KR101200564B1 - Composite slab using corrugated and connecting plate, and making method therewith - Google Patents

Abstract

For example, in the composite bottom plate composited with steel and concrete, a composite bottom plate manufactured by a precast method capable of more efficiently synthesizing steel and concrete, and reduced in weight, and a manufacturing method thereof are provided. A vertical plate extending upwardly from the center of the upper surface of the lower horizontal plate is formed of a corrugated curved plate, formed in an inverted T shape, and formed of a corrugated curved plate disposed to be spaced apart in the transverse direction; And a bottom plate body formed to be embedded by exposing the bottom of the lower horizontal plate to the outside. The reinforcement formed of the corrugated curved plate is manufactured by using the corrugated curved plate to increase the synthetic ability with the concrete, thereby degrading the workability. There is an effect that can be omitted, such as the stud connecting material installation stud, and the connecting means and the connecting member consisting of a vertical connecting plate and a vertical connecting groove that can simply connect the composite bottom plate in the transverse direction is presented.

Description

COMPOSITE SLAB USING CORRUGATED AND CONNECTING PLATE, AND MAKING METHOD THEREWITH}

The present invention relates to a composite bottom plate using a reinforcement and a vertical connecting plate formed of a corrugated curved plate, and a method for constructing a composite bottom plate using the same. More specifically, for example, in a composite bottom plate in which steel and concrete are combined as a reinforcing material, a reinforcing material and a vertical connecting plate formed of a corrugated curved plate manufactured by a precast method that can more efficiently synthesize steel and concrete and reduce weight The present invention relates to a composite floor plate and a construction method of the composite floor plate using the same.

In general, the bridge slab (SLAB) is a plate-shaped structure formed in a predetermined thickness on the upper surface of the girder is to be constructed of reinforced concrete. Such a bottom plate is constructed using a formwork for the bottom plate installed in the girders (GIRDER) or a method of constructing the precast method is introduced.

In particular, the method of precast construction can be divided into a method of constructing the entire bottom plate as a precast product and a method of installing a deck plate type precast bottom plate having a formwork function and placing the bottom plate concrete.

1a shows a conventional hollow RC floor plate 10, the RC floor plate 10 is a hollow 11 is formed because it is possible to reduce the weight, but the concrete 12 vulnerable to tensile stress is located at the bottom Although it is vulnerable to cracking and prestress is introduced to compensate for this, there is a problem in that the length of the application area is not increased so much due to the limitation of the use of the tension material and the arrangement of the not shown in the thin plate bottom section.

Therefore, in order to increase the amount of use of the tension material and freely arrange the arrangement, it is necessary to increase the thickness of the bottom plate, but in this case, its own weight is increased, the workability is lowered, and the manufacturing cost is increased, thereby limiting the application.

The RC composite plate 20 has been introduced to improve the RC bottom plate 10, looking at examples of such a composite floor plate 20 as follows.

That is, as shown in Figure 1b, the bottom plate body portion 22 is introduced into a steel material, such as I-shaped steel 21, the I-shaped steel 21 is to improve the rigidity of the bottom plate body portion 22 in the end It can be seen that it can be expected to reduce the thickness of the bottom plate body portion 22 by additionally placing a tension member 23, such as a PC strand.

However, the steel composite bottom plate 20 is provided with a plurality of I-shaped steel 21, there is a problem that a plurality of shear connecting materials must be installed for the synthesis of steel and concrete, such as I-shaped steel 21, a thin thickness There is a problem that the effect of introducing the prestress is not large due to the usage of the tension member 23 and the limitation of the arrangement form in the bottom plate cross section.In addition, the slab thickness is increased to increase the usage of the tension member 23 and free the arrangement. There was a limit to this. Furthermore, the I-shaped steel 21 is made of a pre-fabricated and sold section steel, but because the weight is too large, there is a problem that does not help to reduce the weight of the steel composite bottom plate 20.

In addition, as shown in the lateral connection configuration of the conventional precast slab as shown in Figure 1c, the transverse reinforcing bar 71 of both precast slab so that the connecting end is connected to each other in a loop form, the tension connecting member 73 is connected to the connector fixing unit ( It can be seen that 72) is fixed by using the nut 74 after the tension. However, this method has to be formed separately from the fixing unit 72, there is a problem that the construction and the convenience of manufacturing inevitably fall.

Accordingly, the present invention can reduce the thickness of the bottom plate and reduce the thickness of the bottom plate by using an existing product such as I-beam in presenting the composite floor plate, the working load is formed by the corrugated curved plate rather than I-beam It is possible to make the reinforcement mainly share, to exclude the use of shear connector for concrete and composite, to ensure the convenience of manufacturing, and to provide a synthetic floor plate that can be manufactured lightly and a method for more effectively connecting it in the transverse direction. The problem to be solved.

The present invention

A reinforcing member 110 formed of a corrugated bending plate in which a plurality of inverse T-shaped reinforcing members, in which a vertical plate 112 extending upward from a center of an upper surface of the lower horizontal plate 111, is made of a corrugated bending plate, are spaced apart in the lateral direction; And a bottom plate body portion 120 formed so that the bottom surface of the lower horizontal plate 111 is exposed to the outside and embedded therein.

The upper connecting groove 411 is formed on the upper surface of the lower horizontal plate 111 toward the vertical plate 112 side of the reinforcement 110 so that the vertical connecting plate 410 is formed so as to be continuous in the longitudinal direction of the composite bottom plate 100. The bottom plate body part 120 has a vertical connection groove 420 on the top plate 100 so that the top connection groove 411 of the vertical connection plate 410 is exposed to the outside from the top surface of the bottom plate body part 120. To provide a composite bottom plate 100 to be spaced apart in the longitudinal direction of the).

That is, the reinforcement 110 formed of the corrugated bending plate is intended to reduce the weight by using a relatively thin steel plate, for example, an inverse T-shaped weld, rather than a heavy-weight steel product, and cast a reinforcing bar (different from the reinforced steel). Since the reinforcement 110 mainly shares the load-sharing burden of the cast steel, so that the shear performance is prevented from being lowered by the hollow portion 130, and the reinforcement is exposed to the outside as the bottom of the synthetic bottom plate 100. In order to effectively share the tensile stress generated in the bottom plate, and to form the bottom plate body portion 120 of the composite bottom plate 100, for example, the reinforcement 110, which is synthesized with the concrete 150 is corrugated curved plate Because of the corrugated bending plate and the tenon action of concrete, it is possible to exclude the installation of shear connector for synthesizing steel and concrete. It was made.

Furthermore, in order to use the reinforcement 110 as a means for connecting the adjacent composite bottom plate 100 in the lateral direction to form a vertical connecting plate 410 is formed with a connection groove, so that the vertical connecting plate is exposed A plurality of vertical connection grooves 420 are formed on the side of the bottom body portion of the composite bottom plate. Thus, the worker was able to install in such a way that both ends of the connecting member 500 is inserted into the connecting groove 411 of the vertical connecting plate 410 while inserting the connecting member 500 through the vertical connecting groove 420 from the outside.

In addition, the upper connecting groove 411 of the vertical connecting plate 410, but the connection member 500 is fitted to be installed, the rear surface of the vertical connecting plate 410 is lowered from the top downward to increase the thickness The stopper 413 is formed downward at the lower end of the rear taper 412 via the tapering part 412, and the locking groove 414 is formed at the lower end of the stopper 413 toward the front side thereof. The locking hole 520 including the fixing nut formed in the connecting member 500 is seated in the locking groove 414 via the rear tapering portion 412 so that the composite bottom plate 100 is formed by the connecting member 500. It was connected to each other laterally.

This can be said to use the connecting member 500 in the connection work of the composite bottom plate 100 more easily.

Also preferably between the vertical connection groove 420 of the bottom plate body portion 120 extends from the inside of the side of the bottom plate body portion 120 and the side connecting rods 430 having an extended insertion portion 432 formed at the end thereof. It is further formed, so that the socket connector 440 is formed at the end of the connection hole 441 so that the side connecting rod 430 is inserted and fixed to the adjacent bottom plate body portion 120,

The expansion inserting portion 432 is a vertical portion (433) as an expansion flange having a larger diameter than the side connecting rod (430); From the back of the vertical portion 433 to form a tapering portion 434 of which the diameter decreases in a curved shape,

The socket connector 440 has a tapered portion 434 of the expansion inserting portion 432 is inserted into the tip insertion portion 442 and the expansion insertion opening 432 from the tip inserting portion 442 is narrowed so as to be guided inward It provides a composite bottom plate using a reinforcement and a vertical connecting plate formed of a corrugated curved plate, characterized in that formed in the form of a tapered portion 434 of the rear end insertion portion 443 is formed to be hooked.

Also preferably, the upper horizontal plate 113 is formed on the upper surface of the vertical plate 112 in the longitudinal direction of the reinforcement, but the upper horizontal plate 113 is installed so that the plurality of upper horizontal plates 113 are spaced apart from each other. It was.

That is, the upper horizontal plate 113 is to supplement the composite action with the concrete 150 to more effectively resist the vertical separation of the reinforcement 110 and the concrete 150 formed of the corrugated curved plate.

Also preferably, the bottom plate body portion 120 is made of concrete or FRP material is used, the bottom plate body portion 120 is formed of the FRP material reinforcement 110 formed of a corrugated bending plate is the bottom plate It provides a composite bottom plate using a reinforcement formed of a corrugated bending plate to be inserted into the groove for the reinforcement formed in the lower portion of the body portion 120.

That is, the synthetic bottom plate 100 of the present invention is preferably to be made of a non-concrete FRP material, the bottom plate body portion 120 of the FRP material is a reinforcement 110 formed of a corrugated curved plate during the molding process In order to install the grooves for the reinforcement in the bottom plate body portion 120 of the FRP material in advance, it is to be able to install by inserting the reinforcement 110 formed of the corrugated bending plate in the groove.

Also preferably, the upper horizontal plate 113 or the lower horizontal plate 111, the upper horizontal plate and the lower horizontal plate of the reinforcement 110 formed of the corrugated curved plate, the reinforcement formed of a corrugated curved plate to be formed as a corrugated curved plate. It provides a synthetic bottom plate using.

That is, all the members constituting the reinforcement 110 formed of the corrugated curved plate are applied to the corrugated curved plate.

Also preferably, the bottom plate body portion 120 between the reinforcement 110 formed of the corrugated curved plate is provided with a composite bottom plate using a reinforcement formed of a corrugated curved plate further formed with a hollow portion 130.

That is, the hollow portion 130 is formed to reduce the weight of the synthetic bottom plate 100, but the shear performance degradation of the synthetic bottom plate 100 may be a problem due to the formation of the hollow portion 130, but the shear performance is corrugated. The reinforcement 110 formed of a plate was able to overcome by acting as a main member to resist the working load.

Also preferably on the upper surface of the vertical plate 112 of the reinforcement 110 formed in the inverted T-shaped composite bottom plate using a reinforcement and a vertical connecting plate formed of a corrugated curved plate to further form the upper connection groove 114 downward. Will be provided.

That is, the composite bottom plate 100 is to be connected more stably in both the upper and lower portions of the reinforcement.

In addition, preferably preparing a composite bottom plate 100 and placing a plurality of spaced apart in the transverse direction; Hanging grooves 414 formed on the rear surface of the vertical connecting plate 410 exposed at both ends of the connecting member 500 through the vertical connecting grooves 420 formed in the composite bottom plate 100. Inserting and fixing the upper connection groove 114 of the vertical connection plate 410 to be hooked to the upper surface; And

Filling the finishing material in the vertical connection groove 420 inserted into the connecting member 500 provides a method of constructing a composite bottom plate using a reinforcement and a vertical connecting plate formed of a corrugated curved plate.

In addition, the upper surface of the vertical plate 112 of the reinforcing member 110 formed in the inverted T-shape constituting the composite bottom plate 100 using the upper connection groove 114 is further formed by using an adjacent composite bottom plate ( Using the connecting member 500 in the upper connecting groove 114 of the 100 to connect the composite bottom plate 100 to each other, the connecting member 500 is fitted into the upper connecting groove 114 of the vertical plate 112 The connection member 500 is to be formed of a steel bar including reinforcing bars, and the connection member 500 has a locking hole 520 including a fixing nut formed at an end thereof so that the locking hole 520 is connected to the upper connection groove. (114) Provides a composite floor plate construction method using a reinforcement and a vertical connecting plate formed of a corrugated curved plate to be fixed to the back.

Composite bottom plate according to the present invention is to ensure the weight of the composite bottom plate by using a reinforcement formed of a relatively thin corrugated curved plate rather than a heavy steel product, and further lightweight through the hollow portion, By using the reinforcement formed by the corrugated curved plate instead of the main reinforcing bar, the main resistance member against the working load becomes the reinforcement, so that the concrete constituting the bottom plate body has a small load resistance burden, thus preventing shear resistance performance deterioration even when a hollow part is formed. When the reinforcement formed by the corrugated curved plate is disposed so as to be exposed to the bottom portion of the composite bottom plate, it can effectively act on the tensile stress acting. Formed with a corrugated flexure plate in the formed continuous groove in the longitudinal direction The reinforcement can be easily inserted and installed, and the reinforcement can be manufactured by using a corrugated curved plate to enhance the composite ability with concrete by using the tenon effect that the curved surface of the corrugation and the concrete are bitten together. It is possible to omit the shear connector installation work such as the stud.

In addition, the reinforcing material embedded in the composite floor plate can be used as a connecting means of the adjacent composite floor plate, but it is possible to connect the composite floor plate by simply inserting and installing the connection material, thereby improving workability and workability in connection work. Will be.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

1a, 1b and 1c is a perspective view and a connection diagram showing a steel composite bottom plate using a conventional steel.
Figure 2 is a cross-sectional view of the composite bottom plate using the reinforcement formed of the corrugated curved plate of the present invention and an extractive perspective view of the reinforcement,
3 is a perspective view of a composite bottom plate according to the present invention.
Figure 4a and 4b is a perspective view of the composite bottom plate of the present invention,
5 is a cross-sectional side view of the composite bottom plate of the present invention,
6a, 6b, 6c and 6d is a flow chart of the composite bottom plate according to the present invention.
Figure 7 shows another embodiment of the composite bottom plate according to the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

<Steel synthetic bottom plate 100 according to the present invention>

The rigid bottom plate 100 is a reinforcement 110, bottom plate body 120, hollow portion 130 and the reinforcing bar formed of a corrugated bending plate produced in a large built-up method as shown in Figs. 141, 142, 143, and 144.

Accordingly, the reinforcement 110 formed of the corrugated curved plate is manufactured in a built-up method, but the built-up method does not use a member, such as an I-shaped steel, which has already been defined, but has a constant shape (inverse T-type) using, for example, a steel sheet. It means to manufacture in a random manufacturing method, which means that it is possible to freely adjust the overall size, the thickness, the shape of the reinforcement member 110 in the end to ensure the structural action while making the reinforcement member 110 with a minimum member cross-section It can be said that it is possible to manufacture and use.

Thus, the present invention can be seen that the reinforcing member 110 is composed of a lower horizontal plate 111, a vertical plate 112 extending upward from the center of the upper surface of the lower horizontal plate 111, the overall shape In particular, it can be seen that it is formed into an inverted T type.

After all, the steel used in the general composite floor plate is mostly a steel product, the section of the steel product is determined according to the specifications of the cross section, and the weight was very large problem, but the present invention uses a relatively thin steel sheet without using the steel product It can be seen that it is possible to use the produced by welding in the reverse T-type to significantly reduce the weight.

In addition, in using the steel sheet, in order to enhance the synthesis action with concrete, a plurality of shear connection materials such as studs are usually used. The present invention uses a reinforcement in the form of a corrugated curved plate to perform the cog action in which the corrugated curved surface and the concrete are bitten together. By using the shear connector to be excluded.

In order to manufacture a conventional composite floor plate, it is possible to exclude the work to attach a plurality of shear connector to the surface of the I-shaped steel by welding to enable the simplification of innovative manufacturing work.

In addition, the reinforcement 110 formed of the corrugated curved plate by the lower horizontal plate 111 and the vertical plate 112 is to be installed in the lateral direction in the composite bottom plate 100, the conventional I-shaped steel bottom plate body The reinforcement 110 formed of the corrugated curved plate of the present invention is disposed at the lower portion of the composite bottom plate 100 so as to be embedded in the inside of the portion 120. It worked more effectively.

That is, since the eccentric distance from the neutral axis of the composite bottom plate 100 to the reinforcement 110 formed of the corrugated curved plate is increased, the bending resistance ability against the tensile stress acting is increased.

In addition, since the reinforcement 110 formed of the corrugated curved plate occupies only a portion of the bottom surface of the composite bottom plate 100, the bottom surface of the composite bottom plate 100 does not constitute the entire bottom surface of the composite bottom plate like the conventional deck plate shape, and thus, the weight of the composite bottom plate 100 may be reduced. It can be seen that the cracks that occur on the bottom of the) with the naked eye can be very advantageous in terms of usability and maintenance.

Accordingly, the lower horizontal plate 111 and the vertical plate 112 may enhance the synthesizing action with the concrete 150 in the horizontal direction of the composite bottom plate 100, and preferably the concrete 150 in the vertical direction. The upper horizontal plate 113 is further formed in the longitudinal direction of the reinforcing member 110 formed as a corrugated curved plate on the upper surface of the vertical plate 112 to enhance the syntheses.

In this case, the upper horizontal plate 113 may use an integrated upper horizontal plate 113 continuously produced in the longitudinal direction, or may use a plurality of upper horizontal plates 113 spaced in the longitudinal direction.

Accordingly, the reinforcement 110 formed of the corrugated curved plate according to the present invention is installed to act as a cast iron in the synthetic base plate 100 so as to bear all of the loads originally distributed by the cast steel bar, thus acting on the actual synthetic base plate 100. The load to be able to resist by the reinforcement 110 formed of the corrugated curved plate, the reinforcement 110 formed of the corrugated curved plate is not heavy, so that the weight of the composite bottom plate 100 can be reduced, concrete (150) It can be seen that it is possible to secure the convenience of manufacturing because the shear connector for enhancing the synthesis action with) can not be used separately.

Thus, the composite bottom plate 100 of the present invention is to form a hollow portion 130, the space occupied by the hollow space or styropole between the reinforcement 110 formed of the corrugated curved plate for further lightweight.

Since the hollow portion 130 may exclude the concrete 150 constituting the bottom plate body portion 120 as much as the space occupies, it serves to reduce the weight of the composite bottom plate 100, usually A hollow part forming member 131 such as styropole of an octagonal cross section is fixed between the reinforcing members 110 formed of a corrugated curved plate in advance using an iron wire as shown in FIG. 2A, and concrete for forming the bottom plate body 120. It is possible to form the hollow portion 130 by being embedded at the time of pouring.

This contributes to the weight reduction of the composite bottom plate 100 by the hollow portion 130. Only this hollow portion 130 may reduce the shear performance of the composite bottom plate 100, because the present invention was able to bear most of the working load by the reinforcement 110 formed of the corrugated bending plate in place of the cast iron bar Relatively, it is possible to sufficiently prevent the shearing performance degradation due to the hollow portion 130.

In addition, the composite bottom plate 100 according to the present invention is not reinforcement cast iron reinforcement (141, 142, 143, 144) is reinforcement. It is disposed in the transverse direction and the longitudinal direction (longitudinal direction) in the composite bottom plate 100, the reinforcement reinforcement 140 disposed in the transverse direction is interfered by the reinforcement 110 formed of the corrugated bending plate of the reinforcement 110 The through-hole 114 is formed in the lower part of the vertical plate in advance so that the lower transverse reinforcing bar 141 disposed in the transverse direction can be reinforced, and the upper transverse reinforcing bar 142 is formed of a corrugated curved plate ( It is to be supported and installed in the groove for the reinforcement bar and / or the upper horizontal plate 113 formed on the vertical plate 112 of the 110.

In addition, the upper and lower longitudinal reinforcing bars 143 and 144 are not interfering with each other, so that the hollow part 130 is avoided to be orthogonal to the transverse reinforcing bars 141 and 142.

Accordingly, the reinforcement member 110, the hollow part forming member 131, and the reinforcing bars 141, 142, 143, and 144 formed by the corrugated curved plate are finally buried by the concrete 150, thereby eventually reducing the synthetic floor of the present invention. The plate 100 is to be completed.

At this time, the bottom plate body portion 120 may be made of concrete, but may be made of FRP material.

In this case, as shown in FIG. 7, the bottom plate body part 120 formed of the FRP material has a reinforcement material 110 formed of a wave shape bend plate formed at the bottom of the bottom plate body part 120. It is preferable to be inserted into the groove 311 to be formed.

<Construction method of the composite bottom plate 100 according to the present invention>

In order to connect the composite bottom plate 100 according to the present invention in the lateral direction, the connecting means 400 is further formed on the outermost reinforcement 110 located at the connection portion of the composite bottom plate 100. ) Is the vertical connection plate 410 and the top connection groove 411. As a result, the vertical connecting plate 410 and the upper connecting groove 411 are further formed in the outermost reinforcing member located at the connecting end of the synthetic bottom plate 100 of the present invention.

That is, as shown in FIG. 4A, the vertical connecting plate 410 has a lower number of lower sides of the vertical plate 112 in the lower horizontal plate 111, the vertical plate 112, and the upper horizontal plate 113 constituting the reinforcement 110. The upper connection groove 411 is formed on the upper surface of the flat plate 111 is made of a steel plate, it can be seen that the vertical connection plate 410 is installed to extend in the longitudinal direction (longitudinal direction) of the composite bottom plate, the top connection It can be seen that the groove 411 is installed so that a plurality of spaced apart in the longitudinal direction.

At this time, looking at the form of the back of the vertical connecting plate 410, the front is formed vertically, but the back is formed in a form for effectively mounting the connection member 500 to be described later.

That is, the back surface of the vertical connecting plate 410 is lowered downward from the top through the back tapering portion 412 increasing in thickness, the stopping portion 413 is formed at the lower end of the back tapering portion 412, A locking groove 414 is formed at the lower end of the stopping part 413 toward the front side.

The fasteners 520, such as the fixing nut formed in the connecting member 500 formed of a steel bar or reinforcing bar to be described later to be seated in the locking groove 414 via the back tapering portion 412, the operator simply connects the connecting material 500 It can be seen that to be installed between the vertical connecting plate 410.

In addition, the vertical connection plate 410 is formed with a plurality of upper connection grooves 411 are formed spaced apart in the longitudinal direction and the upper connection grooves 411 of the grooves dug downward from the top of the vertical connection plate 410 It is made in the form, this upper connection groove 114 is to ensure that the connection member 500 is fitted.

Although not shown, at least one vertical connection plate 410 may be installed in parallel with each other. This is because there is an effect to reinforce the connection.

In this case, as shown in FIG. 4B, the vertical connecting plate 410 is embedded in the bottom plate body 120, so that the vertical connecting plate 410 is exposed to the bottom plate body 120 so that the vertical connecting plate 410 is exposed. The vertical connection grooves 420 are formed to be spaced apart from the upper surface of the bottom plate body portion 120 in the longitudinal direction of the composite bottom plate so as to be exposed.

The vertical connection groove 420 is also open to the side of the bottom plate body portion it can be seen that the connection member 500 to be fitted vertically downward.

The vertical connection groove 420 is at least the upper connection groove 114 formed in the vertical plate 112 constituting the reinforcement 110 and the upper connection groove 411 formed in the vertical connection plate 410 as described later. Its size and shape are determined so that it is exposed.

In addition, since the vertical connection plate 410 having the upper connection groove 114 formed on the adjacent composite floor plate 100 is exposed by the vertical connection groove 420, in order to connect the composite floor plates 100 to each other in the lateral direction. The connection member 500 will be used.

The connecting member 500 may use reinforcing bars or steel bars, and both ends of the trunk portion 510 may include a fixing nut including a fixing nut to be seated on the rear surface of the upper connection groove 411 of the vertical connecting plate 410. 520 is formed.

As a result, the worker is fitted into the upper locking groove 411 of the vertical connecting member 410 to the locking groove 414 while sliding downward along the back surface of the vertical connecting member 410.

In addition, since the upper connection groove 114 is formed in the vertical plate 112 of the reinforcement 110, the horizontal connection of the composite bottom plate 100 is also possible through this.

That is, the locking hole 520 of the connecting member 500 is to be caught on the rear surface of the upper connecting groove 114 of the vertical plate 112, but by using the fixing nut as the locking hole 520 to the connecting member 500 of the reinforcement It can be seen that it can be installed on both the top and bottom.

When the connecting means 400 for the lateral connection as described above to connect the composite bottom plate 100, there is a case that can not secure more connection performance only with this connection.

Therefore, in the present invention, the side connecting rods 430 may be further used.

That is, as shown in Figure 5 between the vertical connection groove 420 of the bottom plate body portion 120 extends from the inside of the side of the bottom plate body portion 120, the side connecting rods 430 formed with an expansion insertion portion 432 at the end ) Is further formed, and the socket at the end of the connection hole 441 formed horizontally in the adjacent bottom plate body 120 so that the side connecting rod 430 is inserted into and fixed to the adjacent bottom plate body 120. The connector 440 is to be formed.

First, the side connecting rods 430 may use reinforcing bars or steel rods, and an extended insertion part 432 is formed at the body 431 and the protruding end.

The expansion insertion portion 432 is a vertical portion 433 as an expansion flange larger than the side connecting rod 430; From the back surface of the vertical portion is to be formed as a tapered portion 434, the diameter of which decreases in a curved shape.

Accordingly, the socket connector 440 is formed on the side surface of the adjacent composite bottom plate corresponding to the position of the side connecting rod 430, which serves to allow the side connecting rod 430 to be inserted and hung.

The socket connector 440 is formed at the end of the connection hole 441 formed horizontally on the side of the adjacent composite bottom plate 100.

Accordingly, the socket connector 440 has a tapered portion 434 of the extended inserting portion 432 constituting the side connecting rod 430 is inserted into the tip inserting portion 442 and the tip inserting portion narrowed in diameter so as to be guided inward. It can be seen from 442 that the front end portion of the tapered portion 434 of the expansion insertion portion 432 is formed to be formed by the rear end insertion portion 443 formed to be caught.

Accordingly, the side connecting rod 430 may be inserted into the socket connector 440 through the connection hole 441, thereby improving the lateral connection performance of the composite floor plate.

First, the side connecting rods 430 may be inserted into the socket connector 440, and then the connecting member 500 may be seated on the vertical connecting plate.

As such, when the production of the composite bottom plate 100 in which the connecting means 400 is formed by the vertical connecting plate 410 and the vertical connecting groove 420 is completed, these are connected to each other in the lateral direction. .

First, as shown in FIG. 6a, the composite bottom plate 100 having the connecting means 400 described above is prepared and spaced apart from the plurality in the lateral direction.

At this time, the horizontal separation distance of the composite bottom plate 100 can be ensured to be constant.

Next, as shown in FIG. 6B, both ends of the connection member 500 are exposed through the vertical connection grooves 420 formed in the composite bottom plate 100, and the rear surface of the vertical connection plates 410 exposed inside the vertical connection grooves 420. It is fixed by inserting into the upper connection groove 114 of the vertical connection plate 410 to be caught in the locking groove 414 formed in the.

In this case, the worker simply connects the composite bottom plate 100 in the transverse direction by using the connecting member 500 in the upper space of the composite bottom plate 100.

Next, as shown in FIG. 6C, the connecting member 500 is also installed in the upper connecting groove 114 of the upper surface of the vertical plate 112 constituting the reinforcing member 110 to laterally connect the composite reinforcing plate.

That is, the connecting member 500 is inserted into the upper connecting groove 114 of the vertical plate 112, but the connecting member 500 is formed of a steel bar including reinforcing bars, the fixing member 500 in the fixing nut The locking hole 520 is formed at an end thereof so that the locking hole 520 can be fixed to the rear surface of the upper connection groove 114.

As such, when the connecting member 500 is installed through the vertical connecting groove 420, the vertical connecting groove 420 is closed as shown in FIG. 6D.

That is, the filling member 450, such as mortar, is filled in the vertical connection groove 420 into which the connecting member 500 is inserted, so that the connection construction of the final composite bottom plate 100 can be completed.

Next, when both sides of the composite bottom plate 100 are formed to be spaced apart from each other, as shown in FIG. To be possible.

100: composite bottom plate
110: reinforcement formed of corrugated bending plate
120: bottom plate body
130: hollow part
140: powered rebar
150: concrete
400: connecting means
410: vertical connection plate
420: vertical connecting groove
500: connector

Claims (10)

A reinforcing member 110 formed of a corrugated flexure plate formed of an inverted T-shape and having a corrugated flexure plate extending upwardly from the center of an upper surface of the lower horizontal plate 111 and formed in an inverse T shape; And a bottom plate body portion 120 formed so that the bottom surface of the lower horizontal plate 111 is exposed to the outside and embedded therein.
The upper connecting groove 411 is formed on the upper surface of the lower horizontal plate 111 toward the vertical plate 112 side of the reinforcement 110 so that the vertical connecting plate 410 is formed so as to be continuous in the longitudinal direction of the composite bottom plate 100. The bottom plate body part 120 has a vertical connection groove 420 on the composite bottom plate 100 so that the top connection groove 411 of the vertical connection plate 410 is exposed to the outside from the bottom surface of the bottom plate body part 120. Composite bottom plate using a reinforcement and a vertical connecting plate formed of a corrugated curved plate, characterized in that the plurality of spaced apart in the longitudinal direction of the). According to claim 1, wherein the connecting member 500 is inserted into the upper connecting groove 411 of the vertical connecting plate 410 through the vertical connecting groove 420, the rear surface of the vertical connecting plate 410 is A stop portion 413 is formed downward at a lower end of the rear tapering portion 412 through a rear tapering portion 412 that increases in thickness while descending downward from the bottom portion, and a locking groove is formed at a lower end of the stopping portion 413. The connecting member 500 is formed so that the hook 520 including the fixing nut formed in the connecting member 500 is seated in the locking groove 414 via the back tapering portion 412 so that the 414 is formed toward the front side. Composite bottom plate using a reinforcing member and a vertical connecting plate formed of a corrugated curved plate, characterized in that to be connected to each other in the transverse direction by the composite bottom plate (100) by. According to claim 2, wherein the upper connecting groove 114 is further formed in the upper portion of the vertical plate 112 of the reinforcement 110 formed in the inverted T shape,
The connecting member 500 is inserted into the upper connecting groove 114 through the vertical connecting groove 420, so that the connecting member 500 is formed as a corrugated curved plate, characterized in that a plurality of up and down can be formed. Composite bottom plate using reinforcement and vertical connecting plate. According to claim 3, Between the vertical connecting grooves 420 of the bottom plate body portion 120 in the longitudinal direction extending from the side of the bottom plate body portion 120 and the expansion insertion portion 432 is formed at the end The side connecting rod 430 is further formed, and the socket connecting portion 440 is formed at the end of the connecting hole 441 so that the side connecting rod 430 is inserted and fixed to the adjacent bottom plate body 120. But
The expansion inserting portion 432 is a vertical portion 433 as an extension flange larger than the side connecting rod 430; From the back of the vertical portion 433 to form a tapering portion 434 of which the diameter decreases in a curved shape,
The socket connector 440 has a tapered portion 434 of the expansion inserting portion 432 is inserted into the tip insertion portion 442 and the expansion insertion opening 432 from the tip inserting portion 442 is narrowed so as to be guided inward Formed in the form of a tapered portion 434 of the composite bottom plate using a reinforcement and a vertical connecting plate formed of a corrugated curved plate, characterized in that formed to be formed by the rear end inserting portion (443). The method according to claim 4, wherein at least one or more vertical connecting plates 410 are installed in parallel to each other to reinforce the connecting portion of the composite bottom plate 100,
The connection member 500 is also made to include a locking hole 520 including one or more fixing nuts,
Side expansion rods 430 formed with the expansion insertion portion 432 is also a composite bottom plate using a reinforcement and a vertical connecting plate formed of a corrugated curved plate, characterized in that at least one is formed in parallel up and down. According to claim 1, wherein the upper horizontal plate 113 in the longitudinal direction of the reinforcing material is further formed on the upper surface of the vertical plate 112, the upper horizontal plate 113 is a plurality of upper horizontal plate 113 is spaced apart from each other Composite bottom plate using a reinforcement and a vertical connecting plate formed of a corrugated curved plate, characterized in that to be installed. According to claim 1, wherein the bottom plate body portion 120 is made of a concrete or FRP material is used, the bottom plate body portion 120 formed of the FRP material is a reinforcement 110 formed of a corrugated curved plate is Is inserted into the groove 311 for the reinforcement formed of the corrugated curved plate formed on the bottom plate body 120,
Between the vertical connection grooves 420 of the bottom plate body portion 120 of the FRP material in the longitudinal direction extending from the side of the bottom plate body portion 120 and the side connecting rods formed with an extension inserting portion 432 at the end ( 430 is further formed, so that the socket connector 440 is formed at the end of the connection hole 441 so that the side connecting rod 430 is inserted into and fixed to the bottom plate body 120 of the adjacent FRP material. But
The expansion inserting portion 432 is a vertical portion 433 as an extension flange larger than the side connecting rod 430; From the rear surface of the vertical portion 433 to form a tapering portion 434 of which the diameter is reduced in a curved shape, the socket connector 440 is inserted into the tapered portion 434 of the expansion inserting portion 432 is inserted inwardly It is formed in the form of the tip inserting portion 442 narrowing the guide portion 442 and the tip inserting portion 442 in the form of a tapered portion 434 of the expansion inserting portion 432 to be hooked so as to form a trailing insert portion 443 formed to be hooked. Composite bottom plate using a reinforcement and a vertical connecting plate formed of a corrugated curved plate, characterized in that. According to claim 1, Reinforcement and vertical connecting plate formed of a corrugated curved plate, characterized in that to form a hollow portion 130 in the bottom plate body 120 between the reinforcement 110 formed of the corrugated curved plate further Composite bottom plate using. Preparing a composite bottom plate 100 of claim 1 and arranging the plurality of spaced apart in the transverse direction;
Hanging grooves 414 formed on the rear surface of the vertical connecting plate 410 exposed at both ends of the connecting member 500 through the vertical connecting grooves 420 formed in the composite bottom plate 100. Inserting and fixing the upper connection groove 114 of the vertical connection plate 410 to be hooked to the upper surface; And
Filling the finishing material in the vertical connection groove 420, the insertion member 500 is inserted into the composite bottom plate construction method using a reinforcement and a vertical connection plate formed of a curved plate. 10. The method of claim 9, wherein the upper surface of the vertical plate 112 of the reinforcing member 110 formed in the inverted T-shape constituting the composite bottom plate 100 by using the upper connection groove 114 is further formed adjacent to the adjacent bottom The connecting plate 500 is connected to each other by using the connecting member 500 in the upper connecting groove 114 of the plate 100, and the connecting member 500 is formed in the upper connecting groove 114 of the vertical plate 112. The connecting member 500 is inserted into the steel rod including reinforcing bars, and the connecting member 500 has a locking hole 520 including a fixing nut formed at an end thereof so that the locking hole 520 is formed on the upper end thereof. Composite bottom plate construction method using a reinforcement and a vertical connecting plate formed of a corrugated curved plate, characterized in that to be fixed to the back of the connecting groove (114).

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