KR101016768B1 - Prevention apparatus for turnover of girder - Google Patents

Abstract

PURPOSE: A prevention device for turnover of a girder is provided to prevent damage to a support structure of a girder and to reduce the time to install and disassemble a girder. CONSTITUTION: A prevention device for turnover of a girder comprises a pair of flange supporting members(100), a pair of inclined support members(200) and a bottom support member(300). A pair of flange supporting members is installed on both sides of an upper flange(11) of a girder(10). The bottom support member is combined in the bottom of a pair of inclined support members.

Description

Girder fall prevention device {PREVENTION APPARATUS FOR TURNOVER OF GIRDER}

TECHNICAL FIELD The present invention relates to the field of construction, and more particularly, to a girder of a bridge.

Girders installed between the girder support structure (coping or pier) of the bridge and the top plate generally have an I-shaped cross section, which is structurally weak after installation on the support structure and before the top plate is installed. Risk of falling down).

Figure 1 shows a structure for preventing the fall of the conventional PF beam, in order to prevent the fall of the girder 10, welding the L-shaped angle 30 between the upper flanges 11, cross-beam concrete casting When the L-shaped angle (30) is taken to be embedded together in concrete without dismantling.

Figure 2 shows a structure for preventing the fall of a conventional general beam, the turn buckle 41 is installed in the coping 20, coupled to the stranded wire 40 to it, the upper flange 11 is the stranded wire ( By supporting by 40), a method of preventing the girder 10 from falling down is taken.

This conventional girder fall prevention device (system) had the following problems.

First, the fall prevention device of the girder is a temporary structure required during construction, so the installation and dismantling of the girder should be easy, but the prior art does not.

Second, the prior art has a problem that damage to the girder support structure (coping or pier) to install the turn buckle 41 after drilling to install the fall prevention device of the girder.

The present invention is derived to solve the above problems, it is an object of the present invention to propose a fall prevention device of the girder that is easy to install and dismantle, so as not to damage the support structure of the girder.

In order to solve the above problems, the present invention is a pair of flange support member 100 which is installed to support both sides of the upper flange (11) of the girder (10); A pair of inclined support members 200 having an upper end coupled to the pair of flange support members 100; Coupled to the lower end of the pair of inclined support member 200, so that the distance between the lower end is greater than the distance between the upper end of the pair of inclined support member 200, the girder 10 of the It proposes a fall prevention device of the girder comprising a; lower support means 300 installed on the upper portion of the support structure (20).

The lower support means 300 is coupled to the lower end of the pair of inclined support member 200, and includes a support plate 310 mounted on the upper portion of the support structure 20 of the girder 10. desirable.

The lower support means 300 are coupled to the lower ends of the pair of inclined support members 200, respectively, and a pair of support plates 310 mounted on an upper portion of the support structure 20 of the girder 10. ; It is preferable to include a; support plate gap maintaining member 320 is installed to maintain the gap between the pair of support plate 310.

The lower end of the inclined support member 200 is preferably hinged to the support plate 310 so as to be rotatable in the conduction direction of the girder 10.

Both ends of the support plate spacing member 320 may be hinged to the pair of support plates 310 so as to be rotatable in the conduction direction of the girder 10.

The upper end of the inclined support member 200 is preferably hinged to the flange support member 100 so as to be rotatable in the conduction direction of the girder 10.

The upper end of the inclined support member 200 is preferably coupled to the flange support member 100 to be detachable.

The flange support member 100 is a "c" shaped cross section so that the edge of the upper flange 11 is inserted, the top of the inclined support member 200 is a flange support of the "c" shaped cross section It is preferred that the bottom plate 110 of the member 100 is detachably coupled to the bottom plate 110.

The inclined support member 200 is a rod-shaped support 210; And a coupling plate 220 hinged at an upper end of the rod-shaped support 210, wherein the flange support member 100 is formed below the bottom plate 110 so that the coupling plate 220 is fitted. Coupling plate fitting 111; It is preferable to include; rod-shaped support portion exposed hole 112 formed in the core portion of the coupling plate fitting portion 111 so that the rod-shaped support portion 210 is exposed to the bottom.

The top plate 120 of the flange support member 100 is preferably provided with a screw jack 121 for coupling with the upper flange (11).

The inclined support member 200 is preferably a structure capable of adjusting the length.

The inclined support member 200 has a tubular structure, the upper support portion 211 is formed with a screw thread on the inner peripheral surface of the lower end; A central support portion 212 having a tubular structure and having a thread formed on an inner circumferential surface of the upper end thereof; A length adjusting part 213 formed to be screwed between the upper support part 211 and the central support part 212; It is preferable to include; a handle portion 214 protruding outward from the central portion of the length adjusting portion 213.

The inclined support member 200 preferably further includes a lower support portion 215 formed so that the lower end is hinged to the support plate 310 and the upper end is inserted into the lower end of the central support portion 212.

Preferably, the flange support member 100 further includes a flange gap maintaining member 400 installed to maintain a gap between the flange support member 100a of the other fall prevention device installed adjacent to the flange support member 100.

Both end portions of the flange gap retaining member 400 are provided with a fitting portion 401 extending downward, and a fitting groove for fitting the fitting portion 401 to the side plate 130 of the flange supporting member 100. It is preferable that the fitting groove forming unit 131 is installed to form the same.

The fitting portion 401 and the fitting groove forming portion 131 preferably have a circular cross-sectional structure.

The flange spacing member 400 is preferably a structure capable of adjusting the length.

The flange spacing member 400 has one side support portion 410 of the tubular structure; The other side supporting part 420 having an end portion inserted into the one supporting part 410; It is preferable to include a; fixing portion 430 for fixing the other side support portion 420 inserted into the one side support portion 410.

The present invention proposes a fall prevention device of a girder that is easy to install and dismantle and does not damage the support structure of the girder.

1 is a perspective view of a conventional PF beam fall prevention device.
Figure 2 is a perspective view of the fall prevention device of a conventional general beam.
3 or less shows an embodiment of the present invention,
3 is a cross-sectional view of the first embodiment of the fall prevention apparatus.
Figure 4 is a perspective view of a second embodiment of the fall prevention device.
5 is a perspective view of a flange support member.
6 is a perspective view of the inclined support member and the support plate.
7 is a perspective view of the coupling of the flange support member and the inclined support member.
8 is a perspective view of a flange spacing member.
Figure 9 is a perspective view of the coupling of the flange support member and the flange spacing member.
10 is a perspective view of a third embodiment of the fall prevention apparatus.
11 is a sectional view of a third embodiment of an anti-conduction device;
12 is a plan view of a fourth embodiment of an anti-conduction device;

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

As shown below in Figure 3, the fall prevention device of the girder according to the present invention, basically, a pair of flange support member 100 is installed to support both sides of the upper flange 11 of the girder 10; A pair of inclined support members 200 having upper ends coupled to the pair of flange support members 100, respectively; Coupled to the bottom of the pair of inclined support member 200, so as to form a greater distance between the lower end than the distance between the top of the pair of inclined support member 200, the support structure of the girder 10 ( It is configured to include; lower support means 300 installed on the upper portion of the 20.

That is, both sides of the upper flange 11 are supported by the pair of flange support members 100, and this is inclined by the pair of inclined support members 200, the lower ends of which are supported by the lower support means 300. It was to be supported.

The flange support member 100, the inclined support member 200, the lower support means 300 can be easily installed and dismantled, there is no damage to the support structure (coping, piers: 20) of the girder for its installation There are advantages such as not giving.

Lower support means 300 is coupled to the lower end of the pair of inclined support member 200, any configuration that can support so that the distance between them is greater than the distance between the top, regardless of which, Figure 3 is a girder ( 10 illustrates an embodiment implemented by the structure of the support plate 310 mounted on top of the support structure 20.

The lower support means 300 includes a pair of support plates 310 coupled to the lower ends of the pair of inclined support members 200 and mounted on an upper portion of the support structure 20 of the girder 10; It can be implemented by a structure including a; support plate spacing maintaining member 320 is installed to maintain the gap between the pair of support plate 310, which can achieve a stable structure while minimizing the amount of material used There is (Figure 4).

The lower end of the inclined support member 200 may have a structure that is fixedly coupled to the support plate 310, but to the support plate 310 so as to be rotatable toward the conduction direction of the girder 10. In the case of the hinge coupling structure, there is an advantage that the generation of dangerous stress can be prevented even if the girder 10 is slightly shaken to the side (FIGS. 6, 7, and 11).

For this reason, it is preferable that both ends of the support plate spacing holding member 320 have a structure in which the pair of support plates 310 are hinged so as to be rotatable in the conduction direction of the girder 10, and the inclined support member 200 It is preferable to take the structure hinged to the flange support member 100 so as to be rotatable in the upper direction of the girder 10 in the conduction direction (Fig. 6, 7, 11).

In order to facilitate the installation and dismantling of the fall prevention device as a temporary structure, it is preferable to take a structure in which the upper end of the inclined support member 200 is detachably coupled to the flange support member 100 (FIGS. 5 to 7). .

To this end, specifically, the flange support member 100 takes the structure of the "C" cross-section, so that the edge portion of the upper flange 11, the top of the inclined support member 200 is the structure of the "C" cross-section It is preferable to take a structure that is detachably coupled to the bottom plate 110 of the flange support member 100 (FIGS. 5 to 7).

Here, the inclined support member 200, rod-shaped support portion 210; The upper end of the rod-shaped support portion 210 is hinged coupling plate 220; includes, the flange support member 100, the coupling plate formed in the lower portion of the bottom plate 110 so that the coupling plate 220 is fitted Part 111; When the structure including a; rod-shaped support portion exposed hole 112 formed in the core portion of the coupling plate fitting portion 111 so that the rod-shaped support portion 210 is exposed to the lower portion, the coupling plate 220 for the coupling plate fitting portion 111 ) Is added, an advantage of preventing contact between the rod-shaped support part 210 and the coupling plate fitting part 111 is added (FIGS. 6 and 7).

When the screw jack 121 for coupling with the upper flange 11 is installed on the top plate 120 of the flange support member 100 of the structure having a cross-section "c", for easy tightening operation of the screw jack 121 There is an advantage that can achieve a stable coupling of the upper flange 11 and the flange support member 100 (Figs. 5, 10, 11)

When the inclined support member 200 is formed in a structure capable of adjusting the length, there is an effect that the height of the inclined support member 200 can be adjusted according to the mold height of the girder.

The length adjusting structure of the inclined support member 200 is specifically, a tubular structure, the upper support portion 211 is formed with a screw thread on the inner peripheral surface of the bottom; A central support portion 212 having a tubular structure and having a thread formed on an inner circumferential surface of the upper end thereof; A length adjusting part 213 formed to be screwed between the upper support part 211 and the central support part 212; The handle portion 214 protruding outward from the central portion of the length adjusting portion 213; and may be formed by a structure including (FIG. 6).

When the upper end of the lower support portion 215 hinged to the support plate 310 has a structure formed to be inserted into the lower end of the central support portion 212, since the central support portion 212 and the lower support portion 215 is removable The added advantage is that the overall structure can be more easily assembled and disassembled.

In the above has been described with respect to the embodiment for installing the fall prevention device only for one girder 10, when a plurality of girders (10, 10a) are installed adjacent to, more stable fall prevention structure can be implemented as follows. have.

That is, the structure for installing the flange gap holding member 400 so as to maintain the gap between the flange support member 100a of the other fall prevention device installed adjacent to the flange support member 100 (Figs. 8 to 12).

The gap holding member 400 supports the flange support member 100 installed on the upper flange 11 of the one side girder 10 and the flange support installed on the upper flange 11a of the other girder 10a adjacently installed. It is provided to maintain the space | interval of the member 100a, and restrains the relative movement of the girders 10 and 10a of both sides, and prevents fall.

A pair of flange support members (100, 100a) are installed on each side of the girders (10, 10a), respectively, the spacing member (400) is structural stability, installation is installed on the adjacent flange support members (100, 100a) It is preferable in terms of convenience.

Both ends of the flange gap retaining member 400 are extended to the fitting portion 401 toward the lower side, the side plate 130 of the flange support member 100 so that the fitting groove for the fitting portion 401 is formed to be formed It is preferable to take the structure in which the fitting groove forming portion 131 is installed in terms of structural stability and construction convenience (FIGS. 9 to 11).

Here, when the fitting portion 401 and the fitting groove forming portion 131 take the structure of the circular cross section, rotational driving of the fitting portion 401 with respect to the fitting groove is possible, so that the girder 10 and 10a of both sides must be Even when the flange support members 100 and 100a are not installed to face each other, an advantage of achieving a stable coupling is added (FIG. 12).

It is preferable in view of the convenience of construction to take a structure that can be adjusted in the length of the flange spacing member 400.

The length adjustment structure of the flange spacing member 400 is specifically, one side support portion 410 of the tubular structure; The other side supporting part 420 having an end portion inserted into the one supporting part 410; It may be implemented by a structure including a; fixing portion 430 for fixing the other support portion 420 in the state inserted into the one support portion 410 (Fig. 8).

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

10 girder 11: upper flange
100: support member 110: bottom plate
111: engaging plate fitting 112: rod-shaped support portion exposed hole
120: top plate 121: screw jack
130: side plate 131: fitting groove forming part
200: inclined support member 210: rod-shaped support
211: upper support 212: center support
213: length adjusting section 214: handle section
215: lower support portion 220: coupling plate
300: lower support means 310: support plate
320: support plate spacing member 400: flange spacing member
401: fitting 410: one side support
420: the other side support portion 430: fixed portion

Claims (18)

A pair of flange support members 100 installed to support both sides of the upper flange 11 of the girder 10;
A pair of inclined support members 200 having an upper end coupled to the pair of flange support members 100;
Coupled to the lower end of the pair of inclined support member 200, so that the distance between the lower end is greater than the distance between the upper end of the pair of inclined support member 200, the girder 10 of the Lower support means 300 installed on the upper portion of the support structure 20;
An anti-conduction device of girder, comprising: The method of claim 1,
The lower support means 300 is
Coupled to the lower end of the pair of inclined support member 200, and the fall prevention device of the girder, characterized in that it comprises a support plate 310 mounted on top of the support structure 20 of the girder 10 . The method of claim 1,
The lower support means 300 is
A pair of support plates 310 coupled to lower ends of the pair of inclined support members 200 and mounted on an upper portion of the support structure 20 of the girder 10;
A support plate gap maintaining member 320 installed to maintain a gap between the pair of support plates 310;
An anti-conduction device of girder, comprising: The method of claim 3,
The lower end of the inclined support member 200 is hinged to the support plate 310, so as to be rotatable in the conduction direction of the girder (10). The method of claim 4, wherein
Both ends of the support plate spacing member 320 is hinged to the pair of support plates 310 so as to be rotatable in the conduction direction of the girder 10. The method of claim 1,
An upper end of the inclined support member 200 is hinged to the flange support member 100 so as to be rotatable in the conduction direction of the girder. The method of claim 1,
An upper end of the inclined support member 200 is coupled to the flange support member 100 detachably coupled to the girder. The method of claim 7, wherein
The flange support member 100 is a structure of the "C" cross section, so that the edge portion of the upper flange 11 is inserted,
An upper end of the inclined support member 200 is coupled to the bottom plate 110 of the flange support member 100 of the "C" cross-section structure detachably coupled to the girder, characterized in that coupled. The method of claim 8,
The inclined support member 200
Rod-shaped support 210;
And a coupling plate 220 hinged at an upper end of the rod-shaped support 210.
The flange support member 100 is
A coupling plate fitting 111 formed at a lower portion of the bottom plate 110 so that the coupling plate 220 is fitted;
And a bar-shaped support part exposing hole 112 formed in the core portion of the coupling plate fitting part 111 so that the bar-shaped support part 210 is exposed downward. The method of claim 8,
The top plate 120 of the flange support member 100, a screw jack 121 for coupling with the upper flange 11 is characterized in that the girder fall prevention device. The method of claim 4, wherein
The inclined support member 200 is the fall prevention device of the girder, characterized in that the structure is adjustable in length. The method of claim 11,
The inclined support member 200
An upper support portion 211 having a tubular structure, the thread formed on the inner peripheral surface of the lower end;
A central support portion 212 having a tubular structure and having a thread formed on an inner circumferential surface of the upper end thereof;
A length adjusting part 213 formed to be screwed between the upper support part 211 and the central support part 212;
A handle portion 214 protruding outward from a central portion of the length adjusting portion 213;
An anti-conduction device of girder, comprising: The method of claim 12,
The inclined support member 200
A lower end hinged to the support plate 310, the upper end of the girder, characterized in that it further comprises a lower support portion (215) formed to be inserted into the lower end of the central support (212). The method of claim 1,
Fall prevention device of the girder, characterized in that it further comprises a flange gap holding member 400 is installed to maintain the gap of the flange support member (100a) of the other fall prevention device installed adjacent to the flange support member (100) . The method of claim 14,
Both ends of the flange spacing member 400, the fitting portion 401 is extended toward the lower side,
Side plate 130 of the flange support member 100, fall prevention device of the girder, characterized in that the fitting groove forming portion 131 is installed so that the fitting groove for the fitting portion 401 is formed. 16. The method of claim 15,
The fitting portion 401 and the fitting groove forming portion 131 is a fall prevention device of the girder, characterized in that the structure of the circular cross section. The method of claim 14,
The flange spacing member 400 is the fall prevention device of the girder, characterized in that the structure is adjustable in length. The method of claim 17,
The flange spacing member 400 is
One side support portion 410 of the tubular structure;
The other side supporting part 420 having an end portion inserted into the one supporting part 410;
A fixing part 430 for fixing the other supporting part 420 inserted into the one supporting part 410;
An anti-conduction device of girder, comprising:

Images