RU2205707C2 - Aspiration column - Google Patents

Abstract

FIELD: separation of solid loose materials, for example grain mixture by means of air flows at fall of these materials; grain processing industry and farming. SUBSTANCE: proposed aspiration column includes air passage with rectangular side surfaces, receiver, outlet unit for light admixtures located in upper part of air passage and outlet unit for cleaned loose material which is located in lower part of air passage; besides that, aspiration column is provided with splitters at angle between them not exceeding 6 deg. ; they are secured in upper part of air passage having trapezoidal and rectangular surfaces at light admixture outlet unit; angle between these surfaces does not exceed 6 deg. EFFECT: improved quality of cleaning; reduced overall dimensions of aspiration column. 2 dwg

Description

 The invention relates to techniques for the separation of solid bulk materials, for example, a grain mixture, using air flows during the fall of these materials and can be used in the grain processing industry and in agriculture.

 Known suction column with multiple purging of the grain mixture containing sequentially connected connected air channels, equipped with a receiving device, an output device for light impurities associated with the upper parts of these channels, and an output device for a purified product placed under the output device for light impurities. Air channels are formed by vertical ribs. An output device for light impurities is also equipped with vertical ribs. The air stream captures the impurities with a higher density and carries them from the air channels to the output device for light impurities. The purified product, as it accumulates, is discharged through the corresponding output device (see Sokolov A.Ya. Technological equipment of elevators, mills, cereals and feed mills. -M .: Zagotizdat, 1950, p. 58-60, Fig. 28).

 The main disadvantages of the aspiration column with multiple purging of the grain mixture are the low cleaning quality due to the use of vertical ribs that impede the orderly movement of the air flow and contribute to the creation of turbulence, that is, its turbulent flow, as well as the large dimensions associated with the need to ensure the purging of the grain mixture in turbulent conditions air flow.

 Closest to the proposed invention by technical nature and the achieved result (prototype) is an aspiration column containing an air channel from interconnected rectangular side surfaces, equipped with a receiving device, an output device for light impurities located in the upper part of the air channel, and an output device for purified bulk product located at the bottom of the air channel. In the area of the air channel having a rectangular cross-section, the selection of light impurities, which are carried away by the air flow coming towards the grain mixture, in the corresponding output device. Under the influence of centrifugal force, the grain is pressed to the periphery of the air channel and is removed through the outlet for a cleaned bulk product (see Sokolov A.Ya. Technological equipment of elevators, mills, cereals and feed mills. M .: Zagotizdat, 1950, p. 72-74 , fig. 37).

 However, the described aspiration column, firstly, does not provide a high quality of cleaning due to the turbulent flow of the air flow inside the air channel, in which intensive mixing of the air flow with the grain material occurs, swirls are created and the ordered exit of light impurities and, accordingly, the purified bulk product is hindered, secondly, it has large dimensions, namely the height, due to the need to clean the grain mixture in accordance with a given technological scheme minutes under turbulent airflow.

 The present invention solves the problem of improving the quality of cleaning and reducing the size of the suction column.

To achieve the technical result, an aspiration column containing an air channel with rectangular lateral surfaces, equipped with a receiving device, an output device for light impurities located in the upper part of the air channel, and an output device for a purified bulk product located in the lower part of the air channel, is equipped with dividers , the corners between which are selected not exceeding 6 ^o, secured within configured as connected rectangular and trapezoidal side dressing rhnostey top of the air channel at the output device for light impurities to form angles not exceeding 6 ^o, between the opposite side surfaces of trapezoidal and dividers.

The improvement in cleaning quality is due to the introduction of dividers into the suction column, and the angles between them do not exceed 6 ^o , and the angles between them and the opposite trapezoidal side surfaces of the upper part of the air channel at the output device for light impurities also do not exceed 6 ^o . These dividers impart a laminar flow to the air flow inside the suction column and provide an ordered output of light impurities and a purified bulk product.

The decrease in the dimensions of the aspiration column, namely its height, is explained by the implementation of the upper part of the air channel at the output device for light impurities in the form of connected trapezoidal and rectangular side surfaces with the formation of angles not exceeding 6 ^o between opposite trapezoidal side surfaces and dividers, as well as the installation dividers at angles to each other no more than 6 ^o , which allows the cleaning of the grain mixture in conditions of laminar air flow.

Values of angles between adjacent dividers not exceeding 6 ^o and angles between opposite trapezoidal side surfaces of the upper part of the air channel and dividers not exceeding 6 ^o are optimal, since laminar ordered air flow is ensured at such angles, which improves the quality of cleaning and contributes to the design of aspiration columns with small dimensions (see. Hydraulics, hydraulic machines and hydraulic drives. T. M. Bashta, S. S. Pudnev and others. M: Engineering, 1982, p. 101, 2 paragraph above, p. 99, 3 paragraph below, Fig. 1.66).

If the angles between adjacent dividers and the angles between opposite trapezoidal side surfaces of the upper part of the air channel and the dividers are made larger than 6 ^o , the air flow becomes turbulent, which negatively affects the quality of cleaning and contributes to the creation of aspiration columns with large dimensions.

 In FIG. 1 shows a diagram of a suction column with local cuts; FIG. 2 is a view A of FIG. 1.

Additionally, in FIG. 1 indicates the following:
vertical arrow up - the direction of exit of light impurities;
vertical arrow down - the direction of exit of the purified bulk product.

 The suction column contains an air channel 1 with a rectangular cross section, equipped with a receiving device 2 for solid granular material, for example a grain mixture, an output device 3 for light impurities and an output device 4 for a purified bulk product, for example grain. A receiving device 2 for solid bulk material is installed between the output devices 3 and 4. The output device 3 for light impurities is located in the upper part of the air channel 1. The upper part of the air channel 1 at the output device 3 is made in the form of connected opposite trapezoid 5 and rectangular 6 side surfaces . The rest of the air channel 1 is made of interconnected rectangular side surfaces. The output device 4 for the purified bulk product is located in the lower part 7 of the air channel 1.

Inside the upper part of the air channel 1, made at the output device 3 in the form of connected trapezoidal 5 and rectangular 6 side surfaces, dividers 8 are fixed. Between opposite trapezoidal side surfaces 5 and dividers 8, angles 9 are formed that do not exceed 6 ^o . Angles 10 are formed between adjacent dividers 7, also not exceeding 6 ^o .

 The suction column operates as follows. Solid bulk material, such as a grain mixture, enters the receiving device 2, from where it is fed into the air channel 1, where it moves towards the air flow. In the zone of the air channel 1, light impurities are ordered, which are orderedly discharged by the air flow, which is fed a laminar flow with the help of dividers 8, to the output device 3. Under the pressure of centrifugal force, the grain is pressed to the periphery of the air channel 1 and falls into the output device 4 for the purified bulk product , from where it is removed.

 The use of the present invention improves the quality of cleaning and reduces the dimensions of the suction column due to the air flow inside the suction column laminar flow instead of turbulent, which takes place in the suction column, which is the prototype.

Claims (1)

An aspiration column containing an air channel with rectangular lateral surfaces, equipped with a receiving device, an output device for light impurities located in the upper part of the air channel, and an output device for a purified bulk product located in the lower part of the air channel, characterized in that it is equipped with dividers , the angles between which are selected not exceeding 6 ^o , fixed inside made in the form of connected trapezoidal and rectangular lateral surfaces of the upper part in air duct at the output device for light impurities, with the formation of angles not exceeding 6 ^o between the opposite trapezoidal side surfaces and dividers.

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