KR101023882B1 - cylinder for wire tension and a method - Google Patents

Abstract

In the wire tension fixing cylinder of the present invention, a cylinder block and a cylinder hole are formed to communicate with the cylinder space and the administration hole in multiple stages therein, and an inlet hole for communicating fluid to the cylinder space from the outside is communicated with the cylinder space. Slidably coupled in the stroke, the flange is coupled to the cylinder space, the rod integrally formed with the flange is movably coupled in the stroke to enable the forward stroke through the fluid provided by the inlet, rod A road block combining at least one pressure port in the center, the front surface of the cylinder space is closed, and the cylinder space is formed into a sealed space, and the reverse stroke of the road block is interposed between the load blocks facing each other. Covered to proceed with, through the pressure port is interposed between the back of the cover and the ground wall The wedge is inserted into the individual block through the pressing hole to press the outer periphery of the wire so as to be gripped according to the tension state of the one or more wires, and the one or more wires passing through the individual block penetrate the fixed block provided separately from the individual block. It consists of a holding part made up.

Wire, tension, tension, retention, fixation cylinder

Description

Fixing cylinder for wire tension and wire tension maintaining method using the same {cylinder for wire tension and a method}

The present invention relates to a wire tension fixing cylinder and a wire tension maintaining method using the same, and more particularly, to a structure such as a ground wall or a bridge by maintaining a tension state of the tensioned wire without error. It relates to a wire tension fixing cylinder and a wire tension maintaining method using the same to further improve the rigidity.

Generally, the soil nailing method drills a hole (2) in the ground and constructs a wire (3) in the ground when constructing a civil engineering-related facility such as an earthquake, a temporary vertical excavation wall (1) and an artificial slope reinforcement and an underground structure. It is a construction method used in excavation support system construction to reinforce the ground strength by incorporating the

As shown in FIG. 1, the soil nailing method includes a wire 3 secured by assembling fixed anchors 4 at both ends thereof and inserted into a hole 2 bored in a diagonal direction in the vertical excavating wall 1. Next, a concrete mortar (unsigned) is injected into the hole 2 to harden through a curing process, and then a tensioning force is applied to the wire 3 through a tensioner. Minimize the relaxation of the surrounding ground in the excavating wall (1) and at the same time reinforce the strength of the ground to prevent the collapse of the ground.

However, such a nail nailing method according to the prior art maintains the tension state of the wire by tensioning the wire through a fixed anchor including a wedge after tensioning the wire using a tensioner, Elongation occurs.

In this case, if the wedge of the fixed anchor is released through the tensioner after the wedge of the fixed anchor is released outside the tapered hole of the fixed anchor, the length is reduced by the restoring force of the tensioned wire, and the wedge is inside the tapered hole of the fixed anchor. When it is inserted into the gripping, there is an unavoidable problem of loss of wire tension as wedges come out of the taper hole.

As a result, there was a problem in that the rigidity of the structure such as the ground wall or bridge due to the loss of tension state of the wire is inferior.

Accordingly, it is an object of the present invention to maintain tension of the tensioned wire after tensioning the strand.

In addition, an object of the present invention is to adopt a cylinder method using a fluid to maintain the wire tension state to maintain the tension state of the wire maintaining a high tensile force without error.

In addition, an object of the present invention is to significantly reduce the number of components of the fixing cylinder to minimize the remaining trouble, and to reduce the manufacturing cost.

In addition, the object of the present invention is to provide a separate block and a fixed block for gripping the wire directly by the fixing cylinder instead of the individual block and fixed block integrated into one existing module, so as to maximize the minimum number of parts There is.

In order to achieve the above object, the wire tension fixing cylinder of the present invention is installed in a ground cylinder through a tensioner to maintain a tension state of a tensioned wire,

The cylinder space and the stroke formed to communicate with the cylinder space in multiple stages inside, and the cylinder block which is connected to the cylinder space and the inlet hole for providing fluid to the cylinder space from the outside, and slidably coupled in the cylinder space and the stroke, A flange is coupled to the cylinder space, and a rod integrally formed with the flange is movably coupled in a stroke to enable a forward stroke through a fluid provided by an inlet hole, and to combine one or more pressure holes in the center of the rod. A cover for closing the front surface of the road block, the cylinder space, allowing the cylinder space to be formed into a closed space, and interposing an elastic member between the road blocks facing each other so as to proceed with the reverse stroke of the road block; Depending on the tension of one or more wires interposed between the back of the ground and the ground wall through the pressure port. Through the wedge fitting to grip and to urge the outer periphery of the intergranular wires to individual blocks, composed of the individual beulreokreul by the one or more wires through made through the fixed block provided separately from the individual beulreokwa gripper.

According to the present invention, the pressure port is coupled to penetrate the road block and the cover, it is configured to selectively push the end of the wedge by interlocking with the road block integrally.

According to the present invention, the individual blocks are provided in accordance with the number of one or more wires to form a taper hole therein, so that the wedge formed of a combination of a plurality of cut pieces in the taper hole can be inserted separately from the individual block. One or more through holes are formed in the fixed block so that the wires passing through the individual blocks can be successively penetrated.

According to the present invention, the cover forms a receiving groove on the front surface to couple a portion of the elastic member, and the elastic member is configured to be pressed during the forward stroke of the road block.

According to the present invention, the road block is configured to help the inflow of fluid through the groove by forming a groove in the upper surface side of the flange in contact with the cylinder space side.

The method of the present invention relates to a fixing method of a fixing cylinder according to claim 1, wherein the method for maintaining a wire tension state using a fixing cylinder maintains one or more wire tension states which are placed and tensioned by being placed on a ground wall through a tensioner.

Penetrating the fixed block to the wire exposed to the ground wall to the outside exposed through each number of individual blocks equipped with wedges, and coupling the fixing cylinder to the wire exposed to the individual block, the rod block and the cover Penetrating the wire through the pressing hole coupled over; connecting the wire penetrating the fixing cylinder to a tensioner to tension the wire; and when the wire is tensioned by the tensioner, pressing the outer circumference of the wire. Wedge is moved backwards by the tension length of the wire to interlock the pressure port to reverse the road block in the cylinder space, maintaining the tension state of the wire when the tension limit of the wire is reached, the wire tensioning operation Then, the fluid is injected through the opening of the cylinder block to transfer the road block in the cylinder space. When the pressure port is interlocked by the forward stroke of the road block and pressurizes the wedge, the wedge is moved into the tapered hole of the individual block and moves in the forward direction of the wire that maintains the tension state. Pressing and gripping to maintain the tension of the tensioned wire, and separating the fixing cylinder from the wire.

According to the present invention, the fixing cylinder separation step consists of drawing the fluid filled in the cylinder space into the inlet hole and releasing the pressurization state of the wedge by reversing the load block and the pressure port by the restoring force of the elastic member.

As described above, the wire tension fixing cylinder of the present invention and the wire tension maintaining method using the same after tensioning the wire placed on the ground wall to maintain the stretched length of the wire as much as the tension of the wire By preventing the loss, there is an effect to further improve the rigidity for structures such as ground walls or bridges.

In addition, the wire tension fixing cylinder of the present invention and the wire tension state maintaining method using the same by maintaining the tension state of the wire to maintain a high tensile force without error to maintain the wire tension state in a cylindrical manner using a fluid, There is an effect to improve the work efficiency.

In addition, the wire tension fixing cylinder of the present invention and the method of maintaining the wire tension state using the same by reducing the number of components of the fixing cylinder by the cylinder method dramatically, there is an effect that can easily achieve maintenance.

In addition, the wire tension fixing cylinder of the present invention and the method of maintaining the wire tension state using the same are not reusable because the existing individual blocks and the fixed block are integrated into one module, but the individual blocks and the fixed block are separately provided separately. In addition, the individual blocks can be applied according to the number of wires, so that the individual blocks and the fixed blocks can be reused.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, in the drawings, the same components or parts are to be noted that the same reference numerals as possible. In describing the present invention, a detailed description of related known functions or configurations will be omitted in order not to obscure the subject matter of the present invention.

Figure 2 is a cross-sectional view showing a fixing cylinder of the present invention, Figure 3a, b is a state diagram showing an operating state of the fixing cylinder of the present invention.

First, as shown in Figure 2 or 3a, b, the fixing cylinder 100 of the present invention is placed on the ground wall 1 through the tensioner 10 to maintain the tension state of the tensioned wire 20, and then to hold the wire 20 It is composed.

That is, a cylinder block 110 for generating a pressure by introducing a fluid, a load block 120 mounted inside the cylinder block 110 to perform forward and backward strokes by the fluid, and a cylinder space 111 inside the cylinder block 110 are closed. A cover 130 and a gripping portion 140 interlocked by the rod block 120 to finally press and grip the wire 20.

First, the cylinder block 110 is formed to communicate with the cylinder space 111 and the stroke hole 112 in multiple stages therein, the diameter of the stroke hole 112 is formed smaller than the cylinder space 111, and the front of the cylinder space 111 is formed to open.

In addition, in order to provide the fluid to the cylinder space 111 from the outside to form a vertical hole 113 in the flange 121 to communicate with the cylinder space 111.

The rod block 120 is integrally formed with the flange 121 and the rod 122, and is slidably coupled in the cylinder space 111 and the stroke hole 112.

In other words, the flange 121 is coupled to the cylinder space 111, and the rod 122 integrally formed with the flange 121 is movably coupled at the stroke hole 112 to move the rod block 120 by the pressure of the fluid provided by the inlet hole 113. Administration is possible.

Here, the road block 120 is formed to form a groove 124 in the upper surface side of the flange 121 in contact with the cylinder space 111 side to help the fluid flow through the groove 124.

In addition, a hole is formed in the rod 122 in accordance with the number of wires 20, and the hole 122 is coupled to the hole through the hollow pressing hole 123.

Here, the pressing hole 123 is fixed to the rod 122 integrally interlockable.

In addition, the pressure port 123 is coupled to penetrate the rod block 120 and the cover 130, so as to be integral with the rod block 120 to selectively push the end of the wedge 141b.

The cover 130 seals the open front surface of the cylinder space 111 so that the cylinder space 111 is formed into a sealed space, and a receiving groove 132 is formed on the front surface of the cover 130 and then faces the rod through the elastic member 131. Between the blocks 120, the elastic member 131 is pressed or released by the forward and backward strokes of the rod block 120, in particular to help the reverse stroke of the road block 120.

That is, when the pressure of the supply of the fluid filled in the cylinder space 111 is released, the rod block 120 may be moved backward by the restoring force of the elastic member 131 which maintains the pressing state.

The gripping portion 140 is interposed between the rear surface of the cover 130 and the ground wall 1 so that the wedge 141b is inserted into the individual block 141 through the pressing hole 123 so as to be gripped according to the tension state of the one or more wires 20 passing through the pressing hole 123. To press the outer periphery of the wire 20, and the one or more wires 20 passing through the individual blocks 141 pass through the fixed block 142 provided separately from the individual blocks 141.

Here, the individual block 141 is provided in accordance with the number of the one or more wires 20 to form a tapered hole 141a therein to allow the wedge 141b formed of a combination of a plurality of cut pieces 141c in the tapered hole 141a. .

In addition, at least one through hole 1421a is formed in the fixed block 142 provided separately from the individual block 141 so that the wire 20 passing through the individual block 141 can be successively penetrated.

Method of maintaining the tension state of the wire 20 by using the fixing cylinder 100 configured as described above, the gripping portion mounting step, the fixing cylinder mounting step, wire tensioning step, rod block backward stroke step, wire tensioning step, wire tensioning end step And a road block forward stroke step, a wire tension state maintenance step, and a fixing cylinder separation step.

First, the holding unit 140 is mounted on the ground wall 1 through the through hole 1421a of the fixed block 142 through the wire 20 exposed to the outside and then through the individual block 141 equipped with the wedge 141b through each number of wire 20 to be.

Here, although the existing individual block 141 and the fixed block 142 is integrated into a single module, it is impossible to reuse, but by separately separating the individual block 141 and the fixed block 142, to apply the individual blocks according to the number of the wire 20. The individual blocks 141 and fixed blocks 142 can be reused.

In addition, the wedge 141b is maintained in the tapered hole 141a of the individual block 141, but the plurality of cut pieces 141c constituting the wedge 141b are coupled to the outer circumference of the wire 20.

Subsequently, the fixing cylinder 100 is coupled to the wire 20 exposed to the individual block 141, and the wire 20 is coupled through the hollow pressing hole 123 coupled to the rod block 120, and the wire 20 penetrates the fixing cylinder 100. The fixing cylinder is mounted to expose to the outside.

Next, the wire tensioning step of tensioning the wire 20 is performed by connecting the wire 20 passing through the fixing cylinder 100 to the tensioner 10 through a known tensioner 10 for the wire 20.

The wire 20 has a plurality of steel wires are twisted to achieve a tensile state in which the length of the wire 20 is increased by the elastic elasticity and twisting bundle that the wire 20 has during tension.

In particular, the wire 20 extends only through the tensioner 10 to the tensile limit.

After the wire 20 is tensioned by the tensioner 10, the wedge 141b, which presses the outer circumference of the wire 20, is temporarily fastened to the outer circumference of the wire 20, so that the wire 20 is connected to the elongation length of the wire 20 to a minute length backward. Move.

At this time, the rear end of the wedge 141b undergoes a road block 120 reverse stroke step of moving the road block 120 backward in the cylinder space while also interlocking the pressure port 123 in close contact with the end of the wedge 141b.

Here, the tensioner 10 maintains the tension state of the wire 20 when the tension limit of the wire 20 is reached, and performs the end of the wire 20 tensioning operation to prevent breakage of the wire 20, and simultaneously pulls in the cylinder block 110 from the fixing cylinder 100. The rod block forward stroke step is performed to inject fluid through the hole 113 to advance the road block 120 in the cylinder space.

When the fluid is injected through the inlet hole 113, the fluid enters a constant pressure between the flange 121 side which is in contact with the side of the cylinder space 111 through the groove 124 formed in the upper surface of the flange 121 of the rod block 120. Advance

When the forward stroke of the rod block 120 is made, the pressure port 123 moves forward by interlocking, and the end of the pressure port 123 pushes the wedge 141b, which is moved until the first taper hole 141a is released, into the taper hole 141a. .

At this time, as the wedge 141b is inserted into the taper hole 141a, the plurality of incision pieces 141c of the wedge 141b are gradually combined to pressurize the outer circumference of the wire 20, and eventually press the gripping wire 20 to maintain the tension state of the wire. Do the steps.

When the tensioner 10 stops driving the tension state of the wire 20, the wire 20 generates a restoring force as long as the tensioned length, causing the contraction of the length. The gripping force of the wedge 141b and the wedge 141b Since the taper hole 141a is completely engaged inside the wire 20, the length of the wire 20 is not reduced, so that the wire 20 can be maintained in tension.

Next, when the fixing cylinder 100 is separated from the wire 20, the fluid filled in the cylinder space 111 is drawn out through the inlet hole, and the rod block 120 and the pressing hole 123 are reversed by the restoring force of the elastic member 131, and then the fixing cylinder 100 is removed from the wire 20. It is finished by separating.

As a result, after tensioning the wire 20 placed on the ground wall 1 through the fixing cylinder 100 and the wire 20 tension maintaining method using the same, the tension length of the wire 20 can be maintained by tensioning the wire 20. By preventing a loss, rigidity with respect to structures, such as ground wall 1 or a bridge, can be improved further.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

1 is a cross-sectional view showing a state in which a general structure reinforcing wire is installed on a vertical excavation wall.

2 is a cross-sectional view showing a fixing cylinder of the present invention.

Figure 3a, b is a state diagram showing the operating state of the fixing cylinder of the present invention.

Explanation of symbols on the main parts of the drawings

1: ground wall 10: tensioner

20: wire 100: fixing cylinder

110: cylinder block 111: cylinder space

112: administrative work 113: incoming ball

120: road block 121: flange

122: rod 123: pressure ball

124: groove 130: cover

131: elastic member 132: receiving groove

140: grip portion 141: individual block

141a: Taper Ball 141b: Wedge

141c: Incision piece 142: Fixed block

142a: through hole

Claims (7)

In a fixing cylinder that is placed on the ground wall through the tensioner to maintain the tension of the tensioned wire, A cylinder block in which the cylinder space and the stroke hole are communicated in multiple stages inside, and the inlet hole communicating with the cylinder space for providing fluid to the cylinder space from outside; Slidably coupled in the cylinder space and the stroke hole, a flange is coupled to the cylinder space, the rod integrally formed with the flange is movably coupled in the stroke hole is a forward stroke through the fluid provided by the inlet hole A load block capable of coupling one or more pressure ports to the center of the rod, A cover for closing the front surface of the cylinder space, allowing the cylinder space to be formed into a closed space, and interposing an elastic member between the opposite road blocks so as to proceed with the reverse stroke of the road block; The wedge is interposed between the rear surface of the cover and the ground wall so as to be gripped according to the tension state of one or more wires passing through the pressure port, and the wedge is inserted into the individual block through the pressure port to press the outer circumference of the wire. At least one wire penetrating the block is fixed to the wire tension fixing cylinder, characterized in that consisting of a gripping portion made through a fixed block provided separately from the individual block. The method of claim 1, The pressure port is coupled to penetrate the road block and the cover, the wire tension fixing cylinder, characterized in that configured to selectively push the end of the wedge by interlocking with the road block integrally. The method of claim 1, The individual block is provided in accordance with the number of the one or more wires to form a tapered hole therein to allow the wedge formed of a combination of a plurality of cut pieces in the tapered hole, one in the fixed block provided separately from the individual block The above-mentioned through-holes are formed so that the wires passing through the individual blocks can be successively penetrated. The method of claim 1, The cover is formed in the receiving groove on the front surface to couple a portion of the elastic member, the elastic member is a wire tension fixing cylinder, characterized in that configured to be pressed during the forward stroke of the road block. The method of claim 1, The rod block is a wire tension fixing cylinder, characterized in that configured to help the inflow of fluid through the groove by forming a groove in the upper surface side of the flange in contact with the cylinder space side. In the fixing method of the fixing cylinder according to claim 1, which maintains one or more tensioned wires placed on the ground wall through the tensioner and tensioned, Penetrating the fixed block to the wire exposed to the ground and exposed to the ground wall and then through the individual blocks equipped with wedges through each number of wires, Coupling a fixing cylinder to the wires exposed to the individual blocks, penetrating the wires through a compression hole coupled over the road block and the cover;  Connecting the wire passing through the fixing cylinder to a tensioner to tension the wire; When the wire is tensioned by the tensioner, the wedge for pressing the outer circumference of the wire is moved backwards by the tension length of the wire to interlock the pressure port to reverse the road block in the cylinder space; Maintaining the tensile state of the wire when the tensile limit of the wire is reached; Injecting fluid through the inlet hole of the cylinder block after the wire tensioning operation to advance the road block in the cylinder space; When the pressure port is interlocked by the forward stroke of the road block and presses the wedge, the wedge is moved into the tapered hole of the individual block, and then moved in the forward direction of the wire that maintains the tension state, thereby pressing and gripping the outer circumference of the wire. Maintaining the tension of the tensioned wire, Method for maintaining the tension state of the wire using the fixing cylinder, characterized in that the step of separating the fixing cylinder from the wire. The method of claim 6, The fixing cylinder separation step is a wire using a fixing cylinder characterized in that the fluid filled in the cylinder space through the inlet hole to release the pressure of the wedge by retracting the road block and the pressure port by the restoring force of the elastic member. How to stay nervous.

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