DE1936993U - REGENERATIVE OVEN. - Google Patents

Description

/ Hs Munich-Pullach, March 3rd, 1966

File number; J 11 855 / 24c Gbm

INCANDESCENT LIMITED ₅ Cornwall Road, Smethwiek 4o, Staffordshire, England

Regenerative oven.

The present innovation relates to regenerative furnaces in which combustion air (or oxygen or oxygen enriched air), hereinafter referred to as "air" for the sake of brevity, is preheated in two regenerators, which are alternately connected to the flue for the combustion gases, thereby storing heat and using it after switching to the air flowing through the regenerator.

According to the previous practice, such ovens are equipped with two groups of burners, which are usually on opposite sides Sides of the furnace chamber are arranged. Preheated air and fuel are used for these burner groups the combustion alternately supplied, with the resulting combustion gases through the other group of called openings is discharged.

With such an arrangement it is necessary to reverse the flow of combustion products through the furnace from time to time. As a result, the batch in the furnace is heated unevenly. Furthermore, only half each the burner is in operation, each burner group (as well as

the channels leading to it) must be twice as large as the pail needed to be, if all of them were continuous Burners could be in operation.

The innovation is now based on the task of a device to create in which all burners, i.e. the burners arranged on both sides of the furnace chamber, work continuously, so that the switching of the flow direction of the combustion products through the furnace chamber, which is necessary from time to time comes in port case.

According to the innovation, this is for a renewable furnace with two Regenerators and a switchover valve, each with a regenerator with the fresh air supply and the other with the exhaust for the hot combustion gases and in certain It is switched at intervals and is equipped with two groups of combustion air openings and burners in the furnace chamber is provided that an exhaust opening for the combustion gas is arranged in the furnace chamber separately from the air openings and that additional reversing devices are provided, which are in the same direction and at the same time as the reversing valve Regenerator charged with warm air with both groups the air vents and the other regenerator with the fume cupboard of the combustion gases, the changeover taking place periodically with continuous operation of the burners.

In a preferred embodiment of the innovation it is provided that the exhaust for the combustion gases from the Furnace space is connected to the corresponding ends of both regenerators via a branching line and that a valve with three connection openings is installed at the branch point, while the air inlets at the two Sides of the furnace each to a connection opening of a second,

with three connection openings equipped reversing valve are connected, the other two connection openings communicate with the regenerators at the same end as that with the previously mentioned branching one Line is the case and the two reversing valves are set up in a suitable manner for simultaneous switching are.

However, it is also possible to replace the reversing valves equipped with three connection openings with two with two connection openings equipped reversing valves, with all four valves in a suitable manner for simultaneous and adjustment in the same direction are related to each other.

It is also possible to have the two with three connection openings each equipped valves with a single valve equipped with four connection openings.

In any of the arrangements described above, the inlet ports are equipped with burners for the preheated air, to which a constant fuel, mostly through suitable channels Gas, is supplied.

The innovation is explained in more detail below with reference to three exemplary embodiments shown in the drawing. It shows %

FIG. 1 is a diagrammatically simplified vertical Section through a first embodiment of the innovation;

Figure 2 shows a second embodiment in the same type of representation and

Figure 3 shows a third embodiment, also in the same representation.

The fuel supply lines are in thin lines and the Air ducts or ducts shown in strong lines. One setting of the device is indicated by the arrows and valves shown in solid lines, while the other setting is represented accordingly by dashed arrows and valves. The various reversing valves are mechanically or in some other way with each other for simultaneous and in the same direction adjustment with (not shown) Facilities connected.

The same components are provided with the same reference numbers in the figures.

As Figure 1 shows, the furnace chamber 1o is on both sides Air inlet openings 12, 14 equipped, is built into the burner 16, 18. The burners are via the lines 2o constantly supplied with fuel, e.g. oil or gas. In the vault of the furnace, a vent 22 is provided through which the hot Combustion gases flow off.

The combustion air is preheated in the regenerators 24, 26, which are switched on alternately. The cold air enters through a pipe at 28, while the combustion gas is discharged through a pipe 32 with the aid of an exhaustor 3o will. A control valve 34 equipped with four connections is located at the intersection of the tubes 28 and 32 with the Tubes 36 and 38 leading to the "cold" ends of regenerators 24 and 26. As can also be seen from the drawing, are in the first phase of the process, the tubes 28 and 32 to the tubes 36 and 38 by setting the appropriate Valve 34 connected. These connections are swapped for each other in the second stage of the process.

The '! Hot' ends of the regenerators 24 and 26 are attached to the Pipes 4o and 42 connected, which in the pipes 44 and 46 open out ,, The pipes 44 and 46 lead to one with three connection openings equipped reversing valve 48, at the third opening of which the flue 22 for the combustion gases incoming pipe 52 is connected.

The tubes 44 and 46 are also provided with a second three connection openings having reversing valve 5o in connection, the third connection opening via a pipe 54 to the itself branching line 56, 58 is connected. Lines 56 and 58 enter the furnace at 12 and 14, respectively.

The switching valves 34, 48 and 5o are mechanically or in some other way _5, for example pneumatically, hydraulically or electrically, synchronized in such a way that in the first part of the process the regenerator 24 via the pipes 4o, 44 and the valve 5o with the pipes 54, 56 , 58 is in communication and the regenerator 26 is connected to the pipes 42, 46 and the valve 48 is connected to the pipe 52. In the second stage of the process, these connections are interchanged.

The embodiment shown in Figure 2 differs from that of Figure 1 in the following respects?

Instead of the switch valve equipped with three connection openings 48 and 5o according to FIG. 1 are two pairs of valves 6o, 62 each having two connection openings and 66 and 64 installed. The valves 6o and 62 are in the line 44 and each on different sides of the confluence of the pipe 4o and the valves mentioned are connected to one another in such a way that one is closed when the other is open and vice versa. Valves 64 and 66 are

in a corresponding manner in the line 46 on both sides of the The junction of the line 42 is installed and also switched so that one of the valves is opened and the other is closed, or vice versa. The two tubes 44 and 46 are directly between the valves 62 and 66 connected to the line 52, while the parts of the lines 44 and 46, which are behind the valves 6o and 64, are directly connected to the line 54.

In the exemplary embodiment according to FIG. 3, a single reversing valve 68 provided with four connection openings is used instead of the valves 48 and 50 according to FIG. 1, each provided with three connection openings. The. the two opposite openings are connected directly to the tubes 40 and 42 and the other opposite openings are connected to the tubes 52 and 54. The line 54 is directly connected to the lines 56 and 58, whereby the lines 44 VlXlö. 46 according to FIG. 1 can be omitted. During the first part of the operating process, the valve 68 connects the regenerator 24 via the lines 56, 54 and 58 to both inlets 12 and I4 for the combustion air and at the same time connects the regenerator 26 via the line 52 to the exhaust 22. These connections are activated when switching of the valve interchanged in the second part of the operating process.

As can be seen from the above, it is ensured in all three illustrated embodiments that the preheated Air flows continuously to the burners located on both sides of the furnace, so it is not necessary is to also provide a switch valve in the fuel lines.

Of course, a regenerative furnace according to the invention can have devices that feed some of the combustion gases back into the regenerator that is being heated return and / or additional air (which can be cold or preheated) to the inlet of the regenerator that is being heated bring.

The innovation is of course not limited to regenerative ovens applicable to those that work with two regenerators, but also to those ovens in which one batch is through a long furnace is moved through it, be it continuously or step by step, passing through different furnace zones, in such ovens two or more regenerators can be provided for each such oven zone. It can in this case, for example, rotary hearth furnaces, tunnel furnaces and the like act through which the batch is moved in a straight line with the help of means of transport or gravity.

All details described and shown are essential for the innovation.

Claims (1)

RA.121882-U.66 PROTECTION CLAIMS Regenerative oven with two generators and a switch valve, each with a regenerator with the fresh air supply and connects the other to the outlet for the hot combustion gases and switches over at certain time intervals is identified by it, as well as with two groups of combustion air openings and burners in the furnace chamber net that in the furnace chamber separate from the air openings (12, 14) an outlet opening (22) for the combustion gas is arranged and that additional reversing devices (48, 5o; 6o to 64; 68) are provided, which are in the same direction and at the same time as the control valve (34) of the preheating air acted upon regenerator (24) with both groups of air openings (12, 14) and the other regenerator Connect (26) to the flue (22) for the combustion gases, the switching periodically with continuous Operation of the burners (16, 18) takes place. Regenerative furnace according to claim 1, characterized in that the additional reversing device consists of two, each valves equipped with three connection openings (48, 5o), which are each connected to the combustion air inlets (12, 14) and the combustion gas outlet (22). Regenerative furnace according to claim 1, characterized in that the additional reversing device consists of two pairs of valves (6o, 62; 64j 66) each provided with two connection openings, of which one pair each one of the regenerators (24) alternating with the combustion air inlets (12, 14) and the combustion gas outlet (22) connects. 4. Regenerative furnace according to claim 1, characterized in that the additional reversing device consists of one with there is a valve (68) equipped with four connection openings, which alternately connects the regenerators with the combustion air inlets (12, 14) and the combustion gas vent (22).