KR200350538Y1 - Combined use for consumer and briquet boiler - Google Patents

Abstract

The present invention is a general waste incineration apparatus which incinerates wastes such as various wastes, in which the coal charcoal 16 obtained by high concentration of waste such as various wastes as well as incineration of general wastes can be burned inside the waste incineration apparatus. The present invention relates to an incinerator combined charcoal boiler having an improved structure, and includes a plurality of extremely fine holes (26) for supplying air to the uppermost end of the nozzle pipe (20) installed in the combustion chamber (10). The nozzle cap 27 is punctured, and a plurality of air supply nozzles 24 are installed at the lower end of the nozzle tube 20 so as to communicate with the nozzle tube 20 and are installed at the lower end of the nozzle tube 20. The combustion of the combustion chamber 10 is made smoother by the air supplied by the air supply nozzle 24 of the nozzle, and strongly by the ultra-fine hole 26 installed in the periphery of the uppermost part of the nozzle tube 20. Air car By a membrane (26a), while preventing the leakage of heat to the interior of the combustion chamber 10 will be designed to improve the combustion efficiency and yeolyong efficiency.

Description

Incinerator combined charcoal boiler {COMBINED USE FOR CONSUMER AND BRIQUET BOILER}

The present invention relates to an incinerator combined gasoline boiler configured to combine not only the incineration of general waste but also the coal obtained by high concentration of waste such as various wastes, and is located at the top of the nozzle tube installed in the middle part of the combustion chamber. It is designed to increase the combustion efficiency of general garbage and coal and the thermal efficiency inside the combustion chamber by installing a plurality of air supply nozzles at the bottom end of the nozzle tube.

In the structure of a conventional incinerator, as shown in FIG. 3, an incinerator 3 having an inner side wrapped with a fireproof material 1 and having a rostol 2 installed downward in an inner side thereof, and having a lid 2 openable and openable. ; The hollow body is installed in the upper and lower directions in the center of the incinerator 3, and the injection holes 4a, 4b, 4c, and 4d are spaced in the up and down directions to be punched on the outer surface. Nozzle tube 5; A first blower (6) connected to the nozzle pipe (5) to supply air pressure to the lower end of the nozzle pipe (5); An assistant burner (7) installed in the incinerator (3) to ignite at the end of the ignition and combustion of the incinerator (3); A temperature detection sensor 8 for controlling water inside the incinerator 3 by spraying water into the incinerator 3; And a second blower 9 for supplying air pressure to the open upper portion of the incinerator 3 to prevent unburned gas and the incinerator from being discharged to the outside of the incinerator 3.

The incinerator 3 as described above is structurally complex, and the manufacturing cost is high, and the production cost is high, and in addition, the air curtain (a) (b) (c) (d) is formed inside the incinerator 3 by supplying air pressure. To ensure sufficient residence time of the exhaust gas and to completely burn the waste by mixing with the secondary air, and the combustion chamber (A) by the air pressure discharged from the nozzle tube (5) in the center of the incinerator (3) (B) (C) (D) is formed in multiple layers inside the incinerator (3) to simplify the structure of the incinerator (3) to reduce the manufacturing cost, dust explosion due to the supply of secondary air to the incinerator (3) It is to reduce the risk of (bleaching wire phenomenon) and to prevent the incinerator (3) incinerator and unburned material from being discharged into the atmosphere by air curtains (a) (b) (c) (d).

However, the incinerator 3 as described above is installed in the vertical direction in the center of the incinerator 3, and the injection holes 4a, 4b, 4c and 4d are spaced in the vertical direction and drilled on the outer surface. The hollow hollow nozzle tube 5 supplies air into the incinerator and forms a single-layer combustion chamber by air curtains (a) (b) (c) (d).

The nozzle pipe 5 as described above forms a multi-layer combustion chamber by the air curtain generated while supplying air into the incinerator 3, so that sufficient air is not supplied to the portion of the rostol 2 where the waste is intensively burned. It is not possible to perform a complete combustion, and the injection holes 4a, 4b, 4c, 4d formed around the nozzle tube 5 simply form an air curtain (a) (b) (c) (d). It serves to block the leakage of harmful gas generated during combustion.

Therefore, as described above, the incinerator 3 has a high manufacturing cost and has an uneconomical disadvantage. In addition, the air supplied only to the upper part is not supplied with sufficient air for combustion of waste, resulting in incomplete combustion, and unburned gas is generated. The unburned gas had the drawback which becomes the cause of low temperature combustion which reduces the temperature inside the incinerator 3.

The purpose of the present invention is to burn the fine coal obtained by highly condensing various wastes and wastes discarded as industrial wastes, and at the same time, to drill a very fine hole at the top end of the nozzle tube fixedly installed in the inner center of the incinerator. The nozzle cap is installed and the lower end of the nozzle tube is provided with a plurality of air supply nozzles installed in a simple configuration to prevent heat loss inside the combustion chamber from being lost to the air blocking membrane formed by the ultra-fine holes. At the same time, the fresh air is always supplied to the inside of the combustion chamber by the air supply nozzles installed at the lower end of the combustion chamber to increase the combustion efficiency of the fresh water in the tank installed at the circumference of the combustion chamber due to the high heat generated. It is to increase the heating effect.

1 is a cross-sectional view of the present invention.

Figure 2 is an enlarged perspective view showing an extract of the main nozzle unit of the present invention.

Figure 3 is a side cross-sectional view showing a conventional incineration.

Explanation of symbols on the main parts of the drawings

10 Combustion Chamber 11 Hot Delay Plate 12 Year

13 Cover plate 14 Fireproof material 15 Heating bath

16 bullets 17 screw-in tube 18 blower

19 Air injection pipe 19a Air control valve 20 Nozzle pipe

21 Supporting section 22 Rostol 23 Insulation

24 Air Supply Nozzle 25 Nozzle Bar 26 Micro Hole

26a Air barrier 27 Nozzle cap 28 Support pipe

29 Ignition air supply hole

A combustion chamber 10 having an upper portion and an inner circumferential wall of a fireproof material 14 is formed, and an upper portion of the combustion chamber 10 having an upper portion is a hot delay plate 11 suspended and a cover 12 fixed with a flue 12. The plate 16 was seated, and the circumferential part was installed to surround the heating water tank 15, but a screw-type input pipe 17 for injecting coal 16 or garbage is installed on the upper side wall of one side of the combustion chamber 10. In the inner center, the nozzle tube 20 connected to the air inlet pipe 19 with the air control valve 19a installed from the blower 18 is installed and fixed by the support section 21, and the lower part of the combustion chamber 10 is installed. In a conventional configuration in which the stall 22 is installed, and the upper surface portions of the outer circumferential wall and the cover plate 13 are installed so as to be wrapped as a heat insulator 23,

At the bottom end of the nozzle tube 20, the nozzle stand 25 into which a plurality of air supply nozzles 24 are placed is installed and fixed by the support tube 28 so as to communicate with a known air injection tube 19. At the top end of the 20, the nozzle cap 27, which is installed by drilling a plurality of ultra-fine holes 26 inclined slightly downward, is fixedly installed, and the nozzle unit 25 is an air injection pipe by the support section 21. In communication with (19), located in the combustion chamber 10, located below the rostol 22 installed below, and further located in the upper portion of the rostol 22 provided below the combustion chamber (10) The circumferential portion of the pipe 20 is a configuration in which the ignition air supply hole 29 is drilled and installed.

In the drawings, reference numeral 30 denotes a reload, 31 denotes an inlet valve, and 32 denotes an outlet valve.

The effects of the present invention configured as described above will be described in detail with reference to the accompanying drawings.

The general waste or coal 16 selected for incineration through the screw-type feeding tube 17 is introduced into the combustion chamber 10 to be ignited by a separate combustion device (not shown), and at the same time, the nozzle tube 20 While supplying a small amount of air (oxygen) through the ignition air supply hole 29 drilled underneath), it is confirmed that the coal charcoal 16 is smoothly burned, and thus, the air control valve 19a is adjusted. By supplying air (oxygen) smoothly from a plurality of air supply nozzles 24 installed and installed in the nozzle unit 25, the coal coal 16 supplied into the combustion chamber 10 is smoothly combusted.

As such, the air supplied from the blower 18 is smoothly fixed at the top end of the nozzle tube 20 while the air supplied from the blower 18 is supplied to the nozzle tube 20 along the air injection tube 19. It is strongly injected through a plurality of ultra-fine holes 26 drilled in the circumference of the nozzle cap 27 is formed inside the combustion chamber 10 while the air barrier film 26a is formed on the combustion chamber 10. The outer wall of the combustion chamber 10 may be prevented from being discharged to the flue 12 as well as maintaining the maximum high heat possible inside the combustion chamber 10 while completely burning the unburned state inside the combustion chamber 10. It is possible to more smoothly the heat exchange of the heating water tank (15) installed to be wrapped.

In addition, the inside of the combustion chamber 10 by the air supplied from the plurality of air supply nozzles 24 installed in the periphery of the nozzle stand 25 provided below the rostol 22 installed below the combustion chamber 10. The heat exchange with the heating water tank 15 is made smoothly by the heat generated while the combustion state is smooth.

In this way, the heated water of the heated water tank 15 heat exchanged and heated is supplied to each of the demand destinations by the inlet valve 31 and the outlet valve 32, and can be used for the purpose of heating.

In this way, the present invention is to supply fresh air by the air supply nozzle of the nozzle unit installed in the lower part of the combustion chamber by inputting the coal charcoal obtained by highly condensing waste such as various wastes, in particular, various wastes, into the combustion chamber. The combustion efficiency can be increased by the smooth combustion action, and the heat inside the combustion chamber is kept by the air barrier membrane formed by the powerful injection air that is injected inclined somewhat downward to the micro hole of the nozzle cap fixedly fixed to the top end of the nozzle tube. It improves the efficiency of heat exchange with the heating bath without being discharged, and can use the heating water of the heating bath usefully for heating, etc. according to the use. Dogs obtained by highly condensing waste such as By using it, which is effective to prevent environmental pollution caused by waste waste.

Claims (3)

A combustion chamber 10 having an upper portion and an inner circumferential wall of a fireproof material 14 is formed, and an upper portion of the combustion chamber 10 having an upper portion is a hot delay plate 11 suspended and a cover 12 fixed with a flue 12. The plate 16 is doubled, the periphery is installed to surround the heating water tank 15, the screw-type input pipe 17 for injecting waste is installed on the upper side wall of one side of the combustion chamber 10, the blower in the inner center The nozzle tube 20 connected to the air injection pipe 19 in which the air control valve 19a is installed from 18 is installed and fixed by the support member 21, and the lower stall 22 is installed in the lower part of the combustion chamber 10. In the usual configuration, which is installed and coupled to the outer peripheral wall and the upper surface portion of the cover plate 13 so as to be wrapped as a heat insulating material 23, At the bottom end of the nozzle tube 2, the nozzle stand 25 into which a plurality of air supply nozzles 24 are placed is installed by means of a support tube 28 so as to communicate with a known air injection tube 19 so as to be coupled. Incinerator combined charcoal boiler characterized by. The method of claim 1, An incinerator combined grenade boiler, characterized in that the top end of the nozzle tube 20 is coupled to the nozzle cap 27 installed by drilling a plurality of ultra-fine holes (26). The method of claim 1, An incinerator combined charcoal boiler, characterized in that an ignition air supply hole (29) is drilled and installed in a circumference of a nozzle tube (20) located above the rostol (22) provided below the combustion chamber (10).