KR102089746B1 - The foundation structure of the energy saving house - Google Patents

Abstract

The present invention relates to an interior structure of a mobile red clay room building which allows an ordinary worker instead of an expert skilled worker to easily, safely, and sturdily assemble a characteristic interior structure of a wall and a floor of a building as a means for providing an interior structure of a mobile red clay room building constructed by an easy, quick, and sturdy work process. The interior material stacking structure of a mobile red clay room building forms coupling structures at two or more locations by using tacker screws provided in a length of 10-20 cm while plywood is stacked inside an iron structure and red clay bricks containing an insulator and a fibrous material are stacked on the outside of the iron structure around the iron structure forming a sidewall of a red clay structure, and includes a structure where wooden square bars are longitudinally or laterally fixed inside the plywood, a space formed between square bars is filled with a charcoal layer, and a red clay board is fixed between square bars to form a wall. On the floor surface of the red clay room building, vinyl is placed first inside the iron structure to form a structure blocking infiltration of a radon component or humidity. Then floorboards are stacked to form a foundation. Square bars are placed on upper portions of the floorboards at regular intervals. A charcoal layer is embedded between the square bars and plywood is placed on an upper portion of the charcoal layer. A water vein blocking plate is placed on an upper portion of the plywood. An insulator is placed on an upper portion of the water vein blocking plate. A mesh is placed on an upper portion of the insulator. A hot water pipe is arranged on the mesh. A conventional floor stacking structure is formed on an upper portion of the hot water pipe. The interior material stacking structure of a mobile red clay room building is applied to shorten construction time and form a sturdy coupling structure.

Description

Energy-saving heating method of the floor heating layer and the floor heating layer of a hanok or ocher building {The foundation structure of the energy saving house}

The present invention relates to an energy-saving heating method related to the floor heating structure and a floor heating layer of a hanok or loess building, and in the prior art, basically a squirrel whale road to form a heating structure on the floor surface of a general hanok type building as well as the loess It has been applied as a heating structure in the form of covering the top and the top of it, so to form the heating structure of the conventional hanok or loess building, a whale path is formed and the top of the top is covered. Since the warming structure requires a lot of hands during the installation process and the flames are deflected and distributed, there has been a problem in that the warm part cannot coexist, so the cold part coexists. A system that forms a number of orb whales to guide the flames evenly over the bottom A flame-retardant barrier is installed at a distance between 30 cm and 3 meters from the crater at the bottom of the Nigo Guddle, and high heat from the crater is pulled down to the bottom of the flame-retardant barrier and guided upward again. In the case of forming a heating structure with a simple structure, it is a completed invention by confirming that the floor layer installation cost of a building can be applied to achieve even heating of the floor evenly with a small amount of fuel evenly while reducing the installation cost significantly.

Ocher is composed of silt (better than sand and thicker than mud) -sized particles, and is a light yellow sediment loosely interlaced by calcium carbonate, which is a ceramic composed of silica, aluminum, iron oxide, etc. with large porosity. It has been used as a wall by mixing with rice straw, and the loess is not only harmless to the human body because it not only gives a mild and warm feeling when used as a building material, but also exhibits a weak alkalinity of pH 8.5 to 9.5. 25%), has a temperature control ability, and has a far-infrared radiation property and a high heat storage effect due to high porosity, so it has been reported to have a heating cost savings of about 30% compared to cement buildings, has a deodorizing effect, electromagnetic wave blocking effect, and antibacterial effect. It is said to be.

Therefore, as the recent well-being era, the interest in the utility of ocher, which has been penetrated by the wisdom of the ancestors, has increased rapidly, and the field of use, such as ocher room, jjimjilbang, ocher bed, and ocher chair using ocher materials, is expanding.

The applicant of the present application is a technology for utilizing as an effective health means of the human body provided by the ocher component in the meantime, in the registration patent 10-01173290, "a single-person sauna combined with a laundry drying room", and the registration patent 10-0915410, "attached to the bottom or wall surface. "Rock plate and its construction method", Registered Patent 10-1043794, "Functional loess room provided as loess plate", Registered Patent 10-0881070, "Hanji obtained by using natural doc pulp and loess as main ingredients Ocher plate and its use ", Patent No. 10-1782843," Movable and Boiler type with a dual heating structure, "Patent No. 10-1645559," Air quality improvement effect and condensation prevention structure Removable loess room ", Patent No. 10-159084," How to use the energy flow structure to realize the energy saving structure while simultaneously discharging radon gas ", etc. In addition to the above patents, many prior applications related to ocher have been secured. However, in the prior art, when forming a heating structure with a bottom surface and forming a heating structure on the bottom surface, a technology for forming a winding whale path has been applied.

For example, in the prior patent registration No. 10-1754641 of the applicant, a configuration that forms a floor heating structure for installing a “movable ocher building having a double-bending structure” is compared with the prior art in order to compare the difference with the application technology. The technology shows the external appearance of the mobile loess building in FIG. 1A, and the heating structure installed on the floor surface of the loess building in FIG. 1B is presented. In FIG. 1A, when the mobile loess building structure is formed, the upper loess body structure 90 is formed. It consists of a wall surface portion 70 and a roof 80, and the floor structure 60 at the bottom of the ocher room is lowered to support the floor structure when the arch 10 is spread over the lower frame 20 supporting the floor structure. The top of the frame 20 and the frame frame 50 embedded in the frame shows the outer shape of the finished form up to the floor finishing material 54, and FIG. It shows an example of the application of the heat source distribution path of the installed path, the lower path is installed on the bottom of the frame 40 of Figure 1a, the heat source generated from the arch 10 is introduced into the inlet 32, a number of bulkheads (33) as it spreads to the outside through the heat flow inducer (34) formed between the partition wall (33) and flows through the zigzag between the partition wall (33) and the partition wall so as to pass through the heat flow inducer (34) formed between the partition wall It shows a configuration that is applied to distribute the entire area evenly and then flow out through the outlet 35 connected to the chimney.

The applicant of the present application has obtained the honor that it can be registered as a national new intellectual, name, etc. through many patent applications and industrial property rights registration, and other social activities as described above. Although it is eager to enjoy culture, it is a construction period that takes 20 ~ 30 days even if 3 ~ 4 skilled workers work continuously to complete the ocher building by applying the conventional method as described above. Due to the problem that the unit price of the loess building is increasing, those who come to recognize the good of the loess building and want to go down to the quiet countryside and spend the rest of the life in the loess building, and those who come to want to buy the loess building will turn around with high price. When I was really sorry, I was just If the technology is applied to the process of devising how to lower the manufacturing cost because of a sinful feeling among senior citizens who just look around and regret, it not only lowers the production cost but also warms the floor evenly among fuel savings. It is a completed invention by confirming that an energy saving effect can also be obtained.

The present invention makes a whale path between the bottom surface of the heating layer and the bottom surface of the arch, which has been applied in the conventional heating structure of the traditional Korean traditional house or ocher building, when the external firewood heat source such as firewood is supplied. In accordance with the conventional method of guiding the exhaust port (chimney), the upper surface of the warming layer has a parallel structure, but the bottom surface of the warming layer has a range of 5 to 20 cm from the fire side than the discharge side. It is formed thickly and is applied to form a gentle upward slope from the crater side toward the outlet, and between the bottom surface of the warming layer and the bottom surface of the arch, 20 cm to 3 meters (m) from the crater. At a distance from the range, the flame-retardant barrier of 3 ~ 15 cm in height is installed downward from the bottom surface of the warming layer, so that high heat from the fire zone is pulled down to the bottom of the flame-retardant barrier. After long kkeok excitation has an object to provide a heated layer of spheres improved structure for guiding the upward again.

The present application is a technique applied to the heating structure of the floor surface of a traditional hanok or ocher room building. It is pre-made and transported to the site to form a structure that is crushed and coupled to the upper part of the foundation retaining wall, and the upper surface of the heating layer is a parallel structure, but the bottom surface of the heating layer is a fire outlet on the bottom side of the heating layer. It is formed thicker in the range of 5 to 20 cm than the side, and includes a configuration applied to form a gentle upward slope from the fire side to the discharge side, between the bottom surface of the heating layer and the bottom surface of the mouth. As in the past, the length of the whale is not formed, and it faces down from the bottom surface of the warming layer at a distance of 20 cm to 3 meters (m) from the crater. Hanok, which includes a structure that is installed to provide a structure that guides upward after the flame is bent after the high heat from the fire zone is lowered to the bottom of the flame-retardant film by installing a flame-retardant film with a height of 3 to 15 cm. Or, it is a technology characterized by an improved heating structure of the floor surface of an ocher building.

When the technology of the present application is applied, the flame-retardant barrier is installed high in the range of 5 to 15 cm in the center and low in the edge region in the range of 1 to 5 cm, so that the high heat at the fire zone passes through the flame-retardant barrier. It can be applied to distribute and flow to the edges.

In addition, a water jetting nozzle is installed at the bottom surface of the heating layer and before the outlet, and is located at the bottom of the jetting part of the jetting nozzle, as a means for partially solving the problem that the flue gas from the flue gas causes pollution in the above technical configuration of the present application. In the configuration, the water discharge pipe is installed on the bottom surface of the arch, and the particle is sprayed onto the fine dust generated during the soot process to partially absorb and purify the exhaust gas and add a configuration to exhaust the chimney. It also includes technical thought.

The technical idea of the present application is applied to a warm structure including ocher components in a circular or octagonal chair provided around a zelkova tree planted around a path in a rural village, for example, in a rural area. When the heating structure is supplied with firewood heat source for heating the field, instead of the frame that formed the octagon-shaped chair, the floor and foundation retaining walls are made of fire-resistant brick, etc., and the measured values are applied in advance to the site and It can be applied as a structure that is pre-fabricated in the form of a unit article in the shape of a unit article and transported to the site to be crushed and coupled to the top of the foundation retaining wall, wherein the upper surface of the heating tool layer forms a parallel structure, but The bottom side is thicker in the range of 5 ~ 20cm than the outlet side of the crater. Includes a configuration applied to form a gentle upward slope from the sphere side toward the outlet side, and between the bottom surface of the heating layer and the bottom surface of the mouthpiece is 20 cm to 3 meters from the crater. m) At a distance from the range, a flame-retardant barrier with a height of 3 to 15 cm is installed from the bottom side of the heating layer to the bottom, and high heat from the fire zone is pulled down to the bottom of the flame-retardant barrier and the flame is bent. When applied as an ocher plate chair made up of a structure that guides upward again, if 2 or 3 pieces of firewood are put in a fire zone, all elders in the village feel the warm ocher heating and energy saving heating method of the loess layer This can be implemented.

In addition, since the mobile loess room is popular recently, as the present technology is applied, as a method of installing a warming layer to form a heating structure, a heat source is provided to heat the warming layer containing the loess component, and the warming layer is a unit. When manufactured in a rectangular shape in the shape of a ward, the upper surface of the heating layer is formed in a parallel structure, but the bottom surface of the heating layer is thicker in the range of 5 to 20 cm than the outlet side of the heating element layer. It is a structure that forms a gentle upward slope from the (火口) side to the discharge port, and the first stage process pre-manufactured in the factory and the unit stages pre-produced in the first stage are transported to the installation site to the upper part of the foundation retaining wall. The structure is coupled to be crushed, but the lower end of the unit hole field is provided with a structure having an inner protruding portion and an outer engraved portion, and the foundation retaining wall is an outer protruding portion and an inner engraved portion. The outer protrusions of the basic retaining wall are laid with a living soil or heat-resistant silicon on top of the inner engraved parts of the foundation retaining wall. It has the effect of easily installing the warming layer containing the ocher component on the same day by a simple means comprising a second step process that is positioned and seated respectively at the upper position of the protrusion.

Hereinafter, embodiments in which the technical idea of the present application is specifically implemented will be described in detail with reference to the drawings in the specific content field for carrying out the following invention.

In the conventional mobile loess building, for example, when a 6-pyeong loess building is made in a factory, the weight of the product reaches about 7 to 8 tons, so it is loaded onto a large truck of about 10 tons using a crane and transported to the site. Then, after selecting the floor surface on the site, it has been applied in a form of mounting on the floor surface again using a crane, etc., so it has a problem that a mobile loess building cannot be installed in an area with a narrow driveway.

However, when the technology of the present application is applied, only the rectangular heating layer is pre-produced as a unit article and transported to the site by a 2.5-ton truck to form a structure that is bonded to the top of the foundation retaining wall pre-prepared according to the design specifications at the site. The upper body of an ocher building constructed to form a wall and a roof thereon can be applied in a configuration that is assembled and combined on the upper part of the unit bodies.

In addition, even if 3 ~ 4 skilled workforces perform continuous work until the completion of the prefabricated ocher building by the conventional method, compared with the construction period that took 20 ~ 30 days, 5 ~ 10 days range without skilled workforce It has the effect of shortening the construction period of the furnace to 1/2 to 1/3 and providing a solid structure while supplying and completing the supply price of loess.

1: An external perspective view of a mobile loess building that is normally provided.
2: Application example of the heating tool layer 50 to which the technology of the present application is applied.
3: Application example of deformation of the heating layer 50
4: Brief example of site installation of the heating layer 50 of the present application
Figure 5: Application example is modified / applied in the form of a technical idea of the present application.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described to be easily carried out by those of ordinary skill in the art.

1 is a perspective view showing the appearance of a traditional mobile loess building 100, Figure 1a shows the appearance of a mobile loess room building, Figure 1b is a view showing the heating structure of a whale-wobbled path installed on the bottom surface of the loess building , In the embodiment shown in FIG. 1A, the door 70 and the roof 80 are combined with a wall 70 and a roof 80 made of an entrance door 71, a glass window 72, and a side door 73 attached to the ocher plate 74. 90) is manufactured separately, the floor structure 60 is a state having a fire path (30) is formed and the fire path (30) is guided by a hot flame generated by burning firewood to the bottom of the firewood frame (54) and injected with firewood It shows that the floor structures 60 can be applied in the form of completing the ocher building 100 by being transported to the installation site after being manufactured in the factory, respectively, but in the prior art, the floor structure 60 is a wooden frame 5 4) Inside the floor, if the winding path 30 is not arranged to pass well through the heat flow inducer 34 formed between the partition wall 33 and the partition wall to guide the flame as shown in FIG. 1B. There was a problem that this was not evenly warm, and it was also manufactured in the factory as a mobile loess product, and when transported to the site, it was loaded onto a large truck of about 10 tons using a crane, etc., and transported to the site. After picking and installing the finished product on the bottom surface again by using a crane or the like, if a situation in which the barrier ribs 33 of the form shown in FIG. 1B partially collapse, the upper bottom surface 20 may be again There have been inconveniences of resolving the situation where the heat flow inducer (34) is blocked, and complaints such as which part of the process of using the loess are not warm There have been problems such that life.

FIG. 2 shows an application example of the heating tool layer 50 having a structure that can be combined with the upper part of the foundation retaining wall by being pre-fabricated in the form of a unit article by applying the technical idea of the present application and being transported to the site. The bulging whale length is installed between the swollen warming layer and the bottom surface (ground) as in the prior art to form a flame guiding structure, but the protruding bulkhead 43 is sequentially installed on the bottom surface of the warming layer 50 to fire the fireball. High heat from) is lowered as the flames rise and fall according to the height of the protruding bulkhead 43, and then the first route, which forms a guiding structure downward again upward or downward, is applied or the warming layer 50 A flame-retardant barrier 53 that partially protrudes to the bottom surface is installed so that high heat from the fire zone is pulled down to the bottom of the flame-retardant barrier and then moves upward again. Is a technique to be adapted to be selected from the second route configuration forming the structure.

In FIG. 2A, the upper side of the heating layer 50 is shown in a perspective view on the upper side of the heating layer 50, and in FIG. 2B, the heating side layer 50 is formed on one side of the bottom side of the heating layer 50. The bottom side is shown in a perspective view, and FIG. 2C shows the side viewed in an internal perspective to describe the side structure of the warming layer 50.

The warming layer 50 shown in FIG. 2 is pre-fabricated in the form of a unit article and transported to the installation site, and as shown in FIG. 4A, the warming layer 50 is attached to the foundation retaining wall 40 and coupled to the upper heating layer 50 ), The lower end of the side wall body 41 of the warming layer 50 is provided with a structure having an inner protruding portion 41a and an outer engraved portion 41b, and the foundation retaining wall 40 has an outer protruding portion 40b and an inner engraved portion By forming a structure having a portion 40a, a living soil or heat-resistant silicon is laid on the upper side of the inner protruding portion 40a of the outer protruding portion 40b of the foundation retaining wall 40, and the side wall body 41 of the warming layer 50 is disposed thereon. When raised, the inner protruding parts 41a are located at the upper positions of the inner engraved parts 40a of the foundation retaining wall, and the outer protruding parts 41b of the side wall body 41 are located at the upper positions of the outer protruding parts 40b of the foundation retaining wall 40. The heating and heating of the inside of the heating tool layer 50 is performed without going out to the outside by forming a position and seated configuration. Among the protruding bulkheads formed on the bottom surface 42b of the old layer 50, the first first step bulkhead 43a to the second step bulkhead 43b-> the third step bulkhead 43c-> the fourth step bulkhead 43d ) In turn, the flames are applied along the arrow direction 44 to form a flame guide structure.

In FIG. 2A, the warming layer 50 provided by the present technology is shown, and the upper surface 42a of the warming layer has a parallel structure with a bottom surface and a sidewall body (as in the prior art), with the raised plate 45 raised. On the side of 41), an arch injection part 46 is formed, and a hook 56 is formed at the four corners of the upper surface 42a to show the appearance of a structure that can be lifted by a crane. It shows the bottom side of the (50), in Figure 2c shows the side structure of the warming layer (50), the front side wall (41) is formed with an injection section 46 and the rear side wall (41) exhaust The through hole 47 is formed, and a structure in which a protruding partition 43a, 43b, 43c, and 43d that blocks the advancement of flames is installed in a multi-structure on the bottom surface 42b of the warming layer is provided with a multiple structure. ), The height of the projecting bulkhead (43a) on the side is formed higher than the projecting bulkhead (43d) in the range of 5 ~ 15㎝ As shown in FIG. 2C toward the exit side, the height h2 of the fourth stage partition wall 43d gradually decreases from the height h1 of the first stage partition wall 43a to 5 to 15 cm and gradually spreads the flames. When guiding, if the height of both side ends partially lower than the central portion of the protruding partitions 43a, 43b, 43c, and 43d can be applied to spread the flame evenly to the edge of the bottom surface.

3 shows a modified application example of the warming layer 50 to which the technical idea of the present application is applied. In FIG. 3A, the rear end of the protruding partitions 43a, 43b, 43c, and 43d of the warming layer 50 is installed in the rear end. The fourth stage partition wall (43d) and the exhaust pipe is installed inside the side wall body (41) is installed inside the water supply pipe (48a, 48b) has a structure in which the injection nozzles (49a, 49b) is installed to the outside to form the outside Water supplied from the outside of the water supply pipe (48a, 48b) through the water supply pipe from the outside by forming a drain pipe 51 for water discharge is installed at the chimney side of the bottom surface. As water molecules in the micro-bubble state are injected through the injection nozzles 49a and 49b, the fine particles generated during the soot process are absorbed and purified, and the dust particles in the exhaust gas are absorbed and purified, and exhausted into the chimney, and the water supply pipes 48a, 48b or Is the spray nozzles 49a, 49b installed? In order to prevent water from accumulating on the bottom surface of the overlay layer 50, a drainage channel 51 is installed to show that a configuration discharged to the outside can be applied, and in FIG. 3B, heating is performed at one side of the bottom side of the heating overlay layer 50. When the upper surface and the lower surface of the warming layer are applied at the same height in a form in which the bottom surface of the warm layer 50 has a constant height in the form of a rectangular steel lumber 52, the lower surface 42b of the warming layer 50 ), Through the undercoating, the iron plate coated with a rust-preventing coating agent was installed with a flame-retardant barrier film 53 having a height of 3 to 15 cm toward the bottom, so that high heat in the fire zone was brought down to the bottom of the flame-retardant barrier film. A second root configuration forming a flame guiding structure upward is selectively applied, and gradually decreases from the height h1 of the first step bulkhead 43a, as shown in FIG. 2C, without using a conventional structure. Step bulkhead (43d) The height (h2) are formed gradually low as 5 ~ 15㎝ range uniformly guiding the flames and shows that it can be applied to embodiments to evenly warm heating the base.

FIG. 4 shows the completed appearance of the ocher building by dividing the configuration in which the warming layer 50 provided in FIGS. 2 to 3 is transported to the site and coupled to the foundation retaining wall 40 installed at the site. As shown in the drawing, FIG. 4A is a pre-fabricated structure having a lower side inner protruding portion 41a and an outer engraved portion 41b of a side wall 41 of a pre-fabricated warming layer 50, and transported to the site. Using the hook hook (92) suspended from the end of the support shaft (91) of the tower crane, the heating hook layer (50) is caught by the hook (56) provided at the four corners, and the heating hook layer (50) is lifted by a crane. When the foundation retaining wall 40 is prepared to form a structure having an outer protruding portion 40b and an inner engraved portion 40a, a living soil or heat-resistant silicon is laid on top of the inner protruding portion 40a on the outer protruding portion 40b. Using the crane to the heating layer 50, the side wall 41 is When raised, the inner protruding portion 41a is located at the upper position of the inner engraved portion 40a of the foundation retaining wall, and the outer protruding portion 41b of the side wall 41 is located at the upper position of the outer protruding portion 40b of the foundation retaining wall 40. And when the floor layer is made to be installed and installed to complete the floor layer and the upper wall portion 90 of which the wall 70 and the roof 80 are combined, one completed ocher building 100 as shown in FIG. 4B It is shown that can be obtained.

FIG. 5 illustrates an external perspective view of a round chair in FIG. 5A to illustrate that the energy saving heating method can be applied to various methods as well as the shapes of FIGS. 2 and 3 when the technical idea of the present application is applied. A view showing a side view in a perspective view to show the internal structure of FIG. 5A, for example, a circular round chair 110 is provided as a periphery in a state in which a sperm tree is planted in the center of a courtyard in a rural village hall. With the backrest part 112 structure, in order to apply the present technology, a structure having a plurality of flame-blocking protruding barriers 43e, 43f, 43g on the underside of the heating tool layer 50b is heated in unit form. The construction layer 50b is pre-fabricated and transported to the site to form a foundation retaining wall in a round shape as shown in FIG. 4A, and a structure in which the heating layer 50b is attached to the upper portion of the foundation wall is coupled. When the upper surface of the warming layer has a parallel structure, the flame-blocking protruding barriers 43e, 43f, and 43g formed on the bottom surface are gradually lowered from the fire side to the discharge side to form an upwardly inclined surface, or As shown in the embodiment of FIG. 3B, a flame-retardant barrier film 53 having a height of 3 to 15 cm is installed toward the bottom instead of a protruding bulkhead, such as a steel plate coated with a rust-preventing coating agent, so that a high heat in the fire zone is reduced. When applied to form a flame guiding structure upward after being pulled down, it shows that it can be applied so that elderly seniors can chat on a warm floor ocher plate evenly while forming an energy saving structure.

As described above, the details related to the material forming the heating sphere layer 50 in the form of a unit sphere body according to the present invention are described in detail in the invention of the present inventor 10-2017-0069742 Unit spheres of a movable building The construction method of the sieve and unit spheres is presented in detail in the application technology, and when iron is used to form the heating layer, it is preferable that a steel structure for preventing rust is used through undercoating, and the upper portion of the heating layer 50 is The rest of the living room or the floor is preferably a configuration that is applied to increase the effect of generating far-infrared rays due to the use of a mixture of functional heat-generating minerals and ocher that generate yellow and far infrared rays.

Other parts that are partially lacking in the detailed description herein are the applicant's prior application registration patents 10-01173290, registered patent 10-0915410, registered patent 10-1043794, registered patent 10-0881070, registered patent 10-1645559, registered Since it is presented in detail in Patent No. 10-1782843, it is revealed that it is partially omitted to avoid duplication.

10: Agung 20: the bottom surface
30: Gudeul-gil 40: foundation retaining wall
40a: inner intaglio portion 40b: outer protruding portion
41: side walls 41a: inner protrusions
41b: outer intaglio portion 42a: upper layer
42b: bottom layer 43: projecting bulkhead
44: arrow guide direction 45: old board
46: mouth injection part 47: exhaust vent
48: water supply pipe 49: spray nozzle
50: Gaongudang floor 51: drainage channel
52: iron wood 53: flame falling barrier
54: Good frame 56: Hook
60: floor structure 70: wall
80: roof 90: ocher upper body
91: tower crane support shaft 92: hook hook
100: red clay building 110: circular chair
111: round chair support 112: backrest

Claims (5)

In the heating structure of the floor surface of a hanok or loess building structure comprising a structure in which the heating layers are pre-fabricated in the form of unit products and transported to the site to be attached to the foundation retaining wall,
The inner protruding part and the outer engraved part are formed at the lower end of the side wall body of the heating layer, and the outer protruding part and the inner engraved part are also formed in the basic retaining wall, and living soil or heat-resistant silicon is formed on the outer protruding part or inner engraved part of the basic retaining wall. The inner protruding part of the side wall body is located above the inner intaglio part of the foundation retaining wall when the heating layer is placed on the top, and the outer engraved part of the side wall body is seated and installed at the upper position of the outer protruding part of the foundation retaining wall. It is applied to achieve a structure that does not allow the internal heating heat of the heating layer to escape to the outside.
The upper surface of the warming layer has a parallel structure, but the bottom surface of the warming layer has a structure in which a protruding bulkhead that blocks the advancement of flames is installed in a multi-structure, and the height of the protruding bulkhead on the side of the fire is the outlet (排). It is formed in the range of 5 ~ 15cm higher than the exit side, and is applied to form the height of the protruding bulkhead toward the outlet side to create a flame guiding structure that repeats downward and upward as high heat from the crater passes through the protruding bulkhead. The first route that is made is applied
When the upper surface and the bottom surface of the heating layer are at the same height, a flame falling barrier of 3 to 15 cm in height is installed from the bottom surface of the heating layer toward the bottom to prevent the high heat from the fire zone from blocking the flame. Since one of the second route configurations constituting a flame guiding structure repeating downward and upward passages is selected and applied, it is characterized in that it comprises a configuration that warms the floor evenly without using a conventional whale route structure. Heating structure of the floor of a hanok or ocher building. delete According to claim 1,
A water supply pipe is installed inside the protruding bulkhead installed at a position after the middle of the heating layer layer or before a discharge port, and a spray nozzle is installed to the outside, and a drainage channel for discharging water is located at the bottom of the spray nozzle. It is characterized in that the water supplied from the water supply pipe is sprayed to the fine dust generated during the soot process by absorbing and purifying the dust particles in the exhaust gas and applied to the chimney. The heating structure of the floor of the ocher building. delete In the method of installing the heating layer of the ocher building having a structure in which the heating layer is prefabricated in the form of a unit article and transported to the site and crushed on the upper part of the foundation retaining wall,
When the warming layer is made of a rectangular frame structure in the form of a uniting hole, the upper surface of the warming layer forms a parallel structure, but the bottom surface of the warming layer forms a structure having a plurality of flame-blocking protruding bulkheads and the lower side of the side wall of the rectangular frame. A first step pre-fabricated with a structure having an inner protruding portion and an outer engraved portion;
In the first step, the prefabricated unit yards are transported to the installation site to form a structure in which the foundation retaining wall is crushed and coupled, and the foundation retaining wall is made of a structure having an inner protruding portion and an inner engraving portion, and the inner protruding portion of the outer protruding portion of the foundation retaining wall Fresh yellow soil or heat-resistant silicon is placed on the upper part, and the inner protrusions of the unit pit are located on the upper part of the inner engraved part of the foundation retaining wall, and the outer engraved parts of the unit pit are located and seated respectively at the upper position of the outer protruding part of the foundation retaining wall. Step 2;
Method of installing a warming layer comprising a configuration.

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