RU2459405C1 - Device for separation of flow of bulk materials - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture and can be used to separate the flow of bulk materials. The device comprises a stabilising tank with diverting channels, made in its side wall. The diverting channels are separated by horizontal bars and divided in equal proportions by a vertical partition of the housing connected to the pipes to drain the bulk material.

EFFECT: device eliminates the risk of arching in a stabilizing tank and provides an equal ratio of the cost of the bulk material through the pipes.

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Description

The invention relates to agriculture, namely to the cleaning of grain, and is intended to separate the flow of bulk materials.

A device for separating the flow of bulk materials (RU 2341954 C2, A01F 12/46, 12/26/2006), containing a movable stabilizing tank with outlet channels of circular cross section and valves in them, which with the help of springs is suspended from the frame and can freely move along guides so that when moving the tank are regulated flow characteristics of the outlet channels.

A disadvantage of the known device is the design complexity, low reliability of the spring cargo receiving system. During the operation of the divider, the springs age, their elasticity decreases, thereby regulating the ability of the device. In addition, the valves in the outlet channels are subject to jamming by large impurities, which requires constant monitoring of the progress of the divider in production.

A device for separating the flow of bulk materials (Tishaninov KN Methodology for studying the process of separating the flow of bulk materials / Improving the efficiency of agricultural machinery. - Collection of scientific works of GNU VIITiN, issue 7, Tambov, 2005, p. 46 ... 55 ), containing a stabilizing tank with holes in the bottom, taps placed in them and valves pivotally mounted on their walls, interconnected by a parallelogram mechanism and balanced by a counterweight (selected as a prototype).

The disadvantages of the known device are the low quality of the separation of the flow of bulk materials and the instability of the autoregulation zone due to the fact that the regulatory effect on the valves, determined by the height of the layer of bulk material in the stabilizing tank, is subjected to a random process of arch formation over the passage cross-section of the taps, and the relationship of the valves in the taps by means of a parallelogram a mechanism providing their synchronous deviation requires articulating valves to different (lower and upper) walls taps. In this case, the ratio of flow rates through bends changes to the opposite depending on the angle of deviation of the valves from the plane of the cross section.

The purpose of the invention is to simplify the design of a device for separating the flow of bulk materials, increasing technological reliability.

This goal is achieved by the fact that in the device for separating the flow of bulk materials containing a stabilizing tank with outlet channels, according to the invention, the outlet channels are made in the side wall of the stabilizing tank, which are separated by horizontal strips and are divided in equal proportions by a vertical partition wall of the housing connected to the nozzles .

The invention is illustrated by drawings, where figure 1 shows a General view of a device for separating the flow of bulk materials, figure 2 - view a in figure 1, figure 3 - view B in figure 1.

A device for separating the flow of bulk materials contains a stabilizing tank 1, on its side wall 2 there are discharge channels 3 in the form of slots with horizontal strips 4, connected to the cavity of the housing 5 having a vertical partition 6 and nozzles 7 attached to it.

The device operates as follows.

The stabilizing tank 1 is fed grain. As the grain supply to the stabilizing tank 1 increases, the number of outlet channels 3 included in the work increases through which the grain flows out, and the discharge characteristics of nozzles 7 increase. When the grain supply to the stabilizing tank 1 decreases, the number of outlet channels included in the work and the discharge characteristics of nozzles 7 decrease . Thus, the process of auto-regulation and maintaining the level of the stabilizing layer of grain in the required range of heights is carried out. The implementation of the outlet channels 3 in the side wall 2 eliminates the risks of arch formation in the stabilizing tank 1, which increases the technological reliability of the proposed device. The separation of the outlet channels 3 by horizontal strips 4 reduces the dynamic effect of the incident grain flow on the stabilizing layer, which helps to stabilize the flow of grain through the outlet channels 3, located under the surface of the formed stabilizing layer. The installation of a vertical partition 6 of the housing 5 with dividing the living section of the outlet channels 3 into equal parts is a prerequisite for ensuring an equal ratio of costs through the nozzles connected to the housing 5. Through the lower outlet channels 3, a full flow of grain will be guaranteed with the division of the vertical partition 6 of the flow in equal proportions . The deviation error will be introduced only by the uppermost outlet channel 3, through which the grain flows out with an unfilled stream. With a symmetric supply of grain to the stabilizing tank 1, the error will be minimal. The proposed technical solution (unlike the prototype) is not subject to jamming by large impurities during the auto-regulation process and does not require replacement of individual parts during operation, therefore it is a simpler and more reliable device.

Claims (1)

A device for separating the flow of bulk materials containing a stabilizing tank with outlet channels, characterized in that the outlet channels are made in the side wall of the stabilizing tank, which are separated by horizontal bars and are divided in equal proportions by a vertical partition wall of the housing connected to the nozzles.

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