DE496523C - Furnace with spray nozzle for testing refractory products - Google Patents

Description

Furnace equipped with a spray nozzle for testing refractory products The invention relates to an oven. the one used to test the resistance of the fireproof Products, in particular refractory bricks, are used against the effects of substances. with which the stones come into contact when they are glowing. So it should for example the effect of the ash on the furnace wall was tested in the case of dust firing will. The test has so far been carried out in an oven in which the test stone was heated up by means of a gas flame, whereupon the one to be brought into action Fabric was sprayed onto the stone by means of a spray nozzle.

In order to carry out the test correctly, it has been found to be an advantage that the heated test stone is covered with the substance to be exposed not only on one surface but, if possible, on all of its side surfaces. According to the invention this is achieved with a relatively simple construction of the furnace, that serves as a carrier for the sample tray of the combustion chamber of the furnace, Antel in which 1, the nozzle for the aufzuspritzenden material flows around the axis of the combustion chamber is rotatable. If the floor of the combustion chamber is rotated after the test stone has been heated up, the entire surface of the surface of the smein is covered with the substance, since all of its side surfaces are moved past the spray nozzle. Although ovens are known in which the oven base is set up to be rotatable, these ovens are not suitable for testing refractory bricks and do not have a spray nozzle.

The insertion of the volch stone. the end. the relatively high one Combustion chamber, but mainly the removal of the stone as a result of the Substances that are sprayed and melted on the stone often cause difficulties. The insertion as well as the removal of the test stone is according to the invention much easier that the rotatable floor of this combustion chamber can be raised and lowered is. The floor of the combustion chamber can be lowered. be exposed so that then the test stone can be easily inserted and removed. The soil is also lighter to clean. Ovens with a rotatable sole that can be raised and lowered are also known but even in this case it is not a question of testing ovens for which the lifting and Lowerable the sole is of particular value.

The furnace is heated with gas by moving into the combustion chamber with the aid of a flame is introduced by compressed air, the joint between the rotatable The bottom of the combustion chamber and its jacket are sufficiently sealed to prevent the knocking out to prevent the hot gases and the associated heat loss.

The previously common sealants of such joints exist from water or sand. Both means cannot be used in the case of the invention. With the small usages of the furnace and the high to be generated Temperatures, the water would evaporate immediately. The sand would melt, or at least it would become soft if it is not made from the best refractory raw materials, but they do are not always there. Even with a furnace of such small dimensions the friction between the sand and the rotatable furnace part is very high, leading to Difficulties in operations.

According to the invention, the seal is achieved in that in Area dier joint compressed air supply lines are arranged, from which the joint compressed air is supplied by the same overpressure as prevails in the combustion chamber.

In the drawing is an embodiment of the furnace according to the invention shown.

Fig. I shows a longitudinal section through the furnace on the line A-B of Fig. 2. which shows a cross-section along the line C-D of Fig. I.

The combustion chamber i of the experimental furnace shown has a refractory one Jacket 2 and is covered by a cover 3 at the top. The coat 2 rests on one Frame q .. The floor 5 of the combustion chamber i made of refractory material is supported by a vertical ZYelle 6 borne with a thrust bearing; is mounted on .einer plate 8. the Shaft 6 lies in the extension of the axis of the combustion chamber i. On this record an electric motor 9 is arranged, through whose '\ Velle io by means of a bevel gear .es i i the shaft 6 can be rotated. The plate 8 is attached to the frame by means of ropes 12 q. can be raised and lowered. The lifting and lowering as well as the locking ice in the The raised position is done by a hand lever 13.

The furnace is heated in the illustrated embodiment by means of fan flames by feeding fuel gas through line 1. the Leitulng (1 4th opens with openings 15 at three opposite points of the: jacket 2 in the combustion chamber i. The fuel gas is blown in by means of compressed air, which through the line 16 connected to any blower.

The one to be tested for his ability to attack, the test stone The fabric is stored in the container 17 located above the oven and fed from this to a nozzle 18, which is inserted into a provided in the Mante12 and into the combustion chamber i opening channel i j protrudes. The nozzle 18 will also turn off compressed air is supplied to the fan through a line 2o.

The bottom of the furnace, which is rotatable about its axis, engages with an edge 21 into a recess 2a of the jacket 2. At the annular gap with which the joint 23 71vischen the bottom 5 and the jacket 2 opens downwards, is one with a larger number of nozzle holes provided pressure air line 24 arranged, the compressed air is supplied from the fan through line 25. The nozzle holes are directed towards the joint 23.

In order to insert the test stone 26 ih, the furnace is the support plate 8 mitüls of the hand lever 13 accordingly, the height of the stone lowered and the stone placed on the base plate 5. The support plate 8 is then lifted again and the test stone now by means of the blower flarninen, which opens from three sides act on the stone, heated up in a manner known per se. Is the stone on the When the desired temperature has been reached, the base 5 is moved by means of the electric motor 9 rotated so that the stone 26 also rotates about its axis. Now it is on its ability to attack the substance to be tested on the stone by means of the nozzle 18 aufb splashes. In front of the nozzle, all the outer surfaces of the stone are gradually removed passed so that it is covered on the whole circumference with the fabric.

To remove the test stone 26 from the furnace is by means of Hand lever 13, the support plate 8 is lowered so far that the support surface of the floor 5 exposed. It can then easily be the test stone 26, even if it has melted of the sprayed-on substance is stuck on the floor, broken loose. Also lets clean the surface of this floor well.

The easy rotatability of the bottom 5 with adequate sealing the joint 23 between the floor and the shell 2 during the pickling of this test stone 26 is secured by the fact that from the nozzle holes of the ring line 2: 1 into the FU.e 23 compressed air is blown in, the pressure of which corresponds to the overpressure of the respective prevails in the combustion chamber i. It can therefore be dimensioned even with relatively large Joint 23 does not knock the hot combustion gases out of the furnace, which leads to heat losses would be connected.

The penetration of the approximately collecting on the floor 5 of the combustion chamber i liquid slag in the joint 23 between the bottom and the shell 2 is thereby Sufficiently prevents that the bottom with the edge 21 ü1 the groove 22 of this jacket 2 intervenes. ° The pickling of the test stone can of course also be done by others Heating means than done by gas flames. Also could one in kinematic Reverse fix the bottom 5 and run the jacket 2, it would then However, the supply of the heating medium and this substance to be sprayed on difficulties prepare.

Claims (3)

PATE N CLAIMS: i. Oven provided with a spray nozzle for testing refractory products, characterized in that the base (5) of the combustion chamber (i) of the oven, which serves as a support for the sample (26) and in its shell (2) the nozzle (i, 9) for the The substance to be sprayed on opens, is rotatable about the axis of the combustion chamber. 2. Oven according to claim i, characterized in that the rotatable bottom (5) of the combustion chamber can be raised and lowered in a known manner. 3. Oven according to claim i and z, characterized in that d'ass in the area of the joint (23) between the rotatable base (5) and the fixed jacket (a) compressed air supply lines (2, f) are arranged, to which the joint is supplied with compressed air from the same overpressure becomes how it prevails in the combustion chamber (i).