CS209691B1 - Wiring for detecting contamination of liquid by insoluble substances - Google Patents

Abstract

Circuit for detecting contamination of a liquid with insoluble substances. The invention relates to a circuit for detecting contamination of a liquid with insoluble substances with the possibility of determining the contamination category. The circuit according to the invention uses the difference between the constant time of suction of the liquid through the filter and the time required to push the sucked amount of liquid back through the filter, while the output of the generator is connected to the input of the pollution category decoder, the first output of which is connected to the control input of the first shift register, the penultimate output is connected to the control input of the penultimate shift register and the last output is connected to the control input of the last shift register. The output of the sensor for the end of the liquid discharge is connected to the recording input of the first shift register, the recording input of the first shift register, the recording input of the penultimate shift register and the recording input of the last shift register. The output of the first shift register is connected to the input of the first majority circuit, whose output is the first output of the circuit, the output of the penultimate shift register is connected to the input of the penultimate majority circuit, whose output is the penultimate output of the circuit, and the output of the last shift register is connected to the input of the last majority circuit, whose output is the last output of the circuit.

Description

(54) Wiring for detecting liquid contamination by insoluble matter

Wiring for detecting liquid contamination with insoluble substances.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an arrangement for detecting contamination of a liquid by insoluble matter, with the possibility of determining the contamination category.

The circuit according to the invention makes use of the difference between the constant suction time of the liquid through the filter and the time required to force the sucked amount of liquid through the filter back, the generator output being connected to the contamination category decoder input. the control input of the penultimate shift register and the last output is connected to the control input of the last shift region. The output of the liquid ejection termination sensor is coupled to the first shift register entry input, the first shift register entry input, the penultimate shift register entry input, and the last shift register entry input. The output of the first shift register is connected to the input of the first major circuit whose output is the first output of the wiring, the output of the penultimate shift register is connected to the input of the penultimate major circuit. whose output is the last wiring output.

The invention relates to a circuit for detecting liquid contamination by insoluble substances with the possibility of determining the contamination category.

Soil contamination of the liquid with insoluble substances has so far been detected by reduced permeability of the contaminated liquid through the filter.

The main disadvantage of this solution is that it is necessary to calibrate each filter and moreover the method is not sufficiently reliable.

These disadvantages are eliminated by the circuit according to the invention, which makes use of the difference between the constant suction time of the liquid through the filter and the time required to push the sucked amount of liquid through the filter back in that the generator output is connected to the input of the contamination category decoder. with the control input of the first shift register, the penultimate output is coupled to the control input of the penultimate shift register, and the last output is coupled to the control input of the last shift register. The output of the liquid ejection termination sensor is coupled to the first shift register entry input, the first shift register entry input, the penultimate shift register entry input, and the last shift register entry input.

The output of the first shift register is connected to the input of the first major circuit whose output is the first output of the circuit, the output of the penultimate shift register is connected to the input of the penultimate major circuit whose output is the penultimate output of the circuit with the output of the last shift register is connected to the input of the last major circuit. whose output is the last output of the wiring.

The advantage of the circuitry according to the invention is the independence of the result on the parameters of the individual filters, thereby eliminating the need to calibrate each time the filter is changed. The novel effect of the circuitry according to the invention is further that the contamination signal is given only after the measurement result has been repeated in the last few measurements in a majority amount, thereby eliminating random fluctuations of the contamination.

The new method makes use of the difference in the constant time of sucking the liquid through the filter and the time required to force the sucked amount of liquid through the filter back.

An exemplary embodiment of the circuit according to the invention is shown in the drawing.

Claims (1)

SUBJECT V Circuit for detecting liquid contamination by insoluble substances with the possibility of determining the contamination category, characterized in that the output of the generator (1) is connected to the input of the counter (2), the output of which is connected to the inlet of the decoder (4) with the control input of the first shift register (5), the penultimate output is coupled to the control input of the penultimate shift register (6), and the last output is coupled to the control input of the last shift register (10), recording vstuVýstup generator is connected to the input of the counter 2, the output of which is connected with the decoder, £ pollution category whose first output is connected to a control input of the first shift register 5 _f penultimate output of which is connected to a control input of the penultimate shift register 6, and the final output is with associated with the control input of the last shift register 10, wherein the output of the liquid ejection end sensor 3 is coupled to a recording input of the first shift register 5, a recording input of the penultimate shift register 6 and a recording input of the last shift register 7, with the input of the first major circuit J3 whose output is the first wiring output, the output of the penultimate shift register 6 is coupled to the input of the penultimate majoring circuit whose output is the penultimate wiring output and the output of the last shift register 7 is coupled to the last major circuit input 10 is the last wiring output. The counter 2 counts the pulses of the generator 11 and thus determines the suction time of the liquid through the filter. After the counter 2 is filled, the counter is reset and the filtered liquid is pushed back through the filter, the counter 2 again counts the pulses of the generator 1 and at the moment of expiration of the sucked liquid signaled by the liquid ejection sensor 3. of a Category 4 pollution decoder. The contamination category is determined by the difference between the time of sucking and expelling of the liquid. This difference is divided into the selected number of groups according to the required amount of pollution category. Shift Register Status, 5 to 6_, 7 is followed by the majority circuits 8 through 9 10, which evaluates the state where for the selected amount of recent measurements most of the results are positive. This condition is then indicated as contamination. Another possibility to use the wiring is in applications where it is necessary to determine the difference of two time intervals with the first defined, to divide the difference into categories and to indicate the majority of positive results. The first shift register (5), the recording input of the penultimate shift register (6) and the recording input of the last shift register (7), and the output of the first shift register (5) are connected to the input of the first major circuit (8) whose output is the first output. connection, the output of the penultimate shift register (6) is connected to the input of the penultimate majority circuit (9), the output of which is the penultimate output of the wiring and the output of the last shift register (7) is connected to the input of the last major circuit connection.