KR200482333Y1 - Apparatus for Anchoring Strand - Google Patents

Abstract

In the present invention, when filling a torsion box with a corrosion inhibitor for preventing corrosion of a torsion material, a tensioning device is used to tense the torsion material to press the outer circumference of the torsion material through the torsion bar, And a sealing structure capable of preventing the leakage of the corrosion inhibitor into the outer peripheral gaps of the tension member fixing device is automatically formed.

Description

[0001] The present invention relates to an apparatus for fixing an anticorrosion agent,

The present invention relates to an apparatus for fixing a tension member, and more particularly, to an apparatus for fixing a tension member, in which a corrosion inhibitor for preventing corrosion of the tension member is filled in a stuffing box provided in the apparatus for fixing the tension member, And a sealing structure capable of preventing the leakage of the corrosion inhibitor from the outer circumference of the tensile material by pressing the outer circumference of the tensile material at a portion through which the tensile material automatically passes.

A plurality of tension members passing through the concrete member are fixed using a fixing device. In a conventional fixing device, a stuffing box in the form of a tubular member, which is generally hollow, is provided with a closing member through which a tension member passes And the other end of the stuffing box is provided with a fixing block to which the tension member is fixed so that the tension member passes through the closing member and then passes through the stuffing box to fix the outer end of the tension member in the fixing block have.

At this time, it is very important to prevent corrosion on the exposed portion of the tension member because the outer end of the tension member fixed to the fixing block and the tension member portion existing in the stuffing box are exposed as they are . Particularly, since the tension member penetrates through the through hole of the closing member provided at one end of the stuffing box, it is important to prevent the water from passing through the gap between the through hole of the closing member and the outer circumferential surface of the tension member and flowing into the stuffing box . If necessary, the stuffing box may be filled with a corrosion inhibitor made of a fluid such as wax or oil. In this case, in addition to preventing water from flowing into the gap between the through hole of the closing member and the outer circumferential surface of the tension member, It is very important to effectively prevent the corrosion inhibitor filled in the through hole of the closing member from being lost to the gap between the through hole and the outer peripheral surface of the tensile member.

Korean Patent Laid-Open Publication No. 10-2014-87310 discloses a waterproof member provided adjacent to a closing member in an inner space of a stuffing box and made of an inflatable member whose volume expands upon contact with water, and when the waterproof member is in contact with water, Thereby preventing water from flowing into the stuffing box. However, this prior art has a limitation in that it is impossible to verify the effect of water inflow due to the expansion of the watertight member, and further, there is a limitation that it is not possible at all to prevent the leakage of the corrosion inhibitor filled in the stuffing box.

Korean Patent Laid-Open Publication No. 10-2014-0087310 (published Apr.

The present invention has been developed in order to overcome the limitations of the prior art as described above and it is an object of the present invention to provide a fixing apparatus for a tension member which has a good sealing structure formed between a through hole of a closing member provided at one end of a stuffing box and an outer circumferential surface of a tensile member, When the stuffing box is filled with a corrosion inhibitor made of a fluid, it is possible to effectively prevent the corrosion inhibitor from being lost to the gap between the through hole of the closing member and the outer circumferential surface of the tension member And an object of the present invention is to provide a tension member fixing device.

In particular, in the present invention, it is ensured that the formation of a good sealing structure between the through hole of the closing member and the outer circumferential surface of the tension member is ensured, and furthermore, such a sealing structure prevents the tension member from being tensed And a tension member fixing device for automatically forming the tension member in a process of introducing a tension force into the tension member.

In order to achieve the above object, according to the present invention, there is provided a stapling machine comprising: a tubular stuffing box having longitudinally opened opposite ends; a fixing block installed at an outer end of the stuffing box to fix an outer end of the tensile member; And a watertight closing member provided at an inner end of the stuffing box to tightly close the inner end of the stuffing box; The watertight finishing member has a structure in which a first guide disk in the longitudinal direction, an elastic disk of elastic material compressively deformed when the compression force is applied, and a second guide disk are sequentially stacked; A through hole is formed through both the first guide disk, the elastic disk and the second guide disk; The watertight closing member is fitted tightly at the inner end of the stuffing box so that the inner surface facing the concrete member projects inward from the inner end of the stuffing box; The inner side of the watertight finishing member is brought into close contact with the concrete member, the tension member passes through the through hole of the watertight finishing member, passes through the inside of the stuffing box, passes through the fixation through hole of the fixing block, The elastic disk is compressed and deformed to urge the outer circumferential surface of the tension member in the through hole so that the elastic disk and the tension member are tightly sealed.

In the present invention, an excellent watertight structure is formed between the elastic disk provided on the watertight closing member and the tension member passing therethrough in the process of introducing a tension force into the tension member, thereby preventing water from flowing into the stuffing box, It is possible to effectively prevent the corrosion inhibitor from being lost to the gap between the through hole of the watertight closing member and the outer circumferential surface of the tensile member. In particular, However, it has an advantage that it is automatically performed in the process of introducing the tension to the tension member by using the tension device.

In this way, in the present invention, a very good watertight structure is formed between the elastic disk and the tension member without any additional work or artificial operation, and an excellent action effect is exhibited, thereby improving the efficiency of the tension member fixing operation .

FIG. 1 is a schematic perspective view showing a state in which a tension member fixing device according to the present invention is closely attached to a concrete member to fix a tension member passed through a concrete member by tension.
Figure 2 is a schematic lateral cross-sectional view along line AA of Figure 1;
3 to 6 are schematic cross-sectional views along line AA of FIG. 1 sequentially showing the process of tightly fixing a tension member using the tension member fixing apparatus according to the present invention.
FIG. 7 is a schematic enlarged view of the circle B portion of FIG. 3 showing the watertight structure between the elastic disk and the tension member due to the compressive force acting in the inward direction on the watertight closing member in the tension member fixing device of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its core structure and operation are not limited by this embodiment. For the sake of reference, the direction in which the elongated member extends in this specification is referred to as "longitudinal direction ". &Quot; inside "or" inside direction " refers to a direction toward the concrete member in the longitudinal direction on the basis of the tension member fixing device of the present invention, and " That is, it means a direction opposite to the inside direction.

1, the tension member fixing device 100 according to the present invention is installed in close contact with the outer surface of the concrete member 200 in order to tension and fix the tension member S passing through the concrete member 200 or disposed in the concrete member 200 A schematic perspective view showing a state is shown, and Fig. 2 shows a schematic lateral cross sectional view along line AA of Fig.

As shown in the figure, the tension device fixing device 100 according to the present invention includes a tubular stuffing box 1 having both longitudinal ends opened, and a stuffing box 1 at the outer end of the stuffing box 1 A fixing block 2 installed to fix the outer end of the stuffing box S and a fixing block 2 installed at the inner end of the stuffing box 1 while allowing the tension member S to pass therethrough, And a watertight finishing member 3 which closes tightly.

Specifically, the stuffing box 1 is a tubular member having both longitudinal ends open, and the tension member S passes through the stuffing box 1. The fixing block 2 is closely attached to the open end of the stuffing box 1. The fixing block 2 has a fixing through hole through which the outer end of the tension member S passes. Therefore, the outer end of the tension member (S) which has passed through the inside of the stuffing box (1) is protruded out of the outer surface of the fixing block (2) through the fixing through hole. The outer periphery of the tension member S is fitted to the fixing through hole while the wedge 21 is wrapped around the outer periphery of the tension member S projected out of the fixing block 2, (2).

A watertight closing member 3 is provided at an inner end portion corresponding to another opened end of the stuffing box 1 to close the inner end of the stuffing box 1 in a watertight state to the outside. For this purpose, the watertight closing member 3 is fitted in the stuffing box 1 at the inner end of the stuffing box 1. That is, the watertight closing member 3 is fitted in the inner end portion of the stuffing box 1 in a tightly closed state so that a part of the edge of the watertight closing member 3 is in close contact with the inner space wall surface of the stuffing box 1.

In the present invention, the watertight closure member 3 has a first guide disk 30, an elastic disk 31 and a second guide disk 32 sequentially stacked in the longitudinal direction from the inner side to the outer side . The first guide disc 30 and the second guide disc 32 are members made of a rigid body having a predetermined thickness in the longitudinal direction and hardly deforming. The elastic disk 31 sandwiched between the elastic members 32 is made of elastic material such as rubber, synthetic resin, or the like which is compressed and deformed when a compressive force is applied thereto. Of course, the elastic disk 31 also has a predetermined thickness in the longitudinal direction.

The watertight closing member 3 having the first guide disk 30, the elastic disk 31 and the second guide disk 32 stacked in the longitudinal direction is provided with a watertight closing member 3 in the longitudinal direction And a through hole is formed so as to penetrate. That is, a through hole penetrating both the first guide disk 30, the elastic disk 31, and the second guide disk 32 is formed. A plurality of the tension members S disposed in the concrete member are passed through the through holes of the watertight closing member 3 and then passed through the through holes of the stuffing box 1 Passes through the inner space and is fixed at its outer end in the fixing block (2). In the embodiment illustrated in the figures, an unbonded tendon in which the sheath is present as a tension member S is illustrated, in which case the tension member S passes through the watertight closing member 3, The portion of the tensile material S in which the coating remains is sandwiched by the watertight closing member 3. When the tension member S is made of an untreated tread, only the steel material from which the outer coating is removed in the tension member S passes through the fixing block 2. [ However, the tension member S to be tension-fixed by the tension member fixing device 100 according to the present invention is not limited to the above-described unbonded tension member, and the tension member 100, As shown in FIG.

As described above, the tension member S passes through the watertight closing member 3, whereby there may be a fine gap between the outer circumferential surface of the tension member S and the through hole of the watertight closing member 3. However, The watertight closure member 3 has a sequential lamination structure of the first guide disc 30, the elastic disc 31 and the second guide disc 32 as described above, The elastic deformation of the elastic disk 31 during the tensioning process effectively seals the gap between the outer circumferential surface of the tension member S and the through hole of the watertight closing member 3, And has excellent watertightness.

In the embodiment shown in the drawings, the watertight closure member 3 has a configuration in which one elastic disk 31 is disposed between two guide disks, but it includes three or more guide disks, The watertight closing member 3 may be formed in a shape having a plurality of guide discs and a plurality of elastic discs. The longitudinal cross section of the stuffing box 1 can be circular, in which case the watertight closing member 3 is also configured in the form of a circular disc.

 3 to 6, the water-tight performance of the watertight closure member 3 in a state where the tension member S is passing through will be described.

3 to 6 are schematic cross-sectional views taken along the line A-A of FIG. 1, which sequentially show the process of tension-fixing the tension member S using the tension member fixing apparatus 100 according to the present invention.

In order to fix the tension member S passing through the concrete member 200 or disposed inside the concrete member 200 by using the tension member fixing device 100 according to the present invention, The tension member fixing device 100 is installed so that the inner surface of the member 3 is in close contact with the concrete member 200. [ At this time, the plurality of tension members S pass through the water tight closing member 3 and then pass through the inside of the stuffing box 1 and pass through the fixing through-hole of the fixing block 2. In the present invention, when the watertight closing member 3 is inserted into the inner end of the stuffing box 1, the watertight closing member 3 projects further inward than the inner end of the stuffing box 1. That is, only a part of the thickness of the outer side surface of the watertight closing member 3 formed in a disc shape is fitted into the stuffing box 1, and the inner side surface of the watertight closing member 3 is an inner side of the stuffing box 1 And protrudes inward from the end portion.

Therefore, when the tension member fixing device 100 according to the present invention is installed in close contact with the concrete member 200, only the inner side of the watertight closing member 3 is brought into close contact with the concrete member 200, So that the inner end portion does not contact the concrete member 200. That is, there is a predetermined distance in the longitudinal direction between the outer surface of the concrete member 200 and the inner end of the stuffing box 1. The interval between the outer surface of the concrete member 200 and the inner end of the stuffing box 1 is such that the watertight closing member 3 protrudes toward the concrete member 200 more than the inner end of the stuffing box 1 It corresponds to height.

4, a tension device 300 is provided to hold the outer end of the tension member S projecting further than the outer surface of the fixing block 2, and the tension device 300 is tensioned S in the outward direction, thereby introducing a tensile force into the tension member S. As described above, in the process of pulling out the tension member S in the outward direction, a strong compressive force acts in the inward direction in the tension member fixing apparatus 100 of the present invention. Specifically, a reaction force generated when the tension device 300 composed of a jack device or the like pulls the tension member S outward is applied to the fixing block 2 in the form of a compressive force, and this compressive force is applied to the stuffing box 1 And is applied to the watertight closing member 3 through the watertight closing member 3 to act as a force to push the watertight closing member 3 in the direction of the concrete member 200. That is, as the stuffing box 1 is pushed inward by the compressive force, the watertight closing member 3 is pressed toward the concrete member 200.

In the present invention, the watertight closure member 3 has a laminated structure of the first guide disk 30, the elastic disk 31 and the second guide disk 32. The elastic disk 31 is made of a synthetic resin, A gap is present between the outer surface of the concrete member 200 and the inner end of the stuffing box 1. When the compression force is applied in the inner direction as described above, 200 and the inner end of the stuffing box 1, the stuffing box 1 is displaced inward and at the same time the elastic disk 31 is compressively deformed. The compression deformation of the elastic disk 31 is also expressed in the form of decreasing the diameter of the through hole formed in the elastic disk 31. Since the tension material S is inserted into the through hole of the elastic disk 31 while penetrating , The elastic disk 31 strongly presses the outer circumferential surface of the tension member S by the compression deformation of the elastic disk 31 in the form in which the through hole is reduced as described above. Therefore, a very good watertight structure is formed between the elastic disk 31 and the tension member S in a state where the tension member S is inserted into the passage hole of the elastic disk 31. [ In other words, the compressive deformation of the elastic disk 31 which causes the diameter of the through hole to be narrowed occurs, so that the elastic deformation of the through hole formed in the elastic disk 31 of the watertight closure member 3 and the outer circumferential surface of the tension member S All the gaps that have been left are eliminated and a very strong closed-cell structure is formed between the passage hole of the elastic disk 31 and the outer circumferential surface of the tension member S.

The watertight closing member 3 is inserted in the watertight state at the inward end portion of the stuffing box 1 so that a strong closed space structure is formed between the through hole of the elastic disk 31 and the outer circumferential surface of the tension member S Water can not flow from the outside into the stuffing box 1 at the inner end of the stuffing box 1 and the fluid that has been filled in the stuffing box 1 can be discharged through the inner end of the stuffing box 1 to the outside A very good watertight state can be created, which can not be discharged to the outside.

7 is a view showing that a watertight structure is formed between the elastic disk 31 and the tension member S due to the compressive force acting in the inward direction with respect to the watertight closing member 3 as described above. (a) shows a schematic enlarged view of the circle B portion of Fig. 3 showing a state in which the tension member S has not yet been pulled out so that no tension is applied, Fig. 7 (b) 4 is a schematic enlarged view of the circle C portion of FIG. 4 showing a state in which the elastic disk 31 is compressed and deformed by being pulled outward to introduce a tensile force into the tension member S. FIG. 7, when the tension member S is pulled outward and the compressive force is applied to the watertight closure member 3, the elastic disk 31 is compressed and deformed so that the passage hole of the elastic disk 31 is reduced, (31) tightly presses the outer circumferential surface of the tension member (S), thereby forming a very excellent watertight structure between the elastic disc (31) and the tension member (S).

Above all, in the present invention, a very good watertight structure is formed between the elastic disk 31 and the tension member S, as described above, is not a separate artificial operation, but a tension member Is introduced automatically. That is, in the present invention, a very good watertight structure is formed between the elastic disk 31 and the tension member S without any additional operation or artificial operation, thereby improving the efficiency of the tension member fixing operation.

Also, in the present invention, since the watertight structure is formed by the physical and mechanical process of compressive deformation of the elastic disk 31, that is, compressive deformation of the elastic disk generated in the coupling hole and pressing of the outer circumferential surface of the elastic material S, This has the advantage of having certainty that this process will always happen.

5 and 6, a tension force is introduced into the tension member S by the tension device 300 and a compressive strain is induced in the elastic disk 31 to cause the elastic disk 31 and the tension member S The wedge 21 is inserted into the tension member S projecting outward from the outer surface of the fixing block 2 so that the wedge 21 is fitted into the fixing through hole so that the outer side of the tension member S Thereby fixing the end portion to the fixing block 2.

5 and 6, the outer end of the tension member S protruding out of the outer surface of the fixing block 2 and the outer end of the fixing block 2, as shown in FIG. 5 and FIG. 6, The watertight cap 4 may be watertightly attached to the outer end of the stuffing box 1 so that the inner space of the watertight cap 4 is filled with a corrosion inhibitor 50 such as wax or oil. The corrosion inhibitor 50 may be introduced into the inner space of the stuffing box 1 or may be inserted into the inner space of the stuffing box 1 by a separate injection operation in the process of filling the inner space of the watertight lid 4 with the corrosion inhibitor 50, The space can be filled with the corrosion inhibitor 50 such as oil or wax. As described above, the watertight closing member 3 is tightly coupled to the inner end of the stuffing box 1, A strong watertight state is maintained by the compressive deformation of the elastic disk 31. Therefore, the corrosion inhibitor 50 filled in the inner space of the stuffing box 1 is preserved in a non-lost state. Therefore, the continuous presence and maintenance of the corrosion inhibitor 50 can effectively and stably prevent the corrosion of the tension member S during the entire use period of the tension member S, and a separate operation such as additional injection of the corrosion inhibitor It becomes unnecessary to increase the efficiency of maintenance.

1: stuffing box
2: Settling block
3: watertight finishing member
21: Wedge
30: first guide disc
31: elastic disc
32: second guide disk
100: Tensile fixing device
200: Concrete member
300: tension device
S: Tension material

Claims (1)

A stuffing box 1 having a tubular shape with both ends opened in the longitudinal direction and a fixing block 2 provided at the outer end of the stuffing box 1 and fixing the outer end of the tension member S, , And a watertight closing member (3) installed at the inner end of the stuffing box (1) facing the concrete member (200) and tightly closing the inner end of the stuffing box (1);
The watertight closing member 3 has a structure in which a first guide disk 30 is longitudinally stacked and an elastic disk 31 and a second guide disk 32 are compression-deformed when a compressive force is applied, Having;
A through hole is formed through both the first guide disk 30, the elastic disk 31, and the second guide disk 32;
The watertight closing member 3 is fitted tightly at the inner end of the stuffing box 1 so that the inner surface facing the concrete member 200 protrudes inward from the inner end of the stuffing box 1, Between the outer surface of the stuffing box 1 and the inner end of the stuffing box 1 is a gap corresponding to a height at which the watertight closing member 3 projects inward in the longitudinal direction;
The inner surface of the watertight finishing member 3 comes into close contact with the concrete member 200 and the tension member S passes through the through hole of the watertight closing member 3 and then passes through the inside of the stuffing box 1 and passes through the fixing block 2 Through the fixation through hole of the concrete member 200 and then tensed and pulled outward to be away from the concrete member 200 by being tied to the tension device 300, the reaction force generated by the tension acts as a compressive force acting in the longitudinal direction And the compression force applied to the fixing block 2 pushes the stuffing box 1 inwardly so that the stuffing box 1 is pushed toward the inside so that the watertight closing member 3 Is pressed in the direction of the concrete member 200 so that the elastic disk 31 existing between the first guide disk 30 and the second guide disk 32 in the watertight closure member 3 is compressed and deformed, (Not shown) formed in the through hole 31, Wherein the elastic disk (31) presses the outer circumferential surface of the tension member (S) inserted through the through hole, and the elastic disk (31) and the tension member (S) are watertight.

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