SU875192A1 - Device for cooling body of rotating apparatus - Google Patents

Description

(54) CASE COOLING DEVICE The invention relates to equipment for heat treatment of bulk materials in rotary apparatuses used in non-ferrous metallurgy and in the production of building materials. A known structure for cooling bulk materials in rotary drum coolers, comprising a stationary cooling jacket with a manifold for supplying cooling water and nozzles for discharging the formed lars and waste water. Water from a trough-shaped collector is fed from above onto the body of the refrigerator to cool its surface 1J. The disadvantage of the design is the uneven supply of cooling water to different parts of the surface of the refrigerator. While the surface of the upper part of the refrigerator is cooled quite intensively, the part of the refrigerator that is currently at the bottom (in the vicinity of the hot material) is not sufficiently cooled, as the water heats up during the passage along the top of the refrigerator, and in the bottom the (most heated) part of it removes a relatively smaller amount of heat, which reduces the production capacity of the apparatus; when supplying the amount of water theoretically necessary for cooling, the lower part of the surface of the apparatus is not wetted, which, due to local overheating of the refrigerator, leads to a decrease in its service life; In order to intensify the cooling, it is necessary to supply an excess amount of water, which leads to its waste. The closest to the technical essence of the invention is a device for cooling the loading end of a rotating apparatus, comprising a closed housing rigidly fixed to the housing of the apparatus, which is located inside the stationary housing. The closed casing has inside a system for supplying a coolant and draining the waste liquid and steam, made in the form of channels, for which there are holes in the place where the channels enter. At the same time, the opposite ends of the Kansshov are located on a circle with a diameter smaller than the diameter of the tubular body of the apparatus. Intensification of the cooling in the device is achieved by immersing the lower part of the perimeter of the apparatus into a certain volume of constantly exchanged

cooling the liquid accumulating in the lower part of the closed casing, while simultaneously irrigating the rest of the perimeter of the apparatus with liquid. This ensures that the required amount of coolant is supplied to any part of the cooled surface of the apparatus 2.

However, the proposed device can only be used to cool the ends of the apparatus by using the difference in the diameter of the tubular part and the diameter of the hole in the end washer, since under this condition the necessary volume of liquid in the lower part of the closed housing can accumulate. The presence of bandages and crown gear eliminates the possibility of using it to cool the entire length of the apparatus.

The purpose of the invention is to increase the productivity and service life of the apparatus due to the intensification of cooling.

This goal is achieved by the fact that in a device for cooling a rotating apparatus casing comprising a stationary casing, a coolant supply system and discharging waste liquid and steam in the form of a closed casing rigidly fixed on the casing with holes at the inlet of channels connecting it stationary casing, open end channels directed toward the rotation of the apparatus, and the length of each channel corresponds to the arc, the central angle of which is a composition of years, 100260. In addition, it is advisable that the channels be made with slots in the walls, in order to adjust the size of the slots in them, the flaps are installed, and the elements are mounted on the outer surface of the apparatus body at the location of the closed casing.

The presence of kangshov of this design will allow to have in the lower part of the closed casing (in the area of the cooled material) the volume of constantly exchanged fluid necessary for cooling, the level of which depends on the length of the channels and, if there are flaps on one of the channel walls, is regulated by their position. This contributes to the intensification of cooling enclosure. With the length of the channels corresponding to the arc, the central angle of which is less than 10 ° C, the coolant in the lower part of the closed casing will not be sufficient for cooling, if the central angle reaches, then almost the entire closed casing will be filled with cooling liquid and the further elongation of the channels will not. gives effect.

Relay elements average the temperature of the coolant in

a closed housing and lifting liquid to irrigate the upper part of the housing.

 Fig, 1 shows the apparatus, a cross-section; figure 2 is a view of And figure 1; on fig.Z - section bb in figure 1.

The device for cooling the housing of the rotating apparatus comprises a closed housing 2 with channels 3 in the form of through pipes fixed to the housing 1 of the apparatus. Above the channels, a fixed casing 4 is installed with a manifold 5 for introducing a coolant, a nozzle 6 for evacuating the produced steam and a nozzle 7 for draining the spent coolant. In the closed casing 2 in the place of the entrance of the channels 3 holes 8 are made. In the walls of each of the channels cuts 9 are made, overlapped by regulating dampers 10. Restriction sides 11 are fixed on the outer surface of the closed casing, and mixing elements 12 are installed on the outer surface of the apparatus casing.

The device works as follows.

The cooled material is loaded through the chute into the body of the apparatus and moves along the lower part of the housing 1. In the closed housing 2, which rotates together with the housing 1, cooling fluid flows from the collector b through the open end of the channel 3, which is in this upper moment. which accumulates in the lower part of the casing 2, forming a certain constant volume in which the rotating part of the rotating casing 1 constantly resides. Excessive cooling fluid flows through the holes 8 during the period when it is It is located below the coolant level in the casing 2, but above the open end, which is currently in the lower position of the channel 3, while the liquid level in the casing 2 is controlled by the position of the valve 10, which overlaps the slot 9. The waste liquid is removed through the nozzle 7.

Claims (2)

 Through the channels located in this moment in the upper position, the resulting vapor is removed, which enters the casing 4 and is discharged through the nipple 6. The mixing elements 12, made in the form of buckets, average the temperature of the {{l} supplying liquid in the casing 2, and also draw fluid; and raising it to irrigate the upper part of the housing 1. The system of restrictive flanges 11 guides the cooling fluid that does not get from the collector 5 to the open end of the channel 3, which is in the upper position, to the open end of the next channel. A device for cooling the housing of the rotating apparatus will allow to intensify the heat exchange through the housing of the apparatus and to improve the heat treatment conditions of the bulk material; to reduce the coolant consumption by% cooling of the apparatus and material; will increase the campaign duration of the rotating apparatus. The use of the device will reduce the downtime of the apparatus for the repair of metal structures and the lining of the discharge end of the apparatus, will increase the release of additional specs. Claim 1. Device for cooling a rotating apparatus casing comprising a stationary casing, a coolant supply system and discharging waste liquid and steam in the form of a closed casing rigidly fixed on the casing with openings at the inlet of channels connecting it with a stationary casing It is worth noting that, in order to increase the productivity and service life of the apparatus due to the intensification of cooling, the ropes with the open end face are directed towards the rotation of the apparatus, and the length of each of the ngshov corresponds to the arc, the central angle of which is 100-260, 2, apparatus according to a, 1 / wherein said channels are slotted in the walls / wherein slits for adjusting the size of them mounted in the damper. 3. The device according to claim 1, characterized in that mixing elements are mounted on the outer surface of the apparatus casing at the location of the closed casing. Sources of information taken into account during the examination 1. Korozo V. And, Rotary kiln refrigerators. M ,, Institute of Printing Orgransstroy, 1966, p.8,9 2. USSR author's certificate on application No. 2724215, cl. F 27 B 7/39, 1979. 875192 viewA