KR20180009190A - Device for re-prestressing of anchor - Google Patents

Abstract

Disclosed is an anchor re-prestressing apparatus. According to the present invention, the anchor re-prestressing apparatus allows one end of a free length connecting the other end to an anchor body fixated in the ground to penetrate into a ground pressing plate installed on a surface of the ground to be coupled to an anchor head by a wedge cone, and inserts a re-prestressing plate between the anchor head and the ground pressing plate when re-prestressing the free length. The re-prestressing plate is made of a metal place with a predetermined thickness and formed in a pair of half-doughnut shape to surround both sides of a circumference of the free length, wherein the diameter of the pair of re-prestressing plate is greater than that of the anchor head. According to the present invention, the size of the re-prestressing plate installed between the anchor head and the ground pressing plate is greater than that of the anchor head, the re-prestressing plates are integrated with each other when being stacked, and an attachment protrusion or the like are formed on the re-prestressing plate, thus being able to enhance re-prestressing efficiency of an anchor; a worker is prevented from an accident, thus being able to remarkably reduce an industrial disaster rate due to an accident; corrosion is prevented by a galvanized layer, thus being able to improve durability.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an anchor re-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an anchor re-tensioning apparatus, and more particularly, to an anchor re-tensioning apparatus capable of increasing the stability of a worker and the efficiency of an operation during re-tensioning by enlarging the size of an anchor re-tensioning plate.

In general, excavation of the ground is required as the first direct process in the construction of civil engineering works or building structures. When excavating the ground, the excavation section should be reinforced to prevent collapse of the excavation surface and damage of surrounding structures.

The reinforcement of excavation section mainly uses strut type method and ground anchor method method.

The anchor used in this anchor method is constructed to transfer the tensile force from the surface to the ground by being buried in the ground. For this purpose, an anchor body embedded in the ground, a plurality of tension members made of a PC strand, And an anchor head that fixes a plurality of tensions to the ground surface side.

In the ground anchor method, an anchor is installed in the ground, and a tensile material is inclined to the excavation section by supporting the excavation section by using the draw resistance of an anchor. Then, grout is injected to form a grout body. Pulled and prestressed with a wedge. The ground anchor prevents the collapse of the excavation section by restraining the tensile material with the initial tension force, and the tensile force is transmitted to the surrounding ground through the grout body.

However, the tension applied to the ground anchor is retained at the beginning of construction, but the tensile load of the tensile material decreases with time. For example, due to the creep deformation of the tensile material and the surrounding ground, the grout body moves toward the anchor head over time. The tensile load reduction of these tensile materials is particularly problematic in permanent anchors.

Therefore, it is necessary to re-tension the tensile material (free field) when a certain period of time has elapsed after the construction of the anchor considering the reduction of the tensile load of the tensile material. To re- tension the tensile material (free field) There is a case that it is possible.

1, the anchor head 3 is brought into close contact with the pressure plate 2 provided on the surface of the ground 1, and the anchor head 3 is brought into close contact with the anchor head 3, The tension bell 6 is provided in a state in which the end of the free field 4 is fixed by the wedge 5. (a)

Subsequently, a cylinder support 7 covering the tension bell 6 is provided, and a hydraulic cylinder 8 is mounted on the upper surface of the cylinder support 7. (c) In other words, the anchor head 3 is pulled to re-tense the free space 4 to secure a space between the pressure plate 2 and the anchor head 3. [

Next, a re-tensioning plate 9 is fixed between the anchor head 3 and the pressure plate 2, and the anchor head 3 coupled with the free field 4 is controlled by the cylinder 8 (F) Then, the cylinder 8 and the cylinder base 7 are removed (g)

As a result of the above-described operation, the free reinforcement of the free space becomes possible.

However, in the prior art of such a structure, in the process (e) of installing the re-tension plate 9 between the anchor head 3 and the pressure plate 2, when the operator's hand is moved between the anchor head 3 and the re- Or a safety accident which is sandwiched between the re-tension plate 9 and the pressure plate 2 may occur. Since the size of the re-tension plate 9 is equal to or smaller than the size of the tensile bar 6 coupled with the anchor head 3, the operator attaches the re-tension plate 9 to the anchor head 3 A safety accident may occur in which a finger of an operator is sandwiched between the anchor head 3 and the re-tension plate 9 or between the re-tension plate 9 and the pressure plate 2 in the process of being installed between the anchor head 3 and the pressure plate 2 .

In addition, when the re-tensioning plates 9 are composed of a plurality of re-tensioning plates 9, the respective re-tensioning plates 9 are not fixed to each other, so that a flow is generated and durability and stability are deteriorated.

. Korean Registered Patent No. 10-0834021 (Notification Date: 2008.06.02)

SUMMARY OF THE INVENTION It is an object of the present invention to provide an anchor reel tensioning device capable of increasing the stability and work efficiency of an operator during a re-tensioning operation by enlarging the size of an anchor reel tension plate.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to at least partially solve the problems in the conventional arts. It can be understood.

According to the present invention, there is provided an anchor head comprising a wedge cone, which is coupled to an anchor head through a supporting plate provided on a surface of a ground, An anchor re-tensioning device for inserting a re-tensioning plate between an anchor head and a supporting plate, the re-tensioning plate comprising a metal plate having a predetermined thickness, Wherein the diameter of the pair of reinforcement plates is larger than the diameter of the anchor head.

Wherein the diameter of the re-tension plate is 5 to 30% greater than the diameter of the anchor head with respect to the diameter of the anchor head, and the inner circumferential surface formed by the pair of retension plates is the same as the inner circumferential surface of the anchor head Can be largely formed.

In the re-tensioning plate, when two or more re-tensioning plates are stacked, coupling holes are formed at the same position so that the re-tensioning plates are combined and integrated in a laminated direction, and the coupling pieces are respectively inserted and inserted through the coupling holes.

The coupling hole and the coupling piece may be polygonal.

The outer surface of the re-tensioning plate may be formed with a knurling or mounting protrusions for increasing the grip when the operator applies the re-tensioning plate.

The coupling hole may be formed in the re-tension plate at a position outside the diameter of the anchor head so that the anchor head does not interfere with the anchor head when the anchor head presses the re-tension plate.

The re-tensioning plate may be hot-dip galvanized to prevent corrosion.

According to the present invention, by enlarging the size of the anchor re-tensioning plate, it is possible to prevent a safety accident that the operator's hands are sandwiched between the re-tensioning plate and the anchor head or between the re-tensioning plates and the re- It is possible to provide an effect that the efficiency of the work of installing the re-tension plate between the pressure plate and the anchor head can be improved.

In addition, when two or more re-tensioning plates are stacked and used, the respective re-tensioning plates can be integrated, thereby improving the safety and efficiency of the work and preventing the re-tensioning plate from flowing, thereby improving durability.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view for explaining an anchor re-tensioning using an anchor re-tensioning apparatus according to the prior art; Fig.
2 is a perspective view showing a re-tension plate of an anchor re-tensioning apparatus according to a first embodiment of the present invention.
3 is a schematic cross-sectional view showing the anchor re-tensioning apparatus shown in Fig.
4 and 5 are a perspective view and a cross-sectional view showing another embodiment of the re-tension plate shown in Fig.
FIG. 6 is a perspective view showing another embodiment of the re-tension plate shown in FIG. 2. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions are not described in order to simplify the gist of the present invention.

2 is a perspective view showing a re-tension plate of an anchor re-tensioning apparatus according to a first embodiment of the present invention, and Fig. 3 is a schematic cross-sectional view showing an anchor re-tensioning apparatus shown in Fig.

2 and 3, an anchor re-tensioning device A according to the present invention is a device for re-tensioning an anchor (not shown) fixed within a ground 10 and having a free end 20 connected at one end thereof The anchor head 50 is coupled to the anchor head 50 by the wedge cone 40 through the piercing plate 30 provided on the surface of the ground 10 and when the free length 20 is re- The reinforcement plate 60 having a size larger than the diameter of the anchor head 50 is inserted between the anchor head 50 and the anchor head 50. Hereinafter, the structure of the anchor head 50 and the wedge cone 40, the structure of the pressure plate 30, the free space 20, and the like are well known and will not be described in detail. And a hydraulic concrete can be installed between the surface of the paper surface 10 and the pressure plate 30. [

The structure of the re-tension plate 60 will be described in more detail.

The re-tension plate 60 is provided between the anchor head 50 and the platen 30 after the free field 20 is pulled by the hydraulic cylinder 70 when re-tensioning of the free field 20 is required. The sheet 20 is made of a metal plate having a predetermined thickness by maintaining the re-tensioned state. It is preferable that the re-tension plate 60 is immersed in the melted zinc so that corrosion is prevented and durability is improved so that the zinc plating layer 61 is formed on the surface thereof.

Such a re-tension plate 60 is made of a pair of semi-donut improvements as shown in Fig. This is for the pair of retension plates 60 to be installed centered on the free shelf 20 so as not to interfere with the free shelf 20.

The inner circumferential surface 64 of the pair of retension plates 60 is formed to be equal to or larger than the inner circumferential surface 52 of the anchor head 50. This is to prevent the possibility that the inner surface 64 of the re-tension plate 60 may interfere with the free space 20 when the inner surface 64 of the re-tension plate 60 is formed smaller than the inner surface 52 of the anchor head 50.

The diameter r1 of the pair of resilient plates 60 is 5 to 30% greater than the diameter r2 of the anchor head 50 on the basis of the diameter r2 of the anchor head 50 do. The size of the re-tension plate 60, that is, the diameter r1 is set to be larger than the diameter r2 of the anchor head 50 because the re-tension plate 60 is fixed to the anchor head 50 and the pressure plate 30, The operator's hand is prevented from being positioned between the pressure plate 30 and the anchor head 50 to prevent a safety accident such as a hand-pinching. The anchor head 50 and the re-tension plate 60 are formed in the same size so that the re-tension plate 60 is installed between the pressure plate 30 and the anchor head 50 during an anchor re-tensioning operation The operator's hand must be positioned between the support plate 30 and the anchor head 50. This causes a safety accident that the operator's hand is caught between the support plate 30 and the anchor head 50, The size (diameter) of the re-tension plate 60 is formed to be larger than the diameter r2 of the anchor head 50 in order to prevent the same safety accident.

At this time, when the diameter r1 of the re-tension plate 60 is made 5% or less larger than the diameter r2 of the anchor head 50, the operator's hand is brought close to the anchor head 50 The diameter r1 of the re-tension plate 60 may be smaller than the diameter r1 of the anchor head 50 because there is a risk of a safety accident, Is preferably 15-20% larger than the diameter (r2)

For example, when the diameter r2 of the anchor head 50 is 30 cm, the diameter r1 of the re-tension plate 60 is 34.5 cm or 36 cm.

The operation of the anchor re-tensioning device A according to the present invention constructed as described above will be described.

3, the tension bell 80 is engaged with an outer circumferential surface (threaded portion) of the anchor head 50 from which a protective cap for protecting the anchor head 50 is removed. And the lower end of the cylinder pedestal 90 with the lower portion thereof is closely attached to the pressure plate 30. [

A hydraulic cylinder 70 is mounted on the upper surface of the cylinder pedestal 90 to pull the pulling end of the tension bell 80 in a direction opposite to the paper surface 10 to move the anchor head 50, And the pressure plate 30 are separated from each other. At this time, the degree to which the anchor head 50 is pulled is adjusted in consideration of the degree of looseness of the free field 20.

When a space is formed between the anchor head 50 and the pressure plate 30 by the above-described process, a pair of re-tension plates 60 are installed in the space between the anchor head 50 and the pressure plate 30, The respective inner circumferential surfaces 64 of the re-tension plate 60 are provided so as to face each other and are installed so as not to interfere with the free space 20. [

At this time, since the size of the re-tension plate 60 is larger than the anchor head 50, the operator's hand is not positioned between the anchor head 50 and the pressure plate 30, have. That is, since the worker mounts the edge of the re-tension plate 60 having the diameter r1 larger than the anchor head 50 and is installed between the anchor head 50 and the support plate 30, It is possible to prevent a safety accident such as a pinching of a hand due to the fact that the finger is not positioned between the finger 50 and the finger pressure plate 30.

In addition, since the zinc plated layer 61 is formed on the surface of the re-tension plate 60, corrosion of the re-tension plate 60 can be prevented, and durability can be improved.

On the other hand, when the re-tension plate 60 is provided between the anchor head 50 and the pressure plate 30, the hydraulic cylinder 70 is operated to remove the load pulled by the anchor head 50, And the cylinder pedestal 90 and the tension bell 80 are sequentially removed.

The anchor re-tensioning operation is completed by this process.

4 and 5 are a perspective view and a cross-sectional view showing another embodiment of the re-tension plate shown in Fig. 2 in the accompanying drawings.

As shown in FIGS. 4 and 5, the re-tension plate 60 according to another embodiment is formed by joining together two or more re-tension plates 60 at the same position Except that the holes 62 are formed respectively and the coupling pieces 68 are inserted through the coupling holes 62, respectively.

At this time, it is preferable that the engaging holes 62 and the engaging pieces 68 are polygonal so that the respective re-tension plates 60 do not flow when the re-tension plates 60 are combined and integrated. If the engaging hole 62 and the engaging piece 68 are formed in a circular shape, each of the re-tension plates 60 may be rotated about the engaging piece 68, so that it is formed in a polygonal shape to prevent this.

On the other hand, the positions of the engaging holes 62 formed in the two retension plates 60 are set such that when the anchor head 50 is in close contact with the re-tension plate 60 and presses the re-tension plate 60, 50 of the anchor head 50 so as not to interfere with the anchor head 50. That is, as shown in FIG. 5, the anchor head 50 and the re-tension plate 60 are preferably formed in an area biased toward the outer edge so as not to interfere with the anchor head 50 when the anchor head 50 and the re-tension plate 60 are closely contacted.

In this way, when two or more tension plates 60 are stacked and installed, the engaging holes 62 are made to coincide with each other, and then the engaging pieces 68 are inserted into the engaging holes 62 to be engaged therewith, The tension plate 60 is integrated. Therefore, the problem that the respective re-tension plates 60 are not integrated and flows away from each other can be solved.

6 is a perspective view showing still another embodiment of the re-tension plate shown in Fig. 2. Fig.

6, the re-tensioning plate 60 according to another embodiment is provided with a knurling or attaching protrusion 66 for increasing the grip feeling when the operator applies the re-tensioning plate 60 to the outer circumferential surface The same as the above-described embodiments.

In this way, the knurling, particularly the attaching protrusions 66, are protrudingly formed on the outer peripheral surface of the re-tension plate 60 so that the operator can attach the re-tension plate 60 between the anchor head 50 and the pressure plate 30, It is possible to stably and efficiently perform an operation of installing or removing the re-tension plate 60 installed and installed. In other words, since the operator can hold each mounting projection 66 of both retension plates 60, the retension plates 60 can be removed and removed in a narrow space between the anchor head 50 and the support plates 30, The installation work can be easily performed.

As described above, the size of the re-tension plate 60 provided between the anchor head 50 and the pressure plate 30 is made larger than the size of the anchor head 50, Since the attaching protrusions 66 and the like are formed on the re-tension plate 60, the re-tensioning efficiency of the anchor can be improved and the safety accident of the worker can be prevented beforehand The occurrence rate of industrial accidents caused by safety accidents can be reduced to a minimum, and durability can be improved because corrosion is prevented by the zinc plated layer.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it should be understood that such modifications or alterations should not be understood individually from the technical spirit and viewpoint of the present invention, and that modified embodiments fall within the scope of the claims of the present invention.

10: Ground 20: free length
30: Plate 40: Wedge cone
50: anchor head 52, 64: inner peripheral surface
60: Re-tension plate 61: Zinc plated layer
62: engaging hole 66: mounting projection
68: Coupling piece 70: Hydraulic cylinder
80: Tension Bell 90: Cylinder Support

Claims (7)

The other end of the free field connected to the anchor body fixed to the ground is coupled to the anchor head through a wedge cone through a pivot plate provided on the surface of the ground and when the free length of the free field is re- The anchor re-tensioning device comprising:
Wherein the re-
A pair of semi-donut-shaped metal plates having a predetermined thickness so as to surround both sides of the free-length zone,
Characterized in that the diameter of the pair of reinforcement plates is larger than the diameter of the anchor head.
Anchor re-tensioning device. The method according to claim 1,
Wherein the diameter of the re-tension plate is 5 to 30% greater than the diameter of the anchor head with respect to the diameter of the anchor head, and the inner circumferential surface formed by the pair of retension plates is the same as the inner circumferential surface of the anchor head Wherein the first electrode
Anchor re-tensioning device. 3. The method according to claim 1 or 2,
In the re-tension plate,
Wherein when the two or more reinforcement plates are stacked, the engaging holes are formed at the same position so that they are combined with each other in a laminated direction, and the engaging pieces are inserted into the engaging holes through the engaging holes, respectively.
Anchor re-tensioning device. The method of claim 3,
Characterized in that the engaging hole and the engaging piece are formed in a polygonal shape.
Anchor re-tensioning device. The method of claim 3,
On the outer circumferential surface of the re-tension plate,
Characterized in that a knurling or mounting protrusions are formed for increasing the grip when the operator applies the re-tension plate.
Anchor re-tensioning device. The method of claim 3,
The coupling hole
Wherein the anchor head is formed on the re-tension plate at a position outside the diameter of the anchor head.
Anchor re-tensioning device. The method of claim 3,
Wherein the re-
Characterized in that hot-dip galvanizing is applied to prevent corrosion,
Anchor re-tensioning device.

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