DE1225396B - Device for continuous, non-contact surface weight determination of a strip - Google Patents

Description

Device for continuous, non-contact basis weight determination of a tape The invention relates to a device for continuous, non-contact Determination of the weight per unit area of a tape or strip z. B. made of rubber or for display of deviations of the basis weight from a target value by means of the reflection or the irradiation of a beta or Gamma radiation source, with the belt between the rolls of a calender on the required thickness is brought and a radiation source in front of and behind the calender is arranged, the radiation receiver on a common display instrument work.

Devices of the type mentioned are known and are used here as a radiation receiver an ionization chamber, which when the return radiation is received is shielded from the radiation source, preferably as radiation sources Thallium, strontium or the like are used, from which mainly beta rays emanate, which are harmless to the human organism.

The backscattering of the beta radiation is known to depend on the Atomic number of the material in question and its thickness, with the backscatter no longer changes significantly when a certain limit thickness is reached.

If several sets of rollers are arranged one behind the other in a machine, to gradually bring the material to be rolled down to the desired thickness, then, as is known, several sets of rolls or each set of rolls can have one of these Subordinate thickness measuring device and make the measurement result so effective that the Passages of different rollers adjusted to one another for coordination.

Also measuring and adjusting devices are known in which under Using two radiation sources and two ionization chambers the thickness of the Product and the thickness of a specimen are measured and the measurement results with each other be compared, after which the device in which the thickness of the product is determined can adjust.

The adjustment takes place z. B. in a known facility, that the radiation source is housed in a housing with two windows. That one window is for the irradiation of a product and the other window for the irradiation of a pattern provided. Behind the product and behind the pattern there is one radiation receiver in each, in which a voltage is generated. The two Voltages are passed through amplifiers, compared and the difference used to adjust the adjustment device.

A roller device is also known, which in two places irradiated tape to be calendered, whereupon the reflections are measured and the measurement voltages across two sets of amplifiers, servo motor circuits and servo motors on two sets of three potentiometers each, which as a result of their circuit cooperate so that the end product of the appropriately adjusted roller mills is a tape of uniform basis weight.

The known devices have the disadvantage that either the composition factor of the Banlmaterials must be known or that a considerable amount of equipment Required to compensate for random fluctuations in the mix of the strip material is. In the latter device in particular, there are two sources of radioactivity an extensive one at each point at which the determination is to be made Provide control equipment. This disadvantage arises from the fact that the output voltage of the two sources are both a function of the unit area weight and the composition factor of the material. In contrast, the invention solves the problem of the control system to simplify and reduce the number of radioactive sources. The task is basically solved by the fact that when determining the composition factor of the material a point is selected where this has saturation weight. Further The object of the invention is to determine the basis weight by a device of the type mentioned at the beginning of the measurement error, which is also the case with itself suddenly changing composition of the strip material arise automatically and sure to compensate. For this purpose, the above-mentioned knowledge is used that at constant- bender composition of the tape material after exceeding a certain limit thickness of the tape to be measured, the backscatter or the Irradiation no longer changes significantly. The tension that the irradiation or the retroreflection through or on a strip of such limiting thickness in the ionization chamber is thus a direct measure of the composition of the strip material, so that changes in the composition of the tape material by appropriate tuning the measuring devices can be taken into account.

The stated object is achieved according to the invention in that the Belt has such a thickness before entering the calender that the back or. radiated ionization current of the radiation source irradiating the strip Has saturation value and only changes in the composition of the strip material Intensity fluctuation of the back or. transmitted ionization current of the radiation source cause, while the back or radiated ionization current of the tape after the calender irradiating radiation source at such a saturation value does not have the selected band thickness after the calender, and that by differential switching of the two radiation receivers due to a difference in composition The change in intensity caused by the strip material of the transmitted or reflected Ionization currents is eliminated.

This makes it independent of changes in the composition of the Belt material and, with little equipment effort, automatic maintenance of the Weight per unit area of a rolled strip within the desired tolerance limits achieved, with also slight swimming movements of the calender rolls as a result of play of the roller axes the measurement. not significantly influenced and the individual measuring devices can be arranged independently of one another at different installation locations.

In a preferred embodiment, the before the calender arranged radiation receiver via a whose voltage with an adjustable Comparative reference voltage and acting on an electric servomotor Comparison network connected, and the servomotor acts on two potentiometers Adjustment of the reference voltage and compensation of the output voltage of the ionization chamber in the event of changes in the composition of the strip material. It also feeds expediently the compensation amplifier connected to the radiation receiver Limiting amplifier, the output voltage of which is used by electric motors to correct the to be measured thickness of the strip material determining roller gap actuated.

The invention is shown in the drawing using an exemplary embodiment illustrated.

A radiation source 1, e.g. B. Strontium 90, is located at a distance about 1.6 cm from the surface of a rubber strip 2 about 1 cm thick or a weight per unit area of around 8.3 kg / m2. The strip runs off a preheating roller (not shown) on the rolls of a calender 3 for the manufacture of a thin position Elastic band. The radiation source is attached so that the radiation la from the Surface of the strip scattered back into the ionization chamber 4 of the radiation receiver which is located in the axis of the radiation source, but shielded from the same and also a distance of about 1.6 cm from the surface of the rubber strip owns. Fluctuations in the radiation reception of the ionization chamber 4 are only due to Fluctuations in the composition of the strip material caused since the chosen The thickness of the rubber strip exceeds the limit thickness.

A second beta emitter 5, also strontium 90, is at a distance about 1.6 cm from the surface of the thin one leaving the rolls of the calender Rubber band 6 attached, which has a basis weight of about 680 glm2 and itself is just on the steel roll 7 of the calender 3. The radiation source is in turn attached so that the radiation 5 a, which is caused by the rubber band 6 on the The roller is scattered back or reflected from the roller surface onto the ionization chamber 8 of the radiation receiver falls, which is also about 1.6 cm from the surface of the elastic band is removed. Fluctuations in the radiation reception of the ionization chamber 8 are caused by fluctuations in the basis weight as well as the composition caused by the band material.

The current from the ionization chamber 4 is fed to an electrical network in the output voltage of the ionization chamber with an adjustable Reference voltage is compared, which is the back or radiated ionization current with limit thickness and normal composition of the strip material. The network consists of a comparison network 9, which has an amplifier 10 and a limiting amplifier 11 dines. The limiting amplifier 11 gives either a positive or a negative Signal from, depending on whether the output voltage of the ionization chamber 4 is greater. or Mine is than the set reference voltage.

With this signal, a servomotor 12 is in the forward or reverse direction operated.

The servomotor 12 is mechanically with the help of the shaft 13 with two Potentiometers 14 and 15 connected.

The potentiometer 14 is in an electrical circuit that already has supplies mentioned adjustable reference voltage, and the potentiometer 15 is used for Compensating for changes in the compositional factor of the belt material. It is connected to an amplifier 16, which the output voltage of the ionization chamber 8, which belongs to the radiation source S, amplified. An electrical measuring instrument 17, which is calibrated in such a way that there are deviations in the basis weight from a predetermined one Value directly in g / m2 is connected to the output of the amplifier 16. A Writer 18, with which the measured values can be recorded, can also be provided will.

With the output of amplifier 16 is a limiting amplifier 19 connected, which emits a positive or negative signal, depending on whether the Weight per unit area of the strip material above or below certain predetermined limit values lies.

Furthermore, control circuits 20 are provided for the nip, which of the signal from the limiting amplifier 19 are actuated and switch electric motors, which drive the spindles to adjust the gap width of the calender rolls, whereby the weight per unit area of the strip material is within the prescribed tolerance limits is brought.

To display any changes in the composition of the strip material can a measuring instrument 21 and light signals 22 are provided, which are connected to the servomotor 12.

The current from the ionization chamber 4 is the comparison network 9, the amplifier 10 and the limiting amplifier ll supplied. If in the material of the rubber strip 2 changes the composition factor is determined by the comparison network 9 a differential current fed to the limiting amplifier 11, which then a positive or provides a negative signal that sets the servomotor 12 in motion, the Potentiometer 15 for monitoring the composition factor of the strip material readjusts. At the same time, the servomotor operates the potentiometer 14 with which the Reference voltage is set so that this reference voltage increases or decreases, until the servomotor 12 comes to a standstill as soon as the difference in the comparison network 9 between the reference voltage and the output voltage of the ionization chamber 4 Becomes zero.

The potentiometer 15, its output voltage of the normal composition of the tape material is electrically connected to the amplifier 16, where the setting change of the potentiometer 15 with the aid of the servomotor 12 occurring Changes in the composition of the rubber strip 2 via the output voltage the ionization chamber 8 compensated. The current of the amplifier 16 compensated in this way then goes to the measuring instrument 17 or the recorder 18, whereby an accurate display the weight per unit area of the rubber band 6 regardless of the composition of the rubber band is guaranteed.

If the basis weight exceeds or exceeds certain specified tolerance values falls below, the limiting amplifier 19 supplies that of the amplifier 16 is fed automatically a corresponding signal. This signal is activated Electric motors, which in turn drive spindles and the opening of the nip Correct in such a way that the calender rolls out a strip with the desired weight per unit area will.

The radiation source, which in the exemplary embodiment is in front of the rubber band is located, can in another embodiment also on that of the ionization chamber on the opposite side of the tape. The construction and mode of operation of the device remain unchanged.

Although the two radiation sources in the embodiment described contain the same radioactive material, the radiation sources can also be different Contain materials with the same or different radiation intensity.

Materials other than rubber can also be used with the inventive Device can be measured, such as B. plastic panels made of polyvinyl chloride mixture or Polyethylene.

Although ionization chambers are described as suitable detectors other devices can also be used, such as. B. Photomultiplier, Geiger counters or photoresistors, e.g. B. from calcium sulfide crystals.

Claims (3)

Claims: 1. Device for continuous, non-contact basis weight determination a tape or strip, e.g. B. made of rubber, or to display Deviations from the Weight per unit area of a nominal value by means of the reflection or the radiation a beta or gamma radiation source directed against the tape to be tested, wherein the strip is brought to the required thickness between the rolls of a calender and a radiation source is arranged in front of and behind the calender, whose radiation receiver work on a common display instrument, thereby characterized in that the belt (2) before entering the calender (3) such Has strength that the back or. radiated ionization current of the tape (2) irradiating radiation source (1) has a saturation value and only changes in composition of the strip material, an intensity fluctuation of the back-radiated or transmitted ionization current the radiation source (1), while the back-radiated or transmitted ionization current the radiation source (5) irradiating the belt (6) after the calender (3) does not have such a saturation value at the selected strip thickness after the calender, and that by differential switching of the two radiation receivers (4, 8) through a variation in the composition of the strip material caused a change in intensity the back-radiated or transmitted ionization currents is eliminated. 2. Apparatus according to claim 1, characterized in that the before Calender (3) arranged radiation receiver (4) via a voltage with a adjustable reference voltage comparative and on an electric servomotor (12) acting comparison network (9) is connected and that the servomotor (12) on two potentiometers (14, 15) for readjustment of the reference voltage and compensation the output voltage of the ionization chamber (8) in the case of changes in composition of the Acts on the band material. 3. Apparatus according to claims 1 and 2, characterized in that the compensation amplifier (16) connected to the radiation receiver (8) Limiting amplifier (19) feeds its output voltage to electric motors for correction of the roller gap that determines the thickness of the strip material to be measured is actuated. ~~~~~~~~ Publications taken into consideration: German Patent Specifications No. 925 197, 961 493; German interpretative document No. 1 026 540; German patent application K 22452 IXb / 42b (announced August 25, 1955); British Patent No. 684503; U.S. Patents No. 2,264,725, 2,750,986; Hart-Karstens, "Radioactive Isotopes in Thickness Measurement", 1958, pp. 220 to 222; ATM sheets Delivery 235 from August 1955, pp. 57 to 61, and Delivery 236 from September 1955, pp.65 to 68; VDI magazine, vol. 96, issue 33 from November 21, 1954, pp. 1135 to 1137; - The Engineer magazine, Vol. 199, No. 5167 of February 4, 1955, pp. 174/175.