SU1389853A1 - Dielectric friction separator - Google Patents

Abstract

The invention relates to a device for separating bulk materials and m. used in sec. production for cleaning and sorting seeds n. The purpose of the invention is to improve the quality of cleaning seeds by stabilizing the height of seed loading. The feeder (P) 1 of the separator has a locking device 2 and a tray 3. Under the P 1 there is installed a driving member 4 rotating from the drive, which is made of plates 6 of a dielectric material installed along the perimeter of the working member 4 to form a straight prism that has section is a regular polygon. Electrodes (E) 7 of alternating polarity are embedded in the plates 6. Here, E 7 of one polarity is connected and grounded through a flat collector ring, and E G of another polarity within each plate 6 are connected in a section and connected to a high voltage source 9 through a collector through individual current collectors 10. At P I c the possibility of interaction with the working body 4 has a mechanism for providing a constant technological gap between the P 1 and the plates 6 of the working body 4, made in the form of interconnected tray 13 and spring-loaded tongs 14, the rollers 15 of which with the possibility of reciprocating movement relative to P 1. Device 2 P 1 and the drive of the working body 4 are connected to a clock unit. Under the working body 4 receivers are installed (g (L oo 00 x 00 ate SA :)

Description

19 separation products. In the continuous mode of operation of the separator, the seed mixture from P 1 enters the surface of the rotating working body 4 and is polarized. Under the action of electric forces, the elongated seeds are oriented along the force

lines of the electric field E 7. When the working body 4 rotates, the rounded seeds fall first into the receivers 19, then dense and heavy. The elongated seeds are last unloaded. 1 hp f-ly. 2 Il.

The invention relates to devices for the separation of bulk materials and can be used in agricultural production for cleaning and sorting seeds.

The purpose of the invention is to improve the quality of cleaning seeds by stabilizing the height of seed loading.

FIG. 1 shows a separator, a general view; in fig. 2 - the same cross section.

The separator contains a feeder 1 with a locking device 2 and a tray 3. Under it is a working body 4 with a drive 5, mounted rotatably and made of plates 6 of a dielectric material with electrodes 7 of alternating polarity embedded in them. The electrodes 7 of one of the polarities are united and grounded through the solid ring of the collector 8, and the electrodes 7 of the other polarity within each plate 6 are connected in section and connected to the high voltage source 9 through the collector 8 by means of individual current collectors 10. The current collectors 10 rest on mounted on the body (not shown) composite ring 8 and collector 8, consisting of sectors of different electrical conductivity, a, b, c, d, e. The plates of the working body 4 are installed along its perimeter with the formation of a straight a snake having a regular polygon in section.

The separator is equipped with a clock unit 11, which is connected to the locking device 2 of the feeder 1 and the drive 5 of the working body 4 and the mechanism 12 to provide a constant technological gap between the tray 3 of the feeder 1 and the plates 6 of the working body 4 mounted on the feeder 1 with the ability to interact with the working body four.

The high voltage source 10 is connected to sector a made of copper. This sector and collector 8, in turn, is electrically closed with sector b, made of a material having a high electrical resistivity. Due to the latter, the electrical force gradually decreases.

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on the surface of the prism faces in quadrants C and D as the working body 4 rotates.

Sector made of dielectric material. Sector d is made of copper, which is connected to a high voltage source 9. Sector e is a dielectric. The mechanism 12 for providing a constant technological gap is made in the form of a tray 13 connected to each other and spring-loaded rods 14 with rollers 15, which are mounted with the possibility of reciprocating relative to feeder 1.

Along the edges of the tool 4, there are 5 tightly mounted endless tracks 16 made, for example, of rubber. The rollers 16 are mounted thereon mounted on the shafts 14 connected to the additional movable chute 13. Springs 17 are mounted on the rods 14, they rest on the end guides 18 at one end, and press the other end on the rollers 15. on rubber tracks 16.

Under working body 4, receivers 19 of separation products are installed. The surface of the electrodes 7 is covered with a dielectric material having a predetermined coefficient of friction.

The device works as follows.

Depending on the task for the clock unit 11, it is possible both continuous and zero and the periodic operation of the separator. In the batch mode, the separated mixture is subjected to double cleaning and screening by electrophysical properties. And in continuous mode, the seed mixture 5 is cleaned once and sorted.

In this case, both technologies for treating seed mixture are carried out in one pass through the separator.

After the corresponding task on the clock setpoint 11 (Fig. 1) is entered for the selected mode, the continuous or periodic operation of the locking device 2 and the actuator 5 of the working member 4 begins. In the continuous mode, they switch on the seed hopper of the feeding hopper 1 and result in

continuous rotational movement of the working body 4. Then the feeder 1 is installed on the boundary between the first A and second B (Fig. I) quadrants of the working body.

A high-voltage voltage is supplied to the sector a of the composite ring of the collector 8 from an independent source 10 (Fig. 2). Since the sector a is made of copper, the magnitude of the electrical voltage at the electrodes does not change. This sector, in turn, is closed with a sector and, made of a material having a large electrical resistivity, resulting in a decrease in the voltage across the arc of the sector b and how

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After reaching this zone and a certain angle of inclination on it, they are subjected to secondary cleaning.

This cleaning is effective in that in this case, the rolling forces acting on the rounded seeds are opposite in the direction of the forces during the first cleaning in quadrant A.

In this mode, the sorted seeds are sorted in the same way as in the continuous mode.

The primary cleaning zone is powered from high voltage source 9.

The multifaceted surface of the working station decreases the electrical force by 15 gahn does not allow maintaining the constant surfaces of the electrodes of the zone (quadrants) C, D.

Continuously feeding seed mixture from the feeder 1 to the surface of the working body 4 is polarized and under the action of an electrical technological gap between the surface of the working body 4 and the edge of the feeder tray, from where the seeds are fed for cleaning. In addition, when approaching the middle part of the prism face to the seed supply line with a maximum lot, the seed mixture, when spilling out, manages to obtain some kinetic energy, which causes them to splash out when hitting the surface forces, the gap between the prism and the tray stanovy lines electric floor electrodes. In this case, only elongated seeds can be oriented along field lines. As the working body rotates 4 angle

the inclination of the surface of the prism face (quadratitude of the prism. This factor is very unwelcome In) continuously increases and gradual.

but it reaches such a value that, in the proposed separator, this undersize cannot be left on its surface-current by means of a movable

and they end up in Division II of the Plot 13, which allows support for 19. After that, the remaining seeds are a further gap between the surface of the face

carried away by the working body to the third C and even-30 prisms and the edge of the feeder tray 1. This

The true D quadrants, where they are sorted by electrophysical properties: dense and heavy seeds fall into the third section of the receiver, less dense and heavy - into the fourth section of the receiver 19. When the current pickup is done like this: the rollers 15 track the surface of the working element 4 (facets of the prism) rolling along its endless tracks 16, mounted on the edges of the prism 4. In this case, the state of the surface of the faces of the prism reached a sector with the working body number 35 is transmitted through the rotor collector 8 then still not tearing off the faces 16 to shtangi 14 in the form of Return light elements of the mixture freely fall from the surface of the faces.

In batch mode, the device operates in this way.

After the introduction of the corresponding task to the clock setter 11, the working element 4 and the locking device of the seeds of the feeding bunker 1 enter into periodic modes of operation. At the same time, the working body is perioactive movements. This movement, in turn, is transmitted to the tray 13 rigidly fixed thereto. The springs 17 press the rollers 15 against the tracks 16.

Claims (2)

1. Dielectric-friction separator, including a feeder, located A working tool with a drive is set permanently under 45 below it, setting the given angle of inclination of the faces of the prism within quadrant A (Fig. I). This pause corresponds to the feeding of portions of the seed mixture from the feeder 1. The incoming seed mixture is polarized and at the same time the elongated elements of the mixture are sharply oriented along the lines of force of the electric field. The angle a and the stopping time interval are chosen such that the rounded elements of the mixture have time to be poured into the first section of the receiver 19. The remaining elongated seeds, as well as the rounded seeds entrained by them, move with the surface to the secondary cleaning zone (quadrant) After reaching this zone and a certain angle of inclination on it, they are subjected to secondary cleaning. This cleaning is effective in that in this case, the rolling forces acting on the rounded seeds are opposite in the direction of the forces during the first cleaning in quadrant A. In this mode, the sorted seeds are sorted in the same way as in the continuous mode. The primary cleaning zone is powered from high voltage source 9. The multifaceted surface of the working body does not allow to maintain a constant technological gap between the surface of the working body 4 and the edge of the feeder tray, from where the seeds are fed for cleaning. In addition, when the middle part of the prism approaches the seed line from the tray, the gap between the prism and the tray becomes maximum and the seed mixture has time to get some kinetic energy, which causes them to splash when it hits the surface, the gap between the prism and the tray stannost prism. This factor is very unsuitable in this way: the rollers 15 follow the surface of the working body 4 (faces of the prism) by rolling along its endless tracks 16 installed at the edges of the prism 4. In this state of surface-accessible movements. This movement, in turn, is transmitted to the tray 13 rigidly fixed thereto. The springs 17 press the rollers 15 against the tracks 16. Invention Formula 1. Dielectric-friction separator, including a feeder, located 0 five rotatable and made of plates of dielectric material with alternating polarity electrodes embedded in them, the electrodes of one polarity are connected and grounded through a collector, and the electrodes of the other polarity are connected in sections within each plate and connected to a high voltage source through a collector by means of individual current collectors, and receivers of separation products, characterized in that, in order to improve the quality of cleaning cm by stabilizing the loading height and the seed, the separator is equipped with a clock setter and a mechanism for providing a constant technological gap between the feeder and the plates of the working body, and the feeder has a locking device, while the clock unit is connected to the locking device of the feeder and the drive of the working body, and the mechanism for providing a constant technological gap between the feeder and the plates of the working body are mounted on the feeder with the possibility of interaction with the working body, while the plates of the working body are installed along its perimeter with stating a straight prism with a regular polygon in section. 2. A separator according to claim 1, characterized in that the mechanism for providing a constant technological gap is made in the form of interconnected tray and spring-loaded rods with rollers, which are mounted with the possibility of reciprocating relative to the feeder.