DE1276335B - Arrangement for measuring variations in width of a moving transparent birefringent film - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

GOIb

German class: 42b-5

Number: 1276 335

File number: P 12 76 335.8-52 (B 71693)

Filing date: April 27, 1963

Opening day: August 29, 1968

The present invention relates to an arrangement for measuring variations in width a moving transparent birefringent film, for the two edges of the film One edge scanning head each with a light source and photoelectric cell and a pair in between Polarization screens are provided, the first polarization screen of which linearly emits light polarized and the second polarization screen extinguishes the light coming directly from the first screen, and which are separated from one another to form a passageway through which a film edge can wander and rotates the light flowing from the first to the second polarizing screen so that light falls through the film and the downstream polarization screen onto the photoelectric cell and from this, when energized, a signal is sent to a signal converter common to both edge scanning heads will.

There are already arrangements for measuring fluctuations in the width of a moving one Path of a birefringent transparent film, with two identical scanning heads, for each edge of the film one intended to indicate the position of the film edges is known. To each One of these scanning heads is a light source, a first polarizing device that captures the light from the light source linearly polarized, as well as a second polarizing device onto which the polarized light is directed and by which it is erased, and a photoelectric cell, which is behind the second Polarization device is located. When an edge of the film crosses the light beam falling between the two polarization devices, the light penetrating the film is elliptically polarized and penetrates through the second polarization device to the photoelectric cell. So that is Light received by the photoelectric cell is a measure of the area of the film that contains the light beam crosses, and changes in the total amount of light emitted by both photoelectric cells in the Scanning heads are recorded, provide a measure of the width of the moving film occurring Fluctuations.

The known arrangement can only work precisely if the amount of light that falls on the photoelectric cells changes only as a result of fluctuations in the width of the film. However, the light permeability of a film can also change as a result of other factors, for example because the degree of its birefringence changes, which, for example, in the case of films made of regenerated cellulose
Fluctuations in width of a moving
transparent birefringent film

Applicant:

British Cellophane Limited,

Bridgwater, Somerset (UK)

Representative:

Dr. H. Häring and H. Brinkmann,

Lawyers,

6202 Wiesbaden-Biebrich, Rheingaustr. 190-196

Named as inventor:

John Laurence Linsley-Hood,

West Monkton, Somerset (UK)

Claimed priority:

Great Britain April 27, 1962 (16 253)

occurs quite often as a result of thickened film edges or as a result of changes in thickness the film, or because the surface properties of the film are subject to fluctuations and thereby the amount of light reflected from the film surface changes. All of these fluctuations influence the measurement with the known arrangement, so that the width fluctuations determined with it can be faulty.

There is also known a device with which the position of an edge of a moving steel strip is scanned, the edge cutting into a beam of light, which by means of a on a Spigot rotatably mounted mirror is directed towards a photoelectric cell. The mirror is moved so that the amount of light falling on the cell remains constant, as does the position of the sheet metal edge always may be. The position of the mirror means a direct indication of the position of the film edge. The width of the film material can be determined if a scanning device is used for each edge and a device for comparing the signals is present. This device has those already mentioned Disadvantages if a transparent film web is measured in width instead of a steel strip target.

The invention is therefore based on the object of creating an arrangement of the type mentioned at the beginning.

809 598/220

3 4

fen, with the reliable, of the above-mentioned each of the two scanning heads 1 and 1'z.B. four elek property variations the foil is essentially Irish festoon lamps 9. Of these, light that

independent readings can be obtained. is made diffuse by a filter 10, over the intermediate

According to the invention, this object is achieved by the space through which the edge of the film 2 is released, that for each scanning head several photoelek- 5 passes, on the light receiving Ann 4 gears Cells transverse to the trajectory that directs. The light goes when the light emits Foil are provided side by side and each photo arm 3 through a first polarizing screen 11 and cell is assigned its own signaling device, from a protective glass pane 12. The each of which, when excited, has a fixed light diffusion filter 10 that ensures the same intensity as possible and change of the cell state un- io moderate intensity of the light, and the polarization-dependent Signal causes, and the total number of screens 11 causes the arm 3 to leave light is linearly polarized by the two scanning heads in the signal collector. As a polarizing screen Hold signals a measure of the size of the can, for example, a polarizing sheet material Represents slide width. ("Polaroid") can be used.

With the arrangement according to the invention 15 The light receiving arm 4 contains z. B. a change in the width of the moving set of 32 photoelectric cells 13, of which transparent, birefringent foils are continuously measured separately, each borrowed separately in one of the 32 wells 14, and the measurements remain largely unaffected by an opaque material any changes block 15 is housed. The photoelectric gene, which is in the properties of the film a 20 cells 13 have at the end that put on the floor, z. B. if the edges of the film are thickened the recess 14 is seated, a light-absorbing or the film surface in an irregular manner. Electric current is taken from the photoelek bumps or the light transmission Irish cells 13 are removed by wires 16, the foil changes changes in the foil width which lead to the relay set 5 through the conductor 6 are indicated by changes in the number 25 in the block 15 Light channels 17 are drilled in from received signals, which in turn depend on the number of which one to the bottom of the various excited photoelectric cells. Since depressions 14 leads and thus enables the number of signals to depend solely on the number of arms 3 coming light up to the photoelectric photoelectric cells on which light falls, cells 13 penetrate and excite them,
and is in no way affected by the amount of light that falls on the photocells Refraction and light transmission of the film are based, arranged to the transverse direction of the film 2. Besides, no influence. the wells 14 and the channels 17 are each

Birefringent transparent foils, the width of which is staggered 35 rows in relation to the

fluctuations with the help of the depressions and channels according to the invention in the adjacent rows (cf.

The device can be identified, e.g. foils Fig. 3).

from regenerated cellulose, from cellulose acetate, from In the path of linearly polarized light that

Cellulose nitrate, made of polyvinyl alcohol, made of rubber- from the Ann 3 in the direction of the channels 17-

Hydrochloride, made of polyethylene, made of polypropylene, goes from 40, are a glass protective pane 18 and a

Polyamides or polyesters. second polarizing screen 19 turned on, which

The invention is shown in the drawing with reference to the first polarizing screen 11 as above

Illustrated embodiment. So shows is oriented that the coming from arm 3,

A b b. 1 a schematic plan of the linearly polarized light according to the invention is extinguished and therefore

according to device, 45 does not get to the photoelectric cells 13,

Fig. 2 is an elevation of the device according to Fig. 1 when the light path within the scanning head is not

partly in section, crossed by a transparent, light-refracting film

A b b. 3 shows a section along line AB from A b b. 2, will. However, he gets by the edge of such

A b b. 4 a circuit diagram of the electrical part of the slide 2 is crossed, so the part of the light beam, the device. 50, which shines through the film 2, due to the double according to A b b. 1, an identical edge break-off of the film is elliptically polarized and can data heads 1 and 1 'on both sides of a transparent, birefringent film 2 moving forward through the second polarization screen 19, and the photoelectric cells 13, which in the Ways z. B. a film made of regenerated cellulose, so that this light beam portion are to excite,
brought that each of the film edges between a 55 When using the arrangement according to the invention light emitting arm 3 or 3 'and a light, the two scanning heads 1 and 1' are so in a received arm 4 and 4 'of the scanning heads 1 and V spaced from each other Assuming that in each scan passes, head about one half of the arm 3 or 3 '

The electrical signals from the light received-outgoing light beam crossed by the film 2 the arms 4 or 4 'are made with the help of ladders 6 60 becomes. In this way, about half of the photo- and 6 'are passed on to a relay set 5, where an electrical cell 13 in each of the scanning heads 1 Electric current is generated, which excites a measure of or 1 'by the light that passes through the is the width of the film 2 which penetrates between the part of the film 2 which crosses the outgoing light beam. if probes 1 and 1 '. The current is through the foil 2 during its passage through the beiein self-registering ammeter 8 constantly on 65 the scanning heads 1 or 1 'shift sideways the recording strip 7 noted. should, the total number of photoelectronic

The light emitting arm 3 contains in the case of Irish cells which are excited in the two scanning heads

A b b. 2 according to the invention shown in FIG. 2 are essentially constant, provided that

the width of the foil remains the same. However, as the sheet becomes narrower, the total number of excited photoelectric Cells 13 decrease, and on the other hand the total number of excited photoelectric Increase cells 13 as the foil 2 increases in width.

The arrangement according to the invention already works when there are only two photoelectric cells in each scanning head 1 and 1 'are present, respectively, but an arrangement with only two cells in each scanning head speaks does not respond well to minor fluctuations in width.

In order to achieve a higher sensitivity of the measuring arrangement, one must increase the number of photoelectric Increase cells, which are arranged per unit length of the film, and make the cells 13 as close as possible arrange them side by side. An even higher sensitivity is preferably used in the one Embodiment achieved in which two or more parallel rows of photoelectric Cells are arranged side by side transversely to the film web and the photoelectric cells in each row are staggered in relation to the photoelectric cells in the adjacent rows.

A convenient type of signaling device associated with and with each photoelectric cell you work together is a gas-filled trigger tube that opens and a predetermined electrical Passes current of constant strength when the associated photoelectric cell is excited by light becomes (Fig. 4).

The total current flowing from the trigger tubes in both readheads can easily be thereby be determined that all trigger tubes are connected to a signal collector consisting of an ammeter connects. The values displayed by this ammeter represent a measure for all light-receiving photoelectric cells and thus at the same time a measure of the width of the film. It is preferred Ammeters that are self-registering and one on a moving recording strip Make a continuous record from which fluctuations in the width of the film can easily be read.

The signaling device can also be a mechanical or a hydraulic device, which is put into operation by the electric current passing through the photoelectric cell when energized flows through light, with a corresponding signal collector then the mechanical or hydraulic Signals summed up.

According to A b b. 4 is each of the photoelectric cells 13 with a gas-filled triode tube 20, which is also referred to as a trigger tube, in the relay set 5 connected. The photoelectric cells 13 are supplied with a direct voltage of 250 volts to the Lead wires 21 and 22 are applied, and when a current occurs, that light reaches a cell 13 and excites it, a voltage drop occurs across a resistor 23 in the circuit to which the cell 13 belongs.

The triodes 20 are rectified with AC voltage of 150 volts, which are applied to the lead wires 24 and 25 are applied, powered and are normally in the non-conductive state. But when If a voltage drop 6g occurs across the resistor 23, the grid of the connected triode becomes stronger positive, the triode 20 opens and a current flows in the circuit of the triode until the with This triode connected photoelectric cell 13 is no longer excited by light and the grid charge it becomes less positive. The current flowing through each of the triodes 20 is with the help of a variable resistor 26 so set to the same value for each triode tube 20 that the total current, which flows through the registering ammeter connected to wires 22 and 25, is directly proportional to the number of triode tubes 20 which are conductive at the same time, and thus also to the number of photoelectric cells 13 excited at that time.

Claims (4)

Patent claims: 1. Arrangement for measuring variations in width of a moving transparent birefringent film, with an edge scanning head with light source for each of the two film edges and photoelectric cell and a pair of polarizing screens therebetween are provided of which the first polarizing screen linearly polarizes the emitted light and the second polarizing screen cancels the light coming directly from the first screen, and the are separated from each other in order to form a passage through which a film edge can wander, and rotates the light flowing from the first to the second polarization screen in such a way that that light through the film and the downstream polarization screen on the photoelectric Cell drops and when energized a signal from it to a common for both edge scanning heads Signal collector is directed, thereby characterized in that a plurality of photoelectric cells (13) transversely for each scanning head are provided next to each other for the path of movement of the film (2) and each photocell (13) its own signaling device (20) is assigned, each of which, when energized, has a fixed, evokes signal independent of light intensity and change in cell condition, and the Total number of signals received from the two scanning heads (1, 1 ') in the signal collector (8) Represents a measure of the dimension of the film width. 2. Arrangement according to claim 1, characterized in that the photoelectric cells (13) in the edge scanning heads (1, Γ) arranged in two or more parallel rows and the photoelectric cells (13) of each row are offset from those of the adjacent rows. 3. Arrangement according to claim 1, characterized in that the signal devices are gas-filled Triodes (20) are which, each time they open, emit a current of constant magnitude. 4. Arrangement according to claim 1, characterized in that the signal collector (8) preferably is a writing ammeter. Considered publications:
German utility model No. 1 780 803;
British Patent No. 627 228;
U.S. Patent Nos. 2,237,811, 2,474,906. 1 sheet of drawings 809 598/220 8.68 © Bundesdruckerei Berlin