DE1020736B - Auxiliary device with photocell tapping for evaluating technical-physical processes - Google Patents

Description

GERMAN

Technology knows innumerable tasks which consist of it, on the basis of some measured values trigger any processes, e.g. B. to control, sort, and the like Photocells used, which have the advantage of controlling an electrical current by means of a Light or shadow indicators practically without any retroactive effect on the. Take measured value. Use the devices operating according to this method a measuring instrument, its mass pointer with a suitable Means, e.g. B. a diaphragm is provided, which when the setpoint is reached, the light beam for excitation the photocell releases. The process triggered by this measure lasts as long as the Aperture releases the light beam. In a known controller is z. B. the photocell including optical Device mounted on a rotatable arm, which is used to adjust the setpoint. Will this one Shaded, "tapped", by the measuring instrument pointer provided with a cover flap, this is how it takes place a change in current in the control circuit, and the desired process occurs. Important when using of the control devices is the control range, which is to be understood as the distance between two measured values as the boundaries of the area which, when exceeded, cause an event to occur, e.g. B. a process should be triggered. As development progresses, the requirements for compliance with Tolerances are constantly screwed higher, what the control of the devices in question Processes in very narrow control ranges are conditional. In the German patent specification 707 825 it is noted that that with the device described there the control range "practically" within extremely narrow limits can be kept. Today those areas can be regulated no longer meet the requirements.

The decisive characteristic of all known devices for the purposes in question is this more or less strong masking of the effective photocell area by suitable, above-mentioned means. This type of control using photocells is equivalent to a change in DC voltage in the control circuit, which in most cases, to generate the necessary control energy, the use of a DC amplifier makes necessary, which adhere to the known shortcomings. In addition, photocells are especially when it comes to semiconductors, relatively unstable. They change their electric Properties depending on the environment, e.g. B. Temperature, lighting, aging, etc.

Furthermore, it is characteristic of the previously known devices that with them only the Decision either - or can be made, auxiliary device with photocell tap

for the evaluation of technical-physical

Operations

Applicant:

Institute Dr. Ranger,
Reutlingen (Württ), Grathwohlstr. 4th

Dr. phil. Friedrich Förster and Dipl.-Ing. Fritz Valet,

Reutlingen (Württ.),
have been named as inventors

d. H. whether the manipulated variable is below or above its Setpoint lies in order to then bring them to their setpoint using suitable measures. Here is the to understand the desired manipulated variable as a limit value, which is determined by being picked up by means of the photocell will. This means that the usability of those devices that work according to the aperture method, Limits set and their further, higher demands sufficient perfection not to be achieved.

This knowledge is therefore used in the present Invention of that method abandoned and a new way to label with the aim of a photoelectric device for the evaluation of physical Measured values using known electronic aids and circuits.

According to the invention, a controlled light beam, preferably a light pointer, runs here Spiegelgalvanotneters, with a minimum speed across photocells with a particularly narrow surface, which are assigned to a measuring scale, and the voltage pulses generated in this way are used, after appropriate amplification, to trigger processes to be controlled.

As a result of this measure, all physical processes can be used for control, which can be expressed in electrical voltage or current quantities.

When using the above-mentioned photocells with a particularly narrow effective surface of the order of 1 mm ^{2, it} is provided that these photocells can be assigned to the measured values of the galvanometer scale so that they can be moved as required. For example, 100 cells for recording 102 sub-areas can be set on a 300 mm long scale

709 809/275

Arrange them next to each other and calibrated at a measurement range of 10 ° C in the temperature inlet Light pointer galvanomist still 0.1 ° C, that is 1 ° / o des Record the scope of measurement for tax purposes.

An impulse procedure is used as a further measure used in the objects of the invention. When the light pointer overflows, a photocell is used a voltage pulse on the

d h V

Deficiency can be remedied by an arrangement explained in the following example, which is shown schematically in FIG. Here the individual limit values are each occupied by two photo cells, namely limit value 3 with photo cells Fo3a / FoSb, limit value 4 with photo cells Fo & a / FoAb, and with amplifiers Ve 3 to Ve6 and the associated processes X 3 to Ä '6 merged. The light mark Li is currently in the interior

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Given the grid of an amplifier tube and according to Ver io vall, which is between the limit values 5 and 6. Strengthening the triggering of the desired process taken the light mark Li moved siah out of this

Bd position to the left and would exceed limit value 5,

so by exposure of the photocell 5 & 3 the gas discharge tube be ignited in the amplifier i'V4.

used. In the case of devices using the "aperture method", since the display here is a static Process, namely the lingering of the light on the

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For this reason, the properties of the individual photocells change by a factor of 10 without this resulting in proper triggering the expensive process is influenced.

The measures mentioned as essential details of the invention have been used in the present photoelectric device with which among other things, the advantage of a very narrow regulation

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the minimum speed required for the triggering pulse passes over the photocells.

In order to eliminate this restriction and also to record the cases in which the measured or manipulated variable is changes only very slowly or creepingly, the otherwise known means of modulating the die Light mark generating light is used. The module

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Cell is used for amplification, if one is necessary. At the same time, the tube in the amplifier Ve is manoeuvrable, only direct current amplifiers are used. deleted when using the same circuit, the relatively great instability of which has a detrimental effect on the operation of the device, which was already allowed in the first example for igniting - extinguishing. was used. However, if the light mark Li had been on the other hand, the alternating cable tension amplifiers used in the pulse method in the original position in the interval 5/6 to the right would continue to deliver the energy required for the process to be overridden without interference. run, exposure of the photocell would result in Fo 6 b

the tube in amplifier Ve 6 ignited, at the same time the tube in amplifier Ve 5 was extinguished and the process λ'6 was triggered. This means that the location of the light mark is always clearly defined, regardless of which direction the light mark entered an interval from.

With the measure of occupation by two photo cells per limit value is a further step towards the area is achieved, as it is supposed to cope with the device according to the invention Most of the tasks available today are sufficient, although the prerequisites are still met that with devices of a known type had to be able to produce the light mark with one under no circumstances can be resolved.

A simple example, together with FIG. 1, shown in FIG. 1, is initially intended to be the device 35
explain according to the invention. In Fig. 1 is the
The bordered area A is representative of the system that controls any process. That of an in
In a known way, the light beam is composed of the lighting system. B. by mechanically chopping the mirror Ms of a measuring instrument the luminous bundle of light, ie its resolution into individual sharp Spalitbiid Sp, which are made here as a light mark Li on the impulse, the first being mapped to Skaila Sk. Below the scale, a photocell on the light pulse that hits the relevant lines 1 to 5 ignites the gas discharge tube, which can be moved on the bridge Λ. Another, rhymed olek-Fo'tO'zellem or their photoelectrically effective upper Irish means, which is shown in the subject of the invention areas Fo 1 to Fo 5. Of these lead manure has proven to be useful, is through BeVerbindungen to the amplifiers VeI to Ve 5, on the use of only one half-wave of the alternating current which is indicated by circles Xl to X 5 for supplying the lamp generating the light mark to the respective directions Control, sorting given. For this purpose, a one-way equation is used. Like. Are connected. In the device 50 judge circuit is used, which only a Hailbwelle the amplifier z. B. lets through a known circuit and made use of an appropriate modulation depth, in which the deletion of a flicker secures. The gas discharge tube is ignited at the moment, then through the first positive half-wool which ignites the photocell at the input of the amplifier in which a further ignition pulse triggers the next tube. In the example in FIG. 1, the alternating voltage has been completed, the amplitude of which is sufficient light mark Li between the scale divisions 3 and 4, gcmd.

which in the sense of the above explanations has limit values The width of the Skak part (limit value) always has

describe. The light mark Li in the arrow has a certain size, which is meaningfully determined by the width of the direction over the Skaila Sk continuously with the scale light mark. If the interval, divisions 1 and 2 (limit values) ignited and deleted 60, defined above as the distance between two neighboring Gretiz values and by ignition at scale division 3 (limit value), is to be narrow, the width must also trigger process X 3 . A defect in this one of the light mark ^{1 can be} small.

The device is obvious that the light mark Li An on-gate, which is used by the previously known device

at a second overflow of the limit 3 in lines could not be completely resolved, z. B. the opposite direction as before the gas discharge 65 potentiometer control without affecting the dungsröfare in the amplifier VeZ not to delete the manipulated variable. This object is achieved by the device according to mag, because this only occurs when the limit value 4 of the invention is exceeded, for. B. with the in the second example or 2 could happen. A defined specification, in the arrangement shown. It is only possible to divide the potentiometer, as shown in FIG. 3, when the measuring direction is taken into account. This 70 the switches Sa connected to the amplifiers. To-

additionally mean in Fig. 3 Rhi, Rh2, Rh3. . . the individual resistance levels of the potentiometer. Partial voltages of the voltage applied to O and P can be tapped between O and Y or between P and Y. This device appears e.g. This is useful, for example, where the mechanical forces available to adjust the potentiometer are insufficient.

The examples given are straightforward at first Scales have been used whose graduation marks have been assigned to the photocells; it can of course if the purpose requires, also z. B. Circular scales can be filled with photocells.

With the help of the described devices according to the invention can already be known from others Devices more or less satisfactorily solved tasks in more comprehensive and reliable Way to cope as well as such z. B. in the automation sector, which has not yet been tackled could be taken.

During the temporal changes of the photocells affect the reliability of the previous devices, they remain with the device according to of the invention completely irrelevant. Likewise, there are any readjustments and corrections that so far as a result of the strong specimen scatter of the Photocells were necessary, now completely gone.

Claims (3)

PATENT CLAIMS: 1. Photoelectric device for the purpose of evaluating physical measured values using known electronic aids and circuits, characterized in that a controlled Light beam, preferably the light pointer of a mirror galvanic conductor, with a minimum speed via photocells with a particularly narrow surface that are assigned to a measuring scale are, runs away and that the voltage pulses generated here after appropriate amplification serve to trigger processes to be controlled. 2. Photoelectric device according to claim 1, characterized in that the values of a Galvanomeitjerskal'a two immediately next to each other horizontal photocells or a double cell are assigned and. according to this measure of the to control process is triggered, regardless of the direction in which the light pointer moves across the scale runs. 3. Photoelectric device according to claim 1 and 2, characterized in that the light for modulates the light pointer in a known manner, d. H. is divided into discrete pulses and according to this measure when using Wechisel's voltage amplifiers to be controlled Process is triggered, regardless of the speed and direction of the Light pointer runs over the scale. Considered publications:
German patent specification No. 707 825. 1 sheet of drawings © 7 »9 805- / 275 12.