EP0134907A1 - Device for the pulsating supply of a gaseous medium to a kiln or suchlike - Google Patents

Device for the pulsating supply of a gaseous medium to a kiln or suchlike Download PDF

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Publication number
EP0134907A1
EP0134907A1 EP84106165A EP84106165A EP0134907A1 EP 0134907 A1 EP0134907 A1 EP 0134907A1 EP 84106165 A EP84106165 A EP 84106165A EP 84106165 A EP84106165 A EP 84106165A EP 0134907 A1 EP0134907 A1 EP 0134907A1
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EP
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Prior art keywords
mixing nozzle
combustion chamber
lance
gas
mixing
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EP84106165A
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German (de)
French (fr)
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EP0134907B1 (en
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Wolfgang Dr.-Ing. Leisenberg
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27DDETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
    • F27D7/00Forming, maintaining, or circulating atmospheres in heating chambers
    • F27D7/04Circulating atmospheres by mechanical means
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23KFEEDING FUEL TO COMBUSTION APPARATUS
    • F23K5/00Feeding or distributing other fuel to combustion apparatus
    • F23K5/002Gaseous fuel
    • F23K5/005Gaseous fuel from a central source to a plurality of burners
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27BFURNACES, KILNS, OVENS, OR RETORTS IN GENERAL; OPEN SINTERING OR LIKE APPARATUS
    • F27B9/00Furnaces through which the charge is moved mechanically, e.g. of tunnel type; Similar furnaces in which the charge moves by gravity
    • F27B9/30Details, accessories, or equipment peculiar to furnaces of these types
    • F27B9/3005Details, accessories, or equipment peculiar to furnaces of these types arrangements for circulating gases
    • F27B9/3011Details, accessories, or equipment peculiar to furnaces of these types arrangements for circulating gases arrangements for circulating gases transversally

Definitions

  • the invention relates to a device for the pulsed introduction of a combustible gas or air into a combustion chamber or the like., In particular for firing a tunnel furnace of the ceramic industry operated above the ignition temperature with gas, by means of a lance projecting into the combustion chamber, which is connected to a a supply line for the medium to be introduced is connected to a pulse-controlled solenoid valve.
  • furnaces used in the ceramic industry are designed as tunnel furnaces. In principle, these consist of two counterflow heat exchangers connected in series with a combustion zone in between.
  • the air mass flow required for heating and cooling the combustion material corresponds approximately to the mass flow of the combustion good and is wholly or largely led through the firing zone.
  • heated air with sufficient oxygen content for combustion is generally available in the combustion zone between 7oo and 125o degrees Celsius.
  • the burners used here have the task of generating the required temperature with a homogeneous temperature distribution and an oxidizing furnace atmosphere.
  • an individual setting of each burner is required to adjust the power distribution over the furnace cross-section or the furnace length.
  • the air volumes in the heating and cooling zone cannot be freely selected. Therefore, when adding secondary air to the burners, a corresponding part of the air required for heat exchange in the cooling zone must be drawn off from the furnace before entering the combustion zone.
  • This hot air is generally used for drying.
  • the heat requirement of the dryer often does not match the heat requirement of the furnace, neither in time nor in quantity, so that in addition to heat losses in the pipes, especially at the weekend, the furnace waste heat cannot be fully utilized.
  • measures to reduce the amount of flue gas and to recover the heat contained in the flue gas lead to a steady increase in the amount of heat available, which is neither used by the dryer nor by other facilities can be.
  • the efficiency of the dryer also increases to the extent that the air used for drying is supplied with energy by intermediate heating. Even in terms of an optimal dryer efficiency, large amounts of air available from the oven are therefore not desirable.
  • the gas is mixed with the furnace atmosphere by the injector effect.
  • the burner output is individually adjusted by a throttle valve.
  • the disadvantage here is that the gas is only mixed with the furnace atmosphere in the combustion chamber and a reducing atmosphere is generated there by a strong yellow flame.
  • the burners are switched sequentially individually. Even in this way, however, it cannot be prevented that local Reductions occur which lead to discolouration of the firing material.
  • a complete combustion of the gas is not ensured, especially in the area of the pre-fire and at high burner outputs, since the gas cloud with the furnace atmosphere can reach temperatures below the ignition temperature without sufficient mixing with the oxygen-containing furnace atmosphere. Therefore, conventional burners with the addition of secondary air are provided in the first burner rows of this system.
  • the object of the invention is to provide a device of the aforementioned type which enables an oxidizing, flame-free combustion or a homogenization of the atmosphere in the combustion chamber without any addition of secondary air.
  • the mixing of the added fuel gas or the air with the gas present in the combustion chamber should be extremely intensive, in addition an intensive circulation and further mixing should be achieved by the emerging free jet.
  • the construction effort with which this can be accomplished should be kept low, and trouble-free operation should also be guaranteed.
  • this is achieved in a device for the pulsed introduction of a combustible gas or air into a combustion chamber or the like.
  • a mixing nozzle receiving the jet of the medium to be introduced into the combustion chamber is placed thereon which has a continuously tapering cross-section in the direction of flow and which is provided with one or more openings through which gas can be drawn in from the combustion chamber to mix the injected medium with the furnace atmosphere and can be introduced into the combustion chamber as a bundled jet by means of the mixing nozzle.
  • the mixing nozzle in the area in front of the outlet opening with conically shaped and / or convexly curved inner surface areas and to arrange the openings worked into it for sucking in gas from the combustion chamber to the side of the lance in its end region in the wall, the openings should be designed as bores with a circular cross-section and should be provided in a cylindrical part of the mixing nozzle, to which the region of the mixing nozzle which tapers in cross-section adjoins.
  • a throttle can be provided at the end protruding into the mixing nozzle.
  • the mixing nozzle It is also appropriate to equip the mixing nozzle with a jacket which forms a flow channel and is arranged at a distance from the lance and through which the fresh air or another gas can preferably be supplied to the mixing nozzle through its openings.
  • the casing it is advantageous to arrange the casing in a height-adjustable manner and to cover all or part of the lateral openings of the mixing nozzle. In this way, fresh air can be added to the mixing nozzle if necessary, and this can also be partially mixed with the furnace atmosphere.
  • the lance, the mixing nozzle and / or the casing should be made entirely or partially of a heat-resistant material, preferably of silicon carbide.
  • the lance with a mixing chamber can be used to introduce different media into the combustion chamber so that different fuels can be burned by means of the device be equipped, to which supply lines, each with a pulse valve that can be controlled, are to be connected.
  • the firing of a kiln can, for example, be switched from firing with gas to firing with oil in a very short time and without any structural measures being necessary, wherein compressed air can be used as the propellant gas and to atomize the oil.
  • the mixing nozzle designed according to the invention is used for firing a kiln, it is advisable to combine several mixing nozzles into a jointly controlled group, to each of which a control unit is to be assigned, by means of which the solenoid valves of the mixing nozzles can be individually controlled in such a way that with variable, constant opening times opening frequency depending on the temperature in the combustion chamber is adjustable via a controller.
  • the switching of the solenoid valves should always be staggered, and a thermocouple that is connected to the controller should also be arranged in the area of at least one mixing nozzle of a group in the combustion chamber.
  • the device designed according to the invention for the pulsed introduction of a combustible gas or air into a combustion chamber or the like is not only very simple in its structural design and therefore easy to manufacture economically, but also reliable, but above all it becomes an oxidizing flame-free Combustion possible without the addition of secondary air. If a mixing nozzle is placed on the lance, which has a continuously tapering cross-section and openings, then an intensive mixing of the injected medium takes place in the mixing nozzle using the full available gas pressure of approx. 1 - 3 bar with the furnace atmosphere, since gas is drawn in from the combustion chamber through the openings and introduced into the combustion chamber as a bundled jet. As a result of the injector effect, intensive mixing of the medium supplied from the combustion chamber occurs within the mixing nozzle.
  • the emerging bundled jet in turn sucks in the furnace atmosphere according to the injector principle and, in addition to the circulation effect, causes a further admixture of the hot furnace atmosphere.
  • Tests have shown that an oxidizing, often flame-free combustion is achieved at gas pressures of more than 0.8 bar. In this way, the reducing atmosphere during direct injection is avoided and the maximum possible air preheating is achieved without any piping. If a combustible gas but rather air is introduced into a room via the mixing nozzle designed according to the invention, the existing atmosphere can be circulated and homogenized in a simple manner.
  • the device shown in Fig. 1 and designated 1o serves to introduce a medium into the combustion chamber 4 of a tunnel kiln 1 and consists of a lance 11 held by means of a plate 12 in a stoke hole 3 incorporated in the ceiling 2 of the tunnel kiln 1 and a lance 11 on the latter in the end projecting into the combustion chamber 4 mixing nozzle 21.
  • a throttle 13 is attached to the end of the lance 11.
  • the mixing nozzle 21 consists of a cylindrical part 23 and a region 24 which tapers continuously in cross section, the inner surface 25 of which is convexly curved.
  • openings 26 in the embodiment shown this incorporated two mutually opposite bores through which, as shown by the arrows denoted by 32, gas is sucked out of the combustion chamber 4 by the jet 31 emerging from the throttle 13.
  • this mixture emerges as a bundled jet 33 from the outlet opening 22 of the mixing nozzle 21 and is burned flame-free in the combustion chamber 4.
  • the lance 11 is provided with a mixing chamber 14, to which supply lines 15, 17 and 19 are connected.
  • a solenoid valve 16, 18 and 2o is used, so that, for. B. alternately to be able to carry out firing with gas or atomized oil, via line 15 a combustible gas which flows through the mixing chamber 14, or this oil and compressed air via lines 17 and 19, which are mixed in the mixing chamber 14, supplied becomes. If necessary, the lighting can be changed quickly and without any structural measures being necessary.
  • the power control is effected by switching the solenoid valves 16 and 18 and 0 2 whose switching frequency and opening duration of the power of the mixing nozzle are proportional 21st
  • the mixing nozzle 21 can additionally air are fed.
  • the lance 11 is provided with a sheath 27 which is height-adjustable by the path s, so that a flow channel 28 is created.
  • fresh air lower layer
  • gas from the combustion chamber 4 upper layer
  • a mixture of both a mixture of both
  • the air can also be supplied under pressure.
  • the amount of air is partially controlled by the gas flow, since the resistance in the mixing nozzle 21 is greatly reduced during the gas injection and the amount of air is considerably increased.
  • the mixing nozzle is used for firing a tunnel furnace, it is appropriate, as shown schematically in FIG. 3, in each case a plurality of mixing nozzles 21 ', 2111, 21 "', to which the combustible gas is supplied via a common gas supply line 15 'and pulse valves which can be controlled in a pulsed manner 16 ', 16' ', 16 "', inflows, to be grouped together.
  • the opening time of one of the solenoid valves 16 ′, 16 ′′ or 16 ′′ ′′ is set individually by means of a control device 41 according to the required power distribution, while the opening frequency for the mixing nozzles of a group is jointly controlled by a controller 42 as a function of the temperature in the combustion chamber 4 , which is measured via a thermocouple 43, is specified via the control unit 41.

Abstract

1. Device for the pulsating supply of a combustable gas or air to a combustion chamber or suchlike, particularly for heating a tunnel kiln in the ceramic industry with gas above the ignition temperature by means of a lance extending into the combustion chamber connected to the supply line for the medium to be supplied, which supply line comprises a magnet valve being pulsating controllable, characterized in that onto the lance (11) a mixing nozzle for the stream of the medium (31) coming from the lance and to be supplied into the combustion chamber (4) is mounted, which nozzle has a cross-section continuously tapered in the direction of the stream and which nozzle has several openings (26) by means of which gas (stream 32) may be drawn from the combustion chamber (4) and is supplied to same through the mixing nozzle as a focused stream (33).

Description

Die Erfindung bezieht sich auf eine Vorrichtung zur impulsweisen Einbringung eines brennbaren Gases oder von Luft in einen Brennraum oder dgl., insbesondere zur Befeuerung eines oberhalb der Zündtemperatur betriebenen Tunnelofens der keramischen Industrie mit Gas, mittels einer in den Brennraum ragenden Lanze, die an eine mit einem impulsweise steuerbaren Magnetventil versehenen Zuführungsleitung für das einzubringende Medium angeschlossen ist.The invention relates to a device for the pulsed introduction of a combustible gas or air into a combustion chamber or the like., In particular for firing a tunnel furnace of the ceramic industry operated above the ignition temperature with gas, by means of a lance projecting into the combustion chamber, which is connected to a a supply line for the medium to be introduced is connected to a pulse-controlled solenoid valve.

Ein Großteil der in der keramischen Industrie verwendeten öfen sind als Tunnelöfen ausgebildet. Diese bestehen prinzipiell aus zwei hintereinander geschalteten Gegenstrom-Wärmetauschern mit dazwischenliegender Brennzone. Der zur Erwärmung und Kühlung des Brenngutes erforderliche Luftmassenstrom entspricht in etwa dem Massenstrom des Brenngutes und wird ganz oder großenteils durch die Brennzone geführt. Dadurch steht in der Regel in der Brennzone zwischen 7oo und 125o Grad C aufgeheizte Luft mit für die Verbrennung ausreichendem Sauerstoffgehalt zur Verfügung.Most of the furnaces used in the ceramic industry are designed as tunnel furnaces. In principle, these consist of two counterflow heat exchangers connected in series with a combustion zone in between. The air mass flow required for heating and cooling the combustion material corresponds approximately to the mass flow of the combustion good and is wholly or largely led through the firing zone. As a result, heated air with sufficient oxygen content for combustion is generally available in the combustion zone between 7oo and 125o degrees Celsius.

Den hierbei verwendeten Brennern kommt die Aufgabe zu, die erforderliche Temperatur bei homogener Temperaturverteilung und oxidierender Ofenatmosphäre zu erzeugen. Außerdem ist zur Einstellung der Leistungsverteilung über den Ofenquerschnitt bzw. die Ofenlänge eine individuelle Einstellung jeden Brenners erforderlich.The burners used here have the task of generating the required temperature with a homogeneous temperature distribution and an oxidizing furnace atmosphere. In addition, an individual setting of each burner is required to adjust the power distribution over the furnace cross-section or the furnace length.

Zur Erzeugung der für eine homogene Temperaturverteilung notwendigen Austrittsgeschwindigkeit und der oxidierenden Verbrennung werden die weitaus meisten Brenner heute unter Zugabe von Sekundärluft betrieben.To generate the exit velocity necessary for a homogeneous temperature distribution and the oxidizing combustion, the vast majority of burners today are operated with the addition of secondary air.

Aufgrund des Gegenstromprinzips beim Tunnelofen können aber die Luftmengen in der Aufheiz- und Kühlzone nicht frei gewählt werden. Daher muß bei Sekundärluftzugabe an den Brennern ein entsprechender Teil der zum Wärmetausch in der Kühlzone benötigten Luft vor Eintritt in die Brennzone vom Ofen abgezogen werden. Diese Heißluft wird im allgemeinen zur Trockung verwendet. Allerdings stimmt der Wärmebedarf des Trockners häufig weder zeitlich noch quantitativ mit dem Wärmebedarf des Ofens überein, so daß neben Wärmeverlusten in den Leitungen besonders am Wochenende die Ofenabwärme nicht vollständig verwertet werden kann. Neben häufig anzutreffenden Wärmemengen zur Decken- und Wandkühlung führen Maßnahmen zur Verringerung der Rauchgasmenge und die Rückgewinnung der im Rauchgas enthaltenen Wärme zu einer stetigen Vergrößerung des Wärmeangebots, das weder vom Trockner noch von anderen Einrichtungen sinnvoll verwertet werden kann. Der Wirkungsgrad des Trockners steigt zudem in dem Maße, in dem der zur Trocknung verwendeten Luft die Energie durch Zwischenaufheizung zugeführt wird. Auch im Sinne eines optimalen Trocknerwirkungsgrades sind somit große vom Ofen zur Verfügung stehende Luftmengen nicht wünschenswert.Due to the counterflow principle in the tunnel kiln, the air volumes in the heating and cooling zone cannot be freely selected. Therefore, when adding secondary air to the burners, a corresponding part of the air required for heat exchange in the cooling zone must be drawn off from the furnace before entering the combustion zone. This hot air is generally used for drying. However, the heat requirement of the dryer often does not match the heat requirement of the furnace, neither in time nor in quantity, so that in addition to heat losses in the pipes, especially at the weekend, the furnace waste heat cannot be fully utilized. In addition to frequently encountered amounts of heat for ceiling and wall cooling, measures to reduce the amount of flue gas and to recover the heat contained in the flue gas lead to a steady increase in the amount of heat available, which is neither used by the dryer nor by other facilities can be. The efficiency of the dryer also increases to the extent that the air used for drying is supplied with energy by intermediate heating. Even in terms of an optimal dryer efficiency, large amounts of air available from the oven are therefore not desirable.

Um die vom Ofen abzuführende Heißluftmenge zu verringern, ist es bereits bekannt, Luft und Gas zu mischen, wobei durch die mechanische Energie des Gasdrucks Heißluft aus der Kühlzone des Ofens über Rohrleitungen vom Brenner angesaugt wird. Die Steuerung der Brennerleistung erfolgt dabei über Gasimpulse, deren Dauer und Häufigkeit individuell eingestellt werden kann.In order to reduce the amount of hot air to be discharged from the furnace, it is already known to mix air and gas, with the mechanical energy of the gas pressure drawing hot air from the cooling zone of the furnace via pipes from the burner. The burner output is controlled via gas pulses, the duration and frequency of which can be set individually.

Mit diesem Verfahren können ohne Einsatz von Ventilatoren zwar Sekundärlufttemperaturen bis 600 Grad C erzielt werden, nachteilig ist hierbei aber, daß die Sekundärlufttemperatur erheblich unter der Ofenraumtemperatur bleibt und ein isoliertes Rohrleitungssystem zur Zuführung der Verbrennungsluft erforderlich ist.With this method, secondary air temperatures up to 6 00 degrees C can be achieved without the use of fans, but the disadvantage here is that the secondary air temperature remains significantly below the furnace chamber temperature and an insulated piping system is required to supply the combustion air.

Ferner ist es bekannt, mittels einer Brennerlanze impulsweise Gas unter hohem Druck in den Brennraum zu injizieren. Die Mischung des Gases mit der Ofenatmosphäre erfolgt durch die Injektorwirkung. Die Leistung der Brenner wird durch ein Drosselventil individuell eingestellt.It is also known to use a burner lance to inject gas at high pressure into the combustion chamber in pulses. The gas is mixed with the furnace atmosphere by the injector effect. The burner output is individually adjusted by a throttle valve.

Nachteilig ist hierbei, daß die Mischung des Gases mit der Ofenatmosphäre erst im Brennraum erfolgt und dort durch eine stark gelbe Flamme eine reduzierende Atmosphäre erzeugt wird. Um dem örtlichen Sauerstoffmangel entgegenzuwirken, werden die Brenner sequenziell einzeln geschaltet. Auch auf diese Weise kann allerdings nicht verhindert werden, daß örtliche Reduktionen auftreten, welche zu Verfärbungen am Brenngut führen. Weiterhin ist insbesondere im Bereich des Vorfeuers und bei hohen Brennerleistungen eine vollständige Verbrennung des Gases nicht sichergestellt, da die Gaswolke mit der Ofenatmosphäre in den Bereich von Temperaturen unterhalb der Zündtemperatur gelangen kann, ohne daß eine ausreichende Mischung mit der sauerstoffhaltigen Ofenatmosphäre erfolgt wäre. Daher sind in den ersten Brennerreihen dieses Systems herkömmliche Brenner mit Sekundärluftzugabe vorgesehen.The disadvantage here is that the gas is only mixed with the furnace atmosphere in the combustion chamber and a reducing atmosphere is generated there by a strong yellow flame. In order to counteract the local lack of oxygen, the burners are switched sequentially individually. Even in this way, however, it cannot be prevented that local Reductions occur which lead to discolouration of the firing material. Furthermore, a complete combustion of the gas is not ensured, especially in the area of the pre-fire and at high burner outputs, since the gas cloud with the furnace atmosphere can reach temperatures below the ignition temperature without sufficient mixing with the oxygen-containing furnace atmosphere. Therefore, conventional burners with the addition of secondary air are provided in the first burner rows of this system.

Aufgabe der Erfindung ist es, eine Vorrichtung der vorgenannten Art zu schaffen, die ohne jede Zugabe von Sekundärluft eine oxidierende, flammenfreie Verbrennung bzw. eine Homogenisierung der Atmosphäre in dem Brennraum ermöglicht. Die Vermischung des zugegebenen Brenngases bzw. der Luft mit dem in dem Brennraum vorhandenen Gas soll hierbei äußerst intensiv sein, außerdem soll durch den austretenden Freistrahl eine intensive Umwälzung und eine weitere Vermischung erreicht werden. Der Bauaufwand, mit dem dies zu bewerkstelligen ist, soll gering gehalten werden, ferner soll ein störungsfreier Betrieb gewährleistet sein.The object of the invention is to provide a device of the aforementioned type which enables an oxidizing, flame-free combustion or a homogenization of the atmosphere in the combustion chamber without any addition of secondary air. The mixing of the added fuel gas or the air with the gas present in the combustion chamber should be extremely intensive, in addition an intensive circulation and further mixing should be achieved by the emerging free jet. The construction effort with which this can be accomplished should be kept low, and trouble-free operation should also be guaranteed.

Gemäß der Erfindung wird dies bei einer Vorrichtung zur impulsweisen Einbringung eines brennbaren Gases oder von Luft in einen Brennraum oder dgl. mittels einer in diesen ragenden Lanze dadurch erreicht, daß auf diese eine den aus dieser austretenden Strahl des in den Brennraum einzubringenden Mediums aufnehmende Mischdüse aufgesetzt ist, die in Strömungsrichtung einen sich stetig verjüngenden Querschnitt aufweist und die mit einer oder mehreren öffnungen versehen ist, über die zur Vermischung des injizierten Mediums mit der Ofenatmosphäre Gas aus dem Brennraum ansaugbar und mittels der Mischdüse in diesen als gebündelter Strahl einbringbar ist.According to the invention, this is achieved in a device for the pulsed introduction of a combustible gas or air into a combustion chamber or the like. By means of a lance projecting into this in that a mixing nozzle receiving the jet of the medium to be introduced into the combustion chamber is placed thereon which has a continuously tapering cross-section in the direction of flow and which is provided with one or more openings through which gas can be drawn in from the combustion chamber to mix the injected medium with the furnace atmosphere and can be introduced into the combustion chamber as a bundled jet by means of the mixing nozzle.

Zweckmäßig ist es hierbei, die Mischdüse im Bereich vor der Austrittsöffnung mit kegelig ausgebildeten und/oder konvex gekrümmten Innenmantelflächen zu versehen und die in diese eingearbeiteten öffnungen zum Ansaugen von Gas aus dem Brennraum seitlich der Lanze in deren Endbereich in der Wandung anzuordnen, wobei die öffnungen als Bohrungen mit kreisförmigem Querschnitt ausgebildet und in einem zylindrischen Teil der Mischdüse vorgesehen sein sollten, an die sich der im Querschnitt stetig verjüngende Bereich der Mischdüse anschließt.It is expedient here to provide the mixing nozzle in the area in front of the outlet opening with conically shaped and / or convexly curved inner surface areas and to arrange the openings worked into it for sucking in gas from the combustion chamber to the side of the lance in its end region in the wall, the openings should be designed as bores with a circular cross-section and should be provided in a cylindrical part of the mixing nozzle, to which the region of the mixing nozzle which tapers in cross-section adjoins.

Um die Geschwindigkeit des aus der Lanze austretenden Gasstrahles zu erhöhen, kann an deren in die Mischdüse ragenden Ende eine Drossel vorgesehen werden.In order to increase the speed of the gas jet emerging from the lance, a throttle can be provided at the end protruding into the mixing nozzle.

Angebracht ist es ferner, die Mischdüse mit einer mit Abstand zu der Lanze angeordneten einen Strömungskanal bildenden Ummantelung auszustatten, durch den der Mischdüse vorzugsweise über deren öffnungen Frischluft oder ein anderes Gas zuführbar ist. Hierbei ist es vorteilhaft, die Ummantelung höhenverstellbar anzuordnen und durch diese die seitlichen öffnungen der Mischdüse ganz oder teilweise abzudecken. Auf diese Weise kann im Bedarfsfall der Mischdüse sowohl Frischluft zugegeben als auch diese teilweise mit der Ofenatmosphäre gemischt werden.It is also appropriate to equip the mixing nozzle with a jacket which forms a flow channel and is arranged at a distance from the lance and through which the fresh air or another gas can preferably be supplied to the mixing nozzle through its openings. In this case, it is advantageous to arrange the casing in a height-adjustable manner and to cover all or part of the lateral openings of the mixing nozzle. In this way, fresh air can be added to the mixing nozzle if necessary, and this can also be partially mixed with the furnace atmosphere.

Die Lanze, die Mischdüse und/oder die Ummantelung sollten wegen der in dem Brennraum herrschenden hohen Temperaturen ganz oder teilweise aus einem hitzebeständigen Werkstoff, vorzugsweise aus Siliziumcarbid, hergestellt sein.Because of the high temperatures prevailing in the combustion chamber, the lance, the mixing nozzle and / or the casing should be made entirely or partially of a heat-resistant material, preferably of silicon carbide.

Zur Einbringung unterschiedlicher Medien in den Brennraum kann, um mittels der Vorrichtung somit verschiedene Brennstoffe verbrennen zu können, die Lanze mit einer Mischkammer ausgestattet werden, an die jeweils mit einem impulsweise steuerbaren Magnetventil versehene Zuführungsleitungen anzuschließen sind. Die Befeuerung eines Brennofens kann beispielsweise von einer Befeuerung mit Gas auf eine Befeuerung mit öl demnach in sehr kurzer Zeit und ohne daß bauliche Maßnahmen erforderlich sind, umgestellt werden, wobei als Treibgas und zur Zerstäubung des Öls Preßluft verwendet werden kann.The lance with a mixing chamber can be used to introduce different media into the combustion chamber so that different fuels can be burned by means of the device be equipped, to which supply lines, each with a pulse valve that can be controlled, are to be connected. The firing of a kiln can, for example, be switched from firing with gas to firing with oil in a very short time and without any structural measures being necessary, wherein compressed air can be used as the propellant gas and to atomize the oil.

Wird die erfindungsgemäß ausgebildete Mischdüse zur Befeuerung eines Brennofens verwendet, ist es zweckmäßig, jeweils mehrere Mischdüsen zu einer gemeinsam gesteuerten Gruppe zusammenzufassen, der jeweils ein Steuergerät zuzuordnen ist, mittels dem die Magnetventile der Mischdüsen individuell derart steuerbar sind, daß bei veränderbarer, konstanter öffnungsdauer die öffnungsfrequenz in Abhängigkeit von der Temperatur im Brennraum über einen Regler einstellbar ist. Die Schaltung der Magnetventile sollte hierbei stets versetzt erfolgen, auch sollte im Bereich zumindest einer Mischdüse einer Gruppe im Brennraum ein Thermoelement angeordnet werden, das mit dem Regler verbunden ist.If the mixing nozzle designed according to the invention is used for firing a kiln, it is advisable to combine several mixing nozzles into a jointly controlled group, to each of which a control unit is to be assigned, by means of which the solenoid valves of the mixing nozzles can be individually controlled in such a way that with variable, constant opening times opening frequency depending on the temperature in the combustion chamber is adjustable via a controller. The switching of the solenoid valves should always be staggered, and a thermocouple that is connected to the controller should also be arranged in the area of at least one mixing nozzle of a group in the combustion chamber.

Die gemäß der Erfindung ausgebildete Vorrichtung zur impulsweisen Einbringung eines brennbaren Gases oder von Luft in einen Brennraum oder dgl. ist nicht nur sehr einfach in ihrer konstruktiven Ausgestaltung und demnach ohne Schwierigkeiten auf wirtschaftliche Weise herzustellen, sondern auch betriebssicher, vor allem aber wird eine oxidierende flammenfreie Verbrennung ohne Zusatz von Sekundärluft ermöglicht. Wird nämlich auf die Lanze eine Mischdüse aufgesetzt, die einen sich stetig verjüngenden Querschnitt und öffnungen aufweist, so wird in der Mischdüse eine intensive Vermischung des injizierten Mediums unter Ausnutzung des vollen zur Verfügung stehenden Gasdruckes von ca. 1 - 3 bar mit der Ofenatmosphäre vorgenommen, da durch die öffnungen Gas aus dem Brennraum angesaugt und in diesen als gebündelter Strahl eingebracht wird. Durch die Injektorwirkung tritt somit innerhalb der Mischdüse eine intensive Vermischung des zugeführten Mediums aus dem Brennraum ein. Außerdem wird durch die hohe Temperatur der Ofenatmosphäre und den durch die Injektorwirkung erzeugten, mit steigendem Gasdruck sich vergrößerndenLuftüberschuß eine stark oxidierende Verbrennung bereits in der Düse erreicht, so daß aus der Düse ein gebündelter Heißgasstrahl austritt, dessen Geschwindigkeit weitgehend vom Gasdruck bestimmt wird und in der Größenordnung von herkömmlichen mit Sekundärluft betriebenen Brennern liegt. Eine ausreichende Umwälzung der Ofenatmosphäre ist somit sichergestellt.The device designed according to the invention for the pulsed introduction of a combustible gas or air into a combustion chamber or the like is not only very simple in its structural design and therefore easy to manufacture economically, but also reliable, but above all it becomes an oxidizing flame-free Combustion possible without the addition of secondary air. If a mixing nozzle is placed on the lance, which has a continuously tapering cross-section and openings, then an intensive mixing of the injected medium takes place in the mixing nozzle using the full available gas pressure of approx. 1 - 3 bar with the furnace atmosphere, since gas is drawn in from the combustion chamber through the openings and introduced into the combustion chamber as a bundled jet. As a result of the injector effect, intensive mixing of the medium supplied from the combustion chamber occurs within the mixing nozzle. In addition, due to the high temperature of the furnace atmosphere and the excess air generated by the injector effect and increasing with increasing gas pressure, a strongly oxidizing combustion is already achieved in the nozzle, so that a bundled hot gas jet emerges from the nozzle, the speed of which is largely determined by the gas pressure and in which Order of magnitude of conventional burners operated with secondary air. Adequate circulation of the furnace atmosphere is thus ensured.

Der austretende gebündelte Strahl saugt nach dem Injektorprinzip wiederum Ofenatmosphäre an und bewirkt neben dem Umwälzeffekt eine weitere Zumischung von heißer Ofenatmosphäre. Versuche haben ergeben, daß bei Gasdrücken von mehr als o,8 bar eine oxidierende, häufig flammenfreie Verbrennung erreicht wird. Auf diese Weise wird die reduzierende Atmosphäre bei direkter Injektion vermieden und dabei eine maximal mögliche Luftvorwärmung ohne jegliche Rohrleitungen erreicht. Wird über die erfindungsgemäß ausgebildete Mischdüse kein brennbares Gas, sondern Luft in einen Raum eingebracht, ist auf einfache Weise eine Umwälzung der vorhandenen Atmosphäre und eine Vergleichmäßigung zu erreichen.The emerging bundled jet in turn sucks in the furnace atmosphere according to the injector principle and, in addition to the circulation effect, causes a further admixture of the hot furnace atmosphere. Tests have shown that an oxidizing, often flame-free combustion is achieved at gas pressures of more than 0.8 bar. In this way, the reducing atmosphere during direct injection is avoided and the maximum possible air preheating is achieved without any piping. If a combustible gas but rather air is introduced into a room via the mixing nozzle designed according to the invention, the existing atmosphere can be circulated and homogenized in a simple manner.

In der Zeichnung ist ein Ausführungsbeispiel der gemäß der Erfindung ausgebildeten Vorrichtung zur impulsweisen Einbringung eines gasförmigen Mediums in einen Brennofen oder dgl. dargestellt, das nachfolgend im einzelnen erläutert ist. Hierbei zeigen:

  • Fig. 1 die in einem Brennraum eines Tunnelofens angeordnete Vorrichtung, teilweise im Schnitt,
  • Fig. 2 die Vorrichtung nach Fig. 1 mit einer der die Mischdüse tragenden Lanze zugeordneten Ummantelung und
  • Fig. 3 mehrere zu einer Gruppe zusammengefaßte und gemeinsam regelbare Mischdüsen nach Fig. 1 in schematischer Darstellung.
In the drawing, an embodiment of the device designed according to the invention for the pulsed introduction of a gaseous medium into a furnace or the like is shown, which is explained in detail below. Here show:
  • 1 shows the device arranged in a combustion chamber of a tunnel furnace, partly in section,
  • Fig. 2 shows the device of FIG. 1 with a casing associated with the lance carrying the mixing nozzle and
  • Fig. 3 shows a plurality of combined and controllable mixing nozzles according to Fig. 1 in a schematic representation.

Die in Fig. 1 dargestellte und mit 1o bezeichnete Vorrichtung dient zur Einbringung eines Mediums in den Brennraum 4 eines Tunnelofens 1 und besteht aus einer mittels einer Platte 12 in einem in der Decke 2 des Tunnelofens 1 eingearbeiteten Schürloch 3 gehaltenen Lanze 11 sowie einer auf deren in den Brennraum 4 ragenden Ende aufgesetzten Mischdüse 21. Um eine möglichst hohe Austrittsgeschwindigkeit des in die Mischdüse 21 injizierten Mediums zu erzielen, ist an dem Ende der Lanze 11 eine Drossel 13 angebracht.The device shown in Fig. 1 and designated 1o serves to introduce a medium into the combustion chamber 4 of a tunnel kiln 1 and consists of a lance 11 held by means of a plate 12 in a stoke hole 3 incorporated in the ceiling 2 of the tunnel kiln 1 and a lance 11 on the latter in the end projecting into the combustion chamber 4 mixing nozzle 21. In order to achieve the highest possible exit velocity of the medium injected into the mixing nozzle 21, a throttle 13 is attached to the end of the lance 11.

Die Mischdüse 21 besteht aus einem zylindrischen Teil 23 und einem sich im Querschnitt stetig verjüngenden Bereich 24, dessen Innenfläche 25 konvex gekrümmt ausgebildet ist. In den zylindrischen Teil 23 der Mischdüse 21 sind Öffnungen 26, bei dem gezeigten Ausführungsbeispiel sind dies zwei einander gegenüberliegende Bohrungen, eingearbeitet, durch die, wie dies durch die mit 32 bezeichneten Pfeile dargestellt ist, durch den aus der Drossel 13 austretenden Strahl 31 Gas aus dem Brennraum 4 angesaugt wird. In der Mischdüse 21 erfolgt somit bereits eine intensive Vermischung des zugeführten Mediums mit aus dem Brennraum 4 angesaugtem Gas. Und dieses Gemisch tritt als gebündelter Strahl 33 aus der Austrittsöffnung 22 der Mischdüse 21 aus und wird flammenfrei in dem Brennraum 4 verbrannt.The mixing nozzle 21 consists of a cylindrical part 23 and a region 24 which tapers continuously in cross section, the inner surface 25 of which is convexly curved. In the cylindrical part 23 of the mixing nozzle 21 are openings 26, in the embodiment shown this incorporated two mutually opposite bores through which, as shown by the arrows denoted by 32, gas is sucked out of the combustion chamber 4 by the jet 31 emerging from the throttle 13. In the mixing nozzle 21 there is thus already intensive mixing of the supplied medium with gas drawn in from the combustion chamber 4. And this mixture emerges as a bundled jet 33 from the outlet opening 22 of the mixing nozzle 21 and is burned flame-free in the combustion chamber 4.

Um mittels der Mischdüse 21 unterschiedliche Medien in den Brennraum 4 einbringen zu können, ist die Lanze 11 mit einer Mischkammer 14 versehen, an die Zuführungsleitungen 15, 17 und 19 angeschlossen sind. In jede der Zuführungsleitungen 15, 17 und 19 ist jeweils ein Magnetventil 16, 18 und 2o eingesetzt, so daß, um z. B. wechselweise eine Befeuerung mit Gas oder zerstäubtem öl vornehmen zu können, über die Leitung 15 ein brennbares Gas, das die Mischkammer 14 durchströmt, oder dieser über die Leitungen 17 und 19 öl und Preßluft, die in der Mischkammer 14 miteinander vermischt werden, zugeführt wird. Im Bedarfsfall kann somit rasch und ohne daß bauliche Maßnahmen erforderlich sind, eine Änderung der Befeuerung vorgenommen werden. Die Leistungssteuerung erfolgt durch Schalten der Magnetventile 16 bzw. 18 und 20, dessen Schalthäufigkeit und öffnungsdauer der Leistung der Mischdüse 21 proportional sind.In order to be able to introduce different media into the combustion chamber 4 by means of the mixing nozzle 21, the lance 11 is provided with a mixing chamber 14, to which supply lines 15, 17 and 19 are connected. In each of the feed lines 15, 17 and 19, a solenoid valve 16, 18 and 2o is used, so that, for. B. alternately to be able to carry out firing with gas or atomized oil, via line 15 a combustible gas which flows through the mixing chamber 14, or this oil and compressed air via lines 17 and 19, which are mixed in the mixing chamber 14, supplied becomes. If necessary, the lighting can be changed quickly and without any structural measures being necessary. The power control is effected by switching the solenoid valves 16 and 18 and 0 2 whose switching frequency and opening duration of the power of the mixing nozzle are proportional 21st

Tritt aufgrund der Ofenbetriebsweise in Fällen, in denen der Tunnelofen 1 nicht oder nur teilweise als durchgehender Wärmetauscher betrieben wird, Sauerstoffmangel in dem Brennraum 4 auf, so kann der Mischdüse 21 zusätzlich Luft zugeführt werden. Dazu ist, wie dies bei der Vorrichtung 10 1 in Fig. 2 gezeigt ist, die Lanze 11 mit einer um den Weg s höhenverstellbar angeordnete Ummantelung 27 versehen, so daß ein Strömungskanal 28 geschaffen ist. Je nach Stellung der Ummantelung 27 kann somit Frischluft (untere Lage) Gas aus dem Brennraum 4 (obere Lage) oder eine Mischung aus beiden (mittlere Lage) angesaugt werden. Neben der Einsparung der Ventilatorenenergie und der stufenlosen Einstellung des Ofenatmosphären-Luftverhältnisses hat dieses Zugabeprinzip den Vorteil, daß Luft nur dann angesaugt wird, wenn Gas strömt.If, due to the furnace mode of operation, in cases in which the tunnel furnace 1 is not or only partially operated as a continuous heat exchanger, there is a lack of oxygen in the combustion chamber 4, the mixing nozzle 21 can additionally air are fed. For this purpose, as is shown in the device 1 0 1 in Fig. 2, the lance 11 is provided with a sheath 27 which is height-adjustable by the path s, so that a flow channel 28 is created. Depending on the position of the casing 27, fresh air (lower layer), gas from the combustion chamber 4 (upper layer) or a mixture of both (middle layer) can thus be drawn in. In addition to saving fan energy and continuously adjusting the furnace atmosphere-air ratio, this addition principle has the advantage that air is only sucked in when gas flows.

Zur Vergrößerung des Austritts-Impulses kann die Luft auch unter Druck zugeführt werden. Hierbei erfolgt eine teilweise Steuerung der Luftmenge durch den Gasfluß, da während der Gasinjektion der Widerstand in der Mischdüse 21 sehr stark vermindert und die Luftmenge erheblich vergrößert wird.To increase the exit impulse, the air can also be supplied under pressure. The amount of air is partially controlled by the gas flow, since the resistance in the mixing nozzle 21 is greatly reduced during the gas injection and the amount of air is considerably increased.

Wird die Mischdüse zur Befeuerung eines Tunnelofens verwendet, so ist es angebracht, wie dies in Fig. 3 schematisch gezeigt ist, jeweils mehrere Mischdüsen 21', 2111, 21"', denen das brennbare Gas über eine gemeinsame Gaszuführungsleitung 15' sowie impulsweise steuerbare Magnetventile 16', 16'', 16"', zuströmt, zu einer Gruppe zusammenzufassen. Mittels eines Steuergerätes 41 wird die Öffnungszeit eines der Magnetventile 16', 16'' oder 16''' nach der erforderlichen Leistungsverteiling individuell eingestellt, während die öffnungsfrequenz für die Mischdüsen einer Gruppe gemeinsam von einem Regler 42 in Abhängigkeit von der Temperatur in dem Brennraum 4, die über ein Thermoelement 43 gemessen wird, über das Steuergerät 41 vorgegeben wird.If the mixing nozzle is used for firing a tunnel furnace, it is appropriate, as shown schematically in FIG. 3, in each case a plurality of mixing nozzles 21 ', 2111, 21 "', to which the combustible gas is supplied via a common gas supply line 15 'and pulse valves which can be controlled in a pulsed manner 16 ', 16' ', 16 "', inflows, to be grouped together. The opening time of one of the solenoid valves 16 ′, 16 ″ or 16 ″ ″ is set individually by means of a control device 41 according to the required power distribution, while the opening frequency for the mixing nozzles of a group is jointly controlled by a controller 42 as a function of the temperature in the combustion chamber 4 , which is measured via a thermocouple 43, is specified via the control unit 41.

Claims (14)

1. Vorrichtung zur impulsweisen Einbringung eines brennbaren Gases oder von Luft in einen Brennraum oder dgl., insbesondere zur Befeuerung eines oberhalb der Zündtemperatur betriebenen Tunnelofens der keramischen Industrie mit Gas, mittels einer in den Brennraum ragenden Lanze, die an eine mit einem impulsweise steuerbaren Magnetventil versehenen Zuführungsleitung.für das einzubringende Medium angeschlossen ist,
dadurch gekennzeichnet , daß auf die Lanze (11) eine den aus dieser austretenden Strahl des in den Brennraum (4) einzubringenden Mediums (31) aufnehemende Mischdüse (21) aufgesetzt ist, die in Strömungsrichtung einen sich stetig verjüngenden Querschnitt aufweist und die mit einer oder mehreren Öffnungen (26) versehen ist, über die zur Vermischung des injizierten Mediums (31) mit der Ofenatmosphäre Gas (Strahl 32) aus dem Brennraum (4) ansaugbar und mittels der Mischdüse (21) in diesen als gebündelter Strahl (33) einbringbar ist.1. Device for the pulsed introduction of a flammable gas or air into a combustion chamber or the like., In particular for firing a tunnel furnace in the ceramic industry operated above the ignition temperature with gas, by means of a lance projecting into the combustion chamber, which is connected to a solenoid valve that can be controlled with a pulse provided supply line. is connected for the medium to be introduced,
characterized in that a lance (11) is fitted with a mixing nozzle (21) which receives the jet of medium (31) to be introduced into the combustion chamber (4) and which has a continuously tapering cross-section in the direction of flow and which has a or A plurality of openings (26) is provided, through which gas (jet 32) can be sucked out of the combustion chamber (4) to mix the injected medium (31) with the furnace atmosphere and can be introduced into the latter as a bundled jet (33) by means of the mixing nozzle (21) . 2. Vorrichtung nach Anspruch 1,
dadurch gekennzeichnet , daß die Mischdüse (21) im Bereich vor der Austrittsöffnung (22) mit kegelig ausgebildeten und/oder konvex gekrümmten Innenmantelflächen (25) versehen ist.2. Device according to claim 1,
characterized in that the mixing nozzle (21) is provided in the area in front of the outlet opening (22) with conical and / or convexly curved inner surface areas (25). 3. Vorrichtung nach Anspruch 1 oder 2,
dadurch gekennzeichnet , daß die in die Mischdüse (21) eingearbeiteten öffnungen (26) zum Ansaugen von Gas (Strahl 32) aus dem Brennraum (4) seitlich der Lanze (11) in deren Endbereich in der Wandung der Mischdüse (21) vorgesehen sind.3. Device according to claim 1 or 2,
characterized in that the openings (26) incorporated in the mixing nozzle (21) for sucking in gas (jet 32) from the combustion chamber (4) are provided on the side of the lance (11) in its end region in the wall of the mixing nozzle (21). 4. Vorrichtung nach Anspruch 3,
dadurch gekennzeichnet , daß die Öffnungen (26) als Bohrungen mit kreisförmigem Querschnitt ausgebildet sind.4. The device according to claim 3,
characterized in that the openings (26) are designed as bores with a circular cross-section. 5. Vorrichtung nach einem oder mehreren der
Ansprüche 1 bis 4,
dadurch gekennzeichnet , daß die Öffnungen (26) in einem zylindrischen Teil (23) der Mischdüse (21) eingearbeitet sind und daß sich an diese der sich im Querschnitt stetig verjüngende Bereich (24) der Mischdüse (21) anschließt.5. Device according to one or more of the
Claims 1 to 4,
characterized , that the openings (26) are incorporated in a cylindrical part (23) of the mixing nozzle (21) and that the region (24) of the mixing nozzle (21) which tapers in cross section adjoins this. 6. Vorrichtung nach einem oder mehreren der Ansprüche 1 bis 5,
dadurch gekennzeichnet , daß die Lanze (11) an ihrem in die Mischdüse (21) ragenden Ende mit einer Drossel (13) versehen ist.6. The device according to one or more of claims 1 to 5,
characterized in that the lance (11) is provided with a throttle (13) at its end projecting into the mixing nozzle (21). 7. Vorrichtung nach einem oder mehreren der
Ansprüche 1 bis 6, dadurch gekennzeichnet , daß die Mischdüse (21) mit einer mit Abstand zu der Lanze (11) angeordneten einen Strömungskanal (28) bildenden Ummantelung (27) versehen ist, durch den der Mischdüse (21) vorzugsweise über deren Öffnungen (26) Frischluft oder ein anderes Gas zuführbar ist.7. Device according to one or more of the
Claims 1 to 6, characterized in that the mixing nozzle (21) is provided with a casing (27) which forms a flow channel (28) and is at a distance from the lance (11) and through which the mixing nozzle (21) preferably has openings ( 26) Fresh air or another gas can be supplied. 8. Vorrichtung nach Anspruch 7,
dadurch gekennzeichnet , daß die Ummantelung (27) höhenverstellbar angeordnet ist und daß durch diese die seitlichen öffnungen (26) der Mischdüse (21) ganz oder teilweise abdeckbar sind.8. The device according to claim 7,
characterized in that the casing (27) is arranged such that it can be adjusted in height and in that the lateral openings (26) of the mixing nozzle (21) can be completely or partially covered. 9. Vorrichtung nach einem oder mehreren der Ansprüche 1 bis 8,
dadurch gekennzeichnet , daß die Lanze (11), die Mischdüse (21) und/oder die Ummantelung (27) ganz oder teilweise aus einem hitzebeständigen Werkstoff, vorzugsweise aus Siliziumcarbid hergestellt sind.9. The device according to one or more of claims 1 to 8,
characterized in that the lance (11), the mixing nozzle (21) and / or the casing (27) are made entirely or partially of a heat-resistant material, preferably of silicon carbide. 10. Vorrichtung nach einem oder mehreren der Ansprüche 1 bis 9,
dadurch gekennzeichnet , daß zur Einbringung unterschiedlicher Medien in den Brennraum (4) die Lanze (11) mit einer Mischkammer (14) versehen ist, an die jeweils mit einem impulsweise steuerbaren Magnetventil (16, 18, 20) versehene Zuführungsleitungen (15, 17, 19) angeschlossen sind.10. The device according to one or more of claims 1 to 9,
characterized in that the lance (11) is provided with a mixing chamber (14) for introducing different media into the combustion chamber (4), to which supply lines (15, 17), each provided with a pulse valve (16, 18, 2 0 ) which can be controlled in pulses , 19) are connected. 11. Vorrichtung nach einem oder mehreren der Ansprüche 1 bis 10,
dadurch gekennzeichnet , daß jeweils mehrere Mischdüsen (21', 21'', 21''') eines Brennofens (1) zu einer gemeinsam steuerbaren Gruppe zusammengefaßt sind.11. The device according to one or more of claims 1 to 1 0 ,
characterized in that a plurality of mixing nozzles (21 ', 21'',21''') of a kiln (1) are combined to form a group which can be controlled jointly. 12. Vorrichtung nach Anspruch 11,
dadurch gekennzeichnet , daß der Gruppe (Mischdüsen 21', 21'', 21''') jeweils ein Steuergerät (41) zugeordnet ist, mittels dem die den Mischdüsen (21', 21'', 21''') zugeordneten Magnetventile (16', 16'', 16"') individuell derart steuerbar sind, daß bei veränderbarer, konstanter öffnungsdauer die öffnungsfrequenz in Abhängigkeit von der Temperatur im Brennraum (4) über einen Regler (42) einstellbar ist.12. The device according to claim 11,
characterized , that the group (mixing nozzles 21 ', 21'',21''') is assigned a control device (41) by means of which the solenoid valves (16 ', 21', 21 '', 21 ''') assigned to the mixing nozzles 16 '', 16 "') can be individually controlled in such a way that, with a variable, constant opening duration, the opening frequency can be set as a function of the temperature in the combustion chamber (4) by means of a controller (42). 13. Vorrichtung nach Anspruch 12,
dadurch gekennzeichnet , daß die Schaltung der Magnetventile (16', 16'', 16''') seitlich versetzt erfolgt.13. The apparatus according to claim 12,
characterized in that the switching of the solenoid valves (16 ', 16'',16''') takes place laterally offset. 14. Vorrichtung nach Anspruch 12 oder 13,
dadurch gekennzeichnet , daß im Bereich zumindest einer Mischdüse (21') einer Gruppe im Brennraum (4) ein Thermoelement (43) angeordnet ist, das mit dem Regler (42) verbunden ist.14. The apparatus of claim 12 or 13,
characterized in that in the area of at least one mixing nozzle (21 ') of a group in the combustion chamber (4) a thermocouple (43) is arranged, which is connected to the controller (42).
EP84106165A 1983-07-04 1984-05-30 Device for the pulsating supply of a gaseous medium to a kiln or suchlike Expired EP0134907B1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AT84106165T ATE23220T1 (en) 1983-07-04 1984-05-30 DEVICE FOR PULSING A GASEOUS MEDIUM INTO A KILN OR LIKE.

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DE3324050 1983-07-04
DE3324050A DE3324050A1 (en) 1983-07-04 1983-07-04 DEVICE FOR IMPLEMENTING A GAS-SHAPED MEDIUM INTO A FURNACE OR THE LIKE.

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EP0134907B1 EP0134907B1 (en) 1986-10-29

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EP0559144A2 (en) * 1992-03-04 1993-09-08 BACHER & SCHMIDT GmbH Method and device for firing by gas a furnace used in the ceramics industry
EP0698764A3 (en) * 1994-08-26 1997-08-06 Bosch Gmbh Robert Burner for the flameless combustion of a fuelgas-air mixture

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DE3835360A1 (en) * 1988-10-17 1990-04-19 Keller Spezialtechnik Gmbh Tunnel furnace
EP0559144A2 (en) * 1992-03-04 1993-09-08 BACHER & SCHMIDT GmbH Method and device for firing by gas a furnace used in the ceramics industry
EP0559144A3 (en) * 1992-03-04 1993-12-22 Bacher & Schmidt Gmbh Method and device for firing by gas a furnace used in the ceramics industry
EP0698764A3 (en) * 1994-08-26 1997-08-06 Bosch Gmbh Robert Burner for the flameless combustion of a fuelgas-air mixture

Also Published As

Publication number Publication date
ATE23220T1 (en) 1986-11-15
DE3461118D1 (en) 1986-12-04
EP0134907B1 (en) 1986-10-29
DE3324050A1 (en) 1985-01-17

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