RU2469525C1 - Two aspiration pneumosystem of grain cleaner - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: two aspiration pneumosystem comprises a device of distribution and entry of grain heap, pneumoseparating channels of pre-screen and after-screen aspiration, two sediment chambers and air intake channel connecting the sediment chamber of pre-screen aspiration with an external fan. The sediment chambers have devices of output of impurities selected with aspirations and are interconnected with the pneumoseparating channel of pre-screen aspiration in a single aspiration unit. The pneumoseparating channel of pre-screen aspiration is made horizontal and is provided with a valve of adjustment of airflow rate. The sediment chamber of pre-screen aspiration is divided with the adjacent wall with the adjustment valve into two sections - for sedimentation of the heap components selected with aspiration and for grains cleaned with aspiration with their output on the screen separator with the sloping channel with the sealing gravitational valve.

EFFECT: improving the quality of cleaning while reducing energy consumption of the cleaning process.

1 dwg

Description

The invention relates to grain and seed cleaning equipment and is intended for use in agricultural production and the milling and elevator industry.

Two-aspiration open pneumatic systems of grain cleaning machines are known (http://www.petkus.com/limpiadoras.htm), including pneumatic separation channels of pre-sieve and post-sieve aspiration with an external air intake independent from each other, two sedimentary chambers with impurity output devices and adjustment valves air speeds in aspirations, separated by a partition with an adjustable valve, a suction air intake pipe installed with the possibility of air intake from both sedimentary chambers, an air duct connecting all a suction pipe with a suction fan installed outside the grain cleaning machine.

Using an external suction fan reduces dust and noise near the machine and indoors.

The disadvantage of these aspiration systems is the increased energy intensity, since the external air intake of each aspiration separately increases the total air consumption and, therefore, the power consumption for the operation of the aspiration system.

The closest in technical solution and the achieved result to the proposed invention are two-aspiration pneumatic systems of grain cleaning machines of the Schmidt-Seeger AG company (http://www.schmidt-seeger.com/de/produkte_aufbereitungstechnik.html), including a device for the distribution and input of grain heaps with a gravity valve, pneumatic separating channels of pre-sieve and post-sieve aspiration, two sedimentary chambers with output devices for extraction of impurities extracted by aspiration, connected to each other in a single aspiration unit by a pneumatic separating channel aspiration, enveloping the outer contour of the grain heap distribution and input device, with external air intake by the post-sieve suction channel and its sequential passage through the post-sieve suction channel with its sedimentary chamber and then the pre-suction suction channel with its sedimentary chamber, an air intake channel connecting the pre-sieve sedimentary chamber suction with an external fan and passing over the sedimentation chamber of the post-sieve aspiration. In this case, the sedimentary chamber of the post-sieve aspiration through the size-adjustable window can be connected to the air intake channel to adjust the speed in the pre-sieve aspiration channel.

The use of the same air stream passing through the pneumatic separation channel of the post-sieve aspiration and its sedimentary chamber in the channel of pre-sieve aspiration, allows to reduce the total air consumption by the pneumatic system of machines, and, accordingly, the energy consumption.

However, the rotations of the pneumatic separation channel of the pre-sieve aspiration and the significantly increased length of the channels lead to an increase in the resistance of the pneumatic system and energy costs.

In addition, the introduction of a heap into the pre-sieve cleaning channel at the place of its rotation reduces the efficiency of lightweight impurity emission due to the redistribution of air flow over the channel cross section.

The technical result of the invention is to improve the quality of cleaning while reducing the energy intensity of the process and simplifying the pneumatic system.

The technical result is achieved by the fact that in a two-aspiration pneumatic system of a grain-cleaning machine, including a device for distributing and introducing grain heaps, pneumatic separating channels of pre-sieve and post-sieve aspiration, two sedimentary chambers with output devices for extracting aspirated impurities and interconnected by a pneumatic separating channel of pre-sieve aspiration into a single aspiration unit the channel connecting the sedimentation chamber of the pre-sieve aspiration with an external fan, the air separation channel for reshetnoj aspiration is made horizontal and is provided with a valve adjusting the airflow, sedimentary doreshetnoy aspiration chamber is divided from the adjacent wall regulating valve into two sections - to precipitate the heap allocated by aspiration, and purified by aspiration components grains with its output to the sieve cleaning inclined channel with gravitational sealing valve.

The figure shows a diagram of a two-aspiration pneumatic system of a grain cleaning machine.

The pneumatic system includes a two-section sedimentation chamber of pre-sieve aspiration 1, divided by an adjacent wall 7 with an adjustment valve 8, installed in the upper part into two sections - section 2 for collecting weeds and biologically defective grains isolated during pre-sieve aspiration with a device for their output 3 and section 4 for the selection of grain purified during pre-sieve aspiration with a discharge channel 5 and a gravity valve 6 installed in the lower part of the adjacent wall 7 of the sedimentary chamber 1, pneumatic separating channel pre-sieve aspirate 9 with an adjustment valve 10 and a device for introducing a grain pile 11, a sedimentation chamber of post-sieve aspiration 12 for collecting biologically defective grains and weeds not previously isolated in the pre-sieve aspiration channel 9 and on sieves (not shown in the diagram) with a device for their output 13 , a pneumatic separating channel for post-sieve aspiration 14 with a device for introducing grain 15. A sedimentation chamber for pre-sieve aspiration 1, a pneumatic separating channel for pre-sieve aspiration 9, a sedimentary chamber for post-sieve aspiration 12 and a pneumatic separating channel poslereshetnoy aspiration 14 integrated into a single suction unit serviced sequentially one external fan (not shown in the diagram) connected thereto through the suction duct 16.

Two-aspiration pneumatic system of a grain cleaning machine works as follows.

An external fan (not shown), mounted outside the grain cleaning machine, draws dusty air through the suction duct 16 from the sedimentation chamber of the pre-suction suction 1. Air enters the sedimentation chamber 1 from the atmosphere, passing sequentially through the air separation channel of the post-sieve suction 14, and the sedimentation chamber of the post-sieve suction 12 , a pneumatic separating channel of pre-sieve aspiration 9 and a sedimentary chamber of pre-sieve aspiration 1. Through a device for introducing grain heap 11 into the pneumatic-separating channel oh aspiration 9 is supplied with a thin layer of material to be treated, where it is blown horizontal air flow, which has passed through pneumoseparating poslereshetnoy aspiration channel 14, sedimentary poslereshetnoy aspiration chamber 12 and aspiration doreshetnoy pneumoseparating channel. At the same time, dust, lightweight weeds and part of the biologically defective grain are removed from the grain pile by the air stream. The number of removed components is regulated by changing the air flow rate with the control valve 10. Biologically defective grain and part of the weeds are deposited in section 2 of the sedimentation chamber 1 and the device 3 is removed from the machine. With a sufficient air flow rate in the pre-sieve aspiration channel 9, this will be the feed fraction. Dusty air with a number of lightweight weeds is supplied by the fan to the dust separator (not shown in the diagram). Grain and part of unselected weeds are deposited in section 4 of the sedimentation chamber of the pre-sieve aspiration 1 and are fed to the sieve mill through the outlet channel 5 with the gravity valve 6. The ratio of the heap allocated in sections 2 and 4 is regulated by changing the position of the control valve 8. On the sieve mill, large and small impurities are separated from the part of the grain heap that has come to it, and the grain is sorted into the main and feed fractions. The main fraction after sieve cleaning enters through input 15 into the pneumatic separation channel of post-sieve aspiration 14, where it is blown with atmospheric air at a higher air flow rate. In the pneumatic separation channel of the post-sieve aspiration, the remaining fraction of biologically defective grain and hard-to-separate weeds are additionally separated from the main fraction, which are fed into the sedimentation chamber of the post-sieve aspiration 12 and are removed by the device 13 into the feed fraction, and the cleaned grain is removed from the pneumatic separation channel of the post-sieve aspiration.

Claims (1)

Two-aspiration pneumatic system of a grain cleaning machine, including a device for distributing and introducing grain heaps, pneumatic separating channels of pre-sieve and post-sieve aspiration, two sedimentary chambers with output devices for extraction of impurities separated by aspiration and interconnected by a pneumatic separating channel of pre-sieve aspiration into a single aspiration block, an air-sampling aspiration chamber, connecting with an external fan, characterized in that the pneumatic separating channel pre-sieve aspiration it is horizontal and equipped with a valve for adjusting the air flow rate, the sedimentation chamber of the pre-suction suction is divided by an adjacent wall with an adjustment valve into two sections - for deposition of the heap components separated by suction and the grain cleaned by suction with its output to the sieve cleaning with an inclined channel with a sealing gravity valve.

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