KR100978502B1 - Supporting apparatus for slab form of bridge - Google Patents

Abstract

PURPOSE: A support device for a slab form of a bridge is provided to stably support a form by preventing the support device from being moved and to reduce manufacturing costs by simplifying the structure of the device. CONSTITUTION: A support device(10) for a slab form of a bridge comprises a fixing tie(50), a body(20), a support bracket(30), and interval controller(40). The fixing tie is composed of a mounting part(52) and a fixing part(53). The mounting part is placed on the top of a girder(2). The fixing part is extended from the mounting part. The body is located on the side surface of the girder, and the top end is fixed to the fixing part of the fixing tie. The support bracket is installed in the top end of the body through a height controller(35). The interval controller is installed in the bottom end of the body and controls an interval between the girder and the body.

Description

Supporting apparatus for slab form of bridge}

The present invention relates to a support device for a slab formwork of a bridge, and more particularly, in installing a support device on the side of the girder to support the slab formwork, the support device is provided with a gap adjusting means for supporting the girder and the girder. Since the distance between the devices can be easily adjusted, it can be applied to all types of girders, and the fixing part of the fixing tie for fixing the support device to the girder is formed to be inclined to prevent the flow of the support device due to the lateral force when laying the concrete slab. The present invention relates to a support device for a slab formwork of a bridge, which can prevent and thereby stably support the formwork, and further simplify the overall structure to reduce manufacturing costs.

In general, bridges and bridges are installed spaced apart from each other by a predetermined interval, and the support device is installed on the top of the bridge and the pier, and the pre-fabricated girders are installed on the top of the support device.

In addition, the reinforcing bar (not shown) on the upper side of the girder is laid concrete to a certain height to form a concrete slab. Thereafter, the upper side of the concrete slab is subjected to the pavement paving with asphalt or the like as necessary.

The girder is various in kind depending on its shape such as steel box girder, PSC box girder, steel plate girder, H-beam girder.

And, in order to form concrete slab by installing concrete on the upper side of the girder, formwork must first be installed in the space between the respective girder.

At this time, the support device is installed on the side of the girder to support the formwork to be installed between each girder.

As the conventional support device, Korean Patent Registration No. 0834185 (name: support having an angle adjusting function of a bridge slab panel) is disclosed.

The prior art, a body consisting of a plurality of frames, a rotating bar rotatably installed on the upper end of the body, an angle adjusting device installed at the end of the body to adjust the angle of the rotating bar, the body of the bridge Consists of right angle fixing tie for fixed installation on girders.

Accordingly, the body is fixed to the side of each girder by using the fixing tie, and a mounting bar is installed on the top of the rotating bar of the body installed on the side of each girder.

Subsequently, after adjusting the angle of the rotating bar seated on the rotating bar by adjusting the angle of the rotating bar through the angle adjusting device, the formwork is installed on the upper side of the mounting bar.

Then, concrete is laid on the upper side of the formwork to form a concrete slab.

However, the prior art, when installing the support device on the side of the girder, there is a problem that only the specific type of girder should be used because it can not adjust the distance between the girder and the support device, and thus When installing on the girder, there is a problem in that the support device needs to be re-made for the girder and the manufacturing cost increases.

In addition, the fixing tie for fixing the conventional support device to the girder is formed at a right angle, the fixed tie for supporting the support device by the lateral force acting upon the concrete installation on the upper side of the formwork does not maintain a right angle to the outside Direction, and the support device flows, so that the formwork position is shifted, the formwork also flows, and thus there is a problem that the formwork cannot be stably supported.

In addition, since the rotary bar must be rotatably installed on the top of the body to support the mounting bar supporting the formwork, there is a problem in that the structure is complicated and the manufacturing cost is also increased.

An object of the present invention for solving the above problems is to provide a support device on the side of the girder to support the slab formwork, the gap between the girder and the support device is provided with a gap adjusting means in the support device Since it can be easily adjusted, it can be applied to all types of girders, and the fixing part of the fixing tie for fixing the support device to the girder is formed to be inclined to prevent the flow of the support device due to the lateral force when laying the concrete slab. It is possible to stably support the formwork, and to provide a support device for the slab formwork of the bridge to further simplify the overall structure to reduce the manufacturing cost.

The present invention for achieving the above object, in the installation of a concrete slab on the girder of the bridge, in the support device for the slab formwork of the bridge is installed on the side of the girder to support the formwork of the concrete slab, A fixing tie composed of a seating portion installed on an upper side and a fixing portion extending downward from the side of the girder from the seating portion, and a side of the girder and one side of the upper end fixed to the fixing portion of the fixing tie. A support bracket for supporting a lower end of the support frame supporting the lower side of the formwork and being installed to be adjustable in height in a vertical direction through height adjustment means on the other side of the upper end of the body and the lower end of the body. In addition to being installed, including a gap adjusting means for adjusting the gap between the girder and the body ,
The gap adjusting means is coupled to the lower end of the body in the horizontal direction, and the side of the hollow outer cap formed with a plurality of first through-holes at a predetermined interval, and is slidably inserted into the outer cap and installed on the side A plurality of second through holes are formed at the same interval as the first through holes so that one end thereof contacts the girder, and the first through holes and the second through holes are inserted into the slider to adjust the position of the slider with respect to the outer cap. It consists of adjusting pins to adjust the gap between the girder and the body,
The fixing part of the fixing tie extends downwardly from the seating part, but is formed to be inclined at an angle with respect to the vertical direction of the seating part, and is fixed to the body inclinedly.

The present invention, in installing a support device on the side of the girder to support the slab formwork, by providing a gap adjusting means to the support device to easily adjust the distance between the girder and the support device, to various forms of girder All can be applied and this saves costs by eliminating the need for separate support devices for each girder type.

And, by forming the fixing portion of the fixing tie for fixing the support device to the girder inclined, even if the lateral force acts on the support device during the concrete installation, the fixing portion of the fixing tie is no longer opened in the outward direction to prevent the flow of the support device The formwork support position also does not deviate from the initial position can support the formwork more stably.

In addition, by installing a height adjusting means consisting of a support tube, a screw shaft, a height adjustment nut on the outer end of the body to adjust the height of the support frame supporting the formwork, the height of the support bracket on which the support frame is seated, By simply adjusting in the direction, the overall structure for adjusting the height of the support frame is simple to reduce the manufacturing cost.

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

Repeated description of the same parts as in the prior art will be omitted.

1 is a view showing a state in which the support device for slab formwork of the bridge according to the invention is installed in the girder, Figure 2 is a view showing the support device for slab formwork of the bridge according to the invention, Figure 3 is in accordance with the present invention It is an exploded perspective view which shows the support device for slab formwork of a bridge.

As is known, the bridge 1 is provided with alternating ends at both ends of the bridge 1, and a predetermined number of bridges are provided between the shifts depending on the length of the bridge 1.

In addition, a support device (not shown) is installed at the upper end of the shift and the pier, and a pre-fabricated girder 2 is installed at the upper end of the support device.

Here, the girder 2 may be formed in various shapes and structures according to the upper structure of the bridge (1), such as steel bridge, reinforced concrete bridge. For example, the girder 2 may be of various kinds depending on its shape such as steel box girder, PSC box girder, steel plate girder, H-beam girder.

Hereinafter, in the present invention, a case in which the support device 10 is installed in the H-beam girder 2 will be described as an example.

In addition, the upper side of the girder 2, the concrete slab 5 is installed to a certain height, the upper side of the concrete slab 5 is subjected to the cross-section paving, such as asphalt, if necessary.

Since the bridge 1 is well known, a detailed description thereof will be omitted. Hereinafter, the support device 10 for the slab formwork of the bridge according to the present invention will be described in detail.

The support device 10, the side of the girder 2 to support the formwork 6 of the concrete slab 5 when installing the concrete slab 5 on the girder 2 of the bridge (1) As a device to be installed in, it consists of a fixing tie 50, the body 20, the support bracket 30, the gap adjusting means (40).

The fixing tie 50 is a seating portion 52 which is installed on the upper side of the girder 2 and a fixing portion 53 extending from the seating portion 52 to the lower side of the girder 2. It consists of.

Here, when installing the support device 10 on both sides of the girder 2, the fixing portion 53 is formed symmetrically on both ends of the seating portion 52, respectively.

If the support device 10 is installed only on one side of the girder 2, the fixing part 53 is formed only at one end of the seating part 52, and the seating part 52 is the girder 2. It is installed to be fixed by welding or bolts on the upper side of).

Of course, the fixing tie 50 may be fixed to a shear stud (not shown) installed on the upper side of the girder (2).

In addition, the fixing part 53 of the fixing tie 50 extends downward from the seating part 52 but is inclined at a predetermined angle with respect to the vertical direction of the seating part 52 to be inclined to the body 20. It is fixedly installed.

That is, when the concrete is installed on the upper side of the girder 2 and the formwork 6, the lateral force acts on the supporting device 10. As such, when the support device 10 coupled to the fixing part 53 of the fixing tie 50 receives a lateral force generated when concrete is laid, the fixing part 53 of the fixing tie 50 opens outward. .

Accordingly, in the present invention, the fixing tie 50 is reflected in advance to the fixing tie 50 by the lateral force generated when the concrete is laid.

That is, the fixing part 53 of the fixing tie 50 installed on the girder 2 is installed in the inclined direction, and thus the fixing part 53 of the fixing tie 50 is the support device ( 10) is fixed to the body 20 and installed inclined.

At this time, the angle between the fixing portion 53 and the seating portion 52 of the fixing tie 50 is an obtuse angle.

Therefore, even when the lateral force acts on the support device 10 when the concrete is laid, the fixing part 53 of the fixing tie 50 no longer opens outward, thereby preventing the flow of the support device 10 and supporting the formwork 6. The position is also misaligned at the initial position, so that the formwork 6 can be more stably supported.

On the other hand, the fixing tie 50 is formed in the form of a flat plate, and the lower portion of the fixing portion 53 is formed with a screw portion 53a for coupling with the nut 51 to be described below.

In addition, a pair of cutting grooves 54 are formed on both sides of the fixing portion 53 of the fixing tie 50 so that the fixing portion 53 can be easily cut after the concrete slab 5 is cured. .

In addition, the body 20 is located on the side of the girder 2 and one side of the upper end is fixed to the fixing part 53 of the fixing tie 50.

The body 20 is formed by forming the vertical frame 21, the horizontal frame 22 and the inclined frame 23 in a triangular form, both sides of the portion where the vertical frame 21 and the horizontal frame 22 is connected There is a pair of connecting the vertical frame 21 and the horizontal frame 22 in a spaced apart state to form a through passage 25 so that the fixing portion 53 of the fixing tie 50 therebetween. Plate 24 is installed.

The vertical frame 21, the horizontal frame 22, and the inclined frame 23 preferably use square pipes, but various types of frames may be used.

In addition, the fixing portion 53 of the fixing tie 50 is fixed to the nut 51 at the lower side of the pair of plates 24 through the through passage 25. That is, the fixing part 53 of the fixing tie 50 is inserted into the through passage 25 provided inside the pair of plates 24, and at this time, the high protruding downwards of the pair of plates 24. By coupling the nut 51 to the lower end screw portion 53a of the government 53, the body 20 of the support device 10 can be easily fixed to the fixing tie 50.

On the other hand, the lower side of the pair of plates 24 is formed as an inclined surface, that is, formed to be perpendicular to the inclined fixing portion 53 to support the nut 51 stably.

In addition, an interference prevention part 26 is formed to be inclined at an upper end of the vertical frame 21 so as not to interfere with the fixing part 53 of the fixing tie 50 which is formed to be inclined, and perpendicular to the upper end of the interference prevention part 26. Inside the frame 21, a support part 27 for tightly supporting the fixing part 53 of the inclined fixing tie 50 is installed.

Therefore, in the process of obliquely inserting the inclined fixing part 53 of the fixing tie 50 into the through passage 25 of the body 20, the interference preventing part 26 interferes with the vertical frame 21. This does not occur as well as the inclined interference prevention portion 26 can be maintained in a state in which the fixing portion 53 of the fixing tie 50 is inclined to the body 20 of the support device 10.

In addition, since the support part 27 installed inside the upper end of the vertical frame 21 closely supports the fixing part 53 of the fixing tie 50, after the installation of the supporting device 10 is completed, the vertical frame is completed. (21) ensures that it remains vertical.

In the drawing, only the case in which the interference prevention part 26 and the support part 27 are installed in the vertical frame 21 is illustrated, but the passageway through which the inclined fixing part 53 of the fixing tie 50 is inserted ( In the case of increasing the size of 25, the interference preventing part 26 and the support part 27 may be omitted.

On the other hand, the top surface of the pair of plates 24 is installed on the square wood 60, and the top surface of the pair of plates 24 "b" to hold the square wood 60 The angle 61 of the form is coupled.

The square timber 60 is used for fixing both ends of the formwork 6 by nails, etc., when the formwork 6 is installed on the upper side of the support device 10.

Meanwhile, a portion where the vertical frame 21 and the horizontal frame 22 meet is welded and fixed through the pair of plates 24, and a portion where the horizontal frame 22 and the inclined frame 23 meet is below. Weld fixed through the support pipe 36 to be described, the site where the vertical frame 21 and the inclined frame 23 is welded through the outer cap 41 to be described below.

In addition, the support bracket 30 is installed on the other end of the upper end of the body 20 through the height adjustment means 35 to be height-adjustable in the up and down direction and supports the lower side of the formwork 6 ( It will support the bottom of 7).

Here, the support bracket 30 is formed in a "c" shape of the upper opening so that the support frame 7 can be seated inward.

The height adjusting means 35 is a hollow support tube 36 that is vertically coupled to the coupling portion of the horizontal frame 22 and the inclined frame 23, and is inserted into the support tube 36 and the upper end Is composed of a screw shaft 37 is coupled to the lower end of the support bracket 30, the height adjustment nut 38 is screwed to the screw shaft 37 and installed on the upper end of the support tube 36. .

Accordingly, when the height adjustment nut 38 is rotated, the support bracket 30 moves upward and downward together with the screw shaft 37. At this time, the support frame seated on the support bracket 30 It is possible to easily adjust the installation height and angle of 7), thereby allowing the installation height and angle of the formwork 6 to be seated on the upper side of the support frame 7 can also be easily adjusted.

The gap adjusting means 40 is installed at the lower end of the body 20 and adjusts the gap G between the girder 2 and the body 20.

The gap adjusting means 40 is coupled to the lower end of the body 20 in the horizontal direction and the outer side of the hollow outer cap 41 and a plurality of first through-holes 42 are formed at a predetermined interval on the side, and the outside A plurality of second through holes 46 are formed at the same intervals as the first through holes 42 and slidably inserted into the caps 41 so that one end thereof contacts the girder 2. It is inserted into the slider 45, the first through hole 42 and the second through hole 46 to adjust the position of the slider 45 relative to the outer cap 41 to the girder 2 and the body ( It consists of a control pin 47 for adjusting the interval (G) between.

That is, as shown in Figure 1, when the support device 10 is installed on the side of the H-beam girder 2, the body 20 of the support device 10 is the vertical portion of the H-beam girder 2 ( 2a) is installed to be spaced apart from the predetermined interval (G), wherein the upper end of the body 20 is fixed to the upper flange (2b) side of the H-beam girder 2 via the fixing tie 50 is installed, the body ( The lower end of the 20 may be supported in close contact with the vertical portion 2a side of the H-shaped steel girder 2 through the gap adjusting means 40, thereby stably installing the supporting device 10.

In addition, according to the shape of the girder 2, the gap (G) at which the lower end of the body 20 is spaced apart from the side of the girder 2 is different, the present invention is the body through the gap adjusting means 40 Since the distance G between the 20 and the girder 2 can be easily adjusted, it is applicable to all types of girders 2.

That is, after sliding the slider 45 to fit the gap G between the body 20 and the girder 2, the second through hole 46 and the outer cap 41 of the slider 45 The first through-holes 42 are matched to each other, and the fixing pin 47 is inserted into and fixed to the first and second through-holes 42 and 46.

Hereinafter, the operation of the slab formwork support device 10 of the bridge according to the present invention will be described.

First, after mounting the fixing tie 50 on the upper side of the girder 2, the body 20 is placed on the side of the girder (2).

Then, the body by coupling the nut 51 to the lower end of the fixing portion 53 in the state in which the inclined fixing portion 53 of the fixing tie 50 is inserted into the through passage 25 of the body 20. 20 is fixedly installed on the side of the girder 2.

Subsequently, after the body 20 is fixedly installed on the fixing tie 50, the slider 45 of the gap adjusting means 40 is adapted to fit the gap G between the body 20 and the girder 2. Adjust the vertical frame 21 of the body 20 to be in a vertical state.

Thus, by adjusting the gap (G) between the body 20 and the girder (2) through the gap adjusting means 40 is that the support device 10 of the present invention can be installed in place.

Then, by adjusting the height adjusting nut 38 of the height adjusting means 35 to adjust the height of the support bracket 30 to the installation position of the formwork 6, the upper side of the support bracket 30 Seat the support frame (7).

Of course, the height adjustment nut 38 may be adjusted in a state in which the support frame 7 is first seated on the support bracket 30.

Subsequently, the formwork 6 is seated and installed on the upper side of the support frame 7, and both ends of the formwork 6 are fixed to the square wood 60 seated on the upper end of the body 20 with nails or the like.

In addition, the site where the formwork 6 and the girder 2 are in contact with each other to form a concrete slab 5 by installing concrete on the upper side of the formwork 6 and the girder 2 after the sealing operation is performed.

On the other hand, after curing of the concrete slab 5 is completed, the support device 10 is separated by releasing the nut 51 coupled to the fixing part 53 of the fixing tie 50, and the fixing tie ( The fixing part 53 of 50 is easily cut through the cutting groove 54.

1 is a view showing a state in which the support device for the slab formwork of the bridge according to the present invention is installed in the girder,

Figure 2 is a view showing a support device for slab formwork of the bridge according to the invention,

Figure 3 is an exploded perspective view showing a support device for slab formwork of the bridge according to the present invention.

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

1: bridge 2: girder

10: support device 20: body

21: vertical frame 22: horizontal frame

23: inclined frame 24: plate

25: through passage 26: interference prevention portion

27: support portion 30: support bracket

35: height adjustment means 36: support tube

37: Screw shaft 38: Height adjusting nut

40: gap adjusting means 41: outer cap

42: first through hole 45: slider

46: second through hole 50: fixed tie

51: nut 52: seating portion

53: fixing part

Claims (7)

When installing the concrete slab 5 on the girder 2 of the bridge 1, the support for the slab formwork of the bridge installed on the side of the girder 2 to support the formwork 6 of the concrete slab 5 In the apparatus, A fixing tie 50 consisting of a seating portion 52 seated and installed on an upper side of the girder 2 and a fixing portion 53 extending from the seating portion 52 toward the lower side of the girder 2; , The body 20 is located on the side of the girder 2 and the upper end one side is fixed to the fixing part 53 of the fixing tie 50, Support bracket for supporting the lower end of the support frame (7) supporting the lower side of the formwork 6 is installed to the height adjustment in the upper and lower directions through the height adjustment means 35 on the other side of the upper end of the body (20) 30, In addition to being installed at the lower end of the body 20, and comprises a gap adjusting means 40 for adjusting the gap (G) between the girder 2 and the body 20, The gap adjusting means 40 is coupled to the lower end of the body 20 in the horizontal direction and the outer side of the hollow outer cap 41 and a plurality of first through-holes 42 are formed at a predetermined interval on the side, and the outside A plurality of second through holes 46 are formed at the same intervals as the first through holes 42 and slidably inserted into the caps 41 so that one end thereof contacts the girder 2. It is inserted into the slider 45, the first through hole 42 and the second through hole 46 to adjust the position of the slider 45 relative to the outer cap 41 to the girder 2 and the body ( 20 is made of a control pin 47 for adjusting the interval (G) between, The fixing part 53 of the fixing tie 50 extends downwardly from the seating part 52 but is formed to be inclined at an angle with respect to the vertical direction of the seating part 52 to be fixed to the body 20 inclinedly. Supporting device for slab formwork of the bridge, characterized in that. delete The method of claim 1, The body 20 is formed by forming the vertical frame 21, the horizontal frame 22 and the inclined frame 23 in a triangular shape, both sides of the portion where the vertical frame 21 and the horizontal frame 22 is connected There is a pair of connecting the vertical frame 21 and the horizontal frame 22 in a spaced apart state to form a through passage 25 so that the fixing portion 53 of the fixing tie 50 therebetween. Plate 24 is installed, The fixing unit 53 of the fixing tie 50 is passed through the passage 25 is fixed to the slab formwork supporting device of the bridge, characterized in that fixed to the nut 51 at the lower side of the pair of plates 24. . delete The method of claim 3, wherein An interference prevention part 26 is formed to be inclined at an upper end of the vertical frame 21 so as not to interfere with the fixing part 53 of the fixing tie 50 which is inclined, and a vertical frame (top of the interference prevention part 26) 21) Supporting device for the slab formwork of the bridge, characterized in that the support portion 27 is installed in close contact with the fixing portion 53 of the inclined fixing tie (50). The method of claim 3, wherein The height adjusting means 35 is a hollow support pipe 36 is vertically coupled to the combined portion of the horizontal frame 22 and the inclined frame 23, A screw shaft 37 inserted into the support tube 36 and having an upper end coupled to a lower end of the support bracket 30; Supporting device for the slab formwork of the bridge, characterized in that made of a height adjustment nut (38) which is screwed to the screw shaft (37) and seated on the upper end of the support tube (36). The method of claim 3, wherein A pair of cutting grooves 54 are formed at both sides of the fixing part 53 of the fixing tie 50 so that the fixing part 53 can be cut after the concrete slab 5 is cured. Supporting device for slab formwork of bridges.

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