CS224906B1 - The indicator of the excessive fly of the particles from the separator with the automatic destruction of vault - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention

Existing separators, even if properly sized and, often not only excessively fly off non-separated particles, which negatively affects the environment in which the operation is situated, but 1 to their clogging, which ultimately causes production failures with consequent significant losses. in production. The above causes of excessive particulate drift and consequent deficiencies of existing equipment are more frequent, such as non-observance of the prescribed technological procedures, uneven separation in the individual branches of the separator, etc. The operation of these devices is currently assisted by the intrusive control of their operation and subsequent mechanical disruption of the vault in the separator.

The disadvantages of the present state are largely eliminated by the particle overshoot indicator from the automatic vault destruction separators of the invention, which consists of a measuring probe which is connected by a side outlet of the separator to an inlet to which an external tube is connected from the left side source in which the inner tube of the source is connected to the measuring probe and the space between them is filled with insulating filling · In the inner tube of the source there is an electronic block and radiation source placed in the focus the outer detector tube, inside which the inner detector tube is 2,224,906 ra and the space between them is filled with an insulating filler. In the inner tube © of the detector there is a detector diaphragm, and a detector lens and a detector are placed in the focus of the detector lens and the amplifier is connected to the detector ·

The lens cleaner is mounted inside the measuring probe · Ohi two inner tubes are coaxially aligned with each other · The indicator further consists of a regulator that is directly connected to the amplifier outlet and the connection cable to the recorder, with the first regulator switch built in control connected to valve, compressed air supply and nozzle, which leads to the lower outlet of the separator at the point where the vault is formed from the particles to be separated and the second regulator switch is connected by wiring to a light-acoustic signaling lamp consisting of a bulb, horn and switch

Advantages of the particulate overshoot indicator according to the invention are that the course of the separator is signaled to the operator's cabin of the respective technological operation. · The first regulator switch turns on the vault destruction device made of excessive particulate loss and the second regulator switch is usually set · The device enables to prevent contamination of the surrounding environment and to a large extent in the production loss. · Economic efficiency and the use of the indicator of excessive particle drift from separators with automatic destruction of the vaults would be the reason for the production of particles. protection of the environment and last but not least, by taking into account the riskiness of work in ensuring the denationalisation ·

An exemplary arrangement of the particulate overshoot indicator according to the invention is shown schematically in the attached drawing and represents an overall view of the device.

In the side outlet 3 of the separator 1 there is a measuring probe 5 consisting of an outer tube 6 of the source and an outer tube 13 of the detector, inside which the inner tube 7 of the source and the inner tube 14 of the detector are located. The inner tube 7 of the source and the inner tube 14 of the detector are precisely aligned with each other * In the space between the outer tube 6 of the source and the inner

- 3 224 90B source tube 7 as well as the outer tube on the JJ3 detector, and the inner tube 14 of the detector is located the Azolation Fill §. In the inner tube 7 of the source there is a fortified electronic block 9 and in the longitudinal direction a built-in source 10 of irradiation is installed.

A lens cleaner 11 is placed in the focal distance from the source 10 of the irradiator and closely followed by a source shutter 12. A lens cleaner 32 is mounted between the inner tube 7 of the source and the inner tube 14 of the detector. the detector lens 16 is stored ·

In the focal distance of the detector lens 16, a detector 17 and a mounted amplifier 18 are connected to the controller 20 by means of a sliding, longitudinally sliding slide. The recorder 22 is connected to the controller 20 via a connecting cable 21. on the valve 26 with the nozzle 27 and the compressed air supply 25 · The second switch 24 of the regulator is guided · 29 connected to the bulb 30, the horn 31 and the switches 33 ·

The light signal from the source 10 of the lens optically processed by the source lens, the detector lens 16, and the directionally excited source aperture, the detector aperture 15 radiates a gaseous mixture containing unbound particles passing through the Beracon probe 5. the outlet 19 is routed to the controller 20, which makes it possible to adjust two controllable levels of particulate by controlling the first switch 23 of the controller and the second switch 24 of the controller. The recorder 22 connected through the connecting cable 21 to the controller The first switch 23 of the regulator is actuated by the valve 25 and the valve 26 is opened and compressed air is forced through the nozzle 27 through the nozzle 27 into the separator 1 at the point where the vault is formed from non-separated particles. number the non-separated particles continue to increase, the second switch 24 of the regulator is switched on which, via line 29, a light acoustic signal consisting of a bulb 30 and a horn 31 and a switch 33 are switched on to switch off the respective technology node. In the case of insufficient blowing of the source lens 11 and the detector lens 16, a lens cleaner 32 consisting of either a mechanical squeegee or an ejector β by pressurized dry air may be used.

- 4,224,906

Modern optoelectronic elements used in the described device such as Ga-As laser source or luminescent Ga-As LED have a number of advantages over traditional light sources, which make the applications easy, classic light sources are suitable. modularity up to nanosecond intervals, Integration with low-watt semiconductor modules, low power, long lifetime, output power stability, special wiring for luminescent Ga-As diodes. Due to the monochromatic character of the beam, if necessary, a simple ellmlnácle light background option * in operating conditions through a narrowband optical filter * The device also allows easy focusing of the beam at the desired diameter and easy detection with commercially available elements. difficulty of equipment ·

The indicator of excessive drift of particles from separators with automatic vault destruction can be used wherever it is necessary to control and reliably control the operation of separators, but especially in the wood industry in the production of agglomerated materials and in furniture production ·

Claims (1)

OBJECT OF THE INVENTION 224 906 Excessive particulate matter detector indicator with vault automatic de-destruction mounted on the separator, which is provided with a stepped side and bottom outlet, characterized in that it consists of a measuring probe (5) connected by a side outlet (3) a separator (1) with an inlet (2) to which is connected on the left side of the outer tube (6) of the source, inside which it is connected to the measuring probe (5) of the inner tube (7) of the source and the space between them is filled with insulating filler (8), from the electronic block (9) and the source (10) of the radiation placed in the focal point of the SoSovka (11) source and from the electron (12) of the source stored in the inner tube (7) rightly connected to the measuring probe (5), inside of which the detector * is connected to the measuring probe (5) the inner tube (14) and the space between them is filled with an insulating filler (8), from the elonon (15) detector · behind which he is The detector and detector (17) which are housed in the focal point of the detector and amplifier (18) connected to the detector (17), from the purifier (32) is mounted inside the measuring probe (5). wherein the two inner tubes are coaxially coaxially mounted from the controller (20), which is directly connected to the outlet (19) with the amplifier (18) and the connection cable (21) to the recorder (22) *, which is incorporated in the controller (20) a first regulator switch (23) which is connected via a control (25) to a valve (26), a compressed air supply (28) and a nozzle (27) which results in an economical outlet (4) of the separator (1) at the the second switch (24) of the regulator is connected by a wiring (29) to a light-acustic light consisting of a bulb (30), a horn (31) and a switch (33).