KR101374432B1 - Korean underfloor heating system with multi-layer structure - Google Patents

Abstract

The present invention relates to a floor-heating system with a multi-layer structure that includes a first hypocaust layer connected to a fuel hole of a furnace below a room, and a second hypocaust layer connected to a bottom side of the first hypocaust layer, thereby completely interrupting moisture and cold transferred from a ground, and leaving heat generated from the fuel hole without discharging the heat outward to maximize the efficiency of the fuel. The floor-heating system includes the first hypocaust layer for circulating the heat generated from the fuel hole into an inside of external hypocaust shoulders through the hypocaust; and a second hypocaust layer connected to a bottom side of the first hypocaust layer to circulate the heat transferred from the first hypocaust layer into the inside of the external hypocaust shoulders via a passage, and to discharge smoke generated at combustion of the fuel from an outer wall through a chimney.

Description

Regenerative ondol spheres with a multi-layer structure {Korean underfloor heating system with multi-layer structure}

The present invention relates to heat storage type ondol spheres having a multi-layered structure, and more specifically, a double layer formed of a first whale layer having a structure of the ondol spheres connected to a hamlet and a second whale layer connected to a lower side of the first whale layer. Its structure makes it possible to completely block the moisture and cold air from the ground, and the high temperature heat generated from the incubator does not flow out of the spheres and stays inside the spheres for a long time, thus minimizing heat loss. It relates to a regenerative ondol sphere having a multi-layered structure that can be maximized.

Historically, soil culture and ondol culture are old human dwelling cultures.

As humans use fire to burn soil to make bricks, and this brick is used to build houses, the generalized soil culture is widely used due to the ease of use as cement and concrete were developed in the West in the 19th century. Was rippled.

However, while the new building materials such as cement and concrete have strong durability, they have a problem of releasing harmful components to the human body by the compounding composed of chemicals, and thus many modern people have various problems such as adult diseases and stress. There was a problem caused by modern diseases that did not exist in the past.

Therefore, in recent years, in order to solve such a problem, the heating method using the ondol spheres has been re-produced and spread, which is caused by heating the bulbs through the whale as the fire generated by burning fuel in a common firewood is heated. This is the inherent method of heating the heating space in Korea. The principle of chaonnan of these ondol spheres is the use of heat conduction, that is, it is released from the heated field by introducing high temperature heat into the heated field. In addition to heating by conduction, it uses radiant heating and convection heating.

However, these conventional ondol spheres are not provided with a separate means to prevent the moisture and cold air rising from the ground, the heat and power is weakened due to the moisture and cold air to the fire of the archery is turned off the indoor heating space There was a problem of cooling rapidly.

And if you use fuel that is easy to blow in the wind such as farming by-products or plowing, etc., the whales are frequently clogged because they are not blocked. There was a problem in that the heat efficiency is lowered because it is not concentrated evenly distributed in the center.

In addition, the passage from the whale site to the chimney through the year is similar to the height of the room, there is a problem that heat loss increases as the heat flows out through the chimney without any obstacles, the moisture of the whale through the chimney There was a problem that the heat is weakened by entering the inside of the ondol.

In addition, the structure of the whale is formed in the form of a row whale, so that the whale's tuft absorbs a lot of heat, but the moisture does not dissipate much heat, the heat is not evenly distributed outwards, and the heat allocated from the chamber is separated from the center of the sphere. As it is differently transmitted to the outside, heat is concentrated at the center and the bottom is burned, and the outside is not able to transmit heat, and mold has developed.

The present invention has been invented to solve the above problems, to improve the structure of the ondol spheres to provide a regenerative ondol sphere having a multi-layer structure that can completely block moisture and cold air flowing into the spheres from the ground. There is this.

In addition, the hot heat generated during the combustion of fuel in the firewood is circulated evenly without concentrating on any part of the inside of the sphere, and a heat storage layer is formed inside the sphere to minimize heat loss inside the sphere as the heat stays for a long time. It is another object to provide regenerative ondol spheres having a multi-layer structure that can maximize the efficiency of the fuel.

The present invention for achieving the above object is the first whale layer passing through the inside of the outer mouth jaw through the whale generated heat from the hamsil archery; It is connected to the lower side of the first whale layer to pass the heat transmitted from the first whale layer through the inner tunnel to the inside of the outer mouth jaw, and discharges the smoke generated during the combustion of fuel to the outside of the outer wall through the chimney. The second whale layer; provides a regenerative ondol sphere having a multi-layer structure characterized in that consisting of.

Regenerative ondol spheres having a multi-layered structure of the present invention consist of a multi-layered structure formed of a first whale layer connected to the hamsil archery and a second whale layer connected to the lower side of the first whale layer. Can be completely blocked, and the high temperature heat generated by the incineration of the chamber is not leaked to the outside of the outer wall and stays inside the outer bulb for a long time to maximize fuel efficiency and minimize heat loss. It has an effect.

In the construction of the duplexes, the waste heat that was easily spilled into the chimney is trapped while separating moisture and heat, and the fireball is composed of a double structure inside and outside, which prevents the inflow of drafts and saves more than 30% of heat generated in the cabin. It can work.

In addition, it is possible to stay 48 hours or more with fuel of about 25 to 30kg in one time (about 12 hours) with the heat storage effect while warming the room at the desired time. There are various effects, such as being able to completely solve the inconvenience of traditional phrases.

1 is a longitudinal cross-sectional view of the present invention.
2 is a cutaway view of the present invention.
3 is a plan view of the first whale layer of the present invention.
4 is a plan view of a second whale layer of the present invention.

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

1 is a longitudinal cross-sectional view of a regenerative ondol sphere having a multilayer structure of the present invention, FIG. 2 is a cutaway view of a first whale seat of the regenerative ondol sphere having a multilayer structure of the present invention, and FIG. 4 is a plan view of a first whale layer of thermal storage ondol spheres having a structure, and FIG. 4 is a plan view of a second whale layer of thermal storage ondol spheres having a multilayer structure of the present invention.

The present invention relates to heat storage type ondol spheres (100) having a multi-layer structure that can completely block moisture and cold air coming from the ground, and can be heated for a long time without flowing out of hot heat to the outside.

The heat storage type ondol spheres 100 having the multilayer structure of the present invention as described above have a first whale layer 4 through which the heat generated in the archery arch 1 passes through the whale 2. and; Smoke connected to the lower side of the first whale layer 4 passes the heat transmitted from the first whale layer 4 through the internal path 5 to the inside of the outer mouth jaw (3), smoke generated during the combustion of the fuel The second whale layer (8) for discharging to the outside of the outer wall (7) through the chimney (6);

At this time, the size of the compartment 1 is approximately 420 ~ 470mm horizontally, 480 ~ 530mm vertically, the length is adjusted to a minimum length of at least 800mm depending on the length of the room is configured to prevent burning of the lower neck of the room due to heat .

And the first whale layer 4 is formed in a substantially "⊃" shape, as shown in Figure 3, the first whale tuft (3) passing the heat generated in the room 1 (1) 9), a plurality of dolmens 10 for evenly passing the heat passing through the first whale chin 9 into the outer ball jaw 3, and the whale jaw 11 to prevent the heat from leaking to the outside )

In this case, the number of the first ridge 9 can be adjusted according to the size of the ondol spheres 100, the size and number of the doldol 10 can also be adjusted.

In addition, the whale jaw 11 has a structure in which the heat transmitted through the whale 2 is introduced into the first whale seat upper layer 12 as a plurality of through-holes are formed at predetermined intervals, and the first whale seat As the upper layer 12 is connected to the first whale bedding lower layer 13 formed on one side of the second whale layer 8 to be sewn, the heat introduced from the first whale layer 4 is transferred to the second whale layer 8. It consists of a structure that is delivered.

In addition, as shown in FIG. 4, the second whale layer 8 includes a plurality of second whale tufts 14 and second whales, which are spaced apart at regular intervals so as to pass the heat into the inside of the outer mouth jaw 3. The compartment bulkhead 15 for preventing the heat passing through the stack 14 from leaking into the compartment 1 and the flue bulkhead 17 for guiding the heat to the side of the flue 16 is provided. 2 between the whale 14 and the compartment bulkhead 15 is formed a second whale bed 18, through which the heat transmitted from the first whale layer 4 flows, and the outer compartment of the compartment bulkhead 15 ( In 1), a third heat storage layer 19 is formed.

In addition, the upper end of the hamsil archery (1) is provided with a taste stone 20 for supporting the outer wall (7) and to adjust the height, the outer side of the hamsil archery (1) to open and close the inlet of the hamsil archery (1) inside A double crater having a structure in which an external crater 22 is formed on an outer side of the inner crater 21 to prevent the heat of the gas from leaking to the outside and to prevent an external draft from being introduced into the interior of the compartment 1. It is composed of a structure.

In this case, as shown in FIG. 1, as the inclined surface 23 is gradually increased toward the compartment bulkhead 15, heat generated as the fuel is burned in the inside of the chamber-curling arch 1 is shown. It flows easily into the first whale layer 4.

In addition, a plurality of first ball fields 24 are installed on the upper side of the first whale layer 4, and primary heat storage is prevented from directly introducing heat and smoke into the room above the first ball fields 24. A first heat storage layer (ocher gravel layer) 25 having a function is formed, and a finishing layer 26 directly contacting the user is formed on the first heat storage layer (ocher gravel layer) 25.

In addition, as shown in FIG. 1, a plurality of second ball fields 27 are installed at the upper end of the second whale layer 8, and as shown in FIG. Between the whale layer 4 and the second whale layer 8, a second heat storage layer (buttress layer) 28 having a constant height is formed, wherein the second heat storage layer (buttress layer) 28 is shown in FIG. As shown in Fig. 1, the hamsil arch is formed in an increasing shape toward the chimney 6 side from the side (1) is configured to function as a secondary heat storage.

In the drawings, reference numeral 29 denotes a chimney seat, and 30 denotes a moisture blocking part for preventing moisture and cold air rising from the ground.

In carrying out the regenerative ondol spheres 100 having the multilayer structure of the present invention having such a structure and configuration, the conventional ondol spheres are not provided with a separate means for preventing moisture and cold air rising from the ground. Accordingly, there is a problem in that the fire power is weakened due to the moisture and the cold, so that the fire of the archery is turned off, which causes the interior heating space to cool rapidly rapidly.

However, the regenerative ondol spheres 100 having a multi-layer structure of the present invention basically lay one or two layers of 0.5 to 0.7 mm vinyl on the ground to block moisture and cold air from killing fire, and use 50 to 55 mm thick discarded concrete. After forming the moisture barrier unit 30 through the process of hitting, etc., a lower wall is installed thereon to prevent the moisture and cold air coming up from the ground and to prevent cold air flowing from the outer wall (7). It is possible to increase the heat loss in the conventional whales by forming a double layer structure in which the second whale whale bed layer 13 is formed on the lower side of the upper whale bed layer 12, the whale whale bed is formed. It is possible to completely solve the conventional problems, such as blocking the heat loss.

And the first whale layer 4 is formed in a substantially "형성" shape as shown in Figure 3, the first whale tuft (9) for passing the heat generated in the embroidered arch 1 to the outer mouth jaw (3) side ), A plurality of dolmens 10 for evenly passing the heat passing through the first whale stack 9 to the inside of the outer ball jaw 3, and the whale jaw 11 to prevent the heat from leaking to the outside. As it is configured to be able to improve the conductivity of the heat generated in the hamsilgung (1).

In other words, the structure of the whale 2 is on both sides of the outer ball jaw 3, which is vulnerable to heat conduction, that is, to the inner side of the outer ball jaw 3 on the left and right sides with respect to the armhole arch 1 to 2/3 points in a linear direction. After the formation of the date whale (2) is formed at the end of the scattered whale (2) spaced apart at regular intervals, the other part of the entire scattering of the same amount of heat can be evenly transmitted to the inside of the outer mouth (3) It is composed of a double structure formed of silver whale (2), the heat is not evenly distributed to the outside, the heat received from the compartment is transferred to the center and the outside differently, so the heat is concentrated at the center side and the bottom is burned. It is possible to completely solve the problem and the conventional problem that the mold was bloomed because the heat was not delivered.

In addition, as shown in FIG. 4, the heat transmitted from the first whale layer 4 and introduced into the second whale layer 8 is formed in the second whale layer 8 along the diverged ridges 5. The waste heat used in the first whale layer (4) is repeated as a series of processes are introduced through the flue (6) after passing through the year (16) after passing through the flue (18). The second whale layer 8 has the effect of being recycled once more, and the high temperature heat generated in the hamsil arch 1 does not flow out of the outer wall 7 without being leaked to the outside of the outer jaw 3 for a long time. By staying can maximize the efficiency of the fuel, there is an effect that can minimize the heat loss.

In the construction of the duplex spheres, the waste heat that easily escaped into the chimney (6) was separated while separating moisture and heat, and the fireball was formed in a double structure to prevent the inflow of drafts. It can save more than 30%.

In addition, it is possible to stay 48 hours or more with fuel of about 25 to 30kg in one time (about 12 hours) with the heat storage effect while warming the room at the desired time. There are various effects, such as being able to completely solve the inconvenience of traditional phrases.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be clear to those who have knowledge.

1: Hamsil Agung 2: Whale
3: outer jaw jaw 4: first whale layer
5: mine road 6: chimney
7: outer wall 8: second whale layer
9: the first whale 10: dolmen
11: whale jaw 12: the first whale mattress upper layer
13: lower whale first bed 14: second whale
15: compartment bulkhead 16: year
17: year bulkhead 18: the second whale whale
19: third heat storage layer 20: Imatdol
21: internal crater 22: external crater
23: slope 24: first ball field
25: first heat storage layer (ocher gravel layer) 26: finishing layer
27: 2nd ball field 28: 2nd heat storage layer (but soil layer)
29: chimney seat 30: moisture barrier
100: Ondol

Claims (5)

delete delete A first whale layer (4) for circulating the heat generated in the hamsilgung (1) through the whale (2) to the inside of the outer mouth jaw (3); Connected to the lower side of the first whale layer (4) circulates the heat transmitted from the first whale layer (4) to the inside of the outer mouth jaw (3) through the internal path (5), generated during the combustion of the fuel A second whale layer 8 which discharges smoke to the outside of the outer wall 7 through the chimney 6, wherein the second whale layer 8 directs heat to the inside of the outer mouth jaw 3; A plurality of second whale pit 14 for passing through, the compartment bulkhead 15 for preventing the heat passing through the second whale pit 14 into the compartment 1, and the heat of the flue (16) The multi-layer structure, characterized in that it is formed between the flue bulkhead 17 for guiding to the side, and the second whale bed 18 formed between the second whale 14 and the compartment bulkhead 15 into which heat is introduced. Having regenerative ondol spheres. delete delete

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