KR101540117B1 - A House Heating Unit - Google Patents

Abstract

The present invention relates to a home heating supply system having an ondol structure having a distribution pipe, in particular, a home heating system having a heating device on one side of a house, a distribution device connected to the heating device is provided, A plurality of heat generating tubes are extended and an exhaust device is provided at an end of the heat generating tube to generate heat from the heat generating tube in the operation of forcibly pulling the heat generated from the heat generating device into the exhaust device, And the heating unit is configured to be heated using heat to efficiently heat a plurality of rooms. The present invention relates to a home heating heating system having an ondol structure having a distribution pipe,
A housing 100; A heating device (10) which is installed outside the wall of the house, has a space inside and has a fire directly after inserting firewood for combustion into the space, and the fire is supplied directly into the inside of the house, Wow; The heating device 10 is connected to the heating device 10 through an input line 21 and an output line 23 is provided through a switching valve 22. The heating device 10 receives heat generated by the heating device 10, A dispensing device (20) for dispensing to a point; A heating tube (30) connected through an output line of the distributing device and formed in the shape of a cylindrical pipe, through which a flame and heat generated from the heat generating device and the distributing device are passed to dissipate heat to the outside; A lower heat insulating material 40 installed at a lower portion of the heat generating tube to be heat-sealed; A gravel (50) installed on the upper portion of the heating tube for storing heat; An upper insulating device 60 installed in a portion of the heating pipe 30 connected to the heating device to limit the heat generated from the heating pipe to the upper portion; An exhaust device 70 installed at an outer side of the housing and installed at the output side of the heating tube 30 to induce the heating tube 30 to be heated quickly by forcibly sucking the flame and the heat transmitted through the heating tube 30 )Wow; And a communication pipe (80) connected to an upper portion of the exhaust device.

Description

[0001] The present invention relates to a home heating supply system having an ondol structure having a distribution pipe,

The present invention relates to a home heating supply system having an ondol structure having a distribution pipe, and more particularly to a home heating supply device having a heating device on one side of a house, a distribution device connected to the heating device, A plurality of heat generating tubes of the heat generating tube are extended and an exhaust device is provided at the end of the heat generating tube to generate heat from the heat generating tube in the operation of forcibly pulling the heat generated from the heat generating device into the exhaust device, And the heating unit is configured to be heated using the heat generated by the heating unit to efficiently heat the plurality of rooms.

Ondol heating is a heating system that warms the entire floor with a fire in the oven. It forms a passage in the floor of the room to be connected to the oven, installs a stall in the upper part of the hall, to be.

This kind of ondol heating is performed by heating and discharging the heat for a long time after the hearth is heated by the flame and exhaust gas generated when the fire is burned in the oven, and has a relatively simple structure and a good thermal efficiency .

However, the traditional Ondol heating system is difficult to apply to modern residential facilities such as apartments because the temperature fluctuation is severe and the temperature can not be adjusted according to the distance to the furnace, the construction is relatively difficult and the thickness of the floor is too thick.

Accordingly, modern residential facilities are equipped with a heating system in which piping connected to the hot water tank of the boiler is embedded in the floor. In this type of heating system, it is possible to control the heating temperature and it is easy to construct, but only the water heated by the boiler is used and the waste heat of the exhaust gas generated at the time of operating the boiler is directly discharged, Respectively.

On the other hand, as the level of living has improved due to industrialization, it has become commonplace to use oil boilers generally in rural houses, and since there is no need for reconciliation, In addition, it is not easy to approach, and even if a fire occurs, there is a problem that it is difficult to evolve. Therefore, it is easy to use the grass as a fellowship, and the forests also have a lot of trees Therefore, there is an advantage that wood can be used as the cheapest fuel at present.

However, the heating system of the conventional heating system of the above-mentioned conventional type has a heating function such as a conventional furnace, a fireplace or an oven, and heating the floor by a passageway through which heat and smoke generated by burning firewood in the heating place And a chimney for discharging the smoke from the whale to the outside. In order to form the whale and store the heat to warm the floor, a thin and flat stone, Because the floor is heated by the use of the floor, the floor is heated by the floor, which keeps the heat for a long time. However, it is not easy to obtain the floor that can be used as the floor, but also the floor As well as external impacts are often received, durability There is a problem that when the time passes, the canopy breaks down, and heat or smoke leaks out through these openings.

In order to solve the above-mentioned problems, the present invention provides a furnace type boiler to provide heating, wherein a heating tube is disposed in a plurality of chambers by using a distributing device, and further, the gravel is coated, The present invention aims at providing a boiler device which is more safe and highly efficient by completing the floor construction and providing a ventilation fan to the communication pipe for forced discharge and further installing an upper insulation device to avoid heat generated at the entrance of the furnace. .

As means for achieving the above object,

The present invention relates to a housing (100); A heating device (10) which is installed outside the wall of the house, has a space inside and has a fire directly after inserting firewood for combustion into the space, and the fire is supplied directly into the inside of the house, Wow; The heating device 10 is connected to the heating device 10 through an input line 21 and an output line 23 is provided through a switching valve 22. The heating device 10 receives heat generated by the heating device 10, A dispensing device (20) for dispensing to a point; A heating tube (30) connected through an output line of the distributing device and formed in the shape of a cylindrical pipe, through which a flame and heat generated from the heat generating device and the distributing device are passed to dissipate heat to the outside; A lower heat insulating material 40 installed at a lower portion of the heat generating tube to be heat-sealed; A gravel (50) installed on the upper portion of the heating tube for storing heat; An upper insulating device 60 installed in a portion of the heating pipe 30 connected to the heating device to limit the heat generated from the heating pipe to the upper portion; An exhaust device 70 installed at an outer side of the housing and installed on the output side of the heating tube 30 to induce the heating tube 30 to be heated quickly by forcibly sucking the flame and the heat transmitted through the heating tube 30 )Wow; And a communication port (80) connected to an upper portion of the exhaust device; The upper insulating device 60 is composed of a protective cap 61, a rotary pipe 62, an upper heat insulating material 63 and a feed motor 64. Inside the protective cap 61, The protective cap 61 is in the form of a cylindrical pipe and a rotary pipe 62 and a heating pipe 30 are inserted into the protective cap 61. The rotary pipe 62 And a transfer motor 64 is installed at one end of the rotary pipe 62 so that the upper heat insulating material 63 is rotated inside the protective cap 61. [ to be.

The housing 100 includes a bottom 110 for heating, a wall 120 connected to the top 110 from the bottom 110, and a roof 130 connected to the top of the wall 100 And a connecting ring 140 is installed at one end of the roof body and the entire body is lifted by using the connecting ring so as to be able to flow to the outside.

In addition, the exhaust device 70 is characterized in that a blowing fan is provided therein and is rotated by external electric power supply to suck flame and heat passing through the heat generating tube.

The upper insulator 60 further includes a temperature sensor 65 and a control unit 66. The control unit receives the result of the temperature sensor 65 and rotates the feed motor 64, When the temperature of the upper portion is higher than the reference temperature, the feed motor 64 is rotated so that the upper heat insulation 63 covers the upper portion of the heat generating tube 30. When the temperature of the upper portion of the heat generating tube 30 is lower than the reference temperature, And the feed motor 64 is rotated so as to cover the lower portion of the heating tube 30. [

As described above, according to the present invention, the furnace type boiler is provided so as to heat the furnace, the heating pipes are arranged in a plurality of rooms using the distribution apparatus, the gravel is applied, There is an effect of providing a safer and more efficient boiler device by providing a ventilating fan in the communication and forcing the ventilating fan to vent and for preventing heat generated at the entrance of the furnace.

BRIEF DESCRIPTION OF THE DRAWINGS Fig.
FIG. 2 is a view showing the state where the upper insulating material of the present invention is operated to cover the upper part of the heating tube. FIG.
Fig. 3 is a view showing a state in which the upper insulating material of the present invention is operated so that the upper insulating material surrounds the lower portion of the heating tube.
4 is a power transmission relationship conceptual view of the present invention.
5 is a block diagram of a structure for moving the upper insulation of the present invention.
Fig. 6 is a mobile housing construction diagram of the present invention. Fig.
7 is a view showing a state in which the mobile housing of the present invention is lifted by a crane;
8 is a view showing a state in which a plurality of mobile homes of the present invention are installed.
FIG. 9 is a photograph of a mobile housing according to the present invention in a completed state; FIG.
Fig. 10 is a photograph of a mortar sprayed on a portable house of the present invention. Fig.
Fig. 11 is a photograph showing a roof installed in a mobile house of the present invention. Fig.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. It should be understood, however, that the drawings and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not to be construed as limiting the present invention.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The terms used below are defined in consideration of the functions of the present invention, which may vary depending on the user, intention or custom of the operator. Therefore, the definition should be based on the contents throughout the present invention.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. The configuration is omitted as much as possible, and a functional configuration that should be additionally provided for the present invention is mainly described.

Those skilled in the art will readily understand the functions of the components that have been used in the prior art among the functional configurations that are not shown in the following description, The relationship between the elements and the components added for the present invention will also be clearly understood.

In order to efficiently explain the essential technical features of the present invention, the following embodiments properly modify the terms so that those skilled in the art can clearly understand the present invention, It is by no means limited.

As a result, the technical idea of the present invention is determined by the claims, and the following embodiments are merely illustrative of the technical idea of the present invention in order to efficiently explain the technical idea of the present invention to a person having ordinary skill in the art to which the present invention belongs. .

BRIEF DESCRIPTION OF THE DRAWINGS Fig.

FIG. 2 is a view showing the state where the upper insulating material of the present invention is operated to cover the upper part of the heating tube. FIG.

Fig. 3 is a view showing a state in which the upper insulating material of the present invention is operated so that the upper insulating material surrounds the lower portion of the heating tube.

4 is a power transmission relationship conceptual view of the present invention.

5 is a block diagram of a structure for moving the upper insulation of the present invention.

Fig. 6 is a mobile housing construction diagram of the present invention. Fig.

7 is a view showing a state in which the mobile housing of the present invention is lifted by a crane;

8 is a view showing a state in which a plurality of mobile homes of the present invention are installed.

FIG. 9 is a photograph of a mobile housing according to the present invention in a completed state; FIG.

Fig. 10 is a photograph of a mortar sprayed on a portable house of the present invention. Fig.

Fig. 11 is a photograph showing a roof of a portable housing according to the present invention,

The components of the present invention are roughly divided into a housing 100, a heating device 10, a distribution pipe 20, a heating pipe 30, a bottom insulating material 40, gravel 50, (60), an exhaust device (70), and a communication pipe (80).

The housing 100 is installed in a shape similar to a conventional house structure and includes a bottom 110 for heating, a wall 120 connected to the top 110 from above, And a roof member 130 connected to the roof member 130. The roof member 130 has a connection ring 140 at one end thereof, and the entire body can be lifted to the outside by using the connection ring. In fact, the connecting link is lifted by a crane such as a crane, mounted on a vehicle, and then moved using the vehicle, so that it can be easily installed in a desired place.

The heating device (10) is installed outside the wall of the house, has a space inside and has a structure in which the fire is directly supplied to the inside of the house after inserting firewood necessary for combustion into the space, do. That is, the heating device 10 serves as an arc furnace in a conventional house, and can easily burn various kinds of burned materials such as firewood and other fires, and it is basically made of a hard material enough to withstand the heat.

The distribution device 20 is connected to the heating device 10 through an input line 21 and is provided with an output line 23 through a switching valve 22 and is generated through the heating device 10 And to distribute the heat to the required point.

In the exemplary embodiment of the present invention, three output lines are output through the distribution device, and three rooms may be separately provided through the three output lines as described above.

The switching valve 22 can be configured to be automatically switched according to the temperature of each room. This is similar to the case where the normal hot water boiler controls the inlet of hot water by designating the temperature of each room.

The heating tube 30 is formed in the shape of a cylindrical pipe, and one side of the heating tube 30 is connected through an output line to pass the flame and heat generated from the heating device and the distribution device to dissipate heat to the outside. That is, the heating pipe 30 draws the heat generated by the heating device 10 into the inside of the house, and then heats the floor of the house to transmit warmth to the user.

The lower heat insulating material 40 is installed at a lower portion of the heat generating tube 30 and serves to guide the heat generated from the heat generating tube 30 to the upper side without being diverted to the lower side.

That is, the lower thermal insulation material 40 is installed at a lower portion of the heat generating tube 30 to prevent the heat generated in the heat generating tube 30 from escaping to the lower portion. As a result, the heat generated in the heat generating tube 30 escapes to the outside But only to the bottom of the house.

The gravel (50) is installed on the upper part of the heat generating tube (30) to store heat. That is, the gravel (50) is heated by the heat generated from the heating tube (30), so that even if the operation of supplying heat through the heating tube is lost, the bottom surface of the house continuously emits heat due to the heated gravel do.

The upper insulating device 60 is installed in a part of the heat generating tube 30 connected to the heat generating device and a very strong flame is injected from the heat generating device 10 and the distributing device 20, It is possible to provide too much heat to the floor of the house while being overheated, thereby covering a part of the heat-generating tube 30 to block the heat generated in the heat-generating tube 30. That is, the upper insulating device is installed in a part of the heating pipe 30 to block the heat generated from the heating pipe 30 directly toward the floor of the house, thereby preventing the floor of the house from being excessively heated have.

The exhaust device 70 is installed on the outer side of the house so that the flame and the heat transmitted through the heating pipe 30 are forcibly sucked and installed at the output side of the heating pipe 30 so that the heating pipe 30 is heated quickly . That is, the exhaust device 70 is provided with a blowing fan 71 and is forcibly discharged due to the operation of the blowing fan 71, so that the heat of the heat generating device 10 can be easily transferred to the heat generating tube 30 of the house It comes.

The communication pipe 80 is vertically installed in the exhaust device 70 and serves to eject the smoke or the like generated from the heating pipe 30 to the outside.

The heating device 10 of the present invention as described above is a place such as an eggplant, a fireplace, or an oven, where it directly fires by using firewood or the like.

The flame and the heat are supplied through the heat generating tube 30 connected to the heat generating device 10. When the heat generating tube 10 is heated, The exhaust device 70 to which the output side of the exhaust pipe 70 is connected is operated.

That is, the exhaust device 70 is provided with a ventilating fan 71, and the ventilating fan 71 is rotated to pull out flames and heat generated from the heating device to forcefully discharge the air.

In this process, the inside of the heat generating tube 30 is heated to radiate heat, and the heat radiated from the heat generating tube 30 is diverged while being stored in the gravel 50 disposed at the upper part of the heat generating tube 30.

As a result, heat is supplied for a long time due to the heat accumulated in the gravel after ignition for a short time.

In addition, in the present invention, the lower heat insulating material is installed at the lower part of the heat generating tube (30) to prevent the heat generated in the heat generating tube (30) from escaping to the lower part. The device 60 was installed to block the generation of too hot heat.

The upper insulating device 60 includes a protective cap 61, a rotary pipe 62, an upper heat insulating material 63, and a feed motor 64. Inside the protective cap 61, (30) is passed.

The protective cap 61 is in the form of a cylindrical pipe and a rotary pipe 62 and a heating pipe 30 are inserted into the protective cap 61. An upper insulation member And a transfer motor 64 is installed at one end of the rotary pipe 62 so that the upper heat insulating material 63 is rotated inside the protective cap 61.

That is, a gear 62a is formed inside the rotary pipe 62, and the gear 62a is in contact with the gear 64a of the feed motor 64. Accordingly, when the feed motor 64 is driven, The gear 64a of the motor 64 is engaged with the gear 62a of the rotary pipe 62 so that the rotary pipe 62 is eventually moved.

In the housing of the present invention, the floor 30a is covered with the loess above the heating pipe 20 and the gravel 50 so that the heat generated in the heating pipe 20 heats the loess bottom 30a , The user can sit or lie on the loess bottom 30a to transmit heat to the whole body.

In the housing of the present invention, the bottom of the heating pipe 30 and the gravel 50 is covered with the bottom so that the heat generated in the heating pipe 30 heats the bottom of the loess, It is possible to sit or lie down to transmit heat to the whole body.

Since the heating tube 30 of the present invention is directly heated by the heating device 10, the inlet side can be overheated and can be very hot when the heat is directly transmitted through the upper side. Accordingly, according to the present invention, the upper insulation material is positioned at the upper side of the protection cap 61 at the initial stage of the fire, and the upper insulation material 63 is moved to the lower side after the fire, .

That is, since the heat is generated from the heat generating tube 30 connected to the heat generating device 10 and the distributing device 20 at the beginning of the fire, the upper heat insulating material 63 covers the upper part of the heat generating tube 30, So that the heat generated in the heat generating tube 30 is transferred to the upper portion by covering the lower portion of the heat generating tube 30 with the upper heat insulating material 63. [ It is.

To this end, the present invention rotates the rotary pipe 62 by rotating the feed motor 64, and when the upper heat insulator 63 attached to the rotary pipe 62 rotates, The upper heat insulating material 63 is transferred to the lower portion so as to cover the lower portion of the heat generating tube 30 so that the heat generated from the heat generating tube 30 is transferred to the upper portion.

Of course, the feed motor 64 is provided with a self-housing to be enclosed to protect it from heat generated from the heat generating tube 30. In the present invention, only the operation concept is provided for the sake of explanation.

More preferably, a temperature sensor 65 and a control unit 66 are further attached to the periphery of the heating tube 30, and the feed motor 64 is rotated according to a result of the temperature sensor 65, When the temperature of the upper portion is higher than the reference temperature, the feed motor 64 is rotated so that the upper heat insulation 63 covers the upper portion of the heat generating tube 30. When the temperature of the upper portion of the heat generating tube 30 is lower than the reference temperature, The feed motor 64 is rotated so as to cover the lower portion of the heating tube 30. [

The heat generated by the heat generator 10 is directly transmitted to the yellow soil 30a through the heat generating tube 30. The heat generated by the blower fan 71 constituting the exhaust device 70, So that the internal combustion of the heat generating device 10 can be facilitated by allowing the heat generating tube 30 to be sucked into the heat generating tube 10 by using the heat generating tube 10 and the heat generating tube 30, The upper portion of the heating tube 30 is covered with the upper insulating material 63 so that the excessive heat is prevented from being directly transmitted to the bottom of the yellow soil. When the heat of the heating tube 30 is lowered below a certain level And the heat of the heat generating tube (30) is outputted to the upper part by covering the lower part of the heat generating tube (30).

Accordingly, the efficiency of the boiler is increased, so that the heating can be performed by using firewood or the like. Further, the present invention can be applied to a portable house to carry the house to a desired place and use it easily. For example, It is considered that the efficiency of use will be maximized.

10: Heating device
20: Distribution device
30: Heat pipe
40: Lower insulation
50: Gravel
60: Upper insulation
61: Protective cap
62: Rotary tube
63: Upper insulation
64: Feed motor
65: Temperature sensor
66:
70: Exhaust system
80: communication

Claims (4)

A housing 100; A heating device (10) provided outside the wall of the house, having a space inside thereof, directly burning after inserting a firewood necessary for combustion into the space, and supplying the fire directly to the inside of the house, Wow; The heating device 10 is connected to the heating device 10 through an input line 21 and an output line 23 is provided through a switching valve 22. The heating device 10 receives heat generated by the heating device 10, A dispensing device (20) for dispensing to a point; A heating tube (30) connected through an output line of the distributing device and formed in the shape of a cylindrical pipe, through which a flame and heat generated from the heat generating device and the distributing device are passed to dissipate heat to the outside; A lower heat insulating material 40 installed at a lower portion of the heat generating tube to be heat-sealed; A gravel (50) installed on the upper portion of the heating tube for storing heat; An upper insulating device 60 installed in a portion of the heating pipe 30 connected to the heating device to limit the heat generated from the heating pipe to the upper portion; An exhaust device 70 installed at an outer side of the housing and installed at the output side of the heating tube 30 to induce the heating tube 30 to be heated quickly by forcibly sucking the flame and the heat transmitted through the heating tube 30 )Wow; And a communication port (80) connected to an upper portion of the exhaust device;
The upper heat insulating device (60)
A protective cap 61, a rotary pipe 62, an upper heat insulating material 63 and a feed motor 64. The heating cap 30 is passed through the protective cap 61,
The protective cap 61 is in the form of a cylindrical pipe and a rotary pipe 62 and a heating pipe 30 are inserted into the protective cap 61. An upper insulation member 63) are joined to one another and a transfer motor (64) is provided at one end of the rotary pipe (62) so that the upper insulation member (63) is rotated inside the protective cap (61) Of the home heating supply. The method according to claim 1,
The housing (100)
A floor body 110 for heating, a wall body 120 connected to the upper side of the bottom body 110, and a roof body 130 connected to the upper part of the wall body, The housing heating apparatus according to any one of claims 1 to 7, wherein the connecting ring (140) is installed and the entire body is lifted using the connecting ring to flow to the outside. The method according to claim 1,
The exhaust device (70)
Wherein the blower fan is installed inside the furnace and is rotated by external electric power supply to suck flame and heat passing through the heating tube. The method according to claim 1,
The upper insulator 60 further includes a temperature sensor 65 and a control unit 66. The control unit receives the result of the temperature sensor 65 and rotates the feed motor 64, When the temperature of the upper portion is higher than the reference temperature, the feed motor 64 is rotated so that the upper heat insulation 63 covers the upper portion of the heat generating tube 30. When the temperature of the upper portion of the heat generating tube 30 is lower than the reference temperature, And the feed motor (64) is rotated so as to cover the lower portion of the heating tube (30).

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