KR20120060011A - Concrete Lining Board and the method thereof using psc - Google Patents

Abstract

PURPOSE: A concrete lining board using a PSC method and a manufacturing method thereof are provided to improve production by simultaneously manufacturing multiple lining boards through individual cutting works. CONSTITUTION: A concrete lining board(100) using a PSC method comprises a main body(110) and multiple PS wires(120). The main body is made of concrete. The PS wires, in which tension is applied, are arranged inside the main body in a longitudinal direction. Both ends of the PS wires are exposed from both sides of the main body. Fixing members(130) are assembled in the exposed parts of the PS wires.

Description

Concrete lining board and manufacturing method using PSC method

The present invention relates to a concrete perforated plate, more specifically, to cure the concrete only to configure the body, and by placing the PS steel wire inside the body for structural rigidity, the weight of the overall perforated plate can be reduced and the production cost can be reduced It relates to a concrete perforated plate using the construction method and a method of manufacturing the same.

In general, the concrete perforated plate is disposed in the lower portion of the plate made of steel, the concrete is filled after curing the upper portion of the plate and the plate and concrete are integrally formed. That is, the plate made of steel plate bears the tensile force, the compressive force acting on the perforated plate is a structure that is shared by the cured concrete on the top. In addition, in order to increase the strength of the perforated plate, as shown in FIG. 1, after the I beam 21 is disposed in the concrete, the concrete 30 may be filled and used to cover the I beam 21.

However, this conventional concrete perforated plate (1) has a problem that the weight is heavy and the production cost increases because the plate 20 for supporting the concrete 30 is made of expensive steel. Accordingly, to reduce the production cost and reduce the weight by forming the perforated plate only by the concrete itself, but in order to reinforce the compressive strength by the concrete itself, the cross section of the concrete itself must be increased, thereby increasing the construction cost and increasing the self-weight and In addition, there was a problem that it is difficult to produce a perforated plate meeting the specifications.

In order to achieve the above object, the present invention does not use a plate made of a steel plate is formed only by the concrete itself, and by placing a PS steel wire in which the tension force is introduced therein, the strength is excellent and the production cost is reduced by reinforcing the compressive strength It is providing the concrete perforated plate using the PS method which can be made, and its manufacturing method.

In addition, the present invention can be produced at the same time by placing a plurality of molds at regular intervals in the manufacture of the perforated plate and by introducing a tension force to the concrete filled in each mold using a single PS steel wire through a separate cutting operation The present invention provides a concrete perforated plate using a PCC method and a method of manufacturing the same.

In order to achieve the above object, the present invention is a concrete perforated plate, the body made of concrete; And a plurality of PS steel wires disposed in the longitudinal direction at a predetermined interval along the width direction so as to be evenly disposed throughout the main body, and embedded in a state in which tension force is introduced.

In this embodiment, the PS steel wire may be disposed in the middle of the height of the main body.

In this embodiment, the concrete may include colored pigments.

In this embodiment, the PS steel wire is provided to be exposed to a predetermined length on both sides of the main body, it may be further provided with a fixing member assembled to the exposed PS steel wire.

In the present embodiment, a plurality of drain grooves may be recessed in a predetermined depth along the longitudinal direction or a grid-shaped drain groove may be formed in the upper surface of the main body for easy drainage.

In the present embodiment, the lower surface of the main body is provided with a concave portion is formed in a predetermined depth in the upper side at both side ends, the concave portion may be provided with a rubber pad for shock absorption.

In addition, the present invention provides a method for manufacturing a concrete perforated plate comprising a PS steel wire, a) preparing a plurality of molds open to the upper surface of the table in a row at a predetermined interval in succession arranged to have an inner space; b) arranging one PS steel wire to pass continuously through the inner space of the frame in which the PS steel wires are continuously arranged, and fixing both ends of the PS steel wire to fixing means provided on the table; c) introducing tension into the PS steel wire; d) filling and curing concrete in the internal space; e) removing the tension force introduced into the PS steel wire and cutting the PS steel wire exposed to both ends of the mold through the internal space; And f) removing the mold. Provides a method of manufacturing a concrete perforated plate using a PS method.

In the present embodiment, the mold may include a bottom plate fixed to the table, and both side plates, the front plate and the rear plate disposed along the edge of the bottom plate and foldably connected to the table.

In the present embodiment, a plurality of ridges protruding along the lattice shape or the longitudinal direction may be formed at a predetermined interval on the upper surface of the bottom plate.

In this embodiment, both side plates may be provided with a through-hole formed in a position corresponding to each other so that the PS steel wire can pass through.

In this embodiment, the through hole may be formed in the middle of the height of the side plate.

In the present embodiment, the concrete in step d) may include a colored pigment.

In the present embodiment, the curing step; may be performed through natural drying at room temperature or steam drying using steam.

In the present embodiment, after the step e) may further comprise the step of assembling the fixing member on the end side of the cut PS steel wire.

According to the present invention as described above, by forming the perforated plate only in the concrete itself without using a plate made of steel and by placing a PS steel wire in which a tension force is introduced therein, the strength is excellent and the production cost can be reduced by reinforcing the compressive strength. It works.

In addition, the present invention can be produced at the same time by placing a plurality of molds at regular intervals in the manufacture of the perforated plate and by introducing a tension force to the concrete filled in each mold using a single PS steel wire through a separate cutting operation There is an effect that can increase the work productivity.

1 is an overall perspective view showing a conventional concrete slab.
Figure 2 is an overall perspective view of a concrete perforated plate according to the present invention.
3 is a cross-sectional view taken along line AA of FIG.
4 is a rear view of FIG. 2.
Figure 5 is a plan view showing a drain groove of another form formed in the upper surface of the main body in Figure 2;
Figure 6 is a side view and a plan view showing a mold and a table used in the manufacturing process of the perforated plate according to the present invention.
7 is a plan view and a side view showing a state in which the PS steel wire is installed on the mold and the table of FIG.

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

In order to facilitate understanding of the present invention, the same reference numerals will be used to denote the same constituent elements even if they are shown in different drawings.

Concrete perforated plate 100 according to a preferred embodiment of the present invention (hereinafter referred to as "recovered plate") is shown in Figures 2 to 4, the main body 110 forming the appearance of the perforated plate is made using only concrete In addition, a plurality of PS steel wires 120 in which pre-stress is introduced for load reinforcement are embedded in the main body 110.

That is, the perforated plate 100 according to the present invention is a concrete mortar in a state in which the PS steel wire 120 is introduced in a predetermined pattern using the form 300 to be described later, the main body 110 forming the overall appearance is described later It is prepared by curing and then filling. Accordingly, by not using a plate made of steel commonly used to support concrete and the I beam used for internal reinforcement, the overall weight can be reduced and production cost can be reduced.

In addition, a plurality of drainage grooves 112 may be recessed in the upper surface of the main body 110 as shown in FIGS. 2 and 5. The perforated plate 100 according to the present invention because the main body 110 is made by curing only concrete, the upper surface is also made of a concrete material, the frictional force is very high due to the characteristics of the material itself is very low risk of slipping the vehicle. However, when the rain falls, if the water is accumulated on the upper surface of the main body 110, such a frictional force is reduced to cause the vehicle or the like to slip. In order to prevent this, the drain groove 112 is formed on the upper surface exposed to the outside, and the water is moved through the drain groove 112 to increase the overall friction force by reducing the amount of water present on the upper surface. It becomes possible. Furthermore, when water is present on the upper surface, water penetrates into the concrete itself, thereby lowering the overall rigidity. In the present invention, the water is moved and removed through the drain groove 112, thereby reducing the concern about this.

On the other hand, both sides of the lower surface of the main body 110 is provided with a concave portion 116 is formed in a predetermined depth to the top as shown in Figure 4, the recessed portion 116 is provided with a rubber pad 114 Can be. Such a rubber pad 114 is to be positioned on the lower structure-for example, the girder that supports the perforated plate 100 at the time of installation of the perforated plate 100 to absorb the shock transmitted to the perforated plate 100 when passing through the vehicle. To help.

The PS steel wire 120 is embedded in the body 110 in order to increase the tensile strength of the body 110 made of concrete only, can withstand the main load (load in the longitudinal direction) is added to the perforated plate 100 Equipped with a predetermined length so as to be embedded along the longitudinal direction of the main body 110. The PS steel wire 120 is provided with a plurality of pieces at regular intervals along the width direction of the main body 110 to distribute the load applied to the main body 110 as a whole. At this time, the plurality of PS steel wire 120 is preferably disposed in the middle of the height of the main body 110 so as to share the load applied to the main body 110 evenly.

Accordingly, the main body 110 supports the load in the width direction applied to the perforated plate 100 and the PS steel wire 120 forms a shared structure for supporting the load applied in the longitudinal direction so that the overall structural strength is improved. do.

Here, the introduction of the tension force into the PS steel wire 120 is to impart a tension force to the PS steel wire 120 before filling the mortar into the mold 300 to form the main body 110 and then filled with concrete mortar After curing is made in a way to remove the tension introduced into the PS steel wire (120).

The concrete that is cured together with the PS steel wire 120 to form the main body 110 may contain colored pigments such that the perforated plate 100 itself has a color such as red, blue, yellow, green, black, and the like after curing. . This is to increase the aesthetics of the perforated plate 100 and at the same time to install the perforated plate 100 having a suitable color according to the application according to the place where the perforated plate 100 is installed. For example, when the ventilating plate 100 is installed near the school, by installing the venting plate 100 having a yellow color, the driver may be notified in advance that the school is near through the color of the venting plate 100 even without installing a separate structure. Will be.

On the other hand, the PS steel wire 120 so that both ends are exposed to a certain length outside from both side ends of the main body 110, the PS steel wire by coupling the fixing member 130 to both ends of the exposed PS steel wire 120 It is also possible to increase the tension force introduced into the perforated plate 100 by maintaining the tension force introduced to (120).

Hereinafter, a method for manufacturing a perforated plate according to the present invention will be described in detail below. The method of manufacturing a ventilated plate according to the present invention is capable of simultaneously manufacturing a plurality of ventilated plates 100 by introducing a single tension in the process of introducing a tension force into the PS steel wire 120 embedded in the main body 110. have.

That is, the plurality of molds 300 are provided on the table 200 in a state in which the plurality of molds 300 are continuously arranged at regular intervals so as to cure concrete to make the plurality of main bodies 110 at the same time. Here, the mold 300 is provided in a housing shape having an inner space 302 whose upper part is opened so that concrete can be filled through the upper part, and the bottom plate 310 fixed on the table, both side plates 320a, 320b), the front plate 330 and the rear plate 340.

The side plates 320a and 320b, the front plate 330, and the rear plate 340 are fixed to the table 200 via hinges and provided to be foldable in one direction, and the side plates 320a and 320b are provided on the PS. The steel wire 120 is provided with a through hole 322 that is formed so as to pass through the internal space 302. Accordingly, the upper side to fill the concrete by fixing the two neighboring plates through the fasteners (not shown) by vertically standing both side plates (320a, 320b), front plate 330 and rear plate 340. The inner space 302 is provided. Accordingly, the main body 110 is easily folded by folding the side plates 320a and 320b, the front plate 330, and the rear plate 340 to the outside in the process of taking out the tension and introducing the cured main body 110. It can be taken out and carried.

At this time, the upper surface of the bottom plate 310 which is fixed on the table 200, the ridge portion protruding a certain height in a predetermined pattern so that the drain groove 112 is formed in the upper surface of the main body 110 ( 312) may be provided. Accordingly, a separate process for forming the drainage groove 112 on the upper surface of the main body 110 becomes unnecessary, and in the process of filling and curing concrete in the inner space 302, the ridge 312 is provided. As a result, the drain groove 112 is formed. The ridge 312 may be formed on the upper surface of the bottom plate 310 in a plurality of protrusions at regular intervals, or may be formed in a grid shape.

As described above, in the state where the plurality of molds 300 are prepared on the table 200, one PS steel wire 120 is inserted into the through hole 322 formed in each of the molds 300 to form the plurality of molds 300. One PS steel wire 120 to be connected, and both ends of the PS steel wire 120 is fixed to the fixing means 210, such as jacks provided in the table 200, respectively.

In this state, in the state in which the tension force is introduced into the PS steel wire 120, each mold 300 is filled with concrete mortar to embed the PS steel wire 120 in which the tension force is introduced, and flatten the upper surface of the filled concrete mortar. do.

Here, the concrete mortar may be a concrete mortar containing a color pigment so that the finished porous plate 100 as described above may have a variety of colors. It is also noted that high strength concrete mortar may be used for high strength.

At this time, through the separate plate-shaped member having a predetermined width by pressing both side ends of the upper surface of the filled concrete mortar to provide the recess 116 may be attached to the rubber pad 114 to the recess 116. .

Thereafter, to cure the concrete mortar filled in the inner space 302. Here, the curing process may be made through natural drying, or steam drying using steam that is commonly used for fast curing.

Next, when curing is completed through the drying of the concrete mortar to remove the tension force introduced into the PS steel wire 120 to cut the middle of the length of each of the PS steel wire 120 connecting the plurality of mold 300 at the same time. . That is, as shown in FIG. 7, the PS steel wire 120 is cut at a position where a predetermined length is left from both side plates 320a and 320b constituting each mold 300 ('C' position in FIG. 7). To separate the plurality of main bodies 110.

Thereafter, the side plates 320a and 320b surrounding the main body 110, the front plate 330 and the rear plate 340 to remove the fasteners connected to each other and to be folded to the outside of the main body 110 to the main body 110 Are exposed to the outside and loaded by take-out and transport.

In this case, the fixing member 130 may be coupled to the ends of the PS steel wire 120 protruding a predetermined length from the main body 110 after separating the mold 300. This is to increase the structural rigidity by maintaining the tension force introduced for a long time by holding the cut both ends of the PS steel wire 120 through the fixing member 130.

Although specific embodiments of the present invention have been described in detail with reference to the drawings, the present invention is not limited to such specific structures. Those skilled in the art will be able to easily modify or change without departing from the technical spirit described in the claims below. However, equivalents, replacements, and modifications through simple design variations or modifications are all apparently within the scope of the present invention.

100: concrete slab plate 110: the body
112: drain groove 114: rubber pad
120: PS steel wire 130: fixing member
200: table 210: fixing means
300: mold 302: interior space
310: bottom plate 312: ridge
320a, 320b: side plate 322: through hole
330: front plate 340: thick plate

Claims (14)

In the concrete perforated plate,
A body made of concrete; And
And a plurality of PS steel wires disposed in the longitudinal direction at a predetermined interval along the width direction so as to be evenly disposed throughout the main body and embedded in a state in which tension force is introduced. The method of claim 1,
The PS steel wire is a concrete slab plate using the PS method characterized in that disposed in the middle of the height of the main body. The method of claim 1,
The concrete is a concrete slab plate using the PS method characterized in that the colored pigment is contained. The method of claim 1,
The PS steel wire is provided to be exposed to a predetermined length on both sides of the main body, the concrete porous plate using the PS method characterized in that the fixing member is assembled to the exposed PS steel wire is further provided. The method of claim 1,
The upper surface of the main body concrete slab plate using the PS method characterized in that a plurality of drainage grooves are formed in a predetermined depth in the longitudinal direction for easy drainage or grid-shaped drainage grooves are formed in a predetermined depth. The method of claim 1,
The lower surface of the main body is provided with a concave portion that is formed in a predetermined depth to the upper end at both side ends, the concave portion is provided with a concrete pad using the PS method, characterized in that the rubber pad for shock absorption is provided. In the method for producing a concrete slab containing PS steel wire,
a) preparing a plurality of molds whose upper part is opened to have an inner space, and arranged in succession at a predetermined interval on the upper surface of the table;
b) arranging one PS steel wire to pass continuously through the inner space of the frame in which the PS steel wires are continuously arranged, and fixing both ends of the PS steel wire to fixing means provided on the table;
c) introducing tension into the PS steel wire;
d) filling and curing concrete in the internal space;
e) removing the tension force introduced into the PS steel wire and cutting the PS steel wire exposed to both ends of the mold through the internal space; And
f) removing the mold; concrete return plate manufacturing method using the PS method comprising a. The method of claim 7, wherein
The mold has a bottom plate fixed to the table, and the concrete plate plate manufacturing method using the PS method characterized in that it comprises a side plate, a front plate and a rear plate which is arranged along the border of the bottom plate to be foldable to the table. . The method of claim 8,
Method for producing a concrete slab plate using the PS method characterized in that the upper surface of the bottom plate is formed with a plurality of ridges protruding along the grid shape or longitudinal direction at a predetermined interval. The method of claim 8,
The side plate is provided with a through-hole formed in the position corresponding to each other so that the PS steel wire can pass through the concrete composite plate manufacturing method using the PS method. The method of claim 10,
The through-hole is a concrete composite plate manufacturing method using the PS method, characterized in that formed in the middle of the height of the side plate. The method of claim 7, wherein
The step d) is a method of manufacturing a concrete slab plate using the PS method further comprising the step of mixing a colored pigment to the concrete. The method of claim 7, wherein
The curing step is carried out through natural drying at room temperature or concrete dry plate production method using the PS method, characterized in that carried out by steam drying using steam. The method of claim 7, wherein
After the step e), the method of manufacturing a concrete slab plate using the PS method characterized in that it further comprises the step of assembling the fixing member on the end side of the cut PS steel wire.

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