WO2011129637A2 - Heated floor panel system using hot water - Google Patents

Abstract

The present invention relates to a heated floor panel system using hot water, in which dry finishing materials are used in place of wet finishing materials such as mortar, to thereby enable construction to be performed in a convenient and quick manner and in any season, and in which a heat accumulation space is expanded to save heating energy and prevent the temperature of the heated floor from differing at each point of the floor of the residential space being heated. More particularly, the floor heating panel system using hot water comprises: a heat insulation member arranged on a bottom layer of a residential space to prevent the escape of heat; a heating pipe for providing the residential space with heat; a wiring unit in which the heating pipe is arranged and fixed such that the surface of the heating pipe is brought into contact with the wiring unit, wherein the top surface of the wiring unit is open; a heat accumulation unit which receives heat from the heating pipe, dissipates the heat through the flat top surface thereof, and stores a portion of the heat in a closed internal space thereof; and a shield that covers and seals the open top of the wiring unit while maintaining a gap between the shield and the heating pipe. The heated floor panel of the present invention uses dry finishing materials to shorten construction time, reduce construction costs, and reduce the overall weight of a building. In addition, the heat accumulation space of the heated floor panel of the present invention is expanded, while enabling construction to be conveniently carried out, shortening construction time, and enabling easy repair, maintenance, and reconstruction. The heated floor panel system of the present invention prevents the temperature of the heated floor from differing at each point of the floor of the residential space, so as to maintain a uniform heated temperature, and reduces the consumption of heating energy.

Description

Hot water ondol panel system

The present invention relates to an ondol panel installed on the floor of a residential space that requires heating, such as a house or apartment, to use hot water as a heat source for heating, and more specifically, to dry finish without using a wet finishing material such as mortar. It is related to a hot water ondol panel system, which is easy and fast to install due to the use of materials, saves heating energy by expansion of heat storage space, and does not cause a difference in heating temperature according to location.

Ondol is a traditional heating method in Korean houses, which warms the floor first from the heat source and heats the living space by the indirect radiant heat of the heated floor, so the warmth lasts for a long time even after the heat source is removed.

In addition, the Western fireplace heating method can heat the surroundings quickly by directly using the heat generated from the heat source, but immediately loses warmth when the heat source is removed.

The ondol has been able to utilize hot water as a heat source by the development of a hot water boiler that uses energy selected from various types of energy and operates with high thermal efficiency, and an ondol using hot water as a heat source is called a hot water ondol.

In addition, since the ondol device warms the wide bottom of the living space, it is necessary to install a heat insulator on the bottom and block the leakage of heat so that the heating heat is not unnecessarily wasted through the ground or the bottom without using heat.

In addition, the heating heat generated by the heat source is supplied as much as possible to the upper surface of the living space without loss, and at the same time, some heating heat is stored or stored so that the heating is maintained at a constant temperature for as long as possible even when the supply of the heat source is stopped. have.

Utility Model Registration No. 250987 (registered on Oct. 8, 2001) of the present inventors used a heat pipe for hot water ondol to prevent unnecessary loss of heat by using an insulating material on the underside of the hot water ondol plate.

On the other hand, in order to flatten the bottom surface of the ondol and reinforce the heat storage function, the finishing mortar was cast to a thickness of 120 to 130 millimeters (mm), which averages about 230 kilograms (kg / m) per unit cubic meter. * 2)

However, because the finishing mortar is wet using water, it is difficult to install in the cold winter due to seasons, and requires skilled technicians, and it takes a lot of time for pouring and drying, resulting in overall construction period and cost. There are problems such as getting bigger.

In addition, there is a problem that the load of the building by the weight of the mortar for finishing, the complexity of the renovation is complicated, difficult, costly and time-consuming.

It is an object of the present invention to provide a hot water ondol panel system which does not have a seasonal influence on the construction of a hot water ondol panel, and is very simple and quick to install and to reduce the weight of a building with light weight.

In addition, the present invention is to provide a hot water ondol panel system to increase the mechanical strength of the hot water ondol panel to absorb external shocks and vibrations and to accumulate using the air layer to reduce the noise between the floors and save energy for heating.

In addition, an object of the present invention is to provide a hot water ondol panel system to reduce the construction time and cost of a residential space by using a dry material such as a carpet after finishing the construction of the hot water ondol panel fast and simple.

In another aspect, the present invention is to provide a hot water ondol panel system for heating the living space with a hot water ondol panel, evenly heating at a uniform temperature without a difference in the heating temperature according to the position of the floor.

The present invention devised to achieve the above object is installed on the floor of the residential space to block the movement of heating heat, the heating pipe to supply the heating heat to the residential space, the heating pipe is wired and fixed to the surface contact state The upper part of the wiring part and the heat storage part receiving heat from the heating pipe and radiating it to a flat top surface and storing a part in an enclosed interior space, while covering the open upper side of the wiring part while keeping a gap with the heating pipe. The present invention provides a hot water ondol panel system comprising a shielding film, wherein the wiring portion and the shielding film are configured as a space without using mortar.

Preferably, the top surface of the heat storage portion and the top surface of the shielding film are flat and made of a configuration in which a dry finish material is attached by any one selected from carpet, stone, wood, and floorboard.

And a shielding film consists of two layers, and consists of a structure which raises mechanical strength.

Here, the heat storage part includes a partition wall separating the wiring part and the space in a sealed state, and the partition wall is formed of any one selected from an inclined shape and a vertical shape, and one or more reinforcement grooves for reinforcing the mechanical strength to prevent the partition wall from bending. It is included.

On the other hand, the partition wall is formed by forming a hole through which the wiring portion and the air flows to make the temperature of the heat of heating accumulated.

In addition, the partition wall is formed of a plurality of pillars is made of a configuration that minimizes the temperature difference by position of the heat storage heating heat.

The heat storage unit includes a locking step at which the shielding film covering the wiring part in a sealed state is fixed at the upper end of the partition wall.

Here, the wiring part includes a guide part for fixing one outer peripheral surface of the heating pipe in a surface contact state, and is configured to seal the upper side opened by the shielding film and form a heat storage space.

The present invention of the configuration as described above has a convenient effect on the construction by increasing the heat storage space by the configuration of the hot water ondol panel and the shielding membrane to simplify the construction, shorten the air, easy maintenance and reconstruction.

In addition, the present invention of the configuration as described above uses dry finishing materials such as carpet, stone, wood, floorboards without using a wet mortar in the completion of the construction of hot water ondol panel, reducing the construction time and cost and overall construction There is an industrial effect of reducing the load.

In addition, the present invention of the configuration as described above is because the air in each heat storage space that accumulates heating heat is smoothly flowed through each other to maintain a uniform temperature as a whole, the temperature difference of the floor surface of the living space depending on the location There is a convenient effect in use that generates heat at a uniform temperature without generating.

In addition, the present invention of the configuration as described above has an industrial use effect of reducing the consumption of heating energy for residential space by expanding the heat storage space to accumulate heating heat.

1 is a cross-sectional view showing a state in which a hot water ondol panel system is constructed in a residential space according to an embodiment of the present invention;

2 is a plan view illustrating a state in which a plurality of hot water ondol panels of a unit are continuously constructed on the floor of a living space according to an embodiment of the present invention;

3 is an assembled state diagram of the hot water ondol panel system according to an embodiment of the present invention,

4 is a cross-sectional view of a state in which a hot water ondol panel system is constructed in a residential space according to another embodiment of the present invention;

5 is a cross-sectional view of a state in which a hot water ondol panel is constructed in a residential space according to another embodiment of the present invention;

And

6 is a cross-sectional view showing a state in which a hot water ondol panel system is constructed in a residential space according to another embodiment of the present invention.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may properly define the concept of terms in order to best explain their invention in the best way possible. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Detailed descriptions and drawings of well-known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention will be omitted.

Horn shape is the same shape as the base is formed to extend upwards and the size is getting smaller and meet at one vertex. The horns may exist in a polygonal shape including a circle, and if the base is a circle, it is a cone, a rectangle is a square pyramid, and a rectangle is called a rectangular pyramid.

The truncated horn is cut in the middle and has no vertex portion.

The rectangle has a shape similar to a rectangle as a whole and may be partially circular or polygonal.

Finishing in architecture, also known as plastering, can be roughly divided into dry finish and wet finish.

Wet finish materials are cement, ocher, etc. as the main raw materials, and mixed with water and poured to finish them, and they feel a sense of unity and solidity after finishing, but work is relatively difficult, requires skilled workers, and the time to remove moisture is relatively long. It takes a lot.

Dry finish material is a material that finishes using construction materials such as wood, carpet, paper, vinyl flooring, and the like, the construction time is very short and can be used immediately after the completion of the finish.

The roll forming method is a method of forming a desired shape by continuously processing an iron plate into a plurality of roll molds by cold roll forming method, and is called cold roll forming, band-profilwalzung, or the like.

Forming by roll forming is a plastic processing or bending processing method for forming a desired cross-sectional shape by forming a strip-shaped metal plate sequentially using pressure or heat by a plurality of forming rolls in a row. It is suitable for mass production of long products of complex and identical shape that are difficult to be molded by processing or the like.

1 is a cross-sectional view showing a state in which a hot water ondol panel system is constructed in a residential space according to an embodiment of the present invention.

Hereinafter, described in detail with reference to the accompanying drawings, the heat insulating material 110 is installed and installed to block the temperature is transferred to the upper portion of the floor layer 100 of the living space to be transmitted.

In general, the floor layer 100 of the living space is any one selected from among concrete slabs, loess, wood, etc., the heat insulating material 110 is to delay or block the transfer of heat foam polystyrene, urethane foam, rock wool, glass wool, etc. It is made of any one selected from including.

The hot water ondol panel 200 according to an embodiment of the present invention is constructed on the upper portion of the heat insulating material 110, and the hot water ondol panel 200 includes a wiring part 130 and a heat storage part 140.

The upper portion of the wiring portion 130 is opened, and the guide portion 132 is formed at the bottom.

The heating pipe 120 is piped to the guide part 132 to fix the surface in a state of contact.

The heating pipe 120 supplies heating heat while any one selected from various heat sources including hot water and hot steam flows.

The heating pipe 120 is made of any one selected from a hose made of plastics and a pipe made of metals.

Since the open upper side of the wiring unit 130 is covered by the shielding film 150, it becomes a sealed state.

At this time, the partition wall 144 forming the side wall of the heat storage unit 140 is provided with a locking jaw 142 at the top to insert and fix the shielding film 150.

Therefore, the shielding film 150 and the latching jaw 142 maintain a sealed state, and the wiring unit 130 forms a sealed space to use as a heat storage space.

A space is formed between the shielding film 150 and the heating pipe 120 so that the heating heat emitted by the heating pipe 120 is transferred to the heat storage space.

Here, the heating heat for the living space supplied through the heating pipe 120 is transferred to the heat storage unit 140 constituting the hot water ondol panel 200 through the guide portion 132 in some surface contact.

The heat storage unit 140 discharges the transferred heating heat to the top surface 215 and heats the air in the space enclosed by the heat storage unit 140.

On the other hand, the heating pipe 120 discharges the heating heat to the portion that is not in surface contact with the guide portion 132 to heat the sealed air in the heat storage space formed between the wiring portion 130 and the shielding film 150 to accumulate.

Therefore, the heating pipe 120 and the guide part 132 are relatively large in area which is not in surface contact so that a large amount of heating heat is emitted and heat is accumulated in the heat storage space.

The partition wall 144 forming the side surface of the heat storage unit 140 is provided with a plurality of reinforcement grooves so as not to bend or crush even when an external force is applied by increasing mechanical strength.

The reinforcement groove 220 is shown in detail in Figures 2 and 3 described below, and is made of any one or more pillars selected from polygonal pillars including a circular shape.

The shielding film 150 may be formed in one layer, but in order to increase mechanical strength and block external shock, it is very preferable to configure the two layers.

The top surface 215 of the heat storage unit 140 and the top surface 155 of the shielding film 150 are in a flat state and form a bottom surface of the living space.

Here, each of the top surfaces of which the flat state is matched by the heat storage unit 140 and the shielding film 150 is dry by any one or more selected from the group including floorboard made of carpet, stone or wood, paper or vinyl, or the like. Finishing material 30 is attached to complete the floor finish of the living space.

In order to quickly complete the floor finish of a living space, it is relatively desirable to choose a carpet.

The present invention of such a configuration has the advantage that the construction of the floor surface of the living space is very simple, fast and easy.

On the other hand, the heat storage space 148 by the heat storage unit 140 and the heat storage space by the wiring unit 130 is a space for storing the heating heat, respectively, there may be a difference in the temperature of the heat storage.

That is, a difference in heating temperature may occur depending on a location on the floor of the completed living space.

Therefore, it is preferable to form a hole 146 in the partition wall 144 which is a side wall of the heat storage unit 140 so that air for accumulating heating heat is distributed, so that a temperature difference does not occur depending on a position on the floor surface of the living space. .

In addition, since the partition wall 144 of the heat storage unit 140 is configured by replacing a plurality of pillars, temperature difference may be minimized.

Meanwhile, the heat storage space 148 by the heat storage unit 140 and the heat storage space by the wiring unit 130 may be filled with air or a separate heat storage material having excellent heat storage performance.

Such heat storage spaces have an advantage of saving energy for heating because the heat storage heat is released to the living space for a predetermined time when the temperature of the heating heat supplied through the heating pipe 120 is lowered.

In addition, it does not use a wet mortar on the floor of the living space, so the construction is easy and the completion is very fast, and the weight of the floor is light, which has the advantage of strengthening the structure of the building for the residential space.

In addition, the temperature difference does not occur according to the location of the living space, maintenance and reconstruction, etc. are very easy and simple advantages.

2 is a plan view illustrating a state in which a plurality of hot water ondol panels of a unit are continuously installed on the floor of a living space according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, each of the hot water ondol panel 200 forming a unit is arranged continuously up, down, left and right.

Here, the locking jaw 142 is formed on the top of the partition wall of the heat storage unit 140 to be fixed by being fixed, and a plurality of reinforcing grooves 220 are formed on the partition wall to increase the mechanical strength.

And the guide part 132 which the heating pipe is wired and the surface contact is shown.

That is, since the heating pipe for supplying heating heat is continuously connected to the guide part 132 in a zigzag state along the guide part 132, the heating heat is uniformly radiated from the bottom of the living space.

In the accompanying drawings, the four hot water ondol panels 200 are shown in a state in which they are regularly arranged on top, bottom, left and right, and the number of the installed and installed facilities may vary according to the shape of the floor of the living space. It may be deployed and installed.

At this time, each hot water ondol panel 200 is not shown in the figure, but it is preferable to be fastened and fixed by a structure such as a general fixing screw, a fastening groove.

Figure 3 is an assembled state of the hot water ondol panel system according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the hot water ondol panel 200 is molded using a roll-forming mold, and the guide part 132 and the heat storage part 140 are sequentially repeated. .

The heat storage unit 140 is shown as a rectangular truncated cone having a circular or rectangular shape, but the partition wall 144 has a predetermined slope, but the partition wall 144 may have a vertical shape.

The partition wall 144 is provided with a plurality of reinforcement grooves 220 to prevent bending or crushing, and to block external shock and vibration since the mechanical strength is increased.

The reinforcement groove 220 reduces floor noise in dense residential spaces such as apartments and multi-family houses.

The interior of the heat storage unit 140 is sealed to store the air layer, to store or store the ambient temperature by the stored air layer, and when the ambient temperature is lowered, the heat of the heated heat is discharged to the living space through the top surface 215.

At this time, the heating heat of the heat storage space formed by the shielding film 150 is discharged to the living space through the top surface 155.

Here, the ambient temperature includes a temperature of a heat source for supplying heating heat flowing along the pipe heating pipe 120.

That is, when the temperature of the heat source supplied through the heating pipe 120 is lower than the stored temperature, the stored heat is released.

The reinforcement groove 220 is formed in a columnar shape by any one selected from polygons including a circle.

The reinforcement grooves 220 are provided at equal intervals to increase the mechanical strength of the partition wall 144 to absorb or block the predetermined shock and vibration applied to the upper end surface 215 of the heat storage unit 140 from the outside.

The locking jaw 142 is formed at the same height near the top surface 215 of the heat storage unit 140, and the guide unit 132 in which the heating pipe 120 is piped is formed next to the heat storage unit 140. The heat storage unit 140 and the guide unit 132 are molded in a roll forming method.

Since the curved surface formed on the guide part 132 is the same as the outer diameter of the heating pipe 120, the pipe pipe 120 maintains surface contact with the guide part 132, and part of the heating pipe 120 is in surface contact with hot water or hot water. Heating heat supplied from a heat source such as steam is very quickly transmitted to the whole of the warm water ondol panel 200.

Here, the hot water ondol panel 200 uses a metal material having a relatively high heat transfer coefficient.

A shielding film 150 is secured between the locking projections 142 formed between adjacent heat storage units 140, and the heating pipe 120, which is in surface contact with the guide unit 132, is protected from external physical and chemical shocks. Form a heat storage space.

At this time, a space is formed between the shielding film 150 and the heating pipe 120 so that a large amount of heating heat is discharged and stored in the heat storage space.

Therefore, when heating heat is supplied from the heat source through the heating pipe 120, the top surface 215 of the heat storage unit 140 and the top surface of the shielding film 150 are formed through the hot water ondol panel 200 made of a metal material having a high heat transfer coefficient. 155) is quickly delivered to, and heat through the dry finish material 300 so as to quickly heat the living space.

And a part of the heating heat of the heat source supplied through the heating pipe 120 is stored by the air layer of the heat storage space, the heating is continued for a predetermined time by the heat stored in the heat storage space when the temperature of the heating heat is lower than the heat storage temperature.

Here, in the heat storage space, a material having excellent heat storage performance may be used instead of the air layer.

Therefore, the configuration according to the present invention is heat-generated by the air layer of the heat storage space and the heat source is removed or discharged heat stored in a temperature lowered state, so that the heating efficiency is maintained for a predetermined time or the heating temperature is kept constant to utilize the efficiency of heating energy. Height has an advantage.

Meanwhile, since a plurality of holes 146 are formed in the partition wall 144 of the heat storage unit 140, the heat storage space formed between the heat storage space sealed by the heat storage unit 140, the shielding film 150, and the guide unit 132. Can let the air flow smoothly.

That is, since the air sealed in each heat storage space is circulated with each other, the temperature of each heat storage is mixed so that there is no temperature difference.

In addition, the reinforcement groove 220 has the advantage of increasing the mechanical strength of the heat storage unit 140 and absorb or block the shock and vibration applied from the outside.

On the other hand, between the heat accumulating part 140 and each of the locking projections 142 of the heat accumulating part 140 is attached to the dry finish material 300, such as a carpet (carpet) on the top surface flattened while being fixed and covered over immediately It has the advantage of being used as a residential space and heating at the same time. Here, the dry finish material 300 is not shown in the drawings but can be confirmed with reference to FIG.

4 is a cross-sectional view showing a state in which a hot water ondol panel system is constructed in a residential space according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the bottom layer 100, a heat insulating material 110, a heating pipe 230, a hot water heating panel 400, a shielding film 410, a dry finish material 300 is a configuration including. .

Since the bottom layer 100, the heat insulating material 110, the heating pipe 230 and the dry finish material 300 are the same as those in FIG. 1, repeated descriptions thereof will be omitted.

The hot water ondol panel 400 uses a roll-forming mold to form a first fence 401, a second fence 402, a guide part 403, a heat storage bottom surface 404, and a partition wall part 405. ).

The heating pipe 230 is inserted into the guide portion 403 formed between the first fence 401 and the second fence 402 to be wired in a state of being partially in surface contact, thereby heating heating heat of the heat source flowing along the heating pipe 230. The hot water ondol panel 400 is quickly delivered to the whole.

The heat storage bottom surface 404 is formed between the second fence 402 and the partition wall portion 405 to form the heat storage portion 420.

The partition wall part 405 is inserted into and fixed to a gap formed below the first fence 401 of the adjacent hot water ondol panel 400, and thus functions to continuously connect a plurality of hot water ondol panels.

At this time, both ends of the shielding film 410 are respectively inserted into the guide portion 403 because the first fence 401 of the hot water ondol panel 400 and the first fence 401 of the adjacent hot water ondol panel 400 span each other. The heat storage unit 420 is kept sealed while protecting the heating pipe 230.

The width of the shielding film 410 is preferably configured to be the same as the width of the hot water ondol panel 400.

Since the dry finish material 300 made of a carpet or the like is constructed on the top surface of the shielding film 410 continuously constructed, it can be used immediately as a living space while reducing the completion time.

5 is a cross-sectional view showing a state in which a hot water ondol panel is constructed in a residential space according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the bottom layer 100, the heat insulating material 110, the heating pipe 230, hot water ondol panel 500, a shielding film 510, a dry finish material 300 is a configuration including. .

Since the bottom layer 100, the heat insulating material 110, the heating pipe 230 and the dry finish material 300 are the same as those in FIG. 1, repeated descriptions thereof will be omitted.

The hot water ondol panel 500 uses a roll forming mold to connect the connection part 501, the first groove 502, the second groove 503, the guide part 504, the third groove 505, and the fourth groove ( 506, a first heat storage unit 520, and a second heat storage unit 525.

The shielding film 510 is inserted into the guide part 504 while the heating pipe 230 is piped to protect the heating pipe 230.

Here, the width of the shielding film 510 is equal to the width of the guide part 504.

Each of the hot water ondol panels 500 arranged in a row is connected to the fourth groove 506 adjacent to the connecting portion 501, and the connecting portion 501 forms a step of a predetermined height to smooth the fourth groove 506. At the same time it is inserted into the housing to maintain a close contact with the flat floor of the living space.

The top surface of the first heat storage unit 520 and the top surface of the second heat storage unit 525 and the top surface of the shielding film 510 form a flat coplanar surface, and thus use a dry finish material 300 to immediately use it as a living space. Can be.

At this time, the heating pipe 230 quickly transfers the heat of the hot water to the hot water ondol panel 500 through the surface contact, the transferred heat is the upper surface of the first heat storage portion 520 and the second heat storage portion 525 Some heat is released through the top surface and the top surface of the shielding film 510 and is stored through the first heat storage unit 520 and the second heat storage unit 525.

Here, since a plurality of holes are formed in the sidewalls of the first heat storage unit 520 and the second heat storage unit 525 to smoothly distribute air, the temperature of heat storage may be uniform. Therefore, it is possible to prevent the temperature difference according to the location of the floor of the living space.

6 is a cross-sectional view showing a state in which a hot water ondol panel system is constructed in a residential space according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the bottom layer 100, the heat insulating material 110, the heating pipe 230, the hot water heating panel 600, the shielding film 610, a dry finish material 300 is a configuration including. .

Since the bottom layer 100, the heat insulating material 110, the heating pipe 230, and the dry finish material 300 are the same as those of the first embodiment, repeated descriptions thereof will be omitted.

The hot water ondol panel 600 forms a first fence 601, a second fence 602, a guide part 603, a first heat storage bottom surface 604, and a partition wall part 605 by a roll forming mold.

Since the guide pipe 603 formed between the first fence 601 and the second fence 602 is in contact with the heating pipe 230 by pipe contact, the heating heat of the heat source flowing along the heating pipe 230 receives hot water ondol panel ( Fast forward to the whole of 600).

The first heat storage bottom surface 604 is formed between the second fence 602 and the partition wall portion 605 to form a space of the first heat storage portion 620.

Since the shielding film 610 is interposed between the first fence 601 of the hot water ondol panel 600 and the first fence 601 of the adjacent hot water ondol panel 600, the heating pipe inserted and piped into the guide part 603 ( While protecting the 230, the space between the first heat storage unit 620 and the second heat storage unit 625 is kept in a sealed state.

Here, the width of the shielding film 610 is larger than the width of the hot water ondol panel 600, it is relatively preferable to increase the ratio to twice.

That is, the space of the second heat accumulator 625 is simply added by the shielding membrane 610 in a state in which there is no separate means between the partition wall part 605 and the first fence 601 of the adjacent hot water ondol panel 600. Is formed.

According to the configuration of the present invention, the space of the second heat storage unit 625 may be further formed by making the width of the shielding film 610 larger than the width of the hot water ondol panel 600, and more heating heat is added by the added heat storage space. The heat storage has the advantage of saving the heating energy of the living space.

In addition, since a plurality of holes are formed in the first fence 601, the second fence 602, and the partition wall part 605, the air warmed by the heating heat emitted by the heating pipe 230 and the first heat storage part 620. The regenerated air and the regenerated air of the second heat storage unit 625 may be smoothly flowed.

As described above, the heat storage heat is accumulated more by the expansion of the heat storage space, and the air in each heat storage space is smoothly circulated by the holes, so there is no difference in the heat storage temperature of each heat storage space and there is a uniform advantage.

Therefore, there is no difference in the heating temperature according to the location of the floor of the completed living space at the same time has the advantage of saving energy for heating.

In addition, since the number of the heated hot water ondol panel is small, there is an advantage of reducing the construction time and easy maintenance.

While the present invention has been described in detail with respect to the embodiments described, it will be apparent to those skilled in the art that various modifications and variations are possible within the technical spirit of the present invention, and such modifications and modifications belong to the appended claims.

Claims (8)

1. Insulation material is installed on the floor of the living space to block the movement of heating heat;

   A heating pipe for supplying the heating heat to the living space;

   A wiring part in which the heating pipe is wired and fixed in a surface contact state and the upper side of which is opened;

   A heat storage unit for receiving the heating heat of the heating pipe to radiate heat to a flat top surface, and to store a part in a sealed inner space; And

   A shielding film covering and sealing an open upper side of the wiring part while maintaining a distance from the heating pipe; Including,

   The hot water ondol panel system comprising a space between the wiring portion and the shielding film without using mortar.
2. The method of claim 1,

   The top surface of the heat storage portion and the top surface of the shielding film is flat, hot water ondol panel system, characterized in that consisting of a dry finish material attached by any one selected from carpet, stone, wood, floorboards.
3. The method of claim 1, wherein the shielding film,

   Hot water ondol panel system, characterized in that consisting of two layers to increase the mechanical strength.
4. The method of claim 1, wherein the heat storage unit,

   A partition wall for separating the wiring portion and the space in a sealed state,

   The partition wall is composed of any one selected from the inclined shape and the vertical shape,

   At least one reinforcing groove for reinforcing mechanical strength so that the partition wall is not bent; Hot water ondol panel system characterized in that the configuration is made.
5. The method of claim 4, wherein the partition wall,

   Hot water ondol panel system comprising a configuration in which the wiring portion and the air flows to form a uniform temperature of the heat storage heat.
6. The method of claim 5, wherein the partition wall,

   Hot water ondol panel system, characterized in that formed of a plurality of pillars made of a configuration that minimizes the temperature difference for each position of the regenerated heating heat.
7. The method of claim 4, wherein the heat storage unit,

   A latching jaw to which a shielding film covering the wiring part in a sealed state is fixed to an upper end of the partition wall; Hot water ondol panel system comprising a configuration having a.
8. The method of claim 1, wherein the wiring portion,

   It is provided with a guide for fixing one outer peripheral surface of the heating pipe in a surface contact state,

   Hot water ondol panel system comprising a configuration for sealing the upper side opened by the shielding film to form a heat storage space.

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