CS247514B1 - Connection of the transmission path violation detection circuit in the fuel delivery - Google Patents

Abstract

The solution concerns the connection of a circuit for detecting a violation of the transmission path during fuel metering, the purpose of which is to prevent uncontrolled fuel dispensing when the transmission path is broken. The above is achieved by the fact that the liquid metering counter /1/ is formed by a computing unit /5/, the input of which is connected to the first incremental sensor /2/ of the liquid metering and to the first input of a reversible counter /6/ connected by its second input to the second incremental sensor /4/ of the liquid metering, by its third input to the circuit /7/ of presetting the counter content and by its output to the input of the circuit /8/ of the fault indication. The connection can be advantageously used in the construction of fuel dispensers for dispensing fuel to small customers.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to circuit breaker detection circuitry for fuel delivery.

The previously known and used transmission path solutions for fuel delivery utilize the connection of a volumetric flow meter with an incremental encoder, a pulse transmission line and a metering counter.

Disadvantages of the prior art are in particular that in the prior art arrangement, an incremental fluid flow sensor failure or a pulse transmission line failure cannot be automatically detected during operation, so that in the case of fuel delivery, the incremental fluid flow sensor failure or impulses transfer to uncontrolled fuel dispensing.

The above-mentioned disadvantages of the prior art are largely eliminated by the circuitry of the transmission disturbance detection circuit for fuel metering according to the invention, which consists in that the liquid metering counter is formed by a computing unit whose input is connected to the first incremental liquid metering sensor and the first reversible counter input its second input with a second incremental liquid level sensor, its third input with the counter content preset circuit, and its output with the fault indication circuit input.

Advantageously, the liquid meter counter is connected to the actuator input by its output coincident with that of the fault indication circuit.

The advantages of the circuit of the transmission path detection circuit for fuel metering according to the invention are in particular in that it enables automatic detection of malfunction of the incremental fluid flow sensor and the pulse transmission line failure during operation. in the event of a failure of the impulse transmission line, uncontrolled fuel dispensing may occur.

The invention will now be described with reference to the accompanying drawing, in which an exemplary embodiment of a circuit for detecting a transmission path detection in the metering of fuel according to the invention is shown schematically.

In the figure, the circuit of the transmission path detection circuit for fuel metering according to the invention is formed by a liquid metering counter 6 connected by its first inlet through the first incremental liquid flow sensor 2 to the first outlet of the volume flow meter 3 and its second inlet through the second incremental flow sensor. liquid with a second outlet of the volume flow meter.

In this case, the liquid discharge counter 6 is formed by a computing unit 6 whose input is connected to a first incremental liquid delivery sensor 6 and a first input of a reversible counter 6 connected by its second input to a second incremental liquid delivery sensor 6, its third input to a content presetting circuit 6. counter and its output with the input of the fault indication circuit 6.

The liquid meter 8 is connected to the input of the actuator 6 by its output, which is simultaneously the output of the fault indication circuit 8.

In the operation of the transmission path failure detection circuit according to the invention, when the liquid is dispensed, the first incremental liquid flow sensor 2 and the second incremental liquid flow sensor 6 generate pulses equal to the quantity of liquid dispensed.

These pulses are applied to the first and second inputs of the reversible counter. Here, the first input of the reversible counter can be a subtraction input and the second input of the reversible counter can be an addition input or vice versa.

In an exemplary embodiment, the counter content preset circuit 7 presets the content of the reversible counter to a certain value to which the reversible counter adds pulses coming from the second incremental liquid flow sensor 4 and from which simultaneously subtracts pulses coming from the first incremental liquid flow sensor.

The pulses from the first incremental fluid flow sensor 6 are simultaneously fed to the calculation unit 6. In the event of a failure of the first or second incremental encoder 6 or of the fluid flow or in the event of a transmission path failure, the preset counter content is overflowed or underflowed, and the reversible counter 6 sends information to the input of the fault indication circuit.

The fault indication circuit 6 then indicates a fault and, in a preferred embodiment, a circuit breaker detection circuit for fuel delivery actuates an actuator 8 which stops further fuel dispensing. The preset permissible deviation of the reversible counter 6 from its preset value determines the circuit insensitivity zone and thus the permissible deviation of the coincidence of the first and second incremental encoders of the liquid flow.

The invention can advantageously be used in the construction of fuel dispensers for retail customers.

Claims (2)

OBJECT OF THE INVENTION 1. A circuit break detection circuit connected to a volumetric liquid flow meter by means of a counter connected via a pair of sensors to a volumetric flow meter, characterized in that the liquid discharge counter (1) is formed by a computing unit (5) connected to the first incremental sensor. 2) a liquid meter and a first reversible counter input (6) connected by its second input to a second incremental liquid meter (4), its third inlet circuit (7) to preset the contents of the counter and its output to the circuit input (8) of the fault indication. Wiring according to claim 1, characterized in that the liquid meter (1) with its output which is identical to the output of the fault indication circuit (8) is connected to the input of the actuator (9).