RU2067381C1 - Grain flow divider - Google Patents

Abstract

FIELD: agriculture; grain cleaning devices. SUBSTANCE: grain flow divider has inlet pipe 1 with two outlet pipes 3, 4 and divider proper 5. Divider 5 is made in form of triangular prism with vertex pointed to side of inlet pipe 1. Made in central portion of divider are holes for axle-shaft 6 by means of which divider is mounted on housing of outlet pipes 3, 4; mounted on each side face of prism, successively from base to vertex, are three grain velocity reducers, each made on two left springs 8, 9 in contact with each other. Springs 8 of two pairs of reducer are made convex, and rear springs 9 are made flat and are secured in lower portion of side faces of reducer at obtuse angle to faces. Each upper spring 8 of any pair is made shorter than other spring 8 of the same pair. EFFECT: enlarged operating capabilities. 3 dwg

Description

 The invention relates to the field of agriculture, namely to questions of grain cleaning, where it is necessary to obtain high-quality food and seed grain, and can be used in any field of the national economy, where it is necessary to separate bulk material into two equal parts. The urgency of the problem lies in the fact that in the farms engaged in the production of grain, post-harvest processing and bringing it to certain conditions is carried out on in-line technological lines (PTL) of post-harvest grain processing (POS), where to improve the quality of the obtained seed material and food grain, accurate separation of the grain flow into two parts before feeding it to grain cleaning machines. (ZOM) in order to increase the uniformity of loading of the working bodies and reduce the trauma of seeds.

 PTLs are known, consisting of feeding elevators, storage bins, grain cleaning machines, an aspiration system, where the supply of grain material from elevators to ZOM is carried out over long grain pipelines and the grain flow is divided in the distributor using a damper (Krausp V.R. Rastrigin V.N. Grachev VN "Automation of grain points", Moscow, Rosselkhozizdat, 1973, p. 232).

The disadvantages of such valves include
poor quality of the distribution of the grain flow, and therefore the settings of the machines, since the grain flow is visually divided by the operator and the position of the valve is fixed with a nut without taking into account the dynamics of the process in time;
increased trauma of grain to the working edge of the damper, as well as to the walls and working bodies of the ZOM due to the high speed of the grain flow during its movement in the grain pipeline and at the entrance to the ZOM;
difficult working conditions are due to the fact that the operator must constantly monitor and adjust the uniformity of the division of the grain flow and at the same time be in the zone of increased trauma with poor working conditions;
The closest in technical essence to the proposed device relates to the separation of bulk material (ed. Certificate. N 1297757, A 01 P 12/46, B 65 C 53/00, 1987), containing a double pipe with two outlet pipes and a divider. In the device, the bulk material is divided into two streams in a gravity pipe.

But this device is not without drawbacks:
the low accuracy of dividing the flow into two equal parts is explained by the fact that the shelves are a continuation of the working surface of the triangular prismatic divider, and the grain flow has a high velocity and pulsation, which, as a result, leads to an increase in the amplitude of the oscillation of the prismatic divider relative to its equilibrium state, leading to a significant intensification of its pulsations;
increased grain trauma against the walls of the loading chamber and the working bodies of the ZOM, as well as the device of the divider and the wall of the grain pipe, is explained by the high rate of flow of the grain stream after the loading elevator along a sloping grain pipe of considerable length;
low reliability of the divider is due to the small area of contact of the grain flow with the working surface of the triangular prismatic divider, which leads to a significant increase in pulsations of the grain flow;
the deterioration of the operator’s working conditions is explained by both the large expenditure of time spent on setting up the PTO and the frequency of their adjustment.

 The objective of the invention is to increase the reliability of the divider by reducing grain trauma, improving the working conditions of the operator by ensuring accurate self-regulation when dividing the grain flow into two equal parts, reducing the speed and pulsation of the grain flow, as well as reducing the time spent on adjusting the uniformity of the grain flow on the working bodies of the ZOM.

 This task is achieved by the fact that in the proposed device, the divider is made in the form of a triangular prism, with the apex directed towards the inlet pipe, and in its central part holes are made under the half shaft, by means of which it is mounted on the body of the outlet pipes, on each side face of the prism sequentially from the base three dampers of grain flow velocity are fixed to the top, each of which is made of two plate plates in contact with one another, and the springs of the two front dampener pairs are made uklymi and rear flat, and fixed at the bottom on the lateral faces of the divider at an obtuse angle thereto, each upper spring absorber of any pair is made shorter than the other spring of the same pair.

Thus, using the proposed device, we achieve
improving the reliability of the engine by increasing the area of contact of the grain flow from the working surface of the prism. This is due to the fact that on the working planes of the triangular prismatic divider (engine) are placed, for example, three grain flow rate dampers (compensator), made in the form of twin plates of spring material in contact along the plane (for example, steel tape grade 65 G). Moreover, two compensators are placed one above the other and bent along an arc, forming a kind of corrugation directed towards the grain flow movement, and the third compensator is fixed at the base of the prism with one end, and its free end is placed with a slight slope of the plate plane towards the grain flow direction, which increases the area of contact with the grain flow, reducing its ripple.

 The exclusion of grain injuries occurs due to a decrease in the grain flow rate. The decrease in the grain flow rate occurs due to the use of two corrugated compensators placed one above the other and one flat rectangular compensator fixed cantilever only from the side of the moving grain flow. The grain flow, encountering the convex corrugation of two compensators and the slightly inclined plate of the third compensator on its way of movement, hits them as a damping barrier, thereby reducing its speed and eliminating the injury of grains.

 The reduction in pulsation of the grain flow occurs due to the elastic deformation of the grain flow rate dampers and the elimination of vibration of these compensators. This is due to the fact that compensators made of spring material (for example, steel spring tape, grade 65 G) are used, the upper plate of all compensators being made shortened in comparison with the lower plate of the grain flow rate dampers, and since the plates are touching in plane, impact on the moving grain flow, the upper plate will “slide” relative to the lower plate, not protruding beyond its limits (dimensions), and both will undergo elastic deformation, reducing the flow pulsation.

 Improvement of the operator’s working conditions is achieved by increasing the accuracy of dividing the grain flow into two equal parts and reducing the time and frequency of tuning the grain cleaning machine (ZOM).

 Analyzing new significant features by the criterion of "significant differences", we can draw the following conclusion.

 The use of the grain flow divider in the form of a triangular prism freely fixed on the semiaxes with two rows of grain flow velocity dampers located on its working surface in the form of corrugated and straight twin plates fixed on the side of the moving flow makes it possible to increase the reliability of the divider, eliminate grain injury, and reduce pulsation of the grain flow, and also improve the working conditions of the operator.

 The proposed device is new, useful, has an inventive step and industrial applicability and is not known to date, both in our country and abroad.

 Figure 1 presents the device, a General view; in FIG. 2 placement of the divider relative to the input and output outlet pipes (A A); in FIG. Figure 3 shows a triangular prism (divider) with three grain flow rate dampers placed on its working planes on each side.

 The proposed device contains an inlet pipe 1 connecting the separation chamber 2 with the feeding noriya (not shown), and two outlet pipes 3 and 4.

 In the proposed device, the divider 5 is made in the form of a triangular prism, the top directed towards the inlet pipe 1, and in its central part holes are made under the axle shaft 6, through which it is mounted on the body of the outlet pipes 3, 4 on each side face of the prism sequentially from the base to three dampers of a grain flow rate of 8.9 are fixed to the apex, each of which is made of two plate plates in contact with one another, the springs of two front dampener pairs are convex and the rear ones are flat, and mounted at the bottom on the side faces of the divider 5 at an obtuse angle to them, with each upper spring of any damper pair made shorter than another spring of the same pair.

 The device operates as follows.

 The grain flow supplied by the loading noriya moves with high speed along the inclined grain duct passing into the inlet pipe 1 and enters the distribution chamber 2, where it is divided by a divider 5 into two equal flows with equal speed characteristics. The curved configuration of the outer surface of the triangular prism 5 and the deformation of the elastic flow dampers 8 and 9 reduces the speed of the grain flow and its pulsation before entering the ZOM switchgear, thereby reducing its injury to the walls of the grain wires and the receiving chamber. If there is a non-uniformity of the flow, its counteraction in one of the outlet pipes, for example in the right 4, the flow in the left outlet pipe 3 decreases. The force of the impact of the pressure head on the straight plates 9 located at a small angle to the flow (in order to increase its sensitivity) decreases too. The divider 5 rotates counterclockwise and its top overlaps part of the cross section of the inlet pipe 1, reducing the amount of grain flow entering the left outlet pipe 3. (see the position of the divider 5 1). The divider 5 rotates to achieve equilibrium position 11. The divider 5 constantly oscillates near the equilibrium position at any flow intensity, the maximum deviation of which is limited by the stop 10. Due to the fact that the straight elastic plates 9 adjacent to each other and having different lengths are located at a small angle to the grain flow and due to the use of spherical-type dampers (with corrugation) 8, the contact surface of the divider 5 with the grain flow increases, therefore, its sensitivity to uniform supply and, therefore, improves the quality of separation. In addition, the damping elastic plates bent in an arc in the form of a corrugation 8, and the compensator from the double flat plates 9 significantly dampen the speed of the grain flow and its pulsation, thereby reducing the damage to the seeds on the divider 5 and the working walls of the receiving chamber. The use of twin plates of various lengths (the upper plate of all the dampers 8 and 9 of the grain flow rate is made shorter than the lower plate of the compensator) allows to reduce the oscillations of the plates themselves relative to each other and relative to the grain flow, which, as a result, reduces its speed and decreases its ripple.

Claims (1)

 A device for separating the flow of grain containing an inlet pipe with two outlet pipes and a divider, characterized in that the divider is made in the form of a triangular prism, with its apex directed towards the inlet pipe, and in its central part there are holes under the half shaft, by means of which it is mounted on the housing outlet pipes, on each side face of the prism, three grain flow rate dampers are sequentially fixed from the base to the top, each of which is made of two plate-shaped contacting one another zhin, the two front spring quencher pairs are convex, a rear planar and fixed at the bottom on the lateral faces of the divider at an obtuse angle thereto, each upper spring absorber of any pair is made shorter than the other spring of the same pair.

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