KR102355734B1 - External Tensioning System of Bridge Structures - Google Patents

Abstract

The present invention relates to an external tensioning device for a girder of a bridge structure. More specifically, the external tensioning device includes: anchoring brackets provided in both end parts of a girder; a saddle system located in a center part of the girder, and projected from a lower side of the girder; and a steel wire anchored in an anchorage unit of the anchoring brackets and supported by the saddle system. In accordance with the present invention, the external tensioning device for a girder of a bridge structure is applied to quickly restore a tensioning force change of the external tensioning device caused by the sagging and deformation of a girder under loading, thereby maintaining the tensioning force of the girder to enable the bridge to maintain the stability of the bridge by itself. In particular, tensioning force adjustment is performed through the saddle system and the elastic member to enable more precise tensioning force adjustment, and also, the steel wire can have a small deviation in contraction and relaxation, and can be restored without being held, which can lead to convenience and excellent economic feasibility.

Description

{External Tensioning System of Bridge Structures}

The present invention relates to a girder external tensioning device of a bridge structure.

Patent Document 001 relates to a method and apparatus for reinforcing an external tension material of a bridge beam using a multi-step anchoring device in which the anchoring end for fixing the external tension material is configured in multiple stages when the load-bearing force of the bridge beam is enhanced by using the external tension force introduction method. A method for reinforcing an external tension member of a bridge beam according to the present invention comprises: a first step of installing a pair of end fixing devices at both ends of a mold of a bridge; a second step of installing a pair of intermediate fixing devices between the end fixing devices; a third step of installing a plurality of tension members passing through the end fixing device and the intermediate fixing device on the lower side of the mold and both sides of the lower side of the bridge, respectively; a fourth step of tensioning some of the tension members to fix each end to the end fixing device, respectively, and tensioning the remaining tension members to the intermediate fixing device; and a fifth step of covering the end fixing device, the intermediate fixing device, and the plurality of tension members with the case. The external tension material reinforcement device of the bridge beam according to the present invention comprises: a pair of end fixing devices formed on the lower side of both ends of the bridge and the lower side of both sides of the bridge; a pair of intermediate anchoring devices formed below two points in the middle of the mold of the bridge and on both sides of the bridge positioned between the end anchoring devices; a plurality of tension members fixed to the end fixing device in a tension state or fixed to the intermediate fixing device in a tension state; It is characterized in that it is composed of a protective case installed and fixed to the lower side of the mold and both sides of the lower side of the bridge to cover the end fixing device, the intermediate fixing device, and the plurality of tension members. The present invention has a very excellent reinforcing effect at the center of the bridge beam by introducing the compressive force and bending moment due to the tension of the tension member in multiple steps, and has an effect of effectively preventing the excessive concentration of the concrete bearing stress occurring at both ends of the bridge. .

Patent Document 002 relates to an external tension reinforcing device of a bridge beam for preventing sagging due to aging of a bridge beam by easily tensioning an external steel wire, and for breakage and reinforcement. A pair of anchorage fixed at both ends of a bridge beam plates; a pair of hinges positioned adjacent to the fixing plates and hingedly fixed to the bottom surface of the bridge beam by hinge rotation axes; and a central support rod fixed to a central plate located on the middle bottom surface of the bridge beam, wherein the hinges have distal end sides located far from the hinge rotation axes and the hinge rotation axes as the center It is made in a 'L' shape including the mesial end sides located on the proximal side, the distal end sides are connected to the fixing plates by steel wires, and the mesial end side of any one of the hinges is in the middle It is connected to the mesial end side of the other hinge region at an opposite position via the bottom surface of the central support rod by a steel wire.

Patent Document 003 states that when load bearing capacity is reduced due to deterioration of bridge beams installed on bridges or increase in traffic volume, the bridge beam is easily tensioned to reinforce the bridge beam with external tension force, and the central part of the bridge beam sags or deforms downward to prevent the bridge from being deformed. It relates to an external tension reinforcement device for a bridge beam that can be restored to its initial state when reinforcing it. The present invention is composed of a plurality of steel wires disposed on both sides of a bridge beam in the longitudinal direction, and a steel wire fixing bracket installed on the bridge beam to fix both ends of the steel wire to maintain the tension state of the bridge beam, A hydraulic jack fixing bracket installed in the central part and having a vertical hole that moves up and down, a retainer formed at the bottom of the hydraulic jack fixing bracket and through which a steel wire passes, and a hydraulic jack installed between the bottom surface of each bridge beam and the hydraulic jack fixing bracket A hydraulic jack for moving the fixing bracket up and down, a hydraulic pump for supplying hydraulic pressure to the hydraulic jack, and a hydraulic distributor installed between the hydraulic jack and the hydraulic pump to distribute the hydraulic pressure to each hydraulic jack.

Patent Document 004 relates to a structure reinforcement method using a stress distribution anchorage and an external steel wire for freely arranging external steel wires according to the reinforcing part of a structure, and for fixing the external steel wires after tensioning them easily. Even though it is installed in the girder, the external steel wire is manufactured to be settled after tension on the bottom, side and central part of the girder, so that the efficiency of introducing prestress required for reinforcement of the girder can be increased.

KR 10-0357332 B1 (Registration date March 20, 2002) KR 20-0299991 B1 (registration date December 23, 2002) KR 20-0332716 B1 (registration date October 30, 2003) KR 10-1522608 B1 (registration date May 18, 2015)

The present invention relates to a girder external tensioning device of a bridge structure (Br). As the number of years of use of a bridge structure in public use increases, the performance of the structure inevitably decreases due to various internal and external influences. Accordingly, it is a reality that repair and reinforcement of existing bridges are essential as social standards such as satisfying design values for bridge design or reinforcement of seismic performance are improved. Appropriate repair and reinforcement methods used in concrete structures have been variously applied depending on the type of construction method and site conditions, such as the cross-section extension method, the reinforcement attachment-installation method, and the external steel wire reinforcement method. Among them, the external steel wire reinforcement method is a bridge reinforcement method that improves the performance of the girder by attaching a steel wire to the outside of the girder. In order to sufficiently tension the external steel wire in order to impart the effect of

In addition, the installed external steel wire is literally exposed to the outside, and there is a large deviation in the efficiency of girder reinforcement because the extension-contraction deviation of the steel wire according to the temperature and weather such as outside air is large, and this also has a disadvantage in long-term deflection and upper live load. There has been a disadvantage that the tension of the steel wire is lowered due to vibration, etc., and the effect of reinforcing the performance of the girder is gradually reduced. In order to solve this problem, it is a reality that continuous management such as re-tensioning of steel wire is usually made when problems such as periodic or tension loss occur, which incurs enormous social overhead costs. In the present invention, it is intended to develop and propose a device configuration for self-reinforcing the tension reduction of the external steel wire.

The present invention relates to an external tensioning device for a girder of a bridge structure, and specifically, fixing brackets provided at both ends of a girder; and a saddle system located in the central portion of the girder and protruding from the lower surface of the girder. and a steel wire fixed to the anchorage of the anchorage bracket and supported by the saddle system.

The present invention relates to an external tensioning device for a girder of a bridge structure, and in the invention presented above, the steel wire fixed to the anchoring brackets provided at both ends of the girder is fastened and supported by the anchorage of the anchoring bracket on one side, and the other side It involves the anchoring of the wedge by tension in the anchorage of the anchoring bracket of the

The present invention relates to a girder external tensioning device of a bridge structure, and in the invention presented above, the fixing bracket is parallel to the girder surface, a girder fastening plate forming a plurality of through holes and perpendicular to the girder fastening plate and a steel wire anchoring plate on which the anchorage is formed.

The present invention relates to an external tensioning device for a girder of a bridge structure, and in the invention presented above, the girder fastening plate is inserted into the through hole of the girder fastening plate, and is bound to the girder with an anchor bolt fixed to the lower surface of the girder. include being

The present invention relates to an external tensioning device for a girder of a bridge structure, and in the invention presented above, the steel wire fixing plate is formed to fix a plurality of steel wires at the same time.

The present invention relates to an external tensioning device for a girder of a bridge structure, and in the invention presented above, the saddle system includes maintaining the tension of the steel wire by supporting the steel wire in surface contact.

The present invention is an invention for a girder external tensioning device of a bridge structure, and in the invention presented above, the saddle system includes being provided to adjust the tension of the steel wire during common use.

The present invention relates to an external tensioning device for a girder of a bridge structure, and in the invention presented above, the saddle system includes a saddle anchoring bracket attached to the lower surface of the girder and a plurality of downward saddles formed on the lower surface of the saddle anchoring bracket. and a saddle housing portion formed under the saddle anchoring bracket and fastened to the saddle anchoring bracket and having an upward saddle portion positioned between the plurality of downward saddle portions.

The present invention relates to an external tensioning device for a girder of a bridge structure, and in the invention presented above, the saddle anchoring bracket includes a downward side plate in which both ends of the girder in the width direction are formed to protrude downward, and the saddle housing has both ends. It constitutes an upwardly protruding upward side plate and is provided in a shape to surround the downward side plate of the saddle fixing bracket, and includes the downward saddle part and the upward saddle part being recessed therein.

By applying the girder external tensioning device of the bridge structure according to the present invention, it is possible to maintain the stability of the bridge by itself by maintaining the tension of the girder by quickly restoring the change in tension of the ohibu tensioning device according to the deflection and deformation of the girder during public use. . In particular, it is possible to control tension more precisely by using a saddle device and an elastic member to control tension, and it is a convenient and economical external tensioning device that restores the steel wire without large deviations in contraction and relaxation. .

1 is a bridge structure.
Figure 2 is a prior art in which an external tension device is applied to a bridge structure.
Figure 3 (a) is an embodiment showing the lower surface of the girder to which the external tension device of the present invention is applied.
Figure 3 (b) is an embodiment showing the side of the girder to which the external tension device of the present invention is applied.
4 (a), 4 (b) are various embodiments of the external tension device steel wire fixing plate of the present invention.
5 is another embodiment of the external tension device girder fastening plate of the present invention.
6 and 7 are embodiments showing the saddle system of the present invention.

Hereinafter, the most preferred embodiment of the present invention will be described in detail in order to explain in detail enough that a person of ordinary skill in the art can easily carry out the present invention. Citation relationships in the following examples are merely numbers presented to aid technical understanding, and other non-quoted examples may be cited. Even a configuration not specified in the following embodiments may be substituted with a target exhibiting a similar purpose and effect. A sub-concept configuration not specified in the following embodiments is considered to be specified.

[Embodiment 1-1] In the configuration of the girder external tensioning device of the bridge structure, the present invention includes: fixing brackets 100 provided at both ends of the girder (G); And located in the central portion of the girder, the saddle system 200 is formed to protrude to the lower surface of the girder (G); and a steel wire 500 fixed to the anchorage port 140 of the anchorage bracket and supported by the saddle system.

The present invention is an invention for a girder external tensioning device of a bridge structure, and a girder (G) in common use, particularly, is used for a long period of time, resulting in sagging due to aging, or in the case of a prestressed concrete girder, the anchoring force of the tension member is reduced and the tension is increased. A tension device is installed outside the girder to restore or improve the performance of the relaxed girder (G). The girder (G) external tensioning device 10 of the bridge structure (Br) in the present invention is provided at both ends of the girder to form a plurality of anchorages 140, and the anchorages of a plurality of steel wires 500 are included. The fixing bracket 100 and the steel wire compensating for the sagging of the girder by being fixed through the fixing bracket, and the steel wire 500 from the center of the girder as it is located in the central part of the girder and protrudes to the lower surface of the girder (G) and a supporting saddle system (200). To maintain the tension of the steel wire fixed to the fixing brackets 100 at both ends through the saddle system, to adjust the magnitude of the tension introduced through the change in the size of the saddle system 200, or to change the tension direction of the steel wire 500 can

[Embodiment 2-1] The present invention relates to an external tensioning device for a girder of a bridge structure. In Embodiment 1-1, the steel wire 500 fixed to the anchoring brackets provided at both ends of the girder is of any one side. It is fastened and supported by the anchorage port 140 of the anchorage bracket 100, and the anchorage of the anchorage bracket on the other side is tensioned and the wedge is fixed.

[Embodiment 2-2] The present invention relates to a girder external tensioning device of a bridge structure. In Example 2-1, the plurality of steel wires 500 are alternately fixed or fixed to one side and the other side fixing bracket 100. including being signed.

The present invention is an invention for a girder external tensioning device of a bridge structure, and the steel wire provided in the anchoring bracket provided at both ends of the girder (G) of Example 2-1 is the anchorage port 140 of the anchoring bracket 100 on either side. It is fastened to and is tensioned in the anchorage of the anchoring bracket on the other side and can be anchored with a wedge for anchoring the normal steel wire 500. In addition, as shown in Example 2-2, the tightening and fixing of the steel wire 500 of the external tensioning device into which a plurality of steel wires are introduced is alternately performed on one side and the other side fixing bracket 100, and when tensioned, it is localized to the one side fixing bracket. It is possible to reduce the occurrence of damage due to stress concentration, and to achieve a uniform stress distribution in the girder according to the fixing of the steel wire 500 .

[Embodiment 3-1] The present invention relates to an external tensioning device for a girder of a bridge structure. In Embodiment 2-1, the fixing bracket 100 is parallel to the surface of the girder, and a plurality of through holes 130 are provided. forming a girder fastening plate 110; and a steel wire fixing plate 120 formed perpendicular to the girder fastening plate and having the anchoring hole 140 formed therein.

[Embodiment 3-2] The present invention relates to a girder external tensioning device 10 of a bridge structure. In Embodiment 3-1, it is provided standing up on the steel wire fixing plate, one surface is inclined and the other surface is vertical. and a steel wire fixing plate reinforcing rib formed and supported on the girder fastening plate 110 .

The present invention relates to a girder external tensioning device 10 of a bridge structure, and the fixing brackets of Examples 3-1 to 3-2 are a girder fastening plate having a through hole 130 for fastening to a girder (G). and a steel wire anchoring plate 120 that is formed vertically from the girder fastening plate 110 and capable of fixing the steel wire 500 by forming an anchorage, and between the girder fastening plate and the steel wire fixing plate 120 . In order to improve support performance and reduce deformation due to tension and fixation of the steel wire 500, it is provided by standing on the steel wire anchoring plate, supported by the girder fastening plate 110, one surface is inclined, and the other surface is vertical. It includes a steel wire fixing plate reinforcing rib formed. By forming the reinforcing rib of the steel wire fixing plate to stand between the secondary girder fastening plate and the vertical forming surface of the steel wire fixing plate, the bending deformation of the steel wire fixing plate 120 due to the tension of the steel wire is supported, and the load is applied to the girder fastening plate 110. serves to transmit

[Embodiment 4-1] The present invention relates to a girder external tensioning device of a bridge structure. In Embodiment 3-1, the girder fastening plate is inserted into the through hole 130 of the girder fastening plate 110; and anchor bolts fixed to the lower surface of the girder; including binding to the girder.

[Embodiment 4-2] The present invention relates to a girder external tensioning device of a bridge structure. In Embodiment 3-1, the girder fastening plate is inserted into the through hole 130 of the girder fastening plate 110 and being bound to the girder with an anchor bolt fixed to the side of the girder.

[Embodiment 4-3] The present invention relates to a girder external tensioning device of a bridge structure. In Embodiment 3-1, the girder fastening plate is inserted into the through hole 130 of the girder fastening plate 110 and being bound to the girder (G) with anchor bolts fixed to the lower surface and/or the side of the girder.

[Embodiment 4-4] The present invention relates to a girder external tensioning device of a bridge structure. In Embodiment 4-3, the through hole 130 of the girder fastening plate is provided in a long hole shape, and one side of the long hole Including those having a diameter larger than the diameter of the other side.

[Example 4-5] The present invention relates to a girder external tensioning device for a bridge structure. In Example 4-4, the diameter of one side of the through hole 130 is larger than that of the fastening nut of the anchor bolt, A diameter of the other side of the through hole is larger than a diameter of the anchor bolt and smaller than a diameter of the fastening nut.

The present invention relates to a girder external tensioning device 10 of a bridge structure, and in 4-1 to 4-5, the girder fastening plate 110 covers the lower surface of the girder, or the side surface and the lower surface and the side surface at the same time. It can be fastened in the form To this end, a through hole may be formed in the girder fastening plate, and a conventional anchor bolt is formed in the girder (G), and the girder fastening plate is fixed to the girder by inserting and fastening the through hole of the girder fastening plate 110. By additionally utilizing the adhesive means such as the anchor bolt epoxy, it is possible to improve the reliability of attachment through curing by filling and forming between the girder fastening plate 110 and the girder. In order to improve the work efficiency of the operator when attaching the girder fastening plate, the through hole 130 formed in the girder fastening plate 110 is formed as a long hole, but one diameter is formed larger than the fastening nut of the anchor bolt, and the other diameter is Provided to be smaller than the fastening nut of the anchor bolt, insert one side of the through hole of the girder fastening plate into the anchor bolt to which the fastening nut is fastened to penetrate the fastening nut, and move the girder fastening plate 110 toward the other diameter of the through hole. Thus, when the external tensioning device 10 is installed, the girder fastening plate can be easily mounted on the girder without a separate fixing means, and can be fixed to the girder by tightening the fastening nut.

[Embodiment 5-1] The present invention relates to a girder external tensioning device for a bridge structure. In Embodiment 3-1, the steel wire fixing plate 120 is formed to fix a plurality of steel wires at the same time.

[Example 5-2] The present invention relates to a girder external tensioning device of a bridge structure. In Example 3-1, a plurality of the steel wire fixing plates 120 are formed to correspond to the number of the steel wires 500 . include being

[Example 5-3] The present invention relates to a girder external tensioning device of a bridge structure. In Example 5-2, the steel wire fixing plate is installed on the girder fastening plate 110 of the steel wire 500. Tension is carried out after adjusting the angle according to the arrangement, and includes fixing the installation angle of the steel wire fixing plate 120 before the main tension.

[Example 5-4] The present invention relates to a girder external tensioning device for a bridge structure. In Example 3-1, the steel wire fixing plate is installed on the girder fastening plate, and during tensioning according to the arrangement of the steel wire angles are automatically adjusted.

[Example 5-5] The present invention relates to an external tensioning device for a girder of a bridge structure. In Examples 5-3 or 5-4, the installation angle fixing of the steel wire fixing plate 120 is performed through welding. include that

[Example 5-6] The present invention relates to an external tensioning device for a girder of a bridge structure, and in Example 5-3 or 5-4, fixing the installation angle of the steel wire fixing plate includes performing bolt fastening do.

[Example 5-7] The present invention relates to an external tensioning device for a girder of a bridge structure, and in Example 5-3 or 5-4, the fixing of the installation angle of the steel wire fixing plate 120 reduces the acupressure stress of the bolts. including those carried out through

[Example 5-8] The present invention relates to an external tensioning device for a girder of a bridge structure. In Example 5-7, the steel wire fixing plate is provided so that the angle can be adjusted at all times during common use through loosening of bolts. include

The present invention relates to a girder external tensioning device of a bridge structure, and the steel wire fixing plate 120 is formed such that a plurality of steel wires 500 are fixed at the same time, or a plurality of steel wires may be formed to match the number of steel wires. The steel wire fixing plate is installed on the girder fastening plate 110, and the angle according to the arrangement of the steel wire may be adjusted. For example, when the steel wire fixing plate 120 is installed on the girder fastening plate, after adjusting the angle according to the arrangement of the steel wire, temporary tension is performed, and it can be formed by fixing the installation angle of the steel wire fixing plate 120 before the main tension. In addition, the steel wire fixing plate is rotatably provided, and the steel wire fixing plate 120 is automatically adjusted to the angle of the steel wire through rotation during tension work when the steel wire 500 is arranged and tensioned. The steel wire fixing plate adjusted in this way can be integrally fixed with the girder fastening plate 110 through fixing means such as welding and bolt fastening. Through loosening, the angle can be adjusted again.

[Example 6-1] The present invention relates to a girder external tensioning device for a bridge structure. In Example 1-1, the saddle system 200 supports the steel wire 500 in surface contact to increase the tension of the steel wire. includes maintaining

[Example 6-2] The present invention relates to an external tensioning device for a girder of a bridge structure. In Example 6-1, the saddle system includes a variable distance in the throttle direction in the central region of the girder. do.

[Embodiment 6-3] The present invention relates to an external tensioning device for a girder of a bridge structure. In Embodiment 6-1, the saddle system 200 includes a plurality of devices provided in the central region of the girder.

The present invention relates to an external tensioning device for a girder of a bridge structure, and the saddle system is provided at a position where the steel wire 500 is disposed by forming a seat part in the form of a saddle, that is, a horse saddle. It is a system that can control the tension of the steel wire or adjust the tension angle of the steel wire with the curved surface of the saddle. The saddle system 200 is capable of maintaining the tension of the steel wire by supporting the steel wire 500 in surface contact, and is provided with the saddle system variably in the throttle direction at the center of the girder (G). It is possible to solve the problem caused by the infringement of the mold space according to the installation of the tension device (10). In addition, by forming a plurality of these saddle systems 200 and spaced apart from each other by a certain interval, the problem of installing various external tensioning devices 10, which is limited by a single saddle system (Securing a mold space, adding tension, etc.), can be solved. there is.

[Embodiment 7-1] The present invention relates to an external tensioning device for a girder of a bridge structure. In Embodiment 6-1, the saddle system 200 is provided to adjust the tension of the steel wire 500 during common use. include being

[Embodiment 7-2] The present invention relates to an external tensioning device for a girder of a bridge structure. In Embodiment 6-1, the saddle system includes a saddle fixing bracket 210 attached to the lower surface of the girder; and a plurality of downward saddle parts 211 formed on the lower surface of the saddle fixing bracket; and an upward saddle portion 221 formed under the saddle anchoring bracket 210 to be fastened to the saddle anchoring bracket and positioned between the plurality of downward saddle portions.

The present invention relates to an external tensioning device for a girder of a bridge structure, and the saddle system 200 is a device provided to adjust the tension of a steel wire of the external tensioning device 10. A saddle fixing bracket attached to the lower surface of the girder ( 210) and a saddle housing unit 220 formed on the lower surface of the saddle fixing bracket. The saddle fixing bracket 210 is provided with a downward saddle portion 211 formed in the gravity direction on the lower surface, and the saddle housing portion is provided with an upward saddle portion in a direction opposite to the downward saddle portion. The tension can be adjusted by supporting the steel wire 500 in the saddle system formed in this way. The steel wire starting from the fixing bracket on one side is bent downward while being supported by the downward saddle part 211 on one side, and the downward saddle part on the one side. It is formed to be bent upward while being supported by the upward saddle part 221 . The steel wire 500 forms a W shape as if it is supported by the downward saddle part on the other side located past the upward saddle part and is bent downward again, and is fastened or fixed to the fixing bracket 100 on the other side. balance can be achieved.

[Embodiment 8-1] The present invention relates to an external tensioning device for a girder of a bridge structure. In Embodiment 7-1, the saddle fixing bracket has a downward side plate 212 in which both ends of the girder in the width direction are formed to protrude downward. ; and, the saddle housing unit 220 is provided in a shape surrounding the downward side plate 212 of the saddle fixing bracket 210; , including that the downward saddle part 211 and the upward saddle part are recessed therein.

[Embodiment 8-2] The present invention relates to an external tensioning device for a girder of a bridge structure. In Embodiment 8-1, the bottom plate of the saddle enclosure is formed by bending in the width direction.

[Embodiment 8-3] The present invention relates to an external tensioning device for a girder of a bridge structure. In Embodiment 8-1, the bottom plate of the saddle enclosure 220 includes a reinforcing rib formed.

The present invention relates to an external tensioning device for a girder of a bridge structure, wherein the saddle system 200 is formed of a saddle anchoring bracket, a saddle housing, and a saddle, and the saddle anchoring bracket 210 has both ends of the girder (G) in the width direction. It includes a downward side plate 212 protruding downward, and the saddle housing unit 220 constitutes an upward side plate 222 having both ends protruding upward, and a downward side plate 212 of the saddle fixing bracket. It is provided in a shape surrounding the , and the downward saddle part and the upward saddle part 221 are recessed therein to form a box-shaped saddle housing part 220 . It is provided to protect the downward and upward saddle parts positioned therein from the outside, and to fix the saddle housing part formed at the lower part to the saddle fixing bracket 210 . The upward and downward saddle housing parts 220 support the load according to the tension of the steel wire. Unlike the saddle fixing bracket attached and formed on the lower surface of the girder, in the case of the saddle housing part without a reaction force member supported at the bottom, the steel wire ( 500), a shape limiting member and a reinforcing member may be added to resist bending deformation, damage, etc. according to the change in tension of the tension change. By adding reinforcing ribs on the inside and outside, it is possible to effectively resist the load that may occur.

[Embodiment 9-1] The present invention relates to a girder external tensioning device of a bridge structure. In Embodiment 8-1, the upward saddle part 221 includes a pulley part on which the steel wire is supported; a vertical hole formed in the pulley part and the upward side plate 222 of the saddle housing part 220; and a shaft portion penetrating the vertical hole formed in the downward side plate of the saddle fixing bracket 210; and a mount portion 230 positioned under the shaft portion, elastically supporting the shaft portion, and seated and supported on the saddle housing portion.

[Embodiment 9-2] The present invention relates to an external tensioning device for a girder of a bridge structure. In Embodiment 9-1, the pulley part includes a groove for guiding the steel wire 500.

[Embodiment 9-3] The present invention relates to an external tensioning device for a girder of a bridge structure. In Embodiment 9-1, the mount unit 230 includes a coil spring.

[Embodiment 9-4] The present invention relates to an external tensioning device for a girder of a bridge structure. In Embodiment 9-1, the mount part 230 includes a plate spring.

[Example 9-5] The present invention relates to an external tensioning device for a girder of a bridge structure. In Example 9-4, the leaf springs are formed by stacking a plurality of them.

[Example 9-6] The present invention relates to an external tensioning device for a girder of a bridge structure. In Example 9-1, a depression groove in which the shaft is seated is formed in the central portion of the leaf spring.

The present invention relates to an external tensioning device for a girder of a bridge structure, and the upward saddle part 221 may be specifically formed to be able to adjust the tension of the steel wire by itself. To this end, the upward saddle part includes a pulley part on which the steel wire 500 is supported, a rod-shaped shaft part penetrating the pulley part, and a mount part 230 that supports the shaft part and is seated on the saddle housing part 220 . can The pulley part may form a steel wire guide groove for stably supporting the steel wire and preventing the steel wire 500 from being separated, and may be limited to a plurality of grooves to match the number of the plurality of steel wires. The mount portion is provided between the lower end of the shaft portion and the saddle housing portion in order to elastically support the load transmitted to the shaft portion by the load of the steel wire 500 supported on the pulley portion, and stably supports the load, and an appropriate position with its own elastic force It is provided to position the upward saddle part 221 on the.

For this, the mount unit 230? It can be applied in the same form as a normal coil spring or a leaf spring, and in detail, it is formed in the form of a leaf spring, and it is preferable that the tension change according to aging can be expanded by increasing the number of leaf springs. The leaf spring is formed to stably support the shaft part, and to rotatably provide a pulley part and a shaft part in order to reduce friction with the saddle part according to elongation and contraction according to the change in tension of the steel wire, the shaft The central part of the leaf spring supporting the part may be formed as a rotatable recessed groove. The pulley part and the vertical hole formed in the upper side plate 222 of the saddle housing part 220 and the vertical long hole formed in the lower side plate of the saddle fixing bracket 210 are passed through, and the shaft part is seated on the leaf spring. It moves in the vertical hole of the saddle fixing bracket and the saddle housing unit 220 , and compensation according to tension relaxation and tension of the steel wire 500 can be performed within the elastic force range of the leaf spring.

Br : Bridge structure G : Girder
10: external tension device 100: fixing bracket
110: girder fastening plate 120: steel wire fixing plate
130: through hole 140: anchorage
200: saddle system 210: saddle fixing bracket
211: downward saddle part 212: downward side plate
220: saddle housing part 221: upward saddle part
222: upper side plate 230: mount part
500: steel wire

Claims (9)

In the configuration of the girder external tensioning device of the bridge structure,
fixing brackets provided at both ends of the girder;
a saddle system located in the central portion of the girder and protruding from the lower surface of the girder;
a steel wire fixed to the anchorage of the anchorage bracket and supported by the saddle system;
The saddle system is to maintain the tension of the steel wire by surface contact support for the steel wire, and the saddle system includes a saddle anchoring bracket attached to a lower surface of the girder, a plurality of downward saddle parts formed on a lower surface of the saddle anchoring bracket, and the a saddle housing portion formed under the saddle anchoring bracket to be fastened to the saddle anchoring bracket and having an upward saddle portion positioned between the plurality of downward saddle portions;
The saddle system is provided to adjust the tension of the steel wire, and the saddle fixing bracket has a downward side plate having both ends protruding downward in the width direction of the girder, and the saddle housing unit has an upward side surface having both ends projecting upward. constituting a plate, provided in a shape surrounding the downward side plate of the saddle fixing bracket, wherein the downward saddle part and the upward saddle part are recessed therein;
The upward saddle part has a pulley part on which the steel wire is supported; a vertical hole formed in the pulley part and the upward side plate of the saddle housing part; and a shaft portion penetrating through the vertical hole formed in the downward side plate of the saddle fixing bracket. and a mount part positioned under the shaft part, elastically supporting the shaft part, and being seated and supported on the saddle housing part;
A girder external tensioning device of a bridge structure comprising a.

The method according to claim 1,
The steel wire fixed to the fixing brackets provided at both ends of the girder is on either side.
It is fastened and supported by the anchorage hole of the anchorage bracket,
A girder external tensioning device of a bridge structure comprising a wedge anchored by being tensioned in the anchorage of the anchorage bracket of the other side.
3. The method according to claim 2,
The fixing bracket is parallel to the surface of the girder,
a girder fastening plate forming a plurality of through holes; and formed perpendicular to the girder fastening plate;
A girder external tensioning device of a bridge structure comprising a; a steel wire anchoring plate on which the anchorage is formed.
4. The method according to claim 3,
The girder fastening plate is inserted into the through hole of the girder fastening plate,
An anchor bolt fixed to the lower surface of the girder; a girder external tensioning device of a bridge structure comprising binding to the girder.
4. The method according to claim 3,
The steel wire fixing plate is formed to fix a plurality of steel wires at the same time
Girder external tensioning device of bridge structure.
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