KR101782843B1 - Ondol heating system of architecture with firehole and boiler - Google Patents

Abstract

The Ondol heating structure of the movable ovens having the heating structure of the boiler type 2 according to the present invention is sold and provided as the floor surface of the movable building itself and the user purchases and conveys the Ondol heating structure of the present invention, The ceiling or the ceiling of the building.
The present invention relates to an Ondol heating structure for a movable building having a dual heating structure of an oven system and a boiler system. The Ondol heating system comprises a first step of forming a foundation bottom surface (30) A second step of forming a whale road 40 with a heat resistant perforated panel 41 on the upper part of the floor panel 40 and a heat resistant floor heating floor 50 on the upper part of the perforated panel 41 completed with the second step, A third stage in which a plate including alumina cement, yellow soil, a briquette and a baron (volcanic ash) is formed, and an Ondol bottom plate 50 in which a wire mesh is built in and press- And a fourth step of forming an ondol bottom surface by laying a hot water pipe (61) on the floor of the ondol floor and a dough mortar (60) containing loess, briquette and balun The present invention is characterized by the Ondol heating structure of a mobile building provided through a laminating process.

Description

{Ondol heating system of architecture with firehole and boiler}

The Ondol heating structure of the movable ovens having the heating structure of the boiler type 2 according to the present invention is sold and provided as the floor surface of the movable building itself and the user purchases and conveys the Ondol heating structure of the present invention, The present invention provides an ondol heating structure of a movable building which can be applied to install a wall or ceiling material of a building according to the present invention.

Historically, the soil culture and the ondol culture are the old human residential culture that is still being used. The human culture uses the fire to bake the soil to make bricks and use these bricks to build houses. And the widespread use of cements in the western world due to their ease of use.

Cement and concrete cultures have been used in all buildings as if they were innovations in architecture. The existing soil culture and ondol culture have gradually been hidden, but the new building materials, cement and concrete, have strong durability. On the other hand, It has a problem that it is emitting a harmful component to the human body by the combination.

Today 's architectural culture, which is the cement and concrete in this way, has caused many modern people various illnesses and stresses that have not existed in the past. For this reason, many modern people use sauna, steam room, And it is time consuming because it finds time and space to be able to escape from asphalt and concrete buildings for a while together with natural soil.

As a means for enjoying the soil culture as described above, a portable yellow soil for utilizing the far-infrared ray of the yellow loess has recently been popular. As a related art, Japanese Patent Application No. 10-1069615 discloses a wall frame forming a wall and a floor of a house. A mesh unit installed between the wall frames; A heating unit inserted into one side of the mesh unit; A heating chamber which is protruded into a space constituted by the wall frame and into which fuel is injected, a heating chamber which is separated from the combustion chamber and heated by heat due to fuel combustion of the combustion chamber, And a duct unit installed at the bottom of the space formed by the wall frame, the fluid flowing by the driving force of the pumping unit, and a technique for solving the problem of insufficient heating in the mobile accommodation is presented .

In addition, in JP-A-10-1492610, a bottom frame of a fixed height, which is connected in a hermetically closed state to constitute a bottom frame of a house in a movable floor structure, and is spaced apart from the ground by a pedestal; A bottom plate that is connected to an inner bottom surface of the bottom frame and cut off from the ground surface, a heat insulating material that is laminated on the top surface of the bottom plate and the inner surface of the bottom frame to a predetermined thickness, An upper floor of the lower floor constituting the top plate bottom floor frame to be seated, a lower floor of the indoor floor which is formed at a predetermined height from the upper side of the upper floor plate so as to form a sphere therebetween, An indoor floor material in which an absorbed heat source is stored in an indoor floor bottom plate and an indoor floor finish material in an upper surface of the indoor floor material is supplied to a boiler installed outside the lower frame, The inner floor member is heated to one side of the lower frame And a heat source supply port through which the boiler is connected and installed, the floor structure being cut to a predetermined size on the surface of the floor.

In addition, in Patent Publication No. 117506/19906, at least one or more spherical regions separated from each other through a wall surface provided in a lower portion of a mobile-type housing by a heating device of a mobile-type home are provided with spheres formed therein and heat received from a heat source One or more pipes connected to the heat distributor and one or more heat dischargers provided for each of the districts and having pipe openers formed therein, And at least one heat discharger for discharging the heat supplied from the heat distributor to the corresponding sphere region through the heat exchanger.

However, when a movable obturator building having the above-mentioned canopy or bottom surface is manufactured in a factory and the entirety is moved and installed in the field, it is easy to cause a shock in the moving process or a situation in which the bottom surface is inadvertently cracked during the installation process, (CO ₂ ) will be absorbed through the gap when time passes, and when the carbon monoxide (CO) is discharged together with the incomplete combustion, And the result of mass production of respiratory disease patients.

Also, when the movable building water of the above-mentioned configuration is installed on the site and applied, there is a situation that the firewood is not always ready to be fulfilled according to the site conditions, and there is a situation where the firewood can not be continuously injected into the firewood Therefore, for example, if 10 bottles of firewood are slowly injected into the early evening and firewood is burned, when the floor surface of the sleepers falls below 30 ° C at dawn time, the hot water boiler is operated and the temperature is raised to 35 ± 3 ° C, it is also necessary to provide the user with the option of injecting firewood into the oven when needed or using a boiler facility if necessary

However, when the firewood is burnt, when the warming heat of the oven reaches a high temperature in the range of 800 ° C, the cement or the bottom plate used on the floor surface is expanded and is not heated When the gasket is repeatedly shrunk, the gasket is cracked on the bottom surface or the wall surface after a certain period of time, and the combustion gas seeps in between the gasket and the gasket.

The present invention is a method for solving all the inconveniences in the heating system of a conventional mobile building as described above. In the present invention, a natural-friendly material which does not cause expansion or shrinkage even in a temperature range of 800 to 1000 ° C, Which is used as a floor heating system, is used as an oven floor heating system, and it is an object of the present invention to provide an Ondol heating system of a portable building having an oven system and a boiler system dual heating structure.

In order to accomplish the above object, the present invention provides an Ondol heating structure for a movable building having an oven-type and a boiler-type dual-heating structure according to the present invention, A second step of forming a whale road with a heat-resistant perforated panel on the base floor having completed the first step process, and a heat-resistant Ondol bottom plate on the upper part of the perforated panel having completed the second step, A third step in which the Ondol bottom plate provided with the wire mesh is built in the center, and the Ondol bottom plate is completed, and the iron hot water pipe is laid on the upper part of the Ondol bottom plate, It includes the fourth step that forms the floor of the Ondol by installing the kneading water containing loess, briquette and ash The invention is completed to verify that it is possible to provide a floor heating structure having a heating insulation and heat storage properties through a step consisting of W.

The Ondol bottom plate installed in the third step process is composed of 40 ± 5 wt% of alumina cement, 30.0 ± 5 wt% of loess, 15 ± 5 wt% of briquette, 12.0 ± 1.0 wt% of volcanic ash, 2.5 ± 0.5 wt% of calcium sulfer aluminate wt%, and sintered shell powder 0.5 ± 0.2 wt%, wire mesh is embedded in the central part, and then pressed with a press of 1000 tons or more to obtain the Ondol bottom plate. In addition, hot water piping It is preferable that a recessed groove for embedding is formed and the hot water pipe is embedded in the recessed groove.

The present invention relates to a method of installing a movable obovate building, wherein a foundation bottom surface of a movable obovate building comprises a first step of forming a base bottom surface by laying a heat resistant cement board on an upper portion of a steel frame, And a second step of forming a whale road with a heat-resistant perforated panel, and a heat-resistant Ondol bottom plate is laid on an upper portion of the perforated panel, wherein the heat resistant Ondol bottom plate has a composition including alumina cement, A third step in which the Ondol bottom plate provided with a wire mesh is integrated and provided, and an iron hot water pipe is laid on the upper part of the Ondol plate in which the third step process is completed, and a kneaded material And the fourth step of forming the floor of the Ondol, 2, the previous stage of the process is the installation of the heater structure is applied to the embodiment is fabricated in the factory.

In the above-mentioned step, the movable floor constructed in the factory is moved to a site desired by the customer, which is an intermediate product in the form of a double heating structure, and then installed on the floor, And a post-step process in which a movable obturator building is completed by installing a roof and a roof can be installed.

In the above-mentioned step, the wall of the movable obturator building has a gap of 5 ± 3 cm between the inner wall and the outer wall, and the gap is filled with yellow earth, basaltic ash and briquette, Is preferable.

Embodiments in which the technical idea of the present application is specifically embodied will be described in detail with reference to the drawings on the basis of the detailed description for carrying out the following invention.

The Ondol heating structure of a building having an oven system and a boiler system according to the present invention has a structure in which an Ondol floor plate constituting a floor material of a building comprises a heat-resistant cement, an ocher basaltic ash ash and a briquetting material ocher, , Natural-friendly loess and basaltic volcanic ash with heat storage function and briquette having heat insulation function are used, so that even when the heating temperature of the ovary reaches a high temperature of 800 to 900 ° C, it does not swell or shrink, And provides the effect of yellowing of the soil that helps prevent disease and promote health due to the far-infrared rays generated therefrom.

The Hwangtobang which is provided with the technical composition of the present invention completes the bottom surface of the house with the rigidity of the Ondol bottom plate (spheres) and moves to the site as an intermediate product to construct the wall and the roof structure. It is possible to reduce the construction period by 50% and reduce the construction cost by 20 ~ 30% since the intermediate product is made and transported to the site.

In addition, the Ondol bottom plate provided in the present invention not only serves as an oven which warms the floor through the gully, but also has a built-in diaphragm on the bottom floor of the Ondol, and a boiler system It is possible to select a suitable heating method according to the user's choice, thereby providing a convenient and highly selective heating method.

Fig. 1 is an example of application of the bottom floor structure of a movable ocher house to which the technical idea of the present application is applied, in the form of an intermediate product.
Figure 2: An illustration of the formation of a whale path in a mobile yellow ocher applied to the present technique.
Figure 3: Example of installation of hot water piping in a mobile yellow oven applied to the present technique.
Fig. 4 is an exemplary application example of a wall installation of a movable oven covered with the present technology; Fig.
Fig. 5 is an application example of a form in which the mobile technology is applied to complete the mobile yellow soil.

BRIEF DESCRIPTION OF THE DRAWINGS For a better understanding of the present invention, a preferred embodiment of the present invention will now be described with reference to the accompanying drawings, in which embodiments shown in the drawings may be modified in various forms, And should not be construed as limited to the embodiments of the drawings described.

BRIEF DESCRIPTION OF THE DRAWINGS The embodiments of the drawings presented herein are illustrated by way of example only, and are not intended to limit the scope of the present invention to those skilled in the art. It is to be understood that the present invention may be embodied with various other changes and modifications without departing from the spirit or scope of the invention.

FIG. 1 shows only the bottom floor structure 80 of the mobile type obtusight house provided in the present invention. FIG. 1 (a) shows only the bottom floor structure 80 of the obtusus house in an intermediate product form, 1B is an exploded perspective view for explaining the internal structure of the bottom floor structure of FIG. 1A. FIG. 1C is a perspective view of one side of the bottom floor structure 80 of FIG. Fig.

The movable solehouse provided with the technical idea of the present invention is a heating structure having an oven system and a boiler system dual heating structure. The bottom of the bottom structure 80 is formed by placing the H beam type steel frame 20 in a side The steel frame 20 is supported by the pedestal 2 at a certain distance from the ground so that the bottom of the steel frame 20 is not directly closed to the ground surface 1, 10 is installed on one side of the steel frame 20. The base floor 30 is formed at the lower end of the steel frame 20 forming the bottom surface of the floor structure 80, A heat resistant porous panel 41 forms a whale path 40 and a heat resistant Ondol bottom plate 50 is disposed above the perforated panel 41. A fired mortar layer 60 is formed on the Ondol bottom plate, At a height of 1/3 of the height of the fired mortar layer Material in hot water pipe 61 is covered with the back kkalrigo firing mortar layer to an upper layer upper plastic mortar shows that the floor 70 is laid the form of the floor structure 80 with seat can be formed becomes.

As shown in FIG. 1C, the base floor 30 has a laminated structure in the form of a cement board a 31a, a waterproof laminate, and a cement board b 31b. The base floor 30 is fastened with a piece 33 or the like 1B shows that it can be applied to the upper part of the slot 21 of the steel frame 20 and to form the whale path 40 with the heat resistant porous panel 41 on the upper part.

Since the whale road 40 formed by the perforated panel 41 applied in the present application is a technique applied to the prior art, the heat-resistant perforated panel used for forming the furnace and the whale road for heating the direct heating of the existing building is a separate technology A description will be omitted. In the present invention, the Ondol bottom plate 50 provided on the upper part of the perforated panel 41 is provided as a material which is not expanded or contracted by using the Ondol bottom plate 50 obtained by the following manufacturing process.

The Ondol bottom plate 50 applied to the present invention is a heat resistant cement which dissolves impurities in a high temperature condition to achieve a structure in which the heating material of the furnace does not expand or shrink even when high temperature heat in the range of 800 to 1000 ° C is repeated. Alumina cement was used to make a composition containing sintered loess, briquette, ash, CSA (Calcium sulfer aluminate) and calcined shell powder. Wire meshes were built in the center part and then pressed with presses of 1000 tons or more, A bottom plate (50) can be obtained. An embodiment of manufacturing the Ondol bottom plate (50) is as follows.

Manufacturing Example of Ondol Floor Plate (50).

40 kg of alumina cement, 32 kg of calcined loam, 15 kg of briquette material, 10 kg of ash, CSA (Calcium sulfer aluminate) of 2.5 kg, and calcined shell powder of 0.5 kg were mixed and uniformly mixed. × length × height = 50 cm × 50 cm × 5 cm, a half of the mixture was filled, and a wire mesh of 1.2 cm in thickness was arranged at the center, and the remaining mixture was filled, To obtain an Ondol bar thin plate.

In the present invention, the loess soil used for obtaining the above-mentioned ondol bottom plate was a sintered loess which was fired at a high firing temperature of 1000 ° C. for 5 hours or more. In the case where the high temperature heat is repeated because the briquette and the ash material are already used in the high temperature range CSA (Calcium sulfer aluminate) and calcined shell powder which are used in the Ondol bottom plate 50 of the present invention exhibit the characteristics that the flooring material is not expanded or contracted, The Ondol bottom plate (50) applied in this application is 50 cm × 50 cm × 5 cm in size and width × height × height according to the installation specifications of Hwangtobang. May be provided and used.

In order to confirm the far-infrared radiation effect and the deodorizing effect of the Ondol bottom plate provided by the technology of the present invention as a representative of the present invention, the inventor of the present invention was commissioned to the Korea Institute of Construction & As a result of the experiment, the results of the far-infrared radiation effect of Table 1 were obtained.

 division  unit  Test Methods Test result  Far-infrared emissivity  -  KCL-FIR -1005; 2011  0.927  Far-infrared radiation energy  W / ㎡  KCL-FIR -1005; 2011 3.71 × 10 ²

FIG. 2 is a view showing a configuration in which the oven furnace 10 in the movable oven covered by the present invention has the oven mounting portion 42 at the center of the yellow soil, and the heating heat transferred from the oven is uniformly distributed to heat the O2 floor 50 A heat insulating porous material 41 is used to form the whale path 40. In the structure for forming the whale path 40, the heat insulating material 43 is installed at the outer edge A plurality of perforated panels 41 are arranged at intervals of 50 to 60 cm in the form of a partition wall and a heat flow guide hole 44 is installed in the middle to distribute evenly the heated heat through the whale route in a zigzag fashion An application example in which the heat source is uniformly distributed and then flows out to the outlet 45 and the heat is discharged to the chimney.

3 shows that the calcined mortar layer 60, which is provided on the Ondol bottom plate 50 to apply the heating heat of the boiler without applying the heating heat of the oven furnace 10 in the movable oven covered by the present invention, (30 ± 5) parts by weight of the briquette material and 20 ± 5 parts by weight of the volcanic ash (20 ± 5 parts by weight). In order to install the fired mortar layer (60) 62) is provided at a predetermined height, and a metal hot water pipe (61) for supplying heat transmitted from the boiler is laid on a 1/3 level of the calcined mortar layer and the calcined mortar layer is filled again to about 2/3, 60 can be formed. In the drawing, the outside of the inner combustion chamber 62 can be provided with a configuration having a circumferential frame 63 in which the side wall of the obelisk building is later installed.

4 shows an application example of a configuration in which a movable floor covering 80 provided in the present invention is transported to a site and a sidewall and a roof are installed on the floor. Fig. 4 (a) The right side wall 93 and the rear side wall 94 can be made to be combined so as to be jointed in the field, and FIG. 8B shows that the left side wall 92, the right side wall 93, (C) is an embodiment that is adapted to be coupled to the roof 95 in the configuration of (b) above, and FIG. 9 .

5, a floor structure 80 of a portable yellow earth soil to which the technical idea of the present application is applied is conveyed to a site and a left side wall 92, a right side wall 93 and a rear side wall 94 and a door 91a And a front wall 91 having a window are coupled with each other and then a roof 95 is installed at an upper part of the roof 95 to complete a movable ob white space 100. Although not shown in the drawing, The left wall 92, the right side wall 93, the rear side wall 94 and the front wall 91 are made of an inner wall and an outer wall when the outer wall member is used for the inner wall, And a gap of 5 ± 3 cm is formed between the gaps and the gap, and when the gaps are filled with the loess, the basaltic ash, and the briquettes, it can be applied to increase the heat insulation and heat resistance.

As described above, when the Ondol heating structure of the movable ovoid-type building having the furnace system and the boiler system according to the present invention is provided as a double structure, in a situation where the furnace is not always ready to be satisfied according to the site conditions, Prepare 10 firewood to be injected slowly in the early evening and fire the firewood. When all of them are burned and the floor surface of the sleeper falls below 30 ℃ at dawn time, the hot water boiler is controlled to operate and maintained at 35 ± 3 ℃ Embodiments in which an automatic boiler operation system is applied and the user is able to provide the option of injecting firewood into the boiler when needed or using boiler facilities when necessary can be applied in various forms other than those shown in the drawings herein And the technical scope of the present invention is not limited to the above- It is to be understood that the invention is not limited to the disclosed embodiments and that various changes and modifications may be made therein without departing from the spirit and scope of the invention.

1: ground surface (GL line) 2: pedestal
10: Firewood 20: Steel frame
21: Staggered sphere 30: Foundation floor
31: Cement board 32: Waterproof plywood
33: Peace 40: Whale Way
41: perforated panel 42:
43: Insulation 44: Heat flow guide
45: exhaust outlet 50: Ondol bottom plate
60: fired mortar layer 61: hot water piping
62: Internal combustion frame 63: Outside frame
70: Flooring 80: Flooring
90: side wall 91: front wall
92: left side wall 93: right side wall
94: rear side wall 95: roof
100: Movable yellow soil.

Claims (5)

In the Ondol heating structure of a movable building having a dual heating structure of an oven-type and a boiler-type,
A first step of forming a foundation bottom surface 30 above the steel frame,
A second step of forming a whale path 40 with a heat-resistant perforated panel 41 on the base floor surface after the first step process is completed;
The heat resistant Ondol bottom plate 50 is laid on the upper part of the perforated panel 41 where the second step process has been completed. The heat resistant Ondol bottom plate 50 is made of alumina cement 40 ± 5 wt%, loess 32.0 ± 5 wt% ± 5 wt%, ash 10.0 ± 1.0 wt%, CSA (calcium sulfer aluminate) 2.5 ± 0.5 wt%, and calcined shell powder 0.5 ± 0.2 wt% A third step in which the Ondol bottom plate provided by being compressed is installed;
The iron hot water pipe 61 is laid on the floor of the Ondol floor where the third step process is completed and the dough mortar 60 containing the ocher,
Wherein the heating system is provided through a process including the steps of: delete The method according to claim 1,
Wherein the Ondol floor plate is formed with a concave groove for accommodating a hot water pipe at an upper end thereof, and a hot water pipe is installed in the concave groove. In a method of installing a movable obi room,
The base floor 30 of the movable obelisk building is formed by a first step of forming a base bottom surface by laying a heat resistant cement board on the upper part of the steel frame and a second step of forming a base bottom surface of the heat- Heat resistant Ondol bottom plate 50 is laid on the upper part of the perforated panel where the second step process of the whale path 40 and the second step process are completed. The heat resistant Ondol bottom plate is made of alumina cement 40 ± 5 wt%, loess 32.0 ± 5 (0.5 wt%), briquette 15 ± 5 wt%, ash 10.0 ± 1.0 wt%, CSA (calcium sulfer aluminate) 2.5 ± 0.5 wt% and calcined shell powder 0.5 ± 0.2 wt% A third step in which the Ondol bottom plate provided by being compressed by a press of 1000 tons or more is installed and the iron hot water pipe 61 is laid on the Ondol plate upper part where the third step process is completed and the upper part of the Ondol plate includes the loess and the basaltic ash and the briquette The mortar dough (60) A step-by-step process in which an oven-type and a boiler-type double heating structure is installed,
Wherein the movable hearth structure is constructed by moving the double structure of the mobile building constructed in the pre-stage process to the installation site of the movable obturator building, and then installing the wall and the roof to complete the movable obturator building. How to install. 5. The method of claim 4,
In the above-mentioned step, the wall of the movable obturator building has a gap of 5 ± 3 cm between the inner wall and the outer wall, and the gap is filled with yellow earth, basaltic ash and briquette, Wherein the movable obturator building is installed at a predetermined position.

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