SU887903A1 - Rotary refrigerator - Google Patents

Description

(54) ROTATING REFRIGERATOR

Claims (2)

The invention relates to chemical engineering, and to rotating water cooled chillers. It can be used to cool various materials after firing in a rotary kiln. A water cooled rotary cooler is known that contains a rotating drum and water chambers enclosing it. also the loading and unloading chamber 1. The disadvantage of this refrigerator is overheating of the refrigerator drum in the area of the first support at a higher temperature of the material entering the refrigerator Because the material has no time to cool down to an acceptable temperature at time approach lane howling reference station. The disadvantage of this refrigerator is also a small degree of use of the volume of the drum for cooling. The closest in technical essence to the invention is a device containing a tubular heat exchanger placed inside and a drum with lifting blades fixed to its inner surface in the form of longitudinal plates (2. The disadvantage of such a device when using it as a refrigerator is the possibility of damage to pipes large pieces of special material and bricks falling out of the kiln lining. The invention aims to increase the reliability and efficiency of cooling. A refrigerator containing a drum, loading and unloading chambers, cooling water baths, water-cooled pipes attached to the loading chamber and put inside a hopper, and lifting blades on the inner surface of the drum, the latter made in the form of hollow arranging water-cooled pipes perpendicular to the surface of the drum, and provided with a segmental emphasis. In addition, it is advisable to insert cylindrical sleeves of refractory material into the lifting blades a. 3 In FIG. 1 shows a refrigerator, a longitudinal section; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. 1 The rotary cooler contains a drum 1 with tires 2 and 3 supported on supporting stations 4 and 5. A gear ring 6 is attached to the drum and connected to the drive 7. Hollow metal cylinders 8 with a segment stop 9 are fixed to the inner surface of the drum. 8 hollow cylindrical bushings 10 of refractory material can be inserted. The loading chamber 11 is provided with a transport pipe 12 for the material and seals 13. The loading chamber 11 itself is made to be fed with a partition 14. U-shaped pipes 16 are fixed in the wall 15 of the chamber 11, connecting the cavity 17 and the cavity 18 of the chamber 11. The discharge end of the drum covers an unloading chamber 19 with a seal 20. The drum encloses the chambers 21 and 22 for cooling the drum water. For supplying water to the cavity 17, the loading chamber has a fitting 23, and for discharging - a fitting 24. The water cooling chambers have fittings 25 for supplying water and fittings 26 for discharging water. The refrigerator operates as follows. The drum 1 is rotated on bays sales 2 and 3 and support stations 4 and 5 from the gear, the crown of the drive 7. Water is fed through pipes 25 into the chambers 21 and 22, which irrigates the outer surface of the drum 1. 23 into the cavity 17 of the loading chamber 11 Coolant water is supplied, which through pipes 16 enters the cavity 18 and is discharged from the refrigerator through fitting 24. Hot material is fed into the drum through the transport pipe 12 into the drum. With the material, lined bricks and material bricks can get out of the furnace. Large specs and bricks pass as the drum rotates due to its tilting toward the discharge side, and part of the material falls into the floors of the cylinders 8 and rises by them. When the cylinders are in the upper position, the material is poured through the segment stop 9 and into the tubes 16 and into the annulus. When this occurs, the heat exchange of the material with tubes, both induction and radiation. In addition, there is an intensive cooling of the gas phase in the refrigerator. Due to the heat exchange with the tubes 16, as well as with the inner surface of the drum 1, before approaching the zone of the first support station, it lowers its temperature to acceptable limits ensuring reliable operation of the band 2 and the support station 4. Next, the material cools down the rest of the drum 1 and enters unloading chamber 19. The design of the refrigerator will allow for the improvement of the reliability and efficiency of the refrigerator, since lifting and spilling of pieces of material and lining bricks onto the water-cooled tubes is prevented, revpiayuschih sized inner diameter of the hollow cylinder. At the same time, it is possible to provide free passage of bricks and large cakes in the direction of unloading. The efficiency of the refrigerator increases due to a significant increase in the heat exchange surface by radiation between individual particles of falling material and water-cooled tubes. Claim 1. Rotating cooler containing raban, loading and unloading chambers, cooling water baths, water-cooled pipes attached to the loading chamber and inserted into the refrigerator, and lifting blades on the inner surface of the drum, characterized in that cooling efficiency, the lifting blades are made in the form of hollow cylinders installed in the area of the water-cooled pipes perpendicular to the drum surface, and equipped with a segment stop. 2. Refrigeration unit according to claim 1, in connection with the fact that the lifting blades are provided with hollow cylindrical sleeves of refractory material inserted inside. Sources of information taken into account in the examination 1.OST 26-01-439-71. 2. Pateit Germany N 505561, cl. 10a.26 / 01, 1930.