BR112012005524B1 - COMBINED CLASSIFIER - Google Patents

Abstract

combined classifier the present invention relates to a combined classifier that includes an outer cylinder (1) and an inner cylinder (2) attached to the outer cylinder (1). a grading motor (3) is mounted on the upper end of the outer cylinder (1) using a support. the lower end of the external motor of the classification motor (3) is connected in a fixed way with a rotating axis (4) which extends into the external cylinder (1). the lower end of the rotating shaft (4) is provided with a grading impeller (5) which is above the inner cylinder (2). a supply inlet (9) is arranged in the external housing above the dispersion plate (8), and a drain outlet (10) is provided on the lower end of the external cylinder (1). a dump hopper in the shape of a cone (11) is disposed on the lower end of the inner cylinder (2), and its side wall is provided with openings with a sieve. the dump hopper (11) is communicatively connected with an air classifier (12). the combined classifier is provided to disperse and classify the compressed materials by a steamroller, thereby separating the materials that are not compressed or that are partially compressed by combining the air classification and the sizing of the screening, and driving the materials back for compressor to compress them again so that sorting efficiency can be improved.

Description

Descriptive Report of the Invention Patent for COMBINED CLASSIFIER.

FIELD OF THE INVENTION

[0001] The present invention relates to a dispersion classification device, in particular a combined classifier. BACKGROUND OF THE INVENTION

[0002] Currently, with the rapid development of the Chinese national economy in recent years, China's cement production has already reached one billion tons. All new production lines are large-scale production lines with an annual output of 700,000 tonnes or more. The energy consumption per ton of cement is around 90-100 kWh, and the energy consumption of the cement crushing process is 60-70% of the cement production energy consumption. The annual energy consumption of the cement crushing process is up to around 60 billion kWh. The steamroller is successfully applied to the cement crushing system to increase system production by 50% -200% and save energy by 20% -40%. Thus, energy can be saved and energy consumption for cement production is reduced, thereby creating sustainable development. The steamroller employs the theory of crushing the material base with high pressure and operates by means of grouping for crushing individual particles. The granularity of brittle materials is reduced quickly after they are pressed under high pressure (the pressure of the area under pressure is about 150 MPa), with the powder content less than 0.08mm being up to 20-30%, and material content less than 2mm being above 70%. And, in addition, there is a mass of micro cracks in the pressed materials, which improves the material's moability and drastically reduces the energy consumption for crushing the materials in the next procedure.

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2/5

Based on the data already obtained for current use, compared with the conventional grinding system, the grinding system using the steamroller increases production by 50-200%, reduces the energy consumption of the yield per unit by 20-40% , and decreases the operational noise of the device, which improves the employee's working environment, thereby demonstrating considerable economic and social benefits.

SUMMARY OF THE INVENTION

[0003] The purpose of the present patent application is to provide a combined classifier for the dispersion and multiple classification of the pressed materials by means of a steamroller, specifically by separating the non-pressed materials and the insufficiently pressed materials using the combination of air classification, sorting and supplying the separated materials back to the steam roller to be pressed again, which has a high classification efficiency.

[0004] The technical solutions of the present patent application are as follows.

[0005] A combined classifier includes an outer cylinder and an inner cylinder supplied fixedly inside the outer cylinder, in which a classification motor is installed on an upper end of the outer cylinder through a support, a rotating shaft that extends to inside the outer cylinder and is fixedly connected to a lower end of an outer shaft of the grading motor, a grading impeller is located above the inner cylinder and is installed on a lower end of the rotating shaft, a hollow shaft with connections for outside the rotating shaft and driven by a dispersion motor, a material dispersion plate is installed on a lower end of the hollow shaft, above the material dispersion plate an input for material is provided

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3/5 of the in the outer cylinder, a material outlet is provided at a lower end of the outer cylinder, and in which a cone-shaped material that discharges the hopper is provided at a lower end of the inner cylinder and is provided with openings with sieve on one side of it, an air classifier is communicatively connected to the material that discharges the hopper and includes a passage for the air inlet, a passage for the air discharge, a passage for the material discharge and a passage for the discharge of material which intersect, and the material dispersion plates, staggered with each other are fixed at an intersection of the passages.

[0006] The air classifier is provided in the external cylinder, with the passage for the air inlet, the passage for the discharge of material and the passage for the discharge of material extending out of a side wall of the external cylinder; or the air classifier is provided outside the outer cylinder.

[0007] The material dispersion plates are processed for wear resistance, and are arranged in the shape of a backbone.

[0008] The advantages of the present patent application are as follows.

[0009] In the present patent application, materials are classified in multiple stages, which results in a high classification efficiency; and an earlier sorting principle for air classification is employed and energy consumption is thus saved. [0010] The parts that completely contact the materials are all processed for wear resistance or made of wear-resistant materials, and thus the life of the device is extended.

[0011] A structure that could be damaged that needed to be

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4/5 regularly replaced is formed, assembling its components made respectively, which can reduce the weight of the structure that can be damaged and facilitate the assembly and disassembly. BRIEF DESCRIPTION OF THE DRAWING

[0012] Figure 1 is a schematic view of the structure of the present patent application.

DETAILED DESCRIPTION OF THE MODALITIES

[0013] With reference to figure 1, a combined classifier that includes an external cylinder 1 is shown. An inner cylinder 2 is supplied fixedly inside the outer cylinder 1. A rating motor 3 is installed on an upper end of the outer cylinder 1 via a bracket. A rotating shaft 4 extending into the outer cylinder 1 is fixedly connected to a lower end of an outer shaft of the rating motor 3. A rating impeller 5 located above the inner cylinder 2 is installed over a lower end of the rotary shaft 4. A hollow shaft 6 with connections out of the rotating shaft 4 and is driven by a material spreader motor 7. A material spreader plate 8 is installed on a lower end of the hollow shaft 6, and above the plate material dispersion 8 an inlet for material 9 is provided on the outer cylinder. An outlet for material 10 is provided at a lower end of the outer cylinder 1. A cone-shaped material that discharges the hopper 11 is provided at the lower end of the inner cylinder 2, and is provided with sieve openings on its side. An air classifier 12 is communicatively connected to the material that discharges the hopper 11, and includes a passage for the air inlet, a passage for the air discharge 13, a passage for the discharge of material 14 and a passage for the air. discharge of material 15 which intersect. The material dispersion plates 16, staggered with each other are

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5/5 fixed at an intersection of the overpasses and are processed for wear resistance, and are arranged in the shape of a backbone. The air classifier is provided in the outer cylinder, with the passage for the air inlet, the passage for the discharge of material and the passage for the discharge of material extending out of a side wall of the external cylinder. Alternatively, the air classifier can also be supplied on the outside of the outer cylinder.

Claims (2)

1. Combined classifier comprising an outer cylinder (1) and an inner cylinder (2) supplied fixedly inside the outer cylinder (1), in which a grading motor (3) is installed on an upper end of the outer cylinder ( 1) through a support, a rotating shaft (4) that extends into the outer cylinder (1) and that is fixedly connected to a lower end of an outer shaft of the grading motor (3), an impeller of classification (5) which is located above the inner cylinder (2) and which is installed on a lower end of the rotating shaft (4), a hollow shaft (6) with connections outside the rotating shaft (4) and which is driven by a dispersion motor (7), a material dispersion plate (8) is installed on a lower end of the hollow shaft (6), above the material dispersion plate (8) a material inlet (9) is provided in the outer cylinder (1), a material outlet (10) is provided at an lower end of the outer cylinder (1), and in which a cone-shaped material that discharges the hopper (11) is provided at a lower end of the inner cylinder (2) and is provided with sieve openings on one side of the cylinder, an air classifier (12) is communicatively connected to the material that discharges the hopper (11) and which comprises a passage for the air intake, a passage for the air discharge (13), a passage for the discharge of material (14) and a passage for the discharge of material (15), which intersect, and the material dispersion plates (16) staggered with each other are fixed at an intersection of the passages, characterized by the fact that, the air classifier (12) is provided in the outer cylinder (1), with the passage for the air inlet, the passage for the discharge of material (14) and the passage for the discharge of material (15) if stenPetition 870190118865, of 11/18/2019, p. 9/15 2/2 sticking out of a side wall of the outer cylinder (1). 2. Combined classifier, according to claim 1, characterized by the fact that the material dispersion plates (16) are processed for wear resistance and are arranged in the shape of a backbone.