KR200351238Y1 - Precast Concrete Slab Panel with Lateral Load Resistancy and Slab Structure using the same - Google Patents

Abstract

An improved technique is disclosed for precast concrete slab panels used as unit members in building floor slabs of various buildings.

The present invention is to improve the point that the conventional DTS panel system was not used in the basement layer other than the ground layer because there is no resistance to the transverse force, for this purpose, the present invention is a bottom plate and a panel of a predetermined size In the precast concrete slab panel comprising a plurality of reinforcing ribs formed side by side on the bottom surface of the bottom plate, the lower protruding jaw protruding horizontally to a predetermined size is provided on the lower side of both sides of the bottom plate Provided is a precast concrete slab panel capable of supporting a lateral force, characterized in that the space portion which is upwardly opened can be formed at a portion meeting the adjacent panel after construction.

Description

Precast Concrete Slab Panel with Lateral Load Resistancy and Slab Structure using the same}

The present invention relates to a precast concrete slab panel that is used as a unit member in constructing floor slabs of various buildings. More specifically, it has a resistance to axial force acting in the horizontal direction, thereby providing earth pressure as well as ground pressure. The present invention relates to a precast concrete slab panel and slab structure using the same, which can be suitably used even in the basement layer where the transverse force acts.

In general, the method of constructing concrete floor slab at the construction site is to install the formwork and cast concrete directly at the site, and to manufacture the concrete unit member to a certain size in advance at the factory and to assemble it in series at the site to form the structure. Prefabricated method (hereinafter referred to as PC (precast concrete) method) is mentioned. Among these methods, the above-mentioned site casting method requires a lot of manpower, materials, and air due to the manufacture dismantling of the formwork and the concrete placing, so recently, the PC method, which does not require the formwork and concrete placing work, is adopted. The trend is toward standardization, process simplification, and labor productivity.

Various types of concrete slab panels are currently developed and used in the PC construction method. Currently, the floor systems mainly used in Korea are DTS (Double T Slab), HCS (Hollow Core Slab), and half PC slab. Some examples are as follows. Among these, the DTS panel has advantages of superior rigidity and easy construction, and thus, many examples are used to construct a floor system. Especially, many construction examples are found in large discount stores that are being constructed recently. Can be.

Figure 1 shows the general configuration of such a DTS panel and the structure of the floor slab using the same. As shown in FIG. 1A, a conventional DTS panel includes a bottom plate F having a size standardized to a predetermined size, and two reinforcing ribs protruding from the bottom of the bottom plate F. R) (this designation gives it the name double T).

In the construction of the floor slab system using the DTS panel as described above, a plurality of the end portions of the DTS panel P are placed on the upper part of the protruding jaw B1 formed on the side of the precast concrete beam B. And the topping concrete (C;) to a predetermined thickness on the upper portion of the DTS panel (P) installed in this way was a configuration of a conventional general DTS system.

However, in the case of the conventional DTS slab system as described above, as shown in FIG. 1, the horizontal force in the horizontal direction can be obtained by simply butting the joint parts to which the DTS panels installed horizontally are joined together without any processing means. If it works, there was a problem that can only indicate the vulnerability. That is, in the case of the joint area between the DTS panels according to the conventional method as described above, the panels are mounted in a row without being restrained from each other, and thus, in the structural sense, they can be regarded as pin joints. When the lateral force acts, the DTS panel, which is a structural member, does not have to absorb the burden, but can only be burdened by the topping concrete formed for the purpose of finishing. Therefore, it is difficult to transmit the axial force under such a system.

Furthermore, in the case of the conventional DTS panel as described above, as shown in FIG. 1A, both end portions of the reinforcing ribs R are regularly cut in a '-' shape to form a so-called dap end D. By forming a to prevent the excessive increase in the thickness of the entire slab by the dance of the reinforcing rib. However, the formation of the end of the adapter in this way not only causes a complex stress in this area, but also due to the reduction in the cross-section there is a disadvantage that can not transmit sufficient axial force.

In addition, in the slab system using a conventional DTS panel, as shown in FIG. According to the bonding detail, the panel and the PC beam are structurally disconnected from each other, and thus there is a problem in that the transverse force cannot be transmitted at all in such a state. (It also has the disadvantage that it is not possible to support the parent that occurs in the joint.)

For these reasons, in the case of the conventional DTS panel and the slab system using the same, the resistance to the transverse force as described above despite the advantages, such as excellent structural performance and construction convenience according to the rational cross-sectional shape Because it does not have, only the ground floor without the burden of the transverse force can be used only in the case of a basement layer acting earth pressure has a disadvantage that the use is limited. Therefore, in order to construct a slab using a conventional DTS panel, in addition to the ground floor use, in the construction of the basement floor, it was necessary to apply a site system using a traditional formwork or apply a PC system of another type. Since it is inevitable to apply two or more different floor systems to the building, there is a disadvantage in that construction efficiency is reduced and manpower and material management are difficult. Therefore, there is a need for improvement.

Therefore, the present invention was devised to solve the problems of the conventional DTS system as described above, and the present invention has the advantages of a low self-weight and high rigidity of the DTS panel and at the same time has resistance to the horizontal axial force. The technical problem is to provide a precast concrete panel and a slab structure using the same that can be suitably applied not only to the ground floor but also to the basement floor.

1 is a view showing the configuration of a conventional DTS panel and the structure of a slab system using the same.

Figure 2 is a perspective view showing the configuration of an embodiment of a slab panel according to the present invention.

Figure 3 is a view showing the details of the joint when the slab panel in accordance with the present invention is installed in succession.

4 is a view showing the configuration of a slab structure made using a slab panel according to the present invention.

Figure 5 is a view showing the details of the portion where the PC beam and the slab panel is bonded in the slab structure according to the present invention.

Explanation of symbols on the main parts of the drawings

1: slab panel according to the present invention

10: bottom plate 20: reinforcing rib

32: lower protrusion jaw 34: upper protrusion jaw

50: topping concrete 100: precast slab panel layer

200: precast concrete beam 300: topping concrete layer

In order to achieve the above technical problem, the present invention is a precast concrete slab panel comprising a plurality of reinforcing ribs formed side by side in one direction on the bottom surface of the bottom plate and the bottom plate is made in the form of a predetermined size. In the lower side of both sides of the bottom plate is provided with a lower protruding projection protruding horizontally to a predetermined size so that the lateral force support can be formed so that the upwardly open space portion can be formed in the area meeting the adjacent panel after installation Provide precast concrete slab panels.

In addition, the present invention provides a slab structure made by using a precast concrete slab panel having the configuration as described above, which is equipped with a plurality of precast concrete panels made to a certain standard between the precast concrete beams installed side by side A floor system for constituting a floor slab, comprising: a plurality of precast concrete beams having horizontally projected pedestals below the side surface; A precast slab panel layer formed by successively mounting a precast concrete slab panel of the present invention having the same structure as described above on the upper jaw of the precast concrete beam; And an upper concrete layer formed by pouring concrete on top of the precast slab layer.

In other words, when the floor slab system is constructed using existing DTS panels, the present invention does not have resistance to horizontal transverse forces, so that it can be used only in the ground layer and is limited in use in the underground layer where earth pressure is applied. In one aspect, the present invention is characterized in that for the purpose of providing a lower protruding jaw protruding to a predetermined size on both sides of the bottom plate for this purpose.

When the installation of the PC panel according to the present invention due to the formation of the lower protruding jaw, the upper protruding lower portion of the protruding lower projection jaw meet each other in the adjacent areas of the PC panel is formed in the upper portion, When the upper topping concrete is poured in this state, the concrete is filled in the upwardly open space. When the filled concrete is hardened as described above, it plays a role as a shear key, and thus it is possible to smoothly transmit the transverse force from the horizontal direction. Therefore, due to the characteristic configuration provided by the present invention, The object of the present invention described above is to provide a PC panel capable of transmitting the transverse force and a slab structure using the same.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings through preferred embodiments in which the technical concept of the present invention as described above is substantially implemented. However, this is to enable a person having ordinary knowledge in the technical field to which the present invention belongs more clearly understand and easily implement the present invention, and other technical features and advantages of the present invention in addition to the above matters will be described later. It will be more clearly understood by those skilled in the art through the description of the preferred embodiments according to the present invention.

Figure 2 is a perspective view showing the configuration of an embodiment for a precast concrete slab panel capable of supporting the lateral force of the present invention, as shown in the figure is a slab panel according to the present invention and the bottom plate 10 of a predetermined size and Precast concrete slab panel (1) comprising a plurality of reinforcing ribs (20) formed side by side in the bottom surface of the bottom plate to the target, the lower side of the bottom plate 10 of a predetermined size It can be seen that the lower protrusion jaw 32 is configured to protrude horizontally.

That is, the present invention is to improve the problems in the transverse force transmission of the conventional DTS panel formed by forming a reinforcing rib on the bottom plate, for this purpose, the present invention follows the basic configuration of the conventional DTS panel The lower projection jaw 32 of a predetermined size is integrally provided on the lower side of the bottom plate 10, which is characterized by its configuration.

As shown in FIG. 2, the lower protruding jaw 32 is formed to protrude horizontally under both sides of the bottom plate 10, and is formed by integrally pouring the fabric of the body of the bottom plate 10. It will be common. The shape of the lower protruding jaw 32 can be various forms without particular limitation. In the illustrated embodiment, a protruding jaw of a trapezoidal shape inclined to the upper surface is applied, which is topping concrete 50 placed on the upper part. Is to be easily filled.

Figure 3 is a view showing in detail the junction between the adjacent panels when installing the slab panel according to the present invention as described above, in the case of the slab panel according to the present invention as confirmed in Figure 3 as shown above the lower protrusion By having the jaw 32, the space portion V which is constantly upwardly opened is formed at the junction with the adjacent slab panel. Therefore, when the topping concrete 50 is poured in the above state, the concrete is filled in the space V, and after the filled concrete is cured, it acts as a kind of shear key, so that the axial force in the horizontal direction is increased. Even if this works, it can be delivered smoothly.

In addition, the illustrated embodiment has a configuration in which the upper protrusion jaw 34 is further formed in addition to the lower protrusion jaw 32 as described above. After the concrete filled in (V) has cured, a stronger bond can be expected. However, it will be obvious that the size of the upper protrusion jaw 34 should be smaller than the projecting size of the lower protrusion jaw 32 so that concrete poured into the upper portion can be filled.

In manufacturing the slab panel of the present invention made of the configuration as described above the width of the bottom plate 10 is 1200mm, the thickness is 70mm, the dance of the reinforcing rib 20 to illustrate that it was made to 250mm have. This is about the conventional DTS panel reduced the width of the reinforcing rib 20 and the width of the bottom plate 10 by about 1/2, compared to the manufacturing of the bottom plate width 2400mm, thickness 50mm, reinforcement ribs of about 550mm. However, the purpose of this specification is to reduce the total weight so that there is no burden on the sheep. However, if there is no big crowd in both sides, it would be fine to make the number of reinforcing ribs to 4 with the width of 2400mm as before.

In addition, in the present embodiment, the thickness of the bottom plate 10 is 70 mm, which is increased by about 20 mm than in the conventional panel. This thickening of the bottom plate is to have a sufficient cross-sectional area in consideration of the fact that the horizontal lateral force is transmitted by the slab panel in the present invention, and it is also the upper and lower protrusions (32, 34) as described above It is also to ensure a sufficient thickness that can be formed.

Next, a slab system constructed using the slab panel of the present invention as described above will be described in detail with reference to the accompanying drawings.

Figure 4 shows the configuration of the slab structure made using a slab panel according to the present invention, Figure 5 is a view showing the detail of the portion where the PC beam and the slab panel is bonded in the slab structure configured as described above. Referring to the drawings, the slab structure capable of supporting the lateral force provided by the present invention includes: a plurality of precast concrete beams 200 having a support jaw 220 protruding horizontally from the lower side of the overall surface; A precast slab panel layer (100) formed by successively mounting a plurality of slab panels (1) according to the present invention on the support jaw (220) of the precast beam (200); And, it can be seen that it comprises a topping concrete layer 300 formed by pouring concrete on top of the precast slab panel layer 100.

4 and 5, the slab structure capable of supporting the lateral force according to the present invention is a precast slab system using the slab panel as described above. In the present invention, the slab panel 1 is supported. Precast concrete beams (hereinafter referred to as "PC beams") are used as beam members for the purpose of precasting the entire system. As shown in the PC beam, the slab panels 1 are placed on top of each other by forming a stepping jaw 220 with a constant step on both side portions, and in the illustrated embodiment, the upper part of the reinforcing bar is An example of applying a half PC beam to be exposed is illustrated.

The precast slab panel layer 100 is formed on the upper side of the support jaw 220 of the PC beam 200 as described above by installing a plurality of slab panels 1 according to the present invention as described above. In the illustrated embodiment, in forming the reinforcing rib 20 of the slab panel 1, unlike the conventional general DTS panel, it forms a constant cross section over the entire length without forming a dip (dap) at the end portion. This is to allow the transfer of the axial force to be made better by eliminating the cross-sectional loss in the reinforcing rib (20). However, since the bending rigidity of the entire cross section may be reduced by reducing the dance of the reinforcing rib 20 as described above, the pitch of the reinforcing rib 20 should be denser than in the conventional case.

Further, as can be seen from FIG. 5 showing the bonding detail between the slab panel 1 and the PC beam 200, in the present embodiment, the slab panel 1 is installed on the PC beam 200 above the slab. Instead of bringing the end of the panel 1 into close contact with the side surface of the PC beam 200, it is spaced apart by a predetermined distance so as to generate a constant gap. In the case of a conventional slab using a DTS panel, as shown in FIG. 1 (b), a backing material BK is installed between the DTS panel P and the PC beam B so that the upper topping concrete flows down. In order to improve the fact that the axial force could not be transmitted at all because the structure between the DTS panel and the PC beam was not structurally continuous. In this embodiment, the slab panel 1 and the PC beam 200 are uniformly spaced. By allowing the upper topping concrete 300 to be filled in, it is to be able to support the transverse force by hardening the concrete. In addition, according to such a structure, since the concrete is filled at the end of the slab panel (1) there is an advantage that can expect the effect of supporting the parent by the gravity load by reinforcing the reinforcing bar on the upper side.

As a result, according to the preferred embodiment of the present invention, the axial force acting in the width direction of the slab panel is transmitted by the shear key formed on the lower protruding jaw 32 as described above, and acts in the longitudinal direction of the slab panel. The axial force can be smoothly transmitted by the concrete is filled between the slab panel 1 and the PC beam 200 as described above, from any direction due to the characteristic configuration provided in the present invention as described above Even if the force acts, it can be supported without problems.

Meanwhile, in the present embodiment as described above, the concrete is filled between the slab panel 1 and the PC beam 200, and the topping concrete 300 placed on the upper portion of the slab panel 1 reinforces ribs. Can flow between (20). In the drawings, the identification ST indicates a concrete stopper installed to prevent this. As the material of the stopper, various materials suitable for plastic, galvanized steel, and other uses thereof may be used. In addition, the non-explained identification code BP shows a bearing pad such as a rubber plate or an iron plate installed on the upper support of the PC beam 200 in order to support the slab panel 1. The specific description will be omitted.

Although the present invention has been described in detail by the embodiments described above, those skilled in the art to which the present invention pertains will be capable of various substitutions, additions, and modifications without departing from the technical spirit described above. As a matter of course, it should be understood that such modified embodiments also fall within the protection scope of the present invention as defined by the utility model registration claims attached below.

According to the present invention described in detail as described above, unlike the conventional slab system using a DTS panel, it is possible to support the transverse force, and thus it is possible to apply one type of slab system throughout the ground floor as well as the basement floor. Therefore, according to the present invention, not only can the construction efficiency be improved and the quality be improved according to the unification of the slab system, but also the advantageous effect can be expected in terms of materials and construction management.

Claims (5)

In the precast concrete slab panel comprising a bottom plate made in the form of a panel of a predetermined size and a plurality of reinforcing ribs formed side by side on the bottom surface of the bottom plate, a predetermined size on both sides of the bottom plate A horizontal precast concrete slab panel capable of supporting a lateral force, characterized in that the lower protruding projection protrudes horizontally so that an upwardly open space can be formed at a portion meeting the adjacent panel after installation. The precast concrete slab panel as claimed in claim 1, wherein the upper protruding jaw is further protruded to a smaller size than the lower protruding jaw at the upper side of the bottom plate. 3. The precast concrete slab panel as claimed in claim 1 or 2, wherein the reinforcing ribs have the same cross-sectional shape over the entire length without the end of the adapter. A flooring system that constructs a floor slab by mounting a plurality of precast concrete panels manufactured to a predetermined size between precast concrete beams installed side by side, A plurality of precast concrete beams having horizontally protruding pedestals below the side surface; A precast slab panel layer formed by successively mounting a precast concrete slab panel capable of supporting a lateral force of the plurality of claims 1 on an upper portion of the base of the precast concrete beam; And, Slab structure using a precast concrete slab panel capable of supporting the lateral force, including; the upper concrete layer formed by pouring concrete on top of the precast slab layer. The lateral force supporting precast concrete slab panel installed on the base of the precast concrete beam is not in close contact with the side surface of the precast concrete beam so that the topping concrete of the upper portion may be filled. And a stopper is installed between the reinforcing ribs of the precast concrete slab panel capable of supporting the lateral force so as to prevent the topping concrete from flowing down, using the precast concrete slab panel capable of the lateral force support. Slab structure.