TH76451B - Systems and methods of that For polishing dirt and classification of coarse and fine materials. - Google Patents

Abstract

------03/01/2019------(OCR) Page 1 of 1 Page Summary of Invention (100) Systems and Methods for Grinding Dirt and Classification of Coarse and The fineness of that will be revealed. The (100) system is integrated in the convenience of scrubbing, hydro-cyclones, flushing, sizing, dewatering. and conveying to classify materials in five or more sizes. System (100) allows the extraction of washed products to be stratified from different raw materials with significantly reduced surface contaminants. important such as silica, clay and alumina containers for use by various industries. The proposed system and methodology will improve costs, productivity. and considerable efficiency of steel making Another example of debt is value-added and productivity-enhancing industries such as construction, which eliminates the efficiency of soil and the over-fineness in materials as hazardous to health can result in a reduction in the use of cement. Significantly and improves the total strength of concrete (will be advertised with Figure 1) ------------ System 100 and methods for scrubbing dirt and its classification. rough material and The fineness of that will be revealed. The (100) system is integrated into the facility of scrubbing dirt, hydro-cyclones, flushing, sizing, dewatering. and conveying to classify Material type in five or more sizes. System (100) allows extraction of washed products that have been divided. Layers from heterogeneous materials with significantly reduced surface contaminants such as silica, clay and alumina contained for use by various industries. Spending, Productivity and Efficiency Considerate Steel Making Another example of adding value and Expanding industry productivity, such as construction, which eliminates soil efficiency and ultrafineness. contained in the material as a material which is hazardous to health can result in a decrease in the use of serious cement Significantly and improves the total strength of concrete.

Claims (7)

Disclaimer (all) which will not appear on the advertisement page. : ------ 03/01/2019 ------ (OCR) Page 1 of 4 pages Disclaimer 1. Methods for polishing and classification of large amounts of matter. Contained in the enclosed system (100) method, which included the procedure of Exposure to the abrasive washbox (AWB) (01) by way of scrubbing the dirt of the received substance. The release of matter from AWB (01) to the leaching sieve (02) by that method increases the appropriate amount of pressurized water on the leaching sieve (02) for classification of at least one product size. Rough Reduce at least one size of the coarse wash received and release it and return at least one size of the coarse washed product back and arrange it to the conveying machine. At least one unit for the collection, where the combined product conveyor is selected from the first product conveyor, the second product conveyor. And the third product conveyor The discharge of water recovered from the leaching sieve (02) with all the fine particles received into the first well (03) in slurry form. Pumping the first slurry to the first (various) hydro-cyclone (04) with a specific pressure through the pump. Slurry I (05) and the simultaneous elimination of one or more rejections. The fine particle emission obtained by the first hydrocyclone (04) in the first slurry form is the tailings. To the separation box (09) Water reduction and emission of fine particles received from the tailings to the sieving sieve, lower the water level with the separation size setting (10) for the recovery of the first fine product. Water reduction, one of the finer products received And putting them together in the fourth (11) product conveyor for collection. The release of reduced water with fine particles obtained from the reduced sieving sieve with the separation size designation (10) to the second well (13) in slurry form for repeat operation, page 2 of the number. 4 Front Emulsifying second slurry to second hydrocyclone (14) with a specific lever through the second pump (15) and eliminating at least one rejection. At the same time, the water level reduction and the release of the received fine particles into the sieve, lower the water level with the separation size determination (10) for the recovery of the second fine product. Returning the second fine product And inclusion in the fifth (12) product conveyor for the collection of rejected superfine particle emissions with water from the first (various) hydrocyclone (04) and rated hydrocyclone. Two (various) (14) 2. The method under claim 1 that removes matter is the first material 3. The method according to claim 2, where the material is selected from the sand-containing group. Produced, mill powder, river sand, glass sand, fracture sand, foundry sand, construction waste, demolition waste 4. The method of claim 1 that removes matter is mineral 5. Method according to claim 4 where minerals are selected from the group containing iron ore, Noxite, manganese, coal, lignite, chromite, silica sand and their combinations. 6. Method according to claim 5 that iron ore is obtained from the mining of ore and materials, the production of iron ore. Earth mines above ores, stockpiles in warehouses 7. Procedure according to claim 1, where the matter is classified no more than five sizes. 8. The method according to claim 1 or 7 where the matter is of no more than five sizes. Particles ranging from 0.045 mm to 100 mm 9. System (100) to perform a method for abrasive polishing and classification of bulk matter contained in the enclosed section. The repair system consists of a reclining erosion wash box (AWB) (01) using an enclosed section, so a suitable high pressure amount of water is added to the AWB (01) mixing tube for repeated scrubbing. Out of danger From the surface of the matter at 3-fold of the 4-face, the leaching sieve (02) of the particular layer was formed to receive the abrasive substance from the AWB (01) and was formed to obtain the appropriate amount. Of the pressurized water In order to classify at least the size of the product being rough washed from the abrasive substance. And in order to release fine particles in slurps to create slider sliders One or more integrated product conveyors for one or more coarse product collection at left. Combined product conveyors are selected from first product conveyor, second product conveyor. And the third product carrier series of first (various) hydro-cyclone (04) formatted to receive the first slurry through the first slurry (05) and a special type of pipeline. The second half of the slipper was knotted into the first (various) hydrocyclone (04) with a specific pressure. So that the first (various) hydrocyclone (04) removes at least one rejection from the 1st slitter by removing at least one fine particle as the box tailings! ) That were formed to receive the tailings from the first (various) hydro-cyclones (04) where, by the tailings, were discharged and discharged into the sieving sieve, lowering the ailments. Formed to bring back the first fine product from the reduced tailings. And to release the reduced water with fine particles 1 in the form of a slurry to form a second slurry, the fourth (11) product conveyor for the first collection of fine products of the rated hydrocyclone. Two (various) (14) shafts that have been formatted to receive a second slipper through a second slitter (15) and a special type of pipeline where the second thrower is knotted. 1 lead into second (various) hydrocyclone (14) with a specific pressure So that the second (various) hydro-cyclones (14) eliminate the rejection. At least one from slurry II by removing at least one fine particle as tailings, the sieve reduced the water level, the separation size determination (10), that was formed to receive the tailings from the hydro. - Second (various) cyclones (14) where, by the tailings, is drained to bring back the second fine product, the second fine product (12) for the second fine product collection, and the motor control panel that controls the lock. The programmable peck (16) was formatted to observe the method being performed by the said system. Page 4 of the number 4. Page 1 0. System (100) according to claim 9 at the left of the wash screen. The ash comes from a group made up of one layer, two layers, three layers and a combination of that 1 1. The system (100) according to claim 9, where the substance is left, is the first material. 2. System (100), according to claim 11, where the ash material is drawn from a group consisting of mill powder, river sand, glass sand, foundry sand, construction waste, dismantling waste. Withdraw and a combination of that 1 3. System (100) according to claim 9, which removes matter is mineral 1 4. System (100) according to claim 13, where ore is selected from a group consisting of iron ore, boxite, manganese, coal, lignite, chromite, silica sand and any combination thereof. 5. System (100), according to claim 14, where iron ore is obtained from mining of ores and materials, mining of ores, storage in warehouses. And combination of that 1 6. System (100) according to claim 9, where the substance is classified no more than 5 magnitude 1 7. System (100) according to claim 9 or 16 where the matter has a particle size from 0.045 mm to 100 mm. ------------ 1. Method for polishing dirt and cleaning. Classify a number of substances contained in The enclosed part in the system (100) method, which consists of the steps of Exposure to the abrasive wash box (AWB) (01), thus scrubbing the impurities of the received matter, the release of matter from (AWB) (01) to the leaching sieve (02), therefore Adding the appropriate amount of pressurized water on the flushing sieve (02) for the classification of at least one size of coarse-washed product. Reduction of at least one size of coarse-washed product that was released and returned to at least one size of coarse-grained product received and rehydrated. Provide it to at least one aggregate product conveyor for collection, where the combined product conveyor is selected from Product-1, Product-2. And product conveyor-3 Recovery of refilled water from the leaching sieve (02) with particles All details are given to the well-1 (03), go to the serry form. Pumping the slurry to the first (various) hydrocyclone (04) with a specific pressure through the pump. Slurry-1 (05) will receive a mixture from well-1 (03) and slurry-1 (05) pump and get rid of the negativity. At least one thing at the same time Emission of fine particles obtained by first hydro-cyclone (04) in slurry form to the separation feed box (09), water reduction and the emission of fine particles obtained into the downgraded sieve. Water and water Determine the separation size (10) for first refill product recovery. Reducing the water level, first fine product that has been treated and combined in a 4 (11) conveyor for collection. Discharge under the flow with the resulting fine particles Received from the sieve, lower the water level with Set the separator size (10) to well-2 (13) in the slurry for repetition. Pumping the slurry to the second hydro-cyclone (14) with a specific pressure through the slurry-2 (15) pump. Obtaining the mixture from well-2 (13) and slurry pump. -2 (15) and getting rid of the negativity At least one thing at the same time Reducing the water level and the release of particles and received particles into the sieve reduces the water level with Determine the split size (10) for second-finishing product recovery. Reconstitution of the received second fine product and its incorporation in the product-5 (12) conveyor for collection. The rejection of fine particles exceeded the limit with water from the first hydrocyclone (04) and the second hydro-cyclone (14).