| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | JPS5945900B2 - | JP9160382 | 1982-05-28 | JPS5945900B2 | 1984-11-09 | OOHASHI KAZUO |
| 22 | Ignition device for moxa | JP9160382 | 1982-05-28 | JPS58208518A | 1983-12-05 | OOHASHI KAZUO |
| PURPOSE:To provide an ignition device for a moxa, having characteristics that its ignition is easy with a simple method, a plastic body casing ensures its freedom from any demage due to heats generated while the moxa is being burnt or an ignition heater is being heated, and the moxa can be inserted positively. CONSTITUTION:A moxa insertion port 6 is defined in an opposed relation against an ignition heater 7, and has a metallic cap 18 attached thereto. The metallic cap 18 doubles as a moxa insertion guide. The reason for providing this metallic cap 18 is to prevent a plastic body casing 2 from being burnt by heats generated from the ignition heater 7 and the moxa 16 while they are being heated or burnt. Because of its cylindrical shape to double as an insertion guide of the moxa 16, the metallic cap 18 can ensure that the moxa 16 can be positively inserted into its predetermined position. | ||||||
| 23 | Ignition device for moxa | JP9159182 | 1982-05-28 | JPS58208516A | 1983-12-05 | OOHASHI KAZUO; HATSUTA SHIYOUYA |
| PURPOSE:To make available to ignite a moxa by merely pressing a switch button, by arranging such that a switch button is provided in a body casing in an opposed relation at one end of a lever freely movably provided with its fulcrum point on its central portion, and an ignition switch having a filament is secured at other end of the lever. CONSTITUTION:When igniting a moxa 16, a switch button 9 is pressed in the direction of arrow mark. By so pressing, one end of a fulcrum 4 is pressed downwardly to enter into contact with a negative side battery cell lead 13 to close an energizing circuit for an ignition heater 7. This can energize a filament 7a of the ignition heater 7 for heating it as red heat, and the lever 4 is simultaneously caused to move up-and-down about a fulcrum 3 with an attendant upward movement of the ignition heater 7 fixed at other end of the lever 4. In this manner, the filament 7a heated as red heat contacts with the moxa for a subsequential ignition thereof. | ||||||
| 24 | Apparatus for setting fire | JP30676089 | 1989-11-28 | JPH02279916A | 1990-11-15 | ANTONIO MOREU MARARETO |
| PURPOSE: To obtain an apparatus for setting fire at a distance easy to handle by providing an electrical heating resistor lodged with an electrical insulator in a tubular structure, and a heat conducting material wherein one end of the tubular structure is located in a handle provided with a connecting plug connected with the electrical heating resistor. CONSTITUTION: An apparatus for setting fire has a handle 1 provided at the forward end thereof, with a plug 2 to be connected with a power supply and a suspension ring 3. A tube 4 is made of a material excellent in thermal conduction and an electrical heating resistor 6 is lodged therein while being insulated 7. The forward ends are connected by a cable 8 and connected through a strip 9 with the connector plug 2. Upon receiving a current, the resistor 6 generates significant heat which is transmitted to the tube structure 4 and imparted to wood to be fired when the apparatus is gripped at the handle 1. COPYRIGHT: (C)1990,JPO | ||||||
| 25 | JPS5945899B2 - | JP9160282 | 1982-05-28 | JPS5945899B2 | 1984-11-09 | OOHASHI KAZUO |
| 26 | Ignition device for moxa | JP9160282 | 1982-05-28 | JPS58208517A | 1983-12-05 | OOHASHI KAZUO |
| PURPOSE:To ignite a moxa positively by means of an ignition heater, by arranging such that an ignition can be effected very simply and a lever is guided by a rib having its one side attached to a body casing with a basis on a construction wherein a filament of the ignition heater can ignite the moxa merely by pressing down a switch button. CONSTITUTION:When igniting a moxa 16, a switch button 9 is pressed downwardly in the direction shown by an arrow mark. This pressing can cause one end of a lever 4 to be pressed downwardly to enter into contact with a negative side battery lead 13 for interrupting an energizing circuit to an ignition heater 7. A filament 7a of the ignition heater 7 is heated red by energization and the lever 4 simultaneously moves up-and-down about a fulcrum point 3, and thereby shifting the ignition heater 7 fixed at other end of the lever 4 upwardly with a resultant contact of the red-heated filament 7a with the moxa 16 for effectuating an ignition thereof. | ||||||
| 27 | PLASMA OIL-FREE FIRE LIGHTING SYSTEM IN OXYGEN-ENRICHED ENVIRONMENT | EP12824756.6 | 2012-02-16 | EP2770257A1 | 2014-08-27 | ZHENG, Lu; ZHANG, Jianwen; LI, Yuehua; ZHAO, Yang |
A plasma oil-free ignition system in oxygen enriched environment comprises a plasma generator and a burner. The plasma oil-free ignition system comprises a sleeve group coaxially arranged with the burner, and the sleeve group comprises multiple coaxially sleeved sleeves. Annular spaces are formed between adjacent sleeves and between the sleeves and the burner. Oxygen ducts are arranged on the sleeves, and oxygen ducts are arranged on the burner. Plasmas jetted by the plasma generators form a local high temperature zone filled with high temperature plasma and pulverized coal air flow. A certain amount of oxygen is fed to the burner through the oxygen duct therein to form local oxygen enriched zones in the annular spaces and the subsequent adjacent spaces through which air flows, thus realizing oxygen enriched combustion of volatile matters or coke or mixture thereof, and combustion the pulverized coal air flow more intensely to release more heat so as to ignite the primary air pulverized coal air flow quickly and burn the pulverized coal air flow stably. The invention has simple structure, is applicable to different coal types, especially applicable to the plasma oil-free ignition system in oxygen enriched environment of coal types with low volatile matters. |
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| 28 | Elektrische Zündvorrichtung für Brennmaterial in einer Heizeinrichtung sowie damit ausgestattete Heizeinrichtung | EP13165125.9 | 2013-04-24 | EP2657604A2 | 2013-10-30 | Riener, Karl Stefan |
Die Erfindung betrifft eine elektrische Zündvorrichtung (2) für Brennmaterial in einer Heizeinrichtung. Diese Zündvorrichtung (2) umfasst ein elektrisches Heizelement (10) mit einem keramischen Tragkörper (12) für elektrische Widerstandsleitungen (11), welches Heizelement (10) zumindest überwiegend in einem das Heizelement (10) außen umgebenden Hohlprofil (13) aufgenommen und im Hohlprofil (13) gehaltert ist. An der Mantelfläche (14) des keramischen Tragkörpers (12) ist dabei wenigstens ein metallisches Halteelement (15, 16) befestigt, insbesondere angelötet oder angeschweißt, welches Halteelement (15, 16) von der Mantelfläche (14) des keramischen Tragkörpers (12) vorspringt und in einem vom keramischen Tragkörper (12) abgewandten Abschnitt mit dem Hohlprofil (13) fix verbunden, insbesondere verlötet oder verschweißt ist. Dabei wird eine starre, die Mantelfläche (14) des keramischen Tragkörpers (12) gegenüber der Innenfläche (17) des Hohlprofils (13) distanzierende Verbindung zwischen dem keramischen Tragkörper (12) und dem Hohlprofil (13) gebildet. Ferner betrifft die Erfindung eine mit dieser Zündvorrichtung (2) ausgestattete Heizeinrichtung.
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| 29 | Apparatus for setting fire | EP89870194.1 | 1989-11-28 | EP0371951A1 | 1990-06-06 | Moreu Malaret, Antonio |
Apparatus for setting fire essentially characterized in that it is comprised of an electrical heating resistor (6) lodged with an electrical insulator (7) in a tubular structure (4) of an elongated two-way configuration and made of a heat conducting material, one end of said tubular structure being located in a handle (1) provided with a connecting plug (2) connected with the ends of this resistor. |
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| 30 | Lighter for stove, open hearth and similar | EP83870037.5 | 1983-04-01 | EP0091420A1 | 1983-10-12 | Melis, Florentinus; Verbergt, Jan; van Rooy, Willy |
There is described a lighter for ovens, open hearths and similar, which comprises a holder the one end of which on the one hand is extended with a support (2) from fire-proof non-conducting material whereon an incandescent resistor (3) is supported, which resistor (3) may be engaged directly with the solid fuel to be lighted, such as wood or coal, and the other end of which, on the other hand, is provided with a handle (4) which is connectable to an electric power source. |
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| 31 | Elektrische Zündvorrichtung für Brennmaterial in einer Heizeinrichtung sowie damit ausgestattete Heizeinrichtung | EP13165125.9 | 2013-04-24 | EP2657604B1 | 2018-12-05 | Riener, Karl Stefan |
| 32 | Fireplace apparatus having remote automatic control function | EP14189479.0 | 2014-10-20 | EP2985531A1 | 2016-02-17 | Chae, Soo-Lin |
Disclosed is a fireplace apparatus having a remote automatic control function. The fireplace apparatus is capable of automatically controlling opening and closing of an air supply passage mounted below a combustion chamber corresponding to a detected temperature of the fireplace, displaying information related to an ignition state, a key selection state, a heating power setting state and key buttons for key selection, preventing foreign materials from being adhered to an electric heating member by a cover, and enabling a user to carry out remote ignition control, air amount control and temperature setting at a remote location. Accordingly, initial ignition can be stably achieved and the air supply amount is automatically controlled corresponding to the temperature of the combustion chamber. A user can achieve remote ignition or ignition reservation, and ignition and combustion are carried out at an optimum time according to the indoor temperature and time for returning home.
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| 33 | ELEKTRISCHE ZÜNDUNG FÜR EINEN KAMINOFEN | EP15177101.1 | 2015-07-16 | EP2980480A1 | 2016-02-03 | Gehrer, Marco |
Die Abdichtung der elektrischen Zündung (1) zum Starten einer exothermen chemischen Reaktion für einen Raumluftunabhängigen Ofen benötigt Luft und zusätzlich noch einen Stromanschluss über ein Kabel (8). Da bei einem Raumluftabhängigen Ofen die Ansaugluft (7) von der Raumluft getrennt werden muss, befindet sich die Zündung (1) in einer dichten Hülle (2) die eine Luftverbindung zur Ansaugluft (7) hat. Damit die Zündung (1) gegenüber der Raumluft dicht ist, wurde das Kabel (8) oder der Stecker oder eine sonstige Verbindung (z.B. Kabelklemme) vom Kabel (8) für den Stromanschluss der Zündung mit einer Dichtung (3) (z.B. Kabeldichtung, Kabelverschraubung, Steckerdichtung...) versehen. Zur besseren Positionierung gegenüber der Zündungsöffnung des Brenntopfes (6) wurde die Zündung (1) in einen Winkel (4) durch das Klemmblech (5) angedrückt.
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| 34 | Feuerung für feste Brennstoffe | EP11450082.0 | 2011-06-22 | EP2400218A1 | 2011-12-28 | Hargassner, Anton; Gruber, Johann |
Es wird eine Feuerung für feste Brennstoffe mit einem den festen Brennstoff aufnehmenden Füllraum (1) und mit einer Zündeinrichtung (8), die einen Aufnahmebehälter (10) für einen leicht entflammbaren Hilfsbrennstoff und eine elektrische Widerstandsheizung (9) umfasst, die in einem im Aufnahmebehälter (10) mündenden Strömungsweg (11) für Verbrennungsluft angeordnet ist. Um vorteilhafte Handhabungsbedingungen zu schaffen, wird vorgeschlagen, dass der Aufnahmebehälter (10) auf der Innenseite einer den Strömungsweg (11) mit der Widerstandsheizung (9) aufweisenden Tür (7) des Füllraums (1) vorgesehen ist.
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| 35 | Heizeinrichtung zur Erzeugung extrem heißer Gase | EP09016118.3 | 2009-12-30 | EP2354704A1 | 2011-08-10 | Kühl, Hannes |
Es wird eine Heizeinrichtung (1) zum Erzeugen extrem heißer Luft beschrieben, umfassend mindestens ein elektrisches Heizelement (11), das auf einem oder in einem keramischen Trägerelement (11t) angeordnet ist oder selbst das Trägerelement ausbildet, wobei das Trägerelement (11t) und/oder das Heizelement (11) einen ersten Gasdurchtrittsraum aufweist, durch den ein Gasstrom durch das Trägerelement (11t) und/oder das Heizelement (11) hindurch leitbar ist. Der erste Luftdurchtrittsraum weist eine größere Länge und/oder eine größeren Umfang als das Trägerelement (11t) und/oder das Heizelement (11) auf.
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| 36 | Dispositif de combustion, destiné plus particulièrement à un foyer ouvert | EP86870169.9 | 1986-11-17 | EP0226565A1 | 1987-06-24 | Melis, Florentinus |
Le dispositif comprend une grille (1) constituée par des barreaux creux (2) dont les extrémités avant (2") débouchent dans l'espace à chauffer et les extrémités arrière (2') se raccordent à un distributeur d'air (3) qui comporte une chambre (4) dans laquelle une cloison (5) la divise en deux zones (6,7), la première zone (6) se raccordant à une conduite d'alimentation en air (8) et la seconde zone (7) aux extrémités arrière (2') des barreaux (2). |
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| 37 | Wood burning fireplace assembly with automatic igniter | US15161092 | 2016-05-20 | US09903591B2 | 2018-02-27 | Alan R. Atemboski; Kurt W. F. Rumens; Russell A. McBrien; William Ross Fotheringham |
| A fireplace assembly having a firebox, an igniter assembly coupled to the firebox and containing a heating element, a first portion of the igniter assembly extending through an aperture in a firebox wall, the igniter assembly having a first connector coupled to the heating element and coupleable to power source, and having a second connector coupleable to an air source and positioned to provide air flow through the igniter assembly over the heating element and into the firebox. A controller is operatively coupled to the igniter assembly and a temperature sensor. The controller controls operation of the heating element, the temperature sensor, and the air flow through the igniter assembly, and can activate and deactivate the igniter assembly based upon the temperature within the firebox. | ||||||
| 38 | WOOD BURNING FIREPLACE ASSEMBLY WITH AUTOMATIC IGNITER | US15161092 | 2016-05-20 | US20170016621A1 | 2017-01-19 | Alan R. Atemboski; Kurt W.F. Rumens; Russell A. McBrian; William Ross Fotheringham |
| A fireplace assembly having a firebox, an igniter assembly coupled to the firebox and containing a heating element, a first portion of the igniter assembly extending through an aperture in a firebox wall, the igniter assembly having a first connector coupled to the heating element and coupleable to power source, and having a second connector coupleable to an air source and positioned to provide air flow through the igniter assembly over the heating element and into the firebox. A controller is operatively coupled to the igniter assembly and a temperature sensor. The controller controls operation of the heating element, the temperature sensor, and the air flow through the igniter assembly, and can activate and deactivate the igniter assembly based upon the temperature within the firebox. | ||||||
| 39 | Plasma oil-free ignition system in oxygen enriched environment | US13808108 | 2012-02-16 | US09181919B2 | 2015-11-10 | Lu Zheng; Jianwen Zhang; Yang Zhao; Yuehua Li |
| A plasma oil-free ignition system in oxygen enriched environment comprises a plasma generator and a burner. The plasma oil-free ignition system comprises a sleeve group coaxially arranged with the burner, and the sleeve group comprises multiple coaxially sleeved sleeves. Annular spaces are formed between adjacent sleeves and between the sleeves and the burner. Oxygen ducts are arranged on the sleeves, and oxygen ducts are arranged on the burner. Plasmas jetted by the plasma generators form a local high temperature zone filled with high temperature plasma and pulverized coal air flow. A certain amount of oxygen is fed to the burner through the oxygen duct therein to form local oxygen enriched zones in the annular spaces and the subsequent adjacent spaces through which air flows, thus realizing oxygen enriched combustion of volatile matters or coke or mixture thereof, and combustion the pulverized coal air flow more intensely to release more heat so as to ignite the primary air pulverized coal air flow quickly and burn the pulverized coal air flow stably. The invention has simple structure, is applicable to different coal types, especially applicable to the plasma oil-free ignition system in oxygen enriched environment of coal types with low volatile matters. | ||||||
| 40 | Cooking Grill Ignition System | US14748145 | 2015-06-23 | US20150289718A1 | 2015-10-15 | James Gross |
| An Electro-Mechanical Pulse Generator (“EMPG”) may be used to ignite an ignition pad comprising of fine carbon steel fibers. When electrical energy is applied to the carbon steel fibers, the carbon steel ignites thus starting the combustion of the fuel in a fuel basket located within the grill's combustion chamber. An electrical control panel connects an energy source such as a battery with an ignition wire positioned within the combustion chamber of the grill. A fan positioned below or near the fuel basket controls the amount of air flow into the combustion chamber to aid in initially lighting the fuel as well as controlling the temperature of the grill and the amount of combustion used to heat the food that is cooking. | ||||||
