SU852357A1 - Apparatus for monitoring lump content in material being transported - Google Patents

Description

one

The invention relates to a technique for measuring the content of large particles in a material and can be applied in the metallurgical, chemical, construction and other industries.

A device for measuring the size of a transported material is known, consisting of a light source and a light receiver, located on different sides of the flow of moving material 1. The device is based on interrupting a light beam by moving bodies.

The disadvantage of such a device is the low accuracy of measurements, due to the fact that the pieces transported can overlap one another.

Closest to the present invention is a device for monitoring the content of pieces in the transported material on a belt conveyor, including a light source and a light receiver with a lens, as well as a television camera and a scaling unit that converts the brightness of the television image into a value proportional to the average size 2.

A disadvantage of this device is the low accuracy of the control and the impossibility of determining the content of different size classes.

The purpose of the invention is to increase accuracy

measurements and determination of the content of various size classes in the material.

This is achieved by the fact that in a known device for controlling the content of pieces 5 in a transported material on a belt conveyor, including a light source and a light receiver with a lens, the light receiver is provided with a control frosted glass, adjusting flaps, a condenser and an ocular,

the lens of the light receiver is installed

material transport planes

at an angle of 10-40 ° to it.

The drawing schematically shows

15 proposed device.

The device consists of a light-shielding housing 1, a light-permeable shutter 2, a source 3 of light placed inside the casing, a housing 4 of the light receiver, a lens 5 of the light receiver directed towards the flow of the material being transported, adjustment shields 6, control matte glass 7, condenser 8, photocell 9, amplifier 10 and the secondary device 11, as well as the eyepiece 12 for monitoring and adjusting the device installed on the back side of the light receiver. The light receiver is installed, for example, at the point of transfer from one conveyor to another at an angle of 10-40 ° to the plane of the transported material. The arrangement of simultaneously controlled pieces that are on the same line (cut) of the upper conveyor increases the accuracy of the measurement.

The device works as follows.

The light emitted by the source 3 is partially reflected by the material, which, before unloading from the upper conveyor, is located on the straight line portion of the tape, and enters the objective lens 5 of the light-receiving device. Extraneous light interference is eliminated by the housing 1 and the scrolls 2.

Using the curtains 6 and the control ocular 12 on the frosted glass 7, an image of the cut of the conveyor load — large pieces, illuminated by the source 3 of stable intensity — is obtained. The resulting image is bounded by curtains 6 (from the bottom the curtain is installed on the line formed by the curvature of the conveyor on which the pieces are placed and on the top so that the pieces of maximum dimensions are visible). The light emitted by the image of the pieces on the ground glass 7 is focused by the capacitor 8 and enters the photocell 9, the signal of which is amplified in the amplifier 10 and is fed to the secondary device I.

The intensity of light falling on the photocell 9 depends on the projected area of the pieces that are on the discharge line from the conveyor at a given time, since the reflectivity of pieces of material, usually covered with a layer of dust, can be considered constant. The amount of current passing through the photocell for some time will be proportional to the volume of pieces larger than a given size, set by the position of the lower curtain 6. By changing the position of this shutter, you can control the content of pieces of various sizes.

Claims (2)

1. The patent of Germany No. 1165511, cl. 1a, 41, i960. 2. Kochetkov V.S. Television method of controlling the particle size distribution of clinker. Sat works NIASM, vol. 2, 1968, p. 162.