DE186014C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

186014 CLASS 36 δ. GROUP

Patented in the German Empire on December 21, 1905 .

The invention relates to gas heating stoves with separate air and heating gas supply and the purpose, with low material costs for the radiator the heat of the heating gases to a large amount of air as completely as possible transferred to. The transfer of heat to the room to be heated happens in the present furnace almost exclusively by communication of the. Heat to the oven

ίο passing air. while the heat transfer due to radiation from the furnace walls is only slight. .. '.

The radiator of the present gas heater consists of flat in a known manner

(z. B. in cross-section elliptical or lenticular) tubes, which with their broad sides are juxtaposed at small intervals like a grid and on one side (e.g. inside) from the heating gases, on the other side (e.g. outside) from the one to be heated Be flushed with air. The pipes end in collecting spaces, of which the Hot gases get into the fume cupboard. Such a lamellar tubular heating element known per se

is now according to the invention in a LJpmantelung then stored close to this in such a way that the entire Flow of the heated air, led across the direction of the heating gases, through the pipes in an approximate manner parallel, thin-layered branch currents is divided, creating an intimate contact the heating gases and the air with the heating surfaces and thus a favorable heat transfer is achieved. In particular, to prevent the paint coating on the casing from burning, you can choose between the latter and the heater box a slight gap can be left, which however must not be so wide that a considerable part of the air to be heated passes through can.

The drawings represent various embodiments of the subject matter of the invention represent.

Fig. Ι shows different cross-sectional shapes of the lamellar heating pipes used;

Fig. 2 shows a wall-hung oven in cross-section;

Fig. 3 is a view of the internal equipment of this furnace after removal of the Front wall;

Fig. 4 shows a furnace intended for higher heating capacities in cross section;

Fig. 5 illustrates a round gas heating furnace, partially in section;

Fig. 6 shows an embodiment of the furnace in which the heating air flows through the lamellar tubes, the outside of the heating gases be washed around.

As can be seen from FIGS. 2 and 3, the heating tubes α are connected to the end plates b, c in a gas-tight manner. The end plate c forms part of the wall of the collecting duct h for the combustion products of the gas. The side walls of the furnace d, e, f, g are not perforated and form a casing to be generated; the ceiling of the furnace is DA i

against provided with many openings for the exit of the heated air. In the case of the stove hanging directly on the wall, the rear wall g can be omitted. The shown in Fig. 4, for large heating capacities, for. B. for church heating, certain furnace is rectangular in plan and has two gas burners m and m ¹ , whose flames are in the combustion chambers

ίο k resp. develop k ^1. Since, due to the large amount of heat to be transferred, the heating pipes would be very wide, making the gas-tight connection to the end plates b, b ¹ and c, c ¹ more difficult, there are two rows of pipes with pipes a, a ^l from here on each side of the furnace half width applied. The tubes a, a ^{1 of} the two rows can be offset from one another in plan. Corresponding to the direction of the air flowing through, the outer rows of tubes are arranged in a staircase-like manner, so that the lower, most heated parts of the tubes are sufficiently cooled by the air. Of course, more than two rows of tubes can also be arranged.

In the shown in FIG. Round "furnace 5 in figure are the heating tubes a. A truncated cone or pyramid arranged, the base of the air inlet ^ occurs steep facing. In this way it is achieved that the spaces between the tubes α at the bottom, the largest Parts exposed to heat are wider than above; as a result, the lower pipe parts are hit by a larger amount of air and are better cooled. In this embodiment, too, two rows of pipes can be used which are concentric to one another. The inclination of the pipes α is arbitrary

Fig. 6 shows an embodiment of the furnace in which the air flows through the pipes a around which the heating gases flow. In this case, the tubes α are very, short, but very long in plan.

Claims (3)

Patent Claims: 1. Gas heating stove, the radiator of which is flat, with their broad sides at intervals There is a grid-like juxtaposed tubes, characterized in that the The jacket, which is crossed by the air to be heated, tightly encircles the radiator so that the entire air 'Amount between the lamellar heating pipes (a, a ^l ) dividing the passage cross-section for heating gases and air in a grid-like manner is passed through the furnace transversely to the direction of the heating gases. 2. Gas heating furnace according to claim 1, characterized in that the lamellar tubes (a, a ^l ) of the radiator are arranged in two or more superimposed rows in such a way that the connection points of the individual rows of tubes are stepped like a staircase (Fig. 4). 3. Gas heating furnace according to claim ι and 2, characterized in that the lamellae ··· 'tubes (α; α ^Λ ) of the radiator are arranged in one or more rows in the shape of a truncated cone or a pyramid, the base of which faces the air inlet point (Fig. 5). . 1 sheet of drawings, Printed in the