KR100782418B1 - Safety Supporting Device for Beam - Google Patents

Abstract

The present invention relates to a beam support safety support device for preventing the beam is mounted on the pier or the top of the bridge during the bridge construction process or the position is shifted. Safety support device for beam mounting according to the present invention, the safety support is fixed to cross the upper portion of the two or more beams, and at least two pairs are installed in the lower portion of the safety support corresponding to the distance between the beam, Each of the pair includes a fitting member installed to be spaced apart from each other by an interval corresponding to the transverse width of the beam, the upper portion of the beam is inserted, fixed by a predetermined length between the pair of fitting member It is characterized by. By using the beam support safety support device, it is possible to safely and effectively support the beam mounted on the top of the pier to prevent the beam from falling or shifting position.

Bridges, Piers, Shifts, Beams, Mounting

Description

Safety Supporting Device for Beam Mounting

1 is a perspective view illustrating a state in which a conventional beam support apparatus supports a beam mounted on an upper portion of a piers,

2 is a perspective view showing a state in which a beam mounting safety support device according to an embodiment of the present invention supports the beam mounted on the top of the piers,

3 is a detail of the circle A portion of FIG. 2,

4 is a plan view of FIG. 3,

5 is a detailed cross-sectional view of the circle B portion of FIG.

6 is a cross-sectional view taken along the line C-C of FIG.

7 is a perspective view showing a state of assembling the safety support device of the present invention.

<Explanation of symbols for the main parts of the drawings>

1: beam 2: pier

10: safety support device for beam mounting 20: safety support

30: fitting member 40: fixed unit

42: U-shaped bolt 44: first washer

46: second washer 48: nut

The present invention relates to a safety support device for beam mounting, specifically, the beam mounting safety support device temporarily installed on the beam to securely prevent the beam from falling when mounting a plurality of beams for construction PSC bridges, etc. It is about.

In the case of constructing a bridge using a PSC beam, it takes a predetermined time to mount a plurality of beams on a pier or alternation and then cast slab concrete thereon. Therefore, not only the shape of the beam is fluctuated frequently due to wind or external impact, but also the accident of beam conduction caused by unexpected external force generated during the construction process, resulting in loss of life and property. Imports occur frequently.

1 is a schematic perspective view showing a state of supporting between beams according to the prior art. The beam 110 mounted on the pier or shift 100 is in a standby state for a predetermined time until the slab concrete is placed thereon. In this standby state, external force is applied to the beam 110 to be conducted or moved. In order to prevent this, conventionally, a method of fastening between beams 110 using an iron wire was mainly used. That is, as shown in Figure 1, the fixing anchor 101 using a reinforcing bar or the like on the top of the piers or shifts 100, and fixed to the top of the beam 110, such as a wire buckle 102, such as a turn buckle After the wire (102) is tensioned in a state in which both ends of the fixing anchor 101 through the method of supporting the mounting state of the beam (110).

However, in the case of the conventional method, the wires 102 are connected to both sides of the beams 110 to be tensioned and fixed to the anchors 101. These operations are substantially very cumbersome. Rather, it requires a considerable amount of work time, which is not an efficient way.

In particular, when the tension of both wires 102 is not balanced when the wires 102 supporting the beams 110 are tensioned, the position of the beams 110 may be changed. In order to prevent this, a very precise work is required. If such a precise work is performed, the working time and cost are further increased accordingly, thereby reducing the economic efficiency.

In addition, when fixing the mounting state of the beam 110 only by the wire 102 as described above, when the wire fixing alone does not fully support the beam 110 when an unexpected external force is applied to the beam 110 There is also a problem that the stability of the support state is very low.

The present invention can easily and quickly and efficiently securely support the beam mounted on the bridge or bridge in the construction process of the bridge as described above to prevent the fall and position of the beam, easy handling, excellent field adaptability It is an object to provide a safety support device for beam mounting of a new configuration.

In order to achieve the above object of the present invention, the present invention provides a device for supporting a plurality of beams mounted on the top of the bridge during the construction of the bridge, the safety support is fixed to cross the top of the two or more beams in the transverse direction, Two or more pairs are installed in the lower portion of the safety support in correspondence to the distance between the beams, each of the pair comprises a fitting member spaced apart from each other by an interval corresponding to the transverse width of the beam, Provided is a beam mounting safety support device in which an upper portion of the beam is inserted and fixed in a space between a pair of fitting members.

Specifically, the safety support may be made of a U-shaped steel including a bottom surface and a pair of side walls extending vertically from both sides of the bottom surface to face each other, the bottom surface is spaced a plurality of predetermined intervals Two through holes are formed, and the gap between the fitting members can be adjusted by fastening the fitting member to the lower portion of the safety support by a bolt passing through the through hole.

In the safety support device of the present invention, the safety support may be fixed to the upper portion of the beam by a fixing unit, the fixing unit passes through the through hole formed in the side wall from the inside of the safety support to the outside, the upper portion of the beam U-shaped bolts positioned to surround the protruding shear reinforcement bars, respectively, fitted to the U-shaped bolts, and are fastened to the U-shaped bolts with the first and second washers for placing the shear bars in the space therebetween. And, the first and second washer to the shear reinforcement may include a nut for applying pressure to be fixed in close contact. Here, the first washer and the second washer has a non-slip treatment on the surface in contact with the shear rebar, it can be fixed to the shear reinforcement without slipping.

On the other hand, a plurality of through-holes are formed along the side wall of the safety support, it is possible to adjust the position of the U-shaped bolt according to the position of the shear reinforcement of the upper beam.

In addition, the safety support and the fitting member may be made of an aluminum alloy.

Hereinafter, a configuration of a beam mounting safety support device according to the present invention will be described with reference to an exemplary view showing an embodiment of the present invention. FIG. 2 is a schematic view showing that a plurality of PSC beams 1 are mounted on the pier 2 in a state supported by the beam safety support device 10 of the present invention for constructing a bridge using the PSC beams. 3 shows a detail of the circle A portion of FIG. 2.

As shown in FIG. 2, the beam restraint safety support device 10 according to the present invention has a plurality of beams 1 mounted on an upper part of an alternating or pier 2 between alternating and pier or between pier and a pier. Support to prevent the beam 1 from conducting or moving. Specifically, the beam support safety support device 10 of the present invention is transversely transversely the upper portion of the two or more beams 1 and the safety support 20 is fixed to the upper portion of the beam 1, the beam (1) Corresponding to the gap therebetween includes a fitting member 30 is installed at least two pairs in the lower portion of the safety support (20).

The safety support device 10 of the present invention is shown in detail in FIG. 3. Referring to FIG. 3, the fitting members 30 forming the pair are spaced apart from each other by an interval corresponding to the transverse width of the beam 1 and are installed below the safety support 20, and the beam 1 therebetween. The top of) is inserted and fixed by a predetermined length. Therefore, the upper part of the beam 1 is inserted and fixed to each pair of the fitting member 30 installed in the lower part of the safety support 20, respectively. As a result, two or more beams 1 neighboring each other are connected and fixed to each other by the safety support device 10 of the present invention, thereby preventing the neighboring beams 1 from being conducted or shifted in position. Therefore, when the safety support device 1 of the present invention is continuously installed on the upper part of the plurality of beams 1, the beams 1 adjacent to each other continue to be connected and fixed to each other, so that each beam 1 conducts. Can be prevented or the position is moved.

Specifically, the safety support 20 of the present invention includes a bottom surface 22 and both sidewalls 24 extending vertically from both sides of the bottom surface 22 to face each other and extending in the longitudinal direction. It can be made of U-shaped steel. The safety support device 10 of the present invention connects and fixes two or more beams 1 to each other, thereby preventing neighboring beams 1 from being conducted or moved. Therefore, the U-shaped steel forming the safety support 20 preferably has a length greater than or equal to the distance between the two beams 1 adjacent to each other.

As described above, the fitting member 30 supporting the beam 1 mounted on the pier (see FIG. 2, 2) is installed below the safety support 20. The fitting member 30 is coupled to the lower portion of the safety support 20 to be assembled and disassembled. For example, as shown in FIG. 7, a through hole 28 is formed in the bottom surface 22 of the safety support 20, and the fitting member 30 is formed by a bolt 26 passing through the through hole 28. Will be able to be assembled to the lower portion of the safety support 20.

The fitting member 30 is installed in two or more pairs under the safety support 20, and the distance between each pair of the fitting members 30 corresponds to the distance between each beam 1 as shown in FIG. 2. That is, a pair of fitting members 30 are installed below the safety support 20 so as to correspond to the distance between neighboring beams 1 to be supported. On the other hand, the distance between each fitting member 30 forming a pair corresponds to the transverse width of the beam (1) to be supported. As a result, the distance between each fitting member 30 forming a pair corresponds to the lateral width of the beam 1, and the distance between each pair of such fitting members 30 corresponds to the distance between the beams 1. do. Therefore, when the safety support device 10 of the present invention is installed on the beam 1 adjacent to each other, the upper portion of the two beams 1 adjacent to each other between the pair of fitting member 30 by a predetermined length It is inserted into and fixed. Thus, two or more beams 1 adjacent to each other are connected and fixed to each other by the safety support device 10 of the present invention, thereby preventing the beam 1 from being conducted or shifted in position.

On the other hand, the fitting member 30 in the beam mounting safety support device 10 of the present invention is installed to adjust the spacing. To this end, the bottom surface 22 of the safety support 20 is formed with a plurality of the above-described through hole 28, a pair spaced apart. Therefore, the operator adjusts the distance between the fitting members 30 by varying the through hole 28 to which the fitting member 30 is fastened according to the distance between the beams 1 or the transverse width of the beam 1. It becomes possible.

In addition, when the beam mounting safety support device 10 of the present invention is installed on the upper portion of the beam 1, the safety support device 10 to prevent movement along the longitudinal direction of the beam (1) It may be configured to be fixed to the upper portion of the beam (1) by the fixing unit (40). As described above, the state in which the safety support device 10 is fixed by the fixing unit 40 is illustrated in detail with reference to FIGS. 4 to 6, which will be described below with reference to FIGS. 4 to 6.

4 is a plan view of FIG. 3, in which the safety support device 10 is fixed to the upper portion of the beam 1 by the fixing unit 40, and FIG. 5 is a detailed cross-sectional view of the circle B portion of FIG. 4. 6 is a cross-sectional view taken along line CC of FIG. 4. In FIG. 3, both side walls 24 of the safety support 20 are shown to be fixed to the shear reinforcing bar 4 above the beam 1 by the fixing unit 40. Only one side of the support 20 is shown to be fixed to the shear reinforcement 4 by the fixing unit 40.

Referring to FIG. 4, the fixing unit 40 passes through a through hole (see FIG. 3, 25) formed in the side wall 24 of the safety support 20, and the shear reinforcing bar 4 protruding above the beam 1. The first and second washers 44 and 46 fitted with the U-shaped bolts 42 and the U-shaped bolts 42, respectively, wherein the shear bars 4 are positioned in the spaces therebetween. The two washers 44, 46 include a nut 48 for applying pressure so as to be held in close contact with the shear bar 4.

5 and 6, the U-shaped bolt 42 is located through the through-hole 25 formed in the side wall 24 from the inside of the safety support 20 to the outside, and the safety support. Between the U-shaped bolts 42 protruding out of the side wall 24 of the 20, the shear reinforcing bars 4 protruding above the beam 1 are positioned. In this way, the first washer 44 and the second washer 46 are fitted into the U-shaped bolts 42 protruding to the outside of the side wall 24, and the space between the first and second washers 44 and 46 is provided. It is fitted to the U-shaped bolt 42 so that the shear reinforcing bar 4 is located. On the other hand, the nut 48 is fastened to both ends of the U-shaped bolt 42 so that the first and second washers 44 and 46 are pressed against the shear reinforcing bar 4 so as to be tightly fixed through the second washer 46. Will be added. Preferably, the first and second washers 44, 46 face each other, that is, the surface facing the shear reinforcing bar 4, to form a non-slip treatment, for example a tooth 47, to form the first and second washers. When (44, 46) is in close contact with the shear rebar (4) is to be fixed without slipping.

Looking at the function of the fixing unit 40 described above, the first and second washers (44, 46) are shear reinforcement (4) by the pressure acting by the nut 48 is fastened to both ends of the U-shaped bolt (42) ) Is fixed in close contact. As the first and second washers 44 and 46 are fixed to the shear rebar 4 as described above, the safety support 20 is connected to the first and second washers 44 and 46 through the U-shaped bolts 42. ) Is similarly fixed to the shear bar 4. Accordingly, the safety support device 10 installed on the upper part of the beam 1 is fixed to the shear reinforcing bar 4 protruding from the upper part of the beam 1, that is, the upper part of the beam 1, by the fixing unit 40. Movement along the longitudinal direction of the beam 1 is prevented.

On the other hand, as shown in Figure 3, the side wall 24 of the safety support 20, it is preferable that a plurality of through-holes 25 are formed spaced apart along a straight line. Thereby, by installing the U-shaped bolts 42 through the appropriate through-holes 25 in accordance with the position of the shear reinforcing bar 4 above the beam 1, the distance between the U-shaped bolts 42 can be adjusted. .

Preferably in the beam mounting safety support device 10 according to the present invention, the safety support 20 and the fitting member 30 is made of a lightweight material, for example, aluminum alloy. As described above, since the safety support device 10 of the present invention is manufactured by a light material, when the safety support device 10 of the present invention is installed on the beam 1, the safety support device 10 can be safely and easily installed.

7 is a perspective view showing a state of assembling the safety support device 10 of the present invention.

Referring to Figure 7 the process of installing the beam mounting safety support device 10 according to a preferred embodiment of the present invention configured as described above is as follows.

 First, the operator places the safety support 20 on the beam 1 in the beam support safety support device 10 of the present invention. In this case, the safety support 20 is positioned transversely across the top of the two or more beams 1 mounted on top of the piers (see FIGS. 2 and 2).

After placing the safety support 20 on the upper portion of the beam 1, the operator is to install two or more pairs of fitting members 30 in the lower portion of the safety support 20. Specifically, the worker is installed and fixed to the lower portion of the safety support 20 so that the fitting member 30 is in close contact with both side walls of the beam 1 so as to fix the upper portion of the beam (1). In this manner, two or more pairs of fitting members 30 are installed on both sides of the two or more beams 1 along the longitudinal direction of the safety support 2. In this case, the operator fastens the fitting member 30 to the through holes 28 at appropriate intervals among the plurality of through holes 28 formed on the bottom surface 22 of the safety support 20, thereby providing the width of the beam 1. In accordance with, or according to the interval between the beams (1) it is possible to adjust the interval of the fitting member (30). As a result, an upper portion of the beam 1 is inserted between the pair of fitting members 30 installed below the safety support 20, and by the two pairs of fitting members 30 installed along the safety support 20. Neighboring beams 1 are connected and fixed.

On the other hand, in addition to the above-described method, the operator first assembled the safety support 20 and the fitting member 30 in accordance with the distance between the beam 1 and the width of the beam 1 in a separate place, and then assembled safety The support device 10 can also be installed on top of the beam 1.

After installing the fitting member 30, the operator is to fix the safety support device 10 to the upper portion of the beam (1) by the fixing unit (40). First, the operator places the first washer 44 between the shear reinforcing bar 4 and the outer side wall 24 of the safety support 20, and then the U-shaped bolt 42 places the through hole 25 of the side wall 24. And through the first washer 44. As a result, the shear reinforcing bars 4 are positioned between both ends of the U-shaped bolts 42 protruding from the outside of the safety support 20. Subsequently, the second washer 46 is inserted into the U-shaped bolt 42, and then the nuts 48 are fastened to both ends of the U-shaped bolt 42 so that the first and second washers 44 and 46 are shear reinforcing bars ( 4) to be fixed in close contact. As the first and second washers 44 and 46 are fixed to the shear rebar 4 as described above, the safety support 20 is connected to the first and second washers 44 and 46 through the U-shaped bolts 42. ) Is likewise fixed to the shear reinforcing bar 4, thereby preventing movement along the longitudinal direction of the beam 1.

In this way, the operator secures the mounted beam 1 safely by continuously installing the safety support device 1 along the transverse direction of the beam 1 mounted on the upper part of the pier 2, Or prevent the position from being moved.

Although in the above description, the beam support safety support device of the present invention has been described as fixing two beams adjacent to each other, the present invention is not limited thereto, and extends the length of the safety support and adds a pair of fitting members. By installing it, it is also possible to fix three or more beams.

In the above, the beam mounting safety support device according to the present invention has been described in detail with reference to the specific embodiment shown in the accompanying drawings, which is only one preferred embodiment, the scope of the present invention is limited to this no. Therefore, the embodiments of the present invention as described above can be variously modified and equivalent other embodiments by those of ordinary skill in the art within the technical spirit of the present invention, such modifications and equivalent other embodiments are Naturally, it belongs to the attached utility model registration claim of the invention.

As described above, according to the beam mounting safety support device of the present invention, the beam is first supported by the fitting member, and the beam is fixed secondarily by integrating the neighboring beam and the safety support device by the fixing unit. In the construction process of the beam, the beam mounted on the upper part of the pier is simple, safe, and easily supported and fixed to prevent the beam from falling or moving the position of the beam.

In addition, since the safety support device of the present invention is made of a lightweight material, for example, aluminum alloy, it is light in weight, easy to handle, and easy to manufacture. Therefore, when installing the safety support device of the present invention in the bridge construction site can be easily installed, even when working high in the upper portion of the beam can be safely worked.

In addition, according to the safety support device of the present invention, the distance between the fitting member for fixing each beam, and the interval of the U-shaped bolt for fixing the safety support to the upper portion of the beam to be appropriately adjusted according to the situation at the bridge construction site Therefore, it is possible to increase the site adaptability at the construction site.

In the present specification, the PSC beam 1 has been described that the apparatus of the present invention is used in a state in which the pier is installed between the piers and the piers or between the piers and the alternators, but the present invention is not limited thereto, and the apparatus of the present invention is used even when the beam is placed on the ground. This can prevent the conduction of the beam.

Claims (7)

An apparatus for supporting a plurality of beams (1) mounted on top of the pier (2) during the construction of the bridge, A safety support 20 fixed across the top of the at least two beams 1 transversely; Two or more pairs are installed in the lower portion of the safety support 20 corresponding to the interval between the beams 1, and each of the pairs is spaced apart from each other by an interval corresponding to the transverse width of the beam 1. Including a fitting member 30 is installed, Safety support device for beam mounting, characterized in that the upper portion of the beam (1) is inserted and fixed in the space between the pair of fitting members (30) by a predetermined length. The method of claim 1, The safety support 20 is formed of a U-shaped steel including a bottom surface 22 and a pair of sidewalls 24 extending vertically from both sides of the bottom surface 22 to face each other. Safety support device for beam mounting. The method of claim 2, The bottom surface 22 is formed with a plurality of through holes 28 spaced apart at predetermined intervals, By fastening the fitting member 30 to the lower portion of the safety support 20 by the bolt 26 penetrating the through hole 28, it is possible to adjust the interval between the fitting member 30. Safety support device for beam mounting. The method of claim 2, The safety support (20) is a beam mounting safety support device, characterized in that fixed to the upper portion of the beam (1) by a fixed unit (40). The method of claim 4, wherein The fixed unit 40, A U-shaped bolt 42 penetrating through the through-hole 25 formed in the side wall 24 from the inside of the safety support 20 to surround the shear reinforcing bar 4 protruding above the beam 1. )Wow, A first washer 44 and a second washer 46 each fitted into the U-shaped bolts 42, in which the shear reinforcing bar 4 is located in the space therebetween; And a nut 48 fastened to the U-shaped bolt 42 to apply pressure to the shear reinforcing bar 4 so that the first and second washers 44 and 46 are tightly fixed. Mounting safety support device. The method of claim 5, The through-hole 25 is formed along the side wall 24 of the safety support 20, the position of the U-shaped bolt 42 in accordance with the position of the shear reinforcing bar (4) above the beam (1) Beam support safety support device, characterized in that the adjustable. The method of claim 5, The first washer (44) and the second washer (46) is a safety support device for beam mounting, characterized in that the non-slip treatment on the surface in contact with the shear bar (4).

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