DE1105624B - Process for the simultaneous display of the tolerances of various measured values and device for practicing the process - Google Patents

Description

Process for the simultaneous display of the tolerances of different Measured Values and Apparatus for Performing the Method The invention relates to a Method for the simultaneous display of the tolerances of different measured values with different wide tolerance ranges on profiled ground glass scales arranged next to each other the same size, the scale ranges of which the limits of the tolerance ranges of these individual Represent measured values.

It is known the display range of electrical measuring instruments to expand in that the measuring mechanism switches different resistances at GE will. In fact, the measuring mechanism is used to switch the voltage ranges accordingly measured resistances upstream, while the change of the current measuring ranges takes place by switching from the measuring mechanism with ordered parallel resistors.

For setting the zero point of light pointer instruments, it is known to arrange the measuring mechanism rotatable in a limited area.

It is also known to use the scales of measuring instruments for identification to provide predetermined areas with colored areas in order to create a To make reading easier.

The method according to the invention also makes in principle of the Rotatability of measuring mechanisms as well as of a change connected upstream or Parallel resistors use. In contrast to the known areas of application outlined In the present invention, however, these agents serve a different purpose, namely to the different tolerance ranges different and to be monitored Adapt measured variables to specified scale segments of the same length. this happens when using ground glass profile scales according to the invention in that the target value deflection with the individual light pointer measuring mechanisms that can be rotated as a whole by the entire deflection angle by means of switched series or shunt resistors for large given tolerance ranges to a small and, for small tolerance ranges, to a large deflection angle of the respective measuring mechanism is set and that afterwards the measuring mechanisms so far be rotated that the light marks in the middle of the associated ground glass profile scales lie.

To explain the invention, the figure is a view of a Ground glass scale for displaying the tolerances of four different measured values shown, whose light marks projected by measuring units, not shown in the drawing with 2, 22, 23 and 24 are designated. The area 4 with the zero line is the Allocated good area, while the surfaces 4a the bad or reject areas represent. Accordingly, the same distance for all measured values denotes a-O-a at the permissible tolerance range for each of the individual measuring mechanisms. You he- now the individual Measured values themselves fluctuate from one another to different degrees around the target value, For example, the measured value for 21 by 1 10 / o, but the measured value for 22 by + 10%, so it is still possible with the method according to the invention, the arrangement so set that the common distance a-O-a for the measured value to 21 the required Represents a tolerance range of + 1 oil, but for the measured value for 22 it is a tolerance range of + 100 / o.

This goes on in detail in such a way that for the certain and the Tolerance range assigned to the measured value, the setpoint deflection of the measuring mechanism with the connected Setting resistors is set to the deflection angle for which the route Angular deviation of the measuring mechanism corresponding to the «-0-« on the ground glass scale would represent the required tolerance deviation. By a subsequent twist of the measuring mechanism as a whole, this target value deflection is on the zero line of the surface 4, so that accordingly not the absolute size of the measured value on the route a-O-a per se, but only its deviation from the target value is displayed.

Let a numerical example explain this choice of tolerance in more detail: Let it be a measuring mechanism with, for example, 1000 angle of rotation is given, furthermore that of the light beam covered distance O-a correspond to an angular deviation of the measuring mechanism of 10. The applied measured value may now have a permissible deviation of + 2o from the setpoint the setpoint deflection of this measuring mechanism is set to 50 degrees and then rotated the measuring mechanism so that at this rate the light band on the The zero line of the scale surface 4 falls. A deflection of the light band around the route O-a would then mean a deviation of the measured value from its nominal value by exactly 2% correspond, because the 13-angle change that the measuring mechanism to sweep the distance O-a of the light band corresponds to the set Si setpoint deflection of 503 exactly a percentage deviation of 3off. The whole distance corresponds to a-0-a accordingly a tolerance range of + 20/0.

On the other hand, it has the size to be displayed by another measuring mechanism a permissible tolerance of + lOeXos, the setpoint deflection of the relevant Aleßwerkes set to a deflection angle of 10 °.

The distance a-O-a then corresponds to the required tolerance range of 1 100 / o, there is an angular deviation of 1 ° with a target deflection of 100 one a percentage deviation of 10%.

Analogously, the route a-O-a are adjusted accordingly the setpoint deflections to certain deflection angles are all possible and desired Assign tolerance ranges.

Because in the end always to set certain tolerance ranges the same angular rotation of the Aleßwerke is required, can in practice the rotating mechanisms of the individual measuring devices, which are not shown in the figure be provided with scales that are directly labeled in percent tolerance range.

The desired tolerance ranges can then be determined on the basis of these scales can be set directly, and afterwards it is only necessary to set the individual Light bands with the front and rear walls assigned to the SIeßwerke

Set secondary resistances to the zero line when setpoints are present.

In a tolerance measuring device according to the method according to the invention it is therefore possible to dispense with any lettering on the display dials. Used one in a further embodiment of the invention for generating the light pointer a UV light source, and the back of the transparent dial plate is applied with different colored fluorescent colors according to the good and bad area, then there is a particularly easily recognizable color change of the light mark when this changes from one area to the other.

The device described can also be expanded to this effect be that the light bands of the individual measuring units depending on their deflection Photo elements placed behind the bad areas of the scale fields hit, through their photo currents a signal system or a device for sorting out defective test items can be controlled.

The new display method is not solely based on use electrical measuring instruments, but can be used with equal success for all Other measuring devices are used which have a rotating measuring or display system to have.

X T - X T A N s P i: ts 1. Procedure for the simultaneous display of the Tolerances of various measured values with target value tolerance ranges of different widths on matte profile scales of the same size arranged next to one another, their Scale sections define the limits of the target value tolerance ranges for these individual measured values represent, characterized in that the target value deflection in the individual around the entire deflection angle as a whole rotatable light pointer works by means of Connected series or shunt resistors for large permissible setpoint tolerance ranges to a small and, for small tolerance ranges, to a large deflection angle is set and that afterwards the measuring mechanisms are rotated so far that the Light marks lie in the middle of the associated ground glass profile.

Claims (1)

2. Measuring device for performing the method according to claim 1, characterized in that the tolerance limits on the individual scales with different colored Fluorescent dyes are provided on which those derived from a UV light source Light pointers generate appropriately colored light marks. 3. Meßvorrichtunb according to claim 1 or 2, characterized in that that the light pointers are attached to photo elements at different points on the scale impinge, the photocurrents of which a signal system or a device for sorting out control of defective test items. Documents considered: German Patent No. 841 222; German utility model No. 1 734 826; French patent specification No. 1 088 932; U.S. Patent Nos. 2,535,065, 2,615,367; Siemens & Halske publication "Oszillomat", 706/1, 1956; Hartmann & Braun publication »Light point line writer« RLt4 (instructions for use E 918-1) from April 1953.