KR101297965B1 - Briquet boiler - Google Patents

Abstract

PURPOSE: A briquette boiler is provided to drastically improve efficiency in heating hot water and to conveniently replace a briquette. CONSTITUTION: A briquette boiler includes a main body (10), an upper cover (20), a side heat medium pipeline (30), and an upper heat medium pipeline (40). The main body having multiple stoves is charged with multiple briquettes. The upper cover at the upper side of the main body is opened or closed. The side heat medium pipeline covers the sides of the stoves. The upper heat medium pipeline at the upper sides of the stoves communicates with the side heat medium pipeline.

Description

Briquette Boiler {BRIQUET BOILER}

The present invention relates to a briquette boiler, and more particularly, to a briquette boiler that can greatly improve the heat exchange efficiency of water, which is a heat medium, and simplify briquette replacement.

Briquette boiler burns briquettes as a raw material and supplies hot water to a heating place such as ondol by heating the heat medium water by the heat of combustion of such briquettes. By heating the hot water and supplying it to a heating place such as ondol.

Briquettes are less clean than other heat sources, but they are easy to use and very economical, and have been used for cooking and heating for a long time. By using the heat sources of briquettes, not only farmhouses such as vinyl houses, flower gardens, poultry farms, etc., but also large houses and restaurants are used as direct heating or indirect heating by boilers. It has contributed greatly.

On the other hand, in recent years, the economic burden of oil and natural gas prices have increased, which makes it difficult for the common people and farmers to cope with rising heating costs, and thus the demand for briquette boilers is increasing relatively recently.

However, the conventional briquette boiler has a small area where the heat medium (water) is in contact with the furnace, and the time for which the heat medium (water) stays in the periphery of the oven is short. The heat exchange efficiency of the water) is not substantially high, there is a disadvantage that the heating efficiency is lowered.

In addition, the conventional briquette boiler has a disadvantage that the replacement operation is very inconvenient during periodic replacement of the briquettes.

The present invention has been devised in view of the above, and spatially heat circulates the heat medium (water) with a wider thermal contact area in the vicinity of the oven, and heat medium (water) for more time in the vicinity of the oven. It is an object of the present invention to provide a briquette boiler in which the heat exchange efficiency of the heat medium (water) can be greatly improved by retaining.

Briquette boiler according to the present invention for achieving the above object, the main body having a plurality of stoves are charged with a plurality of briquettes; An upper cover installed on the upper part of the main body so as to be opened and closed; A side heat medium pipe disposed to surround the sides of the fire ovens; And an upper heat medium pipe line disposed on the upper side of the furnaces and connected to communicate with the side heat medium pipe path, wherein the side heat medium pipe path supplies a heat medium to a heat medium inlet line and a heating place where a heat medium flows from a heating place. A supply line is connected, and the side heat pipe line comprises a first outer pipe wound in a spiral direction around a vertical line, and a first inner pipe wound in a spiral direction from the inside of the first outer pipe, and the upper heat pipe line And a second inner pipe wound in a spiral direction around a horizontal line, and a second inner pipe wound in a spiral direction from the inside of the second outer pipe.

The spiral direction of the first outer pipe and the spiral direction of the first inner pipe are opposite to each other, and the spiral direction of the second outer pipe and the spiral direction of the second inner pipe are opposite to each other.

The first outer pipe and the first inner pipe of the side heat pipe line are installed in the main body, the second outer pipe and the second inner pipe of the upper heat pipe line are installed in the upper cover, and the first outer pipe and the The second outer pipe is communicatively connected to each other through a first connection hose, and the second outer pipe and the second inner pipe are communicatively connected to each other in the upper cover, and the second inner pipe and the The first inner pipe is characterized in that it is connected to each other via a second connection hose.

The first and second connection hoses are ducts for communicating side heating medium lines and upper heating medium lines outside the main body and the upper cover, and the upper cover and the main body of the upper cover when the upper cover moves backward from the main body. It is preferred to have a length that allows for separation.

A guide unit for guiding forward and backward movement of the upper cover is installed at an adjacent edge side of the main body and the upper cover, and the guide unit is a pair of supports symmetrically installed at the upper left / right edge side of the main body. The frame, a pair of guide rods fixed to the upper surface of each support frame, and at least two pairs of guide rollers symmetrically installed on the lower left and right edge of the upper cover.

According to the present invention, by constituting the side heat medium passage disposed on the side of the ovens and the upper heat medium passage disposed on the top of the ovens, the heat medium water is generated by the heat of combustion and the heat of combustion while moving water through the side heat medium passage and the upper heat medium passage It can be heated several times by the rising hot air of the heated heat, thereby allowing the heat medium to circulate through the heat contact area with a wider thermal contact area in the vicinity of the furnace, and for a longer time in the vicinity of the furnace. Retaining (water) has the advantage of greatly improving the heat exchange efficiency of the heat medium.

In addition, the present invention has the advantage that the briquettes can be replaced very easily as the upper cover is installed to move back and forth to open and close the top of the body.

1 is a perspective view showing a briquette boiler according to an embodiment of the present invention, a state in which the upper cover is advanced to close the upper portion of the main body.
2 is a perspective view showing a briquette boiler according to an embodiment of the present invention, the upper cover is a view showing a state in which the upper portion of the main body closed.
3 is a side view showing a briquette boiler according to an embodiment of the present invention.
4 is a cross-sectional view taken along line AA in Fig.
Figure 5 is a front sectional view showing a briquette boiler according to an embodiment of the present invention.
FIG. 6 is a cross-sectional view taken along line BB of FIG. 5.
7 is a view showing only the connection structure of the side heating medium pipe and the upper heating medium pipe in the briquette boiler of the present invention.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail. For reference, the size of the components, the thickness of the line and the like shown in the drawings referred to to explain the present invention may be somewhat exaggerated for ease of understanding. In addition, terms used in the description of the present invention are defined in consideration of the functions in the present invention, and may vary according to a user, an operator's intention, customs, and the like. Therefore, the definition of this term should be based on the contents of this specification as a whole.

1 to 7 are diagrams illustrating briquette boilers according to an embodiment of the present invention.

As shown in the drawings, the briquette boiler according to the present invention is a main body 10, a plurality of ovens 12 are installed, the upper cover 20, the ovens 12 of the top and the cover is installed to be opened on top of the main body 10 It includes a side heating medium pipe 30 and the upper heating medium pipe 40 disposed on the upper side of the oven 12 to surround the side.

As shown in FIGS. 1 and 2, a plurality of ovens 12 are installed in the main body 10, and the plurality of ovens 12 may be configured in three rows, similar to a general briquette boiler. The number and placement relationship can vary. An upper end of each oven 12 is opened, and thus a plurality of briquettes 11 may be charged into each oven 12.

The upper cover 20 is installed to open and close the upper portion of the main body 10 as it moves in the front-rear direction from the upper portion of the main body 10, and thus the open upper ends of the ovens 12 may be opened and closed. In addition, when the upper cover 20 closes the upper portion of the main body 10, the airtightness must be configured to ensure the airtightness, and thus, harmful gases such as carbon monoxide may be prevented from leaking to the outside. In addition, a handle 21 is installed at one front side of the upper cover 20, and the opening and closing of the upper cover 20 may be facilitated through the handle 21.

In addition, the guide unit 50 for guiding the front and rear movement of the upper cover 20 is installed on the adjacent edge side of the main body 10 and the upper cover 20.

The guide unit 50 includes a pair of support frames 51 symmetrically installed on the upper left / right edge side of the main body 10, and a pair of guide rods 52 fixed to the upper surface of each support frame 51. At least two pairs of guide rollers 53 are symmetrically installed at the lower left and right edges of the upper cover 20.

The support frame 51 extends in the horizontal direction from the upper left / right edge side of the main body 10. As illustrated in FIG. 4, the support frame 51 may have various rectangular cross sections, such as a rectangular cross section.

The guide rod 52 extends in the horizontal direction through welding or the like on the upper surface of each support frame 51, the guide rod 52 may be formed in a circular cross section as illustrated in FIG. In addition, the guide rod 52 may have a length substantially the same as the support frame 51.

On the other hand, when the upper cover 20 is applied to the structure that completely opens the upper portion of the body 10, as shown in Figure 3, each length (L) of the support frame 51 and the guide rod 52 is The width W1 of the main body 10 and the width W2 of the upper cover 20 may be formed to be the same as or slightly longer than the length W1 + W2, so that the upper cover 20 is the main body 10. The top of the can be opened smoothly.

On the contrary, the application of the structure of partially opening the upper cover 20 without opening the upper part of the main body 10 to the extent that the upper end of the oven 12 is exposed may include the support frame 51 and the guide rod 52. Each length L is formed at least larger than the width W1 of the main body 10, and is larger than the length W1 + W2 of the sum of the width W1 of the main body 10 and the width W2 of the upper cover 20. It may be formed slightly smaller.

That is, each length L of the support frame 51 and the guide rod 52 is briquettes toward the oven 12 in the main body 10 when the upper opening of the main body 10 by the reverse of the upper cover 20. Various modifications will be possible as long as it is easy to load.

Each guide roller 53 is rotatably installed at each of the lower left and right edges of the upper cover 20, and the curved surface portion 53a corresponding to the radius of the guide rod 52 is provided on the outer circumferential surface of each guide roller 53. Is formed, thereby the guide roller 53 can smoothly move along the guide rod (52).

When the two pairs of guide rollers 53 are rotatably installed on the lower left and right edges of the upper cover 20, the two guide rollers 53 are arranged in a row on the lower left edge of the upper cover 20. Correspondingly, two guide rollers 53 may be arranged in a row at the lower right edge of the upper cover 20. In addition, when three or more pairs of guide rollers 53 are rotatably installed on the lower left and right edges of the upper cover 20, the three or more guide rollers 53 are provided on the lower left edge of the upper cover 20. ) Is installed in a row, and correspondingly, three or more guide rollers 53 may be installed in a row on the lower right edge of the upper cover 20.

On the other hand, two or more grooves 54 are formed on the front side of each guide rod 52, the grooves 54 are formed corresponding to the number of guide rollers 53, and also correspond to the spacing of the guide rollers 53 It is formed to be spaced apart. A front sloped surface 54a is formed in front of each groove portion 54, and a rear sloped surface 54b is formed behind each groove portion 54. In particular, the front inclined surface 54a is formed to be inclined at a sharp angle, and the rear inclined surface 54b is formed to be inclined at a very gentle angle compared to the front inclined surface 54a. Accordingly, the guide roller 53 may be easily lowered and climbed on the rear inclined surface 54b of the groove 54.

When the upper cover 20 is advanced to close the upper surface of the main body 10, the guide roller 53 is lowered down the rear inclined surface 54b of the groove portion 54 as shown in Figs. Solid line 3), and the upper cover 20 may be hermetically adhered to the upper surface side of the main body 10. That is, through the hermetically closed structure of the upper cover 20 and the main body 10, it is possible to prevent the leakage of harmful gases such as carbon monoxide generated when the briquette 11 is burned in the furnace 12. .

And, when the upper cover 20 is reversed to open the upper surface of the main body 10, as shown in Figures 2 and 3, the guide roller 53 rides on the rear inclined surface 54b of the groove 54, the upper side As shown in FIG. 3, the upper cover 20 is easily moved backward from the upper surface of the main body 10 so that the upper ends of the ovens 12 of the main body 10 may be opened.

In addition, a front stopper 56 and a rear stopper 57 may be installed at the front end and the rear end of each support frame 51 and each guide rod 52, and thus the upper cover 20 and the guide rollers. The 53 may be restricted to be separated to the front and rear sides of the support frame 51 and the guide rod 52, respectively.

In addition, the rear ends of the pair of support frames 51 may be fixed to the side of the reinforcing plate 58, and thus the bending of the support frames 51 may be effectively prevented.

The side heat medium conduit 30 is installed to surround the sides of the ovens 12 in the main body 10, and the heat medium (water) moving through the side heat medium conduit 30 is briquettes generated in the oven 12. It is heated by the heat of combustion.

The side heating medium passage 30 is wound in a spiral direction (arrow j direction) from the inner side of the first outer pipe 31 wound around the virtual vertical line in the spiral direction (arrow h direction) and the first outer pipe. The first inner pipe 32 is formed. The spiral direction (arrow j direction) of the first inner pipe 32 and the spiral direction (arrow h direction) of the first outer pipe 31 are opposite to each other.

In addition, the first heat shield plate 35 is installed outside the side heat medium pipe 30 so as to surround the side surface of the side heat medium pipe 30, and is generated at the oven 12 by the first heat shield plate 35. The leakage of combustion heat to the outside can be minimized. The first heat shield plate 35 is spaced at a predetermined interval in the horizontal direction with respect to the first outer pipe 31 of the side heat medium pipe (30).

The upper heating medium passage 40 is installed in the upper cover 20, and thus the upper cover 20 is disposed on the tops of the ovens 12 when the upper cover 20 closes the upper surface of the main body 10. The rising air flow of the hot heat generated by the combustion heat of the briquette 11 is transferred to the upper heat medium pipe path 40 to heat the heat medium (water) passing through the upper heat medium pipe path 40.

The upper heating medium passage 40 is in the spiral direction (arrow g direction) from the inside of the second outer pipe 41 and the second outer pipe 41 wound in the spiral direction (arrow k direction) about an imaginary horizontal line. The second inner pipe 42 is wound. The spiral direction (arrow k direction) of the second outer pipe 41 and the spiral direction (arrow g direction) of the second inner pipe 42 are made in opposite directions.

On the other hand, the second heat shield plate 45 is installed on the left and right both ends of the upper heat medium pipe 40, it is possible to minimize the leakage of the rising air of hot heat to the left and right sides by the second heat shield plate (45).

A first heat medium inlet line 61 is connected to a lower end of the first outer pipe 31, a first heat medium outlet line 66 is connected to an upper end of the first outer pipe 31, and a first heat medium outlet line ( 66 extends to one side wall of the body 10.

A second heat medium inflow line 62 is connected to one end of the second outer pipe 41, and the second heat medium inflow line 62 extends to one side wall of the upper cover 20. The other end of the second outer pipe 41 and one end of the second inner pipe 42 are communicatively connected to each other through the connection pipe 65. A second heat medium outlet line 67 is connected to the other end of the second inner pipe 42, and the second heat medium outlet line 67 extends to one side wall of the upper cover 20.

A third heat medium inflow line 63 is connected to a lower end of the first inner pipe 32, and the third heat medium inflow line 63 extends to one side wall of the main body 10. The upper end of the first inner pipe 32 is connected to a hot water supply line 64 for supplying a sufficiently heated heating medium, that is, hot water to a heating place.

A first connection hose 71 is connected between the first heat medium outlet line 66 and the second heat medium inlet line 62, and one end of the first connection hose 71 is an end portion of the first heat medium outlet line 66. The other end of the first connection hose 71 is connected to the end of the second heat medium inflow line 62 via the connector 71b.

A second connection hose 72 is connected between the second heat medium outlet line 67 and the third heat medium inflow line 63, and one end of the second connection hose 72 is an end portion of the second heat medium outlet line 67. The other end of the second connection hose 72 is connected to the end of the third heat medium inflow line 63 via the connector 72b.

Meanwhile, the first and second connection hoses 71 and 72 are pipe lines for communicating the side heat medium pipe lines 30 and the upper heat pipe lines 40 from the outside of the main body 10 and the upper cover 20, such as rubber hoses and the like. It is preferably made of a flexible material.

In particular, the first and second connection hoses 71 and 72 may be moved when the upper cover 20 moves backward from the main body 10 (that is, the upper cover 20 opens the upper part of the main body 10). In the upper cover 20 and the main body 10 is preferably made of a length that can sufficiently allow a smooth separation.

The flow of hot water passing through the side heat medium pipe 30 and the upper heat medium pipe 40 and the heating process of the hot water will be described in detail with reference to FIGS. 5 and 7.

First, a heat medium (for example, water whose temperature is lowered due to heat being taken away from a heating place such as an ondol) is introduced into the lower side of the first outer pipe 31 through the first heat medium inflow line 61, and the heat medium is introduced. It flows along the spiral direction (arrow h direction) of the 1st outer pipe 31, and moves to the upper end side of the 1st outer pipe 31. As shown in FIG. Thus, the heat medium moving along the spiral direction (arrow h direction) of the first outer pipe 31 is primarily heated by the heat of combustion of the briquette 11 generated in the oven 12.

The first heating medium flowing along the first outer pipe 31 passes through the first heat medium outlet line 66 and the first connection hose 71 sequentially, and then through the second heat medium inlet line 62. One end of the pipe 41 is introduced, and the heat medium thus introduced flows along the spiral direction (arrow k direction) of the second outer pipe 41 and moves to the other end of the second outer pipe 41. In this way, the heat medium moving along the spiral direction (arrow k direction) of the second outer pipe 41 is secondarily heated by the rising air of hot heat generated by the combustion heat of the briquette 12.

Then, the heat medium is introduced into one end of the second inner pipe 42 via the connecting pipe 65 at the other end of the second outer pipe 41, and the heat medium thus introduced is in the helical direction of the second inner pipe 42. It flows along (arrow g direction) and moves to the other end of the 2nd inner side pipe 42. As shown in FIG. In this way, the heat medium moving along the helical direction (arrow g direction) of the second inner pipe 42 is heated in a third way through a rising air stream of hot heat generated by the combustion heat of the briquette 12.

Then, the heat medium flows into the lower end of the first inner pipe 31 through the second connection hose 72 and the third heat medium inflow line 63 at the other end of the second inner pipe 42, and the first inner side. The heat medium flowing into the lower end of the pipe 31 flows along the spiral direction (arrow j direction) of the first inner pipe 31 and moves to the upper end of the first inner pipe 31. In this way, the heat medium moving along the spiral direction (arrow j direction) of the first inner pipe 31 is heated in the fourth order by the heat of combustion of the briquette 12.

The heating medium, that is, the hot water heated several times, is supplied from the upper end of the first inner pipe 31 through the heating medium supply line 64 to a heating place such as ondol, thereby heating and heating at the heating place. The heat medium whose temperature is lowered is circulated by being recovered to the side heat pipe line 30 and the upper heat pipe line 40 through the first heat medium inflow line 61.

In addition, as shown in FIG. 6, the upper cover 20 is formed with a curved inner surface 23 corresponding to the outer surface of the upper heat pipe line 40, and the upper heat pipe line 40 is a support (not shown). As it is spaced apart from the curvature inner surface 23 of the upper cover 20 by a predetermined interval (t), the outer surface of the curvature inner surface 23 and the upper heating medium passage 40 of the upper cover 20 The hot air rising air can easily pass through the interval (t) therebetween, and the hot air rising air flows through the upper heat medium pipe line 40 as the hot heat rising air contacts the upper heat medium pipe line 40 in a larger area. Has the advantage of significantly increasing the heat exchange efficiency.

On the other hand, the second inner pipe 42 and the second outer pipe 41 of the upper heat medium pipe 40 is spirally wound along the outer circumferential surface of the airflow guide member 80, and is heated by the airflow guide member 80. The rising air stream of the heat does not pass between the second inner pipe 42 and the second outer pipe 41, and along the outer circumferential surface of the airflow guide member 80, the inner surface of the upper cover 20 and the upper heating pipe line 40. The smoothly guided to the interval (t) side between the as it is stably moved in the circumferential direction of the upper heat medium pipe (40) can further increase the heat exchange efficiency of the heat medium passing through the upper heat medium pipe (40).

The airflow guide member 80 may be formed of a cylindrical pipe, and both ends of the airflow guide member 80 are closed by end plates 81 and 82, and each end plate 81 and 82 is provided with an airflow guide member ( One or more communication holes 81a and 82a may be formed to prevent a pressure increase due to the expansion of the air in 80.

In the present invention configured as described above, the cold heating water side heat pipe line 30 by the side heat pipe line 30 disposed on the side of the stove 12 and the upper heat pipe line 40 disposed on the top of the stove 12 is configured The first outer pipe 41 and the second outer pipe 42 of the upper heat medium conduit 40 are sequentially heated after being primarily heated by the combustion heat of the briquette 11 while moving through the first outer pipe 31. While passing through the rising air flow of the hot heat generated by the combustion heat of the briquette 11 is heated secondary and tertiary, and again through the first inner pipe 32 of the side heat pipe line 30 in the upper heat pipe line 40 While moving, it may be heated in four orders by the heat of combustion of the briquette 11. Through this, the heat medium circulates in a wider thermal contact area in the vicinity of the oven 12, and the heat medium stays in the vicinity of the oven 12 for more time, so that the heat exchange efficiency of the heat medium can be significantly improved. There is an advantage.

In addition, according to the present invention, as the upper cover 20 is installed to move forward and backward to open and close the upper portion of the main body 10, briquettes 11 of the main body 10 can be replaced very easily. There is an advantage.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

10: main body 11: briquette 12: oven
20: upper cover 23: inner side 30: side heat pipe
31: first outer pipe 32: first inner pipe 40: upper heat medium pipe
41: second outer pipe 42: second inner pipe 50: guide unit
51: support frame 52: guide rod 53: guide roller
71: first connection hose 72: second connection hose

Claims (5)

A main body having a plurality of ovens into which a plurality of briquettes are charged;
An upper cover installed to be opened and closed at an upper portion of the main body;
A side heat medium pipe disposed to surround the sides of the fire ovens; And
It is disposed on the upper side of the oven, and the upper heating medium pipe connected to communicate with the side heating medium pipe;
The side heat medium pipe is connected to the heat medium inlet line through which the heat medium flows from the heating place and the heat medium supply line for supplying the heat medium to the heating place.
The side heat medium pipe is composed of a first outer pipe wound in a spiral direction around a vertical line and a first inner pipe wound in a spiral direction from the inside of the first outer pipe,
The upper heat pipe conduit includes a second outer pipe wound in a spiral direction around a horizontal line and a second inner pipe wound in a spiral direction from the inside of the second outer pipe. The method according to claim 1,
The spiral direction of the first outer pipe and the spiral direction of the first inner pipe are opposite to each other, and the spiral direction of the second outer pipe and the spiral direction of the second inner pipe are opposite to each other; Boiler. The method according to claim 1,
The first outer pipe and the first inner pipe of the side heat pipe line are installed in the main body, the second outer pipe and the second inner pipe of the upper heat pipe line are installed in the upper cover, and the first outer pipe and the The second outer pipe is communicatively connected to each other through a first connection hose, and the second outer pipe and the second inner pipe are communicatively connected to each other in the upper cover, and the second inner pipe and the The first inner pipe is briquette boiler, characterized in that connected to each other via a second connection hose. The method according to claim 3,
The first and second connection hoses are ducts for communicating side heating medium lines and upper heating medium lines outside the main body and the upper cover, and the upper cover and the main body of the upper cover when the upper cover moves backward from the main body. Briquette boiler characterized in that the length is made to allow separation. The method according to claim 1,
On the adjacent edge side of the main body and the upper cover is provided a guide unit for guiding the front and rear movement of the upper cover,
The guide unit includes a pair of support frames symmetrically installed on the upper left / right edge side of the main body, a pair of guide rods fixed to an upper surface of each support frame, and a lower left / right edge of the upper cover. Briquette boiler characterized in that it comprises at least two pairs of guide rollers symmetrically installed.

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