KR100357752B1 - Method for constructing heating pipe - Google Patents

Abstract

The present invention relates to a heating pipe construction method by using a semi-dry method applying a part of the wet method to the dry method to the heating pipe construction by making the heating piping work easy and easy the air of the heating pipe construction (construction Period) to shorten the construction and heating efficiency as well as to reduce the overall load on the heating pipe construction by reducing the weight of the various structures used in the heating pipe construction to reduce the structure and heating pipe construction costs.

To this end, the present invention in the heating pipe construction method for heating the room by the heat of the hot water flowing in the heating pipe 40 installed on the floor, the heat of the hot water flowing in the heating pipe 40 to the outside through the floor. A plurality of support frames 20 inserted into the bottom surface of the heat insulating member 10 to prevent leakage are connected to each other on the upper surface of the floor, thereby heating pipes 40 by the support frames 20 having the predetermined height. Adjusting the height of the ondol layer while adjusting the installation position of the; After the step, a plurality of net-shaped thermal diffusion plates 30 covering a predetermined portion of the support frame 20 are installed on the upper surface of each of the support frames 20, and the thermal expansion plate 30 of the ganguerite mortar 50 by Preventing cracks, as well as fixing the heating pipe 40 and the heat of the hot water flowing in the heating pipe 40 evenly spread throughout the floor; After the step, the support frame 20 and the thermal diffusion plate 30 are formed by pouring the banban mortar 50 on the upper surface of each support frame 20 on which the thermal diffusion plate 30 is installed. In addition, the heating pipe 40 is integrated, as well as forming an ondol floor of the ondol layer and radiating far infrared rays while the elvan rock mortar 50 is heated by the heat of hot water flowing in the heating pipe 40. .

Description

Heating piping construction {METHOD FOR CONSTRUCTING HEATING PIPE}

The present invention relates to a heating piping in the field of building equipment, more specifically, the construction of the heating piping construction is easy and easy to shorten the air (construction period) of the heating piping construction, and to the heating piping construction The present invention relates to a heating pipe construction method that reduces the overall cost and reduces the construction cost.

In general, the floor heating is a fire in the fire and heat the fire flows along the air flow path formed on the floor to transfer the heat to the room to heat the room or to install a heating pipe in which hot water flows on the floor is heated in the boiler Heat of the hot water flowing in the heating pipe is transferred to the room through the floor to heat the room.

Here, the floor heating method for heating the floor using a heating pipe is classified into a wet method and a dry method.

In the wet method, the foam concrete is uniformly positioned on the floor, that is, the slab structure, and then cured for a predetermined time so that the foam concrete is hardened. Then, when the foam concrete is hardened, a heating pipe through which hot water flows is heated to the entire floor. By installing evenly so that the entire floor is heated evenly by the heat of hot water flowing in the heating pipe, and when the heating pipe installation work is finished again, hitting the bubble concrete on it and leveling the mortar to level the top surface of the bubble concrete flat After curing for a certain time to solidify the bubble concrete and then the heating pipe work is completed by placing the finishing top plate as a finishing member on the top surface of the bubble concrete.

Heating piping construction by the wet method as described above, the foam concrete is put on the slab, and after curing the heating pipes, the curing of the foam concrete is hardened as the curing of the top surface of the foam concrete hitting after the installation work, such as several times. Accordingly, there is a problem in that the construction period for constructing the heating pipe is long.

In the dry process, the support frame is placed on the slab structure of the building requiring heating, and then the heat diffusion plate is placed so that the heating pipe where the hot water flows is located on the upper surface of the support frame, so that the heat of the hot water flowing in the heating pipe is entire. The furnace is spread by the thermal diffusion plate, and the heating pipe work is completed because the finishing top plate is covered on the upper surface of the support frame on which the heating pipe and the heat diffusion plate are installed.

The construction of the heating piping by the dry method can be easily installed on the floor in a prefabricated manner, but the lifting phenomenon between the floor and each structure and each structure, that is, the coupling between the structures is not completely made, Since the interval is generated, the noise may be generated when stepping on or walking on the floor after the heating pipe work is completed, and each structure may be damaged by the collision between the structures by the impact applied from the outside.

For this reason, since the construction of the heating piping should be carefully and accurately construction, there was a problem that not only the air (construction period) increases but also the work efficiency decreases.

In addition, if the lifting phenomenon occurs between each structure, each structure of the heating pipe completed the construction of the heating pipes must be removed again because the work efficiency is reduced to unnecessary work and heating pipe construction work time that takes a lot of time due to the work There was also a problem.

Therefore, there is a problem that not only increases the material cost due to reconstruction but also decreases the consumer's reliability of the heating piping construction method.

The present invention has been made in order to solve the above problems, the heating piping construction by using a semi-dry method applying a part of the wet method to the dry method to make the heating piping work easy and easy the heating pipe It not only improves the air (construction period) and the work efficiency of the construction, but also reduces the overall load on the heating pipe construction by reducing the weight of various structures used in the heating piping construction, thereby reducing the construction and heating piping construction costs. The purpose is.

1 is a perspective view of a portion of the present invention heating pipe construction cut out.

Figure 2 is an exploded perspective view showing the various structures used in the construction of the present invention heating piping.

Figure 3 is a sectional view showing a state in which the heating pipe of the present invention construction.

Figure 4 is a block diagram showing a heating pipe construction method of the present invention.

* Description of the symbols for the main parts of the drawings *

10: insulation member 20: support frame

30: thermal diffusion plate 40: heating piping

50: Elvan Mortar 60: Finished top

In order to achieve the above object, the present invention provides a heating pipe construction method for heating the room by the heat of hot water flowing in the heating pipe installed on the floor, the heat of the hot water flowing in the heating pipe leaks to the outside through the floor By installing a plurality of supporting frames connected to each other on the upper surface of the floor by the heat insulating member is inserted into the bottom inside to adjust the installation position of the heating pipe by each support frame having a predetermined height and the height of the ondol layer Adjusting; After the step, by installing a plurality of net-shaped thermal diffusion plate covering a predetermined portion of the support frame on the upper surface of each support frame to prevent cracking of the ganban rock mortar by each thermal diffusion plate as well as fixedly coupling the heating pipe Distributing the heat of the hot water flowing in the heating pipe evenly over the entire floor; After the step, the banban mortar is poured on the upper surface of each support frame on which the heat diffusion plates are installed, and the support frame, the heat diffusion plate, and the heating pipe are integrated by the swelling hardened banban mortar, as well as forming the ondol floor of the ondol layer. It is provided by the heating pipe construction method comprising a; and the step of radiating far infrared rays by heating the elvan rock mortar by the heat of the hot water flowing in the pipe.

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 4.

1 is a perspective view of a part of the heating pipe is constructed in accordance with the present invention, Figure 2 is an exploded perspective view showing a variety of structures used in the construction of the heating pipe of the present invention, Figure 3 is a state in which the heating pipe of the present invention construction 4 is a block diagram showing the heating pipe construction method of the present invention.

The present invention is fixed to the heating pipe 40 while adjusting the installation position of the heating pipe 40 on the upper surface of the floor, and also has a certain height to support the upper plate installed above while adjusting the height of the ondol layer The support frame 20 is installed, the support frame 20 is made of heat-resistant plastic (SGC H1720T) that is light in weight and easy to process and resistant to heat, and is formed in a predetermined size on the entire upper surface of the bottom. A plurality of support frames 20 are used to install 20.

Inside the bottom of the support frame 20 is provided with a heat insulating member 10 for blocking the heat to prevent the heat of the hot water flowing in the heating pipe 40 to leak through the bottom, the heat insulating member (10) consists of foamed polyethylene to increase the thermal insulation and thereby increase the overall thermal performance.

A heat diffusion plate 30 is installed on the upper surface of the support frame 20 to fix the heating pipe 40 through which hot water flows, and to spread heat of the hot water flowing in the heating pipe 40. The heat diffusion plate 30 is formed in the form of a mesh so that the heat of the hot water flowing in the heating pipe 40 is evenly transmitted to the entire floor and the smooth passage of the ganban rock mortar 50 to be described later.

As the thermal diffusion plate 30 is formed in a mesh form to serve as a wire mesh, the ganganite mortar 50 which is poured on the upper surface of the support frame 20 passes through the thermal diffusion plate 30. Curing, that is, hardened on the upper surface of each support frame 20, the ganguerite mortar 50 is prevented from cracking, that is, cracking or breaking.

The heat diffusion plate 30 is installed to cover a portion of the support frame 20 to facilitate the installation of the heating pipe 40 on the upper surface of the support frame 20, the material of the heat diffusion plate 30 is heat It is made of a metal material to facilitate diffusion, the thermal diffusion plate 30 is formed of an iron material in the metal material to have a constant strength and easy thermal diffusion.

On the other hand, the support frame 20 and the heat diffusion plate 30 and the heating pipe 40 to be integrated on the upper surface of each support frame 20, the heat diffusion plate 30 is installed on the top floor of the ondol floor Formed, and also transfer the heat of the hot water flowing in the heating pipe 40 to the room and at the same time is heated by the heat and the elvan rock mortar 50 to emit far infrared rays, the elvan rock mortar 50 is It is composed of elvan, sand, cement, and non-shrinkable admixture.

The upper surface of the hardened ganguerite mortar 50 is hardened after a predetermined time, the finishing top plate 60 is formed to form the bottom surface of the room.

The heating pipe 40 is made of polyethylene (Polyethene) to smoothly transfer heat inside the heating pipe 40 to the inside of the heating pipe 40, that is, formed of a metal material, that is, stainless steel or steel pipe. .

The installation interval of the heating pipe 40 is kept constant by the support frame 20 so that the heat of hot water flowing in the heating pipe 40 is evenly transmitted to the entire floor.

The operation of the present invention configured as described above is as follows.

First, a plurality of support frames 20 having a predetermined height are installed on the entire upper surface of the floor, that is, the height of the ondol layer is adjusted by the support frame 20 as the support frame 20 has a certain height. In addition, since the support frame 20 is formed in a constant size, in order to install the support frame 20 on the entire floor, a plurality of support frames 20 are required.

At this time, inside the bottom surface of each support frame 20, the heat insulating member 10 is coupled to prevent the heat of the hot water flowing in the heating pipe 40 from leaking to the outside, that is, the bottom, the heat insulating member ( 10) is provided in one or a plurality, that is, at least one.

Here, when explaining the state in which the support frame 20 is installed, a plurality of grooves and protrusions are formed on the outer surface of each support frame 20 to which the heat insulating member 10 is coupled. A plurality of support frames 20 are installed on the entire upper surface of the floor while engaging the plurality of support frames 20 by inserting and coupling the protrusions formed on the other support frame 20 to the groove formed in the do.

As described above, when the installation of the support frame 20 is finished, a heat diffusion plate having a mesh shape to cover a predetermined portion of the support frame 20 on the upper surface of the support frame 20 to adjust the installation position of the heating pipe 40. After installing the 30, the heating pipe 40 is placed on the upper surface of the heat diffusion plate 30, and then the heating pipe 40 is fixedly coupled by the heat diffusion plate 30 and the support frame 20.

In addition, the upper surface of the support frame 20, the thermal diffusion plate 30 is installed in the upper surface of the ganban stone mortar 50 made of ganban stone, sand, cement, non-condensation admixture, such as liquid, pour the ganban stone mortar (50) The ondol floor of the ondol layer is formed by a certain amount of ganban rock mortar (50) which is poured together with the upper surface of the support frame (20) through the heat diffusion plate (30) of the mesh form.

At this time, each support frame 20, each thermal diffusion plate 30 and the heating pipe 40 is integrally coupled by the ganban rock mortar (50).

On the other hand, when a certain time elapses, the ganguerite mortar 50 is cured, that is, hardened, and the heating pipe is completed because the finishing top plate 60 is installed on the upper surface of the ganganite mortar 50 in the solidified state.

As such, when the construction of the heating pipe is completed, the hot water heated and circulated in the boiler (not shown) flows into the heating pipe 40, and the hot water introduced into the heating pipe 40 is located at the position where the heating pipe 40 is installed. As it flows, it transfers heat to the floor.

That is, the heat of the hot water is prevented from leaking to the outside of the floor by the heat insulating member 10, and is evenly spread throughout the floor by the thermal diffusion plate 30, and the diffused heat is transferred to the elvan rock mortar 50. Since the heat is uniformly transferred to the entire floor by the elvan rock mortar 50 and the far infrared ray is radiated from the elvan rock mortar 50 as the elvan rock mortar 50 is heated by the hot water.

As described above, the present invention according to the construction of the heating pipe using a semi-dry method applying a part of the wet method to the dry method, that is, the construction is easy and easy heating by assembling each structure using the dry method By performing the piping construction work and firmly combining the combination of each structure by using the wet method, not only shorten the construction period of the heating piping work, but also improve the work efficiency and work efficiency due to the easy heating piping construction work. It is effective.

In addition, as the weight of the various structures used in the construction of the heating pipe is reduced, the overall load on the heating pipe construction is reduced, thereby reducing the cost of the construction and the heating pipe construction, and also as the construction of the heating pipe is firmly performed. There is also the effect of improving the consumer's confidence in the.

On the other hand, as the heating pipe construction work as described above, the heat of the hot water flowing in the heating pipe is spread evenly throughout the floor and smoothly transferred to the room, thereby improving the thermal efficiency such as the heating of the room smoothly. But this also reduces fuel consumption.

Claims (1)

In the heating pipe construction method for heating the room by the heat of the hot water flowing in the heating pipe 40 installed on the floor, By connecting the plurality of support frames 20 inserted into the bottom inside the heat insulating member 10 to prevent the heat of the hot water flowing in the heating pipe 40 from leaking to the outside through the bottom connected to each other on the upper surface of the floor Adjusting the height of the ondol layer by adjusting the installation position of the heating pipe 40 by each support frame 20 having the predetermined height; After the step, a plurality of net-shaped thermal diffusion plates 30 covering a predetermined portion of the support frame 20 are installed on the upper surface of each of the support frames 20, and the thermal expansion plate 30 of the ganguerite mortar 50 by Preventing cracks, as well as fixing the heating pipe 40 and the heat of the hot water flowing in the heating pipe 40 evenly spread throughout the floor; After the step, the support frame 20 and the thermal diffusion plate 30 are formed by pouring the banban mortar 50 on the upper surface of each support frame 20 on which the thermal diffusion plate 30 is installed. In addition, the heating pipe 40 is integrated, as well as forming an ondol floor of the ondol layer and radiating far-infrared rays while the ganban rock mortar 50 is heated by the heat of hot water flowing in the heating pipe 40. Heating piping construction method characterized in that.