KR101440553B1 - Pretension girder production apparatus - Google Patents

Abstract

Disclosed is a pretensioning girder manufacturing apparatus which can be easily transported, assembled on site, and disassembled.
The present invention relates to a horizontal supporting unit comprising a plurality of unit steel pipe members extending in the longitudinal direction and constituting two supporting shafts parallel to each other; A supporting member coupled to the joint of the unit steel pipe member to support the joint of the unit steel pipe member and to lay the form of the girder in a transverse direction between the support shafts; A leveling unit provided on a bottom surface of the supporting member and supported on the ground and capable of adjusting the ground level of the supporting member; And a fixing plate mounted on the front and rear ends of the horizontal support to fix both ends of a steel material to which tension is applied to the girder, wherein the support member includes a jacket portion configured to surround the outer circumferential surface of the unit steel pipe member at both ends thereof The jacket portion includes a first jacket steel plate provided at both ends of the receiving member to support the side surface of the unit steel pipe member, a second jacket steel plate for pressing and fixing the joint portion of the unit steel pipe member together with the first jacket steel plate, Wherein the leveling unit comprises: a support file which is penetrated into the ground to support the support member from the ground and has a screw thread at an upper end exposed on the ground; A support leg coupled to a bottom surface of the support member and having a thread at a lower end thereof; And an adjusting nut for screwing the thread of the support pile on the lower side and screwing the thread of the support leg on the upper side and rotating the support leg to move the support leg upward and downward. Device.
According to such a pretensioning girder manufacturing apparatus, since the apparatus can be easily transported and can be assembled on-site, the construction cost can be reduced and the air can be shortened.

Description

[0001] PRETENSION GIRDER PRODUCTION APPARATUS [0002]

The present invention relates to a pre-tension girder manufacturing apparatus, and more particularly, to a pre-tension girder manufacturing apparatus that can be easily transported and assembled and disassembled on-site.

Generally, a prestressed concrete structure is a structure that can increase the strength and stiffness of a concrete girder or beam by applying compressive force to the concrete in order to reduce the tensile strength of the concrete.

There are pretension and posttension methods for applying the prestress to concrete.

Here, the pre-tensioning method is a method in which concrete is laid under a tensile force of a tensile material to harden it, and then both ends of the tensile material are peeled off to make the concrete bear the compressive force.

Such a pretensioning method requires a separate large-sized manufacturing apparatus since a structure for supporting the prestressing material must be provided in advance. Thus, pre-tensioned girders are usually manufactured in factories that can have large installations.

As described above, when the pre-tension girder is manufactured in the factory, it is economical when the amount of material to be produced at a time is large and the transportation distance is not long.

However, if the quantity of production is small or the distance of transportation is long, the economical efficiency is low. In addition, since it is difficult to transport a structure having a length of 15 m or more on road conditions, it is troublesome to install and manufacture a site production stand when a structure of 15 m or more is to be manufactured by pretensioning.

In order to arrange the formwork of the girder, it is necessary to make a flat concrete base, and after the construction of the structure is finished, the concrete base which is made is removed .

At this time, since the demolished concrete base is discarded, it consumes a lot of resources and the manufacturing cost of the pretension structure increases.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a pretensioning girder manufacturing apparatus which is easy to carry and can be assembled on the spot.

In order to attain at least part of the above-mentioned object, the present invention provides a horizontal support structure, comprising: a horizontal support portion having a plurality of unit steel pipe members extending in the longitudinal direction and constituting two support shafts parallel to each other; A supporting member coupled to the joint of the unit steel pipe member to support the joint of the unit steel pipe member and to lay the form of the girder in a transverse direction between the support shafts; A leveling unit provided on a bottom surface of the supporting member and supported on the ground and capable of adjusting the ground level of the supporting member; And a fixing plate mounted on the front and rear ends of the horizontal support to fix both ends of a steel material to which tension is applied to the girder, wherein the support member includes a jacket portion configured to surround the outer circumferential surface of the unit steel pipe member at both ends thereof The jacket portion includes a first jacket steel plate provided at both ends of the receiving member to support the side surface of the unit steel pipe member, a second jacket steel plate for pressing and fixing the joint portion of the unit steel pipe member together with the first jacket steel plate, Wherein the leveling unit comprises: a support file which is penetrated into the ground to support the support member from the ground and has a screw thread at an upper end exposed on the ground; A support leg coupled to a bottom surface of the support member and having a thread at a lower end thereof; And an adjusting nut for screwing the thread of the support pile on the lower side and screwing the thread of the support leg on the upper side and rotating the support leg to move the support leg upward and downward. Device.

In one embodiment, the unit steel pipe member may be composed of a high strength steel pipe or a concrete filled steel pipe.

Further, in one embodiment, the height of the longitudinal center axis of the supporting member and the height of the longitudinal center axis of the unit steel pipe member may be coincided.

Here, the jacket portion may be detachably attached to the unit steel pipe member such that a plurality of separated steel plates are bolted to each other to enclose the outer circumferential surface of the unit steel pipe member.

Further, in one embodiment, the receiving member may be constituted by an H-shaped steel.

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Preferably, the threads of the support pawls and the threads of the support legs are formed in an inverse threaded relationship with each other, the lower side of the adjustment nut corresponds to the thread of the support pile, the upper side of the support nut corresponds to the thread of the support leg, The threads formed on the lower side may be configured to have an inverse screw thread relationship with each other.

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According to an embodiment of the present invention having such a configuration, since the device can be easily transported and can be assembled on-site, the construction cost can be reduced and the air can be shortened.

In addition, according to the embodiment of the present invention, a flat base can be formed even on uneven ground in the field through the leveling unit.

1 is an exploded perspective view of a pretensioning girder manufacturing apparatus according to an embodiment of the present invention.
2 is a side view of the pretensioning girder manufacturing apparatus shown in FIG.
3 is a front sectional view of the pretensioning girder manufacturing apparatus shown in Fig.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Furthermore, the singular forms "a", "an," and "the" include plural referents unless the context clearly dictates otherwise.

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

1 to 3, an apparatus for manufacturing a pretensioning girder according to an embodiment of the present invention will be described. Here, FIG. 1 is an exploded perspective view of a pretensioning girder manufacturing apparatus according to an embodiment of the present invention, FIG. 2 is a side view, and FIG. 3 is a front sectional view.

1 to 3, an apparatus 100 for manufacturing a pretensioning girder according to an embodiment of the present invention includes a horizontal support part 110, a support member 120, and a leveling part 130, And may further include a fixing plate 140 mounted on both ends of the horizontal support portion 110. [

The horizontal support part 110 is composed of two supporting shafts extending in the longitudinal direction of the girder to be manufactured and parallel to each other. The support shaft of the horizontal support part 110 may be constituted by a plurality of unit steel pipe members 112 extending in the longitudinal direction.

Here, the unit steel pipe member 112 has a strength capable of supporting the tensile force of the steel material 20, which is a tension material that applies tension to the girder to be manufactured. That is, it has a strength not buckled by the pressure acting in the longitudinal direction when the steel material 20 is strained.

In order to ensure such strength, in one embodiment, the unit steel pipe member 112 is preferably composed of a high-strength steel pipe (for example, 500 MPa or more) or a concrete filled steel pipe filled with concrete in the inside of the steel pipe. However, the present invention is not limited to this, and the unit steel pipe member 112 may be a steel pipe filled with a reinforcing resin or a steel bar filled with the inside.

The unit steel pipe member 112 may be manufactured in advance to a predetermined length and may be manufactured in a length that facilitates transportation.

Meanwhile, the support member 120 is a structure capable of constructing a flat plate in a transverse direction between two parallel support shafts of the unit steel pipe member 112. The support member 120 is a structure of a girder 10) can be placed.

The supporting member 120 preferably has a strength capable of supporting a load of a girder to be manufactured, and may be formed of, for example, an H-shaped steel.

The support member 120 may be disposed at a plurality of intervals along the longitudinal direction of the horizontal support member 110. In one embodiment, the support member 120 is coupled to the joint portion of the unit steel pipe member 112, 112).

Here, the support member 120 supports the joint of the unit steel pipe member 112, so that the unit steel pipe member 112 connected to the unit steel pipe member 112 does not deviate or buckle from each other at the joint portion. And the position of the unit steel pipe member 112 is fixed by matching the axes.

To this end, in one embodiment, the support member 120 may have a jacket portion 122 configured to surround the outer circumferential surface of the unit steel pipe member 112 at both ends. The jacket portion 122 is configured to integrally enclose the two unit steel pipe members 112 leading to the joint portion of the unit steel pipe member 112 so that the center axes of the following two unit steel pipe members 112 can coincide with each other.

For this operation, in one embodiment, the jacket portion 122 includes a first jacket steel plate 122a integrally coupled to both ends of the receiving member 120, and a second jacket 122a separated from the first jacket steel plate 122a. And a steel plate 122b.

1, the first jacket steel plate 122a and the second jacket steel plate 122b may be bent in a shape corresponding to the outer circumferential surface of the unit steel pipe member 112, A flange for bolt connection between the one jacket steel plate 122a and the second jacket steel plate 122b may be formed.

In this configuration, the second jacket steel plate 122b is tightly bolted to the first jacket steel plate 122a and can press-fix the succeeding unit steel pipe member 112 in cooperation with the first jacket steel plate 122a.

However, the second jacket steel plate 122b is not limited to the structure in which the first jacket steel plate 122a is separated as shown in FIG. 2, and one of the upper and lower sides is connected to the first jacket steel plate 122a Hinge-coupled configurations are also possible.

The leveling unit 130 may support the receiving member 120 from the ground and may adjust the height of the receiving member 120 from the ground, that is, the height of the receiving member 120 from the ground.

The leveling unit 130 may be provided on the bottom surface of the supporting member 120 to adjust the length.

To this end, in one embodiment, the leveling portion 130 may comprise a support file 132, a support leg 134, and an adjustment nut 136.

Here, the support pile 132 may be penetrated into the ground to support the support member 120 from the ground so that a part of the upper end thereof is exposed to the ground. The upper end of the support pawl 132 exposed on the ground may be provided with a thread to which a control nut 136 described later is coupled.

The support leg 134 may be formed in a bar shape coupled to the bottom surface of the support member 120 and extending vertically downwardly of the support member 120. The support leg 134 may be coupled to the bottom surface of the support member 120 through the coupling plate 138 and a thread may be provided at the lower end of the support leg 134 to couple an adjustment nut 136, have.

In one embodiment, the coupling plate 138 and the receiving member 120 may be combined with each other by a bolt coupling structure to facilitate assembly and disassembly of the coupling plate 138 and the receiving member 120.

The adjusting nut 136 is a nut member that is threaded on the lower side of the support pile 132 and threaded on the upper side of the support leg 134. The adjustment nut 136 is rotated through the screw- 134 can be moved up and down.

In one embodiment in which such an operation may be implemented, the threads of the support file 132 and the threads of the support leg 134 may be configured in an inverse threaded relationship with each other as shown in Fig. At this time, the screw threads formed on the upper side and the lower side of the adjusting nut 136 may be formed in an inverted thread relationship so that the lower side corresponds to the thread of the support pawl 132 and the upper side corresponds to the thread of the support leg 134.

In this configuration, when the adjusting nut 136 is rotated in one direction, the adjusting nut 136 descends along the thread of the support pawl 132 and the supporting leg 134 descends along the thread of the adjusting nut 136, The support legs 134 can be lowered and the height of the support member 120 can be lowered.

Conversely, when the adjusting nut 136 is rotated in the other direction, the adjusting nut 136 rises along the thread of the supporting pawl 132 and the supporting leg 134 rises along the thread of the adjusting nut 136, The height of the support member 120 can be increased.

A plurality of leveling units 130 may be provided on the supporting member 120 and the leveling unit 120 may be horizontally adjusted through the plurality of leveling units 130.

The height of the plurality of support members 120 provided along the longitudinal direction of the horizontal support member 110 may be adjusted to set the height of the plurality of support members 120 to be the same, It can be flat.

Meanwhile, the fixing plate 140 may be mounted on both ends of the horizontal support part 110 to fix both ends of the tensioned steel material 20. The fixing plate 140 may be formed with a fixing hole 142 through which the steel 20 penetrates and a steel member 20 protruding from the rear surface of the fixing plate 140 through the fixing hole 142 may be separately formed So that it can be supported by the fixing plate 140 through the anchor device of the anchor device.

A leg portion 150 may be formed on the front surface of the fixing plate 140 to support the fixing plate 140 from the support shaft of the horizontal supporting portion 110 and may be fixed to the leg portion 150 A reinforcement material 152 for stably supporting the plate 140 may be additionally provided.

The front end of the leg portion 150 may be provided with a connecting steel pipe 160 having the same diameter as that of the unit steel pipe member 112 for connection with the first unit steel pipe member 112 connected through the receiving member 120 have.

The connecting steel pipe 160 may be made of a concrete filled steel pipe as in the case of the unit steel pipe member 112 in order to secure structural rigidity.

The leveling unit 130 may be further provided on the leg portion 150 to support the fixing plate 140 from the ground.

Hereinafter, a method of assembling the pretensioning girder manufacturing apparatus 100 according to an embodiment of the present invention will be described.

First, a support pile 132 is installed at a site designed in advance in a site where a pre-tension girder manufacturing apparatus 100 according to an embodiment of the present invention is to be installed.

Thereafter, the adjustment nut 136 and the support leg 134 are assembled to the support file 132. At this time, it is preferable that the heights of the support legs 134 are approximately matched.

The support member 120 is assembled to the coupling plate 138 provided at the upper end of the support leg 134 after the support pawl 132, the adjustment nut 136 and the support leg 134 are assembled.

The plurality of unit steel pipe members 112 may be connected to each other through the jacket 122 of the supporting member 120 to form the horizontal supporting unit 110. After the horizontal supporting unit 110 is completed, It is possible to assemble the fixing plate 140 at the front and rear ends thereof.

Finally, the leveling unit 130 adjusts the level and height of the supporting member 120.

The pretensioner girder manufacturing apparatus 100 according to an embodiment of the present invention is configured such that the components are separated in a small volume unit to facilitate transportation to the site, There are advantages.

The pretensioning girder manufacturing apparatus 100 according to an embodiment of the present invention can be manufactured by a leveling unit 130 capable of adjusting the level and the height of the supporting member 120 from a rough base (The floor on which the door 10 is placed).

In addition, the pre-tensioner girder manufacturing apparatus 100 according to an embodiment of the present invention is characterized in that it can be re-used on-site after the manufacture of the girder, unlike the conventional concrete base structure in which the girder is manufactured and discarded.

While the present invention has been particularly shown and described with reference to particular embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention as defined by the following claims I would like to make it clear.

10: Form 20: Steel
100: Manufacturing apparatus 110: Horizontal support
112: unit steel pipe member 120: receiving member
122: jacket part 130: leveling part
132: support file 134: support leg
136: Adjusting nut 140: Fixing plate

Claims (8)

A horizontal support portion constituting two support shafts in which a plurality of unit steel pipe members extend in the longitudinal direction and are parallel to each other;
A supporting member coupled to the joint of the unit steel pipe member to support the joint of the unit steel pipe member and to lay the form of the girder in a transverse direction between the support shafts;
A leveling unit provided on a bottom surface of the supporting member and supported on the ground and capable of adjusting the ground level of the supporting member; And
And a fixing plate mounted on the front and rear ends of the horizontal support portion and fixing both ends of a steel material to which tension is applied to the girder,
Wherein the supporting member includes jackets formed at both ends to surround the outer circumferential surface of the unit steel pipe member,
The jacket portion includes a first jacket steel plate provided at both ends of the receiving member to support the side surface of the unit steel pipe member and a second jacket steel plate pressing and fixing the joint portion of the unit steel pipe member together with the first jacket steel plate Being
The leveling unit,
A supporting file which is inserted into the ground to support the supporting member from the ground and has a screw thread at the upper end exposed on the ground;
A support leg coupled to a bottom surface of the support member and having a thread at a lower end thereof; And
And a control nut for screwing the thread of the support pile on the lower side and screwing the thread of the support leg on the upper side to rotate and move the support leg upward and downward. . The method according to claim 1,
Wherein the unit steel pipe member comprises a high strength steel pipe or a concrete filled steel pipe. The method according to claim 1,
Wherein the height of the longitudinal center axis of the supporting member and the height of the longitudinal center axis of the unit steel pipe member are made to coincide with each other. The method of claim 3,
Wherein the supporting member is formed of an H-shaped steel. The method according to claim 1,
The jacket
Wherein the plurality of separated steel plates are bolted to each other to enclose the outer circumferential surface of the unit steel pipe member, and can be detachably attached to the unit steel pipe member. delete The method according to claim 1,
Wherein the threads of the support pegs and the threads of the support legs are configured in an inverse threaded relationship with each other,
Wherein the adjustment nut has a threaded portion formed on the upper side and a threaded portion formed on the lower side corresponding to the thread of the support leg, the lower side corresponding to the thread of the support pile and the upper side corresponding to the thread of the support leg. delete

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