KR20050031078A - Anchor-head to have non-fixed tractor - Google Patents

Abstract

An anchor head with a movable pulling unit is provided to assemble a tendon with the anchor head easily by linearly moving the movable pulling unit combined with a fixing unit, and to remove the tendon conveniently by moving the fixing unit backward and fastening the fixing unit with a snap ring. An anchor head comprises a cylinder(10) having a tendon insertion hole(110), a thread(120) formed outward and a tapered wedge installation hole(130), a cylinder cap(20) combined with the cylinder and composed of a fixing pin installation groove, a thread opposed to the thread of the cylinder and a snap ring fitting groove, a wedge(30) inserted to the wedge installation hole to fix a tendon and composed of an assembling sill, a pulling unit(40) having a wedge assembling groove(420) and an assembling pin combination groove(430) formed circumferentially, a fixing unit(50) having a snap ring installation groove(510), a fixing pin(520) and an assembling pin(530), a spring mounted between the pulling unit and the fixing unit to support the pulling unit, and a snap ring(60) mounted in the snap ring installation groove of the fixing unit and expanded or contacted.

Description

Anchor head with non-fixed tow {ANCHOR-HEAD TO HAVE NON-FIXED TRACTOR}

The present invention relates to an anchor system installed in civil engineering or building structure construction, and more particularly, to an anchor head of a tension member removal anchor system capable of removing a tension member.

       First, the construction method of the conventional anchor system is briefly described.

An anchor system is a fixing device installed in civil engineering or construction building construction and is installed to support the earth wall and to install the earth wall for the construction of underground structures or to prevent surrounding settlement during the excavation.

Anchor system as described above is used to drill the ground at a certain depth and inclination angle using the drilling equipment in the place where the purpose of installation, inserting the pre-assembled anchor system to the drilling in a certain length, ground and anchor through the grouting Secure the system. The grouting is fixed to the ground and the anchor system using a mortar or the like.

The tension member of the anchor system fixed to the ground is tensioned, and the earth wall or other equipment is connected to the tension member to fix the earth wall or other equipment to withstand the load.

Such anchor systems include a non-removable anchor system in which the tension member is buried in the ground and a tension member removable anchor system for removing the tension member.

In the case of the non-removable anchor system, there is a problem of infringement of property rights and pollution of the underground environment. Currently, all of the non-removable anchor system is constructed as a removable anchor system except for a non-removable anchor system.

Such a removable anchor system is most representative of the U-turn anchor system or a straight removable anchor system shown in FIG.

In the case of the U-turn anchor system, since the tension member is inserted into the perforator and is returned, it is difficult to remove the tension member, and a lot of equipment and manpower are mobilized, and the tension member is often not drawn out.

In order to overcome the problems of this U-turn anchor system, a straight-type removable anchor system is designed to fix one tension member to one anchor head (1) and to release the tension member in the anchor head (1) during drawing work. Even with the force of, it is easy to remove the tension member and has the advantage of high draw rate.

Therefore, the most important part of the straight removable anchor system has an internal structure that can be changed to the state of releasing the tension member in the state of restraining the tension member when attempting to remove the tension member with the anchor head (1).

Therefore, the mechanical reliability of the anchor system and the reliability of the anchor system itself depend on the shape and operating principle of the components constituting the anchor head 1.

However, the conventional straight removable anchor system has a problem in that its structure and operating principle are complicated, so that smooth operation cannot be made, and thus the mechanical reliability and the reliability of the anchor system itself are lowered.

The present invention is to improve the problems of the anchor head of the conventional straight removable anchor system as described above to simplify the operation principle according to the shape and form of the components constituting the anchor head to facilitate the coupling of the tension member to the anchor head and It is an object of the present invention to provide an anchor head of a straight removable anchor system capable of reliably releasing a tension member upon removal of a tensioned tension member.

In order to achieve the technical problem to be achieved by the present invention as described above, the present invention provides an anchor head of a straight removable anchor system,

The closing surface is formed on one side and the other side is open cylindrical shape, the center of the closing surface is formed with a tension member insertion hole 110 into which a tension member can be inserted, the screw thread 120 on the other end portion of the outer direction And a cylinder 10 having a tapered wedge mounting hole 130 continuous to the tension member insertion hole 110 therein;

One side is closed and the other side is open to form a cylindrical shape having an inner space with the cylinder 10 and the anchor head and the fixing pin mounting groove 210, and the open end of the cylinder ( A cylinder cap 20 which forms a screw thread 220 corresponding to the screw thread 120 of FIG. 10 and forms a snap ring engaging groove 230 close to one side of the inner space of the inner space in a circumferential direction;

A two-part or three-parted wedge 30 inserted into the wedge mounting hole 130 of the cylinder 10 to form a coupling jaw 310 on one side in a shape capable of fixing the tension member;

The wedge coupling groove 420 into which the coupling jaw 310 of the split wedge 30 is inserted into the outer diameter surface in a cylindrical shape having a through hole 410 through which a tension member penetrates to pull the divided wedge 30. Towing portion 40 formed in the circumferential direction of the coupling pin coupling groove 430 of the fixing portion 50;

A snap ring mounting groove 510 is formed in the circumferential direction on the outer diameter surface in the shape of a disc having a predetermined thickness, and two to four screws are vertically coupled to one side at the edge position of one side, and the end portion is the fixing pin mounting groove. Two to four screws are screwed at the same position in the center of the fixing pin 520 is formed in the jaw is inserted into the 210 and one side and the distal end portion is in the coupling pin coupling groove 420 of the towing portion 40 Fixing portion 50 consisting of a coupling pin 530 is formed that the jaw is inserted;

 A spring 55 mounted between the tow portion 40 and the fixing portion 50 to support the tow portion 40; And

And a snap ring 60 mounted on the snap ring mounting groove 510 of the fixing part 50 to contract and expand.

At this time, the cylinder cap 20 is circumferentially on the inner diameter surface of the inner space at a position separated by the length of the fixing pin 510 of the fixing part 50 in the other direction opened in the position where the snap ring insertion groove 230 is formed Fixing pin engaging groove 240 formed in the direction; It is preferable to further include.

Hereinafter, with reference to the accompanying drawings will be described in detail the anchor head having a non-fixed towing portion of the present invention.

 2 is a view for conceptually explaining the configuration of the anchor head having a non-fixed towing portion of the present invention. As shown in FIG. 2, the anchor head having the non-fixed traction part of the present invention forms a tension member insertion hole 110, forms a screw thread 120 in an outward direction, and forms a tapered wedge mounting hole 130. One cylinder 10; Forming a screw thread 220, the wedge 30; Tow portion 40 formed in the circumferential direction of the wedge coupling groove 420 and the coupling pin coupling groove 430; A snap ring mounting groove 510 and a fixing part 50 each having a fixing pin 520 and a coupling pin 530 formed thereon; A spring 55; And a snap ring 60.

The cylinder 10 is a tension member insertion hole that can be inserted into the end of the tension member 70 is coated with a synthetic resin coating 72 in the center of one side is closed and the other side is opened in a cylindrical shape having an internal space ( 110). Therefore, the tension member 70 is inserted into the anchor head through the tension member insertion hole 110.

In order to fix the inserted tension member 70, the inner space of the cylinder 10 forms a tapered wedge mounting hole 130 in series with the tension member insertion hole 110.

That is, the wedge mounting hole 130 has a tapered shape in which the inner diameter gradually increases from the tension member insertion hole 110 formed at one side to the other open portion. Therefore, the wedge 30 mounted in the wedge mounting hole 130 is compressed as it is inserted.

In addition, the other end portion of the open side has a screw thread (120). This is to form an appearance and the fixing pin mounting groove 210 by combining with the cylinder cap 20.

The cylinder cap 20 is closed on one side and the other side is open to form an outer shape of the anchor head and the fixing pin mounting groove 210 by combining with the cylinder 10 in a cylindrical shape having an inner space. Accordingly, the other end portion of the open side is formed with a threaded line 220 corresponding to the threaded line 120 of the cylinder 10 to engage with the cylinder 10, the inner ring surface snap ring engaging the snap ring 60 is caught The groove 230 is formed. Therefore, when the snap ring 60 is inserted into the snap ring engaging groove 230 by using the fixing part 50 to which the snap ring 60 is mounted at a predetermined position, the fixing part 50 is fixed at the position. do.

The wedge 30 is inserted into the wedge mounting hole 130 of the cylinder 10 to bite the tension member 70 and is coupled to the tension member 70 inserted through the tension member insertion hole 110.

At this time, the wedge 30 is divided into 2 to 3 divided to allow the tension member 70 to be restrained and released, and has a coupling jaw 310 for engaging with the traction unit 40 on one side.

The traction unit 40 is a cylindrical shape having a through hole 410 through which the tension member 70 penetrates to pull the divided wedge 30. The engaging jaw 310 of the split wedge 30 is formed on an outer diameter surface thereof. ) Is formed in the circumferential direction of the coupling pin coupling groove 430 of the wedge coupling groove 420 and the fixing portion 50 is inserted. That is, the traction part 40 is a characteristic component of the present invention, the shape of which is coupled to the wedge 30 and the fixing part 50 in a cylindrical shape having a through hole 410 through which the tension member 70 penetrates, respectively. In order to form the wedge coupling groove 420 and the coupling pin coupling groove 430 in the circumferential direction on the outer diameter surface. Therefore, the wedge 30 is connected to the fixed portion 50 by the towing portion (40).

The fixing part 50 is a disk shape having a predetermined thickness to form a snap ring mounting groove 510 in the circumferential direction on the outer diameter surface, two to four are vertically coupled to one side at the edge position of one side and the distal end portion The fixing pin 520 is inserted into the fixing pin mounting groove 210 and the two to four in the same position in the center of the fixing pin 520 and one side of the inner side of the coupling is coupled to the coupling pin of the traction part 40 The jaw is inserted into the groove 420 is made of a coupling pin 530 is formed. In this case, the fixing pins 520 and the coupling pins 530 may be two to four, but each of four is preferably coupled. In addition, the screwing method is preferably screwed but is not necessarily limited thereto. In addition, since the fixing pin 520 requires elasticity, it is preferable to use a metal material having synthetic resin or bending property.

The fixing part 50 serves to be fixed at a specific position when the tension member 70 is mounted and separated. In more detail, when the tension member 70 and the anchor head are coupled to each other, and when the tension member is coupled to the anchor head, the fixing unit 50 is a fixing pin formed by the combination of the cylinder 10 and the cylinder cap 20. A plurality of coupling pins 520 are inserted into the mounting groove 210 to maintain a fixed state.

In addition, when removing the tension member 70 is moved to the inner space of the cylinder cap 20 is coupled to the snap ring engaging groove 230 by the snap ring 60 to maintain a fixed state. It will be described in detail in the drawings.

The spring 55 is mounted between the tow portion 40 and the fixing portion 50 so that the unfixed tow portion 40 is coupled with the tension member 70 and then the wedge 30 moves by the tow portion 40. ) To prevent it from happening. That is, in order to prevent the tension member 70 bitten by the wedge 30 from being pulled out by the movement of the wedge 30, the pull unit 40 coupled with the wedge 30 is supported by a predetermined force. Therefore, after the tension member 70 is coupled to the anchor head, the tension member 70 is prevented from being separated from the anchor head due to external impact or other reasons before tensioning the tension member 70.

The snap ring 60 has a donut shape in which a predetermined section is cut and is elastic and contracts and expands. The snap ring 60 is inserted into the snap ring mounting groove 510 of the fixing part 50 and is caught by the snap ring of the cylinder cap 20. Is inserted into the groove 230 serves to fix the fixing portion 50 in that position.

Figure 3 is a view for explaining in detail the important components of the anchor head having a non-fixed towing portion of the present invention. 3 is shown in detail as an example of an important component of the anchor head according to the present invention divided wedge as shown in the inner space formed by the combination of the cylinder 10 and the cylinder cap 20 ( 30), the towing portion 40, the fixing portion 50, the spring 55 and the snap ring 60 is mounted.

The divided wedge 30 illustrates a three-pieced wedge 30, and the coupling jaw 310 inserted into the wedge coupling groove 420 of the towing unit 30 as illustrated in detail in the operation of the wedge 30. Is formed. Therefore, the wedge 30 is inserted into the wedge coupling groove 420 of the towing unit 30 is collected or unfolded.

The tow portion 40 has a cylindrical shape, a through hole 410 through which a tension member penetrates is formed in the center, and a wedge coupling groove 420 into which the coupling jaw 310 of the wedge 30 is inserted in the outer diameter surface thereof. A coupling pin coupling groove 430 into which the coupling pin 530 of the fixing part 50 is inserted is formed.

Therefore, the towing portion 40 connects the fixed portion 50 and the divided wedge 30 as shown.

The fixing part 50 is formed in a disc shape having a predetermined thickness as shown by cutting to form a snap ring mounting groove 510 into which the snap ring 60 is inserted in the outer diameter surface and a plurality of fixing pins 520 on one side thereof. And a coupling pin 530.

At this time, the fixing pin 520 is screwed to the outermost, so that the jaw formed on the fixing pin 520 is facing outward. In addition, the coupling pin 530 is screwed into the inside to be coupled to the traction unit 40, so that the jaw formed on the coupling pin 530 is directed inward.

As shown in the drawing, the spring 55 is mounted in the space between the towing unit 40 and the fixing unit 40. In other words, it is mounted in contact with the upper surface of the towing portion 40 and the lower surface of the fixing portion 50. Therefore, the towing unit 40 allows movement only when a predetermined force, that is, a force greater than the supporting force of the spring 55, is applied to the fixing unit 50. Therefore, the state is maintained as shown in the state that the external force is not applied.

The snap ring 60 has a donut shape in which a predetermined section is cut as shown. Such a snap ring 60 is mounted on the snap ring mounting groove 510 of the fixing part 50 and compressed by the inner wall of the cylinder cap 20, or is expanded and inserted into the snap ring locking groove 230.

Hereinafter, the coupling process of the anchor head and the tension member will be described, and in FIG. 5, the separation process of the tension member from the anchor head will be described.

Figure 4 is a view for explaining the coupling of the tension member in the assembled state of the anchor head having a non-fixed towing portion of the present invention. Figure 4 (a) shows the interior of the anchor head in the state before the tension member 70 is coupled to the anchor head fixing part 50 is a state in which the fixing pin 520 is caught in the fixing pin mounting groove 210 Sticking to the position, the towing portion 40 coupled thereto is coupled to the wedge 30 to be advanced by the spring 55.

In this state, as shown in Figure 4 (b) when the tension member 70 is inserted into the anchor head through the tension member insertion hole 110, the wedge 30 by the force for inserting the tension member 70. ) Is retracted, and thus the towing portion 40 retreats and compresses the spring 55. Then, when the force to insert the tension member 70 disappears, the compressed spring 55 is restored to the elastic state is in the state shown in Figure 4 (c). That is, the tension member 70 and the wedge 30 are maintained by the elastic force of the spring 55. Therefore, the tension member 70 maintains the state coupled to the anchor head with a predetermined force. Eventually, once the tension member 70 is bonded, the state of the fixed portion 50 is maintained continuously until there is a change.

As described in the drawings, the anchor head according to the present invention may be coupled to the tension member 70 in a state in which the assembly of the anchor head is completed by the non-fixed shoulder part 40 and the fixed fixing part 50. The bonded tension member 70 is not loosened except when the tension member 70 is removed after tensioning.

5 is a view for explaining the operating state inside the anchor head according to the removal process of the tension member of the anchor head having a non-fixed towing portion of the present invention. 5 is a view for explaining a process of removing the tension member of the anchor head according to the present invention, Figure 5 (a) is one end of the tension member 70 is coupled to the anchor head (1), the other end is fixed Conceptually showing the state fixed by the means (2) by inserting the anchor head (1) combined with the tension member 70 in the perforations formed in the earth wall, etc. and injecting the mortar or the like to fix the tension member 70 The other end of the tension member 70 is fixed by the fixing means 2 in a state in which a predetermined tension is applied by tension.

When the anchor head 1 is installed as described above, the wedge 30 fixes one end of the tension member 70 with a greater force by the tension applied to the tension member 70 as shown in FIG. 5 (b).

In this state, the removal of the tension member 70 begins with the removal of the fastening means 2. That is, when the fixing means 2 holding the other end of the tension member 70 is removed, a reaction force is formed by the tension applied to the tension member 70. Such reaction force is shown in FIG. As shown in the arrow direction. Such a repulsion force retracts the fixing part 50 in the anchor head, and the fixing pin 520 is removed from the fixing pin mounting groove 210 by the retraction of the fixing part 50. Therefore, the retracting unit 40 coupled with the fixed unit 50 also retreats together, and eventually pulls out the wedge 30 holding the tension member 70 by the retracting unit 40.

Therefore, the fixing part 50 retreating by the repulsive force of the tension member 70 draws the wedge 30 from the wedge mounting groove 130.

The retracted fixing part 50 is thus retracted to the position where the snap ring locking groove 230 of the cylinder cap 20 is formed, as shown in FIG. 5 (d), and is mounted in the snap ring mounting groove 510 and the cylinder cap ( The snap ring 60 compressed by the inner wall of 20 is inserted into the snap ring locking groove 230 while the fixing portion 50 is fixed at the position. As a result, the tow portion 40 and the wedge 30 are fixed by the fixing portion 50. As a result, it is possible to prevent the reinsertion of the wedge 30 from the wedge mounting groove 130 so that the tension member 70 can be separated from the anchor head as shown in FIG.

Figure 6 is a view for explaining that the fixing pin engaging groove is formed in the cylinder cap of the anchor head having a non-fixed towing portion of the present invention. The shape of the cylinder cap 20 shown in FIG. 6 is intended to assist the fixing of the fixing part 50 when the fixing part 50 is retracted by the repulsive force and fixed by the snap ring 60. As described above, when the snap ring 60 is inserted into the snap ring locking groove 230, the fixing pin locking groove 240 is formed in the circumferential direction of the inner diameter surface at the position where the jaw of the fixing pin 520 is formed.

Therefore, the position of the fixing part 50 is fixed by the snap ring 60 and the fixing pin 520.

 As described above, the present invention can directly couple the tension member to the anchor head in an assembled state including an unfixed towing portion and a fixed portion of the anchor head, and can maintain such a coupled state for easy operation and storage. There is one effect. In addition, the tension member can be reliably released when the tension member is removed, thereby increasing the overall mechanical reliability of the anchor system including the anchor head.

Although the present invention described above has been described in detail only with respect to the specific examples described, it will be apparent to those skilled in the art that various modifications and changes are possible within the technical scope of the present invention, and such modifications and modifications belong to the appended claims. .

1 is a view for explaining a conventional removable anchor system.

Figure 2 is a view for conceptually explaining the configuration of the anchor head having a non-fixed towing portion of the present invention.

Figure 3 is a view for explaining in detail the important components of the anchor head having a non-fixed towing portion of the present invention.

Figure 4 is a view for explaining the coupling of the tension member in the assembled state of the anchor head having a non-fixed towing portion of the present invention.

Figure 5 is a view for explaining the operating state inside the anchor head according to the removal process of the tension member of the anchor head having a non-fixed towing portion of the present invention.

Figure 6 is a view for explaining that the fixing pin engaging groove is formed in the cylinder cap of the anchor head having a non-fixed towing portion of the present invention.

*** Explanation of the reference numerals for the main parts of the drawings ***

1: anchor head 10: cylinder

20: cylinder cap 30: wedge

40: towing portion 50: fixing portion

60: snap ring 70: tension member

72: synthetic resin coating 110: tension material insertion hole

120: thread 130: wedge mounting hole

210: fixing pin mounting groove 220: screw wire

230: snap ring locking groove 240: fixing pin locking groove

310: coupling jaw 410: through hole

420: wedge coupling groove 430: coupling pin coupling groove

510: snap ring mounting groove 520: fixing pin

530: coupling pin

Claims (2)

In the anchor head of the straight removable anchor system, The closing surface is formed on one side and the other side is open cylindrical shape, the center of the closing surface is formed with a tension member insertion hole 110 into which a tension member can be inserted, the screw thread 120 on the other end portion of the outer direction And a cylinder 10 having a tapered wedge mounting hole 130 continuous to the tension member insertion hole 110 therein; One side is closed and the other side is open to form a cylindrical shape having an inner space with the cylinder 10 and the anchor head and the fixing pin mounting groove 210, and the open end of the cylinder ( A cylinder cap 20 which forms a screw thread 220 corresponding to the screw thread 120 of FIG. 10 and forms a snap ring engaging groove 230 close to one side of the inner space of the inner space in a circumferential direction; A two-part or three-parted wedge 30 inserted into the wedge mounting hole 130 of the cylinder 10 to form a coupling jaw 310 on one side in a shape capable of fixing the tension member; The wedge coupling groove 420 into which the coupling jaw 310 of the split wedge 30 is inserted into the outer diameter surface in a cylindrical shape having a through hole 410 through which a tension member penetrates to pull the divided wedge 30. Towing portion 40 formed in the circumferential direction of the coupling pin coupling groove 430 of the fixing portion 50; A snap ring mounting groove 510 is formed in the circumferential direction on the outer diameter surface in the shape of a disk having a predetermined thickness, and two to four pieces are vertically coupled to one side at an edge position of one side, and the fixed pin mounting groove ( 2 to 4 are coupled to the same position in the center of the fixing pin 520 and the one side is formed in the jaw is inserted into the 210 and the distal end is inserted into the coupling pin coupling groove 420 of the towing portion 40 Fixing portion 50 consisting of a coupling pin 530 formed with a jaw; A spring 55 mounted between the tow portion 40 and the fixing portion 50 to support the tow portion 40; And Anchor head having a non-fixed towing portion, characterized in that consisting of; snap ring (60) mounted on the snap ring mounting groove (510) of the fixing portion (50) to contract and expand. The method of claim 1, wherein the cylinder cap 20 Fixing pin engaging grooves formed in the circumferential direction on the inner diameter surface of the inner space at a position spaced apart by the length of the fixing pin 510 of the fixing part 50 in the other direction opened at the position where the snap ring insertion groove 230 is formed ( 240); anchor head having a non-fixed tow, characterized in that it further comprises.