KR100568779B1 - Condensing Oil Boiler - Google Patents

Abstract

The present invention relates to a condensing oil boiler, and more particularly, a latent heat exchanger is installed together with a latent heat exchanger inside a boiler outer cylinder in which a combustion chamber and a main heat exchanger are installed to make the product size and weight small, light and easy to manufacture. Condensing oil boiler

The present invention provides a condensing boiler comprising a main heat exchanger for absorbing sensible heat of combustion exhaust gas generated in a combustion chamber and a latent heat exchanger for absorbing residual heat and latent heat from exhaust gas transferred from the main heat exchanger. Since the main heat exchanger and the latent heat exchanger are installed together in a vertical down direction inside the boiler outer cylinder in which the water tank is formed, the combustion chamber, the main heat exchanger, and the latent heat exchanger are provided together so that the size and weight of the product In addition to miniaturization and weight reduction, the combustion chamber, the main heat exchanger, and the latent heat exchanger are installed in the vertical direction downward to the boiler casing.

Condensing, Oil Boiler, Boiler Outer, Main Heat Exchanger, Latent Heat Exchanger

Description

Condensing Oil Boiler {Condensing oil boiler}

1 is a view schematically showing a cross-sectional shape of a condensing oil boiler according to the prior art,

2 is a view schematically showing the cross-sectional shape of the condensing oil boiler according to an embodiment of the present invention;

3 is a view showing the assembly structure of the condensing oil boiler according to an embodiment of the present invention;

4 is a view showing a state of use of the condensing oil boiler according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

30: boiler outer cylinder 31: water tank

32: flow chamber 40: combustion chamber

41: burner 51: main heat exchanger

52: latent heat exchanger 53: noise chamber

60: year 70: condensate receiver

80: neutralization apparatus 90: hot water supply heat exchanger

The present invention relates to a condensing oil boiler, and more particularly, a latent heat exchanger is installed together with a latent heat exchanger inside a boiler outer cylinder in which a combustion chamber and a main heat exchanger are installed to make the product size and weight small, light and easy to manufacture. Condensing oil boiler

Recently produced boilers have a heat exchanger comprising a main heat exchanger that absorbs the sensible heat of the combustion exhaust gas generated in the combustion chamber and a latent heat exchanger that absorbs the residual heat and the latent heat from the exhaust gas after the heat exchange in the main heat exchanger. This type of boiler is called a condensing boiler.

Such condensing boilers have been widely used in gas boilers using gas fuels such as LNG or LPG, which contributes to increasing boiler efficiency and reducing fuel costs.

However, in order to apply the condensing method, the oil boiler must additionally install a latent heat exchanger that recovers latent heat from the exhaust gas, in addition to the main heat exchanger that absorbs the sensible combustion heat. The oil boiler is a sulfur (S) component contained in the oil fuel. Since acid condensate is stronger than gas boilers, the latent heat exchanger should be made of a material that can withstand strong acid condensate.

Thus, the condensing oil boiler is manufactured in a structure in which the main heat exchanger and the latent heat exchanger are separated and assembled with different materials.

1 is a view schematically showing a cross-sectional shape of a condensing oil boiler according to the prior art, and looks at with respect to the condensing oil boiler according to the prior art.

The condensing oil boiler according to the prior art has a main heat exchanger 12 that absorbs sensible heat of combustion exhaust gas generated in the combustion chamber 11 and a latent heat exchanger 16 that recovers residual heat and latent heat from exhaust gas transferred from the main heat exchanger 12. Are installed at regular intervals laterally.

The combustion chamber 11 in which combustion sensation heat is generated by the burner 10 is installed below the main heat exchanger 12.

The main heat exchanger (12) is provided with a plurality of pipes (14) in which the exhaust gas generated in the combustion chamber (11) is communicated with the combustion chamber (11) above the combustion chamber (11). Between the circumference and the pipe | tube 14, the water tank 13 in which heating water is stored is provided.

The sensible heat of the combustion exhaust gas in the main heat exchanger 12 will exchange heat with the heating water stored in the water tank 13.

In FIG. 1, the arrows indicate the traveling direction of the exhaust gas. The exhaust gas moved upward from the combustion chamber 11 of the main heat exchanger 12 along the pipe 14 is connected to the main heat exchanger 12 and the latent heat exchanger 16. ) Is transferred to the noise chamber (15) for connecting the upper side and guided to the latent heat exchanger (16) side.

The latent heat exchanger 16 has a cylindrical shape, the upper side of which is in communication with the noise chamber 15, and the lower side thereof is provided with a plurality of associations 18 communicating with the condensate receiver 19, between the associations 18. The water tank 17 in which heating water is stored is provided.

The exhaust gas passing through the latent heat exchanger 16 will exchange heat with the heating water stored in the water tank 17.

The latent heat exchanger 16 is provided with a condensate receiver 19 which directs the exhaust gas to the flue 20 under the pipe 18 and collects the condensate contained in the exhaust gas.

The condensate receiver 19 is connected to the associated 18 of the latent heat exchanger 16 on one side and coupled to the flue 20 that discharges exhaust gas to the outside.

The exhaust gas passing through the condensate receiver 19 is discharged to the outside air through the flue 20, and the condensate containing harmful substances contained in the exhaust gas is neutralized through the outlet provided under the condensate receiver 19. ) And then neutralized.

However, the above condensing oil boiler has a structure in which a latent heat exchanger that recovers latent heat from exhaust gas is additionally installed from the main heat exchanger. There are disadvantages that it can only be enlarged and the size of the product is increased, and the inconvenience of having to increase the boiler installation area is complicated as well as the manufacturing process is complicated.

Accordingly, the present invention provides a combustion chamber equipped with a burner which burns downward, a main heat exchanger that absorbs the sensible heat generated in the combustion chamber, and a latent heat exchanger that absorbs residual heat and latent heat from the exhaust gas transferred from the main heat exchanger, respectively, in the interior of the boiler casing. It is an object of the present invention to provide a condensing oil boiler which is constructed in a vertically vertical direction and embedded together.

The present invention for achieving the above object is a condensing boiler is provided with a main heat exchanger for absorbing the sensible heat generated in the combustion chamber and a latent heat exchanger for absorbing residual heat and latent heat in the exhaust gas transferred from the main heat exchanger, Is formed and the lower side is formed with a circulating chamber and the upper portion of the combustion chamber, the main heat exchanger, the latent heat exchanger is formed in the groove groove which is formed in each of the vertical down direction; The burner is provided with a burner is burned downward and the lower portion is in communication with the flow chamber; and is installed in the vertical down direction to the boiler outer cylinder adjacent to the combustion chamber, the upper portion is coupled to the groove groove, the lower portion is in communication with the flow chamber Adjacent to the main heat exchanger and vertically installed in the boiler outer cylinder; A part is coupled to the immersion groove and the lower part is a latent heat exchanger is blocked from the flow chamber by a partition wall formed in the flow chamber; and the exhaust gas communicated through the latent heat exchanger and the condensate receiver through the latent heat exchanger to the outside. Discharge year; And a noise cylinder sealingly coupling the upper portion of the boiler outer cylinder and guiding exhaust gas transferred from the main heat exchanger to the latent heat exchanger side.

Hereinafter will be described in detail the configuration and operation of the condensing oil boiler according to an embodiment of the present invention.

2 is a view schematically showing the cross-sectional shape of the condensing oil boiler according to an embodiment of the present invention, Figure 3 is a view showing the assembly structure of the condensing oil boiler according to an embodiment of the present invention, Figure 4 A diagram showing a state of use of the condensing oil boiler according to an embodiment of the present invention.

In the present invention, a water tank 31 is formed therein, and a flow chamber 32 is formed at a lower portion thereof, and a burner 41 is disposed at an upper portion thereof. The grooved grooves 33, 34, and 35 in which the main heat exchanger 51 absorbing combustion sensible heat and the latent heat exchanger 52 absorbing residual heat and latent heat in the exhaust gas transferred from the main heat exchanger 51 are respectively installed in the vertical direction. The formed boiler outer cylinder 30 is provided.

Boiler outer cylinder 30 is formed in a cylindrical shape having a structure that is favorable for the internal pressure, the combustion chamber 40 is vertically installed in the vertical grooves 33 formed in the upper surface.

Combustion chamber 40 is a hollow-cylindrical cylinder shape of the upper and lower parts are provided with a burner 41 which is burned downward in the upper portion is coupled to the standing groove 33, the lower portion of the combustion chamber 32 and the circulation chamber 32 of the boiler outer cylinder 30 Are communicated.

The main heat exchanger (51) is vertically downwardly inserted into a vertical groove (34) of the boiler outer cylinder (30) in the shape of a hollow cylinder having an upper and lower portions, the upper portion of which is coupled to the vertical groove (34) and the lower portion of the flow chamber (32). It is in communication with and is installed adjacent to the combustion chamber (40).

The latent heat exchanger 52 is vertically downwardly inserted into the upright groove 35 of the boiler outer cylinder 30 in the shape of a hollow park cylinder having an upper and lower portions thereof, the upper portion of which is coupled to the standing groove 35 and the lower portion of the condensate receiver (to be described later) ( And communicates with the main heat exchanger (51).

In addition, the latent heat exchanger 52 is in communication with the condensate receiver 70 which is inserted into the return chamber 32 side from the side of the boiler outer cylinder 30.

The condensate receiver 70 serves as a partition wall 71 in which the outer circumferential surface inserted into the boiler outer cylinder 30 prevents communication between the main heat exchanger 51 and the latent heat exchanger 52 in the circulation chamber 32.

The condensate receiver 70 is thus coupled to one side is inserted into the insertion groove 36 formed on the side of the boiler outer cylinder 30 and communicate with the latent heat exchanger 52, the other side and the flue 60 to discharge the exhaust gas to the outside and It is in communication.

An upper side of the boiler outer cylinder 30 seal-couples the upper portion of the boiler outer cylinder 30 and forms a space therein so as to guide the exhaust gas transferred from the main heat exchanger 51 to the latent heat exchanger 52 side. Is provided.

In this way, since the combustion chamber 40, the main heat exchanger 51, and the latent heat exchanger 52 are built in the boiler outer cylinder 30, and the water tank 31 is formed therebetween, the heating water in the water tank 31 is It is configured to exchange heat with the combustion chamber 40, the main heat exchanger 51, and the latent heat exchanger 52 while being filled and circulated.

The heating water filled in the water tank 31 is heated because combustion sensible heat is generated in the burner 41 installed on the upper combustion chamber 40 first.

In addition, the combustion gas or exhaust gas generated in the combustion chamber 40 is transferred downward along the combustion chamber 40, and is heat-exchanged with the heating water, enters the flow chamber 32, and is in communication with the flow chamber 32 again. It is returned to the main heat exchanger 51 side.

Exhaust gas returned from the flow chamber 32 to the main heat exchanger 51 is transferred upward along the main heat exchanger 51 to be heat-exchanged with the heating water again, and then to the noise tank 53 above the main heat exchanger 51. Will enter.

Exhaust gas entering the silencing cylinder 53 from the main heat exchanger 51 is transferred to the latent heat exchanger 52 side by the induction of the silencing cylinder 53.

Exhaust gas transferred to the latent heat exchanger 52 side from the noise cylinder 51 is transferred downward while being heat-exchanged with the heating water again, and then enters the condensate receiver 70 under the latent heat exchanger 52.

Exhaust gas entering the condensate receiver 70 from the latent heat exchanger 52 is transferred to the flue 70 by the induction of the condensate receiver 70 and then discharged to the outside air.

At this time, the exhaust gas passing through the latent heat exchanger (52) and the flue (70) is a lot of temperature can be condensed water generated.

Accordingly, the condensate receiver 70 discharges the condensate to the neutralizing device 80 to remove harmful components contained in the condensate after collecting the condensate generated from the latent heat exchanger 52 and the exhaust gas passing through the flue 70. Done.

Condensing oil boiler according to an embodiment of the present invention as described above is provided with a hot water supply heat exchanger (90) surrounding the inner circumference of the boiler outer cylinder 30 in a coil form and circulating the hot water water therein separately from the heating water You can use hot water.

In addition, by installing a baffle in the main heat exchanger 51 and the latent heat exchanger 52 to slow the flow of the exhaust gas, the heat exchange time of the exhaust gas with the heating water may be increased, and thermal efficiency may be improved. 60) Install a temperature sensor (not shown) to measure the temperature of the exhaust gas inside, and if the temperature measured by the temperature sensor is higher than the set temperature, determine the abnormal condition of the boiler and stop the operation of the boiler. An overheat protector may be installed.

As described above, since the present invention includes a combustion chamber, a main heat exchanger, and a latent heat exchanger inside the boiler, the size and weight of the product can be reduced in size and weight, and the combustion chamber, the main heat exchanger, and the latent heat are perpendicular to the boiler. Since the exchanger is built in, there is an advantage that it can be easily manufactured.

Claims (4)

A condensing boiler comprising a main heat exchanger for absorbing combustion senescence generated in a combustion chamber and a latent heat exchanger for absorbing residual heat and latent heat from exhaust gas transferred from the main heat exchanger, A boiler outer cylinder in which a water tank is formed and a flow chamber is formed at a lower portion thereof, and a standing groove in which the combustion chamber, the main heat exchanger, and the latent heat exchanger are respectively installed in the vertical downward direction is formed at the upper portion thereof; A combustion chamber installed in a vertical downward direction to the boiler outer cylinder and having an upper burner and a lower burner communicating with the flow chamber; A main heat exchanger adjacent to the combustion chamber and vertically installed in the boiler outer cylinder, an upper portion coupled to the entry groove and a lower portion communicating with the flow chamber; A latent heat exchanger adjacent to the main heat exchanger and installed in a vertical downward direction to the boiler outer cylinder, an upper portion of which is coupled to the entry groove and a lower portion of the latent heat exchanger blocked by a partition wall formed in the return chamber; A flue that communicates with the latent heat exchanger and the condensate receiver to discharge the exhaust gas transferred from the latent heat exchanger to the outside; And a noise cylinder sealingly coupling the upper portion of the boiler outer cylinder and guiding exhaust gas transferred from the main heat exchanger to the latent heat exchanger side. The condensing oil boiler according to claim 1, wherein the partition wall is formed of an outer circumferential surface of the condensate receiver inserted into and coupled to the flow chamber side from the side of the boiler outer cylinder. The condensing oil boiler according to claim 1, wherein the condensate receiver discharges condensate collected in the latent heat exchanger and the flue to the neutralizer side. The condensing oil boiler according to claim 1, wherein the boiler outer cylinder is provided with a hot water supply heat exchanger installed along its periphery.

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