TH16917A - "Method and sieve coolers for reducing hot lump temperature" - Google Patents

Abstract

This invention involves cooling the lump of hot material, especially the cement cube. Ore or its like In sieve-type coolers, in which lumps are transported onto the sieve surface, the cooler and the cooling gas stream. Hot flows through the material in a way that cuts off the current. To achieve the effect of cooling Highly efficient heating thanks to a relatively small grid surface At least the amount of cubes Part of the material is vented downward by gravity from the layer before reaching the The outlet of the coolers as the lump travels on the passageway.

Claims (9)

1. Methods for cooling the lump hot material Especially cement cubes Mineral or its like In a sieve type coolers (1), where this hot lump (4) is conveyed from the inlet of the coolant (1a) to the outlet of the The reducer (1b) goes along the grate surface, the reducer (3), and the cooling gas stream (7) is transported from the bottom of the grate surface. Throughout the mass of the material is heated in a way And where the proportions of the lump material fall sideways Bottom before reaching the outlet of the coolant (12b), as this lump is conveyed on the path Through the conveyor along the sieve surface. Made it special by combining The algorithm is as follows: a) The volume of the lump in the adjustable portion is drained from the bunk layer down the Below by gravity at at least one vent (9,10,29) existing along the surface. Temperature reducer grate (3,3 \ ', 3 \' \ ', 3 \' \ '\') b) where the amount of lump coming out of the sieve surface. (3,3 \ ', 3 \' \ ', 3 \' \ '\') at the outlet of the coolant (1b), at least the quantity in In the next section, a volume is split. It is transported back to the inlet of the coolant (1a) and spread over the surface of the sieve, the lower-end lump. 2. The method specified in claim 1 provides a Special effects in the manner that The volume of the bale in the adjustable portion is drained from the bale layer at multiple discharge points (9,10, 29) over the length and / or width of the sieve surface. The temperature reducer (3,3 \ ', 3 \ '\', 3 \ '\' \ ') 3. The methods described in claim 2 have made it such a characteristic that The volume of the lump in the adjustable part is drained downward at the adjustable discharge point (9,10,29) 4. The method specified in claim 2 has made it such a characteristic that that The volume of the lump in the discharged part is combined with the cooled lump that flows through the cavity. Outlet of the reducer (1b) of the grate surface. (3,3 \ ', 3 \' \ ', 3 \' \ '\') 5. The methods specified in claim 4 have made it special in such a way that At least the amount of lump that is drained from the bunk layer (4a) before the coolant outlet (1b) is subsequently cooled. 6. Method as specified in the claim. 1 has made it special in such a way that After draining at least part of the lump from the lump layer. Volume of cubes The rest of the material on the sieve surface (3) is moved up to the floor height. Most of which corresponds to the height of the floor before reaching the discharge point, the volume of the lump in that section. 7. The method specified in claim 1 has given it an effect in such a way that The volume of the lump returned to the coolant channel (1a) was separated from the upper part of the lump which remained coherently warm. Hold 1 right has made it special in a way that The amount of material in the part that is discharged from the bottom of the second half layer, as appropriate, is Approximately from the beginning of the way through the third conveyor to the end 9. Sieve coolers for hot lumps Especially For cement cubes Mineral or its like The grate is composed of a substrate, a temperature reducer (3, 3 \ '\', 3 \ '\' \ '), which exists in a longitudinal direction between the inlet. The reducer (1a) and the cooler outlet (1b) form a conveying surface for the cooled lump (4) and the rows (3a, 3b) of the sieve are stationary and moving. (5,6), which at least alternately with the other part, the grate provides a gas channel (11) through which the cooling gas (7) flows from bottom to top. Which has made it special in such a way that At least one discharge point (9,10,29), which was created to drain the volume of the lump in an adjustable portion from the bale layer. Material descends all the way down by gravity It is set before the outlet of the coolant (1 b) on the surface of the cooler grate. (3,3 \ ', 3 \' \ ', 3 \' \ '\') 1 0. The sieve-type thermostat, as described in claim 9, has made it such a characteristic that Each outlet point (9,10,29) can be activated separately. 1. The temperature reducer as stated in claim 10 has made it special. In such a way that Looking in the direction of the conveying (arrow 8), the chilled lumps, multiple discharge points (9,10), are distributed along the length. And / or the width of the second half of Grate surface, temperature reducer (3) 1 2. The temperature reducer as stated in claim 11 has made it special. In such a way that The lump vent (12) is placed in the upper plate surface of the grate. It is stationary selected (5) and lump discharge chutes (13), which are provided with an adjustable trajectory and tongue (14) for adjusting the lump content in an adjustable section, held under these slots 1. 3. The temperature reducer as stated in claim 10 has made it special. In such a way that When viewed in the direction of conveying (8), the chilled lump, the diagonal lump vent (30), which exists diagonally, is held at least between the stationary part. Continuous two parts of the grate surface (3,3 \ ', 3 \' \ ', 3 \' \ '\') and most of them exist along the entire width of the grate and vent (32) surfaces, which are approximately straight down vertically. Way down It is held under the bale vent to drain the bulk quantity in an adjustable section 1 4. The grate-type coolers, as described in claim 13, are characterized in such that the lower end (32b) of the chimney (32) opens at a distance above the stationary mass diffusion plate. (33) and partition (34), which can move back and forth in the longitudinal direction of the grating surface. (3 \ ', 3 \' \ ', 3 \' \ '\') is held above the spread sheet in the area beneath the open end (32b) of the vent, and Filed parallel to the vent And this movement Can be switched to move and stop And can be scaled 1 5. The sieve-type coolers, as described in claim 13, have made it special in such a way that Each stationary section of the sieve surface, a coolant (3 \ ', 3 \' \ '), between which the lump vent (30) is formed, is formed by At least one row (3a, 3 a \ '\') of the grid is stationary (5) 1. 6. The temperature reducer as stated in claim 13 has made it special. In such a way that The lump vents (30) were closely aligned before reaching the In this case, when viewed in the bale conveying direction (8), and with reference to the bale vent (30), the section is stationary. In front of the grate surface, the damper is formed by the row (3a \ '\' \ ') of the stationary grate plate (5) and the rear fixed section. It is built by a material drain ramp (36) which extends parallel to the rows (3 a \ '\' \ ', 3 b \' \ '\') of the grille and can Adjusted according to its wire arrangement 1 7. The sieve-type coolers, as described in claim 9, have made it characterized in such a way that At least one (15) combined transport compartment is arranged below the surface. Coolers (3) for draining the bulk material in the drained part 1 8. The temperature reducer as stated in claim 9 has made it special. In such a way that A material dispensing device (16) in which two separate pipes (18,19) were held at the funnel. The temperature unit (1 b) and one of the two splitter tubes (18) are connected to the total transport port (15) for draining the bulk material in the discharge section before reaching the outlet port. Of the coolant (1 b) and the second junction (19) is connected to the return conveying device (10), which is then connected to the temperature machine channel (1 a) before reaching the conveying point for Hot material cube 1 9. The temperature reducer as stated in claim 9 has made it special. In such a way that An appropriate grinding device, a roller crushing device, is held at the funnel. Out of the reducer To grind at least the hot portion on top of the lump material.