SE439688B - PRECISION METHOD FOR CYLINDRICAL FORMS - Google Patents

Description

790225541 movable both in the longitudinal direction of the main road pin of the measuring cup, or thus both in the vertical arm and around a refusing straight and horizontal direction, so that it closely follows the surface of the roller even when the roller rotates, e.g. during machining, that: the braided frame and measuring instrument are supported by a support pillar, which in turn can be attached to the slide of a fixed centering grinding machine or lathe by means of a base, and that the weight of the measuring frame against the roller is relieved by means of a per se known adjustable counterweight.

The invention is described in more detail in the following with reference to the accompanying drawings, which illustrate an embodiment of the invention and in which Figure 1 shows the measuring device at its angle and cut through it.

Attached to the measuring frame 1 are three pivot points with pivotable rollers, namely a movable measuring tip 4 in an electronic measuring instrument, which is spring-loaded against the roller 5 (in Figure 1 indicated by a dash-dotted line), the opposite side of the roller located counter tip (6), which is attached to the longitudinally adjustable rod, and a support tip 7 located at the uppermost point of the roll, which is attached to a vertically adjustable rod and with which the measuring arc 1 rests against the roller 5 the rods 6 and 7 are The rollers 2 are mounted with ball bearings at the tip pieces 8, which likewise with ball bearings have been mounted at the ends of the tip rods (Ä, 6, 7) so that they can be freely swung around these, the center point of the rollers (2) being eccentric (e) with respect to the center line of the tip rods (4, 6, 7), so that they always (like wing legs rollers) stand in the correct direction ~ 2 have different in the direction of movement.The rollers are taken to be cylindrical.They can however, advantageously also be spherical. The construction of the tips is described in detail later in connection with an embodiment in which the rollers are acidic (Figs. 2 and 3). l The measuring arc l is of a box construction, and the one for damping vibrations is filled with pre-treated styrofoam grains which have been allowed to swell with the aid of steam. The measuring frame 1 is provided with a handle 9, and it is easy to replace it with a larger or smaller format, in that it is fastened to a sliding arm with the aid of a mounting bracket 11 and a steering screw 12. The sliding arm 10 is also of a box construction and at its one end a sliding slide has been designed, which is provided with in this case 16 roller bearing rollers, with the aid of which it is easily movable along a square sliding tube 13 of nerd-sintered and finely ground steel. The sliding tube 15 is mounted at the other end at a support piece of shelter with the aid of a pin shelter and ball bearing. At the sliding tube 13, a rudder setting arm 10 has been fastened with two bolts, to which a counterweight 1T has been fastened in the right-hand displacement type in Figure 1. The entire above-mentioned combination, the measuring arc 1, the sliding arm 10, the sliding tube 13, the extension arm 10 and the counterweight 17, is thus pivotable about the pin 1a, and the measuring arc 1 and the sliding arm 10 together with the sliding slide are also displaceable along the sliding tube 13. the frame 1 together with the measuring instrument is easily movable in all directions in the plane perpendicular to the pin 15 and the roller 9.

The said support piece 1% for the measuring devices is slidably attached to a support column 18 such that the support piece 14, which is provided with a diameter corresponding to a diameter of a support column 18 and a vertical slot, is lifted or lowered to the desired height by means of a screw spindle 19. and a crank 20 and is locked to the support column by means of a sun screw 21 (whose steering wheel or lever in the drawing is obscured by the extension arm 16). The support column 18 in turn rests on a base 22, and its height position in the base can be adjusted and locked by means of a screw and an arm 25. The base 22 can be fastened to the slide of a lathe or grinding machine for rollers by means of bolts.

The movement of the measuring cup 1 and the sliding arm 10 along the sliding tube 12 can be limited by means of stops 24, which are displaced along a rod, one end of which is attached to the sliding slide of the sliding arm and whose other end is displaceable in a piece attached to the sliding tube.

The electronic measuring instrument 3 gives through a line 25, which partly runs through the measuring arc 1, continuous measurement results to an indication box 26, which can of course be located anywhere but in this case is unlaceded in a visible place attached to the upper part of the support column 18 with the aid of a support arm 27. In the indication box 26 there is a 790225541 '-1 digital, with 7 segments and 16 mm high numbers provided: naicator and also a printer which writes the netting results on a strip of paper 29. The writing speed is by means of a t ”Down and a knob 50 adjustable within the range 3 times / sec. - l walk / 2 min.

The heating range for the roller diameter is 50 mm - 1500 mm and the accuracy is 0.01 mm - 0.002 mm.

All three tips (Ä, 6, 7) are the same and they can be provided with either cylindrical or spherical rollers. In the following a tip construction with spherical rollers 2 is described in detail, in this case a counter-tip 6 (Figs. 2 and 3). In a shaft journal 31 the spherical roller 2 is mounted with two ball bearings 32, between which there is an intermediate ring 33 for elimination of winches and outside which there are washers 3%.

This has the advantage that the tip, in whatever position it arrives at the end edge of the roll, even if it lies slightly below the mantle surface of the roll, always slides or rolls over the end edge up on the cylindrical surface of the roll and immediately stands in the right direction thanks whether the eccentricity e between the center of the shaft pin 31 and the longitudinal axis 35 of the tip rod 6 can thus, thanks to this device, measure all the way from and to the end edge of the roller. The eccentricity e can be 5 - Ä mm.

The longitudinal axis §5 of the tip rod 6 is mounted by means of a pair of ball bearing 36 in a cylindrical bearing piece 37, which by sliding fit is fixed inside the tubular tip rod 6, which is provided with grading for coarse adjustment. The tip piece 8 is balanced with respect to the longitudinal axis 35 by means of a counterweight 38, which may be of lead and forms part of the cylindrical upper part of the tip piece 8. A scraper 39 of thin (eg 0.02 mm) sheet steel is attached to the tip piece 8 with a screw, which keeps the roller 2 clean.

At the contact surface of the spherical roller 2 coming towards the roller 5, a narrow cylindrical zone Ze has been ground, thereby securing the concentration of the surface with the shaft pin 1. In addition, the contact area with the roller becomes larger, which is particularly important at

Claims (3)

79022554: S 'measurement of rollers with soft cladding (copper, rubber, etc.). Figure 1 shows in broken lines the contour of the moving parts when they are in a deviating position. The hinted position is of course exaggerated, in reality it is about 100-parts etc., and the figure only shows how the parts move. With the measuring device according to the invention, the following advantages are achieved compared with previous devices: The measurement result is extremely accurate and it is easy to read even from the paper strip, which at the same time constitutes a protocol. With the aid of the device, it is possible to center the roller, measuring only with the electronic measuring tip (with the horizontal movement of the measuring arc locked) at each end of the roller and centering due to the measurement result. - Since it is possible with the device to measure during the rotation of the roller during machining, it is easy to rectify faults immediately. - The tips are not abrasive but are provided with rollers, so that the surface of the roller is not damaged, and no impurities accumulate (thanks to the scrapers). - Thanks to the construction of the tips and rollers, it is possible to measure the roller from and to the end edge. - The measuring arches are light and quickly interchangeable to other formats. Patent claims Precision measuring device for cylindrical objects, in particular for large rollers (5), e.g. paper machine rollers, which device operates electronically and is provided with digital indication (28) and printer device (29), and which can be attached to the carriage of a centered grinding machine or lathe, and which device is provided with an in-plane perpendicular to it. movable measuring arc (1) during measurement (5), characterized in that three tips (4, 6, 7) provided with pivotable rollers (2) are attached to said measuring arc (1), namely one at the roller (5) 5) one side located, spring-loaded against the roll, electronic (3) measuring tip (U), a fixed but adjustable counter-tip (6) located at the opposite side (7) of the roller (5) and a highest point located at the roller (5), also fixed but adjustable support tip (7), by means of which the measuring frame (1) rests with its own (lightened) weight against the roller (5), that the measuring frame (1) with the aid of ball bearing constructions is easily movable both in the longitudinal direction of the measuring frame (1). 10) and about a horizontal pin (15), or thus both vertically and horizontal direction, so that it accurately follows the surface of the roller (5) even during the rotation of the roller, e.g. during processing, that the measuring arc (1) together with measuring instruments is supported by a support pillar (18), which in turn can be attached to the sledge of a grinding machine or lathe by means of a base (22), and that the measuring arc (1) against the roller (5) effective weight is lightened by means of a per se known adjustable counterweight (17). Measuring device according to Claim 1, characterized in that the measuring frame (1) is fastened to a sliding arm (10) by means of a mounting bracket (11) and a steering screw (12), at the other end of which a roller bearing is formed. sliding slide, which is easily and accurately movable along a square sliding tube (13), the other end of which is mounted on a support piece (1a) by means of a horizontal pin (15), and ball bearings, wherein as a continuation of the sliding tube (13) on on the other side of the support piece (14) there is a continuation arm (16) and a counterweight (17) slidably attached thereto, and that the support piece (1ü) is attached to the support column (18) in a slidable height position. Measuring device according to claim 1, characterized in that the rollers (2) are mounted with ball bearings at tip pieces (8), which, likewise with ball bearings, are attached to the ends of the tip rods (N, 6, 7). so that they are freely pivotable about the center line of the rods and that the rollers (2) are eccentric (e) with respect to this center line, whereby they always (like wing legs) stand in the right direction, and that the rollers are also provided with thin (0.02 mm) scrapers (39), which keep the rollers clean. Measuring device according to claim 3, characterized in that the surface of the roller (2) is spherical, except at its contact surface facing the roller (5), where it has a narrow cylindrical zone (2a), that the end of the tip piece ( 8), which forms a bearing fork for the roller (2) and to which the ball bearing shaft (31) of the roller is attached, the lower part of which has a spherical and substantially concentric and substantially spherical surface with the roller (2) mentioned equal sphere, and that the tip piece (8) is balanced with respect to the center line of the tip rod (6) by means of a counterweight (38).