DE1930691B2 - Device for periodically changing the heat output of each of the two opposing burners in a combustion chamber of a furnace, in particular for ceramic goods - Google Patents

Description

The invention relates to a device for performing the method according to patent 15 58 041 for Firing of combustion chambers with gaseous or atomized or gasified liquid fuels, the at least one horizontally arranged pair of burners are fed, the burner of the side boundaries of the combustion chamber and burn directed against each other in its lower area.

According to the main patent, the output of one burner of the burner pair is periodically and continuously from a minimum to a maximum and back and at the same time the output of the other burner of the Burner pair regulated from a maximum to a minimum and back so that the fuel gases meet, the sum of the outputs of both burners of the burner pair always essentially is constant and the meeting point of the combustion gases back and forth over the entire width of the combustion chamber moved here.

With this measure, the object is achieved of ^{creating a method for firing combustion chambers with 1} ^ gaseous or atomized or gasified liquid fuels, with which it is possible to drive the temperature equalization so far that today, for example, on the fire of ceramic goods The demands made can be optimally met.

The object of the present invention is to propose a device with which the from the Main patent known method is advantageously feasible.

This object is achieved according to the invention in that in the feed lines for a fuel-air mixture or for fuel and for air synchronously driven locking elements are provided, the opening and Closing times of the blocking element or the blocking elements for the one burner with those of the blocking element or the Locking elements for the other burner in phase shifted from one another essentially by 180 ° are.

Advantageous further developments are characterized in subclaims 2 and 3.

The invention is to be explained in more detail below with reference to the drawing. It shows

Fig. 1 is a partial section through a tunnel furnace, the is fired with a device according to the invention,

2 shows a detailed sectional view of a drive motor with the locking member driven by it,

F i g. 3 shows an embodiment in which both the air supply and the fuel supply are through separate Blocking organs are regulated.

In Fig. 1 you can see the side walls at 1 and 2 for example a tunnel furnace, which have openings 3 and 4 for receiving the burners 5 and 6. These burners are on the locking members 7 and 8 with the associated drive motors 9 and 10 with a Mixture of fuel and air, such as oil and air, supplied. The direction of flow of this fuel-air mixture is indicated by arrows. It runs over a circumferential locking member 11 and 12, which in detail in FIG. 2 is shown. It can be seen that the two drive motors 9 and 10 for the locking members 11 and 12 synchronously via a common power supply 13 are driven.

The position of the locking members 11 and 12 is selected in the illustrated embodiment so that the Blocking times in the phase are offset from one another by 180 °, d. H. the burner 3 works when the Feed to burner 6 is complete. Due to the inclined design of the locking edge 14 and 15, the Supply of the burners 5 and 6 with the fuel-air mixture carried out in such a way that when starting of the burner 6, the burner 3 with its flame retreats accordingly and vice versa.

Fig. 2 shows such a device in detail.

An electric motor 22, which is supplied with power via the connection 23, is accommodated in an explosion-proof housing 21. This electric motor engages with a shaft 24 in a housing 25 into which a line 26 for supplying, for example, a fuel-air mixture opens. A discharge line 27 is also connected to the housing. It should already be pointed out that such blocking elements can of course also be switched on separately in the fuel or air supply line. On the shaft 24 sits a rotary valve 28 with a curved control edge 29, so that when this locking slide 28 rotates in the direction of arrow A, the opening of the connecting line 27 is more or less closed or released.

The principle of both the air supply and the fuel supply through such blocking elements regulate can be seen from FIG. 3 can be found. The burner 31 is surrounded by an air supply sleeve 32 into which an air supply line 33 opens which is controlled by the blocking member 34, which is the blocking member according to FIG. 2 can correspond. Another blocking element 35 sits in the fuel supply line, which is also used as a supply line can be designed for fuel and primary air, so that only secondary air is introduced via the sleeve 32. Here, too, there is a phase shift to change the amount of the fuel-air mixture introduced between the locking slides 36 r, nd 37 of the burner 31 on the one hand and the locking slide of the other burner of the burner pair on the other hand.

For this purpose 3 sheets of drawings

Claims (3)

Patent claims: 1. Device for carrying out the method according to patent 15 58 041 for firing combustion chambers with gaseous or atomized or gasified liquid fuels, the minimum a horizontally arranged pair of burners are fed, the burners of the side The boundaries of the combustion chamber and in its lower area burn facing each other, periodically and continuously the output of one burner of the burner pair from a minimum to a maximum and back and at the same time the output of the other burner of the burner pair is controlled from a maximum to a minimum and back so that the fuel gases meet, the sum of the outputs of both burners of the burner pair immsr im is essentially constant and the meeting point of the fuel gases extends over the entire width of the Combustion chamber moved back and forth, thereby characterized in that in the supply lines for a fuel-air mixture or for fuel and locking devices driven synchronously for air are provided, the opening and closing times of the blocking element or the blocking elements for the one burner with those of the blocking element or the blocking elements for the other burner in phase with each other essentially by 180 ° are shifted. 2. Device according to claim I _1, characterized in that the locking members are designed as rotary valves, the locking edge of which has a curve shape. 3. Device according to claim i or 2, characterized in that the drive of the locking members takes place by electrical synchronous motors connected to a common power supply are. 40