RU2023969C1 - Aerodynamic cooler - Google Patents

Abstract

FIELD: production of building materials. SUBSTANCE: cooler has dust cleaner made up of two horse shoe-shaped housings connected by one housing. Slots in housings are made tangent to inner surface. EFFECT: enlarged operating capabilities. 2 dwg

Description

 The invention relates to the field of cement engineering and can be used in the production of building materials, such as cement clinker, as well as in other areas of the national economy in apparatuses and devices for cooling bulk materials.

 The closest to the invention in terms of technical nature and the achieved result is an aerodynamic cooler comprising a housing mounted at an angle to the horizon with a housing arranged along the entire length of its bottom with two parallel rows of nozzles attached to the air manifold.

 A disadvantage of the known solution is that a large amount of dust enters through the air pipe into the exhaust fan, which requires the use of dust cleaning devices, for example bag filters having a complex device and a large mass.

 The aim of the invention is to improve the quality of cleaning exhaust air from dust.

 In FIG. 1 shows a general view of an aerodynamic cooler with a built-in inertial dust collector; figure 2 is a section aa in figure 1.

 The aerodynamic cooler comprises a housing 1 mounted at an angle to the horizon with two parallel rows of nozzles 2 in the center of the bottom 3. A dust cleaner is installed on the discharge end of the cooler, made in the form of horseshoe-shaped housings 4 located symmetrically with respect to the cooler axis and attached to the cooler bottom around its two openings 5. In the horseshoe-shaped cases 4, transverse slots 6 are made tangentially to the inner surface for air passage with the direction along the rotation of the outgoing dusty air. The casing 7 is common to the buildings 4 and has a dust collector 8 with a pipe 9 in the lower part.

 Bridges 10 are attached between the body 4 and the casing 7. The back of the casing 4 and the casing 7 are closed by a plate 11 having a hole in the upper middle part with a pipe 12. As a result of closing the casing 4 and the casing 7 by the plate 11, paired channels 13 and 14 and channel 15. Channels 13 are open in the dust collector 8, channels 14 have an outlet inside the cooler, and channel 15 is connected to a smoke exhauster using a pipe 12. Through holes 16, dust is poured into the cooler from the channels 14.

 Aerodynamic cooler works as follows.

 Twisted two flows of cooling air through the holes 5 of the bottom 3 of the cooler enter the horseshoe-shaped housing 4 of the built-in dust collector. Centrifugal dust particles are thrown onto the inner side walls of the housings 4 and entrained by the rotating air through the slots 6 fall into the channels 13 and 14. Dust particles from the channels 13 are poured into the dust collector 8, and from the channels 14 the dust is poured into the cooler through the holes 16. The purified air from the channel 15 through the pipe 12 is sucked into the exhaust fan. Dust particles passing the body 4 collide with each other and fall into the dust collector 8, from where through the pipe 9 can be used, for example, to eliminate the dust formation of the cement aggregate.

 The use of the proposed aerodynamic cooler design in cement production lines allows increasing the yield of finished cement clinker by using dust and eliminating overhaul works, reducing the metal consumption of dust-cleaning plants due to the deep cleaning of the discharged air, and also improving the environmental situation of the facility.

Claims (1)

 AERODYNAMIC COOLER of bulk material, mainly cement clinker, comprising a housing mounted at an angle to the horizon with two parallel rows of nozzles in the center of the bottom, characterized in that, in order to improve the quality of cleaning the exhaust air from dust, it is equipped with a dust cleaner mounted on the discharge end of the cooler, made in the form of horseshoe-shaped housings located symmetrically about the cooler axis and closed by a common casing, in which they are made tangent to the inner surface of cross slits for air passage.

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