SU1041882A1 - Color analyzer - Google Patents

Abstract

A COLOR ANALYZER contains a block of emitters installed in front of the photoreceiver, a decoder, the control inputs of which are connected to the corresponding outputs of the switch, and the outputs of the decoder are connected to the color indicator, which is necessary to ensure that it has a nopdroBoe device. the emitter unit is designed as a master oscillator M of three LEDs, each of which is connected to the corresponding output of the switch through its own key, the control inputs of which are connected to the output of the master generator The controller, the other output of which is connected to the switch input, and the decoder is made in the form of matching circuits, the first inputs of which are connected to the output of the threshold device, whose input is connected to the photodetector, the second inputs of the matching circuits are connected to the corresponding outputs of the switch, and the outputs of the matching O) subclock ) to the corresponding inputs of the color indicator. 1: x x y

Description

This invention relates to photoelectric measuring transducers and can be used to recognize color and change color shades in the textile / chemical and other industries. .

Known color analyzer containing a block of emitters, a photodetector, a decoder and an indicator: a torus of color l,

A disadvantage of the known device is limited reliability.

The closest technical solution to the invention is a color analyzer containing a block of emitters installed in front of the photodetector, a decoder, the control inputs of which are connected to the corresponding outputs of the switch, and: the outputs of the decoder are connected by 6 color indicator 2. ,

A disadvantage of the known device is limited reliability due to the presence of mechanical moving parts in the emitter unit.

The purpose of the invention is to increase reliability.

To achieve this goal, a color decoder containing a block of emitters installed in front of the photodetector, a decoder, the control inputs of which are connected to the corresponding switch outputs and the decoder outputs are connected to a color indicator, a threshold device is entered, and the block of emitters is designed as a master oscillator and three LEDs each of which is connected to the corresponding output of the switch through its key, the control inputs of which are connected to the output of the master oscillator, the other output of which is soedine.n to the input switch, and the decoder is designed as a coincidence circuit, first inputs of which are connected to the output of the threshold device, the input of which is connected to the photodetector, the second inputs of coincidence circuits connected to respective outputs of the switch, and the outputs of coincidence circuits connected to respective inputs of the indicator

colors.

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Jla. FIG. 1 shows a block diagram of the proposed arrangement in FIG. 2 - digrams for his work.

The device contains a driver, a rator 1, a switch 2 for sequential switching on of LEDs, keys 3-5 / LEDs 6-8 / emitting at different wavelengths / controlled material 9, photodetector 10 threshold device 11 / coincidence circuit 12-18, color indicator 19 , with the block of emitters 20 turns off the master oscillator 1 / LEDs 6-8 and keys 3-5, and the decoder

21 is made on the match schemes 12-18,

The emitter unit 20 is installed in front of the photodetector 10, the control inputs of the decoder 21 are connected to the corresponding outputs of the switch 2 / the outputs of the decoder 21 are connected to the color indicator 19. The unit of emitters 20 is made in the form of three LEDs 6-8, each of which is connected to the corresponding output of the switch 2 through its key 3-5, the control inputs of which are connected to the output of the master oscillator 1 / another output of which is connected to the input of switch 2. The decoder 21 is executed in the form of coincidence circuits 12-18, the first inputs of which are connected output of the threshold device 11 whose input is connected to the photodetector 10, the second inputs of the coincidence circuits 12-18 are connected to respective outputs of the switch 2, and the coincidence vyhodyskhem 12-18 are connected to respective inputs 19 of the indicator color.

The device works as follows.

Master oscillator 1 produces square-wave pulses with the necessary repetition rate. These pulses are fed to the input of switch 2, which separates the pulses in time for the combination of the light-emitting diodes in a certain sequence. The connection of the LEDs occurs in the following sequence. First, the red LED is turned on / since, in the first moment, the control pulses arrive at the input of the first key 3. Then, at a predetermined time interval, the yellow and green LEDs turn on separately. After that, the control signal is applied to the inputs of the keys 3 and 4, i.e. the red 6 and yellow 7 LEDs light up simultaneously. After the LEDs 6, 7 stop lit, the keys 4 and 5 simultaneously turn on, i.e. Light TC yellow 7 and green 8 LEDs. Subsequent control signals simultaneously include keys 3 and 5, and then the keys. 3-5 Then the cycle repeats. Divided in In time, the light fluxes from the svytodiids and their combination switch pass through the controlled material 9 and are perceived by the photodetector 10. The photodetector converts the flows into alternating ones. sequence of photoelectric signal pulses. This signal is fed to the input of the threshold device. If we assume that the material being monitored is green, the threshold device 11 passes only a pulse from the green LED. The signal from the output of the threshold device

At the same time, the inputs of all matching circuits 12-18. Since only the signal from the green LED passes through the threshold device, it will work; - a coincidence circuit 14, the inputs of which simultaneously receive two signals from the switch 2 and the threshold device 11. The corresponding color of the indicator 19 is turned on. Thus, color recognition occurs.

The proposed device makes it possible to increase the reliability of the device by eliminating mobile mechanical components.

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Claims (1)

A COLOR ANALYZER containing a block of emitters installed in front of the photodetector, a decoder whose control inputs are connected to the corresponding outputs of the switch, and the decoder outputs are connected to a color indicator, which means that a threshold device is inserted into it to increase reliability, and the block of emitters is made in the form of a master oscillator and three LEDs, each of which is connected to the corresponding output of the switch through its own, a key, the control inputs of which are connected to the output of the master generator an amplifier, the other output of which is connected to the input of the switch, and the decoder is made in the form of matching circuits, the first inputs of which are connected to the output of the threshold device, the input of which is connected to the photodetector, the second inputs of the matching circuits are connected to the corresponding outputs of the switch, and the outputs of the matching circuits are connected to the corresponding inputs of the color indicator. SU <> 1041882