KR20030062162A - Ondol (Korean floor Heater) Panel Construction Method - Google Patents

Abstract

PURPOSE: An ondol panel construction method is provided to shorten a construction period and reduce costs, while allowing for a day to day living comfort of human by improving heat efficiency. CONSTITUTION: An ondol panel construction method comprises a step of flattening the concave-convex or curved portion of the top surface of a concrete slab layer(10) and removing foreign substances from the top surface; a step of arranging fluid adhesives(20) on the top surface of the concrete slab layer; a step of attaching a heat insulation board(30) onto the top surface of the concrete slab layer in such a manner that an air layer is formed on the top surface of the concrete slab layer, wherein the heat insulation board is formed by coupling a top plate(32) with a clip(33) and a concrete coupling member onto a bottom plate(31); a step of coupling a heating pipe(40) to the clip of the top plate of the heat insulation board; and a step of placing a finishing mortar(50) on the heat insulation board.

Description

Ondol (Korean floor Heater) Panel Construction Method}

The present invention relates to a method for constructing an ondol panel, and more particularly, when the insulation board for heating pipes is installed on the slab layer forming the floor of the building, the construction period is simplified, the construction period is shortened, and quality control is easy for each process. It is invented to allow construction even in winter.

In general, the concrete slab layer of residential buildings by heating the heating pipe to the hot water circulating to the upper part of the lightweight foam concrete of a certain thickness, after finishing the finishing mortar, and finishing the drying surface on the top surface by finishing with cardboard etc. You will complete the bottom surface.

In addition, as described above, the heating tube in which the hot water heated in the boiler is circulated to the inside of the pipe structure in the process of constructing the underfloor floor is heated to bubble heating tube fixtures to maintain the bent state and the spaced interval. It is also installed on the concrete top surface.

On the other hand, as a method of piping the heating pipe on the floor surface using a foamed polystyrene and the ondol panel method of sound insulation and insulation using a molded styrofoam and the entire floor surface of the floor after laying the heating pipe Methods and the like are used.

That is, sand and pulp powder are mixed with lime or diatomaceous earth powder on the bottom surface of aerated concrete to form a sound insulating layer at a predetermined height.

Then, a heat insulating pipe plate made of a foamed resin such as foamed polystyrene or molded styrofoam was laid thereon, the heating pipe was fixed on the top of the heat insulating pipe plate, and then coated with a finishing mortar mixed with cement, sand, and metal powder. .

However, as described above, the insulation pipe plate such as expandable polystyrene, molded styrofoam, etc. has a weak strength, so that it is difficult to maintain a state in which the heating tube is disposed due to a lack of support for supporting the fixture.

In addition, the insulation pipe plate is weak to moisture and causes the bottom of the floor to sink after construction, and due to the heterogeneous phenomenon between the finishing mortar, which is the main material of cement, voids are formed at the boundary, and thus there is a closed end. .

In addition, such a phenomenon is that the bottom surface is easily cracked due to a complete separation between the finishing mortar layer and the heat insulating material due to the difference in heat conduction oil, in particular, during the heating and cooling of the heating tube.

On the other hand, in order to solve the problems caused by using a heat insulating pipe plate such as foamed polystyrene, molded styrofoam as described above, a heat insulating board for heating pipe piping has been proposed in Patent No. 301524.

However, the upper surface of the concrete slab layer in which the insulation board for heating pipe piping is installed is not formed in a perfect plane when formed by pouring lightweight foam concrete, it is bent, it is not easy to install the insulation board for heating pipe piping There was a problem.

The purpose of the present invention is to easily install the insulation board for heating pipe piping excellent in sound insulation and insulation effect to simplify the construction period, shorten the construction period, easy to control the quality of each process, the construction of the ondol panel construction that can be installed even in winter To provide.

Another object of the present invention is to provide an ondol panel construction method that can increase the sound insulation, insulation effect by forming an air layer between the heating board pipe insulation board and the concrete slab layer when the heating board pipe insulation board is installed. There is.

Figure 1 is an enlarged cross-sectional view showing the main part of the building floor constructed with the present invention.

Figure 2 is a perspective view showing an installation state of the insulation board for heating pipe piping of the present invention.

Figure 3 is an enlarged view showing a state in which the insulation board is attached with a fluid adhesive on the top of the irregular slab layer

Figure 4 is a plan view illustrating an arrangement of the flow adhesive to attach the insulation board for heating pipe piping of the present invention.

* Description of the major symbols in the drawings *

10-concrete slab layer 20-fluid adhesive

30-Insulation board for heating pipe piping 31-Bottom plate

32-Top 33-Retention Clip

34-concrete joining means 35-connecting means

36-Wall blocking member 40-Heating tube

50-Finishing mortar 60-Air layer

The object of the present invention, the bottom surface preparation step of trimming the uneven or curved portion of the upper surface of the concrete slab layer 10 flat, and remove foreign matters;

A flow adhesive arrangement process of arranging a plurality of flow adhesives 20 at a predetermined height on an upper surface of the concrete slab layer 10 having undergone the bottom surface preparation process;

The heat insulating board 30 for heating pipe piping is formed by combining a top plate 32 having a fixing clip 33 into which the heating pipe 40 is fitted and a concrete coupling means 34 on the bottom plate 31 formed of a heat insulating material. Ondol panel array process for fixing by using the thickness of the flow adhesive 20 to be horizontally attached to the concrete slab layer (10) the upper surface in the air layer formed state;

A piping process of fitting the heating tube 40 to the fixing clip 33 provided on the upper plate 32 of the insulation board 30 for heating tube piping;

The finishing process of pouring the finishing mortar 50 mixed with sand in a predetermined ratio on the heating pipe piping insulation board 30 to a predetermined thickness is sequentially made, the upper surface of the concrete slab layer 10 Flat surface trimming and unevenness of the irregularities and bends, and removing the foreign matter;

A fluid adhesive array process of attaching a plurality of fluid adhesives 20 at a predetermined height to an upper surface of the concrete slab layer 10 which has been subjected to the bottom surface preparation process;

A fixing clip 33 into which the heating tube 40 is fitted, and a top plate 32 having concrete coupling means 34 are coupled to the bottom plate 31 formed of a heat insulating material, and each top plate 32 is connected to each other. The heat insulation board 30 for the heating pipe piping configured to be mutually connected in a vertically and horizontally connected state by the 35 maintains a constant thickness on the upper surface of the concrete slab layer 10 using the thickness of the flow adhesive 20 and is horizontal. Ondol panel array step of attaching and fixing;

A piping process of fitting the heating tube 40 to the fixing clip 33 provided on the upper plate 32 of the insulation board 30 for heating tube piping;

The finishing mortar 50 mixed with sand at a predetermined ratio is cemented on the heat insulating board 30 for heating pipe piping, and is achieved by sequentially performing a finishing process of coating a predetermined height.

That is, the insulation board 30 for heating pipe piping excellent in sound insulation and heat insulation effect is simply fixed on the concrete slab layer 10 by the fluid adhesive 20, and the fluid adhesive 20 is a gel-shaped connection means 35 By horizontally connected by the horizontal coupling of the insulation board 30 for heating pipe piping that is installed to be coupled to each other can be easily aligned.

In addition, the fluid adhesive 20 may increase the sound insulation and insulation effect by forming an air layer 60 between the heat insulation board 30 for heating pipe piping and the concrete slab layer 10.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is an enlarged cross-sectional view showing the main part of the building floor constructed in accordance with the present invention, the insulation board for the heating pipe piping is shown in a cut state partially attached to the concrete slab layer by a fluid adhesive.

Figure 2 is a perspective view showing the installation state of the insulation board for heating pipe piping of the present invention, a perspective view showing a state in which the wall blocking member is partially separated in a state in which the insulation board for heating pipe piping is arranged in one corner of the right angle corner. have.

3 is an enlarged view illustrating a state in which a flow adhesive is intermittently arranged on an upper surface of an irregularly placed slab layer and a heat insulation board is attached to the upper portion of the slab layer.

Figure 4 illustrates in a plan view an arrangement of the flow adhesive to attach the insulation board for heating pipe piping of the present invention.

That is, as shown in Figure 1 in order to construct the floor surface of the building according to the present invention once the flat surface by trimming the uneven or curved portion of the upper surface of the concrete slab layer 10, the floor to clean to remove foreign matter Go through cotton preparation process.

Therefore, the insulation board 30 for heating pipe piping, which will be described later, may be installed smoothly with the concrete slab layer 10.

In addition, it is preferable that the insulation board 30 and the mortar for heating pipe piping can be flatly installed at the exact required height by laying the ink on the wall, ink for the ondol panel, ink for finishing mortar, ink for confirming the finish.

In addition, the upper surface of the concrete slab layer 10 that has undergone the above-described floor preparation process has a predetermined height (5 to 9 cm) in a suitable number according to the size of the heat-insulating board 20 according to the size of the insulation board 30 for heating pipe piping. The vertical and horizontal fluid adhesive array process is made.

In addition, after the flow adhesive arraying process is performed, the heat insulation board 30 for heating pipe piping is horizontally mounted on the flow adhesive 20 attached to the upper surface of the concrete slab layer 10 by using the thickness of the flow adhesive 20. It is pressurized to go through the ondol panel array process so that it does not apply impact or force until the bond hardens.

On the other hand, the heat insulation board 30 for the heating pipe plumbing as shown in Figure 2 by the heat spread to a certain thickness on the concrete slab layer 10 forming the bottom surface of the residential building to maintain the warmth of the room Bottom plate 31;

An upper plate 32 coupled to an upper portion of the bottom plate 31 and provided with a fixing clip 33 having an annular holder portion open at one end in consideration of an interval at which the heating tube 40 is disposed;

Connecting means (35) to allow the top plate (32) to be mutually coupled to each other in a vertically and horizontally connected state to the top of the concrete slab layer (10);

The upper plate 32 is composed of concrete coupling means 34 to have a bonding force with the finishing mortar (50) layer to be constructed thereon.

In addition, when the heat insulation board 30 for heating pipe piping is installed on the concrete slab layer 10, a portion which comes into contact with the wall surface is formed. The wall blocking member 36 is installed on the portion to transmit vibration and noise to the wall surface. It is desirable to prevent.

That is, as described above, the bottom plate 31 having excellent sound insulation effect and heat insulation effect, and the top plate 32 having a certain strength, the insulation board 30 for heating pipe piping is easily installed by the fluid adhesive 20. As a result, the construction period can be shortened, quality control per process is easy, and construction in winter is possible.

In addition, the fluid adhesive 20 is formed in a gel type in the process of attaching the insulation board after arranging the fluid adhesive 20 horizontally, such as gypsum board or cement mortar, at a suitable interval longitudinally and laterally, and thus positioned at an upper portion thereof. When the horizontal adjustment of the insulation board 30 for the heating pipe piping is to be able to easily hit the horizontal by hitting lightly using a simple hand tool.

At this time, the air layer 60 is formed between the insulation board 30 for heating pipe piping and the upper portion of the concrete slab layer 10 to further increase the sound insulation and insulation effect.

In addition, the heating clip 40 is fitted to the fixing clip 33 of the heat insulation board 30 for heating pipe piping at a suitable interval, thereby making a piping process.

On the other hand, the irregular piping portion during the piping process to fix the PVC saddle.

In addition, the finishing process of pouring the finishing mortar 50 is coated on the top of the concrete slab layer 10 is installed and fixed to the heat insulating pipe 30 is installed.

And, in order to increase the strength of the floor surface to be constructed, it is preferable to mix a certain amount of fiber reinforcement.

On the other hand, when the fiber reinforcing agent is mixed in the finishing mortar 50, and evenly added, the fiber reinforcing material is completely dispersed and mixed by using the mechanical equipment in compliance with the mixing time.

Finish mortar 50 prepared by mixing cement, sand, and fiber reinforcement as described above is poured from the center of the bottom to prevent leakage of the wall end.

And, the finish mortar 50 is coated using a finisher or iron trowel, and the surface is in a state of being wet, so that no trowel marks remain, the smoothness tolerance of the upper surface of the finishing mortar 50 is It should be within 3mm per 3m.

In addition, the finishing mortar 50 is maintained for a predetermined period or more after construction, it is preferable to repair using an epoxy resin-based crack repair agent when the residue or cracks on the mortar surface.

According to the present invention as described above, the installation work of the insulation board for heating pipe piping is simple, can shorten the construction period as a whole, improve the convenience of the operator can increase the productivity according to the work process.

In addition, it is possible to maintain a comfortable living environment by absorbing the pollution due to the impact or noise generated during the residential activities by the insulation board for the air layer and the heating pipe piping.

Therefore, it is a very useful invention, such as saving construction costs, improving thermal efficiency by increasing the insulation effect, and giving economic benefits and a pleasant environment to consumers.

Claims (3)

A bottom surface preparation process of flattening the unevenness or the bent portion of the upper surface of the concrete slab layer 10 and removing foreign substances; A flow adhesive arrangement process of arranging a plurality of flow adhesives 20 at a predetermined height on an upper surface of the concrete slab layer 10 having undergone the bottom surface preparation process; The heat insulating board 30 for heating pipe piping is formed by combining a top plate 32 having a fixing clip 33 into which the heating pipe 40 is fitted and a concrete coupling means 34 on the bottom plate 31 formed of a heat insulating material. Ondol panel array process for fixing by using the thickness of the flow adhesive 20 to be horizontally attached to the concrete slab layer (10) the upper surface in the air layer formed state; A piping process of fitting the heating tube 40 to the fixing clip 33 provided on the upper plate 32 of the insulation board 30 for heating tube piping; A method of constructing an ondol panel, characterized in that a finishing process is performed in which a finishing mortar (50) in which sand is mixed with cement at a predetermined ratio is poured on an upper portion of the insulation board (30) for heating pipe piping and coated with a predetermined thickness. The method of claim 1, wherein the flow adhesive comprises a gypsum bond. The method of claim 1, wherein the flow adhesive comprises cement mortar.