KR101352212B1 - Hydraulic tensioner of one-touch re-tensile strand anchorage - Google Patents

Abstract

The present invention relates to a hydraulic tensioner, and more particularly, the tension wire is installed on the top of the one-touch anchorage with a built-in wedge and spring so that the tension line is passed to one side and is not passed to the other side, the tension provided at the tip of the hydraulic cylinder By including the holding means for holding the tension line passed through the line guide panel, it is possible to simply settle the anchorage simply by pulling the tension line, the tension line protruding to the upper side of the anchorage for initial or re-tension The present invention relates to a hydraulic tensioner of a reusable one-touch resealable anchorage of the anchorage, which can be reduced in unnecessary materials and can prevent the anchorage from being damaged by excessive pressure.
The present invention in the tensioner is fixed to the pressure plate exposed to the surface of the earth anchor is installed to prevent the ground collapse and at the same time the tensioner to apply tension to the tension line, the hydraulic oil entrance is formed on the upper and lower sides, respectively A cylinder having a first hollow portion formed in a tubular shape such that the tensile line passes therethrough; A piston provided inside the cylinder, the piston being elevated as the hydraulic oil supplied to the cylinder moves in and out, and having a second hollow portion formed in a tubular shape so that the tensile line passes; A tension line guide panel provided at a lower end of the piston and guiding the tension line into the first hollow portion or the second hollow portion; A hydraulic one-touch re-tensioning anchorage is provided in any one of the first hollow portion or the second hollow portion, comprising a gripping means including a wedge for gripping a tensile line guided by the tension line guide panel. Provide a tensioner.
Here, the cylinder is formed between the inner wall and the outer wall is formed with a pressure opening with the lower side is opened so that the piston in and out, characterized in that made of a double vessel structure so that the piston is raised and lowered by entering the hydraulic pressure up and down the pressure portion do.
In addition, a hydraulic blocking wall protrudes from the inner center circumference of the cylinder, and an upper and a lower blocking wall protrudes from the upper and lower outer circumferences of the piston to form pressure parts formed on both upper and lower sides of the hydraulic blocking wall. It characterized in that the piston is configured to be lifted by the hydraulic oil flowing out, through the hydraulic oil inlet to.
At this time, the lower end of the cylinder is provided with a detachable pedestal in contact with the upper surface of the pressure plate, the jig entrance hole of the long hole shape that allows the user to insert a jig for the user to arbitrarily turn the screw body of the anchor down along the circumference of the pedestal Characterized in that formed.
By providing the hydraulic tensioner of the one-touch re-tensioning anchorage of the present invention configured as described above, the anchorage can be fixed simply by pulling the tensioning wire, and the tensile wire protruding to the upper side of the anchorage for initial tensile or re-tensioning. Since it does not need to increase much unnecessarily, the material can be reduced, and the fixing unit can be prevented from being damaged by excessive pressure, and thus there is an advantage of reusing the fixing unit.

Description

Hydraulic tensioner of one-touch re-tensile strand anchorage

The present invention relates to a hydraulic tensioner, and more particularly, the tension wire is installed on the top of the one-touch anchorage with a built-in wedge and spring so that the tension line is passed to one side and is not passed to the other side, the tension provided at the tip of the hydraulic cylinder By including the holding means for holding the tension line passed through the line guide panel, it is possible to simply settle the anchorage simply by pulling the tension line, the tension line protruding to the upper side of the anchorage for initial or re-tension The present invention relates to a hydraulic tensioner of a reusable one-touch resealable anchorage of the anchorage, which can be reduced in unnecessary materials and can prevent the anchorage from being damaged by excessive pressure.

In general, the present invention relates to re-tension anchor systems used for suppressing ground activity, preventing injury of construction structures, and ground reinforcement works in response to external forces (earth pressure, wind pressure, hydraulic pressure, seismic force, etc.) and ground activity forces generated in construction work. It is to provide a re-tensioning anchor system for forming a separate fastening portion in the anchorage to which the top of the tension line is fixed, the tension tension of the tension line and re-tensioning the tension line by using an anchor tension device selectively mounted on the fastening portion. .

In general, anchor is a kind of post tensioning technique. In the mid-1960s, anchor design technology and installation technology began to be used in construction work. It is applied to almost all works such as retaining walls, water tanks, concrete dams, foundations of high-rise buildings, suspension bridges, arch bridges, lighthouses, ski jumps, slope stability, open coal mines, vertical holes, underground cavities, and civil engineering facilities.

The anchor is embedded in the ground and is configured to transfer the tensile force from the surface to the ground, for this purpose, a plurality of tension members (Anchor body), PC tension line, etc. It consists of an anchor head for fixing the tension line of the ground surface side.

Such anchors include ground anchors, rock anchors, chemical anchors, and earth anchors.

Among them, the earth anchor inserts the anchor body into the ground through the drilling of the ground and injects grout into the anchor body to form a grout portion in the ground, and pulls the tension wire out of the ground to tension the wedge. There is an earth anchor type that uses a wedge or a nut to fix the tension line to the anchorage.

In order to fix the structure on the ground, these earth anchors fix both ends of the tension line to the structure and the ground, and free the middle part against extension deformation, and give tension thereto to the anchor body. , A structure consisting of tension lines and anchorages, and in order for the anchorages to be anchored to the ground surface, the acupressure plate supports the ground surface, inserts a tensile line into the drilled hole, and injects grout ash to the tip side to anchor the body. On the other hand, the ground side is protected by a sheath, and by prestressing the anchor head to tension the tension line to fix the ground wall so that the earthen wall can not be collapsed.

However, at the initial stage of construction, the tension applied to the earth anchor is maintained, but the tensile load of the tension line decreases over time. For example, due to the creep deformation of the tension line and the surrounding ground, the anchor body moves toward the anchorage side or the ground of the anchorage falls due to the passage of time.

Therefore, in the related art, the tensioner is pulled to tension the tension line, and then a spacer plate is further mounted by the gap between the acupressure plate and the anchorage to maintain the tension force of the tensioner line to prevent the soil wall from collapse.

However, if the tension line is pulled directly by pulling the anchorage as described above, the wedge included in the anchorage does not grip the tension line, causing slippage, and thus, the tension is not smoothly retensioned. The fixation is released due to the loosening of the tension line by the rotational force of, and there is a disadvantage in that the tension line once unfixed cannot be re-tensified again.

In addition, in order to mount the tensioner, the tension line should protrude more than 1m above the anchorage, and additional costs and manufacturing costs are incurred due to the grip of the protruding tension line.

As such, the conventional tensioner has a lot of preliminary work before tensioning the tension line, and has a problem that the work cost increases because the cumbersome work must be performed continuously, the tension protruding to the upper side of the anchorage for the initial or re-tension Since a lot of wires are unnecessarily exposed, there is a problem in that the tensile wires are wasted.

In addition, there is a problem that can not be reused after a single use because the conventional tensioner to apply excessive pressure to the fixing unit.

In order to solve the above problems, the present invention is installed on the upper portion of the one-touch anchorage with a wedge and a spring so that the tension line is passed to one side and is not passed to the other side, the tension provided at the tip of the hydraulic cylinder By including the holding means for holding the tension line passed through the line guide panel, it is possible to simply settle the anchorage simply by pulling the tension line, the tension line protruding to the upper side of the anchorage for initial or re-tension Since it is not necessary to increase the needlessly much, it is possible to reduce the material, and to prevent the anchorage from being damaged by excessive pressure, which is an object to provide a reusable hydraulic tensioner of the anchorage.

In order to achieve the above object, the present invention provides a hydraulic oil inlet in the tensioner is applied to the tension line at the same time the anchorage is fixed to the pressure plate exposed to the surface of the earth anchor is installed to prevent the ground collapse A cylinder formed on one side of the upper and lower sides and having a first hollow portion formed in a tubular shape such that the tensile line passes therethrough; A piston provided inside the cylinder, the piston being elevated as the hydraulic oil supplied to the cylinder moves in and out, and having a second hollow portion formed in a tubular shape so that the tensile line passes; A tension line guide panel provided at a lower end of the piston and guiding the tension line into the first hollow portion or the second hollow portion; A hydraulic one-touch re-tensioning anchorage is provided in any one of the first hollow portion or the second hollow portion, comprising a gripping means including a wedge for gripping a tensile line guided by the tension line guide panel. Provide a tensioner.

Here, the cylinder is formed between the inner wall and the outer wall is formed with a pressure opening with a lower side open so that the piston in and out, characterized in that made of a double vessel structure so that the piston is raised and lowered by entering the hydraulic pressure up and down the pressure portion do.

In addition, a hydraulic blocking wall protrudes from the inner center circumference of the cylinder, and an upper and a lower blocking wall protrudes from the upper and lower outer circumferences of the piston to form pressure parts formed on both upper and lower sides of the hydraulic blocking wall. It characterized in that the piston is configured to be lifted by the hydraulic oil flowing out, through the hydraulic oil inlet to.

At this time, the lower end of the cylinder is provided with a detachable pedestal in contact with the upper surface of the pressure plate, the jig entrance hole of the long hole shape that allows the user to insert a jig for the user to arbitrarily turn the screw body of the anchor down along the circumference of the pedestal Characterized in that formed.

The holding means includes a body having a tapered portion to allow the wedge to be inserted at the same time as the tension line is penetrated; A guide tube provided at an upper side of the wedge and guiding a tensile line passing through the tapered portion; A spring carried around the outer circumference of the guide tube; A spring blocking plate provided on an upper side of the spring and having a guide hole formed therein so as to penetrate the guide tube; It is provided between the body and the spring blocking plate is characterized in that it comprises a gap ring formed in a ring shape to form a gap.

In addition, a plurality of guide holes for guiding the tension line are formed through the center of the tension line guide panel, the tension line is passed through the upper portion of the tension line guide panel to switch the wedge in accordance with the lifting and lowering of the piston The switch tube is characterized in that formed extending upward.

By providing the hydraulic tensioner of the one-touch re-tensioning anchorage configured as described above, the anchorage can be fixed simply by pulling the tensioning wire, and unnecessary tension lines protruding to the upper side of the anchorage for initial tensile or re-tensioning are unnecessary. Since it does not need to be stretched, the material can be reduced, and the fixing unit can be prevented from being damaged by excessive pressure, and thus the fixing unit can be reused.

1 is an installation state of the earth anchor installed by the hydraulic tensioner of the one-touch re-tensioning anchorage according to the present invention
Figure 2 is an embodiment configuration of a hydraulic tensioner of the one-touch re-tension anchorage according to the present invention
Figure 3 is another embodiment configuration of the hydraulic tensioner of the one-touch retension anchorage according to the present invention
Figures 4a, 4b, 4c is a cross-sectional view of an embodiment of the hydraulic tensioner of the one-touch retension anchorage according to the present invention
Figures 5a, 5b, 5c is a cross-sectional view of another embodiment of the hydraulic tensioner of the one-touch retension anchorage according to the present invention

According to the present invention, the anchorage 110 is fixed to the acupressure plate 130 exposed to the surface of the earth anchor 100 installed to prevent the ground 160 from being collapsed, and at the same time, a tension force is applied to the tension line 120. In the tensioner (200), the hydraulic oil inlet (211) is formed on the upper side, each lower side, the cylinder 210 formed with a first hollow portion 212 in the tubular shape so that the tension line 120 passes; The piston is provided inside the cylinder 210, the piston is elevated in accordance with the entrance and exit of the hydraulic oil supplied to the cylinder 210, the piston having a second hollow portion 222 is formed in a tubular shape so that the tensile line (120) ( 220); A tension line guide panel 230 provided at a lower end of the piston 220 to guide the tension line 120 into the first hollow part 212 or the second hollow part 222; Is provided in any one of the first hollow portion 212 or the second hollow portion 222, and includes a wedge 242 for holding the tension line 120 guided by the tension line guide panel 230 The holding means 240 is configured.

Here, the cylinder 210 is formed between the inner wall 213 and the outer wall 214, the pressure portion 215 is opened to the lower side so that the piston 220 enters, the upper and lower sides of the pressure portion 215 The piston 220 is made up of a double container structure so as to move the hydraulic pressure in and out.

In addition, a hydraulic blocking wall 216 protrudes from the inner center circumference of the cylinder 210, and upper and lower outer blocking walls 223 and 224 protrude from the upper and lower outer circumferences of the piston 220 to protrude the hydraulic cutoff. The piston 220 is configured to be elevated by the hydraulic oil that flows in and out through the hydraulic oil inlet and outlet 211 to the pressure parts 215 formed on both sides of the wall 216.

At this time, the lower end of the cylinder 210 is provided with a detachable pedestal 250 in contact with the upper surface of the pressure plate 130, the user along the periphery of the pedestal 250, the screw body 111 of the fixing unit 110 ) Is a long hole-shaped jig entry hole 251 that can be inserted into the jig 113 to turn arbitrarily downward.

The gripping means 240 includes: a body 241 having a tapered portion 241a formed therein so that the tension line 120 is penetrated and the wedge 242 is inserted therein; A guide tube 243 provided at an upper side of the wedge 242 and guiding a tensile line 120 passing through the tapered portion 241a; A spring 244 which is carried around an outer circumference of the guide tube 243; A spring blocking plate 245 provided on an upper side of the spring 244 and formed with a guide hole 245a to allow the guide tube 243 to pass therethrough; It is provided between the body 241 and the spring blocking plate 245 includes a gap ring 246 formed in a ring shape to form the separation portion 246a.

In addition, a plurality of guide holes 231 for guiding the tension line 120 are formed at the center of the tension line guide panel 230, and the tension line 120 at the top of the tension line guide panel 230. At the same time as passing through) the switch tube 233 for switching the wedge 242 as the lifting and lowering of the piston 220 is formed extending upward.

The present invention configured as described above will be described in detail with reference to the accompanying drawings.

1 is an installation state diagram of the earth anchor installed by the hydraulic tensioner of the one-touch retensioning anchorage according to the present invention, Figure 2 is an embodiment configuration of the hydraulic tensioner of the one-touch retensioning anchorage according to the present invention. 3 is another embodiment of the hydraulic tensioner of the one-touch re-tensioning anchorage according to the present invention, Figures 4a, 4b, 4c is an embodiment of the hydraulic tensioner of the one-touch re-tensioning anchorage according to the present invention 5A, 5B, and 5C are cross-sectional views of another embodiment of the hydraulic tensioner of the one-touch retensioning anchorage according to the present invention.

First, as shown in FIG. 1, the anchorage 110 is fixed to the pressure plate 130 exposed to the surface of the earth anchor 100, which is installed to prevent the ground 160 from collapsing, and at the same time, the tension line is fixed. Use tensioner 200 to apply tension to 120.

As shown in Figures 1 to 2, the present invention, the hydraulic oil inlet 211 is formed on each side, the upper and lower sides, the first hollow portion 212 is formed in a tubular shape so that the tension line 120 is passed through The cylinder 210 is provided.

Here, the cylinder 210 is formed between the inner wall 213 and the outer wall 214, the pressure portion 215 is opened to the lower side so that the piston 220 enters, the upper and lower sides of the pressure portion 215 As the hydraulic pressure enters and exits, the piston 220 is doubled to be elevated.

Inside the cylinder 210, the piston 220 is elevated in accordance with the entrance and exit of the hydraulic oil supplied to the cylinder 210, the second hollow portion 222 is formed in a tubular shape so that the tension line 120 passes through It is provided.

In this case, a hydraulic blocking wall 216 is protruded around the inner center of the cylinder 210, and upper and lower outer blocking walls 223 and 224 protrude from the upper and lower outer circumferences of the piston 220 so that the hydraulic blocking is performed. The piston 220 is elevated by the hydraulic oil that flows in and out through the hydraulic oil inlet and outlet 211 to the pressure parts 215 formed on both sides of the wall 216.

In addition, the lower end of the cylinder 210 is provided with a detachable pedestal 250 in contact with the upper surface of the pressure plate 130, the user along the circumference of the pedestal 250, the user of the screw body of the fixing unit 110 ( A long hole-shaped jig entry hole 251 into which a jig 113 for arbitrarily turning 111 may be inserted is formed.

 The lower end of the piston 220 is formed through the guide hole 231 for guiding the tension line 120 passing through the first and second hollow portion (212,222), and is in contact with the upper end of the fixing unit 110 The tension line guide panel 230 is provided.

Here, the tension line guide panel 230 passes through the tension line 120 so as to switch the wedge 242 provided in the holding means 240 in accordance with the lifting and lowering of the piston 220 and the guide hole ( The switch tube 233 is formed to extend above the 231 is further provided.

At this time, any one of the first hollow portion 212 or the second hollow portion 222 includes a holding means 240 for holding the end of the tension line 120 guided through the guide hole 231. do.

Here, the gripping means 240 is provided with a body 241 having a tapered portion 241a through which the tension line 120 is penetrated and the wedge 242 is inserted from the upper side, and the wedge 242 of the The upper side is provided with a guide tube 243 for guiding the tension line 120 passing through the wedge 242, the spring 244 is supported on the outer periphery of the guide tube 243, the upper side of the spring 244 The spring blocking plate 245 is formed with a guide hole 245a through which the guide tube 243 penetrates, and a gap ring in which a spaced portion 246a is formed between the body 241 and the spring blocking plate 245 is provided. 246.

Among the hydraulic tensioner of the one-touch re-tensioning anchorage of the present invention configured as described above, first, as shown in FIGS. 4A, 4B and 4C, the operation state of the initial tensioning hydraulic tensioner 200a will be described.

According to FIG. 4A, the hydraulic tensioning device 200a for initial stretching is placed on the upper part of the anchorage 110 in a state where the anchorage 110 is inserted into the tension line 120 to the upper side of the pressure plate 130, and the piston 220 At the same time as the tension line guide panel 230 provided at the tip of the contact with the fixing unit 110 is inserted into the guide hole 231, the tensile line 120 exposed to the upper side of the fixing unit 110.

Tensile wire 120 is inserted into the guide hole 231 is preferably inserted only to the position to be gripped by the wedge 242 included in the holding means 240 along the switch tube 233.

According to FIG. 4B, when the piston 220 is extended by the hydraulic force pressurized through the hydraulic oil inlet 211 of the initial tensioning hydraulic tensioner 200a positioned above the anchorage 110, the anchorage 110 is formed. The cylinder 210 is extended upward with respect to the tension line guide panel 230 in contact with the center.

At this time, the switch tube 233 included in the tension line guide panel 230 is released from the wedge 242 provided in the holding means 240 so that the wedge 242 supported by the spring 244 is the tension line 120. Grip is raised together with the cylinder 210 to tension the tension line 120 from the fixing unit 110 and at the same time to fix the fixing unit 110.

According to FIG. 4C, when the tension line 120 is tensioned and the hydraulic force is released to the initial tension hydraulic tensioner 200a, the gripping means 240 together with the cylinder 210 by the characteristics of the wedge 242. The wedge 242 is in contact with the switch tube 233 while lowering the lower side to completely release the gripping of the tension line 120, so that the user pulls up the initial tension hydraulic tensioner 200a upwards and is easily detached.

Next, as shown in Figures 5a, 5b, 5c, the operating state of the hydraulic tensioning machine 200b for re-tension will be described.

According to FIG. 5A, the bottom surface of the pedestal 250 provided at the front end of the cylinder 210 is in contact with the top surface of the pressure plate 130 on which the fixing unit 110 is fixed, and at the same time as the hydraulic tensioner 200a for initial stretching. After the tension line 120 is inserted through the guide hole 231 of the tension line guide panel 230 provided at the tip of the piston 220, the hydraulic tensioner 200b for re-tensioning is installed and installed. The hydraulic force is applied through 211 to raise the piston 220 upwardly as opposed to the initial tension hydraulic tensioner 200a.

At this time, when the gripping means 240 provided in the second hollow portion 222 of the piston 220 grips the tension line 120 and pulls it upward, the fixing unit 110 fixed to the pressure plate 130 is also included. Is raised.

According to FIG. 5B, the user inserts the jig 113 through the jig access hole 251 formed in the pedestal 250 while the fixing unit 110 is raised to couple to the screw body 111 of the fixing unit 110. At the same time, the screw body 111 is brought into close contact with the pressure plate 130 by rotating the screw body 111, and then the jig 113 is removed.

According to FIG. 5C, when the hydraulic pressure applied to the cylinder 210 is released in the opposite direction to release the pressing force, the gripping means 240 embedded in the piston 220 releases the gripping of the tension line 120 so that the fixing unit 110 is tensioned. Line 120 is tensioned again and at the same time anchorage 110 is fixed.

By providing the hydraulic tensioner of the one-touch re-tensioning anchorage configured as described above, the anchorage can be fixed simply by pulling the tensioning wire, and unnecessary tension lines protruding to the upper side of the anchorage for initial tensile or re-tensioning are unnecessary. Since it does not need to be stretched, the material can be reduced, and the fixing unit can be prevented from being damaged by excessive pressure, and the fixing unit can be reused.

While the invention has been shown and described in connection with specific embodiments thereof, it will be appreciated that various changes and modifications can be made therein without departing from the spirit and scope of the invention as indicated by the claims. Include in your rights even those who have one can easily know.

100: earth anchor 110: anchorage
120: tension line 130: pressure plate
111: thread 113: jig
160: ground 200: tensioning machine
200a: Hydraulic Tensioner for Initial Tension 200b: Hydraulic Tensioner for Retension
210: cylinder 211: hydraulic oil entrance
212: first hollow 213: inner wall
214: outer wall 215: pressure part
216: hydraulic barrier wall 220: piston
222: second hollow portion 223: top blocking wall
224: lower barrier wall 230: tension line guide panel
231: guide 233: switch tube
240: holding means 241: body
241a: taper 242: wedge
243: guide tube 244: spring
245: spring blocking plate 245a: guide hole
246: gap ring 246a: spacer
250: base 251: jig hole

Claims (6)

Tensioner 110 is applied to the tension line 120 at the same time the anchorage 110 is fixed to the pressure plate 130 exposed to the surface of the earth anchor 100 is installed to prevent the ground 160 is collapsed (tensioner ( 200),
A cylinder 210 having hydraulic oil entrances 211 formed on upper and lower sides, respectively, and having a first hollow portion 212 formed in a tubular shape such that the tensile line 120 passes;
The piston is provided inside the cylinder 210, the piston is elevated in accordance with the entrance and exit of the hydraulic oil supplied to the cylinder 210, the piston having a second hollow portion 222 is formed in a tubular shape so that the tensile line (120) ( 220);
A tension line guide panel 230 provided at a lower end of the piston 220 to guide the tension line 120 into the first hollow part 212 or the second hollow part 222;
Is provided in any one of the first hollow portion 212 or the second hollow portion 222, and includes a wedge 242 for holding the tension line 120 guided by the tension line guide panel 230 It is composed of the holding means 240,
The hydraulic blocking wall 216 is protruded around the inner center of the cylinder 210, and the upper and lower outer blocking walls 223 and 224 protrude from the upper and lower outer peripheries of the piston 220 to protrude the hydraulic blocking wall ( 216 of the one-touch re-tensioning anchorage, characterized in that the piston 220 is lifted by the hydraulic oil flowing out, through the hydraulic oil inlet 211 to the pressure portion 215 formed on both sides of the upper, lower Hydraulic tensioner
The method of claim 1,
The cylinder 210 has a pressure part 215 having a lower side open to allow the piston 220 to enter and exit between the inner wall 213 and the outer wall 214, and the hydraulic pressure is applied to the upper and lower sides of the pressure part 215. One-touch re-tensioning anchorage hydraulic tensioner, characterized in that consisting of a double vessel structure so that the piston 220 is raised and lowered as it enters.
delete The method of claim 1,
The lower end of the cylinder 210 is provided with a detachable pedestal 250 which is in contact with the upper surface of the pressure plate 130, the user along the periphery of the pedestal 250 to the screw 111 of the fixing unit 110 A one-touch retensioning anchorage hydraulic tensioner, characterized in that the jig entry hole 251 of the long hole shape that can be inserted into the jig 113 to be turned down arbitrarily.
The method of claim 1,
The gripping means 240 includes: a body 241 having a tapered portion 241a formed to allow the wedge 242 to be inserted at the same time the tensile line 120 is penetrated;
A guide tube 243 provided at an upper side of the wedge 242 and guiding a tensile line 120 passing through the tapered portion 241a;
A spring 244 which is carried around an outer circumference of the guide tube 243;
A spring blocking plate 245 provided on an upper side of the spring 244 and formed with a guide hole 245a to allow the guide tube 243 to pass therethrough;
Hydraulic tension of the one-touch re-tensioning anchorage, characterized in that it comprises a gap ring 246 provided between the body 241 and the spring blocking plate 245 in a ring shape to form the separation portion 246a. group.
The method of claim 1,
A plurality of guide holes 231 for guiding the tension line 120 is formed through the center of the tension line guide panel 230, the tension line 120 is formed on the top of the tension line guide panel 230 Passing and at the same time the hydraulic tube tensioner of the one-touch re-tensioning fixture, characterized in that the switch tube 233 for switching the wedge (242) is formed to extend in accordance with the lifting and lowering of the piston (220).

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