EP1384799A1 - Vorrichtung und Verfahren zur Steuerung und Konsultierung von Betriebsparametern von Textilmaschinen - Google Patents

Vorrichtung und Verfahren zur Steuerung und Konsultierung von Betriebsparametern von Textilmaschinen Download PDF

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Publication number
EP1384799A1
EP1384799A1 EP03360090A EP03360090A EP1384799A1 EP 1384799 A1 EP1384799 A1 EP 1384799A1 EP 03360090 A EP03360090 A EP 03360090A EP 03360090 A EP03360090 A EP 03360090A EP 1384799 A1 EP1384799 A1 EP 1384799A1
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EP
European Patent Office
Prior art keywords
machine
control
combing
central unit
computer
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EP03360090A
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English (en)
French (fr)
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N Schlumberger SAS
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N Schlumberger SAS
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Publication of EP1384799A1 publication Critical patent/EP1384799A1/de
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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
    • B65H63/00Warning or safety devices, e.g. automatic fault detectors, stop-motions ; Quality control of the package
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01GPRELIMINARY TREATMENT OF FIBRES, e.g. FOR SPINNING
    • D01G19/00Combing machines
    • D01G19/06Details
    • D01G19/26Driving arrangements
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H1/00Spinning or twisting machines in which the product is wound-up continuously
    • D01H1/14Details
    • D01H1/20Driving or stopping arrangements
    • D01H1/32Driving or stopping arrangements for complete machines
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H13/00Other common constructional features, details or accessories
    • D01H13/32Counting, measuring, recording or registering devices
    • 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 present invention relates to the field of machines textiles, in particular motor control devices, sensors and the actuators of these machines and relates to a control device and consultation of the operating parameters of such textile machines.
  • the subject of the invention is also a method implemented by this device.
  • straight combers which are textile machines responsible for cleaning the ribbons of textile fibers, so removing impurities such as, for example, straws, thistles, tangles of fibers, buttons and bundles, as well as a small amount fibers that are too short, which could be detrimental to the proper functioning of spinning machines and the quality of the yarns to be produced.
  • the combing phase of the fiber heads occurs when the pliers are closed, while the combing phase of the fiber tails intervenes at the time of uprooting, when the gripper is open.
  • the sentence combing the fiber heads is done by needles or teeth arranged on the periphery of a rotating cylinder, commonly called a comb circular, while the combing phase of the fiber tails is carried out by a comb, commonly called a fixed or straight comb.
  • a good textile result i.e. a combed ribbon of high quality free from defects
  • satisfactory machine operation i.e. a very large production and a lower rate of gowns and duvets possible, require optimizing the settings of the straight combing machine.
  • the power value for example, which directly conditions the production of the machine and the quality of the combed tape, expressed in mm / cycle, and is defined by the number of teeth of the feed ratchet which rotates the group of food cylinders. Also, to settle a different power value, stop the machine and less, to change the ratchet.
  • the speed of rotation of circular combs having a packed segment and a smooth unpopulated segment is currently directly proportional to the general speed of the combing machine, is not adjustable and, generally, the speed of rotation of this type of comb circular is gradually accelerated and then slowed down by means of torques offset gears.
  • Circular combs the entire periphery of which is trimmed needles or teeth, also have a rotational speed directly proportional to the general speed of the combing machine.
  • This speed of rotation which directly conditions the cleanliness of the combed tape, wear of the needles or teeth of the comb and also the degree of soiling of the circular comb itself, cannot currently be changed only by changing gears.
  • the tension of the combed tape between the tear-off sleeve and the entry of the curling box is currently adjustable via a pulley variable speed drive operated remotely using a transmission mechanical with universal joint and chains, this adjustment must be carried out so very precise while the machine is running, the operator being located near the outlet, in order to observe the effect of its adjustment on the combed tape.
  • This mechanical device is of complex and expensive construction and the value of the tension of the combed tape is currently constant inside a combing cycle. All of these settings must be made systematically at each change of batch of material, so that optimize the production of the combing machine and the textile quality of the combed tape.
  • the combing and repainting assortments are composed of several passages of drawing machines, such as gills, and several combing machines working in groups of three to twelve machines, all of which must be paid for individually at each batch change of matter. This adjustment operation is long and repetitive.
  • the object of the present invention is to overcome these drawbacks by proposing a device and a method for piloting and consulting textile machine operating parameters.
  • the steering and consultation system for operating parameters of textile machines comprising electric motors, control of electric motors, sensors, actuators and least one programmable central unit
  • it is essentially constituted by an electronic circuit forming a local network internal to the machine such as a "field bus" and connecting the control of motors, sensors and actuators at the central unit programmable and by at least one machine control interface connected to said electronic circuit and formed by a computer device comprising a display screen and a control keyboard.
  • This device implements a control and consultation of the operating parameters of textile machines characterized by which essentially consists in connecting the control devices of the motors, sensors and actuators to a programmable central unit and at least one machine control interface formed by a computer device by means of an electronic circuit forming a local machine internal network such as a "field bus", this interface control comprising a display screen and a control keyboard, to control the machine and consult the machine operating parameters using the command interface and analyzing the data using of said interface.
  • the operating parameters of the textile machine can indeed be stored in a recipe, which depends on the batch of material to be worked.
  • the textile machine considered is a straight combing machine and when the same or a similar batch of material is to be combed several times and at different times, we can recall the recipe for setting corresponding to this batch of material and, in this case, the combing machine will automatically adjust the parameters corresponding to this recipe.
  • these settings more particularly, the settings of feeding, speeds of the circular comb and the cylindrical brush, the value of the overlap and the output voltage between the sleeve and the rollers of the curling box.
  • Other walking parameters additional can obviously be taken into account, as by example the general speed of the machine, the type of filling of the combs, the number of doubling, the food load, the value of spacing etc.
  • Figure 1 of the accompanying drawings shows a textile machine carding, combing, cracking, converting, preparation for spinning and spinning, in particular a carding machine, a carding reducing head, a combing machine, a cracker, a converter, a chain Gills, a Gills with screw, a wiper, a bench with spindles, a continuous spinning machine or a guiper, comprising electric motors A, devices B control of electric motors, sensors C, actuators D and at minus a programmable central unit E, this machine being provided with a device for monitoring and consulting the operating parameters.
  • this device for controlling and consultation of the operating parameters is essentially constituted by a electronic circuit G forming a local network internal to the machine such as "field bus" and connecting the devices B for controlling the motors A, the sensors C and actuators D at the programmable central unit E and by at minus a machine control interface connected to said circuit electronic G and formed by a computer device F, F ', J, N comprising a display screen and a control keyboard.
  • the central unit programmable E is advantageously provided with at least one means of connection to at least one programmable central unit of at least one other textile machine through at least one local inter-machine network H and at least one computer device F, F ', J, N.
  • the programmable central unit E in the form a programmable logic controller or a computer.
  • the central unit programmable E can also be linked, directly or by through the local inter-machine network H, to a network of external communication K, such as INTERNET, for connection to a remote computer N.
  • a network of external communication K such as INTERNET
  • Such a connection to a remote computer N allows to consult and modify the walking parameters of the machine.
  • the device computer system forming the command interface consists of a radio transceiver L connected to the programmable central unit E of the machine or to the inter-machine local network H and by a transceiver radio M connected to a portable terminal F '.
  • a radio transceiver L connected to the programmable central unit E of the machine or to the inter-machine local network H and by a transceiver radio M connected to a portable terminal F '.
  • the command interface is advantageously portable and can therefore be moved freely around machines.
  • the operator on the machine is free to place himself on the spot more adequate around the machine, without being congested by a link wired, in order to see firsthand the effect of the adjustments that it controls at the textile machine.
  • FIG. 1 of the accompanying drawings shows an example of realization of an electronic circuit G forming a local network internal to a machine, in which the electric motors A1, A2, ... Au of a first textile machine are controlled by motor control devices B1, B2, ... Bu. These motor control devices are themselves linked together by the internal local network G.
  • This internal local network G is constituted by a connection cable, such as a field bus which allows the moving computer data along said cable in such a way that each engine control device B1, B2, ... Bu, receives each data transmission at the same time.
  • C sensors or groups of sensors which are, for example, position or position detectors speed and safety contactors, as well as the actuators of the machine, such as the solenoid valves of the cylinders, for example, are, each, connected to this local network G internal to the machine.
  • the programmable central unit E which can either be a PLC programmable, i.e. a computer, is also connected to the local network G internal to the machine. Thanks to the internal local network G, the central unit programmable E is able to consult and modify the parameters of operation of engine control devices B, sensors C and actuators D and control the machine.
  • IT devices F, F ', J, N forming the control interfaces of the machine are man-machine connection terminals, consisting of a display screen, by operating buttons and by a processor and allow the operator on the machine, the trimmer, a control agent or a convenience store to consult and modify the operating parameters of the machine.
  • machine operating parameters for insertion data in the programmable central unit E by means of the devices computer systems F, F ', J, N forming the control interfaces, are advantageously displayed on tables or charts specific to lots of material to be treated and collected in a corresponding compartment of the textile machine and / or in a remote archiving medium that can be viewed by the operators.
  • Machine operating parameters can be viewed by a computer J, N and analyzed by data processing software, for statistical purposes.
  • the computing devices F, F ', J, N forming the command interfaces make it possible to diagnose the working condition of the textile machine.
  • all of machine parameters can be viewed and changed by any of the computing devices, whether it's an F control panel located on the machine, or a computer J placed, for example, in the office of the control. In the latter case, it is possible to download the operating parameters of a machine simultaneously on several machines textiles.
  • a remote computer N located, for example, in the after-sales service office of the machine manufacturer, the latter can remotely diagnose a type of failure encountered, or even, possibly download new walking parameters remotely, in order to update the textile machine program.
  • a terminal portable F 'without wire connection can facilitate the work of the adjuster of the textile machine.
  • FIG. 2 of the accompanying drawings shows a textile machine according to the invention.
  • This textile machine commonly called straight and schematic combing machine in the uprooting phase, includes a feed device, tear-off device, fiber head cleaning and a tail cleaning device fibers.
  • the feeding device consists of a rack 1 equipped with call cylinders 2, by a group of food cylinders 3a and 3b, by a food comb 4, which is associated with a food grid 5, by a clamp 6 formed by an upper jaw 7 cooperating with a lower jaw 8 and by a plate between clamp 9.
  • the textile material under form of ribbons is unwound from reels 10a, 10b, 10c ... or unwound from pots (not shown) by the call cylinders 2, then driven by the food cylinders 3a and 3b.
  • the textile material then passes between the food comb 4 and the food grid 5, which are movable, such so that they can be separated from each other and that they can be moved together, either in the direction of movement of the textile material, either in the opposite direction of the movement of the textile material.
  • the food cylinders 3a and 3b and the call cylinders 2 of the rack are in rotation, in order to move the textile material in the direction of the food comb 4 and, simultaneously, the comb 4 moves away from grid 5, then comb 4 and grid 5 move back together, the comb 4 is then brought closer to the grid 5 and the needles of the comb 4 pass through the textile material.
  • the food comb being fully lowered, this assembly thus formed advances by training with him the textile material, so as to present the fiber heads 11 (not shown) to the fiber head cleaning device and to proceed with feeding a new bang of fibers.
  • the clamp 6 then closes and the lower jaw 8, which is articulated to the frame 12 of the machine, is lowered so as to approach of the fiber head cleaning device.
  • the upper jaw 7, which is also hinged to the machine frame, is lowered, in order to move closer to the lower jaw 8, until it comes into contact with it to pinch the fibers located between the two jaws 7 and 8 and to retain, then the upper jaw 7 continues its movement towards of the fiber head cleaning device and brings with it the lower jaw 8. This displacement of the lower jaw towards the circular comb 13 is carried out gradually.
  • the value of the power supply is expressed in mm / cycle of machine. So for example, when the power is set to 5.8 mm / cycle, this means that at each cycle of the machine the material to comb 5.8 mm advance.
  • the machine must be stopped in order to change the ratchet located on the end of the food cylinder control shaft. Many ratchets, the number of teeth of which differs from 11 to 21 teeth, are currently available. Such an adjustment device does not allow, however, to choose that discrete supply values and is therefore discontinuous.
  • the computer devices F, F ', J, N forming the command interfaces allow to consult and modify the feed value, which is expressed in mm / combing cycle, by means of the local network G internal to the machine. These consultation and change the power value can be done so continues, without necessarily having to stop the machine.
  • a A2 electric motor possibly fitted with a mechanical reduction gear speed, the speed of which is freely adjustable independently of the speed the machine, but is controlled by the speed of the main motor A1 of the machine, rotates the food cylinders 3a and 3b of the combing machine and the call cylinders 2 of the rack 1.
  • the electric motor A2 is controlled by the control device B2, which can be, for example, a frequency converter, itself connected using the local G internal network to the machine to the programmable central unit E, which can be an automaton or a computer.
  • the central unit programmable E is advantageously provided with a connection for a additional control button P for direct actuation of a motor electric motor A2 for rotating the food cylinders 3a and 3b of the combing machine and the call cylinders 2 of the rack 1.
  • the device can be supplemented by an incoming mass irregularity sensor (not shown), located upstream of the food cylinders 3a and 3b.
  • an incoming mass irregularity sensor (not shown), located upstream of the food cylinders 3a and 3b.
  • Such sensor temporarily reduces the power value.
  • the sensor detects the presence of a point irregularity of the incoming mass, which can, for example, be in the form of a load overload food, and automatically and temporarily reduces the value supply in order to facilitate the passage of the material and to avoid any walking incident.
  • the power value can be stored as a parameter of machine running on batch-specific tables or charts of material to be processed or in a remote archiving medium that can be viewed by the operators. So when the same lot, or a similar lot of material must be combed repeatedly and at different times we can recall the operating parameters corresponding to this batch of material and, in in this case, the combing machine will automatically adjust the feed value corresponding to these parameters.
  • the advantage of such an adjustment device becomes obvious when several combers are to be adjusted individually, in particular when they are in the battery of twelve machines, for example, and that it becomes possible to adjust them all simultaneously and remotely.
  • the speed of rotation of the food cylinders 3a and 3b can be periodically accelerated and then slowed down. So the cylinders 3a and 3b are rotated while the food comb 4 and the food grid 5 move the textile material towards the pliers 6, then they are stopped during the combing phase of the heads of fibers.
  • the rotational speed of the food cylinders 3a and 3b is freely programmable.
  • the head cleaning device of fibers which is constituted by a circular comb 13, mounted on a shaft support 14, the arrangement of which is fixed relative to the frame 12 of the machine.
  • This cleaning device further comprises a brush cylindrical 15 furnished with bristles, a doffer 16 furnished with metal spikes and a beating comb 17.
  • the needles or the teeth 18 of the circular comb 13 penetrate the fiber heads 11 presented by the clamp 6 and remove the short fibers and the impurities.
  • the doffer 16 rotates more slowly than the cylindrical brush 15 and in the opposite direction of said cylindrical brush 15 and its points are flush with the bristles therefrom and discharge said bristles from said brush cylindrical 15 short fibers and impurities transported by the brush.
  • the beating comb 17 of the fiber head cleaning device is a blade which is set in oscillation near the tips of the doffer 16, this blade being responsible for ridding the tips of doffer 16 of short fibers and the impurities they carry. Short fibers and impurities constitute the blister, which is recovered by gravity and / or by aspiration in view of its evacuation.
  • the control interface of the machine formed by a computer device F, F ', J, N makes it possible to consult and modify the speed of rotation of the circular comb 13, at by means of the electronic circuit G forming a local network internal to the machine.
  • This interface allows you to consult and modify the speed of rotation of the circular comb 13 continuously without necessarily having to stop the machine.
  • an electric motor A3 whose speed is freely adjustable independently of the running speed of the machine, but is slaved to the speed of the main engine A1 of the machine, drives in rotation the shaft 14 for supporting the circular comb 13.
  • the motor electric A3 is controlled by the control device B3, which can be, by example, a frequency converter, itself connected, using the circuit electronic G, to the programmable central unit E, which can be a PLC or computer. So it becomes possible to adjust very precisely, and while the machine is running, using a device IT F, F ', J, N, a speed of rotation of the circular comb 13, in order to best adjust the production and quality parameters of the combing machine and, in particular when the circular comb 13 is trimmed over all its periphery of needles or teeth, to choose the offset value of the most appropriate origin of the combing of the fiber heads.
  • the control device B3 can be, by example, a frequency converter, itself connected, using the circuit electronic G, to the programmable central unit E, which can be a PLC or computer. So it becomes possible to adjust very precisely, and while the machine is running, using a device IT F, F ', J, N, a speed of rotation of the circular comb 13, in order to best adjust the production and quality parameters of
  • Adjusting the speed of rotation of the circular comb 13 is obtained by manipulating the IT device F, F ', J, N, or directly displaying the desired value, either by pressing the + buttons or - intended respectively to increase and decrease this speed.
  • the speed of rotation of the circular comb 13 is easily modifiable which optimizes its cleaning capacity of the heads of fiber 11 and reduce wear.
  • the speed of rotation of the circular comb can be stored in a remote archiving medium that can be viewed by operators, depending on the batch of material to be worked, when the same batch, or a similar batch of material should be combed repeatedly and at different times, you can recall the setting parameters corresponding to this batch of material and in this case, the combing machine will adjust automatically the rotation speed of the circular comb corresponding to these settings.
  • the interest of such an adjustment device becomes obvious when several combers are to be adjusted individually, in particular when they are in the battery of twelve machines, for example, and it it becomes possible to adjust them all simultaneously and remotely.
  • the invention makes it possible to consult and modify continuously the speed of rotation of the cylindrical brush 15.
  • the machine does not necessarily have to be stopped.
  • a A4 electric motor the speed of which is freely adjustable regardless of the running speed of the machine, but is subject to the speed of the main motor A1 of said machine, rotates the cylindrical brush 15.
  • the A4 electric motor is controlled by the command B4, which can be, for example, a frequency converter, even connected, using the local network internal to machine G to the central unit programmable E, which can be a PLC or a computer. So, he becomes possible to adjust very precisely, and while the machine, using a computer device F, F ', J, N, a speed of rotation of the cylindrical brush 15, so as to optimize its capacity for cleaning the circular comb 13 and reducing its wear.
  • the adjustment of the speed of rotation of the cylindrical brush 15, is carried out, via the IT device F, F ', J, N, or in directly displaying the desired value, either by pressing the + buttons or - intended respectively to increase and decrease this speed. So, the speed of rotation of the cylindrical brush 15 is easily modifiable.
  • This speed of rotation of the cylindrical brush 15 can also be stored in a remote archiving medium searchable by operators, depending on the batch of material to be worked. Thus, it is possible to recall parameters specific to batches of material to be treated.
  • the device can be completed by a device for detection of the degree of fouling of the circular comb 13 cooperating with servo-control of the speed of rotation of the cylindrical brush 15 and associated with an automatic advance device for the cylindrical brush 15, intended to compensate for the wear of the cylindrical brush. So when the device for detecting the degree of fouling of the circular comb 13 finds that the latter is dirty, a setpoint is transmitted to the engine electric of the cylindrical brush 15, in order to accelerate its speed of rotation until the device for detecting the degree of fouling of the comb circular 13 finds that the circular comb 13 is again clean. AT default it is a PLC which manages the speed setpoints of the engine of the cylindrical brush 15 and which periodically increases and reduces its speed to maintain the cleanliness of the circular comb 13.
  • the automatic brush advance device cylindrical 15, associated with this new brush control device cylindrical 15, is as described in FR-A-2 651 512 in the name of the Applicant.
  • this device automatic increases the interpenetration value of the brush bristles cylindrical 15 with the teeth of the circular comb 13, so that the needles or the teeth of the circular comb 13 are thoroughly cleaned.
  • the device automatic reduces the interpenetration value, so that the brush cylindrical 15 regains the position it had before said period of deep cleaning.
  • the wear of the bristles of the cylindrical brush 15 is reduced and its lifespan is extended.
  • the textile material is then moved by the device to be brought into contact with the lifting device and with the fiber tail cleaning device, this device realizing the stripping and cleaning phases of the fiber tails.
  • the lifting device consists of a pair of lifting cylinders 19 and 20, by a lifting sleeve 21 and by a tension cylinder 22, and is completed by a carriage 23, by a connecting rod 24, and by a moving assembly 25, as well as by a differential device 37 (figure 2).
  • the carriage 23 is a lever, the lower end of which is articulated by a bearing 26 on the frame 12 of the machine and the end of which upper is articulated, via a bearing 27, to the crew mobile 25.
  • the connecting rod 24 is a lever, the lower end of which is articulated by means of a bearing 28 to the frame 12 of the machine and of which the upper end is articulated, by means of a bearing 29, to the moving element 25.
  • the moving element 25 is made up of two parts integral and sliding one on the other, not shown in the drawing attached, one of which supports the bearing 27 of the upper articulation of the carriage 23 and the other of which supports the upper articulation 29 of the connecting rod 24.
  • the carriage 23 is driven in an oscillating movement around its lower articulation 26 by means of a lever 30 connected to a Toggling actuator (not shown). So the cart 23 can move between two separate extreme angular positions one on the other from a distance commonly called the carriage stroke. In one of these two extreme positions, the upper end of the carriage 23 located near the feeder and in the other position extreme, the moving element 25 is near a curling box 31. In its upper part, the carriage 23 supports the lower stripper cylinder 19, which is positively controlled in rotation according to a law of motion called the pilgrim's step and which is surmounted by the upper tear-off cylinder 20, the tear-off sleeve 21 being pinched between the tear-off cylinders 19 and 20.
  • the mobile assembly 25 supports, in its part close to the box to curl 31, the tension cylinder 22 of the tear-off sleeve 21, which is kept under tension by spacing one from the other of the two parts sliding of the moving part 25.
  • the moving part 25 supports, between the tension cylinder 22 and an outlet funnel 32, a pair of detaching cylinders 33a and 33b and, above the sleeve tear-off 21, a sheet on sleeve 34 and an anti-beard cylinder 35.
  • the lifting cylinder 19 has at one of its ends a toothed pinion 36 (not shown) or a chain wheel, which is connected to a device differential 37.
  • a toothed pinion 36 (not shown) or a chain wheel, which is connected to a device differential 37.
  • This consists essentially of a toothed pinion or a chain wheel 38 mounted on the axis of the lower articulation 26 of the carriage 23 and driven positively in rotation by a cascade of gables (not shown), for example.
  • a beam 39 also mounted on the axis of the lower articulation 26 of the carriage 23, but free in rotation, supports each end of its two arms 40a and 40b of the pinions 41a and 41b, free in rotation.
  • This flail 39 is animated by an oscillating movement by via a lever 42, which is moved by any known means, such as, by example, a crank rod device (not shown).
  • a belt notched 43 or a chain meshes with the pinions or wheels 36, 38 and 41a and 41b, so that the inside of the belt 43 meshes with the pinions 36, 41a and 41b, while the outer face of the belt 43 meshes with the pinion 38.
  • the end upper part of the carriage 23 is located near the supply device and the stripping cylinders 19 and 20, associated with the stripping sleeve 21, pinch the end of the fiber heads 11 (not shown), presented by the feeding device.
  • the clamp 6 is open and the sheet between clamp 9 is advanced in the direction of movement of the fibers, so that force the end of the fiber heads to come between the cylinders uprooters 19 and 20. These are rotated so as to extract the fiber heads of the food comb 4 and the carriage 23 is moved in order to move away from the clamp 6.
  • the device for cleaning the fiber tails has a fixed comb 44 secured to an articulated lever 45.
  • the fixed comb 44 is approached to the fiber heads 11, so that the needles of the fixed comb 44, passing through the material, remove the impurities during movement of the material by the device tear.
  • the impurities thus retained are recovered by gravity and / or by suction with the circular comb 13 and a pneumatic sensor (not represented).
  • the fringe of fibers extracted from the food comb after having combed by the circular comb 13 and the fixed comb 44, is deposited on the tear-off sleeve, so as to be superimposed on the fiber fringe extracted in the previous cycle but offset from this one.
  • the value of this offset is commonly called the recovery value.
  • the movement of the tear-off sleeve and of the tear-off cylinders is called the pilgrim's step because, after having made a movement in advance, they will execute a recoil movement, the amplitude of which is less than that of the movement beforehand. This movement is given to them by the differential device 37 described above.
  • the value of the offset or overlap depends directly from the speed of rotation of the toothed pinion or the chain wheel 38, which is mounted on the axis of the lower articulation 26 of the carriage 23 and which is currently positively driven in rotation by a cascade of gables (not shown), the transmission ratio of which can be changed by change of pinions.
  • the setting of the recovery value is currently discontinuous and can only take discrete values. Of more, the change of the recovery value must be made at standstill, successively on each of the machines that make up the battery of combers.
  • the computer device F, F ', J, N forming the command interface makes it possible to consult and modify the value of the recovery by means of the electronic circuit G forming a local network internal to the machine, continuously and without necessarily having to stop the machine.
  • an electric motor A5 whose speed is freely adjustable independently of the running speed of the machine, but whose speed is controlled by the speed of the main motor A1 of the machine, rotates the differential 37 via the pinion notched or chain wheel 38, which is mounted on the axis of the joint lower 26 of the carriage 23.
  • the electric motor A5 is controlled by the device B5, which can be, for example, a frequency converter, itself connected, using electronic circuit G, to the central unit programmable E, which can be a PLC or a computer. So, he becomes possible to adjust very precisely and while the machine, using a computer device F, F ', J, N, the value of covering, so as to adjust the cohesion and regularity of the combed tape and to fine-tune its title.
  • This recovery value can also be memorized depending on the batch of material to be worked and thus be recalled for the combing the same batch or a similar batch of material repeatedly and at different times, the combing machine then automatically adjusts the value of the corresponding recovery.
  • the advantage of such a device adjustment becomes particularly evident when several combers are at individually and that they can all be simultaneously and at distance.
  • the process implemented by the device according to the invention also consists in programming a recovery value different from one combing cycle to another by means of the electronic circuit G forming a local network internal to the machine.
  • the periodic default due to recovery and the wavelength measured on the combed tape at the exit of the combing machine approximates the value of the beard of the textile material, found camouflaged inside a stretch wave, the consequences of which on the textile quality of the finished product are lower.
  • the combs of combed textile material are moved by the tear-off sleeve 21, which performs a so-called island movement towards the curling box 31.
  • the textile material passes successively between the tear-off sleeve 21 and the anti-beard cylinder 35, then between the sleeve stripping 21 and the sheet on sleeve 34, then between the cylinders detachers 33a and 33b, before engaging in the outlet funnel 32 and finally between the rollers 46a and 46b of the crimping box 31.
  • the sleeve tear-off 21, the anti-beard cylinder 35, the sheet metal on the sleeve 34 and the detaching cylinders 33a and 33b are integral with the moving assembly 25, which is oscillating with respect to the machine frame, around the bearings 26, 27, 28 and 29, while the position of the axes of rotation of the rollers 46a and 46b of the curling box 31 is fixed relative to the machine frame and that the speed of rotation of the rollers 46a and 46b is constant.
  • the textile material located between the sleeve peeling and the rollers of the curling can is periodically moved between two extreme positions.
  • the textile material follows a short path located between the sleeve and the rollers of the curling box and in the other of these positions extreme, the textile material follows a long trajectory. It should be paid precisely the tension of the textile material between the tearing sleeve 21 and the rollers 46a and 46b of the curling box 31, so that, when the moving element 25 is distant from the crimping box 31, the material textile is not too tight, to avoid false stretching and cuts, and in such a way that when the moving element 25 is close to the curling box31, it is not too relaxed, because in this case it would come abut against the surrounding mechanical parts, which would lead to destruction of the quality of the textile material.
  • the output voltage of the combed tape, between the tear-off sleeve and the entry of the curling box is adjustable by via a pulley variable speed drive operated remotely using of a mechanical transmission with cardan and chains, this setting having to be performed very precisely while the machine is running, the operator being located near the exit, in order to observe the effect of its adjustment on the combed ribbon.
  • This mechanical device is of complex construction and costly and the value of the output voltage of the combed tape is constant at inside a combing cycle.
  • the output voltage of the combed tape is conditioned by the speed ratio between the rollers of the crimping box and the sleeve tear.
  • an A6 electric motor whose speed is freely adjustable independently of the running speed of the machine, but whose speed is controlled by the speed of the A5 motor itself at the speed of the main engine A1 of the machine, rotates the rollers 46a and 46b of the crimping box 31.
  • the electric motor A6 is controlled by the control device B6, which can be, for example, a variator frequency, itself connected, using the electronic circuit G forming the local machine internal network to the programmable central unit E, which can be an automaton or a computer. Setting the output voltage of the combed tape is obtained, either by manipulation of the computing device F, F ', J, N, either by directly displaying the desired value, or by actuating + or - buttons respectively intended to increase and decrease this tension.
  • the value of this output voltage of the combed tape can also be memorized according to the batch of material to be worked and, thus, be called back for combing the same or a similar batch of material repeatedly and at different times, the combing machine then automatically adjusting the value of the ribbon output voltage combed matching.
  • the advantage of such an adjustment device is obvious when several combers are to be adjusted individually, simultaneously and remotely or, when several combers are placed in battery of set for each of them ribbon output voltage values combed different to take into account for example sleeves of different quality or condition.
  • the ribbon output voltage combed between the tear-off sleeve 21 and the rollers 46a and 46b of the box curling 31 can be variable within the same combing cycle and can be reduced when the moving element 25 is moved away from the curling box 31 and increased when the moving part is close to the curling box.

Landscapes

  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Quality & Reliability (AREA)
  • Preliminary Treatment Of Fibers (AREA)
EP03360090A 2002-07-26 2003-07-22 Vorrichtung und Verfahren zur Steuerung und Konsultierung von Betriebsparametern von Textilmaschinen Withdrawn EP1384799A1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FR0209541A FR2842833A1 (fr) 2002-07-26 2002-07-26 Dispositif et procede de pilotage et de consultation des parametres de marche des machines textiles
FR0209541 2002-07-26

Publications (1)

Publication Number Publication Date
EP1384799A1 true EP1384799A1 (de) 2004-01-28

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EP03360090A Withdrawn EP1384799A1 (de) 2002-07-26 2003-07-22 Vorrichtung und Verfahren zur Steuerung und Konsultierung von Betriebsparametern von Textilmaschinen

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Country Link
EP (1) EP1384799A1 (de)
FR (1) FR2842833A1 (de)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103645719A (zh) * 2013-12-18 2014-03-19 江苏大学 一种多电机同步远程控制系统
CH715551A1 (de) * 2018-11-15 2020-05-15 Rieter Ag Maschf Reinigungsvorrichtung einer Kämmmaschine und ein Verfahren.
IT201900008709A1 (it) * 2019-06-12 2020-12-12 Officine Gaudino S P A Macchina pettinatrice rettilinea munita di manicotto strappatore perfezionato
CN116288826A (zh) * 2023-02-22 2023-06-23 三阳纺织有限公司 一种带式锡林系统及应用其的精梳机

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH714081A1 (de) * 2017-08-25 2019-02-28 Rieter Ag Maschf Verfahren zum Betreiben einer Ringspinnmaschine und Ringspinnmaschine.

Citations (8)

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Publication number Priority date Publication date Assignee Title
EP0389849A2 (de) * 1989-03-29 1990-10-03 Maschinenfabrik Rieter Ag Steuersystem für eine Textilmaschine
EP0417021A1 (de) * 1989-09-07 1991-03-13 N. SCHLUMBERGER & CIE, S.A. Vorrichtung zum automatischen Abnutzungsersatz der Rundbürste einer Kämmaschine
US5005262A (en) * 1988-09-21 1991-04-09 Rieter Machine Works, Ltd. Comber with electric motor driven intermittent feed roller
DE4119877A1 (de) * 1990-07-02 1992-01-09 Rieter Ag Maschf Regelung der kaemmaschine
EP0730052A1 (de) * 1995-02-28 1996-09-04 VOUK MACCHINE TESSILI S.p.A. Kodiereranordnung in einer elektronisch gesteuerten Kämmaschine
DE19641979A1 (de) * 1996-10-11 1998-04-16 Chemnitzer Spinnereimaschinen Verfahren zum Steuern der Antriebsbewegungen einer Kämmaschine insbesondere Baumwollkämmaschine
EP1065303A1 (de) * 1999-07-02 2001-01-03 Rieter Ingolstadt Spinnereimaschinenbau AG Textilmaschine mit einer Vielzahl gleichartiger Arbeitsstellen
DE10055025A1 (de) * 2000-11-07 2002-05-08 Truetzschler Gmbh & Co Kg Vorrichtung zur Bedienung und Anzeige an einer Spinnereivorbereitungsanlage und an Spinnereivorbereitungsmaschinen

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5005262A (en) * 1988-09-21 1991-04-09 Rieter Machine Works, Ltd. Comber with electric motor driven intermittent feed roller
EP0389849A2 (de) * 1989-03-29 1990-10-03 Maschinenfabrik Rieter Ag Steuersystem für eine Textilmaschine
EP0417021A1 (de) * 1989-09-07 1991-03-13 N. SCHLUMBERGER & CIE, S.A. Vorrichtung zum automatischen Abnutzungsersatz der Rundbürste einer Kämmaschine
DE4119877A1 (de) * 1990-07-02 1992-01-09 Rieter Ag Maschf Regelung der kaemmaschine
EP0730052A1 (de) * 1995-02-28 1996-09-04 VOUK MACCHINE TESSILI S.p.A. Kodiereranordnung in einer elektronisch gesteuerten Kämmaschine
DE19641979A1 (de) * 1996-10-11 1998-04-16 Chemnitzer Spinnereimaschinen Verfahren zum Steuern der Antriebsbewegungen einer Kämmaschine insbesondere Baumwollkämmaschine
EP1065303A1 (de) * 1999-07-02 2001-01-03 Rieter Ingolstadt Spinnereimaschinenbau AG Textilmaschine mit einer Vielzahl gleichartiger Arbeitsstellen
DE10055025A1 (de) * 2000-11-07 2002-05-08 Truetzschler Gmbh & Co Kg Vorrichtung zur Bedienung und Anzeige an einer Spinnereivorbereitungsanlage und an Spinnereivorbereitungsmaschinen

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103645719A (zh) * 2013-12-18 2014-03-19 江苏大学 一种多电机同步远程控制系统
CN103645719B (zh) * 2013-12-18 2016-12-07 江苏大学 一种多电机同步远程控制系统
CH715551A1 (de) * 2018-11-15 2020-05-15 Rieter Ag Maschf Reinigungsvorrichtung einer Kämmmaschine und ein Verfahren.
WO2020099980A1 (de) * 2018-11-15 2020-05-22 Maschinenfabrik Rieter Ag Reinigungsvorrichtung einer kämmmaschine und ein verfahren
IT201900008709A1 (it) * 2019-06-12 2020-12-12 Officine Gaudino S P A Macchina pettinatrice rettilinea munita di manicotto strappatore perfezionato
CN116288826A (zh) * 2023-02-22 2023-06-23 三阳纺织有限公司 一种带式锡林系统及应用其的精梳机

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