DE3212821C2 - Device for differential flow measurement - Google Patents

Abstract

The invention relates to a device for measuring differential flow. The task of measuring a differential flow occurs, for example, when a consumer is supplied with more liquid than it consumes and when a direct measurement on the consumer itself is not possible. The difference then indicates the useful consumption. The fuel consumption of motor vehicles can serve as an example of this. In order to measure the inflow and outflow with the same transducer, it is periodically switched into the inflow and outflow by suitable means.

Description

The invention relates to a device for measuring the difference between flows into a consumer and fluids flowing off again, d. H. that the consumer is supplied with more liquid than he consumed. Such a consumer is, for example, the motor vehicle engine, which usually has an overcurrent carburetor or works with fuel injection. In both cases, the fuel pump becomes essential transports more fuel than is consumed by the engine; the excess flows back into return the storage tank.

However, it can be of interest not only in motor vehicle engines but also in other applications be, the useful flow, d. H. to detect the difference between the inflowing and outflowing liquid. In many cases, like that also with the motor vehicle engine, is a direct measurement of the consumption is not possible, so that one has to determine the consumption from the inflow and outflow. Now it's on It is not difficult to determine the inflow and outflow by means of two measuring transducers and from this the difference form. In order to get exact values, however, both measuring devices would have to be practically identical and identical work, a requirement that cannot be met with affordable technical effort In practice, the two transducers show different, systematic deviations, which are all the more disruptive are, the smaller the useful flow is with respect to the inflow and outflow, since then these deviations in the The order of magnitude of the differential flow can come and the determination of the useful flow to an intolerable one Falsification of the actual consumption.

A flow meter of this type is described, for example, in DE-OS 29 05 304; here too there is major disadvantage is that the flow meter because of the use of two transducers, the are fixed in the inflow or outflow line, is too imprecise for many applications.

The invention is now based on the object while avoiding the disadvantages of the known devices To create a differential flow meter that is particularly useful even at low flow rates ensures high accuracy.

The solution to the problem arises from claim 1.

The principle of the invention is therefore to periodically place the transducer between the inflow and outflow lines switch over so that inflow and outflow are measured with one and the same transducer. the The requirement for complete identity is thus fulfilled and is bought at the cost of the measured values for additional and Drain can be formed staggered in time. The solution with a transducer assumes, however, that During a switchover period the hydraulic system is in an approximately quasi-steady state, d. H. that the amount of consumers does not change much, which is usually the case with motor vehicle engines, and that

so the transducer can follow the switchover.

According to a further development of the invention, two transducers can also be used, one of which is connected to the inflow and one in the outflow line and which are periodically interchanged with suitable switching devices with regard to inflow and outflow, the switching devices being designed so that the direction of flow in the transducers and the consumer does not change.
Further features of the invention emerge from the subclaims and the following description of the figures. It shows

Fig. 1 shows an embodiment of the invention with a Transducer,

Fig. 2 shows an embodiment of the invention with two transducers.

F i g. 1 shows a first embodiment with a transducer. The system consists of the consumer 1, the transducer 2 and the switching valves

3 and 4. The liquid to be measured flows from the inflow Z through the transducer 2 and the consumer 1 to the outflow A in the manner described below.

The switching valves 2 and 4 can occupy two positions s, as indicated by the solid lines and the dashed lines Rotary valve 5 and 6 is shown.

In the extended position of the rotary valve 5 and 6, the liquid from the inflow Zuber the VentL '3 to the transducer 2 and from there via the valve 4 to the consumer 1, from which it is via the valve 3 and valve 4 to the outlet A. flows After a predetermined throughput time, the rotary slide valves 5 and 6 are switched to the dashed position Valve 4 to the drain A. The transducer 2 is switched on in this phase in the drain. The pairs of arrows 7 and 8 indicate that the flow direction in the transducer 2 and the consumer 1 does not change

An annular piston flow meter, for example, can be used as the transducer can be used as described in Patent Specification 28 55 292. By appropriate Sensors convert the rotation of the ring piston into electrical impulses to form the difference one then z. B. use an up / down counter, whose counting direction is to be switched synchronously with the rotary slide valve. The evaluation of the measurement results is not the subject of the protection request and the expert can use suitable means, it is not described, but merely indicated by block 9

F i g. 2 shows a further development of the invention in which two transducers IO and 11 are used. You can therefore record the inflow and the outflow at the same time.

In the position of the slide 5 and 6 shown in solid lines, the transducer 10 is located in the inflow line and the transducer 11 in the drain line. After switching the slide 5 and 6 to the dashed line In position, the two transducers 10 and 11 are interchanged with respect to inflow and outflow.

As in the first example, the difference is formed from the measured values from one and the same transducer performed.

One designates with Φ \ ο the respective measured value of the transducer 10 and correspondingly with <P _U the measured value of the transducer 11 and gives with the additional index Zbzw. A indicates whether the transducers are connected to the inflow or outflow line, then the result is:

Φ \ οζ - Φ \\ λ - Φν «0 · half period)
Φ \\ ζ— Φ ™ * - Φν / 2 (2nd half period)
and for the entire switching period

(01OZ - Φ \ οα) + (Φ \\ ζ - Φ \\ α) = Φν

Result averaged If one measuring value transmitter has a positive display error and the other one has negative errors of the same size, the difference between the errors is zero.

In the schematic representation are as toggle switches Rotary valve assumed because it is the most obvious way of representing and explaining the flow conditions permit. The changeover switch can of course also be used as a translational double slide or with a corresponding one realized actuated valves. The drive of the switch is designed to be intermittent, the Switching takes place as quickly as possible. It is irrelevant whether the drive is mechanical, electrical or hydraulic is

Practical experiments with a rotary valve that is driven by a gear motor with approx. 20 revolutions per minute was driven by a Maltese cross and periodically switched over two rotary piston flow meters, have fully confirmed the correctness of these considerations. It did not matter that the Switching significant pressure fluctuations occurred in the inflow and outflow lines.

55

60

where 0 / v is the useful flow

From this relationship it can in fact be seen that the difference is formed in the same transducer takes place so that no errors can occur due to different b5 transducers. In addition, the Average value formed from the display of both transducers, i.e. H. any relative errors are included in the knife-for-purpose 1 sheet of drawings

Claims (4)

Patent claims: 1. Device for measuring the liquid consumed in a consumer, in which the by a Measuring transducer flowing amount of liquid is electrically measured and evaluated, thereby characterized in that the transducer (2, 10, 11) by means of a hydraulic double switch (3, 4) can be switched periodically in such a way into the inflow and outflow of the consumer (8) is that despite switching the transducer between inflow and outflow, the direction of flow in the transducer and the consumer remains the same, and that the difference between two consecutive Measurements is detectable 2. Device according to claim 1, characterized in that that the hydraulic separator consists of two synchronously switchable two-way valves (3, 4), which are designed in this way and connected in the connecting lines between the consumer and the transducer are that in the first position of the inflow through the first valve (3), the transducer (2), the second valve (4) to consumer (8) and the drain from consumer (8) via the first valve (3) and the second valve (4) takes place, and that in the second position of the inflow via the first (3) and the second valve (4) to the consumer (8) and the drain from the consumer (8) via the first valve (3), the transducer (2) and the second valve (4) takes place. 3. Device according to claim 1, characterized by two transducers (10, II), each of which one is switched into the inflow and the other into the outflow, and a hydraulic separator by means of which periodically interchangeable the transducers in the inflow and outflow lines are that in the transducers and the consumer always the same flow direction prevails. 4. Device according to claim 3, characterized in that the hydraulic switch consists of two synchronously switchable two-way (four) valves (3, 4), which are so designed and so in the connecting lines between consumer (8) and the transducers (10, 11) are switched on that in the first position of which is the inflow via the first valve (3), the first transducer (10), the second Valve (4) to the consumer (8) and the outflow from the consumer (8) via the first valve (3), the second transducer (11) and the second valve (4) takes place, and that in the second position of the Inflow via the first valve (4), the second transducer (11), the second valve (4) to the consumer (8) and the outflow from the consumer (8) via the first valve (3), the first transducer (10) and the second valve (4) takes place.