Title of Invention

"AN INCINERATOR "

Abstract An incinerator includes a furnace 10, a heat-insulating shield 20, an air conduit 213, an air blower 86, and a dryer 90. The heat-insulating shield 2 0 has a top wall 211, a vertically extending peripheral wall 21 that extends downwardly from the top wall 211 and that surrounds and that is spaced apart from the furnace 10 by a gap 101, and an open bottom end 212 . The peripheral wall 21 of the heat-insulating shield 20 has an air outlet 213 that is disposed adjacent to the top wall 211 and that is in fluid communication with the gap 101. Atmospheric air is introduced via the open bottom end 212 through the gap 101 and the air conduit and into the dryer 90. A feed motor 35 is used to deliver solid waste into the furnace 10. A control unit controls rotating speed of the feed motor 35 based on temperature in the dryer 90 so as to adjust the temperature in the dryer 90.
Full Text 1
This invention relates to an incinerator, more particularly to an incinerator with a dryer and a control unit for controlling temperature in the dryer.
The object of the present invention is to provide an incinerator with a heat -insulating shield that surrounds a furnace for heating air in a gap therebetween. The heated air is then used for drying crops in a dryer. The temperature in the dryer is controlled by using a temperature sensor and a control unit which controls a feed motor, a rake motor, and an air-flow controller of the incinerator.
According to the present invention, an incinerator comprises: a furnace adapted to incinerate solid waste and including a vertically extending peripheral wall having a bottom section defining a main combustion chamber, an intermediate section extending upwardly from the bottom section to define an auxiliary combustion chamber, and a top section extending upwardly from the intermediate section and formed with an effluent outlet for exit of a combustion gas generated in the main and auxiliary combust ion chambers; a feeding unit including a feed motor for delivering solid waste into the furnace; a cyclone separator connected to the

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effluent outlet for receiving the combustion gas from the furnace; a heat-insulat ing shield having a top wall, a vertically extending peripheral wall that extends downwardly from the top wall and that surrounds and that is spaced apart from the peripheral wall of the furnace by a gap, and an open bottom end, the top section of the peripheral wall of the furnace extending outwardly through the top wall, the effluent outlet being disposed outwardly of the heat - insulating shield, the peripheral wall of the heat-insulating shield having an air outlet that is disposed adjacent to the top wall and that is in fluid communication with the gap; an air conduit connected to the air outlet and in fluid communication with the gap via the air outlet; a dryer connected to and in fluid communication with the air conduit; an air blower disposed downstream of the air outlet for introducing atmospheric air via the open bottom end through the gap and the air conduit and into the dryer such that the introduced atmospheric air is heated in the gap by virtue of heat flow from the peripheral wall of the furnace into the gap; a temperature sensor mounted in the dryer for measuring temperature in the dryer and for generating an electrical signal that corresponds to the temperature in the dryer; and a control unit electrically connected to the temperature sensor for receiving the electrical

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signal and further connected to the feed motor for controlling rotating speed of the feed motor based on the temperature in the dryer so as to adjust the temperature in the dryer.
In drawings which illustrate an embodiment of the invention,
Fig. 1 is a schematic view of an incinerator embodying this invention;
Fig. 2 is a schematic top view of the incinerator of Fig. 1;
Fig. 3 is a schematic top view to illustrate how an air-flow controller of the incinerator of Fig. 1 is operated to open a control valve;
Fig. 4 is a schematic top view to illustrate how the air flow controller of Fig. 5 is operated to close the control valve; and
Fig. 5 is a block diagram showing a dryer, a feed motor, a rake motor, and a driving unit controlled by a control unit upon receiving an electrical signal from a temperature sensor that is disposed in the dryer.
Figs. 1 to 5 illustrate a preferred embodiment of an incinerator of this invention for combustion of solid waste, such as hul 1 or shell waste of agricultural crops.
The incinerator includes: a furnace 10 having a vertically extending peripheral wall 11 with a

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bottom section 111 defining a main combustion chamber 121, an intermediate section 112 extending upwardly from the bottom section 111 to define an auxiliary combustion chamber 122, a cooling section 113 extending upwardly from the intermediate section 112, and a top section 114 extending upwardly from the cooling section 113 and formed with an effluent outlet 44 for exit of a combustion gas generated in the main and auxiliary combustion chambers 121, 122, a partition plate 15 being disposed in the furnace 10 to separate the main and auxiliary combustion chambers 121, 122 and being formed with a channel 151 that is in fluid communication with the main and auxiliary combustion chambers 121, 122; a feeding unit including a feed motor 35 for delivering solid waste into said furnace 10; a cooler 14 disposed in the cooling section 113 for cooling the combustion gas passing therethrough; a cyclone separator 40 connected to the effluent outlet 44 for receiving the combustion gas from the furnace 10; a heat - insulating shield 2 0 having a top wall 211, a vertically extending peripheral wall 21 that extends downwardly from the top wall 211 and that surrounds and that is spaced apart from the peripheral wall 11 of the furnace 10 by a gap 101, and an open bottom end 212, the top section 114 of the peripheral wall 11 of the furnace 10 extending outwardly through the top wall

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211, the effluent outlet 44 being disposed outwardly
of the heat-insulating shield 20, the peripheral wall
21 of the heat-insulating shield 20 having an air
outlet 213 that is disposed adjacent to the top wall
211 and that is in fluid communication with the gap
101; an air conduit connected to the air outlet 213
and in fluid communication with the gap 101 via the
air outlet 213; a dryer 90 connected to and in fluid
communication with the air conduit; an air blower 86
disposed downstream of the air outlet 213 and mounted
on the air conduit for introducing atmospheric air
via the open bottom end 212 through the gap 101 and
the air conduit 213 and into the dryer 90 such that
the introduced atmospheric air is heated in the gap
101 by virtue of heat flow from the peripheral wall
11 of the furnace 10 into the gap 101; a temperature
sensor 200 (see Fig. 5) mounted in the dryer 90 for
measuring temperature in the dryer 90 and for
generating an electrical signal that corresponds to
the temperature in the dryer 90; and a control unit
300 electrically connected to the temperature sensor
200 for receiving the electrical signal and further
connected to the feed motor 35 for controlling
rotating speed of the feed motor 3 5 based on the
temperature in the dryer 90 so as to vary feeding rate
of solid waste into the furnace 10 and so as to adjust
the temperature in the dryer 90 .

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The heat-insulating shield 20 is formed with a plurality of baffles 23 , 24 interconnecting the peripheral wall 21 of the heat - insulating shield 20 and the peripheral wall 11 of the furnace 10 so as to form a tortuous channel 102 thereamong for passage of the hot air flowing in the gap 101.
Referring to Figs. 2 to 4, the air conduit has first and second sections 81, 82. An air-flow controller 80 is disposed between the first and second sections 81, 82, and includes a control valve 83, a pinion-and-rack unit 84, and a driving unit 843 mounted on the air conduit. The first section 81 has one end connected to the air outlet 213, and an opposite end connected to the second section 82 . The second section 82 has an enlarged end 821 which has an inner wall 822, which receives the opposite end of the first section 81, and which converges in a direction toward an opposite end of the second section
82 opposite to the enlarged end 821 . The control valve
83 is disposed in the enlarged end 821 of the second
section 82, and includes a lower disc 85 that extends
radially and inwardly from the inner wall 822 around
the opposite end of the first section 81, and an upper
disc 87 that is rotatably stacked on the lower disc
85. The upper and lower discs 87, 85 are formed with
angularly spaced apart upper and lower slots 871, 851
around the opposite end of the first section 81. The

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pinion-and-rack unit 84 includes a rack 841 secured to the upper disc 87, and a pinion 842 coupled to the driving unit 843 and meshing with the rack 841 so as to permit rotation of the upper disc 87 relative to the lower disc 85 between an open position (see Figs. 3 and 4), in which, the upper and lower slots 871, 851 overlap, thereby permitting atmospheric air to be introduced into the enlarged end 821 of the second section 82 via the upper and lower slots 871, 851 upon actuation of the air blower 86, and a closed position, in which, the upper and lower slots 871, 851 are offset from each other and are closed by the lower and upper discs 85, 87, respectively, thereby prevent ing atmospheric air from flowing into the enlarged end 821 of the second section 82 via the upper and lower slots 871, 851. The control unit 300 is electrically connected to the driving unit 843 for moving the upper disc 8 7 between the open and closed positions based on the temperature in the dryer 90 so as to vary flow rate of atmospheric air into the air conduit via the upper and lower slots 871, 851 and so as to adjust the temperature in the dryer 90.
A feeding device 30 is connected to the furnace 10 for feeding the solid waste into the furnace 10, and includes a hopper 31 with a bottom outlet 332, a rotary wheel 352 driven by the feed motor 35 and rotatably disposed in the hopper 31 for feeding the

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solid waste to the bottom outlet 332, a pipe 33 interconnecting the bottom outlet 332 and the furnace 10, and a blower 32 connected to the bottom outlet 332 for delivering the solid waste into the furnace 10 via the pipe 33.
A main blower 71 is connected to the furnace 10 via an air pipe 72 for delivering air into the furnace 10 .
A perforated supporting plate 13 is disposed in the bottom section 111 of the furnace 10 for supporting the solid waste, and is formed with a plurality of holes 131 for passage of ash therethrough. Ash falling from the supporting plate 13 via the holes 131 is transferred to a bottom exit 115 of the furnace 10 via a second rotary wheel 51 driven by a motor 52. Another blower 53 is connected to the bottom exit 115 for delivering the falling ash into the cyclone separator 40 via a pipe 54. A rake 552 is disposed rotatably over the supporting plate 13 for stirring ash on the supporting plate 13 and for facilitating falling of ash through the holes 131 so as to increase combustion efficiency of the furnace 10. A rake motor 55 is connected to the rake 552 for rotating the rake 552. The control unit 300 is electrically connected to the rake motor 55 for controlling rotating speed of the rake motor 55 based on the temperature in the dryer 90 so as to adjust the temperature in the dryer 90.

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WE CLAIM
1. An incinerator characterized by:
a furnace 10 adapted to incinerate solid waste and including a vertically extending peripheral wall 11 having a bottom section 111 defining a main combustion chamber 121, an intermediate section 112 extending upwardly from said bottom section 111 to define an auxiliary combustion chamber 122, and a top section 114 extending upwardly from said intermediate section 112 and formed with an effluent outlet 213 for exit of a combustion gas generated in said main and auxiliary combustion chambers 121, 13 3;
a feeding unit including a feed motor 35 for delivering solid waste into said furnace 10;
a cyclone separator 40 connected to said effluent outlet 213 for receiving the combustion gas from said furnace 10;
a heat -insulating shield 20 having a top wall 211, a vertically extending peripheral wall 21 that extends downwardly from said top wall 211 and that surrounds and that is spaced apart from said peripheral wall 11 of said furnace 10 by a gap 101, and an open bottom end 212, said top section 114 of said peripheral wall 11 of said furnace 10 extending outwardly through said top wall 211, said effluent outlet 213 being disposed outwardly of said heat-insulating shield 20, said peripheral wall 21 of said

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heat - insulating shield 20 having an air outlet 213 that is disposed adjacent to said top wall 211 and that is in fluid communication with said gap 101;
an air conduit connected to said air outlet 213 and in fluid communication with said gap 101 via said air outlet 213;
a dryer 9 0 connected to and in fluid communication with said air conduit;
an air blower 86 disposed downstream of said air outlet 213 for introducing atmospheric air via said open bottom end 212 through said gap 101 and said air conduit and into said dryer 90 such that the introduced atmospheric air is heated in said gap 101 by virtue of heat flow from said peripheral wall 11 of said furnace 10 into said gap 101;
a temperature sensor 200 mounted in said dryer 90 for measuring temperature in said dryer 90 and for generating an electrical signal that corresponds to the temperature in said dryer 90; and
a control unit 3 00 electrically connected to said temperature sensor 2 00 for receiving said electrical signal and further connected to said feed motor 35 for controlling rotating speed of said feed motor 3 5 based on the temperature in said dryer 9 0 so as to adjust the temperature in said dryer 90. 2. The incinerator as Claimed in, where in said furnace 10 further includes a perforated

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supporting plate 13 disposed in said main combustion chamber 121 for supporting solid waste thereon, said supporting plate 13 being formed with a plurality of holes 131 for passage of ash therethrough, said furnace 10 further including a rake 552 that is disposed rotatably over said supporting plate 13 for stirring ash on said supporting plate 13 and for facilitating falling of ash through said holes 131 so as to increase combustion efficiency of said furnace 10, said incinerator further comprising a rake motor 55 for rotating said rake 552, said control unit 300 being electrically connected to said rake motor 55 for controlling rotating speed of said rake 552 based on the temperature in said dryer 90 so as to adjust the temperature in said dryer 90 3. The incinerator as claimed in claim 2, where in said air conduit has first and second sections 81, 82, said incinerator further comprising an air-flow controller 80 which is disposed between said first and second sections 81, 82 and which includes a control valve 83, a pinion-and-rack unit 84, and a driving unit 843 mounted on said air conduit, said first section 81 having one end connected to said air outlet 213, and an opposite end connected to said second section 82, said second section 82 having an enlarged end 821 which has an inner wall 822, which receives said opposite end of said first section 81,

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and which converges in a direction toward an opposite end of said second section 82 opposite to said enlarged end 821, said control valve 83 being disposed in said enlarged end 821 of said second section 82, and including a lower disc 85 that extends radially and inwardly from said inner wall 82 2 around said opposite end of said first section 81, and an upper disc 87 that is rotatably stacked on said lower disc 85, said upper and lower discs 87, 85 being formed with angularly spaced apart upper and lower slots 871, 851 around said opposite end of said first section 81, said pinion-and-rack unit 84 including a rack 841 secured to said upper disc 87, and a pinion 842 coupled to said driving unit 843 and meshing with said rack 841 so as to permit rotation of said upper disc 8 7 relative to said lower disc 8 5 between an open position, in which, said upper and lower slots 871, 851 overlap, thereby permitting atmospheric air to be introduced into said air conduit via said upper and lower slots 871, 851 upon actuation of said air blower SB, and a closed position, in which, said upper and lower slots 871, 851 are offset from each other and are closed by said lower and upper discs 85, 87, respectively, thereby preventing atmospheric air from flowing into said air conduit via said upper and lower slots 871, 851, said control unit 3 00 being electrically connected to said driving unit 843 for

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moving said upper disc 87 between said open and closed positions so as to adjust the temperature in said dryer 90.

An incinerator includes a furnace 10, a heat-insulating shield 20, an air conduit 213, an air blower 86, and a dryer 90. The heat-insulating shield 2 0 has a top wall 211, a vertically extending peripheral wall 21 that extends downwardly from the top wall 211 and that surrounds and that is spaced apart from the furnace 10 by a gap 101, and an open bottom end 212 . The peripheral wall 21 of the heat-insulating shield 20 has an air outlet 213 that is disposed adjacent to the top wall 211 and that is in fluid communication with the gap 101. Atmospheric air is introduced via the open bottom end 212 through the gap 101 and the air conduit and into the dryer 90. A feed motor 35 is used to deliver solid waste into the furnace 10. A control unit controls rotating speed of the feed motor 35 based on temperature in the dryer 90 so as to adjust the temperature in the dryer 90.

Documents:

00279-cal-2002-abstract.pdf

00279-cal-2002-claims.pdf

00279-cal-2002-correspondence.pdf

00279-cal-2002-description(complete).pdf

00279-cal-2002-drawings.pdf

00279-cal-2002-form-1.pdf

00279-cal-2002-form-18.pdf

00279-cal-2002-form-2.pdf

00279-cal-2002-form-3.pdf

00279-cal-2002-letters patent.pdf

279-CAL-2002-FORM 27-1.1.pdf

279-CAL-2002-FORM 27.pdf

279-CAL-2002-FORM-27.pdf


Patent Number 207094
Indian Patent Application Number 279/CAL/2002
PG Journal Number 21/2007
Publication Date 25-May-2007
Grant Date 23-May-2007
Date of Filing 08-May-2002
Name of Patentee LIN DAI-YOU
Applicant Address OF 10F-1,NO.48, WU-CHUAN WU ST., HSI DIST-TAICHUNG CITY
Inventors:
# Inventor's Name Inventor's Address
1 LIN DAI-YOU WU ST., HSI DIST-TAICHUNG CITY
PCT International Classification Number F 23 M 9/00
PCT International Application Number N/A
PCT International Filing date
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 NA