KR100579361B1 - Oil boiler with condensing type built-in - Google Patents

Abstract

The present invention relates to a general type oil boiler with a condensing method, and the structure of the general type oil boiler and the condensing oil boiler to be shared, there is no need to provide a separate production equipment according to the boiler method, greatly reducing the production cost There is.

The present invention for realizing this includes a combustion chamber that burns fuel to generate high-temperature combustion heat, a heat exchanger that absorbs the combustion heat and supplies it to the heating water, and a boiler outer cylinder in which a water tank in which the heating water is circulated is formed. In the general type oil boiler with a condensing system made of; The boiler outer cylinder, the grooved groove is formed in the upper portion and the flow chamber is formed in the lower portion; The combustion chamber is provided with a burner which burns downward at an upper portion thereof, is coupled to the standing groove to be vertically inserted into the boiler outer cylinder so that the lower portion communicates with the flow chamber; The heat exchange part is composed of first and second heat exchangers, and is coupled to the grooved grooves and is installed in a vertical downward direction to the boiler outer cylinder side by side adjacent to the combustion chamber to communicate with a lower portion of the flow chamber; The upper surface of the boiler casing, characterized in that the flue and the flue and the noise through the boiler casing, the flue is exhausted by the combustion of fuel in the combustion chamber is characterized in that the coupling.

Boiler, condensing, sensible heat, latent heat, combustion chamber, heat exchanger, condensate, neutralizer

Description

Oil boiler with condensing type built-in}             

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

2 and 3 is a schematic cross-sectional view and use state diagram of a general type oil boiler with a condensing method according to an embodiment of the present invention,

4 and 5 are schematic cross-sectional views and use state diagrams of the condensing oil boiler converted from the general oil boiler shown in FIGS. 2 and 3.

♧ explanation of symbols for main parts of drawing

30: boiler outer cylinder 31: water tank

32: flow chamber 40: combustion chamber

41: burner 50: heat exchanger

51 ': main heat exchanger 52': latent heat exchanger

53: sound box 60: year

70: year support 80: neutralizing device

90: hot water heat exchanger

The present invention relates to a general type oil boiler with a condensing method, and more specifically, to common boiler and heat exchanger of the common type oil boiler and the condensing oil boiler, so that the general type oil boiler can be easily converted to the condensing oil boiler. It is a general oil boiler with a condensing method that can reduce production costs by not having a separate production facility according to the boiler method.

A boiler is a device for heating water with combustion heat generated by burning fuel, and then supplying the heated water to a necessary place such as heating. In particular, a boiler is widely used as a basic heating and hot water supply facility in a general household. Boilers are classified in various ways according to the criteria such as the heat source for heating the heating water and the fuel used.For example, depending on the fuel used, a boiler and a gas boiler using LPG or LNG are used as fuel. It is classified as oil boiler using kerosene as fuel.

Meanwhile, boilers can be classified into general boilers and condensing boilers, and condensing boilers have been developed to utilize energy that is not used in conventional boilers. The principle of operation is as follows.

The fuel of the boiler includes hydrogen (H ₂ ), which combines with the oxygen (O ₂ ) in the combustion of the fuel, converts into water (H ₂ O) and dissipates heat at the same time. Since it is converted into water vapor by heat and discharged in the form of exhaust gas, when the temperature of the water vapor mixed in the exhaust gas is lowered below 100 ° C., it is converted into water again. However, since the latent heat is always released or absorbed when the state of the substance changes, the latent heat is released even when the water vapor contained in the exhaust gas is liquefied into water, and a separate latent heat exchanger is installed to provide heating water. Is used to heat the condensing method. In the condensing method, the heat efficiency of the boiler can be increased to the maximum (95 to 105%) by simultaneously recovering sensible heat and latent heat of steam contained in the exhaust gas. Therefore, in consideration of domestic conditions in which energy resources are poor, it is preferable that high efficiency condensing boilers are more widely used.

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

Conventional condensing oil boilers, in addition to the main heat exchanger 12 that absorbs the sensible heat generated by the combustion of the fuel, the latent heat exchanger 16 for recovering the residual heat and latent heat from the exhaust gas transferred to the main heat exchanger (12). The main heat exchanger 12 and the horizontal spaced apart a certain interval is installed. The main heat exchanger (12) is provided with a combustion chamber (11) in which fuel is burned by the burner (10) at the lower side, and therein exhaust gas generated in the combustion chamber (11) in communication with the upper side of the combustion chamber (11). There are a plurality of associations 14 to which are transported. Meanwhile, a water tank 13 through which heating water is circulated is provided between the circumference of the combustion chamber 11 and the pipe 14, and the sensible heat of exhaust gas generated through combustion is transferred to the heating water circulating in the water tank 13. do.

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 ( The upper side of the 16 is transferred to the noise chamber (15) installed to be connected to the latent heat exchanger (16) side. The latent heat exchanger (16) is cylindrical in shape, the upper side of which is in communication with the noise chamber (15) and the lower side is provided with a plurality of associations (18) in communication with the condensate receiver (19). Meanwhile, between the pipes 18, a water tank 17 in which heating water is stored is provided, and the latent heat of exhaust gas passing through the latent heat exchanger 16 is transferred to the heating water stored in the water tank 17.

In general, the condensed water generated by liquefaction of the water vapor contained in the exhaust gas while passing through the latent heat exchanger 16 exhibits strong acidity, which may cause serious environmental pollution. Accordingly, a condensate receiver 19 for collecting condensate and a neutralizing device 21 for neutralizing the collected condensate are provided below the tube 18. Meanwhile, the condensate receiver 19 is in communication with the association 18 of the latent heat exchanger 16 on one side and coupled with the flue 20 on the other side, so that the exhaust gas passing through the association 18 is discharged to the outside. do.

However, in the condensing oil boiler as described above, since the latent heat exchanger recovering latent heat from the exhaust gas is additionally installed separately from the main heat exchanger, it is significantly different in structure from a general oil boiler that absorbs only sensible heat. Each city must have a separate production facility and production jig. In other words, in order to produce condensing oil boilers, a separate production line must be added and new personnel must be added accordingly, and the parts are not shared between boilers of both types, which increases production costs and reduces productivity. have.

The present invention has been invented in view of the above problems, and comprises a heat exchange part in which a heat exchange occurs in a general oil boiler as first and second heat exchangers, and if necessary, the first and second heat exchangers are blocked through a diaphragm. It is possible to simply convert the general type oil boiler to the condensing oil boiler by eliminating the need for a separate production equipment according to the boiler type, so that the general type oil boiler with the condensing method can be greatly reduced. The purpose is to provide. In addition, an object of the present invention is to provide a method of simply converting a general oil boiler to a condensing oil boiler by using a general oil boiler having the condensing method.

In order to achieve the above object, a general type oil boiler having a condensing method of the present invention includes a combustion chamber that burns fuel to generate high-temperature combustion heat, a heat exchanger that absorbs the combustion heat and supplies it to the heating water, and the heating water therein. In the general type oil boiler with a condensing system including a boiler outer cylinder is formed a circulating water tank; The boiler outer cylinder, the grooved groove in the upper portion is formed with a flow chamber in the lower portion; The combustion chamber is provided with a burner which burns downward at an upper portion thereof, is coupled to the standing groove to be vertically inserted into the boiler outer cylinder so that the lower portion communicates with the flow chamber; The heat exchange part is composed of first and second heat exchangers, and is coupled to the grooved grooves and is installed in a vertical downward direction to the boiler outer cylinder side by side adjacent to the combustion chamber to communicate with a lower portion of the flow chamber; As the upper surface of the boiler outer cylinder, the flue and the flue and the noise through the boiler outer cylinder is combined with the flue gas exhausted by the combustion of the fuel in the combustion chamber, and the hot water supply heat exchanger along the outer peripheral surface of the boiler outer cylinder It is characterized in that the additional installation.

On the other hand, by using the invention, a method of converting a general oil boiler into a condensing oil boiler, the flue bearing is inserted into the flow chamber at the side of the boiler casing, coupled to form a diaphragm, through which the flow chamber and the first Shut off the two heat exchangers; Separating the flue from the sound box and closing the top of the sound box; By installing so that the flue is in communication with the second heat exchanger via the flue bearing; The exhaust gas absorbs sensible heat in the first heat exchanger and latent heat in the second heat exchanger while passing through the combustion chamber, the return chamber, the first heat exchanger, the noise chamber, the second heat exchanger, the flue support, and the flue. Characterized in that to be made.

Hereinafter, with reference to the accompanying drawings, the configuration and embodiment of the present invention will be described in detail.

2 and 3 is a schematic cross-sectional view and use state diagram of a general oil boiler with a condensing method according to an embodiment of the present invention.

As shown in the drawing, in the general oil boiler with the condensing method of the present invention, a combustion chamber 40 and a heat exchanger 50 are installed in a boiler outer cylinder 30 in which a water tank 31 is formed. The high temperature combustion heat generated by the combustion of fuel in the combustion chamber 40 is transmitted to the heating water moving in the water tank 31 through the heat exchange unit 50, and the heated heating water is supplied according to a necessary purpose such as heating. Thus, the boiler outer cylinder 30, the combustion chamber 40, and the heat exchange part 50 with which the water tank 31 is provided are also provided also in the general type oil boiler used normally, In this invention, a general type oil boiler and a condensing oil boiler are provided. The feature is that the structure has been improved to facilitate the transition between them.

That is, the heat exchange part 50 is composed of first and second heat exchangers 51 and 52 so as to be converted into a main heat exchanger and a latent heat exchanger of the condensing oil boiler, and the boiler outer cylinder 30 is the combustion chamber. 40, the first heat exchanger 51, the second heat exchanger 52 is formed in the upper groove (not shown) is formed on the top. In addition, the boiler outer cylinder 30, the lower portion of the circulation chamber 32 is formed, the upper surface is coupled to the noise cylinder 53 and the flue 60. Therefore, as illustrated in FIG. 3, fuel is burned in the combustion chamber 40 by the down-burning burner 41 provided above the combustion chamber 40, and the high-temperature exhaust gas generated after the combustion is returned to the circulating chamber. It is discharged to the outside via the 32, the heat exchange part 50, the noise chamber 53, and the flue 60. At this time, since the flow chamber 32 is connected to both the first and second heat exchangers 51 and 52 of the heat exchange unit 50, the exhaust gas introduced into the flow chamber 32 is the first, Dispersed in the second heat exchanger (51, 52) and moved, gathered again in the noise chamber (53) is discharged through the flue (60).

On the other hand, by installing 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 supply therein, hot water can be used separately from the heating water.

In the general type oil boiler with the condensing method of the above structure, the first and second heat exchangers 51 and 52 are used as the main heat exchanger 51 'and the latent heat exchanger 52', respectively. It can be converted to a condensing oil boiler, which will be described in detail.

4 and 5 are schematic cross-sectional views and use state diagrams of the condensing oil boiler converted from the general oil boiler shown in FIGS. 2 and 3.

First, compared with FIG. 2 and FIG. 4, the converted condensing oil boiler, the flue bearing 70 and the neutralizer 80 is added, the flue 60 that was connected to the noise container 53 is the flue bearing ( The only difference is that it is linked with That is, the flue support 70 is inserted into and coupled to the flow chamber 32 at the side of the boiler outer cylinder 30, and the flue 60 is separated from the noise cylinder 53 to separate the flue cylinder 53. By sealing the upper part and connecting and installing a separate flue 60 to the flue support 70, a general type oil boiler with a condensing method according to the present invention is converted into a condensing oil boiler. The most distinctive feature in this conversion process is that the diaphragm 71 is formed through the flue support 70 so that the flow chamber 32 and the second heat exchanger 52 are blocked. Refer to 5 to see how the switched condensing oil boiler works.

First, fuel is combusted in the combustion chamber 40 provided with the burner 41, and high temperature exhaust gas generated after combustion flows into the circulating chamber 32. Since the flow chamber 32 is blocked from the second heat exchanger 52 because of the diaphragm 71 formed by the flue support 70, the exhaust gas introduced into the flow chamber 32 is illustrated in FIG. 3. Unlike this, only the first heat exchanger 51 is moved. Therefore, in the condensing boiler, the first heat exchanger 51 serves as a main heat exchanger 51 ′ which supplies sensible heat of exhaust gas to the heating water moving along the water tank 31. Meanwhile, in FIG. 3, the upper and lower portions of the sound absorber 53 having the role of connecting the heat exchanger 50 and the flue 60 are closed at an upper part thereof, and thus the upper part is sealed, and the main heat exchanger 51 ′ and the latent heat exchanger 52 ′. By performing the role of connecting the exhaust gas via the noise chamber 53 is moved to the latent heat exchanger (52 '). The latent heat exchanger 52 ′, in FIG. 3, serves substantially the same role as the first heat exchanger as the second heat exchanger 52, but in the condensing boiler, heat exchange is already performed in the main heat exchanger 51 ′. After the exhaust gas is introduced to the heat exchange to the latent heat in accordance with the change of the state of the water vapor contained in the exhaust gas. The exhaust gas passing through the latent heat exchanger 52 'is discharged to the outside via the flue 60 via the flue support 70.

On the other hand, the flue support 70 may be used as a condensate receiver. In general, in the condensing oil boiler, the condensed water generated while passing through the latent heat exchanger (52 ') exhibits strong acidity and can cause serious environmental pollution. A neutralizer 80 is needed to neutralize the collected condensate. Therefore, when the condensation support 70 and the neutralization device 80 are connected so that the condensed water collected to the lower side of the flue support 70 can move to the neutralization device 80, the flue support 70 is a diaphragm 71. ), Which can be converted to condensing oil boiler, and condensate collector to collect condensate.

The condensing oil boiler of the present invention can be applied and used in various forms, for example, by installing a hot water supply heat exchanger (90) surrounding the inner circumference of the boiler casing (30) in coil form and circulating the hot water supply therein Improve the thermal efficiency by increasing the heat exchange time between the exhaust gas and the heating water by slowing the flow of exhaust gas by installing hot water separately from the heating water or by installing a baffle in the main heat exchanger 51 'and the latent heat exchanger 52'. You can do that.

 As described above, according to the general type oil boiler with the condensing method of the present invention, the structure of the general type oil boiler and the condensing oil boiler, which have been manufactured through a separate production line in the prior art, have the same design. Thus, there is no need to provide a separate production equipment according to the boiler method, and the parts can be shared, so that the production cost can be greatly reduced.

Claims (3)

General-type oil with a condensing method including a combustion chamber that burns fuel to generate high-temperature combustion heat, a heat exchanger that absorbs the combustion heat and supplies it to the heating water, and a boiler outer cylinder in which a water tank circulating the heating water is formed. In a boiler; The boiler outer cylinder, the grooved groove in the upper portion is formed with a flow chamber in the lower portion; The combustion chamber is provided with a burner which burns downward at an upper portion thereof, is coupled to the standing groove to be vertically inserted into the boiler outer cylinder so that the lower portion communicates with the flow chamber; The heat exchange part is composed of first and second heat exchangers, and is coupled to the grooved grooves and is installed in a vertical downward direction to the boiler outer cylinder side by side adjacent to the combustion chamber to communicate with a lower portion of the flow chamber; As the upper surface of the boiler casing, a general oil having a condensing system, characterized in that the flue of the exhaust gas generated by the combustion of the fuel in the combustion chamber and the silencer and the noise through the boiler casing are combined. Boiler. The general type oil boiler according to claim 1, wherein a hot water supply heat exchanger is further installed along the outer circumferential surface of the boiler outer cylinder. Using a general oil boiler with a condensing method according to claim 1 or 2; Inserting and coupling a flue support from the side of the boiler outer cylinder to the flow chamber to form a diaphragm, thereby blocking the flow chamber and the second heat exchanger; Separating the flue from the sound box and closing the top of the sound box; By installing so that the flue is in communication with the second heat exchanger via the flue bearing; The exhaust gas absorbs sensible heat in the first heat exchanger and latent heat in the second heat exchanger while passing through the combustion chamber, the circulating chamber, the first heat exchanger, the noise chamber, the second heat exchanger, the flue support, and the flue. A method of converting a general oil boiler to a condensing oil boiler, characterized in that made.

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