181 |
Control system of incinerator provided with waste heat recovering boiler |
JP14296381 |
1981-09-10 |
JPS5843323A |
1983-03-14 |
TAKADA NORIKAZU; YAMAGUCHI HIROSHI |
PURPOSE:To always maintain a favorable burning condition for an incinerator, by controlling the forced rate of the primary combustion air by detecting the open/close condition of a loading port for combustible material, the temperature in the primary combustion chamber, the steam pressure in a boiler, and the like, and by controlling the forced rate of the secondary combustion air by detecting the oxygen density in exhaust gas. CONSTITUTION:The inside of an incinerator is divided into two chambers by a partition wall, and the primary combustion chamber 1 and the secondary combustion chamber 2 are located in front and in the back positions, above which a boiler 3 to recover heat is located. In this case, a detector V to detect the steam pressure or the temperature in hot water is provided to the boiler 3, together with an oxygen concentration detector D, to a smoke chamber located in the above part of the secondary combustion chamber 2, and a limit switch L to detect the open/close action of a loading port 7 for combustible material, respectively. The operating motors M1 and M2 for the primary and the secondary air forcing dampers 5a and 5b are controlled by the outputs from the above-mentioned detectors by the intermediary of the primary and the secondary combustion controllers 9 and 10. Further, an operating motor M3 for the damper 6a of an induced fan 6 is controlled by an equilibrium controller 8, so as to become an inducement for arbitrarily setting the ratio of a forced air-flow rate to an induced air-flow rate. |
182 |
Safety control circuit of hot water boiler |
JP11678881 |
1981-07-25 |
JPS5818019A |
1983-02-02 |
SUZUKI YASUSHI; WATANABE MITSUYASU |
PURPOSE:To make a titled hot water boiler not to operate when a detecting circuit is out of order, by starting a series of action as the hot water boiler after confirmation of normal action for a spark detecting circuit and a flame detecting circuit which control a solenoid valve in a gas duct at an initial stage. CONSTITUTION:When actions of a spark detecting circuit 82 and a flame detecting circuit 83 are normal, an exhaust fan 6 is driven, a prepurge timer circuit 85 is actuated through an air pressure switch 60, then an ignitor 7 is actuated, a spark is detected by a spark detecting circuit 82, gas is supplied and ignited through actuation of a solenoid valve 8. On the other hand, when either the detecting circuit 82 or 83 is unusual action is suspended after that, and a hazard, such as release of the gas is eliminated, as a thyristor 56 is kept off as it was and neither a relay 9 is excited nor the exhaust fan 6 is operated. |
183 |
Control method of combustion, in combustion furnace |
JP11658181 |
1981-07-24 |
JPS5818017A |
1983-02-02 |
OOTANI KEIICHI; ODAWARA RIYUUICHI; MORIMOTO KOUTAROU; HASHIMOTO YOSHIYUKI |
PURPOSE:To maintain most favourable combustion state in general and to find out an unusual burner, by controlling a combustion state of the whole of a burner by making a mean value of signals expressing the combustion states gained as a result of measurement of each of microscopic pressure oscillations of a plurality of burners into an index. CONSTITUTION:Air quantity for combustion and atomizing quantity of liquid fuel are controlled by a combustion controller part 6 by detecting 13 and amplifying 14 a microscopic pressure oscillation signal from each of burners of a combustion furnace part 1 having a plurality of the burners by a measuring apparatus part 2, which is scanned 15, treated 16 with signal, and turned into A/D conversion by a signal perliminary treatment part 3, which is read in, averaged and calculated in comparison with setting input 19, and then a disorder of the burner found as a result of comparison between the above mean value and an individual signal from each of the burners is indicated on an indicator part 7. |
184 |
Safety control circuit for gas water heater |
JP8530281 |
1981-06-03 |
JPS57202420A |
1982-12-11 |
WATANABE MITSUYASU; SUZUKI YASUSHI |
PURPOSE:To obviate a hazard such as gas ejection, by constituting a control circuit such that a series of operations as a water heater is started after confirming a normal operation of a spark detecting circuit and a flame detecting circuit. CONSTITUTION:After an operation switch 14 is turned ON, a transistor 31 turns ON in case a spark detecting circuit 82 is abnormal, and a transistor 49 turns ON in case a flame detecting circuit 83 is abnormal. As a result, transistors 52 and 55 turn ON, and no signal is applied to a gate of a thyristor 56, whereby the thyristor 56 is left in an OFF state, a relay 9 is not excited, and and exhaust fan 6 is not brought to an operation. Thereby, an air pressure switch 60 is not released and a prepurge timer circuit 85 does not actuate, and as a result, an igniter 7 does not work, a transistor 50 does not turn ON, a relay 11 is not excited, and gas is not supplied. This prevents a water heater from actuating which results in ensuring safety even if a failure happens in either one of the two circuits. |
185 |
Combustion controller |
JP8137481 |
1981-05-26 |
JPS57198920A |
1982-12-06 |
MURAKI YOSHIJI; KOASHI KATSUE; NUMATA SEIICHI; HAYASHI KANJI |
PURPOSE:To control a combustion device appropriately, by a method wherein the openings of a fuel valve and an air valve are automatically adjusted in accordance with the data respresenting the relationship between the opening of a fuel valve and the flow rate of fuel, the data representing the relationship between the opening of the air valve and the flow rate of air. CONSTITUTION:An electrically operated valve 4 for regulating fuel flow rate and an air damper 5 for regulating air flow rate are controlled by a main controller 18 provided with a RAM21 which appropriately processes various data 22-1 22-7 inputted from a console 19 and stores the data. A calculating circuit 23 is provided which calculates the fuel flow rate in accordance with the difference between a control target value stored in the first memory region 21-1 of the RAM21 and an output from a pressure gage 11 for detecting the steam pressure in a boiler. In addition, calculating circuits 24, 26 are provided which obtain the openings of the valve 4 and the damper 5 in accordance with the data stored in the second and third memory regions 21-2, 21-3 of the RAM21 and an output from the circuit 23, and a calculating circuit 25 is provided which calculates the air flow rate on the basis of the data stored in the fourth memory region 21-4 of the RAM21. |
186 |
Gasification combustion control device for liquid fuel |
JP6583581 |
1981-04-30 |
JPS57182023A |
1982-11-09 |
SHIRAGAKI SHIGERU; MORIO SHIYUUJI; TABUSE HIROYUKI |
PURPOSE:To perform an appropriate setting of a period of preliminary combustion by a method wherein a period of preliminary combustion is controlled in response to a charging voltage of a capacitor receiving a flame sensing signal of the preliminary combustion burner by a gasification combustion control device for performing a full combustion of petroleum gasified after the preliminary combustion. CONSTITUTION:When started, the switch 1 is turned on, and the fan FM is energized and at the same time the igniter IG and the preliminary combustion valve V1 are energized through a changing-over contact point 1K1 of a relay. Then, an initiation of air blowing of the fan FM causes the air pressure switch 3 to be turned on, the fuel pump P is operated to start the preliminary combustion. Under this preliminary combustion, when the flame of the preliminary combustion burner is sensed, the comparator 5 shows an output H with the flame signal and the charging of the capacitor C1 is initated. When the charging voltage of the capacitor C1 is increased and the output of the amplifier 6 is generated, the transistor 9 is turned on through the timer circuit 7, the relay 1K is operated to change over the contact point 1K1 to the full combustion valve V2. |
187 |
Gasification combustion control device for liquid fuel |
JP6583381 |
1981-04-30 |
JPS57182022A |
1982-11-09 |
SHIRAGAKI SHIGERU; MORIO SHIYUUJI; TABUSE HIROYUKI |
PURPOSE:To prevent an excessive or lacked preliminary combustion caused by a variation in the surrounding temperature etc. by a method wherein a temperature of hot water in the boiler is sensed so as to control a time of preliminary combustion in response to a variation of the temperature of the hot water by a gasification combustion control device for performing a full combustion of petroleum gasified after the preliminary combustion. CONSTITUTION:When started, the switch 1 is turned on, and the fan FM is energized and at the same time the igniter IG and the preliminary combustion valve V1 are energized through a changing-over contact point 1K1 of a relay. Then, an initiation of air blowing of the fan FM causes the air pressure switch 3 to be turned on, the fuel pump P is operated to start the preliminary combustion. Under this preliminary combustion, the temperature of the hot water in the boiler is gradually increased, and a difference in outputs of the thermistor 5 for sensing the temperature of hot water and a resistor VR for setting the temperature of hot water is decreased and an output of the differential amplifier 8 is decreased, the transistor 11 is turned on through the timer circuit 9 to cause the relay 1K to be operated. Then, the contact point 1K1 is changed over to the full combustion valve V2 and at this time the full combustion is started. |
188 |
Combustion controller |
JP2274781 |
1981-02-18 |
JPS57136021A |
1982-08-21 |
NATSUMEDA TAKESHI; TANAHASHI TAKASHI; UEMATSU HIDEO; YAMAMOTO KOUJI |
PURPOSE:To prevent unbalancing of an air-fuel ratio, by constituting a device such that a regulating damper for combustion air amount in a combustion controller employing a return type nozzle is drive-controlled by means of an electric signal obtained from the return pressure of the return type nozzle. CONSTITUTION:A return pressure PR is inputted to a return pressure-electric signal converter 14 through a return pressure transfer pipe 15, is converted into a reference input to a damper motor 10, and is inputted to a comparision amplifier 12. The comparision amplifier 12 controls rotation of a damper 9 for regulating air amount by comparing the reference input with a signal 13 of a potentiometer 11 for detecting the position of the damper motor 10. This permits a relation between fuel jet amount and a fuel-air amount to have no connection with unevenness of an operation characteristic of a pressure control valve 6, and prevents an air-fuel ration from becoming unbalanced, which results in maintaining an appropriate air-fuel ratio. |
189 |
Heater |
JP14539881 |
1981-09-14 |
JPS5782618A |
1982-05-24 |
RARUFU EICHI TOOBOOGU |
|
190 |
Burner control device |
JP13260977 |
1977-11-07 |
JPS5366025A |
1978-06-13 |
HANSU PAA RAINHORUDO EDOMAN |
|
191 |
Furnace pressure controller |
JP9014676 |
1976-07-28 |
JPS5219334A |
1977-02-14 |
POORU BINSENTO GIIDOU; ROBAATO RENAKUSU KURISUUERU |
|
192 |
Combustion control device |
JP2007500471 |
2006-01-19 |
JP4877604B2 |
2012-02-15 |
晃 ▲高▼林; 賢謙 久保谷; 雅由 保川; 崇 八島; 真一 岡本; 知樹 岸本; 裕史 横山; 裕司 高木 |
|
193 |
燃焼制御装置 |
JP2007500471 |
2006-01-19 |
JPWO2006080223A1 |
2008-06-19 |
岸本 知樹; 知樹 岸本; 高木 裕司; 裕司 高木; 保川 雅由; 雅由 保川; 晃 ▲高▼林; 岡本 真一; 真一 岡本; 裕史 横山; 崇 八島; 久保谷 賢謙; 賢謙 久保谷 |
給湯器等に内蔵される燃焼制御装置に関するものであり、主制御装置と副制御装置を備えた構成のものを改良し、副制御装置に低能力のマイクロコンピュータを採用することが可能であり、且つ従来のものに比べて安全性が高い燃焼制御装置を提供する。主制御装置35および副制御装置36には燃焼装置の動作状態を知るための信号が並列的に入力される。主制御装置35及び副制御装置36は所定の停止条件となった場合に停止信号を出力し、機器駆動回路42への通電を遮断する。副制御装置36が停止信号を出力する際の停止条件は、主制御装置35が停止信号を出力する際の停止条件に比べて緩やかである。 |
194 |
Portable electronic device with built-in lighter |
JP2003289927 |
2003-08-08 |
JP2005061671A |
2005-03-10 |
ULRICH FARBEAR |
PROBLEM TO BE SOLVED: To provide a lighter easy to be brought to prevent the lighter from being left by integrating a portable electronic device with the lighter, and to achieve miniaturization and multi-functions.
SOLUTION: A cellular phone 1 has a display screen 12 on one side thereof to be inside when a casing 11 is folded through a hinge and a key operation board 13 having a menu key 131 and a selection key 132 on the other side thereof. A built-in antenna 14 is built in a part close to the hinge in a back side of the screen 12 inside the casing 11, and a built-in lighter 3 is embedded for installation in a tip part of the casing on a side opposite to the hinge. When an igniting slide switch 4 provided in a casing 11 side surface is operated, a nozzle cover 31 is opened and the ignited flame appears from a nozzle 30. A cartridge type fuel tank of the built-in lighter is used, and functions for detecting quantity of fuel gas and displaying screen and a safety lock means for the nozzle 30 are provided.
COPYRIGHT: (C)2005,JPO&NCIPI |
195 |
Control device for controlling the fuel gas and oxidizing agent supply to the burner in an atomic absorption spectrophotometer |
JP3897785 |
1985-03-01 |
JPH0660872B2 |
1994-08-10 |
ベルンハルト・フーバー |
|
196 |
JPH0573917B2 - |
JP1085883 |
1983-01-26 |
JPH0573917B2 |
1993-10-15 |
TANAKA JUJI |
|
197 |
JPH0549893B2 - |
JP8115984 |
1984-04-24 |
JPH0549893B2 |
1993-07-27 |
YOKOTA HAYATO |
|
198 |
JPH0541893B2 - |
JP6618583 |
1983-04-14 |
JPH0541893B2 |
1993-06-24 |
KOYANAGI YASUO; SHIMADA KATSUHIKO; HORIGOME HIDEKAZU |
|
199 |
JPH056088B2 - |
JP21170483 |
1983-11-12 |
JPH056088B2 |
1993-01-25 |
YOKOTA HAYATO |
|
200 |
JPH0429936B2 - |
JP29216386 |
1986-12-08 |
JPH0429936B2 |
1992-05-20 |
|
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