KR101064752B1 - Deck for concrete slab construction - Google Patents

Abstract

The present invention relates to a deck for placing concrete slabs, and a truss for supporting a truss girder and a reinforcing steel at the same time in a structure of a concrete slab placing deck in which a reinforcing rib is formed at the bottom of the deck body is integrally formed with a truss The purpose of the girder is to facilitate the reinforcement work of the truss girder and the reinforcing bars, thereby improving workability. The present invention is configured for this purpose is the deck body is formed through the pouring of concrete, reinforcing ribs protruding in the longitudinal direction of the lower portion of the deck body, the truss girder longitudinally installed at regular intervals so that a part of the deck body is exposed to the top Reinforcing ribs in a concrete slab casting technique comprising a longitudinal reinforcing bar installed in a transverse direction orthogonal to a longitudinal direction of a truss girder and a longitudinal reinforcing bar arranged in a longitudinal direction such as a truss girder. A support plate formed into a plate having a predetermined length smaller than the transverse width or the length of the longitudinal direction; And is installed on the upper surface of the support plate is fixed to be arranged in a predetermined interval in the longitudinal direction is composed of a configuration including a support that is integrally coupled to both ends of the truss girder to support the truss girder.

Description

Deck for concrete slab construction

The present invention relates to a concrete slab casting deck, and more particularly, a support for supporting a truss girder and reinforcing bars at the same time in a structure of a concrete slab casting deck in which a reinforcing rib is formed at the bottom of the deck body. It relates to an integrated slab slab deck.

In general, the structure of bridges is a space between a plurality of bridges installed on the ground at regular intervals, and horizontally spaced girder and each adjacent girder to reinforce the deflection of the girders in parallel in a horizontal direction. It consists of a cross beam and a slab disposed on the top of the girder formed in the orthogonal direction at regular intervals.

The girder as described above is manufactured to be able to withstand the stress caused by the vertical pressure, such as the weight of the slab and its own weight by embedding reinforcing bars or steel wires.

In addition, in order to construct the slab corresponding to the upper work of the bridge, after the formwork is installed between the girders, the concrete is poured on the upper part and then the formwork is dismantled. Thus, when installing the slab on the upper part of the bridge to install the formwork and the working scaffold to cure the slab concrete, there is a problem in the construction because there is a fixed phase to remove the formwork used therein.

Therefore, recently, panels to replace the slab formwork have been used to improve the workability by improving the workability and shortening the air by supplementing the problems described above. This panel is a slab deck for concrete slab placing the truss girder and reinforcing bars longitudinally and horizontally by using the facilities provided in the factory, and then cast the concrete to cure the panel.

Concrete slab casting deck according to the prior art as described above is a transverse reinforcing bar installed in the transverse direction orthogonal to the longitudinal direction of the truss girder and the truss girder longitudinally installed at regular intervals so that a portion thereof is exposed to the upper surface and It consists of a deck body that forms a plate panel through curing by pouring concrete. In addition, there is also provided a deck for placing concrete slabs having a structure in which reinforcing ribs protrude from the lower part of the deck body, which is the lower side of the truss girder.

On the other hand, in the case of a concrete slab casting deck having a structure in which a reinforcing rib is protruded in the lower part of the deck body, which is the lower side of the truss girder, as described above, the longitudinal reinforcing bars are also longitudinally in the reinforcing ribs in the same longitudinal direction as the truss girder. I'm getting acquainted.

As described above, reinforcing ribs protrude from the lower part of the deck body, which is the lower side of the truss girder, thereby forming a concrete slab casting deck having a structure in which rib-side reinforcing bars are installed in the longitudinal direction inside the reinforcing ribs in the same longitudinal direction as the truss girder. The truss girder, the transverse rebar and the longitudinal rebar are respectively supported at a constant height through the support at the bottom of the mold.

Therefore, as described above, since the truss girder, the transverse rebar and the longitudinal reinforcing bars each require a large number of supports in order to be supported at a predetermined height, the deck for concrete slab casting according to the prior art may not have rigidity. There is a problem that can be.

Furthermore, as described above, since the truss girder, the transverse rebar and the longitudinal rebar are each required a large number of supports in order to support a certain height, work according to the molding of the concrete slab casting deck according to the prior art There is a difficulty.

The present invention has been made to solve the problems of the prior art, the support for supporting the truss girder and reinforcing bars at the same time to reinforce the rigidity in the structure of the concrete slab casting deck with a reinforcing rib formed on the bottom of the deck body The purpose of the present invention is to provide a truss girder consisting of a concrete slab casting deck that facilitates the reinforcement work of the truss girder and the reinforcing reinforcement, thereby improving workability.

Another object of the technology according to the present invention is to provide a truss girder integrally supporting the truss girder reinforcing the rigidity and the reinforcing reinforcing bars in the structure of the concrete slab casting deck with a reinforcing rib formed on the bottom of the deck body. This is to improve the rigidity of the concrete slab casting deck through the appropriate number of supports.

In addition, the technique according to the present invention by providing a truss girder integrally supporting the truss girder to strengthen the rigidity and the reinforcing bars at the same time in the structure of the concrete slab casting deck with a reinforcing rib formed on the bottom of the deck body Since there is no need for a large number of supports, the purpose is to reduce the cost accordingly.

Furthermore, the technique according to the present invention by providing a truss girder integrally supporting the truss girder reinforcing the rigidity and the support to support the reinforcing bars at the same time in the structure of the concrete slab casting deck with a reinforcing rib formed on the bottom of the deck body The purpose of the present invention is to shorten the working time for forming the concrete slab casting deck by improving the reinforcement work of the truss girders and reinforcing bars.

The present invention configured to achieve the above object is as follows. That is, the deck for slab concrete slab according to the present invention is vertically formed at a predetermined interval so that the deck body is formed through the pouring of concrete, reinforcing ribs protruded in the longitudinal direction of the lower portion of the deck body, a part of the deck body is exposed at a predetermined interval. Directional truss girder, transverse reinforcing bars installed in the transverse direction orthogonal to the longitudinal direction of the truss girder, and longitudinal slab reinforcing bars in the longitudinal direction such as truss girder A support plate, comprising: a support plate formed into a plate having a predetermined length smaller than a transverse width or a longitudinal length of a reinforcing rib; And fixed to the upper surface of the support plate and fixedly arranged in the longitudinal direction, and are integrally coupled to both ends of the truss girder to support the truss girder to a certain height as well as to include a plurality of supports for supporting the support plate. Is done.

In the configuration of the present invention as described above the support is a support pillar of a predetermined length vertically installed fixed to the center of the upper surface of the support plate; And it is provided on the top of the support pillar is made of a structure that is formed from the top of the support pillar may be made of a configuration between the support is integrally coupled to both ends of the truss girder through the upper end on both sides. At this time, the outer circumferential surface of the support column is made of a structure in which more threads are formed or a structure having a larger diameter than the diameter of the support column is integrally formed on the upper end of the support pillar, but the concrete that is being cast during the molding of the concrete slab casting tech. It can be made of a configuration that is held by the holding to prevent the separation of the support pillar.

On the other hand, in the configuration according to the invention the support is provided at a predetermined interval on the upper surface of the support plate consisting of a structure that is open to both sides from the upper surface of the support plate of the V-type integrally coupled to both ends of the truss girder through the upper end of both sides It may be made of a structure.

In the construction according to the present invention as described above, when forming the concrete slab casting tech support plate is more preferably arranged on the bottom surface of the mold forming the reinforcing rib.

According to the technique of the present invention, the truss girder by providing a truss girder integrally supporting the truss girder reinforcing the rigidity and the support for reinforcing reinforcing bars in the structure of the concrete slab casting deck with a reinforcing rib formed on the bottom of the deck body Work efficiency can be improved by making reinforcement work of rebar and reinforcing bars easier.

In addition, the technique according to the present invention can improve the stiffness of the concrete slab casting deck through an appropriate number of supports, as well as do not require a large number of supports, thereby reducing the cost and thus the concrete slab The working time according to the molding of the pouring deck can be shortened.

1 is a perspective configuration diagram showing a deck for pouring concrete slab according to the present invention.
Figure 2 is a front cross-sectional view showing a deck for pouring concrete slab according to the present invention.
3 is a side cross-sectional view of FIG.
Figure 4 is a front cross-sectional view showing another embodiment of the concrete slab casting deck according to the present invention.
5 is a side cross-sectional view of FIG. 4.
Figure 6 is a front cross-sectional view showing another embodiment of the concrete slab casting deck according to the present invention.
7 is a side cross-sectional view of FIG. 6.

Hereinafter, concrete deck slab deck according to an embodiment of the present invention will be described in detail through the accompanying drawings.

1 is a perspective configuration showing a concrete slab casting deck according to the present invention, Figure 2 is a front sectional configuration showing a concrete slab casting deck according to the present invention, Figure 3 is a side cross-sectional configuration of Figure 2, Figure 4 Is a front sectional configuration view showing another embodiment of the concrete slab casting deck according to the present invention, Figure 5 is a side cross-sectional configuration diagram of FIG.

Looking at the configuration of the concrete slab casting deck 100 to which the present invention is applied as shown in Figure 1 to Figure 5 in the longitudinal direction of the deck body 110, the deck body 110, which is formed through the pouring of concrete A plurality of reinforcing ribs 120 are protruded, the truss girder 130 is installed in the longitudinal direction at a predetermined interval so that a portion is exposed to the upper portion of the deck body 110, in the transverse direction perpendicular to the longitudinal direction of the truss girder 130 The horizontal reinforcing bars 140 and the truss girder 130 is installed in the longitudinal direction such as reinforcing ribs 120 in the longitudinal direction is made of a structure consisting of.

The present invention applied to the concrete slab casting deck 100 is configured as described above is a support plate 200 formed into a plate of a predetermined length smaller than the transverse width of the reinforcement ribs 120 or the length of the longitudinal direction And is installed on the upper surface of the support plate 200 is fixed to be arranged in a predetermined interval in the longitudinal direction is integrally coupled to both ends of the truss girder 130 to support the truss girder 130 as well as the support plate 200 It consists of the structure of the support body 210 to support.

In other words, the technique according to the present invention is to support the truss girder 130 to a certain height during the molding of the concrete slab casting deck 100, the support plate 200 and the support 210 to the truss girder 130 Combining integrally with and to support the truss girder 130 to a predetermined height from the bottom of the mold without a separate support means.

Referring to the concrete slab casting deck 100 according to the invention in more detail as follows. First, the support plate 200 constituting the present invention is to support the truss girder 130 by fixing the support 210, the support plate 200 is a reinforcing rib as shown in Figs. It is formed into a plate of a predetermined length which is smaller than the width of the transverse direction or the length of the longitudinal direction (120).

The support plate 200 configured as described above is arranged on the bottom surface of the mold (not shown) during the molding of the concrete slab casting deck 100 to move the truss girder 130 through the support 210 to the bottom surface of the mold. To support at a certain height. At this time, the length of the support plate 200 is formed in a smaller length than the length of the reinforcing rib 120, as shown in Figures 3 and 5 of the range does not deviate from the lower side width of the reinforcing rib 120 Made of width.

In other words, the support plate 200 configured as described above is formed on a plate so that the truss girder 130 supported by the support 210 does not fall sideways when arranged on the bottom surface of the mold. At this time, the support plate 200 is arranged on the bottom surface of the mold to form the reinforcing rib 120 during the molding of the concrete slab casting tech (100).

Next, the support 210 constituting the present invention is to be integrally coupled to both lower ends of the truss girder 130 through the upper end to be supported at a predetermined height on the support plate 200, such a support 210 2 to 5 are installed on the upper surface of the support plate 200 is fixed to be arranged at regular intervals in the longitudinal direction, but is integrally coupled to both ends of the truss girder 130 to support the truss girder 130 Of course, the lower support plate 200 is supported so as not to be detached from the deck body (1100).

On the other hand, the support 210 is configured as described above is a support column 212 and the support pillar of a predetermined length that is installed and fixed perpendicular to the center of the upper surface of the support plate 200, as shown in Figs. 212) is provided on the upper end of the support pillar 212 may be made of a structure that is formed from the top of the support rod 214 is integrally coupled to both ends of the truss girder 130 through both upper ends.

In the configuration of the support 210 as described above, the support column 212 is fixed to the upper surface of the support plate 200, and integrally coupled to both ends of the truss girder 130 through the support interval 214 of the upper end Since the support pillar 212 and the support rod 214 are fixed to the concrete to be cured during molding of the concrete slab casting deck 100, the reinforcing rib 120 under the deck body 110 is fixed. The support plate 200 positioned on the lower surface is maintained in a fixed state below the reinforcing rib 120 by the support column 212.

In other words, the support plate 200 is attached to the deck body 110 in a state in which the remaining surface other than the lower surface is buried on the lower surface of the reinforcing rib 120 formed in the lower portion of the deck body 110 formed through curing. It is fixed by the support pillar 212 inserted and fixed so that it is not detached from the bottom surface of the reinforcing rib 120.

As illustrated in FIGS. 2 and 3, the outer circumferential surface of the support pillar 212 constituting the support 210 may have a structure in which a screw thread 212a is formed. As such, by forming the thread 212a on the outer circumferential surface of the support pillar 212, the mold is held by concrete that is cured during casting of the concrete slab casting tech 100 to prevent separation of the support pillar 212.

In other words, as described above, in the structure in which the thread 212a is formed on the outer circumferential surface of the support pillar 212, concrete poured during molding of the concrete slab casting tech 100 penetrates into the valley portion of the thread 212a. This is to allow the support pillar 212 to be fixed by the threads 212a to the cured concrete by curing. When the support pillar 212 is fixed to the cured concrete by the screw thread 212a, the support pillar 212 is not separated from the cured concrete.

And, in addition to the structure in which the screw thread 212a is formed on the outer circumferential surface of the support pillar 212 as shown in FIGS. 2 and 3, the support pillar is provided at the upper end of the support pillar 212 as shown in FIGS. 4 and 5. It may be made of a structure in which the engaging head 212b of a larger diameter than the diameter of the 212 is formed.

As described above, the support pillar 212 of the structure in which the locking head 212b having a larger diameter than the diameter of the support pillar 212 is integrally formed on the upper end of the support pillar 212 is a concrete slab casting tech 100. The holding pillar 212b is fixed to the cured concrete by the concrete being poured during the molding of the concrete, so that the support pillar 212 is prevented from being separated from the concrete.

In other words, as described above, the structure in which the locking head 212b is formed at the upper end of the support pillar 212 is cured by the concrete being poured during the molding of the concrete slab casting tech 100 by wrapping the locking head 212b. This is to make the locking head 212b of the upper end of the support pillar 212 fixed to the concrete. When the locking head 212b of the support pillar 212 is caught and fixed to the cured concrete, the support pillar 212 is not separated from the cured concrete.

6 is a front cross-sectional view showing another embodiment of the concrete slab casting deck according to the present invention, Figure 7 is a side cross-sectional view of FIG.

6 and 7 illustrate another embodiment of the support 210a for supporting the truss girder 130, and as shown in FIGS. 6 and 7, the support 210a of another embodiment is formed on the upper portion of the support plate 210. It is installed on the surface at regular intervals, but consists of a structure that opens to both sides from the upper surface of the support plate 210 consists of a V-type structure that is integrally coupled to both ends of the truss girder 130 through both upper ends.

Since the support 210a of another embodiment configured as described above is composed of a structure that opens from both sides of the upper surface of the support plate 200 to be integrally coupled to both lower ends of the truss girder 130 through the upper ends of both sides, the concrete When the slab casting deck 100 is formed, the inserted support 210a is formed in a V-shape so that curing of the concrete is fixed to the cured concrete so that it is not separated from the cured concrete.

As described above, by combining the truss girder 130 integrally with the support plate 200 and the support 210 so that the truss girder 130 can be supported at a predetermined height, the work of the reinforcement is made easier and the workability is improved. Not only can this be improved, but the cost can be reduced and the working time can be shortened.

The present invention is not limited to the above embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

100. Concrete slab casting deck
110. Deck Body
120. Reinforcement Ribs
130. Truss Girder
140. Transverse Rebar
150. Longitudinal rebar
200. Support Plate
210. Support
212. Support pillar
214. Support period

Claims (6)

Deck body 110 is formed through the pouring of concrete, reinforcement ribs 120 are formed to protrude in the longitudinal direction of the lower portion of the deck body 110, a predetermined interval so that a portion is exposed to the upper portion of the deck body 110 The reinforcing ribs in the longitudinal direction, such as the truss girder 130 is installed in the longitudinal direction, the transverse reinforcing bars 140 and the truss girder 130 is installed in the transverse direction orthogonal to the longitudinal direction of the truss girder (130). In the concrete slab casting tech (100) of the structure consisting of the longitudinal reinforcing reinforcement (150) that is disposed inside (120),
Support plate 200 is formed in the form of a plate of a predetermined length smaller than the transverse width or longitudinal length of the reinforcing rib 120 is inserted into the bottom surface of the reinforcing rib 120 ; And
Installation fixed to the upper surface of the support plate 200 is fixed to be arranged at a predetermined interval in the longitudinal direction is integrally coupled to both ends of the truss girder 130 to support the truss girder 130 to a certain height, of course, Concrete slab casting deck, characterized in that consisting of a configuration including a plurality of supports 210 for supporting the support plate 200. According to claim 1, The support 210 is a support column of a predetermined length perpendicular to the center of the upper surface of the support plate 200, 212; And
Being installed on the top of the support pillar 212 is made of a structure that is opened from the top of the support pillar 212 is characterized in that consisting of a configuration of the support interlock 214 is integrally coupled to both ends of the truss girder 130 through both top Concrete slab casting deck. According to claim 2, wherein the support column 212 is formed on the outer circumferential surface of the screw thread (212a) is further formed in the structure of the concrete slab casting tech 100 is held by the concrete that is cured by the casting curing when the support pillar ( 212) concrete slab casting deck, characterized in that to prevent the separation. The method of claim 2, wherein the locking head 212b having a larger diameter than the diameter of the support pillar 212 is formed integrally with the upper end of the support pillar 212, but the concrete slab casting tech 100 The concrete slab pour deck, characterized in that the holding is held by the concrete that is cured during casting to prevent the separation of the support pillar (212). According to claim 1, The support 210 is provided on the upper surface of the support plate 200 at a predetermined interval consisting of a structure that is open to both sides from the upper surface of the support plate 200 through the top of both truss girder Concrete slab casting deck, characterized in that made of a V-type structure that is integrally coupled to both ends of the 130. The method according to any one of claims 1 to 5, wherein the support plate 200 is formed on the bottom surface of the mold forming the reinforcing ribs 120 during the molding of the concrete slab casting tech (100). A concrete slab casting deck.

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