The invention relates to a method and an apparatus for adjusting suction rolls, in particular for use in a machine for producing or processing a paper web or a different web of fibrous material.
Suction rolls are perforated rolls with regions on the surface where a negative pressure is generated in order to retain water or to redirect the paper web. Said regions are referred to as “suction zones.” The suction zones of a suction roll are separated by sealing strips that are located below the outer surface. Between the sealing strips and the outer roll surface, a water lubricating film forms, which seals the suction zones. Suction pressure rolls are a special type of suction roll. Together with a mating element, usually a mating roll, these suction rolls form a press nip for pressing and removing water from the web of fibrous material.
Suction rolls of this type, as well as the adjustable sealing strips and edge deckles, are described in documents DE 10 2009 000 371 or EP2707544 B1, for example.
The position of the sealing strips, and therefore the positioning of the region of the outer roll surface at which the negative pressure is present, is, in the case of suction pressure rolls for example, extremely important for enabling the optimal dewatering of the paper web. As a result of an incorrect positioning of the suction box, the dry content of the web of fibrous material can be 1-2 percentage points lower than in the case of an optimal positioning, which constitutes a massive loss of efficiency of the press.
These days, the adjustment of the suction box is performed manually while the machine is running, and is visually evaluated:
The suction zones are not only limited in a tangential direction by sealing strips, but rather also in an axial direction (transverse direction to the paper web). What are referred to as edge deckles provide said delimiting of the suction zone. Since different paper types are usually produced on a paper machine, the width of the paper web differs slightly, for example due to differing shrinkage characteristics for the various products. Therefore, for optimal operation of the suction roll, the edge deckles frequently also need to be adjusted.
For this adjustment, the suction zone should not be too narrow (compare to the paper web), in order to avoid “edge flipping,” that is, a lifting off or folding over of the paper web. However, it should also not be wider than the paper web, in order to avoid false air, which increases the energy consumption considerably.
The conventional adjustment of edge deckles is carried out using a bar on the operator side (threaded rod, normally with dimensioning), which bar indicates the depth of the edge deckle. Because this indicator does not enable a direct comparison between the position of the paper web and the edge deckle, the adjustment depends on the experience of the personnel. In this case, the operator looks for a web flapping of the paper web for example, which indicates that the edge deckle is extending too far into the paper web, and that a vacuum is no longer present at the edge.
For edge deckles, optical solutions that are more modern are also known from document EP2707544 B1, which solutions enable the identification of the edge deckles on the paper web. For solutions of this type, an intervention in the roll and the installation of electrical components are required in order to generate the light source. In addition, a system of this type is not suitable for all paper/felt combinations. Some combinations are so “fat” that the light beam can no longer be recognized.
Embodiments of the present invention is to improve the weaknesses of the prior art.
In particular, the embodiments enable a reliable and reproducible positioning of sealing strips and/or edge deckles in suction rolls.
Furthermore, embodiments simplify the optimal adjustment of the suction roll for the operating personnel.
These embodiments are entirely attained by a method according to claim 1 and an apparatus according to claim 4. Preferred embodiments are described in the dependent claims.
According to embodiments, a method for adjusting a suction roll, in particular for a machine for producing or processing a web of fibrous material, is proposed, wherein the method comprises:
With this direct optical display of internal components that are otherwise not visible from the outside, it is then very easily possible for the operating personnel to carry out the optimal adjustment of the roll.
In addition, when the method is carried out again after a modification, for example of the sealing strip position, the operating personnel immediately sees the result of the adjustments performed.
Even if it is clear to the person skilled in the art, it should be noted here for the sake of completeness that, within the scope of this application, a “method for adjusting a suction roll” is also to be understood as a type of method in which no modifications or adjustments are carried out following the display of the determined actual values by superimposing the position of the non-visible components on a display with the image and/or video recording, since the components are already correctly positioned, for example.
Advantageous embodiments are described in the dependent claims.
It can thus be advantageous if the method additionally comprises:
It can be additionally provided that the method also comprises:
With regard to the apparatus, embodiments are directed to an apparatus for adjusting a suction roll, in particular for a machine for producing or processing a web of fibrous material, comprising a camera for recording image/video recordings, a computing unit, and a display, wherein the camera is in contact with the computing unit such that it can transmit the image and/or video recordings to the computing unit. According to the invention, the apparatus is configured to perform a method according to an aspect of the invention.
The proposed method comprises aspects of what is referred to as augmented reality (AR).
In the reality-virtuality continuum (according to Paul Milgram, et al., 1994), augmented reality (AR) and augmented virtuality are part of what is referred to as mixed reality. While the term augmented virtuality is hardly used by experts, augmented reality and mixed reality, infrequently also enhanced reality, are usually used synonymously. In contrast to virtual reality, in which the user is completely immersed in a virtual world, the display of additional information has priority in augmented reality. For the visual modality, this results in significantly tougher requirements in terms of position determination (tracking) and calibration.
An AR system (ARS for short) is understood as meaning the system of technical component parts that are necessary in order to build an augmented reality application: camera, tracking devices, support software, etc.
The literature generally uses the definition of augmented reality provided by Azuma (http://www.cs.unc.edu/˜azuma/ARpresence.pdf):
Currently, the adjustment of the suction box is a task that involves the experience of the papermaker. During this adjustment, it is possible to influence the paper's dry content by 1-2%. Because there is no system that registers a direct comparison between the position of the sealing strips and the separation of the covering, the papermaker must indirectly arrive at the correct adjustment on the basis of visual observations (for example, nip dewatering spray). With the invention, the papermaker will be capable of identifying the position of the sealing strips and will be able to directly compare it with the position of the covering. Ideally, the position of the sealing strip is thereby virtually projected onto the felt, that is, is displayed on the display of an app, for example.
In addition to the adjustment of the suction box, an embodiment of the invention can also locate the edge deckle of the suction box in relation to the paper web. It is thus possible to also carry out the adjustment of said component using the system, without needing to introduce an additional system in the roll. This is particularly advantageous for customers who are unable to take advantage of an optical system such as that in EP2707544 B1 since the light intensity is not sufficient.
In order to assist the operator with the adjustments in the best possible manner and to significantly facilitate the procedure, it is envisaged that the app can, in addition, also provide live data from the PLS/QCS, for example such as the moisture content of the paper web, moisture cross profile, press load, vacuum, etc. With the direct feedback of live data, it should, in combination with the app, be even easier for the operator to arrive at the correct adjustment.
The saving of adjustments can likewise be provided—for example, for specific operating states of the machine, or even for each roll. With this “position saving,” the operator can make changes and easily finds the original position again without a problem. This is a significant added value for troubleshooting in particular.
The main focus of the solution is the identification of boundaries of the suction zones of the suction roll by a constructive intervention (AR projection), in order to optimally adjust them in the machine. A mobile computer (for example, mobile phone, tablet, AR goggles) can be used as an interface for the papermaker, which mobile computer uses image recognition to detect certain distinctive points or, where applicable, markings on the roll that serve as input for the application. The solution is divided into 2 functions.
The main focus is the virtual projection of the non-visible components of a suction roll onto the environment, in order to thus be able to determine the precise and direct position without needing to mentally estimate or extrapolate it (which is always imprecise):
The virtual projection of non-visible components onto a suction roll can take place with the support of a compact computer (for example, smartphone, tablet, or AR goggles) that has access to a camera and screen. The detailed intermediate steps are listed below:
An embodiment according to one aspect of the invention can, for example, be the following method:
Particular advantages of the approaches to the solution:
Other possible variants are described below. The different variants can thereby be used individually or in combination.
Variant 1:
Variant 2:
Variant 3:
The invention is explained in greater detail below with the aid of schematic figures.
The invention is thereby not limited to these embodiments.
Furthermore, it is possible for the computing unit to be connected to a further database from which information about the relevant suction roll is stored. An identification of the suction roll can take place via an ID tag, for example. It can be possible to either directly identify said ID tag optically from the image or video recording. Alternatively or additionally, however, a different tag, for example an RFID tag, can also be used. In that case, it is generally advantageous that said tag can also be directly read by the computing unit, for example a mobile phone or tablet computer.
In
Number | Date | Country | Kind |
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10 2021 104 870.2 | Mar 2021 | DE | national |
The present application is a U.S. National Stage of International Patent Application No. PCT/EP2022/052288 filed Feb. 1, 2022, and claims priority under 35 U.S.C. § 119(a) of German Patent Application No. 10 2021 104 870.2 filed Mar. 1, 2021. Moreover, the disclosure of International Patent Application No. PCT/EP2022/052288 is expressly incorporated by reference herein in its entirety.
Filing Document | Filing Date | Country | Kind |
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PCT/EP2022/052288 | 2/1/2022 | WO |