DE2744032C3 - Micrometer for inside measurements - Google Patents

Description

The invention relates to a micrometer for internal measurements according to the preamble of claim 1.

This micrometer is particularly, but not exclusively, for measuring smaller bores Diameter, for example up to 6 mm, determined and is described in DE-PS 20 23 263.

In the known micrometer, the axis connected to the micrometer screw carries on the front and the rear end each have a ramp designed as a conical spiral. The measuring capacity of the known However, micrometers is limited because the front ramp is designed as a conical spiral the first turn from the apex must be dimensioned so that it acts as a support surface for the feeler of the Measuring button can serve.

The invention is therefore based on the object of creating a micrometer of the type mentioned, whose Measuring capacity is much higher, while maintaining the possibility of using deep holes to be able to measure a very small diameter.

This object is achieved by the characterizing features of claim 1.

This training gives the micrometer for internal measurements the greatest possible measuring capacity for a given diameter of the smooth cone without the risk of an error in parallelism in the radial ones Displacements of the probe because the probe moved from the base to the apex of the smooth cone can be; its radial path is therefore equal to the radius of the cone, while the rear support surface the measuring button is supported on a helical ramp, the generatrix of which is parallel to its axis of rotation get lost; This eliminates the effects of axial stretching caused by hand warmth and the like

An exemplary embodiment of the subject matter of the invention is explained below with reference to the drawing Drawing shows

F i g. 1 shows a partial longitudinal section through part of the micrometer and the

F i g. 2 shows a section on a larger scale along the line I-I of FIG. 1.

ίο The micrometer shown essentially has the same structure as the micrometer described in DE-PS 20 23 263. Therefore only the new elements required to understand the invention are described, the ones already in the DE-PS 26 23 263 mentioned elements are provided with the same reference numerals.

In the drawing, the body 1 of the device can be seen, on which a flange 7 of the arm 6 with With the aid of a retaining ring 8 is attached, which is fastened to the body 1 by means of screws 9

In the outer wall of the arm 6 three longitudinal grooves are cut, which lead to the radial recesses 13, 14 and 15, which are each provided at the free end of the arm δ, in the flange 7 and in the body 1 are.

Keys 23 are located in these radial recesses

arranged, which also has a three-part structure own; a button 24, a longitudinal web 25 and a

Supported 26, the latter under the action of a

annular return spring 22 is.

At their ends, the buttons 23 carry the sensor 24 and the support part 26 on two conical parts 27 and 28, which are arranged coaxially on the rod 10. The rotating and sliding movements of the rod 10 are effected with the interposition of a micrometer measuring screw 29 by a control axis 2 which the rod 10 and the conical parts 27 and 28 are firmly connected.

The front conical part 27 consists of a 4 »smooth cone on its side surface, namely on the entire length from the apex to the base, the sliding surface 30 of the feeler 24 of the keys 23 is provided.

The rear conical part 28 consists of a ramp formed as a conical spiral with a Generating lines lying parallel to its axis of rotation, one turn of which the support shoe 31 of the support part 26 carries.

In contrast to the known micrometer of DE-PS 20 23 263 in which the drive screw for Longitudinal displacement of the conical parts by a value that is essentially the same for each handling The forward step corresponds to the ramp, with the measured value only in direct connection with the Rotary displacement of the mentioned ramps is, the micrometer measuring screw 29 with the invention optimal accuracy fitted into a corresponding thread of the device body t. This means that the Rotary and longitudinal displacements exactly proportional to each other. In addition, it is guaranteed that the on an inclined surface of the smooth cone 27 supporting button 24 experiences a radial displacement, which always is the same as that of the support part 27.

In the drawing, the micrometer screw is illustrated without an adjustment system that in itself can be formed in a known manner, for example with the help of a clamping ring with radial Resilience.

3 4

In Fig. 2, the ends of the three feelers 24 it is possible, the sliding surface 30 to the apex of the

shown to extend in the recesses 13 of the walls of the smooth cone 27, making eiu more optimal

Arm 6 are guided, namely in their minimum radial path is obtained, the keep the diameter

Spread position in which it corresponds to the cone axis of the base of the conical part 27

match, with their base at an angle of 5, the micrometer for internal measurements is the largest

120 ° beveled is given possible measuring capacity, for a given

Thanks to the use of a smooth cone for the maximum diameter of the smooth conical part 27. Control of the sensor displacements of the measuring button is

1 sheet of drawings

Claims (2)

Patent claims: 1. Micrometer for internal measurements of bores or the like with a micrometric reading drum, which with an axis designed as a micrometer screw with an axial extension rod is connected which is rotatably and longitudinally movably mounted in a tubular extension arm and at the front and rear end each has a conical part of those in the interior of the Micrometer body mounted conical part from a conical spiral with parallel to it Axis of rotation lying generatrix formed ramp consists at least one in one Longitudinal groove of the tubular extension arm guided measuring button with extension web on outer end with a radial sensor and at the inner end with a radial support part to the Komschen parts of the rotatable and longitudinally movable rod supported characterized by that the conical part located at the outer end of the arm consists of a smooth cone (27) that the radial path of the probe displacement half the diameter of the base of the smooth cone (27) corresponds and that the axial displacement of the smooth cone (27) exactly proportional to his Rotational displacement is 2. Micrometer according to claim 1, characterized that the sensor (24) of the measuring button (23) with its sliding surface (30) over the entire length of The apex up to the base on the generatrix of the smooth cone (27) rests.