DE1061531B - Method for producing a circle division - Google Patents

Description

Method for producing a circular graduation The invention relates to a method of making a division of a circle. According to a known method a basic division is mapped onto a photosensitive layer by both Basic division and layer rotated past an optics that convey the image will.

The basic division has the same number of lines as the division to be made, and the angular velocities of both divisions when rotating past the imaging optics are the same.

After one rotation of both divisions, the basic division is complete copied to the division to be produced.

This method has the disadvantage that all may be incorrect Line layers of the basic division are transferred to the division to be produced.

In addition, the division to be made is machine-related Flawed, which z. B. od by imprecise engagement of the gears. Like. Between caused by the two divisions.

To overcome this drawback, a mechanical Method known in which lines in the partial circle base are torn several times until one could be sure that the accidental division errors were turned off. As a result of the repeated dividing process, the faulty Line layers covered by the correct line layers.

The periodic errors could not yet be compensated for with this which are caused, for example, by incorrect position of a line on the basic division or a mechanical fault in the copier.

For this reason, attempts have continued to be made on the pitch circle a second and possibly a third division lying concentric to the first to arrange. Before applying the second and third divisions, the pitch circle rotated by an angular interval on its carrier against the shredding mechanism or the like, so that the periodic error now appeared in a different place. The user was now able to read the angle value between the divisions of the first, average the second and third divisions.

However, this was quite inconvenient for the user and was in no way satisfactory.

For this reason, another method has become known as the following Train of thought was the basis.

A pitch circle can be produced all the more precisely, the fewer tick marks he owns. For this reason, a basic division was chosen, which is only one Fraction of the number of lines that the division to be made should have. For example, if this ratio was 1: 4, then the basic division would be one Imaging optics with four times the angle speed passed like that division to be made, so that a photosensitive layer on the first revolution the basic division was exposed on a quarter of its circumference. The second Then the second quarter of the revolution was exposed, and so on.

However, this method has had the disadvantage that it is defective Multiply the tick marks of the basic division.

The invention is now based on the object of providing one with safety to create absolutely flawless pitch circle.

This is achieved in that for the basic division and to be produced Division, as is known, a different number of lines is selected, the number of lines the basic division and the angular velocity ratio of the basic division and the The division to be produced can now be chosen so that each stroke of the Division through repeated turning of the pitch circles past the imaging optics successive mapping of all tick marks of the basic division or at least a part of the lines of the basic division is formed in its place.

In other words, each tick is now overlaid all tick marks of the basic division formed.

So, for example, should a division be made with 360 graduation marks 361 tick marks can be selected for the basic division. Going to happen now the angular velocity ratio of the basic graduation to the photosensitive graduation to 360: 361 are selected, then after one revolution of the light-sensitive graduation 360 graduation lines of the basic graduation mapped onto the light-sensitive graduation been and the 361st division of the basic division becomes the first division of the one to be produced Projected division. The first graduation of the basic division is then followed by depicted on the second line of the division to be produced and so on. After 361 full Revolutions of the division to be made are each division of this division 361 times has been exposed, each time from a different graduation of the basic division.

Does the basic division have division errors, i. H. have single strokes the basic division deviations from their nominal position, then this has an effect on the invention Manufacturing process in such a way that this faulty graduation is at a point which is slightly next to the target point of the line, is projected. At the prescribed Each division of the division to be produced is now an exposure cluster appear. When the light-sensitive division develops, these accumulation points arise a sharp line, which is the mean of all graduation marks of the basic division represents. The exposures to the right and left of the accumulation point, which through incorrect lines of the basic division or incorrect transfer of these lines are practically disappearing. According to the method according to the invention The division produced is therefore extremely precise and completely without division errors.

So that the lines of the basic division are transferred to another after each revolution Place are mapped on the division to be produced, is chosen advantageously both the line number ratio of the basic graduation to the light-sensitive graduation as well as the inverse ratio of the light-sensitive graduation to the basic graduation not an integer. In this case, the basic division takes place after each revolution a shift of the lines to be applied now against the previously applied ones Strokes take place automatically.

The line number ratio of the basic division is expediently chosen photosensitive graduation inversely proportional to the speed ratio of these two divisions. With zg as the line number of the basic division, zl as the line number the light-sensitive graduation, wl the rotational speed of this graduation and wg the angular velocity of the basic division thus results in the ratio wl Zg = a, a = proportionality factor.

Zog If a 3600 pitch is to be produced, the basic division can be used z. B. 361 or 359 tick marks -have, and the rotational speed ratio of the Basic division for the division to be produced is then z. B. either 360: 361 or 360 : 359.

If the division to be produced is to be 400g, then the basic division can have either 401 or 399 tick marks, and the - rotation speed ratio can then be 400: 4 (51 or 400: 399.

In these examples the proportionality factor a is equal to 1; a can also be unequal to 1 via.

If a 3600 division is to be produced, is therefore to = 360 and is the speed ratio chosen to be 360: 361, then a z. B. 1/19 chosen and it is then zg = 19. If a 4000 division is to be produced, then is z, = 400. If the angular velocity ratio is 400: 399, then a = 1/19 or 1/21 can be chosen, and it is then zg = 21 or 19.

The last examples show that with N number of a equal to 1 the Line count for the basic division as in one of the known methods mentioned above is small, so that the advantage mentioned there also occurs here.

If you want a multiple overlay with a basic division of 19 lines of the exposures on the division to be made, one must obtain the basic division Rotate accordingly more often because the 19 lines at 19 revolutions are only 361 lines embody the basic division, d. So it was only repeated after 19 turns Exposure of the tick marks of the division to be produced begins.

The method according to the invention can, however, also serve to create a basic division to manufacture. In this case, z. B. a 3600 division, which are mapped onto a photosensitive graduation according to the method according to the invention and there, with the appropriate choice, the rotational speed ratio of the divisions a division with 359, possibly with 361 lines or even only with 19 lines results. This can then after developing for the production of further 3600 divisions are used.

A device for carrying out the method according to the invention expediently consists of two meshing precision gears, one of which is the basic division and the other is the light-sensitive division carries, and the corresponding to achieve the different angular velocities Have numbers of teeth. To determine the number of teeth, you can use the formula mentioned The number of teeth is put in place of the angular velocities. Stand the gears in direct mesh, then one gear is driven, and the other rotates slower or faster accordingly, and the scales rotate pass the imaging optics with corresponding angular velocities.

In another embodiment, the gears are arranged coaxially and connected to one another via a drive pinion.

In the drawing, exemplary embodiments of the invention are shown, namely Fig. 1 shows a first embodiment, Fig. 2 shows a second embodiment, 3 shows a sketch to explain the mode of operation of the method according to the invention.

In Fig. 1, two precision gears 3 and 4 are on shafts 1 and 2, which are in engagement with each other, arranged. The gear 3 has 359 teeth on and the gear 4 360 teeth. A basic division 5 is attached to the gear 3, which has 359 tick marks. On the gear 4 there is a light-sensitive graduation 6 attached. An imaging optics is arranged above the gearwheels, which over an objective 7, a pentaprism 8, a field lens 9 and a roof prism 8 'and another lens 10, the graduation marks of the basic division 5 on the light-sensitive Projected division 6. If the basic division-5 is rotated 360 times by the gear 3, then the photosensitive graduation has rotated 359 times. The 359 strokes of the Basic graduation have been repeatedly mapped onto the light-sensitive graduation, and each graduation of the photosensitive graduation is one of the 359 graduation marks the basic division formed.

Fig. 2 shows another arrangement of the gears and accordingly a slightly changed imaging optics. A gear 11 is connected to a shaft 10, which has 359 teeth. The shaft 10 is rotatable in a hollow shaft 12. These carries a gear 13 with 360 teeth. The gears 11 and 13 are by a drive pinion 14 engaging in them is connected. With the gear 11 is a Basic division 15 connected, which has 359 graduation marks, and with the gear 13 a light-sensitive graduation 16.

When the gears rotate, the tick marks become the basic division 15 via an objective 17, mirrors 18 and 19, a field lens 20 and a pentaprism 21 and another mirror 22 and another lens 23 on the light-sensitive Pitch 16 shown.

The mode of operation of this device is the same as in FIG. 1.

With reference to Fig. 3, the creation of a division according to the invention Procedures are explained using a simple example. It is supposed to be a division with five tick marks can be made. The basic division 20 has two graduation marks on, a solid tick mark a and on the opposite side for better differentiation a dashed graduation line b. The basic division 20 is connected to a gear 21, which has six teeth. The photosensitive graduation 22 is on a gear 23 fixed with five teeth. The gears 21 and 23 are on gears 24 and 25 with the same number of teeth in rotary connection. An imaging optics drawn in dashed lines 26 ensures that the graduation lines of the basic division are mapped onto the light-sensitive ones Division.

By means of the imaging optics, the graduation a after al pictured. If the division 20 is rotated by three teeth, or what is the same, performs this division half a turn. so the division b appears below the imaging optics. This is mapped onto the light-sensitive division that has also rotated three teeth further, what, since this division is on one Gear with five teeth is attached, corresponds to a 3/5-turn of the division 22, d. That is, the line b is mapped to the point b1 of the photosensitive graduation. If the Teilang 20 is rotated by a further three teeth, it has a full turn executed, the graduation ci appears again under the imaging optics. the light-sensitive division has now been rotated by six teeth, what one 11 / s rotation corresponds to the light-sensitive graduation. The graduation a becomes so now shown at the point a2 of the light-sensitive graduation. Will both If the divisions are turned three teeth further, the division b is replaced by the position b2 shown because the light-sensitive graduation is now 14/5 of a turn Has. Turning it again by three graduation marks forms the division a at the point cc, from (22 / s revolutions), then the graduation line b is mapped to the point b5, since now both gears are turned 15 teeth, which is three full turns corresponds to the light-sensitive graduation. The graduation b now also falls the graduation ci on the light-sensitive graduation at the point a1 or b3. Turning it further by three teeth forms the graduation ci at the point a4 of the light-sensitive graduation, where it now meets with a division b1. Subsequently, the division b is mapped to the point b4, which is the point a2 corresponds to. Finally, the division n is mapped to position a5, which corresponds to the point b2, and finally the division b is mapped to the point b5, which corresponds to position a3. The five tick marks of the light-sensitive graduation sit down, after the basic graduation has made five revolutions, the light-sensitive one Divisions, on the other hand, are six, each made up of two tick marks, namely the tick marks a and b of the basic division.

In this exemplary embodiment, sg = 2, to = 5, w1 = 6, wg - 5 and a = l / 3, so that the formula mentioned at the beginning changed into (2 / s) = (1/3) (6 / i).

5 PRO cIE: 1. Procedure for creating an I-share, at which has a basic division with a different number of lines than the division to be made a photosensitive layer is imaged and the basic division as well as the photosensitive Division with different angular velocities on one conveying the image Optics rotated past are characterized by such a choice of angular speeds of the divisions and such a line number of the basic division that each line of the The division to be made when the pitch circles are repeatedly turned past the imaging optics through successive mapping of all tick marks of the basic division or at least a part of the lines of the basic division arises in its place.

Claims (1)

2. The method according to claim 1, characterized in that in the first turn of the pitch circles all the lines of the basic division to different ones Places on the division to be produced are mapped and in the subsequent one Rotation of the basic division against all of its tick marks by an angular interval the first division applied is shown offset on the pitch circle to be produced will etc. 3. The method according to claim 1, characterized in that both the line number ratio of the basic graduation to the light-sensitive graduation as well the line number ratio of the light-sensitive graduation to the basic graduation is not an integer is. 4. The method according to claim 1, characterized in that the line number ratio the basic graduation to the photosensitive graduation is inversely proportional to the speed ratio this is divisions. 5. The method according to claim 4, characterized in that the proportionality factor is not equal to 1. 6. The method according to claim 1, characterized in that the method is used to create a basic division. 7. Apparatus for practicing the method according to claim 1, in which two meshing precision gears are provided, of which one bears the basic division and the other the light-sensitive division, thereby characterized in that the gears to achieve the different angular speeds of the pitches have numbers of teeth corresponding to the angular speeds. 8. Apparatus according to claim 7, characterized in that the gears are arranged coaxially and are in rotary connection with one another by a pinion. Considered publications: German Patent Specifications No. 940 190, 930 591.