RU2047827C1 - Thickening of the rotating kiln - Google Patents

Abstract

FIELD: manufacture of building materials. SUBSTANCE: thickening of the rotating kiln has coaxial rotating and stationary cylindrical shells with rings on which telescopic cut shells with carriers pressed against the rings and with ropes spring-loaded to each other are located. EFFECT: facilitated manufacture. 2 cl, 1 dwg

Description

 The invention relates to a technique for sealing drums and rotary kilns operating under vacuum and can be used in the construction materials industry and other industries.

Known seal rotary kiln [1]
The closest in technical essence and the achieved technical effect to the invention is a rotary kiln seal containing cylindrical rotary and stationary shells with rings at their ends coaxially located and mounted respectively on the rotary kiln housing and on the stationary chamber and located in the rotary kiln and stationary chamber shells and an overlap made with an overlap with clamping devices in the form of spring-loaded cables [2]
In such a seal, the split shell operates on the packing rings of the rings.

 The disadvantages of the known seals are the design complexity due to the presence of stuffing box seals, low reliability due to poor pressing of the shell to the rings surrounding it, and therefore poor sealing performance.

 The technical result of the invention is to simplify the design, increase the reliability and efficiency of the seal.

 The specified technical result is achieved by the fact that in the known seal of a rotary kiln containing cylindrical rotary and stationary shells with rings at their ends coaxially located respectively on the rotary kiln housing and on the stationary chamber and located in the shells of the rotary kiln and the stationary chamber and the split shell is overlapped with clamping devices in the form of spring-loaded cables, the split shell is made up of two telescopic shells with leashes covering the ring tsa and shells of a rotary kiln and a fixed chamber, while spring-loaded cables are located on each of the telescopic shells. The seal may be provided with a closed flexible element in the form of a rope or cable located between the telescopic shells and attached to one of them.

 In this case, the overlap value of the outer telescopic shell corresponds to its unwinding from the forces of friction against the inner shell.

 The drawing shows a seal of a rotary kiln, General view.

 The rotary kiln 1 at the end part has a cylindrical shell with a ring 2 at the end. On coaxial with her stationary chamber 4 at the end, which is coaxial to the shell of the rotary kiln. A ring 4 is worn with a split along the generatrix shell 5 with overlapping edges (overlap) and leads 6 and pressed against it by a spring-loaded cable 7. A similar split shell 8 is put on the ring 2 and casing 5 with overlapping edges, which has similar leads 9 and is pressed by spring-loaded cables 10. Between the shells 5, 8, a closed flexible element can be installed in the form of a cable or rope 11, which can be lubricated and attached to one of the shells. Shells 5, 8 telescopically enter one another. The unloading of material from the furnace 1 is carried out through the pipes 12 of the recuperative refrigerator. The diameter of the ring 2 is chosen greater than the diameter of the ring 4, taking into account the diameter of the cable 11. The dimensions of the leads 6, 9 are taken in height less than the height of the rings 4, 2. The forces of the springs in the cables 7, 10 are determined by calculation from the condition of pressing the shells 5, 8 to the rings 2, 4 and to each other. The lap of the shell 8 is made to unwind it from friction against the shell 5. The remaining dimensions are determined constructively and checked for strength and performance.

 Sealing works as follows.

 The stationary shell 5 is crimped by the cable 7 around the ring 4, and the shell 8 is rotated with the furnace 1, the shell 8, compressed on the ring 2 with a seal on the cable 11. If the furnace 1 and the chamber 3 are not aligned, the shell 8 plays on the ring 2 and cable 11, and with axial movements of the furnace 1, the shell 8 slides along the cable 11.

 The use of seals allows to simplify the design, which leads to cheaper manufacturing. Improving the reliability of the seal due to improved mutual fit reduces repair costs and reduces leakage, which saves fuel.

Claims (3)

 1. SEALING OF A ROTATING FURNACE, containing cylindrical rotating and stationary shells with rings at their ends and coaxially arranged and mounted respectively on the rotary kiln body and on the stationary chamber and located in the shells of the rotary kiln and stationary chamber and lap-shaped split shell with clamping devices in the form spring-loaded cables, characterized in that the split shell is made up of two telescopic shells with leashes, covering rings and shells of rotating a stream, and a fixed chamber, while the spring-loaded cables are located on each of the telescopic shells.  2. The seal according to claim 1, characterized in that it is equipped with a closed flexible element in the form of a rope or cable, located between the telescopic shells and attached to one of them.  3. The seal according to claims 1 and 2, characterized in that the overlap value of the outer telescopic shell corresponds to its unwinding from the friction forces on the inner shell.

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