CS269738B1 - Connection of continuous oil / oil ratio control circuit - Google Patents

Abstract

is formed by a reversible counter, connected by its first input to the output of the incremental oil flow sensor, by its output to the first input of the computing and display unit, by its second input to the output of the initialization circuit, by its third input to the output of the adjustable counter and by the second input of the computing and display unit, the output of which is connected to the input of the blocking circuit, while the adjustable counter is connected by its first input to the output of the incremental gasoline flow sensor and by its second input to the output of the gasoline and oil ratio switch. The connection can be advantageously used in the construction of gasoline pumps.

Description

The invention relates to a circuit for continuously monitoring the ratio of gasoline and oil in the dispensed fuel mixture.

The previously known and used electronic metering counters in fuel dispensers operate in such a way that the mixing ratio setting is checked once, or the flow rate of the second component, most often oil, in the mixture is indicated, without verifying the amount flowing. The control inputs of the electronic counter are the input of pulses indicating the flow rate of gasoline and the input of the gasoline and oil ratio switch, which indicate the flow rate of oil, so that with a set gasoline and oil ratio of N:1, the gasoline flow rate pulses are always counted up to the value N, with each Nth gasoline flow pulse triggering a circuit generating an oil flow rate pulse.

The disadvantage of the solution described here is that, in the dispensers used, since the amount of oil flowing is not verified, it is not possible to prevent a possible erroneous dispensing of a different ratio of gasoline and oil or pure gasoline instead of the mixture in the set ratio, which may result in damage to the vehicle engine due to the use of an unsuitable fuel mixture. Another disadvantage is that even in the case of correct dosing of oil into the mixture, the electronic counter's indication of the amount of oil dispensed after the end of the collection is accurate only if the collection ended at the moment of dispensing every nth volume unit of gasoline, while in all other cases, that is, in cases where the collection is ended after the collection of a volume unit other than the Nth volume unit of gasoline, the electronic counter's indication of the oil consumption has a negative deviation with respect to the actually dispensed volume, that is, the actually dispensed volume of oil is greater than the indicated one. Since this deviation is always negative, there is no statistical compensation and the difference between the measured and the actual amount of oil dispensed constantly increases over time.

The above disadvantages of the prior art are largely eliminated by the circuit for continuous control of the gasoline and oil ratio according to the invention, the essence of which is that it consists of a reversible counter, connected by its first input to the output of the incremental oil flow sensor, by its output to the first input of the computing and display unit, by its second input to the output of the initialization circuit, by its third input to the output of the adjustable counter and by the second input of the computing and display unit, the output of which is connected to the input of the blocking circuit, while the adjustable counter is connected by its first input to the output of the incremental gasoline flow sensor and by its second input to the output of the gasoline and oil ratio switch.

The advantages of the circuit for continuous control of the ratio of gasoline and oil in the dispensed fuel mixture according to the invention consist mainly in the fact that during the dispensing of fuel the ratio of gasoline and oil is continuously monitored, and if the deviation from the set ratio value exceeds a preset limit, the circuit blocks further dispensing of fuel. Thus, the circuit according to the invention does not allow dispensing of the fuel mixture in a ratio other than that which was preset, which practically eliminates the possibility of damage to the vehicle engine due to the use of an unsuitable fuel mixture. Another advantage of the circuit according to the invention is that it compensates for a statistically significant deviation of the electronic counter reading from the actual dispensed oil volume by the fact that at random moments of the end of the fuel withdrawal the probability of both positive and negative deviations is the same and the total deviation of the counter reading from the actual dispensed oil volume approaches zero with an increasing number of fuel withdrawals. .

The invention will be further described in more detail with reference to the attached drawing, which shows an exemplary embodiment of the circuit for continuous control of the gasoline and oil ratio in the dispensing of the mixture according to the invention.

EN 269 738 81

An exemplary circuit according to the invention shown in the accompanying drawing is formed by a reversible counter X, connected by its first input to the output of the incremental oil flow sensor 2, by its output to the first input of the computing and display unit χ, by its second input to the output of the initialization circuit 4 and by its third input to the output of the adjustable counter 5 and 3 and by the second input of the computing and display unit 3. The output of the computing and display unit 2 is connected to the input of the blocking circuit 6, while the adjustable counter 2 is connected by its first input to the output of the incremental gasoline flow sensor 7 and by its second input to the output of the gasoline-oil ratio switch 8.

In the operation of the circuit for continuous control of the gasoline and oil ratio in the dispensed fuel mixture according to the invention, when dispensing fuel, the incremental gasoline flow sensor 7 generates pulses, the number of which corresponds to the amount of dispensed gasoline, and these pulses are fed to the first input of the adjustable counter 2. By means of the gasoline and oil ratio switch 8, the adjustable counter 2 is set to the desired gasoline and oil ratio in the dispensed mixture, for example x : 1. With this setting, one pulse is generated at the output of the adjustable counter 2 when counting each x-th pulse of the incremental gasoline flow sensor 2, and this pulse is fed to the third input of the reversible counter χ, which counts up after its arrival. The incremental oil flow sensor 2 generates pulses, the number of which corresponds to the amount of dispensed oil. These pulses are fed to the first input of the reversible counter X, which counts down after their arrival, and to the second input of the computing and display unit 2. If the pulse frequency at both inputs of the incremental counter χ is identical, its state remains at the preset value. However, if the pulse frequency at both of its inputs differs, the reversible counter χ counts up or down from the preset value, depending on whether the ratio of oil and gasoline in the dispensed mixture is greater or less than that set on the gasoline and oil ratio switch 8, and as soon as the deviation from the preset value exceeds a predetermined limit, the reversible counter X generates a signal at its output for switching on the blocking circuit 6, which blocks further fuel dispensing.

However, in order to avoid one-sided rounding of the amount of oil dispensed, and thus a constant increase in the deviation of the displayed value from reality, the initialization circuit χ sets the contents of the reversible counter χ, which counts modulo.N, to N/2 before the start of dispensing, where N is the number of gasoline volume units that fall on one oil volume unit when dispensing the mixture. With an odd N, for example, the entire portion can be selected. After dispensing begins, pulses corresponding to the flow rate of the main fuel component, i.e. the gasoline flow rate, arrive from the incremental gasoline flow sensor 2. These pulses are counted in the reversible counter χ and are fed to the computing and display unit 2. The reversible counter χ then counts pulses up to the number N, with each Nth pulse causing both resetting the reversible counter X and generating a pulse corresponding to the flow rate of one oil volume unit. The pulse indicating the flow rate of a unit volume of oil is fed to the computing and display unit 2. Due to the preset reversible counter χ, which starts counting from the value N/2, the first pulse indicating the flow rate of one unit volume of oil arrives at the computing and display unit 2 at the moment when half of this unit volume has been dispensed. Further pulses always arrive after the dispensing of another N units volume of the basic mixture component. Thus, at the end of the dispensing, the maximum deviation of the volume of oil actually dispensed from the indicated value is half, while the deviations are both positive and negative with a larger number of dispensings, so that due to the statistical randomness of the distribution of the moments of the end of dispensing, the total deviation approaches zero with an increasing number of dispensings. '

The invention can be advantageously used in particular in the construction of metering devices for fuel dispensers.

Claims (1)

SUBJECT OF THE INVENTION Circuit connection of a continuous control circuit of the gasoline and oil ratio in the dispensed fuel mixture, characterized in that it consists of a reversible counter (1), connected by its first input to the output of an incremental oil flow sensor (2), by its output to the first input of a computing and display unit (3), by its second input to the output of an initialization circuit (4), by its third input to the output of an adjustable counter (5) and by the second input of a computing and display unit (3), the output of which is connected to the input of a blocking circuit (6), whereby the adjustable counter (5) is connected by its first input to the output of an incremental gasoline flow sensor (7) and by its second input to the output of a gasoline and oil ratio switch (8).