IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0311867
(1981-10-15)
|
우선권정보 |
CH-198007760 (1980-10-17) |
발명자
/ 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
9 |
초록
▼
The furnace has a feeding channel (4) through which firewood is transported into a fire chamber (3). A steam pipe (10) leads into the channel (4). Through said pipe (10), steam is introduced into the solid fuel material in bursts as soon as a certain temperature is exceeded within the said channel (
The furnace has a feeding channel (4) through which firewood is transported into a fire chamber (3). A steam pipe (10) leads into the channel (4). Through said pipe (10), steam is introduced into the solid fuel material in bursts as soon as a certain temperature is exceeded within the said channel (4). The steam increases the humidity in the air and the moisture of the firewood, thereby reliably preventing a spreading of the fire within the feeding channel (4), without simultaneously impairing combustion within the fire chamber (3).
대표청구항
▼
1. A furnace comprising a fire chamber (3), a feeding channel (4) for solid fuel opening into said fire chamber, feeding means for feeding said fuel through said feeding channel (4) into said fire chamber (3), a steam pipe (10) opening (11) into the said feeding channel (4) for introducing water vap
1. A furnace comprising a fire chamber (3), a feeding channel (4) for solid fuel opening into said fire chamber, feeding means for feeding said fuel through said feeding channel (4) into said fire chamber (3), a steam pipe (10) opening (11) into the said feeding channel (4) for introducing water vapor into said solid fuel present within said feeding channel (4), a water supply pipe (6), a heat exchanger (9) connecting said water pipe (6) with said steam pipe (10), said heat exchanger (9) connected adjacent the fire chamber for the purpose of evaporating water from the water pipe (6) by means of combustion heat transmitted by the said heat exchanger (9), control means (7) for controlling the feed of said water vapor including a temperature sensor (17), arranged at said feeding channel (4), said control means (7) releasing the feed of said water vapor only if a pre-set temperature in the feeding channel (4) has been exceeded, said pre-set temperature indicating a spreading of the fire out of the fire chamber (3) into said feeding channel (4), said control means including a closing means (7) connected in the water pipe (6) to control the supply of water in said water pipe to be evaporated, and said temperature sensor (17) connected to control said closing means (7) in such a manner that said closing means (7) opens in response to a sensed temperature above a pre-set temperature and closes below the said pre-set temperature, the temperature sensor (17) being located in a second heat exchanger (8), arranged at the feeding channel (4) and connected into the water pipe (6), causing the flowing water, after the opening of the closing means (7), to cool down the second heat exchanger (8) to a temperature triggering the closing of the closing means (7) after a certain amount of water has passed through. 2. A furnace as defined in claim 1, in which the second heat exchanger (8) is located in the water pipe (6), before the first mentioned heat exchanger (9), seen in the direction of the flow, and said second heat exchanger being arranged at the feeding channel (4) at a distance from the said first heat exchanger (9), as well as at a distance from the entrance to the fire chamber (3). 3. A furnace as defined in claim 1, in which said steam pipe (10) enters the feeding channel (4) at a distance from the fire chamber (3), the distance of the opening (11) from the entrance to the fire chamber preferably being a multiple of the clear width of the feeding channel (4). 4. A furnace as defined in claim 1 in which said heat exchanger (9) is connected at the end of the feeding channel (4) opening into said fire chamber (3). 5. A furnace as defined in claim 1 in which said closing means (7) closes after a pre-set temperature drop below the said pre-set temperature. 6. A furnace comprising a fire chamber (3), a feeding channel (4) for solid fuel opening into said fire chamber, feeding means for feeding said fuel through said feeding channel (4) into said fire chamber (3), a steam pipe (10) opening (11) into the said feeding channel (4) for introducing water vapor into said solid fuel present within said feeding channel (4), a water supply pipe (6), a heat exchanger (9) connecting said water pipe (6) with said steam pipe (10), said heat exchanger (9) connected adjacent the fire chamber for the purpose of evaporating water from the water pipe (6) by means of combustion heat transmitted by the said heat exchanger (9), control means (7) for controlling the feed of said water vapor including a temperature sensor (17), arranged at said feeding channel (4), said control means (7) releasing the feed of said water vapor only if a pre-set temperature in the feeding channel (4) has been exceeded, said pre-set temperature indicating a spreading of the fire out of the fire chamber (3) into said feeding channel (4), said control means including a closing means (7) connected in the water pipe (6) to control the supply of water in said water pipe to be evaporated, and said temperature sensor (17) connected to control said closing means (7) in such a manner that said closing means (7) opens in response to a sensed temperature above a pre-set temperature and closes after a pre-set time interval, the temperature sensor (17) being located in a second heat exchanger (8), arranged at the feeding channel (4) and connected into the water pipe (6), causing the flowing water, after the opening of the closing means (7), to cool down the second heat exchanger (8), the closing means (7) closing after a certain amount of water has been passed through. 7. A furnace comprising a fire chamber (3), a feeding channel (4) for solid fuel opening into said fire chamber, feeding means for feeding said fuel through said feeding channel (4) into said fire chamber (3), a steam pipe (10) opening (11) into the said feeding channel (4) for introducing water vapor into said solid fuel present within said feeding channel (4), a water supply pipe (6), a heat exchanger (9) connecting said water pipe (6) with said steam pipe (10), said heat exchanger (9) connected adjacent the fire chamber for the purpose of evaporating water from the water pipe (6) by means of combustion heat transmitted by the said heat exchanger (9), control means (7) for controlling the feed of said water vapor including a temperature sensor (17), arranged at said feeding channel (4), said control means (7) releasing the feed of said water vapor only if a pre-set temperature in the feeding channel (4) has been exceeded, said pre-set temperature indicating a spreading of the fire out of the fire chamber (3) into said feeding channel (4), said control means including a closing means (7) connected in the water pipe (6) to control the supply of water in said water pipe to be evaporated, and said temperature sensor (17) connected to control said closing means (7) in such a manner that said closing means (7) opens in response to a sensed temperature above a pre-set temperature and closes below the said pre-set temperature, the temperature sensor (17) being located in the heat exchanger arranged at the feeding channel (4) and connected into the water pipe (6), causing the flowing water, after the opening of the closing means (7), to cool down the heat exchanger to a temperature triggering the closing of the closing means (7) after a certain amount of water has been evaporated. 8. A furnace comprising a fire chamber (3), a feeding channel (4) for solid fuel opening into said fire chamber, feeding means for feeding said fuel through said feeding channel (4) into said fire chamber (3), a steam pipe (10) opening (11) into the said feeding channel (4) for introducing water vapor into said solid fuel present within said feeding channel (4), a water supply pipe (6), a heat exchanger (9) connecting said water pipe (6) with said steam pipe (10), said heat exchanger (9) connected adjacent the fire chamber for the purpose of evaporating water from the water pipe (6) by means of combustion heat transmitted by the said heat exchanger (9), control means (7) for controlling the feed of said water vapor including a temperature sensor (17), arranged at said feeding channel (4), said control means (7) releasing the feed of said water vapor only if a pre-set temperature in the feeding channel (4) has been exceeded, said pre-set temperature indicating a spreading of the fire out of the fire chamber (3) into said feeding channel (4), said control means including a closing means (7) connected in the water pipe (6) to control the supply of water in said water pipe to be evaporated, and said temperature sensor (17) connected to control said closing means (7) in such a manner that said closing means (7) opens in response to a sensed temperature above a pre-set temperature and closes after a pre-set time interval, the temperature sensor (17) being located in the heat exchanger, arranged at the feeding channel (4) and connected into the water pipe (6), causing the flowing water, after the opening of the closing means (7), to cool down the heat exchanger, the closing means (7) closing after a certain amount of water has been passed through.
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