DE1758519A1 - Rotary furnace with planetary cooling tubes - Google Patents

Description

PATENTANvv, -,

DR. ΙΝΘ. A. VAN DER WERTH DR. FRANZ LEDERER

HAMBURe βθ β MONKS 8 W.LSTORFER STR. 38 -TEL. CO411) 770861 LUC.LE-eRAHN-STR. Si ₂ -TEL. (O8H) 44-846

6143-3

YOUR SIGNS; YOUR MESSAGE OF: MY CHARACTERS; HAM BU Re-HARBURO. THE

^BBTR = June 18, 1968

F.L. Smith & Co. A / S.

Vigerslev All 77 »Copenhagen-Valby / Denmark

Rotary furnace with planetary cooling tubes.

Priority: British patent application

No 28 345/67 of June 20, 1967

When producing cement clinker and other materials in a rotary kiln, it is known to cool the hot material in cooling tubes arranged like a planet around the outlet end of the rotary kiln. One sin of the cooling tubes is trained as an inlet for the cooling air, and _o an outlet for cooled material

Φ det, while the other sin through an emptying pipe

<o is connected to the interior of the rotary kiln and as «J

"^ Inlet for hot goods from the rotary kiln and as £ The outlet for the cooling air is used. This cooling air flows through the drain pipe as a secondary combustion

OCUTBOHB IANKAt., HANBUR * β / 8ΟΒ1β ΡΟΒΤΒΟΗΒΟΚι HAMBUNBtITBBO ABMAOHUNBBN BBBORMN BOHNIrTk) OHBN BBSTATWUN «

air in the rotary kiln. The cooling air is through the Cooling tubes either sucked or blown.

During the rotation of the rotary kiln, the mouths of the emptying roller come into alignment after the belt with the goods on the floor of the rotary kiln. In this way, good only gets through each emptying pipe discontinuous during a relatively small angle of rotation of the rotary kiln downwards. Burned or otherwise Material treated in a rotary kiln is usually granular. But it also contains dust or fine Particles that pass through the discharge pipe from the rotary kiln to the cooling pipe from the through

cooling air flowing through the emptying tube can be detected.

There may be so much dust from the

Cooling air is carried back into the rotary kiln so that undesirable operating conditions occur

There are already numerous suggestions for elimination this evil has been made. However, none is of which completely satisfactory. In one method, the outlet openings of the cooling tubes should be eector-shaped rotating with the furnace and actuated by Nooktn Plates are controlled so that the outlet opening

ο each cooling pipe is closed while good is being removed from the ο

«° Rotary kiln enters this pipe · With this construction co

JjJ tion are however parts present which during the

o Oven rotation must be moved, therefore very fast cn

• Are worn out and require excessive maintenance. <o

In addition, there is a risk that it will not be correct work because you can see the good escaping from the cooling tube

can accumulate on them and disrupt the whole operation «

The aim of the invention is again to air the entry in each cooling tube while hot goods enter the cooling tube from the rotary kiln. According to the invention are the outlet openings for the material from the cooling tubes on an imaginary with the rotary kiln jacket concentric cylinder surface and come during the part of the rotation of the rotary kiln in which the hot material enters the cooling pipe can enter via the 'emptying pipe, one after the other in accordance with a part-cylindrical Plate that interrupts or reduces the passage of cooling air through the outlet openings.

It is not important that the plate completely allow the passage of cooling air through each cooling tube in turn prevents a reduction in the air flow through the cooling tube while good is in there slips, normally sufficient to keep the harmful influence of the dust to a minimum « Accordingly, the plate can be adjusted so that a small amount of air can tune through the pipe. The plate is located outside the cooling tubes, making it easy to adjust or replace. In addition, since it is not a moving part, it is not responsible for any functions that are disturbed by the property could. Preferably, however, the plate is resilient

Q arranged to move radially and to give way

to be able to when good lumps between her and the Kühloo
-J pipes are pinched so that neither the plate

^ the cooling tubes are still damaged. In addition, as

co PoI ^ e of thermal expansion the outlet openings of the cooling

tubes differ a little from the imaginary cylinder. Due to the resilient arrangement of the plate, any such deviation can occur without causing damage.

Two exemplary embodiments according to the invention are described on the basis of the drawings. Bs represent:

! Pig. 1 shows a view of a lower end of the rotary kiln

Planetary cooling tubes, only two of which are shown are,

Fig. 2 is an end view of the cooling tubes in the direction of arrows II-II of Fig. 1;

3 shows a view similar to that in FIG. 2, but with modified cooling tubes,

Fig. 4 is a perspective view of the outlet end. of a cooling tube of FIG. 2.

1 shows the lower end of a conventional rotary kiln 1 with openings 2 in its wall. Each opening forms the mouth of an emptying pipe 3 »which leads to a lüüut tube 4 of the planetary cooler. This Cooling tube 4 consists essentially of a cylinder 5t through which the oil to be cooled moves from left to moved to the right (Fig. 1), and from an outlet section 6 for applying the goods.

^ As shown in Fig. 4, each includes an outlet section

α> 6 an essentially partially cylindrical extension of the

-J cylinder 5 and is closed at the end by a plate 7- ° sen. The part of the end of the cylinder 5 'which is not

to coincide with section 6 is through a plate 8 closed with tongue Ä. The tongue forms one

half a screw turn within the cylinder 5 »so as to allow the direct ± passage of material into the outlet section 6 to inhibit.

The outlet section 6 has a transverse opening 9 as a material outlet. The edges of the outlet delimiting this outlet Walls lie in an imaginary cylinder that is concentric with the rotary kiln jacket. One of these walls becomes formed by a flat instead of a part-cylindrical plate 10, which inwardly against the axis of the Cooling tube is inclined so as to serve as a guide for the goods to be discharged.

During the rotation of the rotary kiln, a layer of material 11 moves downwards through it. When something comes into correspondence with an opening 2, it falls through the opening and down into the corresponding emptying pipe 3. As it can be seen from Fig. 2, the cooling tubes can accommodate hot material in this way, if they are in the area designated by 4 A and Ar B, for example. At any given angle of rotation, it is possible that two cooling tubes take up hot goods at the same time. While it is being cooled, this hot good 1 goes through the drilling as described above. The good layers in the bores are denoted by 12.

ο During each rotation something becomes good which the u>

*? Has reached the end of the drill, duroh the screw tongue

x. Plate 8 is moved into the outlet section 6. Is it good

«" Once in this section, it will fall out of the opening * ° under the action of gravity when the

Cooling tube is located approximately in the position indicated by 4 D. The position of the guide plate 10 is determined in to a certain extent the angle at which property on his Should be dispensed away from the outlet section.

The material falls onto a chute 14. All outlet sections 6 and the chute 14 are surrounded by a housing 15, which is designed as a funnel 16 at the bottom, from which cooled material is continuously discharged.

The plate pre-frozen according to the invention for closing the openings 9 are denoted by 17 and attached to springs 18. D. The plate lies within the ring of the Outlet sections 6 and is pressed radially outward by the springs 18. From Fig. 2 it can be seen that the openings 9 in turn in accordance with the plate 17 come when the cooling tube in question is in a position receiving goods from the rotary kiln

In the embodiment according to FIG. 3, the outlet sections 19 are essentially cylindrical extensions of the cylinder 5 kit tttllen-shaped parts, the turns 20 of which form the openings for the material. Each outlet section 19 is separated to the inside of the cylinder 5 by a partition wall 21, which is at least designed as a full screw turn.

The good will thus be entering section 19

ο of the cooling pipe start at one position of the pipe, ο

"O _W is he through the pipe 4 shown!" And on e>

* One shoe 22 when the rotary kiln is in position ο delivered as shown in tube 4 G. In this case

ORIGINAL INSPECTED

-7-

there is an invention for closing the Mouths 20 provided latte 23 outside the ring of the outlet sections 19 and is supported by springs 24 pressed radially inwards

Claims (3)

F ate nt ans ρ r ü c h β. 1. Rotary kiln with a planet-like outlet around the outlet end arranged cooling tubes, each of which has a common inlet for cooling air and at one end Has an outlet for chilled goods, and at the other end it is connected to the interior of the rotary kiln via an emptying pipe that serves as an inlet for the hot Well from the rotary kiln and serves as an outlet for the cooling air, this air passing through the discharge pipe flows into the rotary kiln as secondary combustion air, characterized by the fact that the outlet » Openings (19, 20) for the material from the cooling tubes (4) on an imaginary concentric with the rotary kiln jacket Cylinder surface and during the part of the rotation of the rotary kiln (1) in which the hot material enters the Enter the cooling pipe (4) via the drain pipe (3) kqjnn, come successively in correspondence with a part-cylindrical plate (17,23), which the passage of Cooling air through the outlet openings (9 »20) is interrupted or reduced. 2. Rotary kiln according to claim 1, characterized in that the Platts' (17, 23) to enable _ is attached to springs (18,24) by sadial movements. ^ω 3. Rotary kiln according to one of the preceding claims, ^ characterized in that each cooling tube (4) comprises a cylinder (5) with an outlet section (6), which is formed by an essentially partially cylindrical extension of the cylinder (5) as an outlet Cross opening (9) serving for the good is formed. 4 · Rotary kiln according to claim 3 »characterized by ge ic e η η ze i c h η e t that part of the 3ndes of the cylinder (5) »which does not match the outlet section (6), through a plate (8) with a 2 & ÜQE one half a screw turn forming tongue is closed. ■ 5, rotary kiln according to claim 1 or 2, characterized in that each cooling tube (4) comprises a cylinder (5) with an extension with a spout-shaped part, the mouth (20) of which is designed as an outlet for the material and which is separated from the interior of the cylinder (5) by a partition (21) which is formed as at least one full turn of the screw. ORIGINAL INSPECTED