DE2603395A1 - Micrometer with slightly extended scale for increased range - allows measurement of objects slightly larger than nominal range of instrument - Google Patents

Abstract

The micrometer has a slightly extended scale so that objects may be measured over a slightly larger than usual range, and so that the ranges of micrometers in neighbouring range scales overlap. The micrometer for the range 0-25 mm is simply extended by, say, 2 mm above this, whilst that for the 25-250 mm range is extended at both the top and lower ends of that range by, say 2 mm. An auxiliary scale of half units is extended in each case correspondingly.

Description

M I K R O M E T E R The invention relates to a micrometer, its Measuring range is actually to be expanded.

With previously known micrometers, the sleeve is every 0.5 mm (0.025 Inches) with graduation marks. When the cap connected to the spindle has a performs full rotation, the end face of the cap shifts 0.5 mm in the longitudinal direction the sleeve.

The reading is made using the scale on the sleeve and using a Scale that is anoronet over the circumference of the cap. The measuring ranges of such micrometers are each stepped by 25 mm, e.g. from 0 - 25 mm, from 25 - 50 mm, from 50 - 75 mm, and immediately (0-1 inch, 1-2 inch, 3-4 inch). Micrometers stand accordingly with different temple sizes available. If the measuring range is beyond 25 mm, a reference rod or measuring block must be placed between the abutment of the The bracket and the spindle are introduced to take measurements with a zero setting to enable. In the case of micrometers, on the other hand, the measuring range of which goes from O - 25 mm you bring the spindle directly to the abutment of the bracket. Accordingly there is no need for a zero setting using a reference rod.

Common micrometers are designed so that you can see the spindle can move beyond the measuring range. So objects can be grasped their size slightly outside the measuring range lies. So is it is common, for example, to use one instead of a micrometer on the larger scale to fall back on those of the smaller level if the measured value slightly exceeds the measuring range exceeds. However, the sleeve does not have a scale for measuring objects which go beyond the measuring range. The reading takes place in such a Fall emotionally, which can lead to incorrect measurements.

The invention is primarily directed to a micrometer to create with which one an object whose size is slightly outside of the measuring range, can be measured precisely, without a micrometer of the subsequent To have to fall back on the measuring range.

For this purpose, according to the invention, the measuring scale is followed by a provided another scale, the length of which is from the displacement path of the spindle over the measuring range depends on. In the case of a Mikromeyer whose measuring range is from O - 25 mm (O - 1 inch), which means that a zero setting without a reference stick or measuring block is possible is, the further scale should preferably be based on the: cximum-itrich der within Connect the measuring scale lying close to the measuring range. Deviating from this or in addition to this end, the additional scale can advantageously be based on the minimum line of the Connect the measuring scale lying within the measuring range, provided that the measuring range of the micrometer from 25 - 50 mm, 50 - 75 mm (1 - 2 inches, 3 - 4 inches ...)) goes, a reference block or a measuring block is then required for the zero setting is.

further Morkmole and advantages of the invention will emerge from the following Description of preferred exemplary embodiments in connection with the enclosed Drawing. The drawing shows in: Figure 1 a and 1 b a micrometer after a first Embodiment of the invention; Figure 2a and 2b one micrometer after a second Embodiment of the invention.

FIG. 1 a shows a micrometer 1 with a measuring range of 0-25 mn (o - 1 inch). So it is a zero setting without the use of a reference rod or a measuring block possible. A measuring scale 2 a is arranged on a sleeve 2, which over the measuring range of 0 - 25 mm a subdivision of 1 mm inch each) owns. Furthermore, the sleeve carries a scale 2a 'with a graduation of 0.5 mm (0.025 inch). The end face of a cap 4, which by rotating together with a Spindle 3 is movable in the longitudinal direction of the sleeve 2, carries a scale 4 a with a Subdivisions of 0.01 mm (0.005 inches).

According to Figure 1 a and 1 b are a scale 5 with a graduation of 1 mm (0.05 inch) and a 5 'scale graduated by 0.5 mm (0.025 inch) provided, depending on the displacement of the spindle 3 over beyond the measuring range. These additional scales follow the Integrol scale 2 b and the tlaximum scale 2 b 'of the 1 mm scale 2 a (0.05 inch), which is on the Sleeve 2 are provided within the Weßbereiches.

Figures 2 a and 2 b show a further embodiment according to of the invention, namely a micrometer 1 with a measuring range of 25 - 50 mm (1 - 2 inches). In this case, depending on the displacement path the spindle beyond the measuring range, a 1 mm scale 5 and a 0.5 mm scale 5 ' intended. The latter follow the integral maximum scales 2 b '' 'and the Minimum scales 2 b ″ of the 1 mm scale 2 a, which are within the measuring range the sleeve 2 is arranged. It should also be noted that the invention is applicable is on micrometers with a measurement range greater than 50 mm (3 inches).

According to the invention, as described above, it can even be such Object to be measured accurately, the dimensions of which are slightly outside the measuring range using the scales on the sleeve and cap. In this way, the measuring range of a micrometer actually expands, what contributes to its use effect.

Claims (3)

PATENT CLAIMS 1. micrometer with a measuring scale arranged on a sleeve inside of the measuring range, characterized by a subsequent to the measuring scale (2a, 2b) another scale (5.5 '), the length of which depends on the displacement path of the spindle (3) over the Depends on the measuring range. 2. micrometer according to claim 1, which has a zero setting without Allows the use of a reference rod or a t'eßblock, characterized in that that the further scale (5.5 ') is at the maximum line within the measuring range lying escalator (2a, 2b). 3. Micrometer according to claim 1 or 2, which is used for zero setting requires a reference rod or a measuring block, characterized in that the other scale (5.5 ') to the minimum line of the one lying within the measuring range Measuring scale (2a, 2b) connects. L e r s e i t e