DE344636C - Glass harbor furnace with heating by contact combustion - Google Patents

Description

Glass harbor furnaces with heating by contact combustion. The invention refers to one. Glass harbor furnace with heating by contact burning a Gas-air mixture within a lumpy surrounding the ports below and on the sides Mass of porous, refractory material. The furnace according to the invention is through the Connection of the following facilities. The furnace consists of several Each chamber containing a port, in the lower, narrowed parts of the through special channels entering preheated Air and gas mix, while the combustion gases are discharged above the porous mass at the top of the chamber will; the mixing chamber has its own heat storage for air preheating and a special glass pocket in connection. This arrangement is made by the circumstance requires that the furnace with flameless combustion does not have a combustion chamber free flame development, but a combustion chamber filled with lumpy mass is available.

The drawing shows an exemplary embodiment of the subject matter of the invention shown; it shows. the furnace Fig. i in section according to G-H-I-, j in Fig. 3, Fig. 2 in section according to AI-N-0-P in Fig. 3, Fig. 3 in horizontal section according to A-B-C-D-E-F in Fig. 2.

In the Fig..3 are in the interest of clarity of the drawing and around the lines for the supply of gas and air to better show the melting ports as well as the surrounding contact masses.

The ports i are housed in chambers 2, which in the embodiment are arranged in two rows of four each. Under each of these chambers 2 there is one Channel for the air 3 and q for the gas arranged. The gas comes under pressure from an external line 5. The air also comes under pressure from a heat accumulator 6, which can be of any arrangement. The air is fed there through a pipe 8, which is branched off from the line 7. It is heated by the combustion gases, which are collected at the upper end of the chamber 2 in a channel 9; these gases after they have run through the heat accumulator, pass through the vertical Channel = o into line i =, which leads it to the chimney. Any heat storage and the various channels are, as usual, provided with flaps and slides, which serve to regulate and, if necessary, shut off one of the heat accumulators to secure.

The formation of a mixture of air and gas is as follows for each chamber 2 Secured way in the bottom of each chamber are three cavities 12 with sloping walls arranged, which terminate in transverse slots 13 in the ceiling of the Air duct 3 are arranged. The gas channel q. stands with the base of these cavities through openings 1q. in connection, which is arranged in one of the inclined walls are. These cavities 12 are filled with pieces of porous and refractory material, corresponding to those that surround the port.

The air and gas mix at the bottom of these cavities and their burning, which begins in the upward direction in these cavities, continues in the whole lumpy mass surrounding the harbors.

In the event of a melting port breaking, what is contained in it will pour out liquid melt through the cavities 12 and through. the openings 13, whereby it enters the air duct 3. This channel stands by a special channel 15 (Fig.2) in connection with the glass pocket 16. The channel x5 is normal through a very thin plate closed from a fusible mass. Once the liquid If melt penetrates into the channel, the plate melts away and the melt can Pour freely into space 16, from where it is immediately withdrawn through opening 17 will.

Claims (1)

PATENT CLAIM: Glass harbor furnace with heating by contact combustion a gas-air mixture within a surrounding the ports below and on the sides lumpy mass of porous, refractory material, characterized by the connection of the following institutions. The furnace consists of several each containing a port (i) Chambers (2), in the lower, 'restricted parts (i2) of which are provided by special channels (i3, i4.) incoming preheated air and the gas mix. while the combustion gases at the top of the chamber above the porous mass (at 9). The mixing chamber (x2) has its own heat storage (6) for air preheating and a special one. Glass pocket (i6) in connection.