KR20100101212A - A concrete interception wall including legs for prevention of bending - Google Patents

Abstract

PURPOSE: A concrete interception wall with a cutoff rod for preventing bending is provided to prevent a concrete leak and to easily eliminate cured concrete. CONSTITUTION: A concrete interception wall with a cutoff rod for preventing bending comprises a frame(20), through holes(30), and cutoff rods(10). The frame is composed of an upper plate(21) and a lower plate(22). The through holes are formed in the frame at uniform intervals. The through holes installed in the upper plate face with the through holes installed in the lower plate. The cutoff rods are slidably inserted into the through holes.

Description

A concrete interception wall including legs for prevention of bending}

The present invention relates to a concrete pour block, and more specifically, to a concrete blocking member that is able to prevent a concrete from spilling out of the pouring range by dividing a predetermined pouring range in a concrete pouring site of a wide area and withstanding the pouring pressure of the concrete. It is about.

In general, the construction of a wide slab, block, etc. of a building cannot be placed at a time in all areas or areas of all sizes, so the work is done by setting a casting area for working a day, and the remaining area is performed later. Thus, in order to divide the pour area to work at one time and to perform work in the divided area, concrete pour block is installed at the boundary of the area.

As shown in FIG. 1, the conventional concrete pouring film 100 has a structure in which a plurality of fastening holes are formed in the blocking frame 120, and a blocking rod 110 is inserted into each fastening hole. 2 and 3 show a state diagram in which the concrete pouring film 100 of FIG. 1 is installed, which is installed upright at the boundary of an area so that concrete pouring can be made within a predetermined area during a work, and concrete pouring products The pour film stays in the area in which it is installed to cure. In the case where obstacles such as reinforcing bars 320 and 340 and other structures 550 are positioned when the pouring film 100 is installed, some of the blocking rods 110 are in a state of being caught by obstacles such as reinforcing bars. The neighboring blocking rods 110 are installed down to the floor in a normal state, so even if obstacles such as reinforcing bars are formed in any state, it is possible to form a blocking wall to prevent leakage of concrete being poured in a predetermined area.

However, in the conventional pour-casting as described above, when the blocking rod 110 is bent as shown by the dotted line of FIG. 2 due to the pouring pressure of the concrete, and the concrete is hardened in the state where the blocking rod 110 is bent, the blocking rod 110 afterwards. ) Is very difficult to remove. In addition, since the placing pressure of the concrete does not act uniformly, the blocking rods 110 are irregularly bent, respectively, so that the gap is irregularly generated or expanded between neighboring blocking rods, and the area of the gap is wide. A large amount of concrete poured through the place flows out. This leakage causes a defect related to the imbalance or porosity of the cured concrete density, and the concrete hardens around the blocking rod 110, making the removal of the blocking rod very difficult.

In order to solve the problems as described above, the present invention is formed by the structure that the blocking rod to be installed in the pouring film to withstand the concrete placing pressure to prevent the bending of the blocking rod and leakage of the poured concrete and easy to remove after curing the concrete To provide a concrete pour.

Concrete pouring film of the present invention for achieving the above object and the frame; A plurality of through holes formed in the frame and arranged at regular intervals; A plurality of blocking rods slidably inserted into the plurality of through holes, respectively; The blocking rod has a shape in which the longitudinal cross section of the rod body has a narrow width in the direction in which the through holes line up, and a wide width in a direction perpendicular to the direction in which the through holes line up. Here, the “longitudinal cross section of the rod body” means a cross section in which a line penetrating the cross section vertically is directed in a direction in which the rod body extends long, and as described above in the following description. use. The present invention by the configuration as described above is to have a blocking rod structure that can resist the pressure of the concrete and thereby minimize the warpage.

In addition, the present invention is a frame; A plurality of through holes formed in the frame and arranged at regular intervals; It is formed of a rod, and is slidably inserted into the plurality of through holes, the cross-sectional shape of the rod has a width having a long length and a width having a shorter length, in a direction perpendicular to the direction in which the through holes are lined It also provides a concrete pouring film comprising a; blocking bar is installed so that the width having the long length is disposed. This is a configuration in which the cross-section of the blocking rod is an ellipse, a rectangle, an irregular shape, and the like, in which the cross-section has a length of a long length, the direction having the long length is arranged in the direction of pressure of concrete.

On the other hand, the present invention is the frame comprises a top plate and a bottom plate, the plurality of through holes are formed so as to be arranged at a predetermined interval from the top plate and the bottom plate, respectively, each through hole provided in the top plate is each through hole installed in the bottom plate A pair of ball facing each other is also provided to each other to provide a concrete pour in which the blocking rod is inserted into each pair.

On the other hand, the cross section of the blocking rod and the shape of the through-holes should be configured to have a wider width in the direction in which the blocking rods or through-holes are lined, and wider in the direction perpendicular to the direction in which the blocking rods or the through-holes are lined up. It is most preferable to form one of elliptical shape, rectangular shape or long hexagon shape. The blocking rod is not limited to an elliptical shape, and if the shape of the cross section having a wide width in the direction in which the pressure of the concrete acts, it can be configured to deform in any shape.

Concrete pouring according to the present invention has the following effects.

First, the resistance of the blocking rod to the placing pressure of the concrete is increased to prevent bending of the blocking rod, and the gap between the blocking rods caused by the irregular bending of the blocking rod is also prevented from expanding.

Second, even though the concrete leaks between the blocking rods, the surface of the blocking rods that are in contact with the concrete is much increased, and thus, much resistance is given due to the viscosity, thereby significantly reducing the amount of leakage of the concrete.

Third, the amount of leakage of concrete is reduced, and the bending of the blocking rod is prevented, so that it is easier to remove the pour after the curing of concrete.

Embodiments of the present invention will be described in more detail with reference to the drawings.

Figure 4 shows a perspective view of a concrete pouring film according to the present invention. The frame 20 extends horizontally so that the blocking rods 10 may be arranged at regular intervals, and the connecting plate 23 connecting the upper plate 21 and the lower plate 22 and the upper plate 21 and the lower plate 22. ). The upper plate 21 and the lower plate 22 are each formed with a plurality of through holes 30 arranged in a row, and each through hole 30 formed in the upper plate 21 has a lower plate 22. It is formed in pairs to face the through-holes 30 formed in the one block bar 10 to be described later is inserted into the state as shown in Figure 4 through a pair of through-holes facing the upper plate and the lower plate.

The blocking rod 10 inserted into the through hole 30 is a long rod-shaped member and has a head 11 larger than the through hole 30 so that the blocking rod 10 does not fall into the through hole 30 at the upper portion thereof. ) Is formed.

The blocking rod 10 is inserted into each of the plurality of through-holes 30 formed along the horizontally extending frame to serve as a blocking wall that can prevent the leakage of concrete during concrete pouring.

In the present embodiment, the cross-section of the blocking rod 10 is formed in an ellipse, and the through-hole 30 of the frame 20 into which the blocking rod 10 is inserted is also formed in an ellipse so that the blocking rod 10 can be inserted. The through hole 30 is formed to be slightly larger than the cross-sectional area of the blocking rod 10 so that the blocking rod 10 can be freely slid after being inserted into the through hole 30.

When the blocking rod 10 is formed in an ellipse with respect to the longitudinal section of the rod body, the width thereof is narrow in the direction (X direction) in which the blocking rod 10 is arranged, and is perpendicular to the direction ( The Y direction) is configured to have a wide shape. In other words, the short axis (b) of the elliptical cross section of the rod body shown in Fig. 5 is arranged in the direction (X direction) in which the blocking rods are arranged, and the long axis (a) of the ellipse is disposed in the vertical direction (Y direction). do. The arrangement in this way is to prevent the bending of the blocking rod 10 during concrete pouring by having a structure capable of resisting the pressure of the concrete in which the blocking rod 10 is poured.

Accordingly, even when the through-hole 30 of the frame 20 is formed in an ellipse, as shown in FIG. 4, the width of the through-hole 30 is narrow in the direction in which the through-holes are arranged, and the width of the ellipse is wide in the direction perpendicular to the direction. Configure

Although the through-hole 30 is illustrated as having an elliptical shape, the through-hole 30 is formed in accordance with the cross-sectional shape of the blocking rod 10 to facilitate the sliding of the blocking rod 10, the blocking rod ( Even if 10) has an elliptical cross section, the shape is not necessarily an ellipse, and any shape may be changed as long as the blocking rod 10 can be slid and the blocking rod can be disposed as described above.

In addition, even if the shape of the blocking rod 10 is not elliptical when the blocking rod 10 is vertically erected to form a blocking wall, any shape can be any shape that can resist the placing pressure of concrete, blocking rod 10 As shown in Fig. 8, a blocking rod 12 'of a rectangular cross section or a long hexagon cross section is also possible to have a narrow width in this lined direction and a wide shape in a direction perpendicular to the direction.

The operation of the pour spout of the present invention configured as described above will be described in detail.

The pour block of the present invention is installed at the boundary of the concrete pouring area as in the conventional installation method shown in Figs. 2 and 3 so that the concrete stays only in the concrete pouring area and does not leak outside the boundary.

When the pour block is installed at the boundary of the pour area, as shown in FIG. 3, the bar 10 is maintained at the upper part where reinforcing bars 310 to 340 and other obstacles 550 are installed at the bottom of the pour bar. , The other blocking bar 10 is to extend the legs to the bottom to form a concrete blocking wall even if any obstacle is installed in the pouring area can easily divide the pouring area to form a blocking wall to prevent the leakage of concrete.

Figure 6 shows the action state of the cross section and the force cut along the A-A of Figure 4, when the concrete pour block of the present invention is installed in the field.

Referring to FIG. 6, the rod body 12 of the blocking rod 10 is arranged to receive a force F in the direction of the major axis a of the cross section, and the concrete 400 leaks through a gap formed between the blocking rods 10. (D) may occur.

For beams under normal load (distribution or concentrated load), the deflection is the height of the beam in the direction of the load (the height of the beam assuming the beam is placed horizontally and subjected to load from the top). In the blocking rod 10 which receives the casting load F of concrete, the blocking rod 10 having a long width a (corresponding to the height of the beam) is placed in the direction in which the load F acts. The deflection is small with respect to the load (F). Therefore, since the blocking rod 10 of the present invention has a long width (a) with respect to the direction in which the placing rod (F) is received compared to the conventional blocking rod 110, excessive sagging can be prevented.

On the other hand, the pour in accordance with the above configuration not only prevents the deflection of the blocking rod 10, but also has a specific effect of having a concrete in the pour as described later.

Since the concrete that is usually poured is quite viscous, when it flows into the gap between the blocking rods of the pour shield, it is in contact with the surface of the blocking rod and subjected to resistance. While the conventional blocking rod 110 is simply formed in a circular cross section, the blocking rod according to the present invention has a long width (a) in the direction in which the poured concrete flows out, and thus, between the rod portions 12 of the blocking rod. As concrete flows through the gaps, the resistive surface is much wider and the passageway length is longer.

This is illustrated in detail in FIG. 7, assuming that the gaps between the blocking rods have the same width w, and comparing the operation of the present invention and the conventional pouring bar, the blocking bar 110 of the conventional pouring bar 110 ) so that the length (l ₁₎ for concrete to pass through much longer between chadanbong 10 of the casting film in accordance with the present invention than the length (l ₂₎ of the concrete is passed in between the concrete to pass through the cast-in-place membranes of this invention accordingly The frictional resistance at the blocking rod surface, which is received during the process, increases even more and hinders the flow of concrete.

Therefore, even if the spacing according to the present invention is configured to the same interval as the conventional blocking rod 110 between the blocking rods 10, the leakage of concrete is significantly reduced, the density imbalance of the concrete to be cured according to the leakage of the poured concrete To prevent the defects associated with the generation of voids, and the concrete flows around the blocking rods are hardened to solve the problem that it is very difficult to remove the blocking rods in the future.

For reference, a certain gap is generated between the blocking rods 10 and the gap cannot be excessively narrowed, which means that the through-holes 30 formed in the frame 20 do not adhere to each other and maintain a constant interval to support the blocking rods. This is because the strength of the can be secured. Therefore, when comparing the present invention and the conventional pourable, it is assumed that the gap between the blocking rods has the same width (w) because the comparison must be made under the condition that the necessary strength of the frame is secured.

As a result, the constitution of the concrete pouring film according to the present invention is a structure having a resistance against leakage of concrete as well as a function of preventing bending of the blocking rod by resisting the placing pressure of concrete.

While the above has been shown and described with respect to preferred embodiments of the present invention, the present invention is not limited to the specific embodiments described above, it is usually in the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Various modifications will be possible by those skilled in the art.

1 is a perspective view of a conventional pour spout.

Figure 2 is a state diagram of the installation of the conventional pouring film.

3 is a diagram showing a state of installation of a conventional pour seeker from the concrete pouring surface side.

4 is an exploded perspective view of the pour in accordance with an embodiment of the present invention.

5 is a detailed block diagram of a blocking rod according to the present invention.

FIG. 6 is a cross-sectional view showing the pouring screen of FIG. 4 cut in the A-A direction, showing details of concrete being poured in the field. FIG.

Figure 7 is an explanatory diagram comparing the operation of the pour splicer according to the present invention and the conventional plunger.

8 is a modified example of various cross-sections of the blocking rods according to the present invention.

*** Explanation of symbols for main parts of drawing ***

10: blocking rod 11: head

12: rod body 20: frame

21: top plate 22: bottom plate

23: connecting plate 30: through hole

310 to 340: reinforcement 400: poured concrete

500: bottom 550: installation

Claims (4)

A frame; A plurality of through holes formed in the frame and arranged at regular intervals; A plurality of blocking rods slidably inserted into the plurality of through holes, respectively; The blocking rod has a cross-sectional shape in the longitudinal direction of the rod body, the width of which is narrow in the direction in which the through holes are arranged, and the width of the blocking rod is wide in the direction perpendicular to the direction in which the through holes are arranged. Pour A frame; A plurality of through holes formed in the frame and arranged at regular intervals; It is formed of a rod, and is slidably inserted into the plurality of through holes, the cross-sectional shape of the rod has a width having a long length and a width having a shorter length, in a direction perpendicular to the direction in which the through holes are lined Concrete pour film comprising a; bar is installed so that the width having a long length is disposed The method according to claim 1 or 2, The frame includes a top plate and a bottom plate, The plurality of through-holes are formed so as to line at a predetermined interval in the upper and lower plates, respectively, Each through-hole installed in the upper plate is formed in a pair facing each other through the through-hole installed in the lower plate concrete pour film, characterized in that the blocking rod is inserted into each pair The method according to claim 1 or 2, The cross section of the blocking rod is a concrete pouring film, characterized in that any one of the elliptical, rectangular or long hexagon.

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