RU2065780C1 - Grain cleaning machine - Google Patents

Abstract

FIELD: agriculture and other branches of industry. SUBSTANCE: machine has two parallel screen stands, aspiration channel positioned before screens and provided with screen-type flow divider adapted to feed coming down and basic fractions to lower and upper screen stands, respectively, post-screen aspiration channel with device for receiving fractions from upper and lower screen stands. This device has two entrance openings leading into post-screen aspiration channel. Entrance opening for fraction delivered from upper screen stand is positioned above entrance opening for fraction delivered from lower screen stand. EFFECT: increased efficiency, reduced grain loss and enhanced reliability in operation. 1 dwg

Description

 The invention relates to agricultural machinery, in particular to machines for cleaning and sorting grain.

 Known stationary seed cleaning machine containing two parallel sieve mills and channels of pre-sieve and post-sieve aspiration (Mechanization and electrification of agriculture, N 11, 1990, S. 36-37).

 The closest in technical essence and combination of features to the proposed solution is a seed cleaning machine, which includes two parallel sieve mills and channels of pre-sieve aspiration with a grain flow divider in the form of a sieve and post-sieve aspiration with a double input of the grain mixture (V. N. Kulikov, M.E. Milovidov, Equipment for Elevator and Grain Processing Enterprises, M. Kolos, 1984, p. 172, 173).

 The disadvantage of these machines is the processing of grain in a single stream in the post-sieve aspiration channel, which reduces the efficiency of cleaning the grain mixture.

 The objective of the invention is to increase the cleaning efficiency.

 The problem is solved using the proposed grain cleaning machine containing two parallel sieve mills and channels of pre-sieve aspiration with a grain flow divider and post-sieve aspiration with a double input of the grain mixture, in which the grain flow divider is made in the form of a sieve and installed in the lower part of the pre-sieve aspiration channel in such a way which provides a passage to the upper, and a descent to the lower sieve mills.

 Improving the quality of cleaning is achieved by treating the grain mixture in the post-sieve aspiration channel, previously divided into fine and coarse fractions, with the fine fraction containing more light impurities being introduced into the channel above the coarse fraction. In addition, in the upper sieve mill from sieve B2, the fraction of purified grain is sent to the post-sieve aspiration channel, thereby reducing the load on the sowing sieves.

 The drawing shows a diagram of a grain cleaning machine.

 The grain cleaning machine contains the upper 1 and lower 2 sieve mills, each of which has four sieves B1, B2, B and G, a pre-sieve aspiration channel 3 with a grain input device 4 and a grain flow divider 5 installed in its outlet and made in the form sieve guiding the passage (small fraction) to the upper 1, and the descent (large fraction) to the lower 2 sieve mills, post-sieve aspiration channel 6 with grain mixture input devices 7 and 8, sedimentation chambers 9 and 10, diametrical fan 11, air supply 12 and air vent 13 channels, an air purifier 14, a device for withdrawing waste grain mixtures 15, 16, 17.

 Grain cleaning machine operates as follows.

 The grain mixture by the input device 4 is fed into the pre-suction aspiration channel 3. Air impurities entering the air supply channel 12 light impurities are removed from the grain mixture and transferred to the sedimentation chamber 9, where most of them are deposited and the device 15 is brought out.

 After cleaning in the pre-sieve aspiration channel, the grain mixture enters the grain flow divider 5, which divides it into small and large fractions and sends it to the sieve mills: the passage is cleaned on the upper sieve mill 1, and the descent on the lower sieve mill 2.

 On the upper sieve mill 1, grain is fed to sieve B1, which divides it into two parts. The passage through sieve B1 goes to sieve B, and the descent to sieve B2. The exit from sieve B2 through input device 7 enters the post-sieve aspiration channel 6, and the passage to sieve G. The passage through sieve B enters the receiver 1 of small and light impurities. The exit from the sieve B is combined with the passage of the sieve B2 and moves along the sieve G. The passage through the sieve G enters the receiver 11 of fine and full grain (feed fraction), and the cleaned grain through the input device 7 is fed into the post-sieve aspiration channel 6.

 At the lower sieve mill, grain is fed to sieve B1. Sieve B1 divides the grain into two approximately equal parts. The passage goes to sieve B, and the descent to sieve B2. The exit from sieve B2 enters receiver III of large impurities and the passage to sieve G. The passage through sieve B enters receiver I. The exit from sieve B combines with the passage from sieve B2 and moves through sieve G. Passage through sieve D enters receiver II. and the cleaned grain through the input device 8 enters the post-sieve aspiration channel 6, where the cleaning process is completed.

 In the post-sieve suction channel 6, the cleaning process takes place in two streams located at different levels. The upper stream consists of a fine fraction having a high concentration of light impurities, the lower of a large fraction, in which light impurities are present in small quantities. Clean air entering the post-sieve suction channel 6 passes through both flows, capturing the remaining light impurities, and moves into the sedimentation chamber 10, where the impurities are deposited and the device 16 is removed from the machine, and the air stream with dust from both sedimentary chambers enters the suction window diametrical fan 11 and is pumped into the inertial louvre-countercurrent air cleaner 14. Part of the air is returned to the pre-suction suction channel 3. The purified air is discharged through the air exhaust channel 13, and the dust is removed by the device 17 dust receptacle IV.

 Thus, due to the fact that the grain mixture is divided into fine and coarse fractions and the fine fraction is introduced into this channel above the coarse one, the maximum emission of light impurities is achieved and a high quality of cleaning is achieved.

Claims (1)

 Grain-cleaning machine, including two parallel sieve mills, a pre-sieve aspiration channel with a grain flow divider in the form of a sieve installed in the lower part of the pre-sieve aspiration channel, a post-sieve aspiration channel with a fraction input device from the upper and lower sieve mills, characterized in that the grain flow divider is installed with the possibility of feeding the gathering and passing fractions respectively to the lower and upper sieve mills, and the input device of fractions from the upper and lower sieve mills has two entrances to the channel slash aspiration, and the input of the fraction from the upper sieve mill is located above the input of the fraction from the lower sieve mill.