DE663150C - Flow meter with variable resistances for AC operation - Google Patents

Description

Flow meter with variable resistances for AC operation Electric flow meters are known, in which the correction of the measured variable serving pressure and temperature values detected by a variable resistor will.

The invention relates to such flow meters, the one generate alternating voltage proportional to the uncorrected flow rate and the cooperate with according to the pressure and / or the temperature variable resistances. According to the invention, in such a device for connection of the variable Resistors on the measuring line are each provided with a transformer, and that takes place this connection to the secondary coils of these transformers while their primary coils are bridged by each capacitor. Not just any transformer is suitable for this useful, but rather only one that can withstand various loads retains a defined transmission ratio. By using such a transformer a number of technical advantages that are important in practice are achieved. First are due to the galvanic separation of the variable resistor from the operating current source troublesome or expensive insulating devices are often unnecessary. Come in addition Finally, as a result of the use of the transformer, variable resistances of a relatively small total amount can be connected to the measuring line can cause large changes in current in this measuring line. One can therefore for example, an ohmic resistor made of straight wire as a correction resistor use, which for reasons of manufacture and durability only for proportionate low ohmic values can be produced, and one can see the advantages of such a resistor, namely the possibility of a completely constant change in resistance and possibly the possibility of changing such resistance, through one with proportionate Pressure or temperature measuring device working with low adjusting force for the measurement take full advantage of it. Corresponding advantages also result when using capacitive ones Correction resistances, as which z. B. Air condensers, such as those used for measurement purposes are known, readily suitable for the flow meter according to the invention are.

In the drawing, the subject matter of the invention is based on several exemplary embodiments explained. Figs. I and 2 show flow meters each with one Embodiment of the special connection of the pressure or pressure and temperature correction device.

In Fig.3 is a special type of connection between a Printing fair. or a temperature meter and the associated rheostat Flow meter shown.

Fig. Q. shows schematically a flow meter with another Design of the connection for pressure and temperature correction.

5 shows a further embodiment of a connection for temperature correction or measurement.

Fig. 6 shows the cross section through the secondary winding of a Connection transformer forming corrugated pipe.

According to Fig. i is in the pipeline i through which a medium, e.g. B. steam flows, a throttle point 2 is provided. The through this choke point The pressure difference generated is measured by means of a flow manometer 3, a float meter or a similar device. In the example, the float is ¢ des Manometer 3 an iron core 5 is provided in the field of a transformer 6, 8 is adjusted by the flow manometer. The primary winding 6 of the transformer is connected to the AC network 7, while the secondary winding 8 of the Transformer via lines 9 for feeding the current winding io of a voltage-independent Counter i i is used. The voltage winding i z of the meter is across its capacitor 13 connected to the alternating current network 7. The Ferrari disk on the meter i i is denoted by 14. The capacitor 13 serves to reduce the influence of frequency changes on the setting of the electricity meter i i.

In order to have a perfect measuring device with this essentially known measuring device According to the invention, a pressure correction to .rehalten is in the connecting lines 9 additional transformer 15 switched on with the primary winding 16 and one capacitor 17 lying in parallel therewith and the secondary winding 18. The capacitor 17 serves to at least partially compensate for the magnetizing current. the Reduced voltage # of the secondary winding i $ is via a series resistor i9 fed to the variable resistor 21 changed by a pressure gauge 20. Of the The series resistor i9 is expediently used at the same time for the reduction that is often necessary the sensitivity in the initial measuring range, for balancing the individual pitot tubes different initial resistance and finally to calibrate the resistance of the connecting lines. In the exemplary embodiment, the resistor 2i is drawn as Mercury "Silberring- .. rällr". In a known way, it consists essentially of a hollow ring 'made of insulating material, in which on the one hand a wire and on the other hand a quantity of mercury enclosed are, the resistance wire depending on the position of the hollow ring more or less by which mercury is short-circuited.

If by changing the pressure of the flowing in the pipe i Medium an incorrect setting of the differential manometer 3 and thus a If the measurement is incorrect, a corresponding adjustment is made by the manometer 2o of the rheostat 2i. This results in a correspondingly larger voltage drop at the terminals of the current transformer 15, so that the effective current strength in the Coil io of the counter i i and thus the rotational speed of the counter is independent from the pressure fluctuations remains.

The current transformer 15 is expediently designed so that it controls the current intensity approximated in the inverse ratio of its number of turns and the resistances in translates the quadratic ratio of its number of turns. Such a current transformer enables a ring tube resistance of a relatively low resistance value to use. The capacitor 17 acts by compensating for the magnetizing current of the transformer in particular with the small measuring currents that converge towards zero very cheap in the starting area of the flow meter.

In the embodiment according to FIG. 2, in addition to a pressure correction a temperature correction was made. The temperature correction is in the voltage circuit of the meter ii and consists of a temperature-sensitive resistor 22, which is installed in the pipe i. If desired, you could also do this Connect resistor 22 via a current transformer, analogously for its training the same applies as for the current transformer 15 according to FIG. The one to connect the rheostat 2 i current transformer 15 provided for the pressure correction is in this embodiment drawn as an autotransformer. The measuring current flows through both windings 16 and 18, while the ring tube resistor 2i is only connected to the secondary winding 18 is. In this example, there is a fixed addition in parallel to the ring pipe resistor 21 resistor 23 switched, resulting in a reduced sensitivity for the higher Resistance values of the ring pipe resistance is achieved. Such a series resistor can also at the same time serve to adjust the line resistances: for one, for example for the connection of the temperature-sensitive resistor 22 provided current transformer The same applies accordingly.

In FIG. 3, a pressure gauge with a Bourdon tube 31 is shown as a pressure gauge illustrated, which is only partially drawn. At the free end of the Bourdon pen a toothed segment drive 32 is provided through which the gears 33 and 34 adjusted. The gear 34 is loose on the axis 4o of the ring tube resistance 21 postponed. Between the gear 34 and the fixed on the axis 4.o. Ring pipe resistance, a spring clutch 35 is switched on. Are on axis 4o two adjustable stop strips 37 are provided, which when the desired Stop the final deflection against the fixed pin 38 and continue turning the ring tube 2i prevent. The device shown ensures that even when achieved the limit of the adjustment range of the ring pipe resistance 21 of the pressure gauges 31 can continue working. In this case it only effects an adjustment of the transmission parts 32 to 34 and a tension of the spring clutch 35 without adjusting the ring tube. The power supply lines for the ring tube are indicated at 39. If desired, can instead of the device shown, the drive of the rheostat from the manometer from also by cams or belt transmission with preferably out of round, the desired characteristic can be carried out according to trained rollers.

Instead of the flow measurement shown in Fig. 2 with pressure and Temperature correction can also be used for the same purpose using the device according to Fig. Use 4 advantageously. In this, the flow meter 3 is also means two pressure take-off lines connected to the pipeline i, in which one Throttle point 2 is provided. In a connecting line 53, which from the AC network leads to the voltage-independent counter i i is the primary winding 16 of a transformer 15 switched on with capacitor 17 connected in parallel. In the circuit of the The secondary winding is a ring tube regulating resistor via a series resistor ig 2i switched on, that of the pressure gauge 2o in known and therefore not closer is set in the manner shown. The training and mode of action of this Parts corresponds exactly to those that have been given the same reference numerals Parts of Fig. 2. For additional temperature correction of the flow measurement is now a device of the same nature as that for pressure correction is provided. This consists of a transformer 15 ', the primary winding 16' of which is parallel connected capacitor 17 'in series with the primary winding 16 of the transformer 15 is switched. In the circuit of the secondary winding 18 'of the transformer 15 'a ring tube resistor 2i' is inserted via a series resistor i9 ', which of a temperature meter 20 ', e.g. B. one that works according to the principle the linear expansion is working, is set. The connection between the temperature meter 2o 'and the variable resistor 21' can be that shown in Fig. 3 for a pressure gauge Execution.

With suitable dimensioning of the transformers 15 and 15 'as well as the control resistors 20 and 2o 'and the approximately provided series and parallel resistors succeed in Current path of the voltage-independent electricity meter i i one pressure and one Carry out temperature correction that leads to exact flow measurements. If so desired you can of course also use the two for pressure and temperature correction Connect resistors 2o and 2o 'to a common transformer.

It may be desirable to remotely display, register or integrate the respective pressure prevailing in the pipeline i and the temperature of the medium flowing in the pipeline i using electrical devices. For this purpose the ohmmeter 30 and 3o 'can be used, one coil of which is connected to the operating voltage of the alternating current network 7 and the other coil of which is connected on one side to a winding of the current transformer 15 or 15'. Such pressure or temperature meters designed as ohmmeters can also be connected to the devices according to FIG. 2 in a corresponding manner. In the case of integration, voltage-independent ohm-hour meters are preferably used instead of the indicating or writing ohmmeters. If desired, the current transformer can also be structurally combined with a temperature-sensitive resistor for temperature correction or temperature measurement. A device designed in this way is illustrated in FIG. 5. A gas, a vapor or a liquid flows through the pipeline 4o. A semicircular tube 4.2 made of temperature-sensitive material, in particular made of copper or nickel, on which ribs 43 can be provided, is preferably installed in the pipeline 4o by means of flanges 41. The tube 42 also serves as a secondary winding of a transformer, the primary winding 44 of which is applied to an annular iron core 45. The ring-shaped iron core 45 consists of two overlapping laminated cores which are connected to one another and fastened by means of screws 46. First, the lower half of the annular core with the primary coil 44 wound thereon is inserted into the tube 42 and then the upper half of the ring is combined with the lower one. The tube 42 is expediently filled with oil 47, which at the same time enables electrical insulation of the winding 44 from the tube 42 and also enables good heat exchange between the two parts. In order to increase the electrical resistance of the tube forming the secondary winding as much as possible, it can also be designed as a corrugated tube according to FIG. In turn, a capacitor 17 of such size is connected in parallel with the primary winding that it compensates for the magnetizing current to the desired extent. The primary winding 44 is fed from the alternating current network 7. By means of an ohmmeter 48, one coil 49 of which is connected to the alternating current network 7 and the other coil 50 of which is in series with the primary winding 44 of the transformer, the temperature of the medium flowing in the pipeline 4o can be displayed or registered. If desired, the coil 5o can also be placed in parallel with the primary winding 44 or a counter can be connected in place of the ohmmeter. With the help of the lines 51, after the lines 52 have been omitted, the device shown can advantageously be used as a replacement for the parts 15 'to 20' and 30 of FIG. 4 or of the part 22 of FIG. 2 for temperature correction of flow measurements. In all cases there is the great advantage that in the version according to Fig. 5, because of the direct contact with the temperature-sensitive resistance tube, in contrast to the usual resistance thermometers, a very much higher current load can be applied with very small errors due to self-heating than with these resistance thermometers and that so that more favorable conditions for an exact temperature measurement or temperature correction of alternating current measurements are created.

Instead of the voltage-independent shown in FIGS. 1, 2 and 4 Counter i i can, if desired, also be used with other electrical measuring instruments. in particular indicating, writing or signal actuating devices individually or to several. It is also not necessary for the current transformer to be connected an ohmic rheostat is used. Rather, it can also use the current transformer a capacitive or inductive variable resistor can be connected. Finally, it is also possible to use one and the same current transformer to connect several ohmic inductive or ohmic inductors connected in parallel or in series to use capacitive rheostats.

Claims (7)

PATENT CLAIMS: i. Flow meter, which is one of the uncorrected flow rate proportional Alternating voltage is generated and the corresponding to the pressure and / or the temperature cooperating variable resistances, characterized in that these Resistors are connected to the secondary coil of a transformer (15, 15 ') and that the primary coils are each bridged by a capacitor (17, 17 '). 2. Flow meter according to claim i, characterized in that the via a transformer connected variable resistance (2i or 2i ') for pressure or temperature correction into the circuit of the voltage winding of a voltage independent electricity meter (i i) is switched on. 3. Flow meter according to claims i and 2, characterized characterized in that, in addition to the variable correction resistance, if necessary nor adjustment resistors (i9 or i9 ') on the secondary side (18 or 18') of the transformer are switched on. 4. Flow meter according to claims i to 3, characterized in that that a transformer with a secondary winding (42) made of temperature-sensitive Material is provided, which is washed around by the medium to be measured. 5. Flow meter according to claim 4, characterized in that the secondary winding (42) of the transformer consists of a tube of high ohmic resistance with temperature coefficient, in which the primary winding (44) is inserted. 6. Flow meter according to the claims 4 or 5, characterized in that the .die secondary winding of the transformer forming tube (42) is filled with C51. 7. Flow meter according to claims 4 to 6, characterized in that the primary winding (44). of the transformer on a ring (¢ 5) protruding approximately halfway into the pipe is attached. B. Flow meter according to claim i or the subclaims, characterized in that a for display or registration of the instantaneous values of the pressure or the temperature serving ohmmetric Instrument (3o or 30 ') connected to the primary side (i6 or W) of the transformer is, on its secondary side (i8 or i8 ') the variable correction resistance (2i or 2i ') lies.