SU1094746A1 - Device for controlling splitting of mica crystals - Google Patents

Description

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ABOUT)

The invention relates to the processing of easily stratified materials and can be used in the mica industry for spawning mica crystals, for example, industrial sanding and chipping rebounds, as well as in any other industry where separation of materials along cleavage planes is required.

A device for separating crystals, comprising an electrically operated pin-shaped knife and devices for securing the crystal ll, is known.

A disadvantage of this device is the forced insertion of a rigidly fixed knife into the crystal body through the entire plane of the detachable plate, leading to rupture and cutting of mica layers, the formation of cuts, scuffing and scratches.

The closest to the invention in its technical essence is a device for controlling the separation of mica crystals, containing a base plate with a collar, freely mounted on the drive shaft of the reversing drive, roller stops mounted on the base plate, knife elements with electromagnetic vibrators, copiers and power supply unit, and copiers through roller stops are kinematically connected with the base plate 2.

A disadvantage of the known device is the interaction of a metal knife with the surface of splitted sheets, which is necessary for the separation of a mica crystal, which results in the formation of defects on the surface of the plates (media, scuffs, scratches). In addition, it is not possible to peel off a plate of a given thickness with a vibrating base, since the deviation from a given thickness is determined by the amplitude of the vibration of the knife.

The aim of the invention is to improve the accuracy of control.

The goal is achieved by the fact that the device for controlling the separation of crystals includes a base plate with a collar, freely mounted on the drive shaft of the reversing drive, roller stops, knife elements mounted on the base plate with electromagnetic vibrators, copiers and a power supply unit, and copiers stops

kinematically connected to the base plate, an amplifier, a discriminator and two strain gauges, mounted on each knife element, are inserted, each of which is made in the form of two racks with a string fixed to them, and the strain gauges are mounted on the racks of the knife elements and through the amplifier are connected to the discriminator input, - one output of which is connected to a reversing drive, and the other output of the discriminator is connected to an electromagnetic vibrator.

FIG. 1 shows the proposed device, top view; in fig. 2 is a section through a knife device, additionally connected to functional units. FIG. 3 - a scan of a part of the base surface with knife devices.

The device consists of a horizontal base plate 1 with a flange 2, loosely mounted on the drive shaft 3, on which the faceplate 4 is fixed with gear teeth stops 5 and roller stops 6, and in the slots of the base plate there are knife devices, each of which includes a knife element - string 7, tensioned on a pair of pillars 8 with strain gages pasted on them 9, an electromagnetic vibrator 10 which transmits a string, relative to the mica crystal, oscillations, a guide 11 and a copier 12. The strain gages 9 are electrically connected to preamplifier 13, whose output is connected to the input of the discriminator 14. One output of the discriminator is connected to the coil of the vibrator 10, and the second - electric 15. The blank 16 is fed .Through feeder tray 17, and after the blade member 18 on estrus falls into bin .19.

The device works as follows.

The mica crystals through the output tray of the feeder 17 are individually transferred to the base plate 1, where they are picked up by the stops 5 of the slowly rotating faceplate 4 and in a fixed position are directed to the string 7 protruding above the base plate. An increase in string tension under the action of a crystal entrained by the support 5 leads to an increase in the deflection of the flat racks 8 and the signal from the strain gauges glued to them 9. When the specified tension on the string is reached, the discriminator 14 passes the increased signal of the amplifier 13 to turn on the vibrator 10. With the onset of vibration The crystal string splits and the string tension decreases slightly. If the tension drops to the original (initial value, the vibrator is turned off. The peeling mica plate is turned off down with the help of the guide 11 and the chute 18 enters the chopped selection hopper 19. When the stop 5 comes up to the string 7, the roller stop 6 presses the copier 12 and lowers the strings 7 to the level of the base plate, and the mica crystal is directed by the abutment 5 to the next string.After passing the abutment 5 over the string 7, the abutment 6 releases the knife device, and the string 7 again takes its position above the base plate 1, is ready

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Pui.l 6 to the delamination of the next crystal. After passing all the strings located on the base plate, the remnants of the crystal are dumped through the groove into the corresponding bin, from which, after sorting, can be sent to the feeder for repeated delamination. The use of a transducer for separating mica crystals by reducing defects and increasing the accuracy of the stratification makes it possible to increase the yield of mica on the split of industrial rock by 2-3%. With a device capacity of 8 kg of industrial manat per hour (during two-shift operation), an average of 25 tons of raw material is stratified in a device a year. By increasing the output of business mica, one device saves approximately one ton of industrial fuel per year, which is on the order of 10 thousand rubles. in the year of saving no device.

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Claims (1)

DEVICE FOR MANAGING THE MISSION OF CRYSTALS OF MICA, containing a base plate with a shoulder, freely mounted on the drive shaft of the reversing drive, roller stops mounted on the base plate, knife elements with electromagnetic vibrators, copiers and a citation block, and copiers are kinematically connected to the base plate via roller stops characterized in that, in order to increase the accuracy of the alignment, an amplifier, a discriminator, and two strain gauges are added to it, reinforced on each knife element, each of which is made in the form of two racks with a string fixed to them, and the load cells are mounted on the racks of the knife elements and are connected through an amplifier to the input of the discriminator, one output of which is connected to the reversing drive, and the other output of the discriminator is connected to an electromagnetic vibrator. .SU,., 1094746