DE1255226B - Incinerator - Google Patents

Description

Incinerator The invention relates to an incinerator for hospital waste Od. Like. In which the incineration of the waste by hot, from an electric heater escaping upper air jets is effected. Devices of this type already exist known in various embodiments. With them, however, is still that There is a risk of a more or less large amount of unwanted smoke, especially in the burning of moist material, which is quite common in hospitals.

In a known device, for example, incineration is also effected by means of hot air jets (British patent specification 916586). This measure is intended to ensure that the heating elements are arranged away from the actual combustion zone and cannot come into contact with the material to be burned. However, there is no provision for preventing smoke development during combustion.

Another device described above is for insulation the combustion opposite the room in which the stove is located, the walls of the Provide the furnace combustion chamber with channels through which cooling air flows. To penetrate To prevent exhaust gases from entering the room, these are achieved by means of a venturi arrangement aspirated (British patent 723 482). Smoke from combustion is diverted to the outside.

In a further known device, the hot air is introduced into the combustion chamber due to the convection effect through channels in which the heating elements are located and then flows through further channels to the exhaust (Swiss patent specification 319 500). An arrangement in which the heating elements are located behind a thin wall of the combustion chamber and the combustion takes place by thermal radiation and conduction through the thin wall is also previously known (French patent specification 1278 178). In both cases, the exhaust gases get into the flue without preventing smoke from developing. Finally, ignition devices for such furnaces have already been described (USA Patent 1977 151).

However, all these previously known devices do not prevent smoke is produced during combustion and is forced outside via the vent. The invention is based on the object to avoid this disadvantage and a To create incineration furnace in which the formation of smoke that passes through the flue can penetrate to the outside is prevented.

According to the invention, this problem is solved in that above the bottom plate of the rustless combustion chamber in the flue for the combustion gases of the The electric heater is housed with the nozzle directed towards the combustion zone, and that a Venturi nozzle protrudes into the exhaust duct for the combustion gases, so that the combustion gases around the electric heater brushing into the flue be sucked off. By these measures of the invention, the formation of smoke, caused by contact of the combustion gases with material that is still unburned, especially when the gases flow through this unburned material, largely suppressed. The bundling of the hot air jet caused by the nozzle creates already a very narrow, local combustion zone, from which the gases as a result the immediate vicinity of the vent and the suction in the vent peeled off before they come into contact with uncombusted material. As far as the gases on their short way from the combustion zone to the exhaust possibly still come into contact with particles of unburned matter and these with themselves lead, the arrangement of the radiator in the fume cupboard ensures that the Gases are additionally heated, so that extensive decomposition of in the Gas stream located, non-gaseous material reached and thus the formation is suppressed by smoke that would otherwise be discharged to the outside. In contrast to previously known incineration ovens, the operation of the Furnace also possible in densely populated residential areas and in the center of cities, without the environment being affected by smoke.

In a further development of the incineration furnace according to the invention, it is also provided that the bottom plate consists of adjustable, interlocking parts. Through this is prevented by the Soil from the cool, external environment inflowing gases penetrate from below into the combustion zone, thereby not only the combustion is impaired, but above all the smoke development is promoted will.

D'e drawing represents the subject matter of the invention for example and simplified. It shows FIG. 1 shows a cross section through the combustion chamber of the invention Furnace, fig. 2 is a side view of the incinerator in the direction of the arrow A according to FIG. 1 without showing the combustion chamber and FIG. 3 representations the radiator or its individual parts together with the devices for discharge of the escaping gas.

The walls of the combustion chamber 1 are inclined so that they facilitate a downward movement of the material to be burned to a combustion zone 1 a. The opening of the flue 4 is connected to the combustion zone 1 a and is designed so that it receives the tubular radiator 2. The important part of the body 2 is a nozzle 3. By means of a fan, air is forced through the heating body 2 so that it is heated by heating elements located therein and passed through the nozzle 3 into the combustion zone 1a. The hot air jet delivered in this way ignites the material and maintains the combustion in the combustion chamber. Gas products of the combustion go directly into the exhaust opening 4 and are there exposed to the effect of the remaining heat that is radiated from the radiator 2.

Air from a fan 5a flows through a nozzle 5 into a Venturi tube cross-section 6 of the flue duct 7 and thus increases the movement of the combustion gases from the combustion zone 1 a via the heating element 2 and from there into the flue duct 7.

The heat from the nozzle 3 quickly exposes the material to be burned to a high temperature and causes immediate combustion. Without the combustion gases being cooled on their way through unburned material, the gases flow slowly over the heating element 2, which gives off considerable residual heat, so that any non-gaseous constituents that may still be carried along are decomposed and gasified. The entire gas flow is then passed through the venturi cross section of the flue into the flue duct 7 and mixed with compressed air from the fan 5 a , in order then to be passed into the outer chimney.

A precise control of the gas movement is essential for the success of these measures necessary. While the access door 8 of the combustion chamber is closed, and the bottom plate 9 is adjustable to make a closed base, i.e. H. a foundation without openings, a stream of air is passed through the nozzle 3 and dimensioned so that a high temperature, mainly local combustion occurs, and a low one Speed of the outflow is achieved, so that a complete, secondary Combustion is caused by the residual heat of the tubular heater 2.

The bottom plate 9 of the combustion chamber is formed by a series of blinds which, when closed, interlock and form a continuous foundation. To remove the ash, a lever 10 tilts the blinds into a vertical position and thus lets the ash residue fall into an ash pan 10a below. When the entire array of blinds is raised from the foundation of the combustion chamber to the vertical position, any debris in the combustion chamber, e.g. B. incombustible material to be tipped into the ashtray.

The in F i g. 3 includes a thin tubular steel body 11 with a central part 12 and an outer nozzle 3. On either side of part 12 is a clay-coated tube 14 in which a heating coil 15 is on a ceramic body 16.

As an alternative, the tubular body 11 can be made entirely of clay in cases where there is greater heat radiation from the radiator is required.

The lugs 17 are attached to both ends of the tubular body 11 and are connected to the fan 5a via pipes 18. The main part of the radiator is arranged in the lower part of the flue, the nozzle 3 being directed into the combustion zone 1a, while the lugs 17 are located outside the flue. The air from the fan 5a enters the tube body 2 from both ends, flows over the heating body 15, and is guided through the central part 12 into the nozzle. The temperature and air movement are adjusted to produce a sufficiently hot flow to initiate and sustain combustion.

While the material is being burned in the combustion zone, will further material moved down to the combustion zone by gravity; the downward movement is due to the sloping shape and arrangement of the walls the combustion chamber 1 facilitated.

Claims (2)

Claims: 1. Incineration furnace for hospital waste or the like, in which the incineration of the waste is effected by hot jets of air emerging from an electric heater, characterized in that above the base plate (9) of the rustless combustion chamber in the fume cupboard (4) for the combustion gases of the electric heater are housed with the nozzle (3) directed towards the combustion zone, and that a venturi nozzle (5) protrudes into the exhaust duct (7) for the combustion gases, so that the combustion gases are sucked into the exhaust duct, sweeping around the electric heating element. 2. incineration furnace according to claim 1, characterized in that the base plate (9) is formed from adjustable, interlocking parts. References considered: British Patent Nos. 916 586, 723 482; Swiss patent specification No. 319 500; French Patent No. 1278178; U.S. Patent No. 1977151.