EP3409625B1 - Electromagnetic active compensator of a yarn loop at a workstation of a textile machine and methods of controlling it - Google Patents

Electromagnetic active compensator of a yarn loop at a workstation of a textile machine and methods of controlling it Download PDF

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Publication number
EP3409625B1
EP3409625B1 EP18173789.1A EP18173789A EP3409625B1 EP 3409625 B1 EP3409625 B1 EP 3409625B1 EP 18173789 A EP18173789 A EP 18173789A EP 3409625 B1 EP3409625 B1 EP 3409625B1
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EP
European Patent Office
Prior art keywords
yarn
compensating arm
compensator
arm
compensating
Prior art date
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Application number
EP18173789.1A
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German (de)
English (en)
French (fr)
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EP3409625A1 (en
Inventor
Miroslav Stusak
Milan Moravec
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Maschinenfabrik Rieter AG
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Maschinenfabrik Rieter AG
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Publication of EP3409625A1 publication Critical patent/EP3409625A1/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H59/00Adjusting or controlling tension in filamentary material, e.g. for preventing snarling; Applications of tension indicators
    • B65H59/005Means compensating the yarn tension in relation with its moving due to traversing arrangements
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H54/00Winding, coiling, or depositing filamentary material
    • B65H54/02Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers
    • B65H54/10Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers for making packages of specified shapes or on specified types of bobbins, tubes, cores, or formers
    • B65H54/103Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers for making packages of specified shapes or on specified types of bobbins, tubes, cores, or formers forming frusto-conical packages or forming packages on frusto-conical bobbins, tubes, cores or formers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2701/00Handled material; Storage means
    • B65H2701/30Handled filamentary material
    • B65H2701/31Textiles threads or artificial strands of filaments

Definitions

  • the invention relates to an electromagnetic active compensator of a yarn loop at a workstation of a textile machine comprising a compensating arm mounted on a cylindrical magnet or on a shaft with a magnet, which is mounted rotatably about its longitudinal axis between the magnet pole extensions, which are associated with an electric control coil connected to a power source and to a control device of the active compensator, which controls the magnitude of the electric current flowing through the electric control coil, whereby the compensator comprising a position sensor of the compensating arm, with at least two sensing elements being spaced apart from each other and being coupled to the control device.
  • the invention also relates to a method of controlling the electromagnetic active compensator, in which the motion of the compensating arm is controlled, whereby the yarn is acted upon by one end of the compensating arm in the section between a draw-off mechanism of yarn and a winding device of yarn, while maintaining stable tension in the yarn and wherein the position of the compensating arm is sensed and the signal about the position of the compensating arm is carried to the control device for the yarn loop compensation, which according to the signal controls the operation of the compensator, the course of the motion of the compensating arm and the size of the force of the compensating arm.
  • the yarn is periodically slackened due to traversing the yarn across the bobbin width and a yarn loop is formed. Also, when yarn is wound on a cross-wound bobbin, yarn loop formation is caused by the different diameters of the two ends of the bobbin.
  • various compensators are used, which comprise a compensating arm, which by one of its ends acts upon the yarn, lengthening or shortening the working path of the yarn at a workstation in the relevant section between the draw-off mechanism of yarn and the yarn winding device as required.
  • the compensating arm also maintains a stable tension in the yarn, which is essential for the correct winding of yarn on a bobbin.
  • CZ PV 2014-399 also known as EP 2 955 142 , discloses an electromagnetic active compensator according to the preamble of claim 1 and describes a device for eliminating a yarn loop when winding yarn on a cross-wound bobbin at a constant speed of the yarn being produced on a spinning machine, comprising a movable compensating arm with a yarn capturing and guiding means, whose path intersects the yarn travel path between a draw-off mechanism and a winding device of yarn.
  • the compensating arm is rigidly mounted on an output element of a reversible bi-directionally controlled means which is connected to a control device for controlling the position and/or direction and/or speed and/or force action of the output element of the reversible bi-directionally controlled means.
  • the reversible bi-directional means is formed either by a suitable electric motor, typically a BLDC motor, or by an electromagnetic device with a cylindrical magnet rotatably disposed about its longitudinal axis between the magnet pole extensions with which a control coil is associated.
  • a suitable electric motor typically a BLDC motor
  • an electromagnetic device with a cylindrical magnet rotatably disposed about its longitudinal axis between the magnet pole extensions with which a control coil is associated.
  • the control of the BLDC motor is based on the knowledge of the immediate position of the compensating arm, since BLDC motors already have a built-in encoder of rotation of its output shaft.
  • the control of the electromagnetic device with a cylindrical magnet is based here on the data of at least one position sensor of the compensating arm.
  • the compensator thus created has several advantages, particularly in terms of reaction velocity and relatively large swing amplitude of the compensating arm. There is, however, a drawback which consists in limited manoeuvrability in certain situations, especially in connection with specific needs of the operations and manipulations performed during transient states that occur at the workstation, such as yarn spinning, a yarn break, bobbin replacement, etc.
  • CZ PV 2016-102 describes a solution of the electromagnetic compensator with a cylindrical magnet disposed rotatably about its longitudinal axis between the magnet pole extensions, which is associated with a control coil, whose aim is to improve dynamic parameters and control.
  • the compensating arm and/or the cylindrical two-pole magnet is associated with at least one position sensor which is connected to a control device.
  • CZ PV 2016-102 does not describe in more detail how the signal of the sensor is processed in the control device.
  • the device according CZ PV 2016-102 has some advantages, it still does not allow the regulation of the trajectory and force of the compensating arm during the entire compensation cycle, i.e., the entire range of the compensating arm motion.
  • there is a certain drawback regarding the limited controllability in certain situations e.g. in idle state outside the loop compensation and when handling the compensating arm in the extreme positions, etc.
  • EP 285 204 discloses device for generating and releasing yarn loop which simultaneously act as a spring tension compensator of a yarn during winding.
  • the yarn loop compensation is performed by swinging the movable arm with the deflection roller swiveled by the spiral elastic element against the taut yarn.
  • the magnitude of the tension in the yarn is predetermined by adjusting the force of the helical spring and the position of the pair of sensors that sense the predetermined extreme (or near-extreme) positions of the swinging movable arm associated with the movable arm.
  • the goal of the invention is therefore to further improve the functional properties of the electromagnetic compensator with a cylindrical magnet rotatably mounted about its longitudinal axis between the magnet pole extensions to which is associated a control coil, during the winding of yarn on a cross-wound bobbin at a constant yarn speed of the yarn being produced on a spinning machine.
  • the aim of the invention is achieved by an electromagnetic active compensator of a yarn loop at a workstation of a textile machine, whose principle consists in that the position sensor of the compensating arm comprises at least two mutually spaced sensing elements, which are coupled to a control device.
  • the control device is besides the evaluation of the current position of the compensating arm equipped with evaluation of time sequence of the signals from the sensing elements of the position sensor for determining the direction of motion of the compensating arm, its speed and, if appropriate, even acceleration.
  • the advantage of this arrangement is the fact that it enables to determine the position of the compensating arm, direction of its motion and its speed.
  • the position sensor of the compensating arm comprises at least two mutually spaced transmitting elements, against which are arranged two mutually spaced receiving elements constituting the sensing elements, whereby between the transmitting elements and the receiving elements there is a gap for the reciprocating motion of a shader of the moving compensating arm.
  • the position sensor of the compensating arm comprises one optical transmitting element, against which are arranged two mutually spaced optical receiving elements constituting the sensing elements, whereby between the optical transmitting element and the optical receiving elements there is a gap for the reciprocating motion of a shader of the moving compensating arm.
  • the position sensor of the compensating arm comprises at least one light source against which, behind the gap for the passage of a shader, is arranged at least a single-line optical sensor with a row of light-sensitive elements arranged next to each other.
  • the shader is formed by a compensating arm and/or by a shading element which is coupled to the compensating arm.
  • the advantage of this arrangement in which the compensating arm constitutes the shading element is a simpler construction of the device, lower manufacturing costs and less space requirements.
  • the arrangement in which the shading element is not formed by a compensating arm allows a variable arrangement with respect to the spatial possibilities of incorporating the yarn loop compensator into the machine.
  • the senor comprises at least one magnetic field source, against which is arranged at least one magnetic field receiver in at least two different spaced apart positions of the compensating arm, whereby between the the magnetic field source and the magnetic field receiver there is a gap for the passage of a shader which is coupled to the compensating arm and which is made of a magnetically active material.
  • the senor comprises at least one magnetic field source, against which is arranged at least one one magnetic field receiver in at least two different spaced apart positions of the compensating arm, whereby the magnetic field source or the magnetic field receiver is formed by a shader, which is coupled to the compensating arm and which is made of a magnetically active material.
  • a sensor of temperature may be assigned to protect the windings of the electric control coil from overheating and damage.
  • the active compensator body comprises control electronics, which is provided with means of connection to a control system via a communication line.
  • the principle of the method of controlling the electromagnetic active yarn loop compensator consists in that the position of the compensating arm is sensed and the signal about the position of this compensating arm is carried to the control device for the yarn loop compensation, which according to it controls the operation of the compensator, the motion of the compensating arm and the magnitude of the force exerted by the compensating arm. From evaluation of the time sequence of the signals from the sensing elements of the position sensor is determined the direction of motion of the compensating arm, its speed and, if appropriate, even acceleration.
  • the advantage of this method of control is the fact that it provides the control device with a signal about the position of the compensating arm at least at two different points of the path of the working swing amplitude of the compensating arm and in this manner allows more accurate control of the parameters of the compensating arm motion by means of controlling the electric current flowing through the electric control coil, by which it is not only the speed of the motion of the compensating arm that is controlled more accurately, but also the direction and force by which the compensating arm acts on the yarn when winding the yarn on a bobbin.
  • the position of the compensating arm for the active control of the force of the compensating arm during a compensation stroke is sensed in an optical, magnetic or inductive or capacitive manner.
  • the compensating arm moves from its working position, in which the compensating arm acts on the yarn being wound, to the handling position, in which the compensating arm is situated outside the travel path of the yarn being wound and which is a stable position.
  • the advantage of this arrangement is the fact that it enables to perform yarn loop compensation at high speeds, to set the position and force of the compensating arm throughout the compensation cycle at any point of its trajectory and control the functions for handling the yarn either by the machine operator or by an automatic service robot.
  • Fig. 1 shows an arrangement of an active yarn loop compensator
  • Fig. 2 shows a block diagram of controlling the active yarn loop compensator
  • Fig. 3a shows an arrangement of a position sensor of the compensating arm on an optical principle with two transmitting and two receiving optical elements, providing a signal about the position of the compensating arm
  • Fig. 3b is a top view of the arrangement of the position sensor of the compensating arm on an optical principle
  • Fig. 4a is an example the sensor of the compensating arm created on a magnetic principle
  • Fig. 4b is a top view of an embodiment of the sensor of the compensating arm created on a magnetic principle.
  • the workstation of a spinning machine as such is well-known, and therefore, for the sake of completeness, it will be described herein only symbolically without a drawing.
  • the spinning machine comprises at least one row of identical workstations arranged next to each other, each of which comprises a spinning unit in which yarns are formed. From the spinning unit, the yarn is withdrawn by a draw-off mechanism of yarn which comprises a known pair of draw-off rollers, between which the yarn passes and which are rotatably mounted in the machine frame.
  • One of the draw-off rollers is coupled to an unillustrated drive and constitutes a driven draw-off roller, whereby the other draw-off roller is a pressure draw-off roller, which is rotatably mounted on a spring-loaded arm, by which it is pressed against the driven draw-off roller.
  • a winding device of yarn on a cross-wound bobbin comprising a tranversing device of yarn by which the yarn being wound is traversed across the bobbin width.
  • the device for eliminating a yarn loop formed by an electromagnetic active compensator is arranged at the workstation in the yarn travel path between the draw-off mechanism and the winding device.
  • Fig. 1 shows an exemplary embodiment of an electromagnetic active compensator with a cylindrical magnet 5 , which is arranged rotatably about its longitudinal axis between the magnet pole extensions 6 .
  • the magnet 6 is further associated with an electric control coil 3 connected to a source of electric current and to a control device 13 , which controls the magnitude of the electric current flowing through the electric control coil 3 , which creates a magnetic field 4 through which is controlled the magnitude and resulting direction of the action of the force F of the compensating arm 1 by which the compensating arm 1 acts on the yarn being produced during winding onto a conical bobbin.
  • the magnitude and resulting direction of the action of the force F of the compensating arm 1 is determined by the synergistic effect of the magnetic coupling between the cylindrical magnet 5 and the magnet pole extensions 6 without the action of the electric control coil 3 and the magnetic coupling between the cylindrical magnet 5 and the magnet pole extensions 6 with the addition of the magnetic forces generated by the electric control coil 3 acting on the magnet 6 on the basis of the control performed by the control device 13 .
  • the electromagnetic active compensator according to the invention can operate in such a manner that the compensating arm 1 on the cylindrical magnet 5 is held in one position by the magnetic forces between the individual magnetic parts. From this position, the arm 1 is moved in a controlled manner to a second position by the additional magnetic force generated by the electrical coil 3 due to the electric current controlled by the control device. Essentially, by controlling the electric current supplied to the coil 3 the bi-directional motion of the compensating arm 1 is controlled, including the magnitude of the force of the compensating arm 1 acting on the yarn (torque on the arm 1 x the length of the arm 1 ).
  • the electromagnetic active compensator further comprises a position sensor 2 of the compensating arm 1 , which provides the control device with a signal about the position of the compensating arm 1 at least at two different points of the path of the working swing amplitude of the compensating arm 1 and thus enables to achieve a more accurate control of the parameters of the motion of the compensating arm 1 by means of controlling the electric current flowing through the electric control coil 3 , thereby controlling more accurately not only the speed of the motion of the compensating arm 1 , but also the direction and force F , by which the compensating arm 1 acts on the yarn during the winding of the yarn on the bobbin.
  • the temperature of the windings of the electric control coil 3 is sensed by an unillustrated sensor of temperature to secure the protection of the windings of the electric control coil 3 from overheating and damage in the event of excessive electric current flowing through the electric control coil 3 .
  • Fig. 3a and 3b show an example of embodiment of a position sensor 2 of the compensating arm 1 for determining the current position of the compensating arm 1 at two points of its path.
  • the sensor comprises a support plate of a printed circuit 10 , on which two optical transmitting elements 11a and 11b , are located spaced from each other. From the optical transmitting elements 11a and 11b a light beam 15 is transmitted through a gap for the passage of a shader 14 , which will be described hereinafter, the light beam being transmitted onto a pair of opposing optical receiving elements 12a and 12b, which change the received light signal into an electric signal, which is further processed by the control device 13 and is used to control the compensator.
  • control device 13 is a part of the compensator body, in another exemplary embodiment the control device 13 is arranged outside the compensator body, e.g., it is formed by the control electronics of the workstation or of the spinning unit or even of the entire machine, etc.
  • the shader 14 interrupts the luminous flux between the optical transmitting elements 11a and 11b and the optical receiving elements 12a and 12b , whereby from this data the control device 13 evaluates, for example, the current position of the compensating arm 1 .
  • the control device 13 evaluates, for example, the current position of the compensating arm 1 .
  • From the time sequence of these signals it is possible to determine the direction of motion of the compensating arm 1 , its speed and, if appropriate, even acceleration, etc. An output signal is then generated from these signals, serving as an input signal for the control system of the compensator.
  • the sensor elements 2 are located on a common plate of a printed circuit 10 .
  • the sensor 2 of the position of the compensating arm 1 comprises an unillustrated light source, against which is arranged behind the gap for the passage of the shader 14 at least a single-line optical sensor 20 , e.g., a CCD or CMOS image sensor, with a row of radiation-sensitive elements, whereby in the illustrated example of embodiment, the shader 14 is formed directly by a compensating arm 1 or by a shading element coupled to or mounted on the compensating arm 1 .
  • This sensor 2 is able to provide the control system of the compensator with very detailed information about the immediate position of the compensating arm 1 depending on time, including even information about the speed, acceleration and the direction of the motion of the compensating arm 1 .
  • the senor 2 is created on a magnetic principle, comprising at least one magnetic field source, against which is arranged at least one magnetic field receiver at least at two different spaced apart positions of the compensating arm 1 , i.e. different positions within the working range of the reciprocating motion of the compensating arm 1 .
  • the magnetic field source here is either directly the compensating arm 1 made of a magnetically active material or the shader 14 mounted on it or connected to it and made of a magnetically active material.
  • the electromagnetic compensator according to the invention enables to realize a range of operating modes of the compensator, i.e. various functional activities, which will be described in greater detail with reference to Fig. 2 .
  • the first example of the electromagnetic compensator control according to the invention is the dynamic control of the force F of the compensating arm 1 , which makes it possible to set (control) by the electric current supplied by the line 27 the force F exerted by the compensating arm 1 on the yarn 21 and which reaches different values during winding on a conical bobbin 22 , namely during each compensation stroke so as to eliminate changes in the yarn 21 tension caused by the conical nature of the bobbin 22 and by the deceleration of the guide 31 of yarn 21 of the traversing device in the path turns.
  • controlling the electromagnetic active compensator according to the present invention is performed only by using the signal P1 of the position sensor 2 of the compensating arm 1 at least at two points of the path of the compensating arm 1 , where the signal P1 transmitted to the control device 13 by the line 25 gives information about the absolute position of the compensating arm 1 , and the control device 13 on the basis of the signal P1 determines the direction of motion of the compensating arm 1 , and, subsequently, according to pre-defined requirements, controls the electric current into the electric control coil 3 of the electromagnetic compensator, by which is controlled the magnitude of the force F exerted by the compensating arm 1 on the yarn 21 being wound in the desired sections or within the entire range of the reciprocating motion (stroke) of the compensating arm 1 .
  • dynamic control of the force F of the compensating arm 1 of the electromagnetic active compensator is performed with optimization according to the position of the traversing guide 31 of the yarn traversing device 21 before the winding device 32 of yarn 21 , see Fig. 2 , which is an embodiment particularly suitable for the individual (unit) drive of the yarn traversing device 21 , in which is avalaible signal P2 carried by the line 26 from the sensor 29 of the position of the traversing guide 31 of yarn 21 or, in the case of the central drive of the traversing guides 31 of yarn 21 from the sensor 29 of the position of the traversing guides 31 .
  • the position of the compensating arm 1 is evaluated and, at the same time, also the position of the traversing guide 31 of yarn 21 is evaluated, which allows more accurate regulation of the yarn 21 tension in the desired sections of winding the yarn 21 on the bobbin 22 .
  • signal P2 of the position of the traversing guide 31 of yarn 21 supplied by the line 26 and the signal P1 of the position of the compensating arm 1 supplied by the line 25 are evaluated by the control device 13 , which according to predefined requirements controls the supply current of the electric control coil 3 , thereby controlling the force F by which the compensating arm 1 acts on the yarn 21 being wound at the desired points or sections or throughout the entire range of the stroke of the traversing guide 31 of yarn 21 as well as the electromagnetic active compensator according to the present invention.
  • the two above-mentioned embodiments of the electromagnetic compensator control method have been modified in such a manner that the yarn 21 being wound is aligned with a sensor 35 of the yarn 21 tension, which is via the line 2 8 coupled to the control device 13 , whereby signal Fp of the sensor 35 of the yarn 21 tension is the feedback signal Fp for the control device 13 of the electromagnetic compensator.
  • the control of the electromagnetic active compensator is the control of the size of the yarn 21 loop, in which the swing amplitude (extreme position) of the compensating arm 1 is controlled by means of the signal P1 from the sensor 2 of the position of the compensating arm 1 at least at two points of the path of the compensating arm 1 .
  • the well-known yarn 21 loop is formed due to the conical nature of the bobbin 22 , i.e. due to the different diameters of the bobbin 22 on the two edges of the bobbin 22 , (periodic slackening of yarn 21 - lengthening the travel path of yarn 21 ).
  • the aim of this method of control of the electromagnetic compensator is controlling the maximum size (length) of the yarn 21 loop so that the maximum size (length) of this yarn 21 loop is constant and so that also the swing amplitude of the motion of the compensating arm 1 depending on the diameter of the conical bobbin 22 is constant, while maintaining the constant tension in the yarn 21 being wound as well.
  • the position sensor 2 of the compensating arm 1 determines the swing amplitude of the compensating arm 1 , namely not only the absolute value of the compensating arm 1 at least at two points of the path of the compensating arm 1 , but also the symmetry of the swing amplitude of the compensating arm 1 with respect to the set median position relative to the position of the traversing guide 31 of yarn 21 .
  • the corresponding signal P1 is carried from the sensor 2 to the control device 13 , and if the size of the swing amplitude of the compensating arm 1 exceeds the set limits X0 or X1 from either side or if the swing amplitude of the motion of the compensating arm 1 is not symmetrical with respect to the set median position, then the control device 13 , which is connected to the drive 33 of the winding device 32 of yarn 21 via the line 23 , adjusts the winding speed Vn of yarn 21 and/or the traversing speed Vr of yarn 21 , so that the median position of the swing amplitude of the compensating arm 1 will be maintained with respect to the set median position and so that the size of the swing amplitude will not exceed the set limits X0 and X1 , thus maintaining the crossing angle ⁇ (indicated by arrow B ) of yarn 21 on the bobbin 22 .
  • Another example the electromagnetic compensator control according to the present invention is the targeted automated displacement of the compensating arm 1 from the working position to the handling position and back.
  • the compensating arm 1 In the working position, the compensating arm 1 intersects the travel path of yarn 1 between the unillustrated draw-off mechanism of yarn 21 and the traversing device of yarn 21 before winding the yarn 21 on the bobbin 22 and performs the compensation of the yarn loop 21 being formed, whereas in the handling position, the compensating arm 1 is moved away outside the travel path of yarn 21 and the yarn 21 loop being compensated for between the unillustrated draw-off mechanism of yarn 21 and the traversing device of yarn 21 before winding the yarn 21 on the bobbin 22 .
  • the compensating arm 1 in this position does not obstruct any mechanism in the service activity or does not stand in the way of the machine operator performing service activities at a specific workstation.
  • the compensating arm 1 automatically moves from said working position to said handling (displaced, tilted) position, because the compensating arm 1 left in this workspace would make it difficult or impossible to perform the necessary handling operations.
  • This displacement of the compensating arm 1 into the handling position according to the invention is carried out by applying an electric pulse targetedly to the electric control coil 3 of the electromagnetic active compensator with a higher value than the value used to control the compensator during the yarn 21 production, and due to this increased pulse the compensating arm 1 moves in a single movement from the working position to the handling position which, due to the force ratios (magnetic force from the individual magnets) in the compensator, is stable even after the control higher electric pulse has dropped, therefore no additional energy is required to maintain the compensating arm 1 in this stable handling position.
  • the handling position of the compensating arm 1 lies outside the working swing amplitude (range of the working motion) of the compensating arm 1 in compensating the yarn loop during the production and winding of the yarn on the bobbin.
  • an electric pulse of higher value but with polarity opposite to the electric pulse used to move the compensating arm 1 from the working to the handling position is targetedly introduced into the electric control coil 3 of the compensator, thereby overcoming the internal magnetic forces of the electromagnetic active compensator which hold the compensating arm 1 in the handling position without energy being exerted, and the compensating arm 1 automatically moves to its working position, or to the space within the range of the working motion of the compensating arm 1 during the yarn loop compensation during the production and winding of the yarn on the bobbin.

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Tension Adjustment In Filamentary Materials (AREA)
  • Spinning Or Twisting Of Yarns (AREA)
  • Looms (AREA)
EP18173789.1A 2017-05-29 2018-05-23 Electromagnetic active compensator of a yarn loop at a workstation of a textile machine and methods of controlling it Active EP3409625B1 (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CZ2017-302A CZ2017302A3 (cs) 2017-05-29 2017-05-29 Elektromagnetický aktivní kompenzátor smyčky příze na pracovním místě textilního stroje a způsoby jeho řízení

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Publication Number Publication Date
EP3409625A1 EP3409625A1 (en) 2018-12-05
EP3409625B1 true EP3409625B1 (en) 2023-09-27

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EP (1) EP3409625B1 (cs)
CN (1) CN108928678A (cs)
CZ (1) CZ2017302A3 (cs)

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CZ2019198A3 (cs) * 2019-03-29 2020-10-07 Rieter Cz S.R.O. Způsob řízení prostředků pracovního místa textilního stroje a zařízení k jeho provádění
EP3715294A1 (en) * 2019-03-29 2020-09-30 Maschinenfabrik Rieter Ag Method for controlling a workstation of a textile machine, a device for performing the method
CN112408094B (zh) * 2020-11-18 2022-09-13 胡少坤 一种收线缓冲器、收线装置及方法
LU102827B1 (de) * 2021-06-10 2022-12-12 Saurer Spinning Solutions Gmbh & Co Kg Fadenspeichereinheit für eine Arbeitsstelle einer Textilmaschine
LU504310B1 (de) * 2023-05-25 2024-11-25 Saurer Spinning Solutions Gmbh & Co Kg Verfahren zur Steuerung und Regelung eines Wickelwellenantriebs

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IT1203385B (it) * 1987-03-19 1989-02-15 Savio Spa Dispositivo e relativo procedimento per acummulare e restituire filo ad intermittenza nell'avvolgimento di rocche coniche alimentate con filo a velocita' costante
CZ2014399A3 (cs) * 2014-06-09 2016-04-13 Rieter Cz S.R.O. Způsob eliminace smyčky příze při navíjení příze na křížem vinutou cívku na dopřádacím stroji s konstantní rychlostí vyráběné příze a zařízení k jeho provádění
CN204715002U (zh) * 2015-06-17 2015-10-21 卡尔迈耶(中国)有限公司 多梳栉贾卡经编机的传动控制机构

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CN108928678A (zh) 2018-12-04
CZ2017302A3 (cs) 2018-12-12

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