The present invention concerns a method of adjusting and tracking a conveyor belt and an arrangement therefor, where the belt is arranged around at least two rotatable drums and the belt having a direction of travel along its length and orthogonally an axis of the at least two drums.
The method used to today for belt tracking of an conveyor around at least two drums is based on the idea that by means of a small angle adjustment of an axis of the drum the belt is caused to “wander” along its width until it reaches the desired position, whereby the angle adjustment is changed back to the desired angle for the drum where the belt keeps in the desired position. The position of the belt is monitored by means of at least one sensor. This works well when the belt moves with a normal velocity and the tolerance on the desired position is normal.
However new demands on fast moving belts with high accuracy have arisen, for example in the printing technology using ink printing. When printing pictures on blanks for packaging, for example, the accuracy is of utmost importance.
The aim of the present invention is to provide a method which will meet the new demands of accuracy while the belt is driven with a high velocity. As an example, a belt should be able to be driven around 200 m/min or more. Preferably, the displacement should not be more than 0.05 mm.
According to a first aspect of the invention a method of adjusting and tracking a conveyor belt arranged around at least two rotatable drums is provided. The belt has a direction of travel along its length and orthogonally an axis of the at least two drums. The adjustment of the belt is made by displacing at least one of the drums sideways seen in the direction of travel of the belt and thus also the belt so that the belt directly gets into a desired position. By moving the belt directly into the desired position, by means of the displacement of the drum, a direct adjustment can be made without delay instead of the method according to the known art where the belt is indirectly adjusted into the desired position by the angle change of the drum causing the belt to wander to the desired position.
According to an embodiment of the method, the displacement of the at least one drum and the belt sideways is a rotational movement of the at least one drum about a pivot point provided in an orthogonal plane along the centre of the belt, in the direction of the belt, at a distance from the at least one drum. In the known art the pivot point instead is positioned at a distance outside at least one of the ends of the drum in a thought line aligned with an axis of the drum.
According to an embodiment of the method, the distance is at least as long as the width of the belt. An advantage with this is that the rotational movement will have a large radius and thus a flat curvature so that the arranging of a drum axle in a frame will be easily achieved.
According to an embodiment of the method, the pivot point is positioned at a chosen position anywhere 360 degrees around an axis of the at least one drum.
According to an embodiment of the method, the at least one drum is moved back to a desired position of the drum without changing the position of the belt by compensating the desire of the belt to move sideways in the same direction as the at least one drum was moved by moving the at least one drum back towards the desired position of the drum, continuously. It can also be described as indirectly causing the belt to move in the same direction as the drum was moving (forward) when the correction of the belt position was made but at the same time withdrawing the drum, i.e. moving the drum back at the same speed as the belt is moving backwards back to the desired position for the drum, so that the belt actually keeps its desired position.
According to an embodiment of the method, sensing of the belt position is monitored constantly as well as the speed of the belt. This is preferably done using at least one sensor, for example a touchless sensor.
According to a second aspect of the invention a conveyor belt adjusting and tracking arrangement is provided comprising an belt provided around at least two rotatable drums. The belt having a direction of travel along its length and orthogonally an axis of the at least two drums. The drums are arranged with their axles in a frame and at least one drum is arranged with its axle in a pivot frame and the pivot frame is in turn adjustably arranged in the frame. The pivot frame is movable by means of a drum moving force, which in turn makes the whole drum, with the belt, arranged in the pivot frame to move with the pivot frame around a pivot point provided centrally of the belt seen in the direction of the belt at a distance from the drum, thus the belt is directly moved to a desired position.
According to an embodiment of the arrangement, the at least one drum is movable along a portion of an arc drawn up around the pivot point.
According to an embodiment of the arrangement, a flexible beam protrudes from the pivot frame in the same direction as the belt and is attached in its other end in the frame.
The present invention will now be described in more detail by means of different embodiments under referral to the enclosed drawings, wherein
The method will now be described under referral to
Now the drum 2 must be brought back to its desired position otherwise the belt 1 will start wandering sideways in the same direction as the drum 2 has been displaced, see the arrow B in
The distance between the drum 2 and the pivot point 5 is preferably so long that an arc shaped travel path 6 for displacement of the drum 2 sideways will be as flat as possible, i.e. have a large radius. Preferably, the distance is at least as long as the width of the belt 1. The pivot point 5 may be positioned in an orthogonal plane along the centre of the belt seen in the travel direction and anywhere around the circumference of the drum 2. For example, it may be provided vertically above the drum 2 or horizontally close to the belt 2 or in the thought elongation of the belt 1 if the belt was not deflected by the drum 2.
The position of the belt 1, drum 2 and the velocity of the belt 1 are monitored and controlled by means by a PLC, Programmable Logic Controller 21.
Different embodiments of a conveyor belt adjusting and tracking arrangement will now be described in more detail referring to
The drums 2 are arranged with their axles 7 in a frame 8 and at least one drum 2 is arranged with its axle 7 in a pivot frame 9 and the pivot frame 9 is in turn adjustably arranged in the frame 8 or the axle 7 reaches into the frame 8. It is conceivable to have more than one drum 2 having a pivot frame 9 so that more than one drum 2 is displaceable in the conveyor belt adjusting and tracking arrangement. The pivot frame 9 is movable by means of a drum moving force 10, shown as an arrow in
In the embodiment shown in
In the embodiment shown in
The pivot frame 9 is movable by means of a drum moving force 10, shown as an arrow in
The pivot frame 9 is arranged at the two axle ends 7 of the drum and runs therebetween outside of the drum 2. Centrally of the pivot frame, between the axle ends 7, a beam 15 is attached in its first end 16, more or less orthogonally to the drum axle 7. Preferably, the beam 15 is flexible in an elastic manner. The beam is attached in its second end 17 in the frame 8, for example in an orthogonal portion 18 of the frame 8. The attachment could either be a fixed attachment or a flexible attachment, such as a hinge-like attachment. The attachment provides the pivot point 5 for the pivot frame 9.
The beam 15, especially if it is flexible in an elastic way, gives a gap free connection between the drum 2 and the frame 8, since it will bring tensional force to the sideways movements of the drum 2.
The position of the belt 1 is monitored by means of at least one sensor 19, preferably a touchless sensor. The sensor 19 is preferably provided in the vicinity of the displaceable drum 2. Also, the velocity of the belt 1 may be monitored by means of speed sensor 20. A PLC 21 is arranged and in connection with both the position sensor 19 and the speed sensor 20. The PLC 21 handle and store relevant data and may be programmed to move the drum 2 back and forth sideways along the arc shaped travel path 6 by means of the actuator 13.
In
As previously noted, the pivot point 5 may be arranged at any positional degree around an axis of the drum 2. Another embodiment is shown in
It is preferred that the actuator 13 is able to quickly and with high precision move the pivot frame 9 and thus the drum 2.
Number | Date | Country | Kind |
---|---|---|---|
18202695 | Oct 2018 | EP | regional |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/EP2019/079102 | 10/24/2019 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2020/084090 | 4/30/2020 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
2160057 | Carus | May 1939 | A |
3973446 | Vasilantone | Aug 1976 | A |
4421228 | Marsiglio | Dec 1983 | A |
4557372 | Rajagopal | Dec 1985 | A |
4959040 | Gardner | Sep 1990 | A |
6267228 | Cadwell | Jul 2001 | B1 |
6286663 | Hartmann | Sep 2001 | B1 |
6584900 | De Vroome | Jul 2003 | B2 |
8857602 | Clevers | Oct 2014 | B2 |
20030047424 | Monahan | Mar 2003 | A1 |
20090090603 | Ricciardi | Apr 2009 | A1 |
20150232282 | Eagleson | Aug 2015 | A1 |
20190291990 | Sasaki | Sep 2019 | A1 |
Number | Date | Country |
---|---|---|
19704800 | Aug 1998 | DE |
608907 | Sep 1948 | GB |
Entry |
---|
International Search Report and Written Opinion from corresponding International Patent Application No. PCT/EP2019/079102, dated Jan. 27, 2020, 13 pages. |
Number | Date | Country | |
---|---|---|---|
20210380347 A1 | Dec 2021 | US |