KR200387066Y1 - Honeycomb structured flooring material for under-floor heating system - Google Patents

Abstract

The present invention has a honeycomb structure and a block-type floor interior material in which a water pipe can be installed. More specifically, a pulp mold is used to manufacture a hexagonal cell top plate and a bottom plate designed with a pipe line, and a pipe line There are two types of straight line and curved line, it relates to the ondol pipe block, characterized in that it has a honeycomb structure capable of withstanding heavy loads by overlapping and bonding the upper and lower plates.

Description

Honeycomb structured flooring material for under-floor heating system}

The present invention is a honeycomb structure, and relates to a block-type flooring material that can be installed pipe.

In general, the construction method of the indoor heating stone is largely divided into the wet method and the dry method. Wet methods include bubble concrete method, styrofoam plate insulation method, and ripple method. Wet methods such as heavy weight, risk of leakage, long construction period, sound insulation and poor insulation, waste of construction manpower, difficulty in repairing, etc. Have

On the contrary, the dry method is thin and light, so it is easy to apply to high-rise buildings, and the construction is generally simple and can be constructed in a short period of time. In general, prefabricated dry ondol is a domestic utility model No. 1986-0000308 'prefabricated hot water ondol', domestic utility model No. 1992-0000837 'air board for prefabricated heating piping', utility model No. 20-2003-0014814 'prefabricated ondol Heating pipe block ', such as a plate for installing the pipe, or a plate for forming the air layer is generally made of plastic injection molding because it is a lot of weight, material costs are disadvantageous.

The present invention cited the following method. Honeycomb structure by making two hexagonal cell boards in which hexagonal pillars are formed by using press molding with the structural material shown in 'Honeycomb Panel' of Korea Utility Model Registration No. 0354808 We cited the method of making a wall paper and applied it to make a floor-like floor covering for block type ondol.

In this regard, the present invention has produced a honeycomb structured plate in which a pipeline is designed to secure a problem in the above-described dry method. Plastic injection is relatively sophisticated and has the advantage of recycling waste plastics, but the present invention is designed with honeycomb structure with the best weight ratio strength by using pulp such as waste paper as a raw material using pulp molding method. Insulation, sound insulation, and cost savings were improved over the injection molding products. In addition, the resin was impregnated to increase strength, flame retardancy, and water resistance. In addition, the use of a paper material is good impact resistance, excellent sound absorption, can reduce the noise between the floors of the apartment.

The present invention consists of hexagonal cell upper and lower plates (2, 4) made of waste paper material using pulp mold, and the pipe passages (6) are designed on the hexagonal cell upper and lower plates (2, 4), respectively. Hexagonal pillars 8 protrude from the pipes on the upper and lower plates 2 and 4 of the upper and lower plates 2 and 4, and when the upper and lower plates 2 and 4 overlap, the hexagonal columns of the upper plate 2 ) Are designed to fit between the hexagonal pillars 8 of the lower plate 4 so that the hexagonal structure, which is a honeycomb structure, is connected continuously.

Hereinafter, the ondol piping block of the honeycomb structure to withstand the heavy load according to the present invention through the accompanying drawings as follows.

1 and 3 are three-dimensional configuration of the pipe block designed in a honeycomb structure, Figure 1 is a straight pipe block structure and Figure 3 is a curved (semi-circular) pipe block structure. Piping block 16 is composed of a large hexagonal upper plate (2) and the lower plate (4), each plate has a hexagonal pillars (8) protruding, and the piping path for inserting the pipe 10 (6) ) Is designed. There are no hexagonal pillars 8 at the location where the pipeline 6 was designed, and hexagonal columns 8 were arranged around the pipeline 10 to withstand the load. The hexagonal cell upper plate 2 and the lower plate 4 were manufactured using waste paper using pulp mold. If necessary, it may be impregnated or applied to a specific resin to have the required strength and hardness, and the flame retardancy or water resistance may be increased by using an additive.

Hexagonal cell upper plate (2) and lower plate (4) can be produced by various materials and processing methods as necessary. The shape of the hexagonal cell plate may be manufactured by molding a plastic material by vacuum molding or injection, by using a method of sheet molding compound (SMC), bulk molding compound (BMC), or press molding a metal material.

2 and 4 is a complete block diagram of a honeycomb structure, Figure 2 is a straight pipe block, Figure 4 is a curved (semi-circular) pipe block. These maturities are illustrations of the components from FIGS. 1 and 3, respectively. The hexagonal cell upper plate 2 and the lower plate 4 overlap each other in the direction in which the hexagonal column 8 protrudes, and the hexagonal columns 8 of the upper plate 2 are interposed between the hexagonal columns 8 of the lower plate 4. Interfitting and bonding between the hexagonal columns 8 of the upper and lower plates 2 and 4 are connected in series to form a hexagonal honeycomb structure. When the upper and lower plates of the hexagonal cells (2, 4) overlap, the adhesive is applied and bonded.For materials other than pulp, adhesives suitable for the material such as adhesive or molten material insertion, thermal bonding, welding bonding, etc. Glue.

FIG. 5 is a top perspective view showing the positions of the hexagonal columns 8 and the pipe paths when the hexagonal cell upper plate 2 and the lower plate 4 overlap with each other as in FIGS. 2 and 4. It can be seen that the hexagonal columns 8 of the upper plate 2 and the hexagonal columns 8 'of the lower plate 4 are connected to each other to form a honeycomb honeycomb structure.

FIG. 6 is a state diagram in which a honeycomb structured pipe block is assembled vertically and horizontally. FIG. Pipe 10 to be installed in the pipe block 16 may be a plastic pipe or a metal pipe, as shown in Figure 6, each pipe block so as to be connected along the pipe line 6 of each pipe block 16 ( 16) Install them.

Figure 7 is a view showing a three-dimensional configuration diagram of the flooring interior material for the floor using the honeycomb piping block. The ondol top plate 12 is not a floor plastering material and serves to protect the piping block 16 and increase the smoothness of the floor. The heat conduction plate 14 serves to conduct the heat evenly throughout the floor when hot water flows through the pipe and generates heat. Insulation 18 prevents heat loss. Ondol top plate 12, the heat conduction plate 14, the heat insulating material 18, etc. are already sold in the market a lot, and can be used as a product of various materials as needed when construction.

FIG. 8 is a cross-sectional view of an underfloor structure in which a honeycomb structured pipe block is constructed, and shows the order in which each component is laminated. The stacking order is the heat insulating material 18 on the slab 22, the pipe block 16 thereon, the heat conduction plate 14 thereon, the ondol top plate 12 thereon, and the bottom plaster 20 thereon.

The structure is made of honeycomb structure that can withstand heavy loads. Since the material is paper, it has excellent insulation, impact resistance and sound absorption. When it is installed on the floor of the apartment, it can reduce the heating cost or noise between floors. Can be lowered. It can also contribute to environmental improvement by recycling newspapers and waste paper. It is suitable for high-rise buildings because it is light in weight and thin in construction.

1 is a three-dimensional configuration of the straight pipe block of the honeycomb structure

2 is a straight pipe block stereoscopic complete view of the honeycomb structure

3 is a three-dimensional block diagram of the curved piping block of the honeycomb structure

Figure 4 is a three-dimensional completeness of the curved pipe block of the honeycomb structure

Figure 5 is a perspective view of the top of the pipe block showing the position of the hexagonal column and the pipeline

6 is a state in which the piping block of the honeycomb structure is assembled vertically and horizontally

7 is a three-dimensional configuration diagram of the ondol interior material using a honeycomb piping block

8 is a cross-sectional view of the ondol floor constructed with a honeycomb piping block

<Description of Signs of Main Parts in Drawings>

2. Pipe block hexagon cell upper plate 4. Pipe block hexagon cell upper plate

6. Pipe line 8. Hexagonal column of hexagonal cell top plate

8 ': Hexagonal column at the bottom of hexagonal cell 10. Piping

12. Ondol top plate 14. Heat conduction plate

16. Straight pipe block 16 '. Curved Piping Blocks

18. Insulation 20. Floor plastering

22.Slavic

Claims (2)

Pipe line for making the hexagonal cell upper plate (2) and the lower plate (4) with paper or waste paper as the material and inserting the pipe (10) into the upper plate (2) and the lower plate (6). ) Is designed, and the hexagonal pillars 8 protrude in the remaining portions except the pipe passage 6, and when the upper plate 2 and the lower plate 4 overlap each other in the direction in which the hexagonal column protrudes, Hexagonal pillars 8 of the upper plate 2 are fitted between the hexagonal pillars 8 of the lower plate 4 so that all the hexagonal columns 8 are connected to each other to have a honeycomb structure. Ondol piping blocks. In claim 1, instead of the hexagonal columns (8) of the hexagonal cell upper plate (2) and the lower plate (4), the ondol pipe block made of selpan made of a polygonal column or a cylinder such as a triangular prism, a square pillar, an octagonal pillar.