DE1046893B - Reading device for measuring rods - Google Patents

Description

Reading device for rulers The invention relates to a reading device for scales with a mark or a line to determine the fine measurement value a reading rake dividing a large-scale interval by micrometric Shift is brought to coincide with a scale line and in which the shift the mark is effected by a rotatable cam ring, the cam ring with means indicating the amount of displacement of the mark, e.g. B. with a rotatable circular scale.

In a known embodiment, the rotatable cam ring is through a ring is formed eccentrically to the axis of rotation, on which a pin slides.

When turning the cam ring, the radial distance of the pin changes from the axis of rotation of the cam ring. The pen is with one of the mark or the reading rake supporting glass plate and thus causes the shift of this mark. The cam ring also has a circular scale on which with the help of a fixed one Index the amount of displacement of the mark or the reading rake can be read.

In this training, the mark or the pen is shifted not linearly dependent on the angle of rotation of the cam ring. Thus, it must be the displacement amount e indicating circular scale may be unevenly divided. This creates difficulties in the production of scales.

You therefore have a cam ring in another form of training provided, the radial spacing of which varies unevenly with the angle of rotation of the cam ring change, in such a way that the pen or the mark is when turning the cam ring move linearly. In this case, the scale indicating the amount of shift can be divided equidistantly. Here, however, there are again difficulties in production of the cam ring.

The object of the invention is to eliminate these disadvantages. this is achieved according to the invention in that the curve of the cam ring by a around a circular surface of the cam ring with depending on the band Angle of rotation of linear slope is formed and the means for moving the index tap the slope of the belt parallel to the axis of rotation of the cam ring. These Training ensures a very simple and precise production of the sliding and display means. On the one hand, the bands have a triangular shape because of their linear slope. They can easily be made up to several in one package, and then it is ensured. that all bands have the same slope.

On the other hand, the bands are circular around the axis of rotation of the cam ring and it is therefore the linearity between the slope of each band and the angle of rotation of the cam ring animals. The scale connected to the cam ring can therefore also be easily produced as a linear scale.

The mentioned disadvantages of the known devices do not occur more on.

In a further embodiment of the invention, the tape is unwound State roughly the shape of an isosceles triangle, and when collapsed State overlap the ends of the tape.

This ensures on the one hand that the cam body as often as required can be rotated in the same direction and that the mark is next to the first half turn in one direction and the second half turn in the opposite direction.

The transmission means for the movement of the cam ring on the Brand advantageously consist of a two-armed lever, one arm of which is the slope the tape picks up and the other arm causes the mark to be moved. A Lever arm is expediently adjustable in length. This can result in a subsequent Adjustment between the amount of displacement of the mark and the angle of rotation of the cam body can be achieved. In particular, it can happen that the pitch angle of the tape slightly deviates from its prescribed size.

The resulting error in the brand shift can be caused by Change the length of the lever arm to be compensated.

One lever arm with an adjustable screw is useful formed with a ball head, and between the ball head and the band is an axially displaceable Connection pin provided. By adjusting the screw in a suitable way here, the length of the effective lever arm changes.

In the drawing, exemplary embodiments of the invention are shown, namely Fig. 1 shows a reading device according to the invention, partially in section, Fig. 2 shows the field of view of this reading device, FIG. 3 shows a detail from FIG. 1; 4 shows a section along the line IAl-IV of FIG. 3, FIG. 5 shows the curve of the reading device in the manufacturing state, FIG. 6 shows the curve according to FIG. 5 in the bent state.

Relative to a stationary reading device 1 is a scale 2 movable. The scale lines appearing under the reading device are Imaged by an objective 3 and deflecting mirrors 1 and 5 in a reading window 6, Immediately below the reading window 6 is a screen 7, which shows the one shown in FIG. 2 fades out the field of view shown. Below the diaphragm 7 is one in the direction of the arrow 8 sliding glass plate 9 is provided. The glass plate 9 carries a Reading rake 10 dividing an interval of scale 2 in reading window 6 (Fig. 2). The scale lines of the scale 2 are double lines (see. Fig. 2), where the scale line 2670 mm has been shown. To determine the measured value, the glass plate 9 moved in the direction of arrow 8 until the scale line 2670 captures a single line of the rake 10. The size of the shift can be can be read off by means of an index 11 on a circular scale 12. In Fig. 2 results the measured value is 2678.42 mm.

The displacement of the glass plate 9 is achieved by turning a knurled ring 13 causes. The knurled ring 13 has a cylindrical surface 14 around which a spring band 15 is placed. The spring band 15 has the shape shown in FIG. It makes one Isosceles triangle with faces 16 and 17. When the tape around the face 14, it assumes the form shown in FIG. From this figure is particular to see that the ends 18 and 19 overlap in the collapsed state.

On the end faces 16 and 17 of the belt 15 slides on one Guide 20 sliding pin 21.

The pin 21 presses on the ball head 22 of a screw 23. The screw 23 is mounted in an angle lever 24. The angle lever 24 is around a pin 25 rotatable. The arm 26 of the angle lever 24 engages behind a nose 27 of the glass plate 9. A spring 28 presses the nose 27 constantly against the lever 24, so that the contact between spring band 15> pin 21 and angle lever 24 is guaranteed.

If the knurled ring 13 is rotated, it shifts beyond that described Middle the glass plate 9. Dle The amount of displacement of the glass plate 9 is related to the angle of rotation of the cam ring 13 in a linear relationship. The scale 12 can for this reason be evenly divided. The scale 12 is on the glass of the reading window arranged so that it rotates with the cam ring 13. The reading window 6 is viewed through a magnifying glass 29. A lid 30 closes the reading device Non-use upwards.

PATENT CLAIMS 1. Reading device for scales in which to determine of the precision measured value a mark by micrometric displacement with a scale line is brought to congruence and in which the displacement of the mark by a rotatable Cam ring is effected, the cam ring with the displacement amount of the curve indicating means is connected, characterized in that the curve of the cam ring by a band placed around a circular surface of the cam ring with as a function is formed by the angle of rotation of the linear slope and which cause the mark shift Means tap the slope of the belt parallel to the axis of rotation of the cam ring.

Claims (1)

2. Reading device according to claim 1, characterized in that the tape in the unwound state has approximately the shape of an isosceles triangle Has. 3. Reading device according to claim 1, characterized in that the ends of the tape overlap in the assembled state. 4. Reading device according to claim 1, characterized by a two-armed lever, one arm of which picks up the slope of the belt and whose the other arm moves the mark. 5. Reading device according to claim 4, characterized in that the length of one lever arm is adjustable. 6. Reading device according to claims 1 and 5, characterized in that that the one lever arm is formed by an adjustable screw with a ball head and an axially displaceable connecting pin is placed between the ball head and the band is.