KR20130082416A - Mold for tetrapod and their tetrapod - Google Patents

Abstract

PURPOSE: A mold for a tetrapod and the tetrapod using the same are provided to enable users to produce the tetrapod in a minimum work space, and to improve productivity. CONSTITUTION: A mold for a tetrapod comprises the following: a lower mold (10) forming first, second, and third protrusions (T1,T2,T3) separated from the center to lower side of the tetrapod; and upper mold (20) forming a fourth protrusion (T4) separated from the center to upper side of the tetrapod, which is detachably combined to the upper side of the lower mold. The lower mold includes an integrated fixed mold (11) classified into the lower side based on a virtual central line formed by the first, second, and third protrusions; and three cover molds (16a,16b,16c) classified into the upper side based on the virtual central line. The tetrapod includes a holder groove (H) by being produced by the mold.

Description

Formwork for tetrapods and therefore tetrapods {MOLD FOR TETRAPOD AND THEIR TETRAPOD}

The present invention relates to a formwork used to produce tetrapods and tetrapods produced accordingly, and in particular, form the formwork for tetrapods by dividing the upper formwork and the lower formwork unlike the prior art, the upper formwork is completed by having an auxiliary mold While forming a holder holder for carrying in the tetrapod, the lower formwork is formed by a fixed formwork fixed to the base frame and a cover form which is hinged to the fixed formwork to open and close, so as not to change the position by rolling the formwork for demoulding after curing. Not only is it possible to demould in place, but it is also easy to transport the finished tetrapod, and thus relates to a form for tetrapod and thus a tetrapod, which can ultimately improve productivity.

In general, Tetrapod is installed in breakwaters and lakes to weaken the blue sofa (에너지 波) and its energy to protect other facilities installed in the lakes or harbors, with the configuration of the general tetrapods for tetrapods The configuration of the formwork will be described in more detail with reference to FIGS. 1 to 3 below.

Typically, tetrapod (T) is composed of a concrete structure in which four conical protrusions (T1, T2, T3, T4) are combined in a constant shape, as shown in Figure 1, the generation of the tetrapod (T) is shown in FIG. As shown in FIG. 3, the four dies 100 are coupled to each other, but the first, second, and third protrusions T1, T2, and T3, which are positioned below the central portion of the tetrapod T, are formed. The separate cover plates 200 are attached to each other and sealed, and the upper end of the portion where the fourth protrusion T4 positioned above the central portion of the tetrapod T is formed is injected into the concrete mortar without being sealed. Thereafter, curing the injected concrete and then demold each of the formwork (100) to produce tetrapod (T).

However, when using the conventional tetrapod formwork 100 as described above, there were various inconveniences, as described above, each time a single tetrapod (T) to produce a plurality of cover plate ( There was an inconvenience to demount 200), and in particular, in demolding formwork 100 after curing of concrete, tetrapod cured by mobilizing heavy equipment such as fork lane to demold the formwork 100 located on the floor. There was a problem to turn over.

And the problem of inverting the tetrapod (T) as described above causes not only the inconvenience of the work, but also another problem that must secure a sufficient working space for the entry and exit of the heavy equipment and the tetrapod (T). That is, the tetrapod (T) is usually produced by securing the flat area near the construction site because its transportation is difficult, the construction site is difficult to secure a sufficient level of slope or the construction site for the conventional tetrapod formwork 100 Is larger, which leads to a decrease in productivity, resulting in a prolonged construction period.

In addition, when carrying the completed tetrapod (T), as the worker binds the tetrapod (T) using a rope, the work is inconvenient and there is a problem that the working time is delayed, on the other hand, the conventional tetrapod formwork (100) In case of pouring concrete mortar, a vibrator was put inside the formwork 100 so as not to cause structural defects such as bubbles in the finished tetrapod T, and a separate worker was needed as well. And there was a fear that defects such as bubbles occur depending on the degree of skill of the operator.

The present invention is to solve the conventional problems as described above, unlike the conventional four formwork and three cover plate is combined by dividing the formwork for tetrapod into the upper formwork and the lower formwork to simplify the assembly and demolding work of the formwork The main purpose of the present invention is to fix the lower formwork to the base frame of weight so that it is not necessary to reverse the tetrapods after curing of concrete and to produce tetrapods in the minimum working space, thereby ultimately improving productivity. .

And the present invention has another object of the invention to facilitate the transport by forming a holder groove in the tetrapod, on the other hand, structural defects such as air bubbles in the completed tetrapod by forming a vibrator in the base frame is installed There is another purpose not only to prevent it, but also to save labor.

The tetrapod formwork according to the present invention for achieving the above object forms a lower formwork for generating the first, second and third projections divided into the lower side at the center of the tetrapod, and from the center of the tetrapod to the upper side. The upper formwork to form a fourth projection to be separated is formed to be detachable to the upper side of the lower formwork, wherein the lower formwork is fixed to the lower side on the basis of the virtual center line of the first, second, third projections The formwork and the tetrapod formwork formed by dividing into three cover formwork, which is divided into the upper side and opened and closed respectively based on the virtual center line.

And the present invention, a pair of auxiliary molds on both sides of the upper formwork to form a pair of auxiliary molds forming a hole on the opposite side of the upper formwork while forming a protrusion on one side so that the protrusions are inserted into each of the through-holes It is another feature of the tetrapod formwork so that the holder groove can be formed in the tetrapod by fastening the, and further features the configuration of the finished tetrapod.

In addition, the present invention has an additional feature to the tetrapod formwork having a vibrator in the base frame is fixed to the lower formwork.

According to the present invention having the configuration as described above, by dividing the formwork for tetrapods into the upper formwork and the lower formwork, there is an effect that can simplify the assembly and demoulding work of the formwork, and the lower formwork fixed to the base frame of weight and In addition, since the tetrapod can be towed vertically by the formation of the holder groove, it is not necessary to overturn the tetrapod after curing of concrete, so that the work is more convenient, and it can be installed relatively in a narrow construction site by taking the minimum working space. On the other hand, by forming a vibrator on the base frame, it is possible to prevent the structural defects of the tetrapod and to save labor, and ultimately maximize the productivity of the tetrapod.

In addition, the tetrapod according to the present invention, as the holder groove is formed, as well as the transport of the tetrapod is also easy to install the effect.

1 is a front view showing a typical tetrapod
Figure 2 is a front view showing a single piece of the conventional formwork for tetrapod
Figure 3 is an assembly view showing the bonding state of the conventional tetrapod formwork
Figure 4 is a front view showing the formwork for tetrapod according to the present invention
5 is a plan view showing the formwork for tetrapod according to the present invention
Figure 6 is a perspective view showing the auxiliary mold of the tetrapod formwork according to the present invention
7 is an exemplary view showing a vibrator of the tetrapod formwork according to the present invention
8 is a state diagram showing the separation of the formwork for tetrapod according to the present invention
9 is a use state showing the opening of the formwork for tetrapod according to the present invention
10 is a state diagram showing the transport of tetrapods according to the present invention

Hereinafter, the configuration of the tetrapod formwork and the tetrapod according to the preferred embodiment of the present invention will be described in detail with reference to FIGS. 4 to 10, the same configuration as in Figure 1 denoted by the same reference numerals to avoid duplication of description.

The tetrapod formwork 1 according to the present invention is divided into a lower formwork 10 fixed to the base frame 5 and an upper formwork 20 detachable from the upper formwork, wherein the lower formwork 10 is a tetrapod (T, The first, second and third protrusions T1, T2 and T3 which are divided downward in the center of the tetrapod are formed. The upper surface of the lower formwork 10 is opened to open the upper formwork 20. The bottom surface is joined to form the die (1) can be integrated, the joint surface of the lower formwork 10 and the upper formwork 20, respectively, as shown in Figures 4 and 5 to form a flange to bolt and Join both flanges with a combination of nuts.

On the other hand, although not shown in the figure, it is preferable to form a gasket (not shown) at the junction of the lower formwork 10 and the upper formwork 20 so as to maintain the watertight (水 거) inside the formwork 1, The junction of the lower formwork 10 and the upper formwork 20 is preferably bisected with the center portion of the portion partitioned in the horizontal direction at the center of gravity of the tetrapod T.

In addition, the lower formwork 10 is formed by dividing the fixed formwork 11 directly installed on the base frame 5 and the cover formwork 16a, 16b, 16c fastened to the fixed formwork 11, tetrapod (T) The fixed formwork 11 divided into the lower side on the basis of the imaginary center line of the 1st, 2nd, and 3rd protrusions T1, T2, and T3 which comprise the part is formed integrally with each part joined, and the said Cover dies 16a, 16b, and 16c, which are divided into upper sides based on the center line, are formed by being divided into three independent cover dies 16a, 16b, and 16c, which are respectively opened and closed as shown in FIG. At this time, the hinge die 15 is formed on one side of the fixed die 11 and each of the cover dies 16a, 16b, and 16c, and the other side is fastened by a combination of bolts and nuts. 16a, 16b, and 16c can be opened and closed to one side without being completely separated with respect to the stationary die 11, thereby simplifying the fastening.

And look at the configuration of the upper formwork 20 is detached to the upper side of the lower formwork 10 in more detail, the upper formwork 20 is a part for generating a fourth projection (T4) divided into the upper side in the center of the tetrapod (T) As shown in FIG. 6, an injection hole 21 for pouring concrete mortar is formed at an upper end of the upper formwork 20, and a through hole 25 is formed at both sides of the upper formwork 20. On both sides of the upper formwork 20 formed with the through hole 25, a pair of auxiliary molds 30 are fastened to one side of each of the auxiliary molds 30, the protrusions being inserted into the through holes 25. By forming 35, holder grooves H are formed in the completed tetrapod T (see FIG. 10).

That is, the tetrapod T generated according to the tetrapod formwork 1 of the present invention is a holder groove in the fourth protrusion T4 to facilitate its transport using a separate holder 50 as shown in FIG. 10. (H) is formed, the present invention is not limited to the shape and shape of the holder groove (H) or whether penetrating.

And referring to the configuration of the vibrator 40 with reference to Figure 7 as an additional configuration of the present invention, the vibrator 40 to the base frame 5 is fixed to the lower formwork 10 of the formwork 1 according to the invention By providing, it is possible to prevent structural defects due to the generation of bubbles, etc. in placing the concrete mortar in the form (1), of course, it is possible to save labor because there is no need for a separate worker. In the drawings, reference numeral '45' denotes a dustproof packing 45.

Hereinafter, the action of the tetrapod formwork according to the present invention and the tetrapod according to it.

The concrete mortar is poured into the inlet 21 formed at the upper end of the upper formwork 20 in a state in which the upper formwork 20 having the auxiliary mold 30 is attached to the open upper side of the first lower formwork 10. At this time, by driving the vibrator 40 formed in the base frame 5 when the mortar is poured, it is possible to maintain a constant density in the poured concrete without the need for skilled workers (see FIGS. 5 and 7).

When the poured concrete mortar is cured to some extent, the auxiliary mold 30 is removed from the upper formwork 20 and the upper formwork 20 is removed from the lower formwork 10 to demold (see FIG. 8). Subsequently, as shown in FIG. 9, curing of the tetrapod T can be accelerated by opening the cover dies 16a, 16b, and 16c constituting the lower formwork 10.

Then, when the curing of the tetrapod (T) is completed, as shown in Figure 10 by inserting a separate holder 50 mounted on the crane, etc. into the holder groove (H) of the tetrapod (T) completed by pulling the tetrapod vertically (T) can be completely stripped to the formwork (1).

Therefore, according to the present invention as described above after the curing of the concrete does not need to reverse the tetrapod (T), as well as its operation is more convenient, and requires a minimum working space Tetrapod (T) efficiently in a narrow construction site It can be produced, on the other hand by the holder groove (H) formed in the tetrapod (T) can also facilitate the installation of the tetrapod (T).

1: formwork 5: baseframe
10: lower formwork 11: fixed formwork
15: hinge shaft 16a, 16b, 16c: cover die
20: upper die 21: injection hole
25: through hole 30: auxiliary frame
35: protrusion 40: vibrator
50: holder T: tetrapod
T1: first protrusion T2: second protrusion
T3: third projection T4: fourth projection
H: Holder groove

Claims (4)

Forming a lower formwork 10 for generating first, second and third projections T1, T2, and T3, which are divided downward at the center of the tetrapod T;
The upper formwork 20 is formed so as to be detached from the upper side of the lower formwork 10 to form a fourth projection (T4) is divided into the upper side in the center of the tetrapod (T);
The lower formwork 10 has an integral fixed formwork 11 which is divided into a lower side on the basis of the virtual centerlines of the first, second, and third protrusions T1, T2, and T3, and the virtual centerlines. The formwork for tetrapod, characterized in that formed by dividing into three cover dies (16a, 16b, 16c) that are divided into the upper side to open and close.
The method of claim 1, further comprising:
Forming through-holes (25) on opposite sides of the upper die (20); A pair of auxiliary molds 30 having a protrusion 35 formed on one side thereof; By fastening a pair of auxiliary molds 30 on both sides of the upper formwork 20 so that the protrusions 35 are inserted into the respective through holes 25, the holder grooves H are formed in the completed tetrapod T. Tetrapod formwork, characterized in that.
The method of claim 1, further comprising:
Forming a base frame 5 to which the lower formwork 10 is fixed; Formwork for tetrapods, characterized in that the base frame (5) is provided with a vibrator (40).
Tetrapod produced by the tetrapod formwork of claim 2 having a holder groove (H).

Images