FI75667B - ANORDINATION FOR THE CONSTRUCTION OF THE FLUTAL EFFECT VARANDRA BELAEGNA VALSAR. - Google Patents

Description

1 75667

Device for precise alignment of several successive rollers

The present invention relates to an apparatus for precisely aligning a plurality of successive rollers, the apparatus comprising a transmitter transmitting a limited beam perpendicular to the rollers, for example a laser beam, at least one reflective member set in a position relative to the rollers, and a measuring plane or the like. is provided with measurement markings to indicate the position of the rollers.

Applications where such precise alignment of several rolls is required are, for example, conveyor tracks in the glass industry, printing machines and the graphics industry in general, paper and board machines, metal industry machines and conveyors, sawmills, etc. These devices have proven to use light or laser beam. as an aid.

An example is U.S. Patent 4,298,281, in which a transmitter transmits a beam in a direction perpendicular to the rolls at a distance from the ends of the rolls, a prism or mirror folds the beam in the direction of each roll to be measured, and attaches a mirror to the roll end. Such an arrangement requires, on the one hand, that the beam-folding device must always be moved at each roll and, on the other hand, that the mirror must also be attached alternately to the rollers. Another notable problem is also that very often the end surface of the roller shaft is not exposed for mounting the mirror.

The object of the present invention is to provide a measuring device which, on the other hand, enables precise alignment of the rollers and which is extremely simple and fast to use. It is a further object to provide a device which allows the measurement to be performed by one person.

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In order to achieve the above objects, the device according to the invention is characterized in that the reflecting member is double-sided and arranged on a measuring body rotatable about at least 180 axes and is further provided with support members connected to or supporting the measuring body. and keep the axis of the measuring piece parallel to the axis of the roll.

Such a device can be easily and quickly transferred from one roll to another without attaching the device to the roll, and in addition, the device can be calibrated in a few seconds by rotating the measuring piece, as will be explained below.

The invention will now be described in more detail by way of example and with reference to the accompanying drawings, in which Figure 1 schematically shows a device according to the invention in the measuring radius direction, Figure 2 shows the same device from above, Figure 3 shows a perspective view of the device during measurement, Figure 4 shows the same measurement as Figure 3 from above Fig. 5 schematically shows a device according to the invention seen from the end of a roll, and Fig. 6 shows a view similar to Fig. 5 of an alternative embodiment of the invention.

Figures 1 and 2 thus show the device according to the invention from the side and from above, the device being placed on the roll 1 to be measured. The device comprises an elongate body 2, which may be, for example, a round rod and which extends parallel to the roll, as will be described below. At each end of the measuring rod 2 there is a larger fixed ring 3, the surface of which is preferably bumped.

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The measuring rod is supported by two parallel support rods 4, the ends of which also have fixed rings 5. At each end of the rods 4 there are transverse tie rods 6 connected to the end pieces 7 at the ends of the support rods 4 so that the distance between the support rods 4 can be adjusted. In the embodiment shown in the figures, the second end piece 7 is provided with a quick-release lock 8, which enables a quick adjustment of the distance between the support rods 4. The purpose of the distance adjustment is that in this way the height of the measuring rod 2 above the roll 1 to be measured can be adjusted.

The measuring element is a mirror 10 fixed to the center of the rod 2, the position of which relative to the rod 2 can be adjusted by screws 9. The mirror 10 is double-sided, so that it is also visible from the opposite side of the rod, although not shown in Figures 1 and 2.

The operation of the device is described below with reference to Figures 3 and 4.

The laser transmitter or the like 11 is arranged by means of a suitable stand known per se so as to transmit the measuring beam in the direction of the roll line, i.e. perpendicular to the axis of the rolls. When the laser beam is made to hit a measuring plane 12 provided with measuring lines or markings, the adjustment of the mirror, i.e. the calibration of the device, is performed as follows. When the device is in one and the same place on the roll 1, the measuring rod 2 is rotated about its 180 axis so that the laser beam is reflected from the opposite surface of the mirror. When the mirror 10 is adjusted so that the beam in each case hits the same point on the measuring plane 12, the plane of the mirror is parallel to the axis of the roll. The center alignment of the rollers is then checked by moving the measuring device from one roll to another in succession and adjusting each roll so that the reflected beam always hits the same point on the measuring plane. The measurement is very easy and fast to perform, and the design of the device ensures that the measuring rod and the accompanying mirror remain in exactly the correct position in relation to the roller.

From the manufacturing point of view, it is advantageous to use the support rings described above in the measuring rod in the support rods, respectively. Turned tires are always positioned exactly in relation to the roller and the manufacturing accuracies are also good without special methods. It is also clear that, for example, the measuring rod and the support rods can be made of tubes of varying lengths, which are then connected to the rings and to the mirror part, whereby the length of the device can be varied if necessary.

It is also clear that the support structure can be implemented differently from that shown in Figures 1-5. In Fig. 6, the ring 3 at each end of the measuring rod is supported by two bracket-like support irons 13, which are articulated between the measuring rod and the roll to be measured and are respectively connected at the upper end by threaded pins 15 and associated threaded sleeves 16. raise or lower the dipstick relative to the roller. The structure is shown schematically, for example the threaded pits 15 are articulated to the ends of the support irons 13. As already stated, the support structure can be varied widely within the scope of the idea of the invention.

Claims (7)

An apparatus for precisely aligning a plurality of successive rollers (1), the apparatus comprising a transmitter (11) transmitting a limited beam directed perpendicular to the rollers, e.g. or the like, on which the reflected beam strikes and which is provided with measuring marks to indicate the position of the rollers (1), characterized in that the reflecting member (10) is double-sided and placed at least about 180 degrees on its rotatable measuring body (2, 3), and the device is further provided with support members (4, 5) connected to or supporting the measuring piece, which rest on the roll (1) to be measured symmetrically with respect to its axis and keep the axis of the measuring piece (2, 3) parallel to the roll axis. Device according to Claim 1, characterized in that the measuring piece (2, 3) is rod-shaped and a double-sided mirror (10) is fastened to its center so that each reflecting surface of the mirror is perpendicular to the rod. Device according to Claim 2, characterized in that the ends of the rod (2) have rings (3) with a diameter larger than the rod, by means of which the rod rests on the support members (4, 5). Device according to claim 1, characterized in that the support members comprise two spaced parallel elongate members (4) with rings (5) resting on the surface of the roll (1) to be measured at their ends. Device according to Claim 4, characterized in that the rings (3) at the ends of the measuring rod (2) are in turn arranged to rest on the rings (5) at the ends of the support members. 6 75667 5,75667 Patent claims Device according to Claim 4, characterized in that the support elements (4, 5) are connected at their ends so that their mutual distance is adjustable. Device according to Claim 2, characterized in that the mirror (10) is provided with adjusting screws (9) for adjusting its position relative to the rod (2). 7 75667