KR20070093473A - Method and equipment of ondol flat construction - Google Patents

Abstract

A method and an apparatus for dry type floor heating construction using a far-infrared ray emission member and a polystyrene formed material are provided to reduce the heating cost by increasing the insulating effect, and to reduce noises and impacts. A method for dry type floor heating construction includes the steps of: arranging a plurality of polystyrene formed materials(35) at an upper portion of a slab(100); forming a recess(35A) for positioning a heat radiating member(10) at an upper portion of the polystyrene formed material to make an upper portion of the polystyrene formed material flat; connecting a hot water pipe continuously by using an external hot water pipe(15) and an L beam; connecting the external hot water pipe to a boiler hot water pipe; and covering a heat diffusing plate(50) on the flat surface formed at the upper portion of the polystyrene formed material.

Description

Dry floor heating construction method and apparatus using far-infrared radiation radiating member and polystyrene molding {Method and equipment of ondol flat construction}

1 is a perspective view of a polystyrene molding which is an important key element of the present invention.

2 is a perspective view of the polystyrene molding viewed from the bottom;

3 is a cross-sectional view showing the installation by applying a polystyrene molding on the slab bottom of the present invention.

Figure 4 is a perspective view showing the installation by applying a polystyrene molding on the slab bottom of the present invention.

* Description of the major signs in the drawings

10: heat dissipation member

11: Far infrared ray radiator

12: hot water pipe

13: cap

14: extruded tube

15: external hot water pipe

30: floor support plate

35: polystyrene molding

35A: groove

35B: Honeycomb-shaped engraving

50: thermal diffusion plate

60: upper support plate

70: finish

90: boiler hot water pipe

100: slab

Patent application No. 10-2006-0008018

Application Name: Dry floor heating construction method and device using far infrared heat radiation member

The present invention is to more simply install the present application No. 10-2006-0008018 (dry floor heating construction method and apparatus using a far infrared heat radiation member).

 In order to hold the floor horizontally and harden, the above inventions are also excellent inventions. In order to perform the existing dry construction, it is necessary to hold the floor horizontally, install a heat insulating material on the floor, and install a heat radiating member and a heat radiating member with a honeycomb. However, for the general public to quickly construct, a method integrating honeycomb used for insulation and structural strength occupied by the existing method is required.

The present invention has been made to solve such a problem, it is easy to install and inexpensive method to replace the honeycomb member and the heat insulator using high strength and good insulation polystyrene, especially EPS (Expandable Polystyrene) insulation, floor Separation stages, honeycomb member to act in one molding.

Referring to the configuration of the present invention by the accompanying drawings as follows.

Polystyrene is a material we commonly call styrofoam. Polystyrene is used for various purposes, but in particular, EPS (Expandable Polystyrene) has excellent strength and excellent thermal insulation, and can be used as a building material.

In particular, when the insulation effect is observed, the thermal conductivity changes according to the ambient temperature. The lower the temperature, the lower the thermal conductivity. Therefore, it is a material with excellent heat insulation performance in winter when heating is required.

The heat dissipation member 10 required in the present invention passes through the hot water pipe 12 inside the extruded tube 14 having a good rectangular heat conductivity, and then fills the space between the extruded tube 14 and the hot water tube 12. It is filled with powder having a lot of far infrared rays such as elvan, salt, etc., and both ends of the extruded tube 14 are sealed with a cap 13 through which the hot water tube 12 may protrude without leaking the far infrared radiator 11.

1 is a molding using polystyrene as a core material of the present invention.

The shape of the polystyrene molding 35 has a constant thickness and compressive strength, and the upper portion has a recess 35A having a flat surface when the heat radiating member is seated. In this case, the heat dissipation member 10 seated in the groove portion 35A should have a thickness so that the polystyrene molding 35 has a predetermined height spaced apart from the bottom.

In general, the polystyrene molded article 35 has no difficulty in the construction work even if only the groove portion 35A is formed in the upper portion, but as shown in FIG. 2 so that the effect of absorbing and buffering the shock and noise from the upper portion is high. A plurality of honeycomb-shaped intaglio 35B patterns were dug to the depth to support the heat radiating member 10.

3 to 4 are cross-sectional views and perspective views showing the installation process according to the invention,

The method of heating the floor using the heat dissipation member 10 and the polystyrene molding 35 is illustrated.

 After arranging a plurality of polystyrene moldings 35 of the present invention on a slab 100 having a flat bottom surface, a plurality of far infrared radiation radiating members 10 are disposed.

The hot water pipe 12 and the external hot water pipe 15 protruding from the heat dissipation member 10 are connected in a zigzag form using a connection member such as an L beam and connected to the boiler hot water pipe 90. Therefore, when the hot water running in the boiler passes through the hot water pipe 12 passing through the heat radiating member 10, the hot water radiates the far-infrared radiation material to generate far-infrared rays, resulting in a structural material having considerable strength.

In addition, the honeycomb member or the high-strength styrofoam is cut between the space and the wall where the heat dissipation member 10 is not installed to fit the shape to make the bottom firm.

The thermal diffusion plate 50 is attached to the flat surface formed as described above. At this time, the thermal diffusion plate 50 is preferably a metal having good thermal conductivity, a carbon sheet, a carbon coated metal, or a zinc coated fiber board.

The bottom surface of the heat diffusion plate 50 and the top surface of the heat dissipation member 10 are attached to a double-sided tape having a strong adhesive force to facilitate heat transfer.

On the flat surface to which the thermal diffusion plate 50 is attached, the floor is completed by using a finishing material 70 such as Hanji, jangpan, decotile, ocher, and wood.

With such a configuration, the effects of the present invention are as follows.

1. The general public can easily install floor heating.

2. The floor insulation is excellent and the heating cost is reduced by the increase of the insulation effect.

3. The reduction effect on noise and shock is considerable.

4. The installation cost is low.

Claims (2)

Dry floor heating method using floating floor structure; Continuously arranging a plurality of polystyrene moldings 35 on the slab 100, The upper portion of the polystyrene molding 35 is formed with a groove portion 35A on which the heat dissipation member 10 can be seated, When the heat dissipation member 10 is seated in the recess 35A, the upper portion of the polystyrene molding 35 is formed in a flat surface. Continuously connecting the hot water pipe 12 protruding from the heat dissipation member 10 by using an external hot water pipe 15 and an L beam, Connecting the external hot water pipe 15 to the boiler hot water pipe 90; Dry floor heating construction method using a far-infrared radiation radiating member and a polystyrene molding, characterized by covering the thermal diffusion plate 50 on a flat surface formed on the polystyrene molding (35) Dry floor heating apparatus using a far-infrared radiation radiating member and a polystyrene molding, characterized in that the bottom surface of the polystyrene molding (35) is patterned by a honeycomb-shaped intaglio (35A).

Images