SU1479110A1 - Dielectric grading and classifying device - Google Patents

Abstract

BACKGROUND OF THE INVENTION The invention relates to electro-vaporizing devices for the separation of bulk materials. used in c. = x. production for separation of seed mixtures (C) and allows for increased separation efficiency C and increased reliability of operation. In the housing, under the feeder 1, there is a working body 2 in the form of an "squirrel wheel" of electrodes (E) 3 connected to a high-voltage disk (E) 3 and alternating polarity of the plate form connected to a source. Separated Cs are collected in receivers 6.7 of separation products. Inside the main D 4 additional support D 8.9 are placed with the possibility of rotation and fixation with respect to D 4. They are pivotally attached with additional E 10 alternating polarity of the lamellar form with the formation of a squirrel wheel. System E 10 is installed coaxially inside system E 3. Copier 11 is fixed rigidly fixed to the body from the end of the working body 2, interacting with e 10 by means of leads 12. Mix C comes from feeder 1 to the surface of working body 2, enters the interelectrode gaps between plates E 3 and E 10 and divided into two fractions by size. Small C fall into fraction 1 of receiver 6. Larger C is retained in the gap and separated by the action of an electric field. Qualitative C, when the working body 2 rotates, comes off first and enters the fraction of receiver 7. Poor-quality feeble C attracts the field more strongly and falls into fraction III. Wedged C fall into fraction 4 when the gap between E 3 and E 10 changes in the cleaning zone. 1 hp f = ly, 2 ill.

Description

The invention relates to electro-separating devices for separating bulk materials and can be used in agricultural production for separating seed mixtures.

The purpose of the invention is to increase the efficiency of separation of the mixture and increase the reliability of operation.

FIG. 1 shows a dielectric calibration-sorting device, side view; incision; in fig. 2 - the working body of the device, front view.

The device includes a housing (not shown), a feeder 1, a working body 2 in the form of an squirrel wheel from electrodes of alternating polarity 3 of plate form mounted on supporting disks 4, one of which is connected to disk 5 for transmitting torque from a drive (not shown), receivers of separation products 6 and 7, and a high voltage source (not shown).

The device is equipped with additional supporting discs 8 and 9 placed inside the main supporting discs 4, with an additional system of electrodes of alternating polarity 10 of plate-shaped form fixed to them, forming a squirrel wheel. The electrodes 10 are mounted coaxially inside the main system of electrodes 3. The additional supporting disks 8 and 9 are installed with the possibility of rotation and fixation relative to the main supporting disks 4.

The device is equipped with a cam 11 fixed on the body from the end of the working body 2. The electrodes of the additional system 10 are mounted on additional supporting disks 8 and 9 on the one side (on the disk 8 side) pivotally, and on the other side they are interoperable through the leads 12 with copier 11.

The supporting disk 9 is made with radial curvilinear grooves 13 for the leads 12, which are included in the groove of the copier 11 and ensure the rotation of the plates 10 and an increase in the interelectrode gap in the cleaning zone of the working body 2.

The receiver of the separation products includes the receiver I of fine seeds 6 and the receivers 11,111, 1U seed. To ensure the release of seeds to the receiver II, the backing disc 8 is annular. The supporting disk 8 is provided with an adjustment knob 14 for rotating the squirrel wheels relative to each other around the axis of rotation of the working member 2 and changing the interelectrode gap 6.

To eliminate the possibility of a spontaneous change in the gap between the electrodes during the operation of the device, a latch is installed on the working member, wedging the squirrel wheels relative to each other (not shown).

To eliminate the possibility of longitudinal displacement of the squirrel wheels relative to each other, longitudinal stops for the longitudinal movement are installed on the tool body at the ends, or the support disks 5,8 and 9 are made with stop grooves that exclude the longitudinal movement of the squirrel wheels.

To eliminate the corona of the electrodes, the sharp edges of the working surfaces of the plates of the electrodes, which form a non-uniform electromagnetic field in the interelectrode gaps, are rounded with a radius equal to half the thickness of the electrodes.

The interelectrode gaps 6 on the working body 2 are formed between the working surfaces of the fixed plates 3 and the hinged plates 10 of adjacent pairs of electrodes. The plates 3 and 10 of the electrodes are coated with insulation, and the plates 3 and 10, installed in pairs, are charged with one polarity.

In order to get all the seeds into the gaps between the electrodes, on the outer surface of the plates 3, dielectric plates of triangular or curvilinear convex section (not shown) are installed, which allows to improve the quality of separation.

The plates 3 and 10 of the electrodes, installed in pairs, have a curved shape of the surface of mutual contact, corresponding to the arc of the contact circle of the squirrel wheels, to ensure their rotation relative to each other around the axis of the working body.

The device works as follows.

Seed mixture coming from the feeder 1 to the surface of the working body

2 of electrodes formed by pairwise arranged core plates

3 and 10 enters the interelectrode gaps and is divided into two fractions by size.

At the same time, small seeds, the calibrated dimensions of which are smaller than the gap between the electrodes, are sifted through the gaps and enter the receiver of small seeds 6. Larger seeds are retained in the gaps and with further rotation of the working body fall into the zone of electroseparation, where the field created by alternating polarity electrodes is polarized and ponderomotive electrical forces begin to act on them, pressing them against the surface of the working body.

Due to the different quality of seeds, the magnitudes of these forces acting on each individual seed will be different. Qualitative seeds (heavy, dense, made) are first detached from the surface of the working body 2 and fall into fraction II of the receiver 7. Poor quality, i.e. loose seeds and loose seeds are stronger

are attracted to the surface of the working organ 2 and, moving as it rotates, leave the electroseparation zone, where, due to the absence of attracting forces, they are detached from the working body 2 and fall into fraction III of the receiver 7.

The jammed seeds with further rotation of the working body 2 will be in the cleaning zone. In this case, the leads 12 of the plates 10 will move along the cam profile of the groove of the cam 11, made in the form of a disk with a closed shaped groove for the leads 12, with the result that the plates 10 rotate on hinges due to a change in the radius of the circumference of the groove and the leads 12, thus increasing the working the gap between the electrodes, as a result of which the jammed seeds fall out of the gaps and fall into fraction IV of the receiver 7.

With further rotation of the working body 2, the leads 12 of the plates 10 emerge from the cam profile of the groove of the copier 11 onto the profile of a circle of constant radius, as a result of which the plates 10 occupy their working position and the working electrode gap is set and then the separation cycle repeats.

The required interelectrode gap 5 is established by turning the squirrel wheels relative to each other around the axis of the working body using the adjustment knob 14. In this case, there is a mutual shift of the plates 3 and 10 arranged in pairs and the gap b between neighbors

0

zo

With them, plates 3 and 10 electrodes are alternating polarity.

Claims (2)

1. A dielectric calibration-sorting device, including a housing, a feeder, a squirrel wheel located below it, of an alternating polarity of plate-shaped electrodes installed on supporting disks, receivers of separation products, and a high voltage source, characterized in that , in order to increase the efficiency of separation of seeds and increase the reliability of operation, the device is equipped with additional supporting discs placed inside the main supporting discs, with an additional fixed on them itelnoy electrode system alternating polarity plate shape forming a squirrel cage mounted coaxially inside the main electrode system, wherein the additional support wheels are rotatably mounted and fixed on the main support wheels. 2. The device according to claim 1, characterized in that it is provided with a copier rigidly mounted on the housing from the end of the working member, the electrodes of the additional system being mounted on additional supporting disks on the one hand hinged, and on the other hand with the ability to interact leads with a copier.