KR102303283B1 - Joint installing structure of steel frame girder and truss deck for safety foothold - Google Patents

Abstract

Provided is a bonding unit installation structure of a steel frame girder and a truss deck to have a safety foothold, which provides a work foothold on a bonding unit between the steel frame girder and the truss deck, allows a worker to move safely, connects truss decks on both sides through the work foothold even during a concrete placement process, prevents a cross-sectional crack in the steel frame girder, and prevents water leakage from a cement paste by using a water leak prevention gasket formed on the lower surface on an end unit of the truss deck at the same time. According to an embodiment of the present invention, in the bonding unit installation structure of the steel frame girder and the truss deck, the truss deck comprises: a lower plate; and a plurality of truss rebars parallelly installed on the upper surface of the lower plate. The truss rebars include a lattice rebar an upper soft material and a lower soft material. Additionally, a foothold connection rebar connected to an end unit of the upper soft material is installed. After an end unit of the truss deck is settled and installed on both sides of an upper surface of the steel frame girder, a steel unit for the safety foothold is placed on the steel frame girder in a longitudinal direction at regular intervals and is connected through the foothold connection rebars for preventing workers from falling through. Therefore, the present invention allows workers to move safely through the steel units using the safety foothold, and prevents cross-sectional crack on the steel frame girder due to the steel units for safety foothold in the concrete placement process.

Description

Joint installing structure of steel frame girder and truss deck for safety foothold

The present invention relates to a joint installation structure of Cheolgolbo and truss deck, and in particular, by providing a working scaffold at the junction of Cheolgolbo and truss deck, it enables safe movement of workers, and even when concrete is poured, both truss decks are connected through the working scaffold. It relates to the installation structure of the joint between Cheolgolbo and truss deck to have a safety footing that prevents leakage of the cross-section of Cheolgolbo and at the same time prevents leakage of cement paste with a leak-blocking gasket formed on the lower surface of the end of the truss deck.

Conventionally, in order to install the truss deck to the cheolgolbo, an angle for the deck receiving is installed on the upper part of the cheolgolbo. However, this deck support angle is only possible for the support of the truss deck, but there is a problem that the cement paste leaks when the concrete is poured. Conventionally, there are cases in which the end of the plate of the truss deck is bent by another method, but even in this case, leakage of the cement paste was not prevented.

On the other hand, in the process of installing the truss deck to Cheolgolbo, the operator moves due to the positioning and welding of the truss deck. In this case, the operator has a problem in that the upper part of the cheolgolbo has an open structure and cannot move freely in the upper part of the cheolgolbo.

Therefore, it is possible to prevent leakage of cement paste at the junction between the truss deck and the steel interpolation, and a work platform for safe movement of workers is required.

As the background technology of the present invention, as Korean Patent Registration No. 10-1683196 (Patent Document 1), a 'truss deck end continuous joint structure' is proposed. This is to ensure the continuity of the truss deck disposed on the left and right sides of the truss deck through the truss deck connector, thereby controlling the amount of deflection of the truss deck and preventing the upper part of the beam from cracking. However, in this background art, since the truss deck connector cannot play the role of a footrest, it is not possible to safely move the worker, and it is not possible to prevent leakage of cement paste during concrete pouring.

As another technology that is the background of the present invention, as Korean Patent Registration No. 10-1595093 (Patent Document 2), a 'truss girder fixing structure of a deck plate' is proposed. This allows the truss girder to be more firmly and easily fixed to the deck panel without welding by using the foot adhesion means to produce a deck plate with a solid structure and to improve workability and productivity when manufacturing the deck plate. However, this background art does not propose a structure that can prevent leakage of cement paste occurring at the junction with Cheolgolbo.

Korean Patent Registration No. 10-1683196 Korean Patent Registration No. 10-1595093

The present invention provides a working scaffold at the junction of Cheolgolbo and truss deck to enable safe movement of workers, and even when concrete is poured, both truss decks are connected through the working scaffold so that there is no cross-section of Cheolgolbo and the truss at the same time An object of the present invention is to provide a structure for installing a joint between Cheolgolbo and a truss deck to have a safety foothold that allows the leakage of cement paste to be blocked with a leak-blocking gasket formed on the lower surface of the end of the deck.

According to a suitable embodiment of the present invention, in the joint installation structure of the truss deck and Cheolgolbo, the truss deck is made of a lower plate and a plurality of truss reinforcing bars installed in parallel on the upper surface of the lower plate, and the truss reinforcing bar is a lattice reinforcing bar, and a truss reinforcing bar. and a footrest connecting muscle connected to the end of the upper extension material is further installed, including a lower extension material; After the ends of the truss deck are seated and installed on both sides of the upper surface of the cheolgolbo, the safety scaffolding hardware connected through the scaffold connector is provided at regular intervals in the cheolgolbo in each longitudinal direction to prevent the operator from falling out. Safe movement through the safety scaffolding hardware and preventing the cross-section of the cheolgolbo from spreading due to the safety scaffolding hardware when pouring concrete The horizontal support part bent in the first horizontal direction from the lower end of the vertical support part and extending toward the Cheolgolbo, the footrest holder bent in the second horizontal direction at the end of the horizontal support part, and the truss deck from the end of the footrest support part in the tertiary horizontal direction It is characterized in that it consists of a bent part to prevent separation of the footrest.

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In addition, on both sides in the width direction of the upper surface of the cheolgolbo, the water cut-off groove is installed upward to prevent leakage of cement paste and drop off during construction of the truss deck. do.

In addition, it is characterized in that the section steel for both the deck support and the order is made of a C-beam.

In addition, in order to prevent leakage of cement paste generated from the concrete poured on the truss deck, the lower plate side end of the truss deck has a leak-blocking gasket made of any one of non-combustible rubber, silicone, and hot melt so as to be in close contact with the upper surface of Cheolgolbo. It is characterized in that it is attached.

In addition, the hardware for safety scaffolding is characterized in that the locking jaws for preventing separation are further formed at both ends to prevent separation after coupling in the scaffolding part of the scaffolding connecting muscle.

According to the junction installation structure of cheolgolbo and truss deck for having a safety scaffold of the present invention, a scaffold connector is additionally installed on the truss deck, and the safety scaffolding hardware is closely arranged on the cheolgolbo through the scaffold connector so that the operator can safely use the safety scaffold It is possible to move safely during work by using the metal for use as a stepping stone.

In addition, it is possible to prevent the opening of the cheolgolbo when the concrete is poured by connecting and constraining the left and right truss decks mounted on the cheolgolbo with the hardware for the safety scaffolding.

In addition, the leak-blocking gasket formed on the lower surface of the end of the truss deck mounted on Cheolgolbo is in close contact with Cheolgolbo, so that it is possible to block leakage of cement paste during concrete pouring, thereby improving workability.

In addition, it is possible to cut off the water even when the steel beams for both deck support are installed in the cheolgolbo, so that it is possible to block the leakage of the cement paste during concrete pouring.

The following drawings attached to this specification illustrate preferred embodiments of the present invention, and serve to further understand the technical spirit of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings It should not be construed as being limited.
1 is a perspective view in which a safety scaffolding hardware is installed at the junction of a truss deck and a cheolgolbo according to the present invention.
Figure 2 is a state diagram showing a part of the front view of Figure 1;
Figure 3 is a plan view in which the steel for safety scaffolding is arranged at the junction of the truss deck and cheolgolbo according to the present invention.
Figure 4 is an enlarged view of the main part of Figure 1;
5 is a state diagram in which the hardware for the safety footrest is separated from FIG. 4 .

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

In the present invention, in the joint installation structure of the truss deck 20 and the cheolgolbo 30 as shown in FIG. 1, the safe movement of the worker is ensured by the installation of the hardware 310 for the safety scaffold, and both sides mounted on the cheolgolbo 30 of the truss deck (20 and 20) is to be connected to the safety scaffolding hardware 310 as a medium to obtain the effect of preventing the spread of the cheolgolbo (30). In addition, the present invention is to prevent leakage of cement paste between the joint surface of the truss deck 20 and the cheolgolbo 30 when the concrete is poured on the truss deck 20 .

1 to 5, the truss deck 20 is made of a lower plate 210 and a plurality of truss reinforcing bars 220 installed in parallel on the upper surface of the lower plate 210, and the truss reinforcing bars 220 are lattice reinforcing bars ( 221), including the upper extension material 222 and the lower extension material 223, but the footrest connecting muscle 224 connected to the end of the upper extension material 222 is further installed.

As shown in FIG. 5, the footrest connecting muscle 224 is a first vertical support part 224a connected in a first vertical direction to the end of the upper extension member 222, and a first vertical support part 224a is bent in the first horizontal direction at the lower end. The horizontal support portion 224b extending toward the cheolgolbo 30, the footrest support portion 224c bent in the second horizontal direction at the end of the horizontal support portion 224b, the truss deck 20 at the end of the footrest support portion 224c. It consists of a footrest separation prevention bending portion (224d) bent in the third horizontal direction toward the. Such scaffolding connecting reinforcing bars 224 may be manufactured by bending reinforcing bars or thick steel wires.

After the ends of the truss decks 20 and 20 are seated and installed on both sides of the upper surface of the cheolgolbo 30, the footrest connector 224 is installed in the cheolgolbo 20 at regular intervals in the longitudinal direction to prevent the operator from falling. The hardware 310 for safety scaffolding is connected through. Therefore, both ends of the hardware 310 for the safety scaffolding are respectively supported by the scaffolding mounting portion 224c of the scaffolding connector 224 to interconnect the left and right truss decks 20 and 20 .

In this way, the safety scaffolding hardware 310 is installed at a close interval through the truss reinforcing bars 220 installed in a plurality of or more on the truss deck 20 as shown in FIG. . In addition, since the safety scaffolding hardware 310 serves to hold the truss decks 20 and 20 mounted on both sides when the concrete is poured, the cross-section of the cheolgolbo 20 is prevented from spreading. The safety scaffolding hardware 310 may further have a locking protrusion 312 for preventing separation at both ends to prevent separation after coupling in the scaffold holder 224c of the scaffold connector 224 .

On the other hand, as shown in Figure 2, both sides of the upper surface side of the cheolgolbo 30 in the width direction to prevent leakage of cement paste generated during concrete pouring and to prevent dropping during construction of the truss deck 20, the water cut-off groove 320a is upward. A section steel 320 for the deck receiving combined use may be installed. Preferred deck-bearing and water-receiving section steel 320 is made of C-beam and is installed so that the open side faces upward.

Here, in order to prevent leakage of the cement paste generated from the concrete poured on the truss deck 20, the lower plate side end of the truss deck 20 is in close contact with the upper surface of the cheolgolbo 30, any one of non-combustible rubber, silicone, and hot melt A leak blocking gasket 230 made of a material may be attached thereto.

As such, in the present invention, the scaffolding connector 224 is additionally installed on the truss deck 20, and the safety scaffolding hardware 310 is disposed in the cheolgolbo 30 through the scaffolding coupling member 224, so that the operator can safely use the scaffolding for the safety scaffolding. By using the hardware 310 as a footrest, it is possible to move safely during work.

In addition, it is possible to effectively prevent the cross-section of the cheolgolbo 30 by connecting and restraining the truss decks 20 and 20 of the left and right truss decks 20 and 20 mounted on the cheolgolbo 30 in which the safety scaffolding hardware 310 is mounted.

In addition, the leak blocking gasket 230 formed on the lower surface of the end of the truss deck 20 mounted on the cheolgolbo 20 is in close contact with the cheolgolbo 20 so that it is possible to block the leakage of the cement paste during concrete pouring, thereby improving the workability. .

In addition, it is possible to cut off the water even when the section steel 320 for the deck receiving combined use is installed in the cheolgolbo 20, so that it is possible to block the leakage of the cement paste during concrete pouring.

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art can make various modifications and modified inventions without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by such variations and modifications, but only by the claims appended hereto.

20: truss deck
224: scaffold linker
230: leak blocking gasket
30: Cheolgolbo
310: hardware for safety scaffolding
320: beam for deck support combined use

Claims (6)

In the junction installation structure of the truss deck 20 and the cheolgolbo 30,
The truss deck 20 is made of a lower plate 210 and a plurality of truss reinforcing bars 220 installed side by side on the upper surface of the lower plate 210, and the truss reinforcing bars 220 include lattice reinforcing bars 221, and upper end members 222 ) and a footrest connector 224 connected to the end of the upper extension material 222 including the lower extension material 223 is further installed;
After the ends of the truss deck 20 are seated and installed on both sides of the upper surface of the cheolgolbo 30, the scaffold connector 224 at regular intervals in the longitudinal direction in the cheolgolbo 20 to prevent the operator from falling out. The safety scaffolding hardware 310 connected through the is provided so that the cross-section of the cheolgolbo 20 is prevented due to the safe movement through the worker's safety scaffolding hardware 310 and the safety scaffolding hardware 310 when the concrete is poured. and
The scaffold connecting muscle 224 is a first vertical support portion 224a connected in a first vertical direction to the end of the sangyeonjae 222, the first vertical support portion 224a is bent in the first horizontal direction at the lower end of the cheolgolbo 30 ) extending toward the horizontal support portion 224b, the footrest holder 224c bent in the second horizontal direction at the end of the horizontal support portion 224b, and the truss deck 20 from the end of the footrest holder 224c 3 toward The joint installation structure of the truss deck and cheolgolbo for having a safety scaffold, characterized in that it consists of a footrest separation prevention bent portion (224d) bent in the horizontal direction of the car. delete The method of claim 1,
On both sides in the width direction of the upper surface of the cheolgolbo 30, the water cut-off groove 320a is installed upward to prevent leakage of cement paste and drop off during construction of the truss deck. The joint installation structure of cheolgolbo and truss deck for having a safety scaffold, characterized in that it is provided. 4. The method of claim 3,
The section steel 320 for the deck receiving combined use is a junction installation structure of a truss deck and a cheolgolbo for having a safety scaffold, characterized in that it is made of a c-beam. The method of claim 1,
In order to prevent leakage of cement paste generated from the concrete poured into the truss deck 20, the lower plate side end of the truss deck 20 is in close contact with the upper surface of the cheolgolbo 30, any one of non-combustible rubber, silicone, and hot melt A joint installation structure of the truss deck and Cheolgolbo for having a safety scaffold, characterized in that a leak blocking gasket 230 made of a material is attached. The method of claim 1,
The safety scaffolding hardware 310 has a safety scaffolding, characterized in that at both ends, the locking jaws 312 for preventing separation are further formed to prevent separation after coupling in the scaffold mounting portion 224c of the scaffolding connecting muscle 224. Joint installation structure of cheolgolbeam and truss deck for

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