases the frictional force by increasing the bearing force rather than the tensile force by the tension sphere, thereby minimizing sliding movement of the anchor body during tensioning by the tension sphere and allowing stable anchoring of the anchor body.

4 to 6, the anchor assembly according to the embodiment of the present invention is inserted into the boring hole 301 bored in the ground 300 and is fixed to the anchor body 100 to be fixed and connected to the anchor body 100. And the tip is provided with a tension sphere 60 is fixed in the tension state at the inlet side of the drilling hole 301.

The anchor body 100 is coupled to the main rod 10 formed long in the depth direction of the drilling hole 301, the main rod 10 is slidably movable and is connected to the tension sphere 60 and the tension sphere The movable block 21 moved by the tension of the 60, the first link 31, one end of which is rotatably coupled to the movable block 21, and one end of the movable block 21 to be rotatable to the main rod 10. A second link 32 coupled to and rotatably coupled by the first link 31 and the pivot pin 35, and rotated at each other end of the first link 31 and the second link 32. The pressure plate 90 is coupled to and detached from the inner wall surface of the drilling hole 301.

The main rod 10 has a fixed block 11 to which one end of the second link 32 is rotatably coupled.

Referring to FIG. 8, the first and second links 31 and 32 have a link length l 1 of the main rod 10 side around the pivot pin 35 and a link length l 2 of the acupressure plate 90 side. By constructing longer than) it is possible to provide a larger bearing pressure (F4) than the tensile force (F3) by the tension sphere (60) so that the anchor body 100 can be fixed stably.

In addition, the anchor body 100 of the embodiment is connected by the movable block 21 and the connecting rod 40 is moved together with the movable block 21 and the towing block that one end of the tension sphere 60 is screwed ( 50) and a hollow tube 70 having one end coupled to the towing block 50 and having the tension hole 60 escapeably received therein and the other end fixed to the inlet side of the drilling hole 301. do.

The tension ball 60 is removed from the threaded traction block 50 after the grouting material such as cement mortar is filled and fixed in the drilling hole 301 as reinforcing bars.

 The acupressure plate 90 is a rotating plate 91 to which the first link 31 and the second link 32 are rotatably coupled, and fixed to the outer surface of the rotating plate 91 at regular intervals, respectively, The acupressure block 92 in which the mold protrusion 92a was formed is provided.

The rotatable plate 91 has a channel shape of "c", and a long hole 91a is formed at a side thereof, and the end of each of the first and second links 31 and 32 is hinged by a hinge pin 36. Pivotally and moveably).

On the other hand, the fixed block 11, the moving block 21, the first and second links 31, 32 and the pressure plate 90 is provided with a plurality of sets in the longitudinal direction and the circumferential direction of the main rod (10). .

Reference numeral 15 is a departure prevention jaw fixed to the main rod 10 to prevent the departure of the moving block 21.

The anchor assembly of the above configuration is constructed as follows.

First, as shown in FIG. 6a, in the state in which the anchor body 100, the tension sphere 60, and the hollow tube 70 are connected, the anchor body 100 is gripped by holding the tension sphere 60 or the hollow tube 70. Push into the drilling hole (301). At this time, as the moving block 21 moves away from the fixed block 11, each of the pressure plate 90 is moved toward the center of the main rod 10, so that each of the pressure plate 90 while the anchor body 100 is inserted The interference of the wall surface of the drilling hole 301 is prevented to facilitate the insertion.

Subsequently, as shown in FIG. 6B, when the tension ball 60 is pulled out, the traction block 50 and the moving block 21 are moved to the left side with respect to the fixed block 11, and thus the first and second links 31 are separated. 32 is rotated so that each of the pressure plate 90 is in the outer direction with respect to the main rod 10 to be in close contact with the inner wall surface of the drilling hole 301.

At this time, when the tension ball 60 is initially pulled by pulling the moment, the main rod 10 is minimized so that the anchor body 100 can be fixed at a desired position.

Meanwhile, the first and second links 31 and 32 are configured to have a link length l 1 of the main rod 10 side longer than the link length l 2 of the acupressure plate 90 with respect to the pivot pin 35. By doing so, it is possible to provide a greater bearing pressure (F4) by the pressure plate (90) than the tensile force (F3) by the tension sphere 60, the anchor body 100 is stably fixed.

After tensioning the tension sphere 60 and fixing the anchor body 100 in the drilling hole 301 as described above, if the tension state of the tension sphere 60 is maintained, the tip of the tension sphere 60 is drilled ( 301 is fixed to the inlet side.

The extended acupressure plate 90 is in close contact with the inner wall surface of the drilling hole 301 to provide a strong frictional force in the tension by the tension sphere 60, in particular formed at regular intervals and having a toothed protrusion (92a) Since the ground 300 is buried between the 92, it provides a greater friction than the conventional to provide an improved tensile force.

After the anchor body 100 is fixed to the anchorage of the drilling hole 301 as described above, the grouting material (not shown), such as cement paste, is grouted and fixed to the drilling hole 301.

After the grouting material is fixed, the tension sphere 60 is removed by unscrewing from the traction block 50.

The embodiment is a removable anchor assembly to remove the tension sphere 60 after construction of the anchor assembly.

Figure 7 shows another embodiment of the present invention, so-called 'permanent anchor assembly'. This is a movement means for moving the moving block 21 is to connect the steel wire 65 to the moving block 21 instead of the reinforcing bar of the embodiment.

The steel wire 65 is not removed even after the grouting material is filled and fixed in the drilling hole 301 and remains in the drilling hole 301 to serve as a tension member to stabilize the ground.

For the remaining components, the same reference numerals as in the above embodiment are applied, and operations and effects are the same as the above embodiment, and thus a detailed description thereof will be omitted.

10 ... Main rod 11 ... Fixed block
21.Moving Block 31 ... Link 1
32.2nd link 35 ... rotating pin
40 ... connecting rod 50 ... towing block
60 ... tension bars (rebar) 65 ... steel wire
70 Hollow pipe 90 Acupressure plate

Claims (4)

In the anchor assembly for stabilizing the ground having an anchor body inserted into the drilling hole drilled in the ground and fixed and fixed, and a tension hole connected to the anchor body and the front end is fixed in the tension state at the inlet side of the drilling hole ,
The anchor body 100 is:
A main rod 10 to which at least one fixing block 11 is fixed;
At least one movable block 21 coupled to the main rod 10 so as to be slidably movable, the at least one movable block 21 being connected to the tension sphere and moved by the tension of the tension sphere;
A first link 31 having one end rotatably coupled to the movable block 21;
A second link 32 having one end rotatably coupled to the fixed block 11 and rotatably coupled by the first link 31 and the rotation pin 35;
A pressure plate (90) rotatably coupled to each other end of the first link (31) and the second link (32) and in close contact with or separated from an inner wall surface of the drilling hole (301);
Towing block 50 is connected by the movable block 21 and the connecting rod 40 is moved together with the movable block 21 and one end of the tension sphere is screwed,
One end is coupled to the towing block 50, and the inside is provided with a hollow tube 70 fixed to the inlet side of the perforation hole 301 and the other end is escapeably received,
The tension sphere is a reinforcement 60,
The first link 31 and the second link 32 have a link length l 1 of the main rod 10 side longer than the link length l 2 of the acupressure plate 90 with respect to the pivot pin 35. An anchor assembly having an extended pressure plate, characterized in that the configuration. delete The anchor assembly of claim 1, wherein the tension sphere is a plurality of steel wires (65). According to claim 1 or 3, wherein the pressure plate (90) is a rotating plate (91) to which the first link (31) and the second link (32) is rotatably coupled; An anchor assembly having an extended acupressure plate, characterized in that the acupressure block 92 is fixed to the outer surface at regular intervals and each toothed projection (92a) is formed.

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