The invention relates to a method according to the preamble portion of the claim 1 for controlling an electric drive that drives drums of finishing machines, such as drums in slitters, rereelers and rewinders. The invention also relates to a method according to the preamble portion of the claim 7 for controlling an electric drive.
When manufacturing paper the machine reel, so called tambour reel, made by the paper machine and having the width of the paper machine, is cut by the slitters to customer reels, whose width and length or diameter is desired. The machine reel has a width and a diameter that is in accordance with the dimensioning of the paper machine. During the slitting the machine reel is reeled off, is slit to webs with desired width and the webs are reeled on the customer rolls that have the length and width according to the order. The finishing machine reels are generally controlled by frequency converter drives, or by other controllable devices wherein the drive motors controlling frequency converters control the rotation speed of the motors according to the given control parameters so that the completed customer rolls fulfill the requirements of the end user or upgrading as regards to their outer overall dimensions and their inner structure.
Typically, the customized rolls are reeled by the slitter and the widths and lengths the customized rolls are varying according to the orders. It is characteristic of the paper manufacture that the manufacturing process is continuous and it is not possible to create a large intermediate storage for unfinished products without interruption of the process or without slowing down the process. The slowest part of the process and the production chain determines thus the total speed of production and the capacity of the factory.
The slitting is a factor of essential importance as a point of view of the efficiency and smoothness of the production and its plan and implementation has been paid attention. The changeover time of the finished rolls is tried to decrease and the efficiency of the production is tried to upraise. Earlier e.g. control methods are known, whereby the reels are controlled to stop as exact as possible in order to achieve the desired length of the web or the desired diameter of the roll. According to the general principle known earlier the acceleration and the deceleration are chosen according to the pre-calculated worst situation without dependence on temporary parameters.
In connection of the conventional paper machine drives the dimensioning values of the paper machine are used as a defining control variable. Thus the highest allowable speed or acceleration of the reel are defined on the basis of the design values of the paper machine, wherein the defining factor is the required power that must be able to achieve but that must not be exceeded.
The goal of the present invention is to create a new control of the slitter and its electric drive so that the efficiency of the slitter increases and the slitting corresponds better to the increasing speed of the paper manufacturing process. This is achieved by the characteristics of the characterizing portion of the claims 1 and 7. Other advantageous manners of performance are defined in the dependant claims.
In the method according to the invention a limit value for the electric drive is defined, at least two or more several value of parameters effecting to the electric drive is monitored, the reference value of the acceleration/deceleration is defined on the basis of at least two parameters and the electric drive is controlled so that the acceleration/deceleration corresponds to the highest possible reference value; by which the reference value of the acceleration/deceleration defined on the basis of any parameter is not exceeded, and that limit value defined for the electric drive is not exceeded.
According to an alternative method of the invention the maximum reference value of the acceleration/deceleration is defined in the prevailing load or drive situation of the finishing machine, whereby a maximum value is defined for at least two characteristic quantities of the finishing machine's components in the prevailing load or drive situation within the limits of the design values of the characteristic quantity, the reference values of the acceleration/deceleration are defined corresponding to these maximum values of the characteristic quantities, from the group of the defined reference values corresponding to the maximum values of the acceleration/deceleration the value is chosen as the maximum reference value of the acceleration/deceleration that is critical, and the reel of the finishing machine is controlled by the chosen maximum reference value.
When using the slitter's control method according to the invention the overall capacity of the slitter increases significantly. By increasing the start and end accelerations the manufacturing time of one customer roll decreases(increases) by several percent. The slitting being one of the critical factors of the paper manufacturing the saving in time and the speed-up that have come true will effect to the whole paper manufacturing process and its productivity. In the furthest case it is even possible that the purchase of another slitter can be avoided. Advantageously, the electric drive is dimensioned such that the worst possible drive situation can be mastered, but the dimensioning of the whole electric drive is not increased because of any single control variable.
According to one advantageous implementation of the invention the electric drive is controlled by the parameters that limit the performance at each moment. The largest possible capacity of the slitter is utilized when the control parameters are defined case by case according to the prevailing circumstances.
According to one implementation of the invention the limit value of the electric drive is the maximum torques and the maximum powers of the targets of usage and the maximum powers of the system.
According to an advantageous feature of the invention the parameter is one or several of the group: density of paper, web speed, tightness of web, diameter of on-reeler, diameter of unwinder, width of web, thickness of paper, inertia masses of system, friction losses, input voltage, electrical losses, efficiency, type of input devices, load distribution between reel sets, overload capacity of system's components, cabling of system, supply transformer, limitations of mechanics or limitations of process.
According to one advantageous feature of the invention the reference value of acceleration and the reference value of deceleration are defined at least partly on the basis of different parameters.
According to one further implementation the reference value of acceleration is defined during acceleration and the reference value of deceleration is defined during deceleration.
According to one further implementation the reference value of acceleration/deceleration is dated continuously and the electric drive is controlled by the newest reference value. Further the maximum values of the characteristic quantities are defined continually during the drive. Further different characteristic quantities are used in different drive circumstances during one drive.
The invention will be described in detail with the aid of certain implementations referring to the drawings where
The
In the
Though the updating of the control data occurs continuously in the example of the
The
In the
In the block 90 the acceleration commands of the drive, the system and the mechanics are combined so that at each moment the command is valid whose instantaneous value is the lowest. The output of the block 90 is thus acceleration command curve (block 92), whose instantaneous value corresponds the smallest instantaneous value of the acceleration commands 68, 80 and 86. Correspondingly, the instantaneous values of the deceleration command curve are the lowest of the deceleration commands 70, 72 and 88.
When the reels are reeled using the conventional control the reels are at first accelerated to the constant speed by a acceleration ramp, the reels are driven by the constant speed and the reels are decelerated to stop by deceleration ramp. The
In order to illustrate the presentation the acceleration commands are drawn in to the same set of curves in the
The invention has been above described with the aid of certain embodiments. However, the implementation of the invention may vary within the limits of the following claims.
Number | Date | Country | Kind |
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20070103 | Feb 2007 | FI | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FI08/00023 | 2/5/2008 | WO | 00 | 11/10/2009 |