DE1301436B - Process for the operation of tunnel ovens u. Like. For firing ceramic products - Google Patents

Description

1 2

In the patent application P 12 88 752.4-24 is a The subsections can also overlap.

Method for operating tunnel kilns and the like. The method according to the invention is also suitable The firing of ceramic products is characterized by that that leads to the generation of the periomit Funding circles from the the direction of flow of the furnace gases is described - 5 furnace atmosphere or part of the furnace atmosphere, in which the main gas flow traverses a short sphere one after the other, early pulsating movement in the longitudinal direction of the furnace With the aid of the method according to the invention

is superimposed. it possible to target the heat transfer in one

This method avoids the disadvantages associated with the one or more sub-sections of the furnace Improve countercurrent process for the operation of xo. With sufficient heat tunnel kilns in the firing zone and the like for ceramic products to transition conditions can with the inventive. In the known countercurrent process, the heat transfer in cooling and cooling processes would be moderate the furnace atmosphere, consisting of air and gas, will be improved without the entire Sphere to have to move in a direction of movement of the kiln atmosphere and a demguts moves in the opposite direction and closes To have to be exhausted as flue gas near the furnace entrance.

sucked. The method according to the invention is special in the main combustion zone, which is located approximately in the

The furnace is located in the middle of the furnace, for example, with low firing throughputs, such as those heated by means of side or ceiling firing. For example, on weekends or public holidays in Burners in the fire zone heat which are driven in the combustion chamber ao tunnel kiln. Even with such located furnace atmosphere, which in turn consists of low throughputs with the inventive heat releases to the item to be fired. The temperature of the method according to the guarantee for a sufficient furnace atmosphere decreases in the direction of movement accordingly good heat transfer between the items to be fired and the furnace atmosphere of a burner or a furnace atmosphere in the critical furnace zones, namely the burner row until the next, where they are borrowed again in the cooling and warming zone, is lifted. Such heating and cooling is shown in the drawings

the furnace atmosphere is repeated in the case of Fig. 1, a device for carrying out the

run the furnace atmosphere through the entire process according to the invention in different Main combustion zone, until the furnace atmosphere corresponds to that in its sections of a tunnel furnace, Direction of movement seen last burner or the 30 F i g. 2 a device for carrying out the last row of burners reached. method according to the invention, in which two conveyor

Because the specific heat of the material to be fired in the cycle of the furnace atmosphere is essential one after the other equal to the specific heat that will run.

In Fig. 1 Brennwagen2 are in the direction of the furnace atmosphere and the heat exchange between

see the items to be fired and the furnace atmosphere in arrow 8 moves. The furnace atmosphere of the in F i g. 1 countercurrent occurs, is in the known counter-shown tunnel kiln, the gas and conveyor circuits passing through the kiln are periodically moved with the aid of a backflow process. In the amount determined by the fuel throughput, and warming zone this periodic movement is done with the help of such a way that the gas flow through a blower 3, which is equal to the fuel throughput in a pipeline. Because of this, 40 Sb sits. The directions of movement of the furnace air modification, the only relatively low gas velocity sphere in the heating zone are allowed by the dopes in the furnace, the heat transfer between arrow arrows 9 α and 9 b is symbolized. In the same way as the furnace atmosphere and the material to be fired, especially in the as well as in the heating zone, there is also a relatively poor conveying circuit in the cooling zone and in the heating zone, which consists of a fan 5 c is arranged. There is also a heating and cooling zone in it. The movement of the furnace atmosphere, which this conveyor the speeds of the furnace atmosphere passes through, is symbolized by the double arrows 9 e within the individual zones (heating zone, firing and 9 /. A large one, the conveyor circle zone and cooling zone) differ from each other, and in the cooling zone and heating zone overlap in such a way that in the cooling and heating zone there is a large number of conveying circuit in the middle of the furnace with dashed lines showing lower gas velocities than in the combustion zone. It consists of a pipe 5 α and a zone are present. With an overall low fan 10 located therein. The direction of movement speed levels are consequently the maintenance of the movement transition conditions of this middle conveyor circuit due to a too low furnace atmosphere are indicated by the double arrows of the gas speed, particularly in cooling and connection 55 9 c and 9 d symbolizes.

The warming zone of a continuous oven is critical. The on- In F i g. 2 are two overlapping delivery of the present invention is the circles shown. In the above-described disadvantages of the known counterpart of avoiding the heating zone and burning zone of the flow process, one conveyor circuit includes a process for continuous furnace. It consists of a pipe that allows the heat transfer 60 5 d and a fan 3 α arranged therein. The conditions in a tunnel furnace or the like and in the directions of movement of the furnace atmosphere moved by this conveyor circuit in particular in the cooling and heating zone of a tunnel will be improved by the double furnace. arrows 9 g and 9 i shown.

This object is achieved according to the invention by the second conveyor circuit shown in FIG

solved that the main gas flow comprises the combustion zone and the cooling zone only in a 65, consists in one or more sections of the tunnel furnace essentially from a pipe 5 e and a short-term, pulsating in the furnace longitudinal direction of this pipe 5 e arranged fan 4 a. The movement is superimposed. with the help of this support group achieved movement of the

The furnace atmosphere is symbolized by the two double arrows h and 9 k.

In both figures, a flue gas comb 1 is also shown, which is used to remove the enforced Gas-air mixture is used.

Claims (3)

Patent claims: 1. Method of operating tunnel kilns and the like for firing ceramic products with furnace gases flowing essentially against the direction of flow of the material to be fired, wherein the main gas flow is superimposed by a brief, pulsating movement in the longitudinal direction of the furnace is (according to patent application P 12 88 752.-4-24), characterized in that the Main gas flow only in one or more sections of the tunnel kiln a short-term, pulsating movement is superimposed in the longitudinal direction of the furnace. 2. The method according to claim 1, characterized in that the subsections overlap. 3. The method according to claims 1 and 2, characterized in that serving to generate the periodic movement conveyor circuits (3 a, Sd; 4 a, 5e) are passed through one after the other by the furnace atmosphere or part of the furnace atmosphere. 1 sheet of drawings