KR101380867B1 - Combustion type boiler - Google Patents

Abstract

An embodiment of the present invention is a combustion type that facilitates drawing out of briquettes and is easy to use, and improves thermal efficiency by distributing the supplied air after primary heating by a combustion furnace and secondary heating by exhaust gas in a storage unit. It relates to a heating device.

Description

Combustion type boilers {Combustion type boiler}

The present invention relates to a combustion type heating apparatus.

Generally, a small-sized heating device is a device for heating a room or a specific space, and it is heated by putting fuel such as oil, coal, briquette, and firewood for combustion and heating by using heat or heat Device.

Such combustion-type heating devices are mainly used in facility cultivation or horticultural farms, and heating devices using briquettes having low fuel prices and excellent thermal power are actively used.

In a heating apparatus using such briquettes, the briquettes are usually burned in the combustion chamber, and the interior space is heated using the heat generated at this time, or the water is heated using the combustion chamber heat, and the heated water is moved. It is common to have a structure which embeds and heats.

Korean Patent Registration No. 10-0848455 discloses a heating apparatus using briquettes capable of heating variously to one heating unit by efficiently utilizing the heat of combustion of briquettes.

In detail, the heating device using the briquettes of Korean Patent No. 10-0848455 includes a combustion part having a crucible in which an upper part is opened and containing briquettes, and a heating part provided in the periphery of the crucible to be heated by the combustion heat of the briquette, And a second heating chamber detachably mounted on the upper portion of the combustion unit and having an air inlet and an air outlet. The second heating chamber is connected to the first heating chamber, It characterized in that the through-hole is formed to penetrate up and down to exhaust the.

However, in such a heating device, not only the air is heated by the heat moved upwards among the heat generated when the briquettes are heated, but also the heat that is discharged is configured to be discharged after being heated only in the chamber which is a short path. There is a problem that the efficiency of the air falls.

In addition, in order to put the briquettes in or out again after the start of the combustion or the completion of the combustion, the waste gas collecting part and the second heating chamber can be completely lifted and the operation becomes feasible. In order to lift the second heating chamber, there is a problem that a separate facility is necessary.

An object of the present invention is to provide a combustion-type heating device that facilitates the drawing out of briquettes, which is easy to use, and which improves thermal efficiency by discharging the supplied air by secondary heating.

Combustion type heating apparatus according to an embodiment of the present invention, a plurality of combustion furnaces in which briquettes for charging the combustion is arranged, the combustion unit opening the inlet of the combustion furnace to the upper surface; A storage unit provided above the combustion unit to form a space in which air to be heated is accommodated, and at least partially opened and closed to expose the combustion furnace; An air heating pipe wound continuously along the circumference of the furnace and having an outlet in communication with the reservoir, guiding the flow toward the inside of the reservoir after the internal air is first heated by the heat of the furnace surface; ; And at least a part of the air is introduced into the storage part and then extends to the outside of the storage part again so that the exhaust gas of the combustion path secondarily heats the inside air of the storage part inside the storage part Exhaust gas pipes discharged to the outside; A blower forcibly supplying outside air to the combustion unit and the storage unit; A combustion-side supply pipe connecting the blower and the air heating pipe to forcibly supply outside air to the air heating pipe; A storage part supply pipe connecting the blower and the storage part; And a hot air discharge pipe communicating with one side of the storage part and guiding the hot air inside the storage part to be forced to the outside by driving the blower.

The storage unit may further include a storage unit door that opens and closes the storage unit to facilitate access to the combustion furnace.

The air heating pipes provided in the plurality of combustion furnaces are configured to communicate with each other.

The exhaust gas pipe is bent many times inside the storage portion and extends so as to cross the inside of the storage portion so that the exhaust gas flows in the region of the storage portion for a sufficient time.

The outer periphery of the combustion furnace is characterized in that the water heating pipe for flowing the water supplied from the outside is wound a plurality of times.

The water heating pipe and the air heating pipe is characterized in that arranged alternately with each other.

A pump provided outside the combustion unit to supply water to the combustion unit, a water supply pipe connecting the outlet of the pump and the water heating pipe, and an inlet of the water heating pipe and the pump outside the combustion unit. A water discharge pipe for connecting is further provided, wherein the water to be heated is configured to circulate the pump and the water supply pipe, the water heating pipe, and the water discharge pipe.

The water discharge pipe extends to a remote heating position, and is embedded in a floor or a wall.

The water discharge pipe extends to a remote heating position, and is characterized by supplying heat to the heating position by a radiator or a blower.

The hot air discharge pipe extends to a remote heating position and is branched into a plurality of heating positions.

The hot air discharging pipe extends to a heating position of a remote location, characterized in that a plurality of outlets through which heat is discharged is formed.

According to the proposed embodiment, the air supplied from the blower is first moved along the air heating pipe wound along the circumference of the furnace to be heated and received in the storage unit, and the exhaust gas disposed to pass through the storage unit. Secondary heating by piping. Thus, the first and second heated heat is discharged into the space for heating, thereby minimizing heat loss and increasing heating efficiency.

Particularly, since the air supplied from the outside is heated while being moved along the air heating pipe wound around the periphery of the combustion section, it can be heated by the combustion furnace for a sufficient time and can be heated effectively through a plurality of combustion furnaces, The efficiency can be maximized.

In addition, since the exhaust gas is subjected to heat exchange in the storage unit, the temperature is relatively low in the final exhaust state, thereby eliminating safety accidents and emotional complaints caused by the exhaust gas.

In addition, since the secondarily heated exhaust gas is heat-exchanged through the exhaust gas pipe through the exhaust gas pipe, it can be heated without being mixed with the air inside the storage unit and discharged to the space for heating. Can be solved.

The exhaust gas pipe is continuously bent inside the storage part, so that the exhaust gas can stay in the storage part for a sufficient time and can be heat-exchanged with the air inside the storage part, so that the heat exchange efficiency can be further improved.

In addition, one blower is connected to each of the combustion unit and the storage unit by branched pipes so as to supply air for heating to the combustion unit and discharge the heated air contained in the storage unit. There is an advantage that can be lost.

In addition, auxiliary heating can be performed by a water discharge pipe at a remote place by a water heating pipe and a pump that are wound around a combustion furnace, and can be connected to a device such as a radiator to enable auxiliary heating, There is an advantage that heating is possible.

1 is a diagram of a combustion-type heating apparatus according to an embodiment of the present invention.
2 is a perspective view showing an open state of the door of the combustion heating device.
3 is a perspective view showing the left side of the combustion type heating apparatus.
4 is a perspective view showing the right side of the combustion-type heating device.
5 is a perspective view showing a configuration of a combustion unit of the combustion heating apparatus.
6 is a view showing the overall air flow and the flow of hot water of the combustion-type heating device.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, it should be understood that the present invention is not limited to the embodiment shown in the drawings, and that other embodiments falling within the spirit and scope of the present invention may be easily devised by adding, .

1 is a diagram of a combustion-type heating apparatus according to an embodiment of the present invention. 2 is a perspective view showing an open state of the door of the combustion type heating apparatus. 3 is a perspective view showing the left side of the combustion-type heating apparatus. 4 is a perspective view showing the right side of the combustion-type heating apparatus. And, Figure 5 is a perspective view showing the configuration of the combustion section of the combustion type heating apparatus.

1 to 5, a soft heating device 1 according to an embodiment of the present invention includes a main body 10 having a combustion unit 20 and a storage unit 30 as a whole, A blower 40 for blowing air into the inside of the pump, a pump 60 for supplying water, and a plurality of pipes connecting the blower 40 and the inside of the pump 60 and the main body 10 to be constructed. Can be.

Looking at this in more detail, the main body 10 is formed in a substantially rectangular parallelepiped shape, the combustion unit 20 is formed at the bottom, and the storage unit 30 is formed at the top. The combustion unit 20 and the storage unit 30 may be formed of a metal material and may be partitioned up and down.

The combustion unit 20 is a portion in which combustion raw materials such as briquettes are burned, and a plurality of combustion furnaces 21 may be continuously arranged. The combustion furnace 21 is formed in a cylindrical shape with an upper opening, and is disposed so that only an inlet portion which is embedded in the combustion unit 20 and opened to the upper surface of the combustion unit 20 is exposed.

The burning furnace 21 may be formed to have a diameter corresponding to the size of the burnt briquettes and may be formed to have a predetermined depth to accommodate a plurality of burnt briquettes in a laminated state. In addition, the opened upper surface of the combustion furnace 21 may be configured to be opened and closed by the combustion furnace lid 213.

The combustion furnace 21 may be formed of a metal material having excellent thermal conductivity. As shown in FIG. 5, the air heating pipe 51 and the water heating pipe 52 are wound around the outer circumference of the combustion furnace 21. Is formed. In this case, the air heating pipe 51 and the water heating pipe 52 may also be formed of a material having excellent thermal conductivity. Therefore, the air and water supplied from the outside moves along the circumference of the combustion furnace 21 to have a structure that can be heated by the heat generated in the combustion furnace 21 when the combustion furnace 21 is operated. .

In addition, an inlet 211 through which outside air is introduced is formed in the lower portion of the combustion furnace 21, and an outlet through which the exhaust gas generated in the combustion furnace 21 is discharged. 212 may be formed. In addition, the outlet 212 is configured to be connected to the exhaust gas pipe 22 to be discharged to the outside.

The plurality of combustion furnaces 21 may be continuously arranged in the horizontal direction, the air heating pipe 51 and the water heating pipe 52 and the exhaust gas pipe 22 provided in the plurality of combustion furnace 21 is It may be configured to be in communication with each other.

In addition, a heat insulating material (not shown) is filled between the case forming the outer appearance of the combustion unit 20 and the combustion furnace 21. Therefore, heat generated in the combustion unit 20 may be completely transmitted to the air heating pipe 51 and the water heating pipe 52, and may minimize heat loss leaking to the outside of the main body 10. Will be. The insulation may be composed of flame retardant glass fibers or styrofoam, and may be configured to be filled with a foam.

On the other hand, the upper surface of the combustion unit 20 is exposed to the inside of the storage unit 30, the upper surface of the combustion unit 20, the combustion furnace lid for opening and closing the opened upper surface of the combustion furnace 21 ( 213 and the outlet 511 of the air heating pipe 51 are exposed. Therefore, the air inside the air heating pipe 51 heated by the combustion furnace 21 is introduced into the storage unit 30 through the outlet 511.

The storage unit 30 is provided above the combustion unit 20. The storage unit 30 may be formed of a metal material as a space for storing heated air for discharging to the outside. The storage unit 30 may be formed of a plate-shaped material and may extend from the upper end of the combustion unit 20 to have an integrated feeling as a whole with the combustion unit 20.

The storage unit 30 forms a space for storing air therein, and each surface is thermally insulated to prevent the stored air from being cooled by heat exchange with external air.

At least a portion of the front surface of the storage unit 30 may be formed to be opened, and the opened front surface of the storage unit 30 may be opened and closed by the storage unit door 31. The storage unit door 31 is formed from an upper end to a lower end of one surface of the storage unit 30, and is configured to form most of the front surface of the storage unit 30. The storage unit door 31 is hinged to an upper end thereof, and rotates about the upper end of the storage unit door 31 as an axis, and opens and closes the storage unit 30.

Therefore, the entire interior of the storage unit 30 can be exposed when the storage unit door 31 is opened. In particular, the upper surface of the combustion unit 20 can be exposed through the open front of the storage unit 30 Allow exposure. Therefore, all the briquettes in the combustion furnace 21 are burned out, or in order to insert new briquettes, the storage door 31 is opened to expose the internal space of the storage part 30, and then the combustion furnace lid ( 213 can be opened to work.

Although not shown, the storage door 31 may be provided with a locking device to prevent the storage door 31 from being randomly opened, and a door handle may be provided to prevent the storage door 31 from being opened. Opening and closing may be facilitated.

On the other hand, an outer side of the main body 10 is provided with a blower (40). The blower 40 is forcibly supplying external air to the inside of the main body, a blower which is generally used may be used.

The combustion unit side supply pipe 41 and the storage side supply pipe 42 may be connected to the outlet of the blower 40. The combustion-side supply pipe 41 extends from the outlet of the blower and communicates with the air heating pipe 51 which winds up the circumference of the combustion furnace 21 in the combustion unit 20.

Therefore, the external air forcibly supplied by the drive of the blower 40 is moved along the air heating pipe 51 via the combustion-side supply pipe 41. At this time, since the air heating pipe 51 is wound around the combustion unit 20, the air moving upward along the air heating pipe 51 is continuously heated, Through the 511 can be discharged to the storage unit 30.

On the other hand, the combustion-side supply pipe 41 is connected to the air heating pipe 51 of the lower part of the combustion furnace 21, the air introduced into the contact area with the combustion furnace 21 by moving upward from the lower part of the combustion furnace. It may be configured to discharge to the storage unit 30 after maximizing.

In addition, the air heating pipes 51 disposed in the plurality of combustion furnaces 21 may be connected to each other, and the air heating pipes 51 at positions close to the combustion-side supply pipes 41 are connected to each other, and then to each other. Air heating piping 51 on the adjacent combustion furnace 21 may be configured to be connected to each other.

Of course, if necessary, the combustion-side supply pipe 41 is extended to the inside of the combustion unit 20, and the extended portion is branched and the air heating pipe 51 provided in the plurality of combustion furnaces 21. It may be configured to be connected to each).

On the other hand, the storage side supply pipe 42 is directly connected to the outlet of the blower 40, or branched from the combustion unit side supply pipe 41 and extended to the storage unit 30, the storage unit 30 It may be configured to communicate with the inside of.

The storage side supply pipe 42 supplies external air forcibly supplied by the blower 40 to the inside of the storage unit 30, and the heated air stored in the storage unit 30 is stored in the storage unit. It is to be forcibly discharged through the hot air discharge pipe 43 provided on the other side of (30).

That is, the continuous supply of air heated in the combustion unit 20 by driving the blower 40 and discharge of the outside of the main body 10 of the heated air stored in the storage unit 30 can be simultaneously performed. .

The hot air discharge pipe 43 is provided on the other side of the storage unit 30 opposite to one surface of the storage unit 30 to which the storage unit supply pipe 42 is connected, and communicates with the storage unit 30. It is composed. The hot air discharge pipe 43 extends to a predetermined length and is configured to supply heated air to a position where heating is required. In addition, the hot air discharge pipe 43 may be configured to have a plurality of outlets or branched to distribute and supply heat to a desired space for heating.

The supply of the heat through the blower 40 can be performed only when the blower 40 is in operation. For this purpose, the user can directly set the on / off state of the blower 40. And, if necessary, it can be automatically controlled by a timer or a temperature sensor, and can be controlled to automatically heat at a desired time or temperature.

On the other hand, the outer side of the main body 10 may be further provided with a pump (60). The pump 60 may be configured to supply water to the inside of the combustion unit 20 to heat it, and to send the heated water to a remote place to be heated.

A water supply pipe 61 is provided at an outlet of the pump 60, and the water supply pipe 61 extends inside the main body 10 to be provided in the combustion furnace 21. ). In this case, the water heating pipes 52 provided in the plurality of combustion furnaces 21 may be connected to each other, so that the water supplied from the pump 60 may be heated while passing through the respective combustion furnaces 21. It can be configured to be. Of course, if necessary, the water supply pipe 61 may be extended to the inside of the combustion unit 20 and the water supply pipe 61 may be branched to be individually connected to the respective combustion furnaces 21. .

On the other hand, a water discharge pipe 62 through which the heated water is discharged from the combustion furnace 21 is extended to one side of the other side of the storage unit 30 to which the water supply pipe 61 is connected . The water discharge pipe 62 is connected to the respective water supply pipes 61 so that heated water is discharged to the outside of the main body 10 and can be extended to a position where heating is required.

The water discharge pipe 62 may be buried in an area requiring heating to be heated, or connected to a device such as a radiator 63 for heating, and supply heat to a space for heating by a fan. It may be configured in various forms.

In addition, the water discharge pipe 62 may be connected to the inlet of the pump 60 again to heat the remote location, and then may be supplied to the combustion unit 20 and heated again through the pump 60. . That is, the pump 60, the water supply pipe 61, the water heating pipe 52, and the water discharge pipe 62 are connected to each other and the water to be moved along the inside can be circulated.

On the other hand, the air heating pipe 51 and the water heating pipe 52 winding the combustion furnace 21 may be disposed in succession to each other, so as to alternately contact each other along the circumference of the combustion furnace 21. Can be deployed. Of course, arrangement | positioning of the said air heating pipe 51 and the water heating pipe 52 which wind the said combustion furnace 21 can be adjusted as needed. In addition, the water discharge pipe 62 may be filled with a material capable of heat transfer in addition to water.

An inlet 211 through which external air required for combustion is introduced may be formed at one lower side of the combustion furnace 21. The inlet 211 may be connected to the outside through the bottom or the outside of the main body 10, the outside air is configured to be supplied to the interior of the combustion furnace (21).

The upper side of the combustion furnace 21 may be connected to the exhaust gas pipe 22. The exhaust gas pipe 22 is for discharging high temperature exhaust gas generated in the combustion furnace 21 and may be configured to be in communication with an upper portion of each combustion furnace 21.

The exhaust gas pipe 22 extends upward and then is guided into the storage unit 30. The exhaust gas pipe 22 extends horizontally from one end of the storage unit 30 to the other end of the storage unit 30, and then is bent again to extend in the horizontal direction. And extends out of the storage unit 30.

At this time, the exhaust gas pipe 22 is configured to be bent a plurality of times in the storage unit 30 so that the exhaust gas inside the exhaust gas pipe 22 stays in the storage unit 30 for a long time as much as possible. Is configured to be able to extend to the outside of the storage unit 30 is configured to be discharged to the outside of the main body (10).

Therefore, the air stored in the space inside the storage unit 30 by the exhaust gas pipe 22 may be heated secondly, and the exhaust gas may also exchange heat with the air stored in the storage unit 30. It is possible to discharge to the outside in a somewhat cooled state.

Hereinafter, the operation of the combustion type heating apparatus according to the embodiment of the present invention having the configuration as described above will be described.

6 is a view showing the overall air flow and the flow of hot water of the combustion-type heating device.

Referring to FIG. 6, first, the storage unit door 31 is opened to operate the combustion type heating device 1, and the combustion furnace lid 213 is opened to open the combustion furnace 21. . In this state, briquettes for combustion are put. After filling the inside of the combustion furnace 21 with briquettes, the burning lid 213 is closed and the storage door 31 is closed in order to complete the preparation for driving.

In this state, when the combustion is made in the combustion furnace 21, the blower 40 is driven. By driving the blower 40, external air may be forcedly supplied to the combustion unit 20 and the storage unit 30.

In detail, by the operation of the blower 40, external air flows to the air heating pipe 51 through the pipe of the combustion unit 20, and moves along the air heating pipe 51 to the combustion furnace 21. Heated by).

The plurality of air heating pipes 51 are supplied with air through the combustion-side supply pipe 41, and the air primarily heated by the combustion furnace 21 is the respective air heating pipes 51. It is supplied into the storage unit 30 through the outlet 511 of the. The heated air thus supplied is accommodated inside the storage unit 30.

On the other hand, the high-temperature exhaust gas generated in the combustion furnace 21 passes through the inside of the storage unit 30 through the exhaust gas pipe. In this case, since the exhaust gas pipe 22 is bent a plurality of times, the hot exhaust gas moves along the exhaust gas pipe 22 to secondaryly heat the heated air in the storage unit 30. It becomes possible.

In addition, since the exhaust gas is moved along the exhaust gas pipe 22, the exhaust gas may be discharged to the outside through an independent path without mixing with the air heated in the storage unit 30. Further heating is possible without contaminating the heated heating air.

Meanwhile, air is forcedly supplied into the storage unit 30 through the storage unit side supply pipe 42 at the same time as the blower 40 operates. In addition, the air forcedly supplied by the blower 40 pushes the heated air inside the storage unit 30 to the first and second interiors of the storage unit 30 through the hot air discharge pipe 43. The heated air can be discharged to the outside of the main body 10. As such, the air flowing through the hot air discharge pipe 43 may be supplied to a space for heating at a remote location, and the temperature of the indoor space may be increased.

When the pump 60 is operated, water is supplied to the water heating pipe 52 through the water supply pipe 61 connected to the pump 60. The water that is moved along the water heating pipe 52 is heated by the combustion furnace 21 and the heated water of the water heating pipe 52 provided in each combustion furnace 21 is discharged It is discharged to the outside of the main body 10 through a pipe 62. The heated water supplied to the space for remote heating by the water discharge pipe 62 is embedded to increase the temperature of the desired space, or to increase the temperature of the indoor space by the radiator 63 or the fan.

The water heat exchanged through the water discharge pipe 62 is supplied to the inlet side of the pump 60 again, and flows to the water supply pipe 61 again through the pump 60 to continuously circulate while heating. do.

1. Combustion type heating system 10. Main body
20. Combustion unit 21. Combustion furnace
22. Exhaust gas piping 30. Storage
31. Storage door 40. Blower
41. Combustion side supply piping 42. Storage side supply piping
43. Hot exhaust line 51. Air heating line
52. Water heating piping 60. Pump
61. Water supply piping 62. Water discharge piping

Claims (11)

A combustion unit having a plurality of combustion furnaces in which briquettes for combustion are charged, and an inlet of the combustion furnace is opened at an upper surface thereof;
A storage unit provided above the combustion unit to form a space in which air to be heated is accommodated, and at least partially opened and closed to expose the combustion furnace;
An air heating pipe wound continuously along the circumference of the furnace and having an outlet in communication with the reservoir, guiding the flow toward the inside of the reservoir after the internal air is first heated by the heat of the furnace; ;
Communicate with the combustion furnace, at least a portion of which flows into the storage unit, and then extends to the outside of the storage unit, and exhaust gas of the combustion furnace heats the air inside the storage unit in the storage unit secondly; Exhaust gas pipes discharged to the outside;
A blower forcibly supplying outside air to the combustion unit and the storage unit;
A combustion-side supply pipe connecting the blower and the air heating pipe to forcibly supply outside air to the air heating pipe;
A storage part supply pipe connecting the blower and the storage part; And
And a hot air discharging pipe communicating with one side of the storage part and guiding the heat inside the storage part to be forced to the outside by driving the blower.
The method according to claim 1,
The storage unit further comprises a storage unit door for opening and closing the storage unit to facilitate the access to the combustion furnace further comprises.
The method according to claim 1,
Combustion heating apparatus characterized in that the air heating pipes provided in the plurality of combustion furnaces are configured to communicate with each other.
The method according to claim 1,
The exhaust gas pipe is bent a plurality of times inside the storage unit, it is extended to cross the inside of the storage unit combustion type heating apparatus, characterized in that the exhaust gas flows in the region of the storage for a sufficient time.
The method according to claim 1,
Combustion type heating apparatus, characterized in that the water heating pipe for flowing the water supplied from the outside is wound around the outside of the combustion furnace a plurality of times.
6. The method of claim 5,
Combustion heater, characterized in that the water heating pipe and the air heating pipe are alternately arranged with each other.
6. The method of claim 5,
A pump provided outside the combustion unit to supply water to the combustion unit;
A water supply pipe connecting the outlet of the pump and the water heating pipe;
Further provided with a water discharge pipe connecting the inlet of the water heating pipe and the pump outside the combustion unit,
The heated water is a combustion heater, characterized in that configured to circulate the pump and the water supply pipe, water heating pipe, water discharge pipe.
The method of claim 7, wherein
The water discharge pipe extends to a heating position of a remote location, characterized in that the heating device is embedded in the floor or wall.
The method of claim 7, wherein
The water discharge pipe extends to a remote heating position, the combustion type heating device, characterized in that for supplying heat to the heating position by a radiator or a blower.
The method according to claim 1,
The hot air discharge pipe is extended to a heating position of the remote location, characterized in that the branched into a plurality of heating positions.
The method according to claim 1,
The hot air discharging pipe extends to a heating position of a remote location, characterized in that a plurality of outlets through which heat is discharged is formed.

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