DE2552379C3 - Arrangement for obtaining an electrical signal proportional to a path length - Google Patents

Description

The invention relates to an arrangement for obtaining a path length proportional electrical signal with a conductor loop that is in an alternating magnetic field with its plane transverse arranged to the field lines of the alternating field and with a corresponding to the respective path length hiring receiving organ is connected

In a known arrangement for obtaining an electrical signal proportional to a path length (C. Rohrbach, "Handbook for electrical measurement of mechanical quantities", 1967, pages 193 and 194) is that Conductor loop arranged in an air gap of an iron core, from one to an interchangeable and one DC voltage lying winding is energized The conductor loop corresponds in its dimensions approximately the cross-section of the iron core in the area of the air gap and is in its one starting position completely housed in the gap. The conductor loop of the known arrangement for implementing a Path length in a corresponding electrical signal moved out of the gap, then only a part is left the surface of the conductor loop penetrated by the magnetic flux in the iron core so that the Detachable conductor loop, induced voltage reduced by appropriate design of the

is the electrical circuit connected to the conductor loop, in particular by using a phase-sensitive rectification, it can be achieved that the on The voltage output by the conductor loop of the displacement of the conductor loop and thus a path length is directly proportional

The known arrangement has, inter alia, the disadvantage that the conductor loop when moving the air gap of the core is not completely free of in their outside of the core areas the magnetic flux is, but is still permeated there by the leakage flux. This causes an error in the implementation of the displacement or the path length in tin electrical signal, which through complex correction circuits must be compensated. If it is omitted, the measuring range is the known arrangement and thus the maximum detectable path length change is relatively small, when a certain accuracy is required. There is another disadvantage of the known arrangement in that the ends of the conductor loop are moved with the displacement, which is why the tap the voltage at the end of the conductor loop, either sliding contacts or flexible cables are used must be, which can affect the life of the known arrangement.

The invention is based on the object of an arrangement for obtaining a path length Proportional electrical signal to propose the electrical signal without moving the ends the conductor loop and thus can be tapped without moving connection elements. In addition, with The invention aims at an arrangement with a relatively large change in path length in a electrical signal is converted.

Thus, in order to achieve this object, an arrangement of the type described at the outset is according to the invention it is provided that at least one of the sections adjoining the ends of the conductor loop is in the area of the alternating magnetic field up to the receiving organ parallel to the direction of movement of the receiving organ runs, this one section of the conductor loop over a deflection device on the receiving member is continued offset and to a fixed point, and in the other section of the

Conductor loop passes over

In the arrangement, the effective conductor loop is thus created by means of the deflection device of the receiving member and the section of the conductor loop that is guided to the fixed point is formed by the

μ Movement of the receiving member with the deflection device the effective area of the conductor loop changes with the path length; those at the ends of the Voltage occurring in the conductor loop is therefore the

respective path length proportional. The selected leadership of one section results in the Ldterschleife with a change in position of the receiving organ no change in location of the ends of the Conductor loop so that they can be arranged in a stationary manner. Therefore it is necessary to connect the inventive Arrangement of downstream evaluation devices, neither flexible nor moving lines Contacts. The arrangement according to the invention is therefore characterized by a high level of functional reliability the end.

The accuracy of the arrangement according to the invention is particularly great because it has the effective area of the conductor loop within the homogeneous magnetic field changed and the conductor loop is not moved out of the alternating magnetic field, as is the case with the one described above known arrangement for detecting a change in path length is required The conductor loop of the The arrangement according to the invention is therefore always located in the alternating magnetic field in the areas in where the magnetic field lines are concentrated and therefore not in accuracy due to leakage fluxes impaired

Furthermore, the arrangement according to the invention has the advantage that a relatively large change the path length can be detected, which is due to the fact that the conductor loop in the magnetic Alternating field is changed in its effective area, so that largely independent of the path length A proportionality between the path length and the electrical signal over the entire range is attainable

Depending on the course of the other section of the conductor loop, different curve courses of the electrical signal picked up with respect to the path length can be achieved. Particularly preferred is a direct proportionality between the electrical signal and the path length, which can be achieved with the arrangement according to the invention in an advantageous manner that the other section of the conductor loop runs parallel in the one section to a further fixed point that corresponds to the offset Distance transversely to the direction of movement of the receiving element from the one point. In this embodiment of the arrangement, the effective conductor loop forms a rectangle, the length of which is changed according to the path length, so that the height of the electrical signal picked up is directly proportional to the path length

The conductor loop can be made of different materials. So it seems advantageous if the Sections of the conductor loop consist of flexible material. This can be, for example, a tape ss or be a wire.

Sometimes it can also be advantageous if only the one section of the conductor loop is made of flexible material and the other section is a stretched, Rigid ladder element is through appropriate training extension of the conductor element, for example from a conductor track on a printed circuit board can be formed, field distortions at the ends of the path of the receiving member can be compensated.

The arrangement according to the invention can - like this tv> is also possible in principle with the prior art - can be expanded by adding another Conductor loop is placed in the magnetic field, iir. another path length into another to convert an electrical signal Execution of the arrangement according to the invention for generating the alternating magnetic field a Air-core coil is used, which lies in a plane parallel to the conductor loop. It can then be used on both sides of the A conductor loop can be arranged in each case, which is then still largely in one air core coil homogeneous magnetic field.

An embodiment of the Arrangement according to the invention viewed in the guide elements made of electrically conductive material for the receiving organ itself can be used to form an air core by galvanic connected to each other and traversed by a current generating the alternating magnetic field. Since guide elements for the receiving member of the arrangement according to the invention are an integral part the arrangement can be made by utilizing them to form the air core on a separate one Component in the form of an air-core coil produced for itself can be dispensed with.

It has proven to be particularly advantageous in terms of achieving the smallest possible design and for Avoidance of high manufacturing costs proved when to generate the alternating magnetic field generally at least one single square-wave winding is used, which is connected to an alternating voltage is; the rectangular winding then lies in a plane parallel to the conductor loop and ensures that the conductor loop is penetrated essentially perpendicularly by a magnetic flux.

To explain the invention, FIG. 1 with a further development of the arrangement according to the invention an iron core shown in a side view and in section;

In Fig. 2 is a further development of the arrangement according to the invention in corresponding representations reproduced.

In Figure 3 is a particularly preferred embodiment of the invention in a perspective view Arrangement shown.

The arrangement according to FIG. 1 contains a core made of ferromagnetic material on which a winding 2 The ends 3 and 4 of the winding 2 are connected to an alternating voltage source, not shown connected.

The core 1 contains an air gap 5 in which the conductor loop 6 with the receiving member 7 is accommodated As in particular the upper representation of FIG. 1 shows, are at the ends 8 and 9 of the Conductor loop 6 adjoining sections 10 and 11 of the conductor loop in the alternating magnetic field within the gap 5 guided closely next to one another parallel to the direction of movement of the receiving member 7; the Movement of the receiving member takes place in the direction of the double arrow 12. In the receiving member 7 takes place by means of a deflection device of the receiving member 7, preferably having rollers 13 and 14, a deflection of the one section 10 in such a way that this section of the conductor loop on the one shown in FIG. 1 The lower side of the receiving member 7 is offset at a greater distance 15 from the other section 11 that has just been continued. Both sections 10 and U of the conductor loop 6 are finally around Fixed points 16 and 17 out and then merge into one another.

Like the illustration of FIG. 1 shows is the maximum detectable change in the path length given by the route 18, which is the width of the core 1 in the Area of the gap 5 corresponds. Since the core 1 can easily be made wide, the result is a relatively large range of path length change, which is detected with the arrangement according to the invention can be.

The arrangement according to Figure 2 differs of the according to FIG. 1 essentially in that instead of a core with an air gap and applied Winding to generate an alternating magnetic field, a square turn 20 is used, which with their ends 21 and 22 is connected to an AC voltage source, not shown. the Rectangular winding 20 lies - as in particular the lower representation of FIG. 2 shows - in one plane parallel to the conductor loop 23. The conductor loop 23 is therefore in its effective area of the magnetic Field lines penetrated approximately vertically.

The sections of the conductor loop 23 are performed exactly as it was already in connection with the Description of the FIG. 1 has been explained in detail It is therefore also in the arrangement according to F i g. 2 when the receiving member 24 moves as a result of the deflection of the conductor via the preferably Deflection device formed by rollers 25 and 26 and by guiding the conductor over fixed points 27 and 28 the effective area of the conductor loop 23 linearly with the displacement of the receiving element in the direction of the double arrow 29 changes, as a result of which the voltage at the ends 30 and 31 of the conductor loop 23 changes changed accordingly

By another, dashed in Fig.2 indicated conductor loop 32, the plane of which is parallel to the conductor loop 23 can be a further one Path length can be converted into a voltage. The conductor loop 32 is also over rollers 33 and 34 another receiving member 35 out

The embodiment according to FIG. 3 contains a base plate 40 which carries brackets 41 and 42 on two opposite sides another receiving member 48 held. The guide elements 43 and 44 or 46 and 47 are used to generate the alternating magnetic field by a conductive connection 49 and 50 are connected electrically to each other in the holder 41 ·> by respectively; an oscillator for generating a current with which the alternating magnetic field is generated is connected to the ends of the guide elements located in the holder 42, in a manner not shown.

The receiving members 45 and 48 each carry rollers 51 and 52 or 53 and 54, over each of which a section 55 and 56 are each guided by a conductor loop. The section 55 and 56 is each fixed to one

is point 57 or 58 on the bracket 42 performed Section 55 begins at a connector 59 on bracket 41; the corresponding section 56 of the other conductor loop begins on the holder 41 at a connector 60, which is thus one end of the Conductor loop represents those that adjoin the other ends 61 and 62 of the conductor loops Sections 63 and 64 of the two conductor loops have just been carried out up to one further each fixed point 65 or 66 on the further bracket

42. Both of them go on the bracket 42

Sections of the conductor loops into one another,

that there is a galvanic connection between the

Points 57 and 65 or 58 and 66 has been made By moving the receiving members 45 and 48 respectively

their guide elements is the size of the effective conductor loop according to the position of the respective receiving member changed and thus a correspondingly changed voltage at the ends 59 and 61 or 60 and 62 of the two conductor loops generated This voltage is the displacement of the respective Intake organ directly proportional

The invention provides an arrangement for obtaining a path length proportional electrical signal proposed through the fixed ends of the conductor loop and thus by a high operational reliability, low manufacturing costs and is characterized by a relatively large detectable range of a change in path length

For this purpose 2 sheets of drawings

Claims (8)

Patent claims: 1. Arrangement for obtaining an electrical signal proportional to a path length with a Conductor loop in an alternating magnetic field with its plane perpendicular to the field lines of the Alternating field arranged and with a setting corresponding to the respective path length Receiving organ is connected, characterized in that at least one of the the ends (8,9) of the conductor loop (6) adjoining sections (10) in the area of the magnetic Alternating field up to the receiving organ (7) parallel to the direction of movement of the receiving organ (7) runs that this one section (10) of the conductor loop (6) via a deflection device (13, 14) is continued offset on the receiving element (7) and that this »section (10) of the conductor loop (6) is guided to a fixed point (17) and in the other section (11) of the conductor loop (6) goes over 2 arrangement according to claim 1, characterized in that the other portion (11) of the Conductor loop (6) runs parallel to one section (10) up to a further fixed point (16), at a distance corresponding to the offset transversely to the direction of movement of the receiving member (7) from the one point (17) lies 3. Arrangement according to claim 1 or 2, characterized in that the sections (10, U) of the Conductor loop (6) consist of flexible material. 4. Arrangement according to claim 1 or 2, characterized in that the one portion of flexible Material is made, while the other section is an elongated, rigid conductor element 5. Arrangement according to one of the preceding claims, characterized in that at least another conductor loop (32) is arranged in the alternating magnetic field 6. Arrangement according to one of the preceding claims, characterized in that the deflecting device consists of rollers (13, 14) attached to the receiving member (7) 7. Arrangement according to one of the preceding claims, characterized in that one for Air-core coil (20) serving to generate the alternating magnetic field in a plane parallel to the Conductor loop (23) lies 8. Arrangement according to claim 7, characterized in that the air core of galvanic with each other connected guide elements (43, 44) made of electrically conductive material of the receiving member (45) is formed