DE3325397A1 - Battlement-shaped stepped end measure - Google Patents

Abstract

The invention relates to a battlement-shaped stepped end measure having an elongated support body and a plurality of end-measure pieces mounted at a defined spacing from one another along a straight line. The support body, which is open upwards along a deep groove, supports the preferably cylindrical and measure parts in the region of its longitudinally extending neutral fibre, so that sagging to the distance of the end faces have scarcely any effect. In order to prevent torques being induced in the support body when the stepped end measures are set up at a slant, it is provided that the side pins provided for support or retention are arranged at the same level as the neutral fibre. Provided for this purpose is a U-shaped retaining bow, which grips the support body and onto which it is possible to screw the side pins at different circumferential positions. In the case of large stepped end measures of lattice-type design, it is possible for each pin to clamp in each case one support bow on two adjacent longitudinal bars of the support body, from which the side pin projects approximately centrally. It is possible to realise different types of support or retention using single-point or double-point support.

Description

Crenellated step gauge

(Addition to patent 32 19 713) The invention relates to a crenellated Step gauge according to the preamble of claim 1 or according to patent 32 19 713.

Such step gauges are used to check the accuracy of multi-coordinate measuring devices required, with these step gauges horizontally, vertically or at an angle within the measuring volume of the measuring devices to be checked can be arranged. The step gauge according to the main patent is thanks to the individual arrangement of the gauge blocks within the neutral The fiber of the support body is particularly dimensionally stable and largely independent of the bending state of the support body.

Regardless of this, efforts will be made to minimize deformations of the supporting body get along, because in the bent state the end faces of adjacent dimension pieces are no longer parallel to each other, but rather a - albeit very small - Include angles.

Usually roller feet are on the underside of the support body clamped so that the step gauge block can be tilted sure on one To be able to set up a pad. With increasing installation of the step gauge However, the dead weight of the supporting body causes bending moments in the support points initiated, which lead to increased deflection of the support body.

The task of the present additional invention is to provide the holder or Design support of the support body in such a way that with an inclined installation of the step gauge, the deflection of the supporting body to the unavoidable minimum remains limited.

According to the invention, this object is achieved by the characterizing features solved by claim 1. Thanks to the level arrangement of the side pegs with regard to the neutral fiber of the supporting body, which also coincides with its median line, the support body is always held in the area of the center of gravity when it is set up at an angle.

Accordingly, there are no bending moments when supported in the Support body initiated.

Appropriate refinements of the invention can be found in the subclaims can be removed. In addition, the invention is based on various in the drawings illustrated embodiments will be explained below; show: figure 1 is a longitudinal view of a first embodiment of a holder of a step endm.jßes Via two opposite side pins with access to the gauge blocks from above her (step gauge lying upright), Figure 2 a one-sided bracket the step gauge ("transverse") by means of a single side pin for each mounting point, Figure 3 and 4 two different side views of a one-sided pivotable bracket a step gauge with only a single mounting point, Figure 5 shows the arrangement the side pin on a large step gauge in lattice construction, Figure 6 the cardanic Bracket of a step gauge on a dividing head with probing direction from above and FIG. 7 shows a cardanic suspension similar to that according to FIG. 6 with a probing direction of the gauge blocks from the side.

The various step gauges 1 shown in the figures exist essentially from a support body 3 of at least approximately square envelope contour and U-shaped supporting cross-section. At the bottom of the enclosed by the U-profile A rectangular receiving groove 16, which is open at the top, is incorporated in the clear space, in which the individual gauge blocks 6 are inserted one behind the other at a distance and therein are clamped. The arrangement and cross-sectional design of the support body 3 is taken so that the neutral fiber 11 of the support body at least approximately with the center line of the gauge blocks 6 coincides in terms of position. The location of the neutral Fiber 11 inside of the cross-section results from the point of intersection the horizontal (12) and vertical axes of inertia 13 of the cross-section of the Support body 3. The same applies to that shown in detail in FIG Large step gauge 2 with a support body 4, which is like a lattice mast of is formed approximately in cross-section with a square basic shape.

A body comparable to the supporting body 3 of the step gauge 1 is designed therein as an inner longitudinal spar 25; at the corner points of the cross-sectional profile outer longitudinal bars are attached in tube form. The longitudinal bars 25 and 26 are through Cross braces 27 braced with one another in all directions. In the difference to a normal lattice mast, however, the support body 4 of this step gauge block one circumferential side open - open side 28 - so that access to the gauge blocks is accessible through a wide open space.

To reduce the deflection of the supporting body when the step gauges are set up at an angle to limit it to the unavoidable amount of sagging due to its own weight, are those provided for supporting or holding the support body - in the case of the ones shown Embodiments cylindrical - side pin 29 arranged in such a way that their Center line 30 in the same plane as the neutral fiber 11 of the support body 3 or 4 lies. The neutral fiber 11 is positionally aligned with the vertical line of the supporting body match. Because of this, the step gauges cannot be installed with a steep incline Moments arise that cause the supporting body to deflect beyond its own weight Would increase measure. When mounting roller brackets on the underside to fill such moments are introduced into the support body in the case of inclined installation, which increase the bending state.

In the embodiments according to Figures 1 to 4, 6 and 7 is for each support or support point a substantially U-shaped, the prismatic support body 3 of the step gauge encompassing retaining bracket 31 is provided, which can be clamped to it by means of transverse pressure screws 33. In fact extends the retaining bracket 31 with retaining lugs 32 up to the top to which it is from is pressed down with the pressure screws 33. Thanks to the prismatic design of the support body, the retaining bracket can be at any longitudinal position of the step gauge be clamped, so that different types of support in terms of positioning the support points can be realized in the longitudinal direction. On the bracket you can the side pegs 29 are screwed in different circumferential positions, including in the illustrated embodiment (; threading holes 34 in the bracket 31 are attached, the axis of which exactly on the neutral fiber 11 of the support body is aligned. The two attached to the side legs of the U-shaped retaining bracket Threaded bores are exactly aligned with one another. The side pin 29 have corresponding Threaded pin 35 so that it can be screwed to the retaining bracket 31 in an interchangeable manner are.

In the type of use shown in FIG. 1, two sides are included 29 screwed into the retaining bracket 31 opposite and in alignment the bracket or support is appropriate for a two-point support the step gauge, for example in the so-called Bessel points. the Side pegs 29 of one of the support points are inserted into corresponding prisms, whereas the two side pegs of the other storage point are on the upper side level Spacers are placed. Such a way of supporting the step gauge is above all at the top or at the top of the head at the bottom Probing of the gauge blocks 6 is displayed.

The type of use shown in Figure 2 is for lateral probing the gauge blocks suitable, whereby the measuring machine to be checked is a somewhat modified one Task is set - in comparison to the list according to Figure 1 - other weaknesses or can expose sources of error. With this `` transverse '' opening of the step gauge only a single side pin 29 is provided for each mounting point, with this on the side opposite the open side 28 of the step gauge is screwed so that the gauge blocks 6 are freely accessible. The side pegs 29 must be firmly clamped in this type of bracket so that the U-shaped Retaining bracket 31 can protrude freely.

In addition to the already mentioned 2wc> 1 point support of the step gauge a bracket in just one point is also possible, for example in the figures 3 and 4 on the I3e L there is a "transverse" bracket according to the model of Figure 2 is shown.- Although it is with a single-point bracket the deflection of the support body caused by gravity is greater than with a two-point support; however, with a one-point bracket, there is a change in position of the step gauge within of the measuring volume can be realized more easily than with a two-point support.

For the most comprehensive possible control of a multi-coordinate measuring device if you want a control measurement of the step gauge in as many different ways as possible Perform layers. For this purpose is in the holder according to Figures 3 and 4 the step gauge block not only about a horizontally lying pivot axis 38, but can also be pivoted about a vertically standing pivot axis 39, the step gauge block arretierhar with respect to each of the pivot axes 38 and 39 in any pivot position is. In the embodiment shown in Figures 3 and 4, the LJ-shaped Retaining bracket 31 is provided with a tenon screw 29 'on the underside, with <1 er on the side can be clamped to the vertical legs of a bracket 37. The pin part of this screw serves here as a side pin and at the same time as a pivot pin, so that the axis 30 of the pin screw 29 'is also the horizontal pivot axis 38 represents. By tightening the tenon screw, the step gauge is set in the respective Locked in position.

It is very similar with the possibility of pivoting around the vertical Procure standing pivot axis 39.

The bracket 37 is with its horizontal Schenkei by means of a another tenon screw 37 is screwed onto the base; the tenon part of the tenon screw serves as a pivot and for precise fixation. the Locking takes place by tightening the pin screw 42. It lies exactly vertically below the axis of the trunnion screw 29 ', so that the two axes 38 and 39 and the cut neutral fiber 11 into a common point. This way is one Cardanic suspension of the step gage realized in which despite a pivoting of the step gauge block around one or the other axis a point of the step gauge block stationary What remains in the case of control measurements with different positions of the step gauge is particularly useful.

Figures 6 and 7 show in principle similar brackets as the according to Figures 3 and 4, alternatively an L-shaped bracket 41 or a U-shaped Storage bracket is provided. This is clamped on the turntable of a dividing head 40, which is not only equipped with an accurate angle measuring system for recording the azimuth position - in the "standing" turntable installation according to Figure 6 - is provided, but which is also equipped with a corresponding servo drive for this pivoting movement is. Modern partial heads of this type can also be preprogrammed, so that they move into certain positions one after the other according to the program specifications and maintain it for a certain period of time. With such a facility leaves together with a corresponding programming of the dividing head and also the Measuring program for the measuring machine to be checked an automatically running extensive Carry out control measurements, which can take place during the night. It is here to it think that there are a lot of measuring points on the step gauge must be approached; in addition, these measuring points are one and the same Type of installation of the end of the step usually measured five times in a row. FIG. 7 shows the same partial head 40 and the same holder of the step gauge block 1, but with the "lying" installation of the turntable 40 and lateral access to the End dimensions via a cranked button. The most important thing here is accuracy of the touch probe with regard to a vertical axis for accuracy: checked. In the case of the type of installation according to FIG. 7, the azimuth angle of the step gauge is through the locked pivot position of the step gauge block 1 on the bracket 41 specified; by the turntable 40 can only be varied the elevation position of the step gauge. It would also be conceivable to use the horizontal turntable according to FIG. 7 with the step gauge on a second stationary turntable, so does the other The swivel angle can be varied by remote control and an even more comprehensive measuring program can be driven off automatically.

In the case of the large step gauge in lattice construction shown in FIG a U-shaped retaining bracket encompassing the entire cross section of the support body 4 possibly

become too heavy, which is why two individual mounting brackets 36 are provided here which can be clamped onto two adjacent longitudinal spars 26 of the support body 4. to For this purpose there are several clamping screws in the area of the ends of the support bracket 43 provided with which - blank page -

Claims (12)

Claims Q Crenellated step gauge with an elongated Support body and several along a straight line at a defined distance from one another fixed gauge blocks, the support body having a longitudinal on its upper side Has groove, on the flanks of which the preferably cylindrically shaped end dimensions are individually fastened one behind the other and wherein the support body in cross section in such a way is designed that its longitudinally extending neutral fiber approximately through the central axis of the end gauges runs, according to patent 32 19 713, characterized in that the Holding or support of the support body (3, 4) on at least one of the support body (3, 4) transversely protruding side pegs (29, 29 ') takes place, the center line (30) in the same plane as the neutral fiber (11) of the support body (3, 4). 2. step gauge according to claim 1, characterized in that for each support or support point is essentially U-shaped, the prismatic Support body (3) encompassing, by means of transverse Pressure screws (33) clip (31) is provided on it, to which the side pin or pins (29, 29 ') can be screwed on in different circumferential positions. 3. step gauge according to claim 1, characterized in that for each Side pin (29) one on two adjacent longitudinal spars (26) of the type of a lattice mast designed support body (4) clampable (43) support bracket (36) is provided by which protrudes approximately in the middle of the side pin (29) (Figure 5). 4. step gauge according to claim 1, 2 or 3, characterized in that that each mounting or support point two opposite, aligned with each other Side pins (29) are provided. 5. step gauge according to claim 1, 2 or 3, d a d u r c h g e k e n It is not noted that a single side peg is used for each mounting or support point (29) is provided. 6. step gauge according to claim 5, d a d u r c Ii g e k e n n z e i c h n e t that the only side peg on each mounting or support point the circumferential side opposite the groove (16) for receiving the gauge blocks (6) of the support body (3, 4) is arranged. 7. step gauge according to any one of claims 1 to 6, characterized in that that it is supported in two longitudinal positions. 8. step gauge according to one of claims 1 to 6, characterized in that that it - protruding freely on both sides - is held in a single longitudinal position. 9. step gauge according to claim 8, characterized in that it is horizontal and vertically pivotably supported and with respect to each pivot axis (38, 39) in each any pivot position can be locked. 10. step gauge according to claim 9, characterized in that the Pivot axes (38, 39) are arranged so that they are on the neutral fiber (11) of the support body (3) cut. 11. step gauge according to claim 9 or 10, characterized in that that for measuring the azimuth and / or the elevation movement or position of the support body (3) an angle measuring system is provided in each case. 12. Step gauge according to claim 9, 10 or 11, characterized in that that a servo drive is provided for the azimuth and / or elevation movement is.