DE1281715B - Differential pressure transducer with electrical output in compensation circuit - Google Patents

Description

Differential pressure transducer with electrical output in compensation circuit The invention relates to a differential pressure transducer with a differential transformer formed electrical output in compensation circuit, the primary and / or Secondary winding is carried out in partial windings.

Differential pressure transducers with differential transformers are available in different Embodiments known. In a known embodiment works in one pressure-resistant measuring chamber a spring-loaded differential pressure measuring membrane body on a Lever, its movement with the help of a torsion tube or equivalent Component is transferred to the outside. The stroke of an output lever drives the Armature of a differential transformer, which is an electrical amplifier controls. Devices are also known in which the differential pressure membrane Armature drives a differential transformer inside the measuring chamber while the yoke of the differential transformer is attached outside the pressure chamber.

In this embodiment, the mechanical transmission of the diaphragm movement is through the bleßkammergehäuses through as it were by a magnetic transmission replaced. The described arrangements are unsatisfactory insofar as the static Pressures under which differential pressures are to be measured are often so high that mechanical Implementations require a lot of effort and because of the magnetic transmission the large required wall thicknesses of the measuring chamber housing decreases in sensitivity. It is therefore already known, armature and yoke of the differential transformer in the To arrange measuring chamber. However, this has the disadvantage that the armature and yoke of the differential transformer are difficult to access and therefore the zero balance, which is known to all Mechanical embodiments, either by adjusting the armature or the yoke, must be carried out, can only be carried out with difficulty. This The disadvantage is all the more noticeable as the ones often used in the pressure chamber Measuring mechanisms are surrounded by a protective liquid, which is protected by additional protective membranes is separated from the substance to be measured. A necessary intervention for the purpose of adjustment must then take place in this protective space in which the volume of the protective liquid may not be changed.

Usually, in differential transformers, the primary or secondary winding executed in partial windings for the purpose of compensation in phase opposition in the case of the primary winding in series or in the case of the secondary winding can be connected in parallel out of phase, in the latter case the over both Partial windings tapped voltage that is in equilibrium of the differential transformer Is zero, via a rectifier and, if necessary, a variable series resistor can be given to the input of a suitable measuring device.

In addition, a differential pressure transducer is known in which in place a differential transformer with two side by side in the direction of movement of the armature arranged windings is worked, each over a winding of a bifilar Chokes are electrically connected in parallel and have an alternating feed current flowing through them will. The two windings of the bifilar choke are each connected in series made up of rectifier and resistor connected in parallel, and the difference between the two Voltage dropping with resistors is used as a bridge between the two series circuits placed measuring instrument measured.

The invention is based on the object of a differential pressure transducer to train with differential transformer of the type mentioned so that a mechanical adjustment of the differential transformer for the purpose of zero adjustment is dispensable, the differential transformer so in the measuring chamber of the differential pressure converter can be installed without having to be accessible for mechanical adjustment work.

The invention consists in that for zeroing the differential transform ators variable resistors are connected upstream of the partial windings of the primary winding are and / or two of the partial windings of the secondary winding via rectifier and voltage dividers with variable voltage tap are connected in series. In this way, a purely electrical zero balance of the differential transformer is possible possible that the adjustment on mechanical Completely replaced paths, so that the balancing through removed from the differential transformer and outside of the Measuring chamber arranged, purely electrically acting components are accomplished can.

As a result, it is achieved that the differential transformer without the possibility of a mechanical adjustment in the measuring chamber of the differential pressure transducer can be arranged, with only the connections of the primary and secondary windings out of the - measuring chamber with the help of pressure-tight electrical feedthroughs are.

In detail, offer the partial windings of the primary winding - -des - Differential transformer upstream changeable resistors the possibility of excite the partial windings in an adjustable asymmetrical manner and thereby to be able to compensate mechanical adjustment errors over a wide range. the Variable resistors can be both ohmic resistances, for example Potentiometers, but also alternating current resistors of any type. Means the voltage divider connected to the partial windings of the secondary winding each partial winding a partial voltage proportional to its voltage in any desired Height can be tapped, so that these partial voltages have the same value among themselves can be set, even if the tensions of the partial windings themselves as a result insufficient mechanical adjustment of the differential transformer are tall; A preferred embodiment is characterized in that in the same direction polarized rectifiers, the voltage dividers have fixed taps on both sides of a potentiometer have whose slider at the connection point of the two connected in series Secondary coils is connected. Of course, it can also be polarized in opposite directions Rectifiers are worked. In this case it is the simplest embodiment provided that the two series-connected secondary partial windings under Interconnection of the rectifiers polarized in opposite directions by a common potentiometer are bridged and the output voltage between the connection point of the two partial windings and is removed from the potentiometer wiper, whereby by adjusting the potentiometer wiper the zero balance of the output voltage can easily be established again.

The advantages achieved by the invention consist essentially in the possibility of zeroing the differential pressure transducer without mechanical Adjustment work on the differential transformer solely through electrical adjustment Acting switching elements outside of the converter or the differential transformer perform. This enables a very advantageous structure of the converter, since all mechanical measuring elements including the differential transformer in the measuring chamber of the converter, especially in the one filled with the protective liquid Part of the measuring chamber, can be arranged without being accessible for the zero adjustment to have to be. The adjustment itself can be carried out in the simplest way and, if necessary, repeated more frequently.

In the following the invention will be explained in more detail with reference to a drawing; it shows F i g. 1 a differential pressure transducer with differential transformer, balancing device and associated electrical circuit in a schematic representation, partly in section, 2 and 3 other circuit arrangements of the balancing device according to the invention.

In detail, Fig. 1 shows a differential pressure transducer with a differential transformer, Adjustment device 26 - and associated electrical circuit arrangement. By doing Housing 1 is the measuring membrane body 2. Two further membranes 3 and 4 are Protective membranes, which are not involved in the actual measurement, but rather transmit the differential pressure to be measured to the interior space 5 closed off by them. This interior 5 contains a protective liquid, for. B. silicone oil. To the through The external spaces P + and P connected to the membranes 3 and 4 become the differential pressure to be measured connected. In addition, a valve plug 6 with one is on each of the membranes 3 and 4 Sealing ring, e.g. B. attached in the form of an O-ring 6 a made of rubber, which at one-sided overpressure prevent pressure equalization within the oil filling and thereby protect the measuring mechanism from damage. The actual measuring system exists from the measuring membrane body 2, the electromagnet 7 with the excitation winding 8 and its Armature 9 and from the differential transformer 10 with its core 11. A rod 12 connects the armature 9 and the core 11 firmly to the membrane body 2 and is through two soft guide springs 13, which are attached to the housing 1, on the side Avoidance prevented. The yoke of the differential transformer 10 contains the primary winding 14 as the excitation winding and the secondary windings 15 and 16 as the measuring winding. Of the Electromagnet 7 is provided with a non-magnetic protective cover, e.g. B. made of aluminum or Brass, 17, surrounded to avoid damaging magnetic effects of the steel housing 1 to turn off the magnet 7. In the exemplary embodiment, the items are Measuring mechanism, z. B. the electromagnet 7 with accessories and the differential transformer 10 with accessories, arranged on both sides of the measuring membrane body 2. This arrangement can also be done in such a way that the individual parts are on only one side of the measuring membrane body 2, either on the P + side or on the P side. This arrangement then becomes recommended if the medium is not corrosive to the. Diaphragms acts, and it then a protective membrane3 or 4 including the partial filling with Protective liquid omitted. For pure pressure measurements, especially for non-aggressive ones Substances, both protective membranes can be omitted including the entire protective filling. The overpressure protection 6 and 6 a is then in a known manner on the measuring membrane body relocated and operated by this. The ends of the magnet winding 8 as well as the ends the differential transformer coils 14, 15 and 16 are across the electrical pressure load feedthroughs 18 to 25 led out of the housing 1 or from the pressure chamber 5. Outside of the Pressure chamber is the output 18 to 21 of the differential transformer to a balancing device 26 connected, which contains a zero point adjustment potentiometer 27 and also a rectifier arrangement for rectifying the measuring voltage. The rectified Measurement voltage is passed on to the amplifier with high gain and Output stage 28 is supplied, its output current to the bushings 24, 25 of the magnet winding 8 is connected. In this circuit is the resistor 30, in which the output current of the amplifier 28 generates a voltage. This voltage is sent to the output measuring amplifier 31 supplied as input voltage. In addition, this voltage is passed through the resistors 29 a partial voltage is tapped, which is applied to the input of the amplifier 28 as a negative feedback is brought into effect. The measuring range is adjusted with these resistors 29. With the help of resistors (not shown here) in amplifier 31, the output current ranges are determined of the transmitter, which can be found at the output terminals 32 and 33 are. A power supply unit (not shown here) also supplies the amplifier 28 and 31 constant operating voltage, as well as a multivibrator 42, the output of which to the ends of the field winding 14 of the differential transformer 10 or to their Bushings 22 and 23 are connected. The amplifier 28 is in communication matched with the differential transformer 10 so that it is at a deflection of the core 11 is fully controlled by about a fiftieth of a millimeter. So will If a differential pressure is applied to the pressure spaces P + and P -, it becomes practical unfettered membrane body 2 deflected, likewise the core 11 and the armature 9. Immediately controls due to the deflection of the core 11 of the amplifier 28 from and energizes the winding 8 of the magnet 7. The armature 9 is in the direction of the magnet 7 is withdrawn and makes the deflection of the core 11 or the membrane body 2 reversible except for a remaining amount, which is in the range of zero to one fiftieth Millimeter is when the balance of forces has been established. In this Area, the pull magnet has an invariable pulling force at constant current, so that Measurement errors as a result of this permanent stroke do not occur. The electricity for this Force effect is necessary is proportional to the root value of the force which the Membrane body 2 generated as a result of the applied differential pressure. The resistance 30, which is switched on in the circuit of the magnet winding 8, is thus generated a voltage which is also proportional to the square root of the differential pressure. The same therefore applies to the output value of the amplifier 31 or the output terminals 32 and 33 of the entire device. Moreover, the electrical output value is then proportional the flow rate at the measuring orifice.

The balancing device 26 belonging to the differential transformer lies outside the pressure chamber and contains the feed-throughs 18 and 21 connected diode rectifiers 34, 35 and those connected to the diodes Charging capacitors 36, 37. Between those formed by two discharge resistors Voltage divider 38 is an end terminal 40, likewise between the voltage divider 39 the end terminal 41. The zero point adjustment potentiometer 27 connects the voltage dividers 38 and 39 with each other, and its claw is immediately with the common poles of the charging capacitors 36 and 37, to which the bushings 19, 20 the differential transformer winding ends 15, 16 are guided. In this Embodiment the diodes 34, 35 are polarized in the same direction. With the characters 1- - t this is on the connections of the charging capacitors. The positive voltages are however, it varies depending on the position of the core, so that it is at the resistance path 38, 27, 39 results in a measurement voltage as the difference between two charging voltages, of which a portion of the terminals 40 and 41 is tapped. This final tension can be yours Change direction, and their zero crossing can according to the invention with the help of Gripper from the potentiometer 27 with respect to the zero crossing of the charging voltage difference be moved. In the F i g. 2 and 3 are two more circuit examples Adjustment device according to the invention for the electrical zero point adjustment of the Differential transformer shown. In Fig. 2 is the voltage divider 38 of the F i g. 1 designed as a potentiometer and its wiper connected to the end terminal 40. The potentiometer 27 is omitted for this. In FIG. 3 are the diode rectifiers polarized in opposite directions in that the direction of action of the diode 34a is reversed.

The signs - + - + indicate the direction of the voltages. the End terminal 40 is connected to the wiper of the adjustment potentiometer 27 here and the end terminal 41 with the connection line of the charging capacitors 36 and 37.

Claims (3)

Claims: 1. Differential pressure transducer with a differential transformer electrical output formed in compensation circuit, the primary and / or Secondary winding is designed in partial windings, thereby marked e i c h n e t, that to zero the differential transformer (10) the partial windings of the Primary winding (14) changeable resistors are connected upstream and / or two of each Partial windings of the secondary winding (16) via rectifier (34, 35) and voltage divider (27, 38, 39) are connected in series with a variable voltage tap. 2. Differential pressure transducer according to claim 1, characterized in that that with rectifiers (34, 35) polarized in the same direction, the voltage dividers (38, 39) have fixed taps on both sides of a potentiometer (27) whose wiper to the connection point (19, 20) of the two secondary windings connected in series connected (Fig. 1). 3. Differential pressure transducer according to claim 1, characterized in that that with oppositely polarized rectifiers (34, 35) the two are connected in series Secondary partial windings with the interposition of the rectifier through a common Potentiometer (27) are bridged and the output voltage between the connection point (41) of both partial windings and the potentiometer wiper (40) is taken. Documents considered: German Patent No. 880 953; French Patent Nos. 1,176,241, 1,219,135; »VDI magazine«, 1961, p. 1113.