DE3010263A1 - Automobile calibratable fuel flow measuring system - mechanically determines discharge viscosity valves for electrical conversion into offset pulses per litre, supplied to microprocessor - Google Patents

Abstract

The system is used for discharge measuring of fuel and oil of viscosity suitable for engine application. The measuring steps are carried out in the following sequence: The measured valves of the flow volume are detected mechanically and converted electronically into a number of mutually offset double pulse per litre. These pulses are fed into a microprocessor, and simultaneously an offset is added to the microprocessor by a calibrator. The calibrator corrects inaccuracies of the mechanical detection incrementally by using the offset. The corrected measured valves are optically displayed independently of medium discharge. Finally the discharge tap is released for a randomn, or quantity determined delivery of the medium, either by electronic, or electromechanical actuation. Pref. the mechanically determined valves are converted into 200 double pulses per litre, with 90 degree offset.

Description

Method and device for calibratable

Measurement of liquid media The invention relates to a method and a device performing this for calibratable measurement of liquid media, in particular gas oils and lubricating oils, in the viscosity range of engine and gear oils, when submitting them.

Up to now, the quantities of water to be taken off at tapping points have been mechanical Facilities, such as rotary piston measuring mechanisms, measured. This mechanical measuring mechanism can be calibrated, but they do not allow direct connection to electronic devices Display and processing equipment. The reading option is also and Control over the accepted or still to be accepted or still available stagnant oil quantities are insufficient due to the mechanical measurement.

The object of the invention is therefore to provide a method and a method according to it To create working device with which in a simple and safe manner a Calibratable measurement of liquid media, in particular oils, becomes possible, with Next accurate measurement also includes proper data display, data entry and data processing to other devices should be possible. It is also an object of the invention that Measuring and display device separate from the mechanical one assigned to an oil line To arrange measuring chamber, whereby a simplification in the connection with the oil line is achieved.

According to the invention, this object is achieved by the features of the method claim 1 and the device claim 4 solved, with still in the subclaims listed design features advantageous developments of the task solutions represent.

The subject matter according to the invention extends not only to Features of the individual claims, but also on their combination.

The method according to the invention and the device according to the invention enable a calibratable Measurement of liquid media, especially oils, to be carried out, in addition to the exact Measurement and medium quantity delivery also an advantageous optical display and data storage and registration is possible.

Further advantages of the invention are: 1. The design of the measuring chamber in the mechanical measuring devices used in the oil delivery line is easy to implement, there with mechanical Means no calibration of this measuring chamber required is, but the measured value is electronically calibrated; 2 .. the measuring chamber (the mechanical Measuring device) and the electronic measuring, evaluation and display device can be separated from each other arrange separately at any distance, so that the assembly of both parts has been significantly simplified; 3. The electronic device to be arranged separately enables a simplified reading option, since this is at the desired location can be provided; 4. the measurement data can be recorded in different ways, namely a) via printer for in-house processing, b) via electronic Interfaces for connection to central computers, c) via a further electronic one Interface for connection to one or more higher-level measuring devices; 5th preselected Medium quantities can be dispensed in a calibratable manner; 6. when using an electronic Measuring device can be different in connection with several (different) measuring chambers Types of oil are measured and dispensed; 7. the mechanical in the Measured values determined in the measuring chamber are converted into electronic data in a simple and intrinsically safe manner Impulses are converted, which in turn in the event of any inaccuracies in the mechanical Measured values are corrected electronically so that the calibratable Measurement is guaranteed; 8. The electronic measuring device is with the most diverse Commands can be equipped and sent to various assigned electronic processing, Storage and display devices can be connected.

An exemplary embodiment according to FIG the invention explained in more detail.

They show: FIG. 1 a front view of a dispenser for oil with electronic measuring and display device; Fig. 2 is a side view in partial section same dispenser with measuring and display device and at a distance from the measuring and display device mechanical flow rate measuring device inserted in the oil delivery line; Fig. 3 a front view in partial section of the flow rate meter with electronic Clock generator; Fig. 4 is a plan view in partial section of the same measuring mechanism with electronic crime generator; 5 is a schematic diagram with several Taps, several mechanical flow rate meters with their own clock generator and a common measuring and display device with display, playback and input options; Fig. 6 is a schematic flow diagram of the intrinsically safe digital counter of the measuring and display device.

For calibratable measurement and the exact amount of liquid dispensing Media, in particular gas oils and lubricating oils, in the viscosity range of engine and Gear oils is the method according to the invention and the method according to the invention that works accordingly contraption provided that or which largely has an electronic mode of operation.

The basic principle of the invention is based on the fact that successively electronic and electromechanical process steps are carried out, and in such a way that first the measured values of the flow rate of liquid medium determined mechanically and electronically in a multitude of mutually offset Double impulses per liter running through are converted, then the double impulse values be fed to a microprocessor, thereby inaccuracies in the mechanically determined Flow rate values are corrected in a calibration device in that electronic switches are thrown and an offset to the increment is entered, where the measured values corrected by the offset and accumulated with the increment be brought to a visual display regardless of the release of the medium.

The tap is then electronic or electromechanical Activation released for any medium delivery or for a preselected quantity, where there is a quantitatively accurate delivery.

1 with a medium delivery line (oil delivery line) is referred to, into which medium (oil) is conveyed from a medium tank 2 via a pump 3. from The oil is fed from this delivery line 1 via one or more feed lines (hoses) 4 brought to one or more taps 5.

In the supply line 4 for each tap 5, a measuring mechanism is preferably an annular piston measuring mechanism is used, which mechanically determines the flow measurement values and these to a built on the measuring unit 6 or integrated into the measuring unit 6, electronic clock generator (converter) 7 passes on.

This measuring mechanism 6 with clock generator 7 (opto-electronics) is in the medium flow direction an electric solenoid valve 8 is connected downstream.

At one of the tap 5 associated column 9 or at any one Distance to the tap 5 provided mounting surface, such as wall, separate Column or

Like., an electronic measuring and display device 10 is arranged, which via electrical control lines 11, 12 with the clock generator 7 and the solenoid valve 8 and which digitally indicates the oil quantities to be tapped or tapped indicates.

This measuring and display device 10 is arranged on a column 9 by a bearing plate 9a around the longitudinal axis of the column in an angular range of for example 2700 rotatably mounted, so that this device 10 for reading in the each desired position can be set up.

The Ringkolbenmeßwerk 6 is known and in its measuring chamber is the The amount of oil flowing through is measured mechanically, by gears or the like. To this known Ringkolbenmeßwerk 6, the clock generator 7 is grown, which is within a da9 measuring mechanism 6 overlapping cover 13 is and also an in represents a self-contained unit that is twisted with the oil flowing through it Drive shaft 14 of the measuring mechanism 6 is connected in terms of movement. The clock generator 7 has a positionally fixed clock segment having a plurality of slots 15, under which a photodiode 16 is arranged. On the upward one Drive shaft 14 is a timing disk also having a plurality of slots 17 set and above this timing disk 17 and the clock segment 15 superimposed a light-emitting diode 18 cooperating with the photodiode 16. The disk-shaped Timing disc 17 rotates above the clock segment 15, so that thereby the slots in both Parts 15, 17 alternately at certain time intervals (always one after the other) are congruent and offset from one another, whereby the two diodes 16, 18 are moved into the clock-converting active position. This clock conversion however, is dependent on the rotational movement of the shaft 14, which in turn depends on the oil flow is determined.

Thus, those are determined by the oil flow and by the meter detected measured values detected by the clock generator 7 and converted into pulses, wherein this clock generator 7 works in such a way that it determines the per liter passing through Measured values of the measuring device 6 converts into 200 double pulses offset by 900. the Specification of the 200 double impulses offset by 900 per liter is a favorable unit of value, However, this should only serve as a preferred example i £ -.nd can also have other values be determined. This from the clock generator 7 from the mechanically determined throughput quantities; en Values converted into electronic double pulses are then transmitted via the control line 12 fed to the measuring and display device 10 by evaluating these values electronically, wkf. corrected, displayed and specified in the effective medium delivery.

The electronic measuring and display device 10 contains a double pulse detecting microprocessor and an associated correction values in the microprocessor input calibration device, through which possible inaccuracies of the mechanical The flow rate values determined in the measuring chamber can be corrected by using Calibration device impulses Switch, preferably solderable DIP switches, be transferred and an offset to the increment is entered. The one through the offset corrected, with the Increment accumulated measured values become an optical display 19, preferably a digital display, brought so that there the accumulated measured values are currently displayed, independently from the medium release release.

A release button 20 on the device 10 is used to switch on the release solenoid valve 8, through which the desired amount of oil is then taken precisely through the tap 5 can be. Instead of the release button 20, the device 10 can also be equipped with other release means, such as coin operation, key switch, magnetic card reader or the like, be equipped, which are used for activation.

As can be seen from Fig. 1 of the drawing, the device 10 can also with Oil type preselection buttons 21, with an insertion slot 22 for a to be printed Output part in the form of a card, a receipt, an endless form or the like.

be provided, for this purpose the device 10 with a corresponding Printer is equipped. The device 10 also has control lamps 23.

From the mechanical measuring device 6 with clock generator serving as a pulse generator 7, the effective (exact, calibratable) measured value is sent to the Measuring and display device 10 given and from there via the control line 12 that Solenoid valve 8 released and switched off, so that the solenoid valve 8 desired (preselected) or any amount of oil flows into line 4 and out the tap 5 is removed. The tap 5 is from a filling gun with Gas indicator formed and the hose line 4 led to the fuel nozzle 5 is open a drum is rolled up in a container 24 associated with the column 9 so that it can be unwound. The container 24 has, for example, a drip oil tray assigned to the pump nozzle 5 25 on.

The solenoid valve 8 is in each mode of operation by a fault or by reaching the preset amount and in the operating mode with printer by pressing again Pressing the release button 20 is switched off with automatically subsequent printout. The state of the solenoid valve 8 is indicated by a control lamp in the release button 20 displayed.

This key 20 is only effective when a receipt is inserted into the printer or constantly if the printer is missing.

When the device 10 is switched on, it is automatically determined whether a printer is present or not.

Matrix printers of similar construction can be used for expansion via the printer interface be connected. Furthermore, the interface t7 segment display " Additional displays can be connected via their own driver electronics.

The expressed Data are transmitted.

So that several pulse generators 6, 7 (types of oil) are connected to a device 10 In addition to the selector switch 21, there is an oil type parameter preselection for each type of oil provided, with the following elements on the "Ulsorten parameter preselection" assembly are: 1. a calibration device; 2. a Pnçukt code dialing code (this is only printed out or transmitted); 3. a type of oil name selection, which also is only printed out or transmitted. The type of oil is selected by means of a step switch carried out.

This switch can be operated as desired, it is not short-circuited. The selected type of oil, including the relevant one, is only activated when the release button is pressed Delivery point 5 is assigned, activated - then this switch is ineffective; 4th a quantity preselection. The values determined with this choice of length become, if they are selected, read in again before each dispensing process. The quantity preselection can be controlled by a coin mechanism.

Additional devices that can be connected to the device 10 can be: 1. Receipt printer or receipt printer, each with a needle printer; 2. Quantity pre-selection device; 3. Measuring point switch (6 measuring points and more) 4. Release via credit card reader; ) 5. Release via coin-operated device, tokens) external free or cash; ) input contacts 6. Release via key switch; ) 7. Interface for data transmission: serial, ßCD and BCD (inverse) byte-wise, letters are converted into real hexadecimal characters presented; 8. Remote release through an impulse as part of a work program sequence; 9. additional totalizers; 10. for the options listed under items 1 to 9 can also twin facilities either on the device 10 itself or spatially provided separately from the device 10; ll. double pulse output 1/10 liter per pulse the end 5 of the drawing is the course of the mechanical in the block diagram Measurement in the ring piston measuring mechanism 6 with the clock generator 7 attached to it recognizable from which (from jSem) a control line 12 is led to the device 10, which via one (each) control line 12, in turn, the (the pulses to the (each) solenoid valve 8 passes on so that this becomes effective for enabling or switching off and the Oil can flow through line 4 to tap 5 or separated from it will.

For example, in the device 10 (counting and evaluation unit) the following inputs are made and the following outputs are obtained from the device 10, as indicated in Figure 5 by schematic boxes.

Input commands: 26 = measuring point preselection 27 = quantity preselection 28 = release command Output displays: 29 = digital display 30 = twin digital display 31 = matrix printer 32 = total counter 33 = twin total counter 34 = double pulse output The in Fig. 6 for the intrinsically safe digital counter as an exemplary embodiment is explained in more detail below, the individual process steps being illustrated schematically Boxes indicated and by connecting lines in the respective context (sequence) are shown. The following reference numbers mean the process steps: 35 = start 36 = initialize 37 = get calibration difference and offset with increment (in the case of illogic "ERROR" in the display valve off "STOP") 38 = key pressed + noticed 1st time 39 = delete 40 - has something changed at the inputs? 41 = fault flag + tolerance reached 42 = output double pulse 43 = number of pulses recalculate 44 = valve off, display flashing 45 = note new status 46 = change to the initial position "O" (new start) 47 = line 1 = become 1 48 = fault flag - 1 49 = line 2 = become 1 50 = fault flag +1 51 = counter +1 52 = to be output Recalculate number of pulses 53 = valve off, display flashing 54 = electronic fault The procedure for one or the other disruption, deviation, implementation or The like. Is represented by the arrow directions 55 = yes and 56 = no, based on which the process flow can be understood with the help of the drawing, whereby the How the digital counter works in the event of malfunctions, deviations or suitable values can be seen.

The essence of the invention is, on the one hand, the microprocessor is connected to the clock generator 7 and from there the electronic double pulses and on the other hand a calibration device is connected to the microprocessor which practically forms the electronic calibration point, because this calibration device the correction values to be added or subtracted are entered into the microprocessor, which arise on the basis of the mechanically determined and possibly imprecise measured values.

Claims (12)

Claims 1. Method for calibratable measurement of liquid media, in particular gas oils and lubricating oils in the viscosity range of engine and gear oils, when they are submitted, the following are given one after the other Process steps: a) the measured values of the flow rate are determined mechanically and electronically in a multitude of offset double impulses pro Liters converted; b) the double pulses are fed to a microprocessor and at the same time the microprocessor is given an offset by a calibration device admitted; c) Inaccuracies in the mechanically determined flow rate values are corrected in the calibration device by flipping the switch and setting an offset is entered for the increment; d) those corrected by the offset, with the increment Accumulated measured values are brought to an optical display regardless of the medium delivery release; e) the tap is by electronic and / or electromechanical actuation for any or pre-selected quantity Medium release released. 2. The method according to claim 1, d a d u r c h g e k e n nz e i c h n e t that the mechanically determined flow rate measured values in 200 offset by 900 Double impulses per liter are converted, 3. The method according to claims 1 and 2, it is noted that any inaccuracies in the mechanically determined flow rate values by flipping solderable DIP switches Getting corrected. 4. Device for calibratable measurement of liquid media, in particular von blen, for carrying out the method according to claims 1 to 3, d a d u r c h g e -k e n n n z e i c h n e t that an inserted into a medium delivery line (1), the flow rate values mechanically determined measuring mechanism (6) with an electronic, converting the measured values into a large number of offset double pulses per liter Clock generator (7) is equipped, which via electrical control lines (11, 12) with an inaccuracies arranged separately at any spatial distance from the measuring mechanism (6) of the measuring mechanism (6) via a microprocessor in connection with a calibration device by flipping switches and entering an offset to correct the increment, electronic measuring, evaluation and display device (10) with digital display (19) and one in the from the measuring device (6) to the tap (5) led line (4) behind the Measuring device (6) arranged electric solenoid valve (8) is connected. 5. Apparatus according to claim 4, d a d u r c h g e k e n n z e i c h n e t that this brings about a mechanical flow rate measurement in a measuring chamber Measuring device (6) is formed by a known ring piston measuring mechanism and the The shaft (14) driven by the flowing medium with the shaft attached to the measuring mechanism (6), Clock generator which is covered by a measuring mechanism cover (13) and forms a structural unit (7) is connected in terms of movement. 6. Device according to claims 4 and 5, d a -d u r c h g e k e n n z e i c h n e t that the mechanically determined flow measurement values in 200, clock generator (7) which is shifted by 900 double pulses per liter converting it in terms of position has a fixed clock segment (15) having a plurality of slots, arranged below which a photodiode (16) and above which a light emitting diode (18) and that on the measuring device drive shaft (14) a plurality of slots owning timing disc (17) is attached to interact with the timing segment (15) and the diodes (16, 18) between the clock segment (15) and the light emitting diode (18). 7. Device according to claims 4 to 6, d a -d u r c h g e k e n n z e i c h n e t that the measuring, evaluation and display device (10) with a die Double impulses receiving microprocessor and with one the correction values the microprocessor supplying calibration device with reversible, solderable DIP switches electronic component, the digital display (19), control lights (23) and a from a release button, a coin mechanism, a magnetic card reader or a key switch formed on switch (20) is equipped. 8. Device according to claims 4 to 7, d a -d u r c h g e k It is noted that the device (10) has a printer, such as receipt printer, continuous form printer Od. Like. Is equipped. 9. Device according to claims 4 to 8, d a -d u r c h g e k It is noted that the device (10) has a quantity preselection or type preselection switch Is provided. 10. Device according to claims 4 to 9, d a -d u r c h g e k It is indicated that the measuring, evaluation and display device (10) with a Measuring point preselection (26), a quantity preselection (27), a release command (28), a Display (29), a connected twin display (30), a matrix printer (31), a total counter (32), a twin total counter (33) and a double pulse output (34) is equipped (Fig. 5). 11. Device according to claims 4 to 10, d a -d u r c h g e k It is noted that the device (10) is attached to a column (9) in the area of the tap (5) is rotatably mounted in a certain angular range for the reading adjustment. 12. Device according to claims 4.bisS10, - d a -d u r c h g e it is not indicated that the device (10) is at a distance from the tap that can be selected (5) provided wall surface, bracket, stand part or the like. Is fixed.