DE253521C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The invention relates to a feeler lever which, inter alia. for precision measurement purposes should find. The gear ratio of the lever soU can be chosen to be very high can and by simple lever translation under · the exclusion of double and multiple Leverage can be achieved. Furthermore, for storage (base) or for the point of application of force at the end of the lever (pressure or tension point) pin must be excluded, which by their inevitable backlash the accuracy of the leverage ratio adversely affect.

Fig. Ι shows schematically the shape and mounting of the sensing lever H. It can, as indicated by dotted lines, also be designed as an angle lever W. In it two leaf springs O ₁ and δ _{2 are} fixed immovably at the mutual distance α on two opposite sides, z. B. soldered. One end of the leaf spring B ₁ is located in the fixed apparatus part F, one end of the leaf spring b ₂ is connected to the measuring pin S. When the measuring pin S moves up and down, the feeler lever pointer Z makes corresponding deflections. The two leaf springs O ₁ and b ₂ can also be fastened on the same side of the lever H instead of on opposite sides of the lever H, as in FIG. 1, as FIG. 2 shows schematically. Instead of the leaf springs O ₁ and b ₂ , bar springs (e.g. wires) can also be used as joints for the lever H.

With the feeler-lever measuring apparatus described, only small displacements of the measuring pin S in its longitudinal direction should generally be measured, namely displacements of the magnitude _{permitted by the nature of the springs O 1} and b ₂ in their property as joints without excessive and harmful changes in shape. For this reason, the double stop A firmly connected to the apparatus part F is attached to be on the safe side.

The measuring apparatus can be used successfully when the deviations of the dimensions of different bodies from a normal body N are to be measured.

Instead of the initially assumed to explain the operation of the apparatus bearing of measuring pin 5 into two neck bearings L, it is expedient to use the straight-line mechanism of the gauge pin S described below, because the storage in warehouses L always has some play and thus the transmission ratio of the sensing lever in the very short length of a lever arm can have a detrimental effect. The measuring pin S should therefore be guided in such a way that two springs f ₁ and f _{2 are} firmly connected to the apparatus part F at one end (e.g. soldered) and immovably fixed to the measuring pin S at the other end.

In order to ensure that the measuring pin S always rests against the body to be measured N , z. B. the collar B and the spring f _s are arranged.

Claims (3)

The arrangement of the lever H and the springs b1 and b2 shown schematically in FIG. 1 also has the disadvantage that the two springs bx and b2 acting as joints are not at the same height, i.e. H. not in the same plane parallel to the longitudinal direction of the lever H and perpendicular to the plane of the picture. The height of the springs b1 and b2 is rather different by the distance c (cf. FIG. 3), which represents a section through the lever H in the plane nn, seen in the direction of the arrow, the cross section of the lever H being a rectangle appears. As a result, when the measuring pin 5 is moved, the lever transmission ratio is adversely affected. In order to avoid this Ubelstand, the cross-section of the lever H in the vicinity of the springs B1 and b2 according to FIG. 4 can be selected to be U-shaped and at the same time the spring J2 is dissolved into a right and left spring b2, - and δ2 / and the measuring pin S can be formed with two arms C1 and C2 at its upper end. Godfather ν τ-An SP urs: 1. Feeler lever for fine measurements, characterized in that the lever (H) both in its pivot point and in its pressure or tension point by leaf springs or bar springs (\ and b ₂ ) on opposite or on the same side with the fixed apparatus part (F ) or is firmly connected to the measuring pin (S). 2. Embodiment of the lever according to claim 1, characterized in that the lever in the vicinity of the springs serving as joints (b _x and b ₂ ) has a U-shaped cross section, so that the springs (b _x and b ₂ ) in the same way Height can be. 3. Parallel guidance of the measuring pin required for the feeler lever according to claim 1, characterized by two springs (f _t and f ₂ ) which are firmly connected at one end to the fixed apparatus part (F) and at the other end to the measuring pin (S). 1 sheet of drawings.