DE3523414A1 - Method and device for measuring, in particular, the thickness or width of bodies, in particular of plates, foils, extrusions or the like - Google Patents

Abstract

In a method for measuring, in particular, the thickness of plate- or foil-shaped measurement objects, and in a device used for carrying out the method, it is provided for a sensor element, or a pair of sensor elements, detecting the thickness of the measurement object, to be guided at a precisely adjustable distance over the measurement surface or measurement surfaces, in order, in particular, to be able to carry out the measurement in a contactless manner, the value displayed being formed from the difference between the measurement result and the distance of the sensor.

Description

The invention relates to the detection of lengths measurements, such as in particular the thickness or the width or the profile dimensions, of bodies or body parts most varied of shapes, primarily from the factory fabric sheets, foil-shaped material webs, strand professionals len and the like.

In the production of, in particular, sheet, film or strand-like products repeatedly occurs Demand the manufacturing process as early as possible with regard to compliance with specified target values for the Check dimensions of the product in order to eventu against deviations from the target value as early as possible to be able to control. In many cases this means that a If possible, the relevant values have already been recorded should be done if the product created is not yet or is not sufficiently dimensionally stable or other Features in particular the surface that a scan with probes, rollers and the like elements as sensors that apply a certain system pressure make necessary, impossible. Previously known or available devices that have a non-contact thickness to enable measurement are complicated and require a lot of effort and they are made up of others too Reasons for limited use.  

The invention is based on the object, a Ver drive to measure in particular the thickness, the width, the Profile dimensions and the like of in particular plate, to create film or strand-shaped products by not only the shortcomings and difficulties that have arisen so far the construction of an esp especially for the exercise of this procedure tion is made possible, in which the said defects are remedied and are based on a conventional device can be easily converted for by converting them to make measurements that were previously impossible.

Such an object is according to the invention be a method of the type mentioned at the beginning certain dimensions of a product already during the Manufacturing to solve that a to record the measurement valuable serving movable sensor, its respective position tion or position is representative of the measured value, while the measurement at a precisely defined distance from the Measuring area of the product held and that the measured Value is reduced by this distance. This distance can, for example, depending on the surface or Surface quality of the test object can be changed and a be adjustable. It can be achieved in that between the sensor element and the measuring surface of the product with Help from air fed under pressure in its strength well-defined air cushion is formed by which the Sensor element against its system pressure at a distance of the test object is held. The distance can be given at benen dimensions of the sensor element by the supplied Air volume or the air pressure to be adjustable. The distance is on the other hand also through the training, especially their size or shape, the sensor element at pre given air pressure changeable. To get display values, which immediately indicate the desired measured value, should the Sensor distance can be compensated in the measurement result.  

The invention also provides a device for the detection of length dimensions of bodies, which ins especially for measuring thickness, width or the like Dimensions of bodies or body parts, for example plates, Films, extruded profiles and the like is suitable and ins especially for carrying out the method according to the invention is provided, and one opposite a measuring surface of the body pers movable sensor element, its respective Position is representative of the measured value, the a display accordingly via intermediate devices direction is controlled, according to the invention directions are provided, with the help of which the sensorele ment at least during the measuring process in an exactly defi ned distance is feasible over the measuring surface. The invent device according to the invention can also what the leadership directions for the sensor element, by elements be supplemented with the help of compressed air between the test object and the surface of the sensor element facing the measurement object is feasible. This can be done in a simple way make that in the side facing the measurement object of the sensor element outlet openings for compressed air are seen that are connected to compressed air supply.

In this compressed air supply control device be switched to the amount of air supplied or to control and adjust their pressure or both. As a result, the distance of the sensor element from the measurement object easily and reliably adjustable. On the other hand, the distance of the sensor element from Measurement object also by dimensioning the sensor element tes, in particular through its effective area, in one influence the desired senses. For the sensor element may primarily a plate-shaped training  come. The element can also be cup-shaped or train profiled. It can also be used if necessary be moderate, the sensor element at its the measuring object turned side a raised, to the front of the measurement object edge.

For the formation of the air outlet opening or -Openings are manifold execution possibilities against ben. It has become substantially plate-shaped and preferably flat design of the sensor element as Appropriately shown, air outlet openings in comparison comparatively ge to the effective area of the sensor element rings to provide dimensions. Such an opening can be circular, but they can also be slit-shaped form, whereby the slot is also not necessarily straight must be linear but can be profiled. Another It is possible to carry out several or one Provide a variety of air outlet openings that in sieve-like arrangement distributed over a certain area should be arranged. After all, it has turned into some Cases proved to be useful, vortex devices preferred see that arranged in particular in the sensor element itself are and for a vortex of the supplied air ensure their exit from the air outlet openings and ensure an even air outlet.

Finally it should be mentioned that with work in pairs associated with each other sensor elements can, from opposite sides on the measurement object attack, of course the distance from the target of both sensor elements must be observed.  

The invention allows for multiple designs to. In the drawing is a measuring device according to the invention with the parts essential for understanding as an example, partly shown schematically, and shows though

Fig. 1 shows the device in elevation and

Fig. 2 to 11 design options for sensor elements.

In the device shown in Fig. 1, a so-called measuring point is assumed, as is used, for example, in thickness measuring systems for the continuous measurement of plate-shaped materials for equipping measuring frames. Such a measuring point has a U-shaped carrier 11 for an upper measuring head part 12 and a lower measuring head part 13 . In both measuring head parts are not Darge presented inductive displacement transducers are arranged, which cover a displacement of the sensor elements 14 and 15 assigned to each measuring head part, in order to display them via intermediate devices on a display device.

In the exemplary embodiment according to FIG. 1, an essentially flat, plate-shaped sensor element is assumed, as is shown schematically in FIG. 11 as an approximately square table 141 with a central opening 142 . If such sensor element 14 or 15 is supplied with compressed air via air supply 143 or 153 , this can escape, for example, at opening 142 . Is the sensor element 14 - and the same applies to the sensor element 15 - with a certain pressure, which can be balanced, under normal conditions, ie without supplied compressed air, on the measurement object, which is indicated by the broken line 16 and a plate or can be foil, it is lifted more or less strongly from the measuring surface when compressed air is supplied, which emerges from the opening 142 and spreads uniformly over the entire sensor surface 141 . The distance is adjustable by the air pressure and / or the outflowing amount of air up to about 1 × 10 ^-3 mm with no difficulty. The accuracy of the measured value acquisition is correspondingly high.

The controllable by regulating the compressed air supply distance of the sensor element from the test object can be selected depending on the nature of the test object, in particular its surface, in order to achieve optimal results. Another possibility is to adapt the shape of the sensor element to the measurement object and, if necessary, its profile. Some of a variety of possible embodiments are shown schematically in FIGS. 2 to 10. The sensor element 21 shown in FIG. 2 with the indicated air supply lines 211 is provided for monitoring an extruded profile 22 which is circular in cross section and can optionally be supplemented by an element effective from the opposite side. The sensor element 31 shown in FIG. 3 with the air feeds 311 can be used to monitor a strip-like extruded profile 32 . FIG. 4 shows the application of the measuring method according to the invention and a device used to exercise it when measuring the width of a strip-shaped product 41 . Two sensor elements 42 and 43 detect changes in the bandwidth from opposite sides. FIGS. 4 to 8 show highly schematic sections through the sensor elements various Dener Art. All the elements 51, 61, 71, 81 have as an air supply channel a horizontally in the drawing extend the blind hole 52, 62, 72 and 82, from which a side passage 53 , 63 , 73 , 83 branches off at a distance from the end of the blind hole to the measuring surface. With this measure, good swirling of the supplied air is achieved in a simple manner and thus an uneven contact of the sensor element is prevented. Incidentally, Fig. 5 shows an element with a narrow peripheral edge 54 on the flat sensor surface 55. The feed channel 53 can, as will be illustrated by FIG. 9, open into a slot 92 of a rectangular sensor surface 91 which has no peripheral edge. The feed channels 63 of the element 61 can be arranged in a radial manner and their mouths can be distributed in the form of FIG. 10. But you can also let the air supply 73 open into a cup-shaped space 74 , the opening of which is covered by a sieve-like plate. In the embodiment according to FIG. 8, the air supply 83 widens outwards in the form of a funnel 84 .

Finally, it should be mentioned that the device according to the invention according to FIG. 1 manages in many cases with a sensor element when the measurement object is advanced over a table or the like, as indicated in FIG. 1 by the dash-dotted line 17 .

Claims (18)

1. A method for detecting length dimensions, in particular for measuring the thickness, width, profile dimensions or the like, of bodies or body parts primarily of material plates, film-like material webs, extruded profiles preferably during production, characterized in that a Detection of the measured value serving movable sensor, the position of which is representative of the measured value and provides the display value, while the measurement is held at a precisely definable distance from a surface determining the measured value, and that the measured value is derived from the difference in the measurement result and this distance is formed. 2.A method according to claim 1, characterized net that the distance of the sensor from the measuring surface can be changed and / or is adjustable. 3. The method according to claim 1 or 2, characterized records that the distance between the sensor and the measuring area is achieved by means of an air cushion that can be tion of compressed air between the sensor element and the measuring surface is generated and the sensor element against the system pressure stands out from the measuring surface of the measuring object. 4. The method according to one or more of the claims 1 to 3, characterized in that the distance at pre given dimensions of the sensor element by the supplied Air volume or air pressure is adjustable. 5. The method according to one or more of the claims 1 to 4, characterized in that the distance at pre given air pressure through training, especially size and / or the shape of the sensor element can be changed. 6. The method according to one or more of the claims 1 to 5, characterized in that to achieve Measured values with a given sensor distance of movement of the sensor element are directly proportional, a compen sation of the sensor distance in the starting position is taken. 7. Device for detecting length dimensions of bodies, in particular for measuring the thickness, the width or similar dimensions on bodies, such as plates, foils, Extruded profiles, and in particular to carry out the Ver driving according to one or more of the preceding an say, with one opposite a measuring surface of the body  movable sensor element, its respective position or Location is representative of the measured value and that over Zwi controls a display device, ge characterized by facilities with the help of which Sensor element at least during the measurement process in one precisely defined distance is feasible over the measuring surface. 8. The device according to claim 7, characterized in net that the sensor element at a distance above the measuring surface leading facilities include elements that Compressed air between the test object and the test object lead facing surface of the sensor element. 9. The device according to claim 7 or 8, characterized net by in the area of the Sen facing the measurement object outlet openings provided for compressed air, which are connected to compressed air supplies. 10. Device according to one or more of the claims che 7 to 9, characterized by control devices for Control of quantity and / or pressure of the supplied pressure air. 11. The device according to one or more of the claims che 7 to 10, characterized by a plate-shaped Aus formation of the sensor element. 12. The device according to one or more of the claims che 7 to 10, characterized by a cup-shaped training extension of the sensor element. 13. The device according to one or more of the claims che 7 to 12, characterized in that the sensor element  on its side facing the measurement object, an elevated, on the object to be projected to the edge. 14. The device according to one or more of the claims che 7 to 13, characterized in that the sensor element with substantially plate-shaped and / or flat training an air outlet opening with compared to the effective men area of the sensor element comparatively small Ab owns measurements. 15. The device according to one or more of the claims che 7 to 14, characterized by a slit-shaped Air outlet opening. 16. The device according to one or more of the claims che 7 to 14, characterized by a sieve-like arrangement air outlet distributed over a certain area openings. 17. The device according to one or more of the claims che 7 to 16, characterized by in particular in the sensor element provided, a swirled air flow generating vortex devices. 18. Device according to one or more of the claims che 7 to 17, characterized in that in pairs Sen arranged opposite sides of the measurement object sensor elements with the associated movement indicators are seen on a common display device act and each a distance from the measurement object adhere to.