KR102482795B1 - Strand wire re-prestressing structure - Google Patents

Abstract

A strand wire re-tensioning structure of the present invention, which can be coupled to various anchor bodies, comprises: a support unit inserting a connection block and a fixing head into a main housing; a strand penetrating a support housing of the support unit to fix the support housing to the fixing head; a tension guide unit coupling a guide housing to the main housing of the support unit and including a tension bolt penetrating the guide housing to couple the guide housing to the connection block, while having a support nut screwed to the tension bolt; a bearing plate penetrated by the tension bolt of the tension guide unit to be fixed with a support nut to maintain a tension state of the strand; and a tension unit connected to a tension bolt exposure end of the tension guide unit to re-tension the strand hydraulically. Therefore, when a tensioning plate is moved forward through control on a hydraulic cylinder, a connected tension rod is pulled and then, the pulled tension rod causes the strand coupled to the fixing head to be pulled and tensioned to maintain a desired tension state, thus accurately and conveniently maintaining the tension state with the support nut of the pulled tension guide unit after tensioning the strand in the desired tension state while substantially maintaining the support state through a pressing grip seated on the fixing head, thereby making easy and accurate the tensioning and re-tensioning of the strand.

Description

Strand wire re-prestressing structure}

The present invention relates to a structure for re-tensioning a strand of a ground anchor, and more particularly, to a structure for re-tensioning a strand of an anchor installed in the ground to accurately and easily re-tension a strand of an anchor after a certain period of time.

Conventional civil engineering or building structures are constructed through slightly different processes depending on their nature, but the first process is to excavate the foundation ground of the structure, and when excavating, to prevent collapse of the excavation surface and damage to surrounding structures, braces are placed on the excavation section ( strut method or ground anchor method.

This ground anchor is a support method in which an anchor is installed in the ground and the excavated cross section is supported using the pulling resistance of the anchor. A strand is inserted obliquely into the excavated cross section, grout is injected into the drilled hole to form a grout bulb, and then excavation In the state where the strand is pulled and prestressed at the cross section, it is fixed using a head wedge. In this way, the maintenance of the tension force introduced into the strand stabilizes the unstable excavation wall and the back ground of the slope, which is the basic principle of the anchor.

However, after construction or for a certain period of time, a stable tension is maintained, but over time, the relaxation of the tension material, the creep deformation of the surrounding ground, the retaining wall, the lattice block or retaining wall of the slope, etc. The tension introduced into the strand may be weakened due to movement, and in particular, the corrosion of the head wedge, which is an anchorage exposed on the wall, or the vibration of the surrounding ground may cause slip of the strand, resulting in a decrease in the original tension. There is a situation. Therefore, it is necessary to re-tension the reinforcing material to restore the tensile force after a certain period of time has elapsed after construction considering the reduction in tensile load of the reinforcing material over time, and it is necessary to improve the instability of anchorages composed of conventional head wedges. there was.

Conventionally, a method of restoring the tension by inserting a spacer such as a simplate between the fixed head and the acupressure plate in a state in which the fixed head is configured to be re-tensionable and the fixed head is lifted and tensioned with a tensioner to restore the tensile force has been generally used.

However, since the tensile force loss is different for each permanent anchor, the size of the gap between the lifted fixed head and the pressure plate when the reinforcement is tensioned is different, so it is difficult to manufacture spacers with a thickness suitable for the gap on site. Even if a simple plate is used, it is difficult to secure the desired level of mounting load after re-tensioning because it is impossible to fit the spacer exactly into the gap. In addition, the anchorage has a structure in which a plurality of strands are anchored to one head as wedges. If the wedge is caused by a decrease in tension, the head is lifted as a whole by re-tensioning in a state where the wedge in normal anchorage differs from the tension of the strands. When raised, a strand whose initial tension is normal may receive an excessive load and cause problems such as breakage, and it often happens that the strand slips from the wedge and goes inside the head. and it is difficult to maintain permanent stability.

Wedge fixation type has the problem of crushing the thread of the wedge when re-tensioning several times, and the deformation of the tapered section of the head due to the load during fixation. In particular, in permanent anchors such as slopes and retaining walls, anchorage function is lost due to re-tensioning problem arises.

Therefore, due to these various problems that often occur, there has been a continuous demand for the development of a technology capable of accurately and efficiently tensioning the strand during re-tensioning and maintaining the tension well.

As the prior art, there are Patent Registration No. 10-1632285 and Patent Registration No. 10-2125243.

Therefore, the main object of the present invention is to combine with various anchors currently being produced, and when a certain time elapses after anchor construction or when a change in tension of the strand occurs due to loss of anchorage function, the strand is effectively re-tensioned to form an excavation wall, It is to provide a stranded wire re-tension structure capable of stabilizing the ground by continuously pressurizing the back ground of the excavation wall, reinforced slope, and retaining wall structure by stably maintaining the tension of the anchor reinforcing member installed on the permanent slope.

Another object of the present invention is to provide a structure for re-tensioning a strand that can accurately and easily re-tension the strand of an anchor and at the same time easily check it with the naked eye.

In order to achieve the above object, the strand re-tensioning structure of the present invention includes a support portion in which a connection block and a fixing block are inserted into the main housing, a strand penetrating the support housing of the support portion and fixed to the fixing block, and the support portion The guide housing is coupled to the main housing, and a tension bolt is provided that passes through the guide housing and is coupled to the connection block, but a tension guide portion in which a support nut is screwed to the tension bolt and a support nut passing through the tension bolt of the tension guide portion are fixed. It is composed of a pressure plate that maintains the tensile state of the strand and a tensioning part that re-tensions the strand by hydraulic pressure by connecting to the exposed end of the tension bolt of the tension guide.

Therefore, in the strand re-tensioning structure of the present invention, when the tension plate is moved forward by controlling the hydraulic cylinder, the connected tension bolt is pulled, thereby pulling the strand coupled to the fixing head and tensioning the strand 120 to maintain a desired tension state. After tensioning the strands in the desired state of tension, the tensile state is maintained accurately and conveniently with the support nut of the pulled tension guide part, and at the same time, the crimping grip is seated in the crimping grip hole of the fixing head to maintain a firmly supported state. It not only allows the re-tensioning of the strand to be easily and accurately performed, but also has the effect of continuously stabilizing the ground and structures such as excavation walls and incised slope retaining walls.

1 is a cross-sectional view showing a strand re-tensioning structure of the present invention.
Figure 2 is a cross-sectional view showing a strand removal state of the strand re-tensioning structure of the present invention.
Figure 3 is a front view showing a strand of the strand re-tension structure of the present invention.
Figure 4 is a cross-sectional view showing a state before re-tensioning of the strand re-tensioning structure of the present invention.
5 is a cross-sectional view showing a state in which the tensile part of the strand re-tensioning structure of the present invention is coupled.
Figure 6 is a cross-sectional view showing a strand tension state of the strand re-tension structure of the present invention.
Figure 7 is a cross-sectional view showing a strand tension fixing state of the strand re-tension structure of the present invention.
8 is a cross-sectional view showing a state in which the tension part is separated after re-tensioning of the strand re-tensioning structure of the present invention.

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

As shown in FIGS. 1 to 8, the stranded wire re-tension structure of the present invention combines the support housing 117 to the rear of the main housing 111 and connects the block inside. The support part 110 into which the 112 and the fixing block 114 are inserted, the strand 120 penetrating the support housing 117 of the support part 110 and fixing it to the fixing block fixing head 114, and the support part The guide housing 131 is coupled to the front side of the main housing 111 of (110) and a tension bolt 133 coupled to the connection block 112 through the guide housing 131 is provided, but the tension bolt 133 Since the tension guide part 130 to which the support nut 134 is screwed together and the tension bolt 133 of the tension guide part 130 are passed through and fixed with the support nut 134, the tensile state of the strand 120 is maintained. It is composed of a pressure plate 140 and a tensioning unit 150 that re-tensions the strand by hydraulic pressure by connecting to the exposed end of the tensioning bolt 133 of the tensioning guide unit 130.

In the support part 110, the main housing 111 is formed in a tubular shape, and the support housing 117 is screwed to the rear side, but the guide tube 118 is formed in the rear side of the support housing 117 to pass through the strand 120. let it do

On the other hand, a screw groove 113 is formed in the front of the connection block 112 in which the main housing 111 is installed, and a plurality of fixing head through-holes 115 are formed in the rear of the fixing head 114 at regular intervals. While drilling, a crimping grip hole 116 is formed in the front, and the rear side of the connection block 112 and the front side of the fixing head 114 are screwed together.

The strand 120 is coupled to the crimp grip 121 on the rear side, and the strand 120 coated with the covering material 122 on the outer periphery of the crimp grip 121 at the rear side of the strand 120 is placed in the support housing of the support portion 110. It is preferable to pass through the guide tube 118 of 117 and the fixing head through hole 115 so that the crimping grip 121 is seated in the crimping grip hole 116 of the fixed head 114 and firmly fixed.

Here, the end of the guide tube 118 of the support housing 117 and the outer periphery of the covering material 122 of the strand 120 are compressed with the heat shrinkable tube 123.

The tension guide part 130 screws the guide housing 131 to the front side of the main housing 111 of the support part 110, forms a guide pipe 132 forward on the guide housing 131, and guides the guide pipe 133 A tension bolt 133 passing through is provided, but the rear end of the tension bolt 133 is screwed into the threaded groove 113 of the connection block 112 to connect.

Furthermore, the support nut 134 is screwed to the front end of the tension bolt 133, and a protective cap 137 covering the front end of the tension bolt 133 is provided.

In addition, it is preferable to have a tension rod coupler 136 coupled to the front end of the tension bolt 133 to connect a tension unit 150 to be described later.

In addition, it is preferable to insert a spring 135 between the guide housing 131 and the connection block 112 of the support 110 so that the connection block 112 and the fixing head 114 are elastically installed.

The pressure plate 140 drills a pressure plate hole 141 in the center to pass through the tension bolt 133 of the tension guide part 130 to fasten the support nut 134 so that the tension of the strand 120 can be maintained. do.

The tensile part 150 forms a support frame 151 in front of the hydraulic cylinder 157 so that the support frame 151 adheres to the pressure plate 140 and has a support frame through hole in the center of the upper plate of the support frame 151. 152 is drilled, the cylinder operating rod 158 of the hydraulic cylinder 157 is operated forward, and a tensioning plate 154 is attached to the front end of the cylinder operating rod 158, and a tensioning plate hole in the center ( 155).

In addition, the tension unit 150 passes through the tension plate hole 155 and the support frame through-hole 152 and connects the tension rod coupler 136 to the tension bolt 133 of the tension guide unit 130. 153 is provided, but a tension nut 156 is screwed into the front end of the tension rod 153.

On the other hand, in the coupled state of the main housing 111 and the support housing 117 of the support part 110 and the guide housing 131 of the tension guide part 130, the inside is sealed and grease is filled therein so that the internal parts It is desirable to prevent corrosion and suppress damage to parts so that they operate smoothly even after a long period of time.

The operation of the present invention is described as follows.

First, the anchor 100 is installed in the ground, but the guide tube 132 of the guide housing 131 is not interfered with when tensioned.

As described above, when re-tensioning is required due to the lapse of a certain period of time after the installation and tensioning of the anchor 100, the support frame 151 of the tensioning part 150 is brought into close contact with the pressure plate 140, and the tensioning rod of the tensioning part 150 153 and the tension bolt 133 of the tension guide part 130 protruding from the pressure plate 140 are coupled with a tension rod coupler 136 to connect them to each other, and then the tension rod 153 of the tension part 150 is tensioned. When the nut 156 is tightened to adhere to the tensile plate 154, the entire tensile portion 150, such as the support frame 151, maintains a state of close contact with the pressure plate 140.

In this state, when the hydraulic cylinder 157 is controlled to move the cylinder operating rod 158 forward, the tension plate 154 moves forward, and thus the tension nut 156 closely attached to the tension plate 154 and the tension rod (154), tension rod coupler 136, tension bolt 133, connection block 112, fixing head 114, etc. are pulled in this order, and as a result, the strand 120 coupled to the fixing head 114 is pulled. While being stretched, the strand 120 is tensioned so that a desired tension state can be maintained.

At this time, after tensioning the strand 120 in a desired state of tension, the support nut 133 of the pulled tension guide part 130 is tightened to bring it into close contact with the pressure plate 120 to maintain the tension state as well as fixing the compression grip 121. Since it is seated in the crimping grip hole 116 of the head 114 and fixed firmly and conveniently, the re-tensioning operation of the strand 120 can be easily and accurately performed.

The above description is illustrative of the present invention, and the embodiments disclosed in the specification are not intended to limit the technical spirit of the present invention, but are for explanation. Various modifications and variations or substitution of steps will be possible within the range of not departing from the technical idea of . Therefore, the protection scope of the present invention should be construed by the matters described in the claims, and technical matters within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: anchor 110: support
111; Main housing 112: connection block
113: screw groove 114: fixed head
115: fixed head through hole 116: accommodation space
117: support housing 118: guide pipe
120: strand wire 121: crimp grip
122: covering material 123: heat shrink tube
130: tension guide part 131: guide housing
132: guide tube 133: tension bolt
134: support nut 135: spring
136: tension rod coupler 137: protection cap
140: pressure plate 141: pressure plate hole
150: tensile part 151: support frame
152: support frame through hole 153: tension rod
154: tension plate 155: tension plate hole
156: tension nut 157: hydraulic cylinder
158: cylinder operating rod

Claims (5)

The support part 110 in which the support housing 117 is coupled to the rear side of the main housing 111 and the connection block 112 and the fixing head 114 are inserted therein,
A strand 120 passing through the support housing 117 of the support part 110 and fixed to the fixing head 114;
The guide housing 131 is coupled to the front side of the main housing 111 of the support part 110 and a tension bolt 133 coupled to the connection block 112 through the guide housing 131 is provided, but the tension bolt 133 A tension guide part 130 in which the support nut 134 is screwed to ),
A pressure plate 140 for maintaining the tensile state of the strand 120 by penetrating the tension bolt 133 of the tension guide part 130 and fixing it with a support nut 134, and
A strand re-tension structure characterized in that it is composed of a tension portion 150 that is connected to the exposed end of the tension bolt 133 of the tension guide portion 130 and re-tensions the strand 120 hydraulically.
According to claim 1,
The support part 110 forms a screw groove 113 in the connecting block 112, and drills a plurality of fixing head through-holes 115 in the fixing head 114 at regular intervals, and compresses the grip hole 116 into the inside. Forming, screwing the support housing 117 to the main housing 111, forming a guide tube 118 in the support housing 117 to penetrate the strand 120, and crimping the grip 121 to the strand 120 ) and cover the outer periphery of the rear strand 120 of the crimping grip 121 with the covering material 122, and the strand 120 is inserted into the guide tube 118 of the support housing 117 and the fixed head through-hole 115 , so that the crimping grip 121 is seated in the crimping grip hole 116, and the end of the guide tube 118 of the support housing 117 and the outer periphery of the strand wire 120 and the covering material 122 are made into heat shrinkable tubes 123. A stranded wire re-tension structure, characterized in that it is composed by compression.
According to claim 1,
The tension guide part 130 forms a guide pipe 132 in the guide housing 131 and screws the rear end of the tension bolt 133 to the connection block 112, but covers the front end of the tension bolt 133 for protection. The cap 137 and the tension rod coupler 136 are provided, and a spring 135 is inserted between the guide housing 131 and the connection block 112 of the support 110 to connect the connection block 112 and the fixing head 114. ) to be elastically installed, and the pressure plate 140 is configured to fasten the support nut 134 by drilling a pressure plate hole 141 in the center and penetrating the tension bolt 133 of the tension guide part 130. a stranded wire re-tension structure.
According to claim 1,
The tensile part 150 forms a support frame 151 on the hydraulic cylinder 157 so that the support frame 151 is in close contact with the pressure plate 140, and the support frame through hole 152 in the center of the top plate of the support frame 151 ) and attach the tension plate 154 to the front end of the operating rod 158, and drill the tension plate hole 155 at the center of the tension plate 154, but the tension plate 154 and the support frame A tension rod 153 passing through 151 and connected to the tension bolt 133 of the tension guide part 130 by the tension rod coupler 136 is provided, but a tension nut 156 is provided at the front end of the tension rod 153. A stranded wire re-tension structure, characterized in that it is configured by screwing.
According to claim 1,
Characterized in that the main housing 111 of the support part 110, the support housing 117, and the guide housing 131 of the tension guide part 130 are sealed inside and filled with grease at the same time in the coupled state. a stranded wire re-tension structure.

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