KR100950265B1 - Retension cylinder - Google Patents

Abstract

PURPOSE: A re-tension cylinder device is provided to reduce the time for re-engineering and re-designing by rapidly and accurately measures the pressure in the field. CONSTITUTION: A re-tension cylinder device comprises a head(10), a load(20) and a fixed nut(30). The head has a hydraulic chamber(11) and an insertion hole(12). A plurality of strands(90) is inserted on the insertion hole. The load is upward moves by the pressure from the hydraulic chamber of the head and extends wires. The fixed nut is identically moved along with the load when is connected to the upper part of the load.

Description

Retension cylinder device for load recovery

The present invention relates to a re-tensioning cylinder device for restoring load, and more particularly, it is light in weight and simple in structure, greatly reducing the manufacturing cost, and it can be installed on the total quantity of permanent anchors so that workers in the field can quickly and accurately measure pressure. At the same time, it can be re-printed immediately, and reconstruction and redesign are quick.

In general, civil works or building structures are constructed through slightly different processes depending on their characteristics, but the initial process is to strut the excavation section to prevent the collapse of the excavation surface and the loss of surrounding structures when excavating and excavating the ground. Reinforcement is done using the formula or ground anchor technique.

The ground anchor method is to install the anchor in the ground, and to support the excavation cross-section using the pull-out resistance of the anchor as shown in Figure 1 attached to the excavation cross-section inclinedly inserted into the excavation cross-section after the grout injection Form a sieve.

And pull the tension member (1) in the excavation section is fixed using a wedge (wedge, wedge) (2) in the prestressing state.

The wedge 2 is tensioned through a tensioner in a state of being coupled to the anchorage 4 formed with a plurality of coupling holes 3 in a circular plate.

The fixing unit 4 is usually used to form 5 to 8 coupling holes (3), which combines each wedge (2) with a coupling hole (3) is inconvenient to install, expensive manufacturing costs .

In addition, since the diameter and height of the coupling hole 3 is arbitrarily formed without mutual compatibility, there is a problem in that the coupling of the wedge 4 is not easy and in the severe case, it becomes a defect and fails to tension at all.

In addition, the ground anchor is to prevent the collapse of the excavation cross-section by holding the tension member (1) at the initial tensile force, the tensile force is transmitted to the surrounding ground through the grout body. However, at the initial stage of construction, the tensile force applied to the ground anchor is maintained, but the tensile load of the tension member decreases with time. For example, the grout body moves toward the anchor head with the passage of time due to creep deformation of the tension member and the surrounding ground.

Therefore, in consideration of the reduction of the tensile load of the tension member as described above, after a certain time after the construction of the anchor must re-tension the tension member.

As such, the re-tensioning device has a very complicated structure and is formed by processing circular steel, which causes a lot of material and processing costs.

In addition, since each of the permanent anchors is expensive to install and use, only a few sampling operations have been a disadvantage that can not be precise construction.

The present invention has been made in view of the various problems as described above, and the object thereof is that the structure is simple and the cost can be drastically reduced. You lose.

In addition, it is possible to install in a variety of permanent anchors to provide excellent compatibility, re-tensioning is performed directly in the field to provide a re-tension cylinder device for load recovery that can quickly process the reconstruction and redesign.

In order to achieve the above object, the present invention has a hydraulic chamber of a predetermined space therein and has an insertion hole into which a plurality of strands are inserted into the lower side of the hydraulic hole into which pressure is introduced into the lower side of the outer circumference and the upper side of the hydraulic chamber. A head having a rod detachment prevention hole for preventing the rod from escaping to the outside; It is inserted into the hydraulic chamber of the head and forms a wedge hole into which a plurality of wedges are inserted, a thread is formed on the upper outer circumferential surface, and a sealing O-ring is formed on both sides of the lower side, and the monocon is inserted into the outer surface of the wedge inserted in the wedge hole. A rod having a coupling groove formed downward and having a coil spring coupled to the lower side of the monocon; And a fixing nut having a screw thread formed on an inner circumferential surface thereof so as to be screwed with a screw thread formed on an outer circumference of the rod at an upper surface of the head.

The present invention configured as described above has various effects as follows.

The first is a simple structure that reduces the material cost and processing cost and does not require repeated use, and it is installed at a permanent angle 1: 1 so that easy measurement of the total quantity is possible.

Second, there is an effect that can greatly reduce the convenience and maintenance of maintenance and management.

Third, it is lightweight and prevents corrosion by using duranium material, so construction is safe.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

2 is a view showing in detail the overall configuration of the load restoring cylinder device for applying the present invention, the reference numeral 100 denotes the main body of the load restoring cylinder device according to the present invention. .

The main body 100 is a rod 10 which serves to retension the strand wire 90 while moving upwardly by pressure in the head 10 having the hydraulic chamber 11 and the hydraulic chamber 11 of the head 10. ) And a fixing nut 30 screwed to the upper side of the rod 20 to move in the same manner as the rod 20.

The head 10 has a hydraulic cylinder 11 having a predetermined space therein and has a cylindrical shape with an open upper side, and a lower side has an insertion hole 12 into which a plurality of strands are inserted.

A thread 12a is formed on the inner circumferential surface of the insertion hole 12, and the guide pipe 15 having the thread 15a formed at the lower end thereof is screwed into the thread 12a.

 In addition, a hydraulic hole 13 is formed at one side of the lower circumferential surface of the head 10 so as to apply pressure into the hydraulic chamber 11, and the rod 20 is separated from the rod 20 so as not to escape to the outside. The prevention hole 14 is formed.

The position of the rod departure prevention hole 14 is formed on the position where the pressure inside the head 10 is maximum, and when the pressure exceeds the maximum pressure, the pressure is discharged to the outside through the rod release prevention hole 14 so that the rod 20 Will be prevented from going outside.

The rod 20 is inserted into and installed in the hydraulic chamber 11 of the head 10, and forms a wedge hole 21 into which a plurality of wedges 50 are inserted, and downwards of the wedge hole 21. The insertion pipe 22 into which the guide pipe 15 installed in 10 is inserted is formed.

A thread 23 is formed on the upper outer circumferential surface of the rod 20, and a sealed o-ring 24 is installed on the lower outer surface to be in close contact with the inner surface of the head 10.

The sealed O-ring 24 is used to form a fastening groove 25 in the lower outer surface of the rod 20 and inserted therein.

The fixing nut 30 has a thread 31 formed on an inner circumferential surface thereof, and is screwed with the thread 23 formed on the outer circumferential surface of the rod 20 to move in the same manner as the rod 20.

The material of the main body 100 is made of duranium and has a light weight and anti-corrosion effect, thereby making it possible to operate stably even when exposed to the outside.

In addition, the present invention forms a fastening groove 25 formed wider than the diameter of the wedge hole 21 while downwardly the wedge hole 21 inserted into the rod 20 as shown in FIG. 3.

The upper side of the fastening groove 25 is installed by fastening the monocon 40 to the outer surface of the wedge 50 and used to fasten the coil spring 60 in close contact with the bottom surface and the bottom surface of the wedge hole 21. Done. At this time, the coil spring 60 may be used by replacing the leaf spring 70 as shown in FIG.

The monocon 40 can be used as a base or integral form that can be separated.

As described above, the present invention can selectively use the coil spring 60 is installed or not installed on the lower side of the wedge 50 is inserted into the rod 20.

In addition, the lower surface of the head 10, as shown in the accompanying drawings, Figures 5 and 6 can be used by integrally forming the pressure plate (80).

A plurality of holes 81 are formed in the acupressure plate 80 so that the strand wire 90 is inserted therein.

In addition, as shown in FIG. 7, the check valve 13a is installed as the hydraulic hole 13 of the head 10 to prevent the pressure introduced into the outside from being discharged to the outside.

Referring to the operating state of the present invention as described above in detail.

First, as shown in FIG. 6 attached to the rear of the permanent anchor as shown in Figure 6 through the hole 81 formed in the pressure plate 80 of the main body 100 to fasten the strand (90) by the wedge (50).

In this state, the main body 100 is fastened to the stranded wire 90 protruding to the rear of the permanent anchor, and the stranded wire 90 is tensioned using a separate tensioner.

After tensioning the stranded wire 90, it is re-tensioned due to ground change or stress loss. At this time, the hydraulic hole 13 formed in the head 10 of each main body 100 installed behind the permanent anchor is used. The hydraulic pump is installed and pressure is applied to the hydraulic chamber 11 of the head 10.

At this time, the rod 20 installed in the hydraulic chamber 11 of the head 10, as shown in the accompanying drawings, ascends upward by the hydraulic pressure ascends the strand 90 is bitten by the wedge 50 Let's go.

And the sealing O-ring 24 installed on the lower outer surface of the rod 20 is moved in close contact with the inner surface of the head 10 and the outer surface of the guide pipe 15 so that the rod 20 is raised without shaking.

At the same time, the fixing nut 30 screwed to the upper end of the rod 20 is moved in the same direction as the rod 20.

Another embodiment of the present invention will be described with reference to FIGS. 3 and 4 and 9 and 10 as follows.

Monocon 40 is provided on the outer surface of the plurality of wedges 50 installed on the rod 20, the coil spring 60 is mounted on the lower side of the monocon 40.

And instead of the coil spring 60 can be used by mounting the leaf spring (70).

The coil spring 60 installed on the lower side of the mono cone 40 has a mono cone 40 strongly holding the wedge 50 when the main body is hit or shaken by an external impact or the like, and thus the strand wire 90 has a wedge ( 50) to prevent the deviation from so that it can be securely tensioned.

The hydraulic pump is installed in the hydraulic hole 13 formed in the head 10 of the main body 100, and the pressure is applied to the hydraulic chamber 11 of the head 10.

At this time, as shown in the accompanying drawings, Figures 9 and 10, the rod 20 installed in the hydraulic chamber 11 of the head 10 is upwardly lifted by the hydraulic pressure while the stranded wire 90 is held by the wedge 50 (90). Is raised.

And the sealing O-ring 24 installed on the lower outer surface of the rod 20 is moved in close contact with the inner surface of the head 10 and the outer surface of the guide pipe 15 so that the rod 20 rises without shaking and re-in This concludes the chapter.

According to the present invention, when the pressure flowing into the hydraulic chamber 11 of the head 10 is maximally introduced and the rod 20 rises upward, the rod release prevention hole 14 passes, the pressure inside the rod It is discharged to the outside through the departure prevention hole 14 to block the rod 20 is discharged to the outside by the pressure.

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1 is a cross-sectional view showing an installation state of a conventional ground anchor

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

3 to 4 are cross-sectional views showing a state in which the rod of the present invention has a different configuration

5 to 6 are cross-sectional views showing a state in which the pressure plate is formed on the lower side of the head of the present invention.

Figure 7 is a cross-sectional view showing a state in which the check valve is formed by the hydraulic hole of the present invention

8 is a cross-sectional view showing an operating state of the present invention

9 to 10 is a cross-sectional view showing another operating state of the present invention

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

100: body 20: head

11: Hydraulic chamber 12, 22: Insertion hole

13: Hydraulic Ball 14: Rod Breakout Prevention Ball

15: guide pipe 20: rod

21: Wetzong 23, 31: Mt.

24: Airtight O-ring 25: Tightening groove

30: fixing nut 40: monocon

50: wet 60: coil spring

70: leaf spring 80: acupressure plate

81: hole 90: stranded wire

Claims (4)

A hydraulic chamber of a predetermined space is formed therein and has a hole for inserting a plurality of stranded wires into the lower side, while a hydraulic hole into which pressure is introduced into the lower side of the outer circumferential surface and a rod departure preventing the inner rod from escaping to the outside. A head having a prevention hole formed therein; It is inserted into the hydraulic chamber of the head and forms a wedge hole into which a plurality of wedges are inserted, a thread is formed on the upper outer circumferential surface, and a sealing O-ring is formed on both sides of the lower side, and the monocon is inserted into the outer surface of the wedge inserted in the wedge hole. A rod having a coupling groove formed downward and having a coil spring coupled to the lower side of the monocon; Re-tensioning cylinder device for load recovery, characterized in that consisting of; a fixing nut formed with a screw thread on the inner circumferential surface to be screwed with the screw thread formed on the outer circumference of the rod on the upper surface of the head. delete delete delete

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