KR200286421Y1 - A waste materials boiler - Google Patents

Abstract

The present invention relates to a waste material boiler, to the exhaust pipe to move the exhaust gas from the combustion chamber 200 to the heat storage chamber 300 to be completely burned by reheating the incomplete gas of the exhaust gas discharged from the combustion chamber 200 ( 30 is provided with a reburn burner 10 controlled by the normal control unit 400, and inside the heat storage chamber 300, dust in the exhaust gas supplied through the exhaust pipe passage 30 is provided. In addition to the cyclone dust collector 20 which can be directly heated to the heat medium of the heat storage chamber 300 is removed.

Therefore, the present invention provides a cyclone dust collector which reheats the exhaust gas on the exhaust pipe furnace to burn incomplete dew, and is housed in the heat storage chamber to heat the heat medium and remove dust, thereby heating the heat storage chamber heat medium by the exhaust gas. In addition, the incomplete gas in the exhaust gas is completely burned out and dust is removed to minimize the environmental pollution caused by the exhaust gas.

Description

A waste materials boiler

The present invention relates to a waste material boiler, and more particularly, to prevent environmental pollution by gasifying waste tires such as waste tires, waste rubber, waste wood, etc. to prevent environmental pollution, and reheat combustion of exhaust gases when used for heating or heating hot water. By maximizing the heating effect of the exhaust gas by maintaining the temperature of the exhaust gas at a constant temperature, it is possible to completely remove the exhaust gas when the incomplete gas is completely burned.

In general, waste tires such as waste tires, waste rubber, and waste wood are incinerated according to strict environmental standards because toxic gases are generated during the incineration process, but general incinerators consume separate oil for incineration. There was a problem that can not utilize the incineration heat generated.

Accordingly, the applicant of the present application, as introduced in the Utility Model Registration No. 261032, heats the heat medium oil by burning a gasification chamber for pyrolyzing and gasifying waste materials such as waste tires or waste rubber, waste wood, and gas produced in the gasification chamber. Developed a waste material boiler composed of a combustion chamber which is heated by heat medium and exhaust heat of the combustion chamber and heats water used for heating and hot water, thereby inducing the generation of toxic gas in incineration of environmental waste such as waste materials. By preventing the air pollution, by heating the hot water or heating water with the heat energy generated in the incineration process of the waste material to enable the heating of the home or the heating of the greenhouse at low cost.

However, the conventional waste material boiler as described above has a problem that the heat storage effect of the heat storage chamber due to the exhaust heat is low because the temperature of the exhaust heat discharged by the combustion chamber is low.

In addition, there are problems such as unsafe gas and dust which are not burned in the exhaust gas are discharged to cause environmental pollution.

Accordingly, the present invention has been made to solve the above-mentioned problems, and provided with a reburn burner on the exhaust pipe path of the combustion chamber, removes dust in the exhaust gas in the heat storage chamber, and regenerates the exhaust gas by re-burning the exhaust gas. In addition to improving the heating effect of the seal, it is possible to efficiently heat the heat medium oil inside.

1 is a front view showing a conventional waste material boiler.

2 is a plan view of a conventional waste material boiler.

Figure 3 is a side cross-sectional view showing an embodiment according to the present invention.

* Explanation of the symbols of the main parts of the drawings

10: Reburn Burner

20 cyclone dust collector

21: Recycling container 22: Exhaust vent

30: to the exhaust pipe

31: insulation 32: temperature sensor

100: gasification chamber

200: combustion chamber 210: ignition burner 220: heat medium heating tube

300: heat storage chamber 310: spiral heating tube

400: control unit

Hereinafter, described in detail by the accompanying drawings as follows.

The present invention is to maximize the heating effect of the heat storage chamber by the exhaust heat of the combustion chamber and to minimize the generation of dust, etc., the gasification chamber for the gasification of flammable gas by pyrolyzing waste materials such as waste tires, waste rubber, waste wood, etc. (100 ), A combustion chamber 200 that burns the gas produced in the gasification chamber 100 to heat the heat medium oil, and heats water heated by the heat medium oil and exhaust heat of the combustion chamber 200 and used as heating and hot water. Control unit 400 for controlling the operation of the heat storage chamber 300, the blower and the ignition burner to control the combustible gasification of the waste material in the gasification chamber 100 and the combustion of the combustible gas in the combustion chamber 200 In a constructed waste material boiler; An ordinary control unit may be disposed on one side of the exhaust pipe 30 through which the exhaust gas is moved from the combustion chamber 200 to the heat storage chamber 300 so as to completely reheat the incomplete gas from the exhaust gas discharged from the combustion chamber 200. 400 is provided with a reburn burner 10 controlled by the operation, and inside the heat storage chamber 300 to remove dust in the exhaust gas supplied through the exhaust pipe passage 30 and the heat storage chamber 300. It is equipped with a cyclone dust collector 20 that can be directly heated the heat medium.

Here, the exhaust pipe passage 30 is provided with a temperature sensor 32 for sensing the exhaust temperature to control the operation of the reburn burner 10, the inner wall of the exhaust pipe passage 30 for the insulation It can implement so that 31 is provided.

On the other hand, the combustion chamber 200 may be implemented so that a plurality of heating medium heating tube 220 is provided across the combustion chamber to maximize the heating of the heating medium by the heat of combustion.

In addition, the return container 21 provided in the lower portion of the cyclone dust collector 20 is configured to protrude to one side of the heat storage chamber (300).

In addition, the heat medium oil heated in the combustion chamber 200 circulates through a spiral heating tube 310 spirally provided in the heat storage chamber 300 to heat the heat medium of the heat storage chamber, and when the heat medium oil is used as ordinary water, A part of the heat medium can be taken out and used.

Hereinafter, the operation of the present invention will be described.

As described above, the exhaust pipe passage in which the exhaust gas is moved from the combustion chamber 200 to the heat storage chamber 300 so as to completely reheat the incomplete gas from the exhaust gas discharged from the combustion chamber 200 of the waste material boiler 30. And a reburn burner 10 controlled by the conventional control unit 400 at one side of the control unit, and removes dust in the exhaust gas supplied through the exhaust pipe passage 30 inside the heat storage chamber 300. In addition, the present invention having a cyclone dust collector 20 capable of directly heating the heat medium of the heat storage chamber, when the waste material is put into the gasification chamber and ignited, combustible gas generated by pyrolysis of the waste material generates combustion chamber ( 200).

As described above, the combustible gas supplied to the combustion chamber 200 is combusted by the ignition burner 210 provided in the combustion chamber. At this time, a plurality of heat medium heating tubes crossing the upper part of the combustion chamber 200 by the generated heat of combustion ( 220) and the heating medium of the outer wall is to be heated.

As described above, the exhaust gas which heats the heat medium of the combustion chamber is moved to the heat storage chamber 300 through the upper exhaust pipe passage 30, in which the reburn burner 10 provided in the exhaust pipe passage 30 is operated. The exhaust gas is then heated to completely burn the incompletely burned gas and raise the temperature to 800 ° C.

The exhaust gas heated as described above is supplied to the cyclone dust collector 20 embedded in the heat storage chamber 300 to heat the heat medium of the heat storage chamber 300 which is in contact with the outer wall of the cyclone dust collector 20 and the temperature in this process. Is lowered, and the dust contained in the exhaust gas is discharged to the lower portion, and only the exhaust gas containing no dust is discharged through the exhaust port 22 by the updraft.

Therefore, the present invention provides a cyclone dust collector which reheats the exhaust gas on the exhaust pipe furnace to burn incomplete dew, and is housed in the heat storage chamber to heat the heat medium and remove dust, thereby heating the heat storage chamber heat medium by the exhaust gas. In addition, the incomplete gas in the exhaust gas is completely burned out and dust is discharged and discharged to minimize the environmental pollution caused by the exhaust gas.

Claims (2)

A gasification chamber 100 for pyrolyzing waste materials such as waste tires or waste rubber, waste wood, etc., to combust gas, and a combustion chamber 200 for burning the gas produced in the gasification chamber 100 to heat the heat medium oil; The heat storage chamber 300 is heated by the heat medium oil and the exhaust heat of the combustion chamber 200 to heat the water used as heating and hot water, and the operation of the blower and the ignition burner controls the operation of waste materials in the gasification chamber 100. A waste material boiler comprising a conventional control unit 400 for controlling combustible gasification and combustion of combustible gas in a combustion chamber 200; An ordinary control unit may be disposed on one side of the exhaust pipe 30 through which the exhaust gas is moved from the combustion chamber 200 to the heat storage chamber 300 so as to completely reheat the incomplete gas from the exhaust gas discharged from the combustion chamber 200. 400 is provided with a reburn burner 10 controlled by the operation, and inside the heat storage chamber 300 to remove dust in the exhaust gas supplied through the exhaust pipe passage 30 and the heat storage chamber 300. Waste material boiler, characterized in that it is equipped with a cyclone dust collector (20) that can directly heat the heat medium. The method of claim 1; On the exhaust pipe passage 30 is provided with a temperature sensor 32 for sensing the exhaust temperature to control the operation of the reburn burner 10, The inner wall of the exhaust pipe passage 30 is provided with a heat insulating material 31 for heat insulation, Waste material boiler, characterized in that the combustion chamber 200 is provided with a plurality of heat medium heating tubes 220 across the combustion chamber 200 to maximize the heating of the heat medium by the heat of combustion.