KR100693122B1 - Hollow core precast slab integrated with ondol and its construction method - Google Patents

Abstract

A hollow core precast slab integrated with ondol is provided to reduce the period of construction, to simplify a construction process, to improve quality and to cut down on construction expenses by constructing a slab and ondol integrally. The hollow core precast slab integrated with ondol contains a precast slab(10) provided with hollow cores(11) to cut off the loss of heat, hot water pipelines(20) laid in pipeline grooves(12) of the precast slab at regular intervals, and a finishing layer(30) made of topping concrete or finishing concrete and placed on the top of the hot water pipeline. The construction method for a hollow core precast slab integrated with ondol comprises the steps of carrying a hollow core precast slab in a job site using a crane and assembling between a beam and a beam, laying hot water pipelines in upper pipeline grooves of the precast slab at regular intervals, placing a finishing layer on the top of the hot water pipelines and attaching an insulation on the bottom of the precast slab.

Description

Hollow Core Precast Slab integrated with Ondol and its Construction Method

1 is a longitudinal sectional view showing a conventional general wet ondol structure.

Figure 2 is a longitudinal cross-sectional view showing a conventional general semi-dry ondol structure.

Figure 3 is a perspective view showing the ondol integrated hollow core precast slab structure according to the present invention.

Figure 4 is a longitudinal sectional view showing an ondol integrated hollow core precast slab structure according to the present invention.

Figure 5 is a plan view showing an ondol integrated hollow core precast slab structure according to the present invention.

* Explanation of symbols for the main parts of the drawings

10: precast slab 11: hollow core

12: piping groove 20: hot water pipe

30: finishing layer

The present invention relates to a hollow core precast slab and a construction method thereof, and more particularly, to a slab structure in which an ondol is integrally formed on a precast slab formed of a hollow core and a construction method thereof.

The construction method of the structural slab and ondol heating in the conventional building was made independently of each process. That is, after the structural slab process was completed as a preliminary work, the ondol construction was separately constructed according to each ondol heating method. Ondol heating system can be classified into three types of wet ondol, semi-dry ondol, and dry ondol, and the details of the methods are different, but basically, the additional heating structure is constructed on the upper part of the structural slab.

In general, dry ondol is arranged by heating the heating wire for the prefabricated mobile panel made by arranging the heating wire for instant heating on the heat storage panel and covering the iron plate cover. However, the dry ondol as described above is mainly used for electricity, and the heating cost is higher than that of the existing hot water ondol.

Meanwhile, the wet ondol and the semi-dry ondol using hot water are heated by installing a hot water pipe for circulating hot water on the indoor floor. More specifically, the wet ondol is a structural slab (1) after the construction as shown in Figure 1, the insulating material (2), foam concrete (3), heating piping (4) and finishing on the slab (1) The mortar (5) is constructed, the ondol layer having a total thickness of 120㎜ is constructed, and the semi-dry ondol is a dry dustproof material (6), a control (7), a double on the structure slab (1) as shown in FIG. The panel 8, the finishing mortar 5 and the ondol floor 9 are constructed to have a thickness of 120 mm, similar to the wet ondol.

The existing structural slab and ondol construction technologies are classified according to the construction of wet foam concrete, but basically, the ondol heating construction is separately constructed from the structural slab, so that additional processes are inevitable and have additional thickness. Will not be avoided.

Meanwhile, the precast concrete structure is an example of an industrialized construction structure in which a factory-produced member is assembled and bonded at a site to build a building. The construction time is shortened, productivity is improved, quality is improved by factory management, and field work is reduced. This is a structure that has various advantages such as labor reduction. Because of these advantages, there are many cases of MDU adopting such precast concrete structures.

However, the floor slab of the precast concrete structure currently used has a lot of problems in transportation and lifting due to the excessive weight, there is a problem that is not suitable for the long span structure because of the limitation of the thickness of the slab.

In addition, in the construction of ondol in a conventional precast slab structure, after the precast slab is constructed on-site, the topping concrete is poured into the upper part to integrate the slabs, and then the ondol construction is performed again on the upper part. There is a problem that the increase in the relative height is relatively increased overall.

Therefore, the present invention was developed in view of the above problems, and by constructing the structural slab and the ondol construction as a whole, greatly reducing the construction air and simplifying the construction process, the ondol integral hollow core that can significantly improve the quality and construction cost significantly It is an object to provide a precast slab.

In addition, the present invention by dramatically reducing the entire floor thickness due to the integrally constructed structural slab and ondol structure, there is no need for additional cross-sectional thickness on top of the structural slab, the ondol integral hollow core that can bring about a layer height saving of 120mm per layer It is an object to provide a precast slab.

In addition, the present invention is the hollow core precast slab constituting the skeleton is able to replace the ondol pipe after removing only the upper finishing layer temporarily in the state of maintaining the load as it is easy to maintain and replace construction hollow core hollow core It is an object to provide a precast slab.

In order to achieve the above object, the present invention provides an ondol integrated hollow core precast slab, which is made of precast concrete and has a hollow core formed therein and a pipe groove formed on an upper surface thereof; Hot water pipe installed in the pipe groove; And it characterized in that it comprises a finishing layer poured on the hot water pipe.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a perspective view showing the ondol integrated hollow core precast slab structure according to the present invention, Figure 4 is a longitudinal sectional view showing the ondol integrated hollow core precast slab structure according to the present invention, Figure 5 is It is a top view which shows the ondol integrated hollow core precast slab structure.

As shown in the drawings, the ondol integrated hollow core precast slab according to the present invention includes a precast slab 10 having a hollow core formed therein, and a hot water pipe 20 piped over the precast slab 10. And a finishing layer 30 poured into the hot water pipe 20.

The precast slab 10 is a unit slab structure in which the hollow core 11 is formed therein, and the hollow core 11 is formed inside the slab, thereby eliminating the problems of transportation and lifting due to excessive weight, which is a problem in the precast slab. In addition to the solution, the hollow portion of the hollow core 11 also serves as a heat insulating layer that prevents the heat heated by the upper hot water pipe 20 from being lost to the bottom.

At this time, in order to improve the thermal insulation performance, a separate heat insulating material (not shown) is attached to the lower end of the precast slab 10 so as to deviate from the joint between the precast slabs, thereby hollowing the precast slab 10. The insulation performance by the core can be further doubled. In another embodiment, when the precast slab 10 is manufactured, the precast concrete may be manufactured while pre-embedding the heat insulating material in the hollow core 11 to allow the heat insulating material to be formed in the hollow core 11.

In addition, a pipe groove 12 corresponding to the pipe spacing of the hot water pipe 20 is formed in a grid shape on the precast slab 10. As such, when the grid-shaped pipe groove 12 is formed on the precast slab 10, a separate fixing means (not shown) is used to fix the ondol pipe on the foam concrete in the conventional wet ondol method. You do not have to do.

The hot water pipe 20 is to be disposed at a predetermined interval on the upper portion of the precast slab 20, that is, the pipe groove 12, a copper pipe or the like commonly used in hot water heating may be used as the material used.

The finishing layer 30 is to be constructed after the hot water pipe 20, the structurally unifying the precast slab 10 to be prefabricated and finish the top of the hot water pipe 20. As the finishing layer 30, conventional topping concrete or finishing mortar may be used.

In the present invention having the above-described configuration, unlike the existing method, despite the omission of the insulation layer and the light-bubble concrete layer on the slab, the insulation performance between the layers is the existing cast-in-place slab by using a hollow core slab in which a hollow layer is formed in the slab. It is possible to have a similar thermal insulation performance.

In addition, in the existing construction method, the light concrete layer on the upper insulation layer is constructed to press the insulation and use it as a heat storage layer of the ondol, and the present invention does not need to press the insulation because the insulation is not installed between the structure and the ondol layer, the structure slab Since the whole is used as a heat storage layer, it is rather excellent in terms of thermal performance.

In addition, the present invention grafts the ondol layer integrally with the structure, but since the ondol pipe is piped between the hollow core slab and the topping concrete, only the topping concrete can be removed during the maintenance and the pipe can be replaced, so the maintenance is also excellent. Has

Hereinafter, with reference to the drawings will be described the ondol integrated hollow core precast slab construction method according to the present invention.

First, the hollow core precast slab 10 made of a unit structure is brought into the site by using a crane or the like, and then the slab structure is constructed by assembling it between the constructed beam and the beam. On the other hand, the specific construction method of such a prefabricated slab 20 is only a known technique and a detailed description thereof will be omitted.

When the construction of the precast slab structure is completed, the hot water pipe 20 is disposed in the upper pipe groove 12 of the precast slab 10 at predetermined intervals to be disposed.

Subsequently, the finishing layer is poured on the hot water pipe 20, and the construction is completed by attaching an insulating material to the lower end of the precast slab 10 in some cases.

On the other hand, the present invention described above has been described with respect to specific embodiments, of course, various modifications are possible without departing from the scope of the invention. That is, the present invention is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

As described above, according to the present invention, by constructing the structural slab and the on-dol construction integrally, there is an effect that can greatly reduce the construction air and simplify the construction process to significantly improve the quality and construction cost.

In addition, the present invention by dramatically reducing the entire floor thickness by the integrally constructed structure slab and ondol structure, the additional cross-sectional thickness is not required on the top of the structure slab it is possible to bring the floor height saving of up to 120mm per layer. This floor height reduction can reduce the building height of about 3.6m when building a 30-story building has the effect that one more floor can be constructed when the building of the same height.

In addition, the present invention has a hollow core precast slab constituting the skeleton can be replaced after the removal of only the finishing layer temporarily in the state of maintaining the load as it is easy to maintain and replace construction.

Claims (3)

In the ondol integral hollow core precast slab, A precast slab made of precast concrete and having a hollow core formed therein and a pipe groove formed at an upper surface thereof; Hot water pipe installed in the pipe groove; And Ondol integrated hollow core precast slab, characterized in that it comprises a finishing layer cast on the hot water pipe upper portion The method of claim 1, Further comprising a heat insulating material installed on the lower end of the precast slab, Ondol integrated hollow core precast slab, characterized in that the insulating material is already embedded in the hollow core In the method of constructing the ondol integral hollow core precast slab, A slab construction step of assembling and constructing a precast slab having a hollow core formed therein and a pipe groove formed on an upper surface thereof; A hot water pipe installation step of pipe hot water pipes to the upper pipe grooves of the precast slab; And Ondol integrated hollow core precast slab construction method comprising a finishing layer pouring step of placing a finishing layer on the hot water pipe top

Images