DE29701281U1 - Tower-shaped calibration device for external dimension measuring devices - Google Patents

Description

Tower-shaped calibration device for external dimension measuring devices

The present invention relates to a device for calibrating external dimension measuring instruments.

Conventional external dimension measuring instruments can lose their accuracy after a certain period of use, so they should be calibrated regularly. If a 15 mm external dimension is to be calibrated, a 5 mm dimension block A and a 10 mm dimension block B must be used for calibration and placed together if a 15 mm dimension block is not available. If a 5 mm dimension block A and a 10 mm dimension block B are used, the respective working surfaces Al, Bl of the 5 mm dimension block A and the 10 mm dimension block B are placed together and then twisted, causing the corresponding molecules to attract each other (see Fig. 5). When the 5 mm gauge block A and the 10 mm gauge block B are firmly joined together, the outside dimension gauge C is applied to the gauge blocks A, B to calibrate it (see Fig. 6). Conventional gauge blocks are generally made of hard metal for this purpose, but they still wear out with use.

It is therefore the object of the present invention to eliminate the disadvantages of the above-mentioned prior art and to provide an improved calibration device for external dimension measuring devices.

This object is achieved according to the invention by a tower-shaped calibration device for external dimension measuring instruments,

which has the features specified in claim 1. The dependent claims are directed to preferred embodiments.

Further features and advantages of the present invention will become apparent upon reading the following description of preferred embodiments, which refers to the accompanying drawings, in which:

Fig. 1 is a perspective view of a tower-shaped calibration device for external dimension measuring instruments according to the present invention;

Fig. 2 is an exploded view of the tower-shaped calibration device for external dimension measuring instruments shown in Fig. 1;

Fig. 3 is a view of an application according to the present invention showing the calibration of an outside dimension caliper;

Fig. 4 is a view of another application according to the present invention showing the calibration of an outer dimension micrometer screw;

Fig. 5 the view already mentioned showing two dimensional blocks being joined together for a calibration of the prior art; and

Fig. 6 the already mentioned view showing the calibration of an external dimension caliper of the prior art.

As shown in Figs. 1 and 2, the present invention comprises a base plate 1 and a tower-shaped gauge 2. The base plate 1 is a trapezoidal block with

a horizontal upper channel 11 and a vertical through hole 12 in the center of the horizontal upper channel 11. The lower end of the hole 12 is a counterbore (not shown). The gauge 2 is a flat, tower-like block with a threaded hole 22 in the center of the bottom. The thickness of the gauge 2 is approximately equal to the width of the channel 11 so that the bottom of the gauge 2 can be inserted into the channel 11. When the bottom of the gauge 2 is inserted into the channel 11, a screw 13 is inserted from the bottom through the hole 12 and then screwed into the hole 22 of the gauge 2 to secure the gauge 2 and the base plate 1 together. The gauge 2 defines a plurality of gauge block sections 21 arranged one above the other. The gauge block sections 21 have a common vertical center axis. The width of the top dimension block section is 5 mm. Any two adjacent dimension block sections 21 have a width difference of 5 mm, i.e. the width of the second dimension block section from the top is 10 mm, the width of the third dimension block section from the top is 15 mm, etc. However, the width difference between any two adjacent dimension block sections with dimensions greater than 100 mm is 25 mm, i.e. the width of the dimension block section below the dimension block section with a width of 100 mm is 125 mm and the width of a dimension block section below the dimension block section with a width of 125 mm is 150 mm. Furthermore, two markings are provided on both sides of the tower-shaped dimension gauge to indicate the respective sizes of the dimension block sections 21.

Fig. 3 shows an application of the present invention for calibrating a caliper C. In use, the calibration device is placed on a platform, whereupon the caliper C is placed against the tower-shaped gauge 2 to measure the external dimension (width) of a

dimension block section 21, &zgr;. B. of the dimension block section with

the width of 20 mm. If the display of the

If caliper C shows 20 mm after the measurement, the measuring accuracy of caliper C is achieved at 20 mm.

Fig. 4 shows another application of the present invention for calibrating a micrometer screw D. When the display of the micrometer screw D indicates a dimension that is equal to the width of the measured dimension block section, the measuring accuracy of the micrometer screw D for the dimension in question is achieved.

Claims (4)

Protection claims 1. Tower-shaped calibration device for external dimension measuring instruments, marked by a base plate (1) with a horizontal upper channel (11), and a tower-shaped measuring gauge (2) with a bottom side, which is inserted into the horizontal upper channel (11) of the base plate (1) and is attached thereto by means of a fastening device (12, 13), wherein the measuring gauge (2) has several measuring block sections (21) with different widths, which are arranged one above the other and have a common vertical central axis, and the width of a higher dimension block section (21) is smaller than that of a lower dimension block section (21). 2. Calibration device according to claim 1,
characterized in that the dimension block sections (21) comprise a plurality of dimension block sections (21) with sizes below 100 mm, whereby two adjacent dimension block sections (21) with a size below 100 mm each have a width difference of 5 mm. 3. Calibration device according to claim 1,
characterized in that the dimension block sections (21) comprise several dimension block sections (21) with dimensions of more than 100 mm, wherein two adjacent dimension block sections (21) with • « ft
· * · · a width of more than 100 mm have a width difference of 25 mm. 4. Calibration device according to claim 1,
characterized in that the tower-shaped measuring gauge (2) is provided with markings which are assigned to the measuring block sections (21) and indicate the sizes of the respective measuring block sections (21).