DE1267433B - Position measuring transformer - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

GOId

German class: 42 d- 1/12

Number:
File number:
Registration date:
Display day:

P 12 67 433.8-52
May 7, 1960
May 2, 1968

The invention relates to a position measuring transformer with two members movable relative to one another, each of which has a rigid base, on one face of which there are a large number of adjacent ones Conductor extending transversely to the direction of movement in the form of highly electrically conductive metal strips in the Are spaced apart and isolated from the base.

According to the known prior art, it is important that, for many reasons, the magnetic circuits of the precision position measuring transformers either for measuring a Rotary motion or a linear motion, wherein relatively movable flat members the Wear windings on their opposite end faces, should only have airways. In the U.S. Patent 2 650 352 it has already been pointed out that for the measurement of the linear distances or the angle of two relatively movable windings, each having a plurality of in series switched conductors have these movable windings on relatively movable support members of non-magnetic insulating material, preferably glass, are to be arranged, the thin, flat conductor windings can be metallic deposits that are directly on the Glass slides are deposited so that the magnetic paths only have airways. In the U.S. Patent 2 799 835 it is pointed out that in the known devices either ferromagnetic or air transformers can be used, and it goes on to say that only non-magnetic and non-conductive material, such as glass, with flat end faces as a carrier for the Winding conductor is recommended. This patent specification shows and describes only one such construction, in which then these conductors directly on the glass as a metallic deposit, preferably in Form of silver, deposited by a photo-etching process.

In the known devices, the need has already been recognized, the undesirable thermal expansion of the frame or bed to an automatically controlled machine tool compensate, in which a linear position measuring transformer according to US Pat. No. 2,799,835 in a coordinate system is used for guiding and positioning the cutting tool. In British Patent 810 105 it is indicated that when performing an automatic vision Working process on machine tools with a Ge-position measuring transformer made of cast iron or cast steel

Applicant:

Inductosyn Corporation,

Carson City, Nev. (V. St. A.)

Representative:

Dr.-Ing. W. Höger

and Dipl.-Ing. W. Stellrecht M. Sc,

Patent Attorneys, 7000 Stuttgart 1, Uhlandstr. 16

Named as inventor:
Clair Loring Farrand,
Bronxville, NY (V. St. A.)

Claimed priority:
V. St. v. America November 10, 1959
(852 028)

stell or bed at a higher external temperature than that at which the coordinate system is set the workpiece has incorrect dimensions with regard to the thermal expansion of the machine tool frame or bed. The British patent also indicates that when the frame is expanded or contracted, the Machine tool this frame or bed in general, the physical elements of the coordinate system takes along, which also includes the member of the position measuring transformer that is attached to the frame or Bed is attached. In the patent it is said that the insulating material from which this Member made should be selected so that it has substantially the same coefficient of thermal expansion like the metal of the machine tool bed or frame. This requirement can only be met with difficulty without excessive costs fulfilled if it can be fulfilled at all. Have the practically usable materials namely not the same thermal expansion

809 574/173

is fully connected, with which a thickness of 0.0127 to 0.127 mm having conductor firmly connected are, and that the composite properties, the thickness of the composite and insulating layer and the Me-5 Tallart and strength of the ladder are chosen so that the position of the ladder according to the changes the change in surface length of the associated Basis changes while maintaining the network.

In this way it is possible to fix the bases of the movable members of the position measuring transformer to be made of the same material as those coupled or connected to the links Machine parts exist.

As bases for the movable members of the position measuring transformer come z. B. iron, steel, aluminum, brass, magnesium, titanium, sintered metals or ferrites in question.

A thin metal can be used as the material for the ladder

coefficients. It then turned out to be necessary, the temperature expansion coefficient
of the materials of interest within the range of changes in external temperature
ascertain. It was found that this in
many cases differ significantly from those published
Different values. Heretofore, the precision position measuring transformers disclosed in U.S. Patent 2,799,835 have been used for measuring linear
or rotary movements built so that their Wick- ίο
conductor on support members made of non-conductive,
non-magnetic, permeable materials, such as glass or other non-magnetic insulators, arranged or deposited directly on them
despite the fact that under 15
changeable conditions in relation to the external
Temperature, the thermal expansion or contraction of these links and the windings attached to them was significantly different from the thermal expansion and composition of the metal construction foil of good electrical conductivity and flexibility on which the links were mounted, for example made of copper, aluminum or silicon. __ about to be used. The thickness of the foil is included

It was found that when attaching one determined by the desired conductivity, linear measuring transformer element whose conductor- The connection of the conductor with the respective Ba-

Windings directly on a glass support must be designed in such a way that they were embedded in the glass, with a winding arrangement consisting of individual temperature conductors with coefficients of 8.8 · 10 ~ ⁶ per degree Celsius,
with an iron frame, which had a temperature coefficient of 10.6 ■ 10 ~ ⁶ per degree Celsius,
correct measurements at a certain 30
Temperature of 20 ° C resulted, however, the glass
and the windings at 27 ° C had a total length error with respect to the frame of 0.003 mm
exhibit. Such errors are not allowed if
an overall positional accuracy of the machine tool 35 of the same used for the electrically conductive including control equipment of 0.0025 mm foil which is then ultimately required, and only a part of this error can form windings and which are also of the extension on the measuring system be assigned. voltage coefficient of the winding carrier considerably

In the case of a rotating position measurement transformer, there is a difference. If the thickness of the binding layer mator results in the difficulty of the winding 40 being excessively large, it will be accurately centered according to the arrangement with the axis of rotation. The tendency towards this difficulty was pointed out in the USA. Patent, the length of the conductor arrangement according to document 2 844 802, where the stationary of its own characteristic and inconsistent member consists of a material which has a temperature the characteristic of the metal support to expand has a coefficient of expansion of 45 or to contract. Therefore, the thinness is different from that of the housing and therefore the bonding layer, its coefficient of thermal expansion, cannot be directly attached to it.
Nonetheless, the link and the winding maintain their exact central position without inconvenience
and expensive equipment such as compensating 5 °
sizing intermediate carrier would be used. That

can expand and contract together with the base without affecting the connection between the two Sharing suffers damage.

The one for isolating and connecting the thin metal foil and the carrier metal block or the Disc suitable materials generally have coefficients of thermal expansion that of those of metals are vastly different or multiples

the same applies to a rotating member that has a coefficient of thermal expansion equal to differs from that of the rotating support on which it is mounted.

The invention is now based on the object of improving the measuring accuracy of such position measuring transformers in a wide temperature range regardless of the material of the two moving

their elasticity and their clinging to the carrier and the film individually and together in the invention of particular importance.

From the above it follows that it is possible to use materials for one link or for both relatively mutually movable members in the form of ferromagnetic or non-ferromagnetic metal so that the thermal expansion is the base of the thermal expansion of the Metal on which the limb is attached.

The drawing shows an exemplary embodiment to explain the invention. It shows

1 shows a diagrammatic view of a transferable link of the position measuring transformer carrier 60,

coupled machine parts to increase. F i g. 2 is a perspective view of the elements,

This is achieved with a position measuring transformer like the one used in the manufacture of the transformer

of the aforementioned genus, according to the invention, FIG. 1 were used,

in that the bases consist of a substantially F i g. 3 a section through a rotatable

65 carriers with the same expansion coefficient,

Are metal and with their end face a film-like Fig. 4 is a plan view of a tool composite and insulating layer of a thickness from the machine to which a transducer is attached, Of the order of 0.0254 to 0.254 mm solid and F i g. 5 is a side view according to FIG. 4,

6 shows a partial longitudinal section through a transmission element according to FIG. 4 and 5 on a larger scale.

The transformer shown in Fig. 1 represents a position measuring transformer with relative to each other movable members, namely with a stationary member 1 and one movable in the direction of the arrows 3 Link 2. The fixed link 1 has a base 4 made of hot rolled steel. A transformer winding is insulated on this base 4 and connected to it. The winding consists of one Foil of conductors at 5 in the form of transverse to the direction of movement and connected in series Ladders is indicated. The transformer element formed by the conductor foil 5 is connected to the flat surface 6 of the base 4 by means of a bonding material indicated generally by 7 and isolated from this surface. As can be seen from the drawing, the binding material 7 has a Intermediate sheet 8 of insulating paper approximately 0.05 mm thick, which is attached to both sides of the binding material is attached and penetrated by the coating layers 9 and 10 made of polyamide-cured epoxy resin is. The movable member 2 has a base 11 made of hot-rolled steel according to FIG Base 4. The other transformer winding is isolated from this base 11 and connected to it. These The winding has the form of a conductor foil indicated at 12, the conductor being transverse to the direction of movement arranged and divided into two winding groups 13 and 14. The leaders of each group are connected in series, and the windings 13 and 14 are arranged in areas. the Conductor foil 12 is connected to the flat surface 15 of the base 11 by means of a generally designated 16 Material that is similar to the binding material 7, connected and isolated from this surface.

The links 1 and 2 of the transformer are made in a similar manner, the following being Description relates to member 1, but can be applied to member 2 in the same way could.

The electrically conductive film 17 made of copper, silver, aluminum or the like. (See FIG. 2), for example May be 0.05 mm thick, is at the bottom with a layer 18 of a polymerizing liquid Coated with synthetic resin. Similarly, the surface 6 carries the base 4 on its upper end face a layer 19 made of a similar synthetic resin. With a sheet of paper is referred to, as it is in connection with the paper 8 in FIG. 1 was mentioned, that on both sides with a similar synthetic resin was covered. The surface 6, the paper 21 and the coated conductive foil 17 are, as in FIG F i g. 2, superimposed, pressed together and heated at a polymerization temperature. When the polymerisation process is finished, the elements 6, 21 and 17 are connected to one another. The effect of the paper and the synthetic resin is to create an insulating connection, such as 18 and 19, to make the conductive foil 17 approximately 0.13 mm from the base 4 separates. The conductor pattern according to FIG. 1 is now in the film 17 by photo etching with the help of a precise Matrix formed. Chemically curable plastics have been mentioned, but others can as well Binders, such as thermosetting plastics or other materials, can be used if they have the have advantageous features described here. The connection between the elements 6 and 17 may have a thickness on the order of 0.025 to 0.25 mm. If necessary, can the plastic layers 18 and 19 partially polymerized to a solid state and made one layer liquid plastic can be used for the paper 21, creating a suitable insulating tie layer is produced.

ίο Rotatable transmitters can be used in many ways be used. They can be attached to machine tools and made of cast iron or steel getting produced. They can also be installed and removed from a projectile as part of a guidance system Light metal such as aluminum, magnesium, or in some cases stainless steel be. For each individual use, there is a specific metal for the housing and the rotatable member expedient, and the same metal becomes advantageous ao for the bases of the stationary and the rotatable Limb used.

Fig. 3 shows a rotary transmitter according to the invention, in which the base 22 of the fixed member 23 and the base 24 of the rotary member 25 are made of the same material as the housing 26 and the rotatable shaft 27. The bases 22 and 24 are directly connected to the housing 26 and the rotatable shaft, respectively 27 connected by means of screws 28 and 29. The conductor foils 31 and 32 each form a transformer winding and are connected to or isolated from bases 22 and 24 by compounds 33 and 34, respectively, as described in connection with FIG ladders 5 and 12 of FIG. 1 has already been described. Those leading from the rotatable winding 32 Lines 35 are connected to the rotatable transformer winding 36, which is connected to the fixed Transformer winding 37 is coupled, which in turn has lines 30. The purpose of the rotatable Transformer is to avoid slip rings and brushes. The rotatable shaft 27 is in Housing 26 mounted on bearings 38 and 39. The fixed transformer windings 31 have two planar windings, the rotatable shape of the planar windings 13 and 14 of FIG. 1 and have connecting lines 40. The fixed winding 37 of the rotatable transformer is arranged on a plate 41 which is fastened with the aid of a snap ring 42 is. The rotatable winding 32 corresponds in its rotatable shape to the fixed winding 5 of Fig. 1. Four screws 43 are provided for the central adjustment of the fixed member 23.

The links are mechanically directly and firmly connected to the housing or the shaft and shift in their concentric position due to thermal expansion, mechanical shock and Not vibrations. Similarly, the foils forming the conductor assemblies are integral with the Bases connected and have a stress-free state under the above-mentioned conditions. This results in a transformer of great accuracy and stability.

As shown in FIGS. 4 and 5, the machine tool 44 has a bed 45 with the guides 46 and 47, on which a carriage 48 is arranged. The carriage 48 has a drill head 49 with a Motor 50 for driving a drill 51 which is used to drill holes in a workpiece 52. the

The position of the slide 48 and the drill 51 is precisely determined by the precision transmitter 53, the motor 54 and a spindle 55 controlled, which is in a nut 56 of a digital-analog controlled, not shown Servo system intervenes. The transmitter 53 has a movable member corresponding to member 2 of FIG. 1 on, which is denoted by 57, wherein a plurality of fixed links corresponding to link 1 of FIG. 1 are shown as two members 58 and 59, which are arranged one behind the other and such a number have that the entire path of the carriage is covered.

In this example, the bed 45 and the slide 48 of the machine tool 44 are made of iron, and the workpiece 52 is also made of iron. When applying the present invention are at highest accuracy in accordance with the in connection with F i g. 3 reasons mentioned the bases 4 and 11 of FIG. 1 for the links 57, 58 and 59 made of iron, as described in connection with FIG. 1 was declared. The fixed members 58 and 59 are directly connected to the bed 45 by screws 60. The movable member 57 is directly on the carriage 48 by screws 61 in a similar manner, as in Fig. 3 shown attached. Since the links 58 and 59 are made of the same material as bed 45, there is no tendency for temperature deviations or for moving the limbs on the bed. Similarly, link has 57 no tendency to shift on the carriage 48. Since the workpiece 52 is made of a similar material like the machine tool and the limbs, the work process can take place at different temperatures can be carried out without resulting errors.

So while a precision measuring transmitter adapted to the machine tool is created, the in the manufacture of a workpiece with the same coefficient of expansion as the machine tool links and the transmitter base is free of temperature errors, workpieces can then be manufactured with fewer errors than before if there are different coefficients. So far, exact transformers of the general The type described above is made with silver or other metallic conductors on glass plates. the The conductors were fixed by vacuum deposition, and the thickness was corresponding to one Electroplating.

These procedures are expensive. The manufacture of the glass bases is also costly. The present Invention uses metal for the bases, which is less expensive to manufacture than glass, and further a commercially available metallic conductor foil of appropriate thickness, which is connected to the base so that vacuum deposition and electroplating are avoided. The metallic bases are stronger and less likely to break. Thus, the present invention has a number of economical ones Advantages over the known constructions.

It should be noted that in all cases the bases of the links are made of a material that the shape of the conductor arrangements is absolutely retained.

Furthermore, foils made of copper or similar material can be printed in a known manner Circuits to be connected to the bases.

The windings of the precision transformers of the type described above correspond to the windings, such as they are described in U.S. Patent 2,799,835.

When the properties of the material are such that it is due to its coefficient of thermal expansion with a layer of suitable thickness an undesirable influence on the length of the conductor arrangement exerts in the direction of the relative movement, the binding material between the ladder bars removed by additional etching.

This is done with the help of a suitable solvent that does not attack the base or the ladder. For example, if the binding material is a rubber compound, gasoline or the like can be used. If the binding material is a glass mass, hydrofluoric acid can be used. Additional Applications of light-masking and light-sensitive layers can be carried out if necessary will.

The F i g. 6 is a partial longitudinal section through one of the links 57, 58 or 59 of FIG. 4 and 5 in which a single binding material 62 is used. After the conductor arrangements 63, 64, 65 by etching are formed, the binding material is deposited on the metallic base 66 adjacent to the conductor bars 63, 64 and 65, removed by additional etching from spaces 67, 68, 69 and 70 as described, whereby the pattern of the bonding material is essentially the same as the pattern of the conductor assemblies is.

Claims (5)

Patent claims: 1. Position measuring transformer with two relatively movable members, each one have a rigid base, on one end of which a large number of adjacent and transverse to the direction of movement have extending conductors in the form of electrically conductive metal strips, which are spaced apart and insulated from the base, characterized in that that the bases are made of a metal having essentially the same expansion coefficient and with their Front face a film-like composite and insulating layer of a thickness of the order of magnitude from 0.0254 to 0.2540 mm is firmly and fully connected, with a thickness of 0.0127 to 0.1270 mm having conductors are firmly connected, and that the connection properties, the The thickness of the composite and insulating layer and the type of metal and strength of the conductor are selected in this way are that the position of the conductor changes according to the changes in temperature caused change in surface length of the associated base while maintaining of the network changes. 2. Position measuring transformer according to claim 1, characterized in that the coefficient of thermal expansion of the bases is significantly different from the coefficient of thermal expansion of the conductors. 3. Position measuring transformer according to claim 1 or 2, characterized in that the bases are made of a magnetically permeable material. 4. Position measuring transformer according to claim 1 or 2, characterized in that the bases are made of steel. 5. Position measuring transformer according to one of the preceding claims, characterized in that that the conductors are made of copper and the bases are made of a metal different from copper are. 10 References considered: British Patent No. 810105; U.S. Patent Nos. 2,650,352, 2,671,892, 674,729, 2,799,835, 2,844,802; ATM sheet J 135-4 (June 1953), pp. 139 to 142. For this purpose 2 sheets of drawings 809 574/173 4.68 © Bundesdruckerei Berlin