DE1806866A1 - Fresh nozzle - Google Patents

Description

F R I S C H D Ü S E The invention relates to a fresh nozzle or a Burners for various fresh and melting processes, especially a burner, which regulates the combustion flame in a suitable manner, the combustion in the Supply of a large volume of fuel stabilized, with which a large amount of cold Charge can be melted quickly when using melters such as a converter, a Siemens-Martin furnace or various combustion devices is used, which at any time with a suitable on-position one of the shape of an oven, an incinerator and other working conditions and which improves work efficiency.

When operating converters etc. DUaen are used to blow in oxygen widely used. Furthermore, it will often with the help of Oxygen fuel burners melted cold charge. To in particular It is necessary to melt a large amount of cold load in a short time to supply a large volume of fuel. In addition, it is important to have a satisfactory Maintain combustion efficiency and a stable and short flame regardless of the fact that a lot of fuel is added in the process. It is also done with the aid of a nozzle or a burner injected fuel so plumb it to achieve a stable Combustion with high efficiency is essential to vary the fuel supplied or supply it in large quantities if necessary and adjust the flame length accordingly the respective combustion conditions, the respective heat treatment or shape to adjust the combustion device. Conventional burners of this type give However, only under certain conditions a satisfactory flame, that is, they are designed for certain normal conditions. ilird at a. such burner a.

B. the fuel in a normal amount overrschreitenden degree supplied, there are unstable combustion and a decrease in combustion efficiency the consequence.

Accordingly, in such a conventional system, completely Different nozzles or burners are used, depending on whether they are only for oxygen freshening and for blowing up or additionally blowing in fuel for combustion to serve. If z. B. cold charge melted and at the same time Usually refined with oxygen, so need for the respective procedural steps different nozzles are available and these nozzles must be replaced during operation will. This means an inevitable loss in the workflow with every change. Takes account of the progress of the reaction or the change, etc. during this loss time, so it is obvious that a burn or a fresh one, how they are really desirable according to the respective operating conditions, not can be achieved even if two or three nozzles or burners are available.

The invention primarily aims at the aforementioned disadvantages of conventional ones Avoid fresh nozzles, d. H. to create a fresh nozzle that feeds large Fuel quantity and stable, high-efficiency combustion when melting large quantities of cold charging material in converters, etc. allows. For this purpose, according to the invention, in a jet pipe for oxygen or oxygen-enriched Air, etc. Rotary guide parts provided, which ines concentric circle Porm on the outside of a central fuel supply line that squirts out heavy fuel oil, are attached through which the exiting from this jet pipe. Gas flow into a Vortex movement is displaced and with their help through the vortex movement of the oxygen etc. a reverse flow area is formed in the flame. This backflow area causes a flame holding, through which a stable and relatively short flame with high combustion efficiency can be achieved with high fuel throughput. The result of this is that too a large amount of cold loads such as solid pig iron and scrap in a short time Time melted, and let the steel output of a Siemens-Martin furnace increase can be.

To achieve this main purpose, the invention aims at the Rotation of the guide part in the jet pipe for the oxygen or the oxygen-enriched Adjust air etc. as desired and lock the same. This forms a rationally burning flame, as this vortex effect and, accordingly, the reverse flow area as well as the function of the flame holding can be freely regulated. In this way can a single lance or burner, e.g. an oxygen freshening lance for converters as well as a burner for melting different cold charges in work satisfactorily over a wide range of applications. This is according to the invention achieved in that the wall of at least one of the mentioned beam tubes for oxygen or air is movably arranged that the ends of the guide parts between the Walls of these pipes are fixed and that when setting the movable wall is rotated to adjust and change the rotation of the guide parts.

Another purpose of the invention is to provide a fresh nozzle create in which the rotation of the guide parts is set in a simple manner and can be changed.

For this purpose, according to the invention, there is a rotatable one in a first jet pipe Tube provided that surrounds a second central jet pipe. The rotary guide parts are arranged between this rotatable tube and a sleeve. A rotating part protrudes from the sleeve and is attached to the foot end of the rotatable tube. on In this way, the twisting and the guide part on the foot side of the sleeve can easily set and the jet can always be adapted to the operating conditions.

Finally, the invention aims at a fresh nozzle in which this The adjustment process proceeds evenly, and where it is prone to breakage is. Since the rotation of the guide part is freely adjustable, it can consist of a flexible material such as rubber. However, if such a fresh nozzle is in the generally intended for use in a red and warm oven, such is a material with the appropriate heat resistance useful, even if the nozzle is on the outside with Water is cooled. Therefore, a part made of steel or the like is usually used, but that cannot be flexible. It is therefore such a non-flexible guide piece rotates, so its axial length changes continuously and the guide piece is overburdened.

According to the rotatable part of the rotatable tube and the Flange of the sleeve screwed together. The distance corresponds to the extent or Shortening of the guide part when twisting. So the rotatable part is rotated and the rotation of the guide parts set, the rotatable tube enters the Sleeve a, or sus this out, so that the axial expansion or shortening the guide parts is compensated for due to the change in the angle of rotation. To this Way is always what setting possible without the guide parts or other parts are destroyed.

An exemplary embodiment of the invention is described below explained in more detail with reference to the accompanying drawing.

Fig. T shows the section of a nozzle according to the invention.

Fig. 2 shows the rotary wing of the fresh nozzle and deo details Mechanism in the normal state.

Fig. 3 shows the rotary blades in their rotated position.

Fig. 4 shows the swirling of the oxygen flow and the formation a reverse flow area.

As with conventional nozzles, the nozzle is on the outside provided with a cooling water inlet 7 and an outlet 8. It has a beam channel 4 in a sleeve 3, which was surrounded by a cooling tube 6. In the space between A partition 5 is located between the sleeve 3 and the cooling space 6.

In the middle of the nozzle there is a central pipe 1 for heavy fuel oil. A rotatable tube 2 is rotatably attached to the outside of this central tube 1 and the tip of the rotatable tube 2 is in a suitable one distance behind the tip of the centric tube t or the sleeve 3. Between the tip of the rotatable tube 2 and the inside of the sleeve 3, i.e. in the jet channel 4 a number of rotary guide parts 11 attached. The outside of the tip of the rotary guide pieces 11 eats attached to the inside of the sleeve 3, while the inside of the pussea or end at 18 on the outside of the rotatable tube 2 is attached. Dao foot end of the rotatable tube 2 is attached to a coupling part 21, the length of the circumference is provided with a rotatable part 12, «s with the help of a nut 19 with the thread 20 of a threaded flange seat 13 is attached to the foot end of the sleeve 3. The threaded flange seat 13 and a flange 14 are connected via a coupling part 16, which has a certain Clearance leaves space between the rotatable part 12 and the threaded flange seat 13 to keep a distance 15.

This flange 14 lies opposite the threaded flange seat 13 and is attached to the sleeve 3 on the side of the supply port 9 for oxygen and others.

As shown in Figures 2 and 3, the rotatable part 12 is with a Actuating handle 22 is provided, the feed opening 10 for the supply of fuel and others, which branches off in front of the feed opening 9, is at the end of the centric Pipes attached. The slopes of the screw parts 19 and 20 are corresponding to Dimensioned expansion and shortening of the rotary guide parts 11 when pivoting. The rotatable Tube 2 is rotated by rotating the operating handle 22 within the inner wall of the test Ntllee rotated, whereby the rotary guide part 11 starting in the rotated state from the straight course (Fig. 2) within a range of 1800 Any desired position can take (Fig. 3). However, it is not necessary to adjust the pitch of the screw parts 19, 20 in the eMUinten way train when the rotary guide parts 11 of the rotatable tube 2 rotatable in the manner shown below in FIG. 2 Pipe 2 and a partial pipe 2 'are distributed, with a suitable between the pipes 2, 2' Distance 2a exists. The torque of the rotatable tube 2 with the help of a Transfer wedge-shaped structure to the partial tube 2 '. To explain the effect of the The device according to the invention is the same as an oxygen-fuel burner for the use in a converter or Siemens-Martin furnace is shown. Will she used as an ordinary lance, the rotary guide members 11 are set to the twist angle 0 ° set (Fig. 2), wherein oxygen is introduced into the sleeve 3, on this So a common lance can be used for oxygen freshening. The Turn @ Guide parts 11 prevent daboi a shift of the Zeutrlschen tube 1 in the Sleeve 3, d. i.e., the tip of the centric tube t is exactly in the middle of the sleeve 3 kept even when oxygen odor oxygenated air under high Druok is blown. When feeding fuel, the rotatable tube 2 set in rotation with the help of the rotatable part 12 and the operating handle 22 and rotated the rotary guide part as shown in Fig. 3 in a suitable manner. The thus twisted rotary guide parts 11 swirl the flowing in the sleeve 3 Oxygen in the manner shown in FIG. 4 by arrows. If there is that relationship the maximum. Rotation speed to speed in the axial direction approximately equals 1, it is possible to have a small reverse flow area in the blown Pluld I (Fig.4). If the angle of rotation is increased to increase the rotation ratio, so can the return flow area, as in the same figure with the return flow area II indicated, are steadily enlarged. The backflow areas have a flame-retardant effect. Suitable design of the flame retardant Areas accordingly the conditions of the fuel supply can also be used with a high fuel throughput a relatively short stable flame and excellent combustion efficiency be achieved. Such a flame also allows a large amount of cold load to melt quickly and to increase the steel output in a Siemens-Martin furnace. It can be freely changed according to the respective operating conditions. B. when used in furnace bodies, when cold. Load and at. Melt.

It enables a very effective operation and saves the Replacement of lances or nozzles, etc. That means that according to the invention the shape the flame can be changed according to the respective operating requirements, that even with a high fuel throughput a stable flame with excellent Combustion efficiency forms that the heat overexcitation on the cold load and ensures a stable and very effective operation.

In addition, a single burner can be used and as required in a wide range of applications, e.g. B. to. Melting on the cold load or as a Fries lance for converters etc. The swirled one also hits Gas flow on the surface of the molten metal in the Siemens-Martin furnace or in the converter as a result of which a corresponding energy is transferred to the same, see above that it is ebs. is swirled in one plane if necessary. The strength of this energy or Turbulence is also adjustable, so that this direction in the oven is also improved and a uniform response is achieved in a short time. Finally should be mentioned that it is also possible, if necessary, through the central tube ¹powder or to supply granular fluxes or additives.

Claims (5)

P A T E N T A N S P R Ü C H E 1. Fresh nozzle, characterized by a central part (1) of suitable Length, through a sleeve (3) arranged concentrically to the central part (1), which is attached to the Zen-fresh part (1) and leaves a jet channel (4) free, through a supply opening (9) for supplying a fluid such as oxygen, with oxygen enriched air etc. into the jet channel (4) under a suitable pressure a rotatable tube (2) which is inserted into the central part (1) and through flexible rotary guide parts (11), dio attached at the ends and between the rotatable tube (2) and the inside of the sleeve (3) are arranged, the rotatable Tube (2) is provided with an actuating device (12, 22) around the rotatable To rotate the tube (2) between the central part (1) and the sleeve (3) and thereby to rotate the rotary guide parts (11) and the flowing out of the jet channel (4) To set fluid in a vortex motion. 2. Fresh nozzle according to claim 1, characterized in that the ratio between the maximum rotational speed of the fluid and the axial speed by turning the rotary guide parts (11) approximately to the value 1 or above Is set to form a return flow region (I, II) in the outflowing fluid. 3. Fresh nozzle according to claim 1 or 2, characterized in that the, central part (1) for supplying fluid fuel, fluid additives or fluxes etc. in the central part (1) is designed as a tube. 4. Fresh nozzle after a. or more of claims 1 to 3 thereby characterized in that the rotatable tube (2) is provided with a rotatable part (12) which protrudes outside the sleeve (3) and is provided with a thread (19) is, which is engaged with a thread (20) on the sleeve (3), and that the Pitch of the engaged thread (19, 20) corresponding to the axial change in length is dimensioned due to the rotation of the rotary guide parts (11). 5. Fresh nozzle according to one or more of claims 1 to 4 thereby characterized, of the sleeve (3) with a partition (5) for separating its interior is provided, wherein an inlet (7) and an outlet (8) are provided for cooling To supply and circulate water or another coolant and the Nozzle into the interior of an oven or other high temperature atmosphere to be able to use and use in it.