DE1082422B - Vertical length meter - Google Patents

Description

GERMAN

The invention relates to a vertical length meter. In the case of devices of this type, the measurement is carried out first the measuring quill is raised from a zero position so that the workpiece to be measured is below the quill can be placed. The quill is then left under the action of gravity run onto the test piece by a motor drive or the like. A scale is connected to the quill, which moves under a reading microscope. After the quill has come to rest, the measured value can be read on the scale. During the measuring process, the quill now sets a lot on the one hand hard, and on the other hand it bounces back again, only to finally come to rest. Around to avoid these disadvantages is in the known devices of this type to reduce the shock when Put on the quill a counterweight is provided, which is a little lighter than the quill and that through a rope running over a pulley is connected to the quill. This can reduce the impact however, the quill continues to snap back. To this rebound too to eliminate, one has also provided a damping device. This consisted in the fact that the Weight was designed as a piston, which slid in a cylinder filled with oil. Now ran the Quill on the workpiece, then the counterweight moved a little bit Further. This movement, however, has already been dampened by the oil, and in particular it has been declining Movement of the weight, which contributed to the quill springing back, now braked so much, that a rebound was no longer noticeable. This damping device certainly fulfilled theirs Purpose. However, it had the disadvantage that the oil easily escaped from the cylinder, namely when the piston moved very quickly. On the other hand, this oil filling caused transport difficulties. If you wanted to avoid this, you could only fill in the oil at the measuring point.

In order to eliminate this disadvantage, attempts have already been made to use air damping instead of oil damping to introduce. However, this has not proven itself because the damping was too low here and that Snapping back of the measuring quill could not be prevented.

The invention eliminates the disadvantage of the known devices in that they are used as a damping device provides a piston sliding in an air-filled cylinder and one connected in parallel with it Feather.

This achieves the following effect: The air attenuation, which is insufficient for itself, is caused by the Effect of the spring due to the larger relative vertical length meter

Applicant:
Carl Zeiss, Heidenheim / Brenz

Dr.-Ing. Gustav Zieher, Aalen (Württ),
has been named as the inventor

Movement amplified in such a way that the quill no longer snaps back. On the other hand prevented the air damping, that the weight comes into oscillation, which would be the case without air damping, there the weight is suspended from a spring. Thus, the spring suspension and the air damping complement each other to an effective overall damping.

Appropriately, the weight is attached to the lower end of the spring and the piston to the upper end of the Feather. This has the advantage that the spring always returns to the piston after each measurement Starting position withdraws.

The weight itself is advantageously designed as a cylinder and the spring is guided through the cylinder.

If you want to increase the effect of the damping, then you can use the damping device described Downstream another spring, which is advantageous between weight and damping device is provided. With this design, however, the weight can perform small oscillating movements.

The described damping device according to the invention mainly dampens the retrograde movement the quill. If one also wants to dampen their downward movement, then it is useful to see between the described damping device and the quill a further air damping.

In the drawing, an embodiment of the invention is shown, namely shows

1 shows the length meter according to the invention,

2 shows the damping device in section.

As can be seen from Fig. 1, a table 2 is attached to a base body 1, on which the to be measured Workpiece 3 is placed. Two rollers 5 and 6 are attached to a stand 4, over which a rope 7 is performed, which on the one hand carries a weight 8 and on the other hand a measuring quill 9. The weight 8 is in a housing part 10 and the quill 9 in a housing part 11. With the quill 9 is a scale 12 connected, on which by means of a microscope 13

009 527/166

the measured value can be read. A pulley 14, around which a rope 15 is placed, is connected to the roller 6. If the rope 15 is pulled, the roller 6 rotates in such a way that the measuring quill 9 is raised. In this Position the measuring piece 3 can be exchanged. Then lets go of the rope 15 so that the Quill 9 falls on measuring piece 3. So that here the quill 9 does not snap back, the weight 8 is as Damping device according to FIG. 2 formed. The weight 8 consists of a body 20 with cylindrical Recesses 21 and 22. In the recesses 21 and 22, cylindrical parts 23 and 24 of a piston 25 move. The piston 25 is hollow and encloses a spring 26. The spring 26 is at the top attached to the piston 25 with a pin 27 and below with a pin 28 directly on the weight 8. The Body 20 also has a bore 29 which is more or less closed by a pin 30 can be.

The mode of operation of the invention is as follows: If the quill 9 moves downwards, then it moves the weight 8 upwards in the direction of arrow 31. After the quill 9 is placed on the measuring piece the weight 8 moves a little further. Then the weight 8 falls down again due to gravity. This downward movement is made possible by the spring 26 as well braked by the excess pressure now created above the cylindrical part 24, so that the downward movement of the weight 8 takes place gently so that no more jerk is exerted on the rope 7 and the quill 9 is not lifted off the measuring piece 3 again. The amount of damping of the downward movement of the weight 8 can be influenced by opening or closing the channel 29.

If you want to dampen the downward movement of the quill, you can see between weight 8 and Quill 9 expediently before a further air damping. The downward movement of the quill is done by a Motor, then the additional air damping can be omitted if you have a drive with slip or dials via a latch.

Claims (5)

Patent claims: 1. Vertical length meter, in which the measuring quill runs onto the measuring piece for measurement, in which furthermore, the measuring quill connected to a counterweight for the purpose of weight compensation and in which the movement of the counterweight is braked by a damping device, characterized in that the damping device consists of a cylinder filled with air sliding piston and a spring connected in parallel to the piston. 2. Vertical length meter according to claim 1, characterized in that the weight at the lower End of the spring, but the piston is attached to the top of the spring. 3. Vertical length meter according to claim 2, characterized in that the weight as a cylinder is designed for the piston and the spring is guided through the cylinder. 4. Vertical length meter according to claim 1, characterized in that between weight and Damping device an additional spring is provided. 5. Vertical length meter according to claim 1, characterized in that a further air damping between the damping device and quill is provided. 1 sheet of drawings © 0O9 527/1 € 6 p. 6tt