KR200399132Y1 - Deck plate - Google Patents

Abstract

The disclosed subject matter relates to a deck plate of a deck panel for reinforced concrete slab, in particular, through the improvement of the structure of the joint provided on both ends of the deck plate for the connection between the deck plate, seaming process for separate seaming The present invention relates to a deck plate that can secure the structural stability of the slab that is constructed by maintaining a solid binding force between deck plates without the addition of, and can effectively block leakage occurring during the curing process when placing concrete due to high watertightness of joints.

The technical configuration is that in the deck plate of the deck panel for reinforced concrete slabs having joints bent at both ends for connection between adjacent deck plates, the joints are oriented from the bottom surface of the deck plate 100 tip. An inclined portion 132 protruding obliquely, a first extended portion 134 extending horizontally from the inclined portion 132, and an inclined portion 132 from the first extended portion 134 toward the inclined portion 132; A first joint 130 including a joint 136 that is bent downward in parallel with the joint;

The inclined contact portion 142 bent in a Z shape from the bottom surface of the deck plate 100 to contact the inner surface of the joint end 136, and the second extension portion 144 extending horizontally from the front end of the inclined contact portion 142. The second joint 140, including; and the gist.

Description

Deck plate

The present invention relates to the deck plate of the deck panel for reinforced concrete slab, in particular, through the improvement of the joint structure provided at both ends of the deck plate for the connection between the deck plate, seaming processing for separate seaming It is a deck plate that can secure structural stability of the slab that is constructed by maintaining solid binding force between deck plates without additional process, and can effectively block leakage occurring during curing process when placing concrete due to high watertightness of joints. .

The most common method of constructing reinforced concrete slab in a general reinforced concrete structure is to construct a formwork to form the outer surface of concrete, a copper support supporting the formwork, and to reinforce the reinforcement on the formwork and then cast concrete. After that, if the concrete is cured through a curing process for a period of time is made of a process for removing the formwork and copper bar.

However, this method requires a lot of manpower and work according to the construction and dismantling of the formwork and copper barrier, and it is necessary to perform separate reinforcement work, and finish work due to the surface defect of the structure when removing formwork after concrete curing. There is a lot of problems such as economical due to the generation of waste materials due to form damage during form dismantling due to the need for considerable air.

Therefore, in recent years, a slab of reinforced concrete is formed by using a deck plate composed of a deck plate serving as a formwork and a truss girder installed to maintain the strength of the slab on the deck plate, without using a circle and formwork. Deck slab method is mainly used.

1 is a perspective view showing the overall configuration of a deck panel commonly used in the prior art.

As shown in the drawing, a conventional general deck panel has a deck plate 100 having a predetermined thickness designed to withstand the concrete's own weight and construction load, and a truss fixed in the longitudinal direction on the upper surface of the deck plate. It consists of 200 girders (Truss girder).

The truss girder 200 is provided with a lattice 210 continuously bent along a longitudinal direction with a constant waveform, and reinforcing bars 220 and 230 respectively installed in the longitudinal direction of the deck plate of the upper and lower portions of the lattice to secure tensile strength of the slab. The bottom of the lattice 210 is formed horizontally bent (Foot; 212) is bent horizontally welded to the welding support protrusion (hereinafter referred to as "rib"; 110) of the deck plate.

Deck plate 100 serves to bear the tensile load of the slab as well as the formwork, the surface is plated with zinc to prevent corrosion caused by contact with concrete, the foot of the lattice 212 is Ribs 110 to be placed are formed at regular intervals in the width direction, and joints 120 and 120 'are formed at both ends of the width direction so that the deck plates can be continuously arranged as required by connecting with another adjacent deck plate. Each is formed, and the conventional general structure of such a joint is shown in FIG.

That is, Figure 2 is a front view showing a conventional deck plate connection structure, the connection structure of the conventionally known joint is a so-called hook type structure, at each end of one deck plate and the other deck plate adjacent to it The first joint 120 and the second joint 120 ′ that are bent in a hook shape are bent to face each other so that the bent ends of these joints overlap each other and are connected to each other.

However, in this type of connection structure, even if the bending angle of each joint is slightly different at the time of joining, each joint tip bent surface is joined by point contact or line contact rather than surface contact, so that a gap is likely to occur in the joint part, and through this gap, the deck plate There is a problem that the water of the concrete poured on the bed leaks downward.

In addition, there is a problem in that the joint structure bent in the form of a hook is simply connected to overlap, the binding force of the joint portion is not strong, structural stability is lowered and the leaking space is easily allowed.

The present invention is to solve the problems of the prior art, through the improvement of the structure of the joints provided at both ends of the deck plate for the connection between the deck plate, without the addition of a seaming processing for separate seaming (Seaming) By maintaining a solid binding force between deck plates to ensure the structural stability of the slab to be built through this, and the high watertightness of the joints to provide a deck plate with a joint that can effectively block the leakage occurring during the curing process when placing concrete Its purpose is to.

The deck plate of the present invention as a technical means for achieving the above object, in the deck plate of the deck panel for reinforced concrete slab having a joint bent at both ends for connecting between the adjacent deck plate, the joint The first joint includes an inclined portion formed to be inclined in one direction from the bottom surface of the deck plate, a first extension extending horizontally from the inclined portion, and a joint end bent downward in the inclined portion from the first extension portion; And a second joint including an inclined contact portion bent in a Z shape from the bottom surface of the deck plate to contact the inner surface of the joint end and a second extension portion extending horizontally from the inclined contact portion tip.

Here, the bending portion extending from the first extension portion of the first joint to the joint end is rounded to have a predetermined radius of curvature, and the bending portion extending from the inclined contact portion of the second joint to the second extension portion is the bending of the first joint. It is preferable to form round so as to have a radius of curvature smaller than that of the portion.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

3 is a perspective view showing a deck plate configuration according to the present invention, Figure 4 is an enlarged view showing the enlarged joint portion according to the connection between the deck plate, for the same parts as the conventional configuration shown earlier in this embodiment The same reference numerals and names will be used.

As shown in FIGS. 3 to 4, the deck plate 100 protrudes from the upper surface thereof by forming a rib 110, which is supported by a lattice material of a truss girder, which is not shown, extending in the longitudinal direction over an equal interval. At both ends of the width direction, joints 130 and 140 for overlapping seaming are formed, respectively, when connecting to another neighboring deck plate.

The joint consists of a first joint 130 bent at one end of the deck plate 100 and a second joint 140 bent at the other end, and the first joint 130 at one end of the deck plate 100. And the deck plate 100 can be continuously arranged by the required area by jointly connecting the second joint 140 of another deck plate adjacent thereto.

The first joint 130 is an inclined portion 132 protruding obliquely from the bottom surface of the deck plate 100, a first extension 134 extending horizontally from the tip of the inclined portion 132 and the first extension It consists of a joint end 136 is bent in parallel with the inclined portion 132 in the direction of the inclined portion 132 from the tip of the portion 134, the second joint 140 from the bottom surface of the deck plate 100 It has a bending cross section continuously bent in a Z shape, the second joint 140 is horizontal from the tip of the inclined contact portion 142 and the inclined contact portion 142 in contact with the inner surface of the joint 136 of the first joint (130) The second extension part 144 extends.

Here, the bending portion 137 leading from the first extension portion 134 to the joint end 136 of the first joint 130 is formed to have a predetermined radius of curvature, and the second joint 140 of the second joint 140 The bending portion 147 extending from the inclined contact portion 142 to the second extension portion 144 may be rounded to have a radius of curvature smaller than the bending portion 137 of the first joint 130. For example, when the bending angle α of the bending portion 137 of the first joint 130 is 45 °, the bending portion 147 of the second joint 140 closely adheres to the inside of the bending portion 137 when the joint is connected. The bend angle β is slightly smaller than the angle α to 43 °, and the second joint 140 bending portion 147 may be completely adhered to the inside of the first joint 130 and the bending portion 137. Make sure In this case, the surface contact portions of the first joint 130 and the second joint 140 may be enlarged to further improve the watertightness of the joint portion.

The deck plate 100 of the present invention configured as described above has two decks connected to each other because the second joint 140 is provided with the second extension part 144 contacting the first extension part 134 of the first joint 130. The upper and lower clearances between the plates 130 and 140 become smaller, and when assembled, the force is applied in the opposite direction to each joint in the state in which the first joint 130 is covered on the second joint 140 as shown in FIG. Since the bending part 147 of the two joints 140 is tightly fitted into the first joint 130 and the bending part 137, the joint part is made tighter and the joint part is simple and very solid, and due to the firmness of the joint part, The structural stability of the slab to be built can be further improved.

In addition, when the second joint 140 bending portion 147 is in close contact with the inside of the bending portion 137 of the first joint 130, the curved surface and the curved surface are in close contact with each other so that the contact area is widened to prevent water leakage. It can be further improved.

6 to 8 illustrate other embodiments of the joint, and the joint 136 and the second extension part 144 in contact with the first joint 130 and the second joint 140 are in contact with each other. It is intended to increase the watertightness of the joint by forming the protrusions 138 and 148 respectively in place.

6, the protrusions 138 and 148 are formed on both the joint 136 and the second extension 144, which are in contact with the first joint 130 and the second joint 140. 7 and 8 are formed in only one of the joint 136 of the first joint 130 and the second extension 144 of the second joint 140. (138) and 148 are formed.

According to another embodiment of the present invention, the joint protrusions 138 and 148 may improve the watertightness of the joint portion between the deck plates, and the binding force between the deck plates may be increased, thereby contributing to the structural stability of the concrete deck plate.

As described above, according to the deck plate of the present invention, it is possible to secure structural stability of the slab that is constructed by maintaining a solid binding force between deck plates without adding a seaming process for additional seaming. Due to the high watertightness of the parts, it is possible to effectively block leakage occurring during the curing process during concrete pouring.

Although the present invention has been illustrated and described in connection with specific embodiments, it should be understood that the present invention may be variously modified and changed without departing from the spirit or the scope of the present invention provided by the following claims for utility model registration. It will be appreciated that those skilled in the art can easily know.

1 is a perspective view showing the overall configuration of a conventional deck panel.

Figure 2 is a front view showing a conventional deck plate connection structure.

Figure 3 is a perspective view showing a deck plate configuration according to the present invention.

Figure 4 is an enlarged view of the main part showing an enlarged joint portion according to the connection between the deck plate of the present invention.

5 is a diagram illustrating a connection process between deck plates.

6 to 8 is another embodiment of the present invention.

<Description of Signs of Major Parts of Drawings>

100 ... deck plate

130 ... Joint 1

132 Slope

134 ... First Extension

136 ... joint

140 ... Article 2 Joints

140.Inclined contact

144.2nd Extension

137,147 ... Bending part

Claims (5)

In the deck plate of the reinforced concrete slab deck panel having a joint bent at both ends for the connection between neighboring plates, The joint may include an inclined portion 132 protruding obliquely from the bottom surface of the deck plate 100, a first extension 134 extending horizontally from the inclined portion 132, and the first extension 134. A first joint (130) including a joint (136) bent downwardly in parallel with the inclined portion (132) toward the inclined portion (132); The inclined contact portion 142 is bent in a Z shape from the bottom surface of the deck plate 100 in contact with the inner surface of the joint end 136, and a second extension portion 144 extending horizontally from the tip of the inclined contact portion 142. Deck plate, characterized in that consisting of; The method of claim 1, The bending part 137 extending from the first extension part 134 of the first joint 130 to the joint end 136 is rounded to have a predetermined radius of curvature, and the inclined contact part of the second joint 140 ( The bending plate (147) from the 142 to the second extension portion (144) is deck plate, characterized in that it is rounded to have a radius of curvature smaller than the bending portion (137) of the first joint (130). The method of claim 1, Deck plate, characterized in that the protrusion 138, 148 is formed on the joint end 136 of the first joint 130 and the second extension portion 144 of the second joint 140, respectively. . The method of claim 1, Deck plate, characterized in that formed in the joint end 136 of the first joint (130) is further formed with a projection (138). The method of claim 1, Deck plate, characterized in that the second extension portion (144) of the second joint (140) is further formed with a mountain-shaped projection (148).