EP0450662B1 - Spinnmaschine - Google Patents

Spinnmaschine Download PDF

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Publication number
EP0450662B1
EP0450662B1 EP91107787A EP91107787A EP0450662B1 EP 0450662 B1 EP0450662 B1 EP 0450662B1 EP 91107787 A EP91107787 A EP 91107787A EP 91107787 A EP91107787 A EP 91107787A EP 0450662 B1 EP0450662 B1 EP 0450662B1
Authority
EP
European Patent Office
Prior art keywords
peg
spinning
endless conveyor
machine
spinning machine
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
EP91107787A
Other languages
German (de)
English (en)
French (fr)
Other versions
EP0450662A1 (de
Inventor
Isidor Fritschi
Urs Keller
Urs Meyer
Jörg Wernli
Markus Erni
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Maschinenfabrik Rieter AG
Original Assignee
Maschinenfabrik Rieter AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Maschinenfabrik Rieter AG filed Critical Maschinenfabrik Rieter AG
Publication of EP0450662A1 publication Critical patent/EP0450662A1/de
Application granted granted Critical
Publication of EP0450662B1 publication Critical patent/EP0450662B1/de
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H9/00Arrangements for replacing or removing bobbins, cores, receptacles, or completed packages at paying-out or take-up stations ; Combination of spinning-winding machine
    • D01H9/18Arrangements for replacing or removing bobbins, cores, receptacles, or completed packages at paying-out or take-up stations ; Combination of spinning-winding machine for supplying bobbins, cores, receptacles, or completed packages to, or transporting from, paying-out or take-up stations ; Arrangements to prevent unwinding of roving from roving bobbins
    • D01H9/187Arrangements for replacing or removing bobbins, cores, receptacles, or completed packages at paying-out or take-up stations ; Combination of spinning-winding machine for supplying bobbins, cores, receptacles, or completed packages to, or transporting from, paying-out or take-up stations ; Arrangements to prevent unwinding of roving from roving bobbins on individual supports, e.g. pallets

Definitions

  • the invention relates to a spinning machine, in particular a ring spinning machine according to the preamble of claim 1.
  • the sleeve pins are attached directly to the endless conveyor designed as a horizontal conveyor belt.
  • the conveyor belt In order to transmit the weight forces exerted by the objects carried by the conveyor belt to the machine frame, the conveyor belt is arranged on or in machine-fixed guides. The conveyor belt must therefore be designed so that it not only applies the tensile forces required for advancing the sleeve journals, but can also absorb the entire weight of the sleeve journals and the empty or full sleeves arranged thereon.
  • the peg trays used in the winding machine connected to the ring spinning machine can also be used as empty tube feed means or full tube discharge means, in that these peg trays, which generally consist of a circular disc and a center pin arranged vertically thereon, to be displaced in a guide rail running around the ring spinning machine, the diameter, in particular the length, of a pin slide being slightly smaller than the distance between two adjacent spinning positions.
  • the individual pin slides are in contact with one another and are pushed forward by exerting force on one or more pin slides, the thrust force being at least partially due to the direct contact of the pin slides is transmitted.
  • a conveyor device for such trunnion slides is also known from DE-OS 35 44 560.
  • a disadvantage of the ring spinning machine according to JP-OS 57-161 134 is that the sleeve journals are not exactly in alignment with the spinning positions if a group of journal carriages with empty sleeves on one machine side has been moved in front of the assigned spinning stations. Therefore, before the sleeve change can be made, a rake must be pushed at right angles to the longitudinal axis of the spinning machine between the pin slides in the known ring spinning machine, so that the distances between the adjacent sleeve pins are coordinated exactly with the distances between adjacent spinning positions.
  • a similar sleeve transport device (DE-OS 37 12 027) is used with a reciprocating rail or the like which extends along the spinning positions and which cooperates with pin slides which can be displaced in a guide rail in such a way that these are gradually moved up to the assigned spinning position .
  • the trunnion slides are exactly aligned with the assigned spinning station, they must either have a length exactly equal to the distance between the spinning stations, or there are pawl-like locking elements on the reciprocating rail, which are located exactly at the distance from the spinning stations, so that the locking elements ensure an exact alignment of the trunnion slides with the assigned spinning station even when the holding sledges are not in contact with one another.
  • the aim of the invention is to create a spinning machine, in particular a ring spinning machine, of the type mentioned at the outset, in which in particular the same trunnion slides used in the subsequent winding machine can also be used to feed and remove the sleeves on the spinning machine, nevertheless, in the sleeve change position of the endless conveyor, an exact alignment of the sleeve pin relative to the assigned spinning station should be ensured without the need for expensive, fault-prone and special maintenance-requiring mechanical measures such as the introduction of rakes or the arrangement of pivotable pawls, and the endless conveyor should have a light and simple structure and be exposed to the smallest possible, the exact alignment of the drivers with the spinning positions changing warping forces.
  • drivers are attached to the endless conveyor in exact positioning, which only have to be held in a driving mechanical engagement with the pin slides in order to ensure an exact alignment of the sleeve pins with the assigned spinning position in the sleeve changing position of the endless conveyor.
  • This intervention occurs automatically when the trunnion slides have been transported to the spinning station.
  • the peg slides customary in winding machines can also be used for feeding and removing the sleeves on the ring spinning machine, and it is one exact alignment of the trunnion with the spinning positions is ensured without excessive manufacturing and maintenance work.
  • the endless conveyor as a steel belt and relieving it of the load-bearing capacities for the drivers and sleeve journals and by guiding the steel belt by means of the drivers sliding on corresponding profiles, the spacing once made by attaching the drivers is exactly maintained and thus an exact maintenance of the Once the alignment of the drivers with the spinning positions is achieved, because the function of the drivers as a guide not only relieves the weight of the steel band completely, but it also avoids a change in the dimensions and properties of the steel band in that even with mechanical guides of the machine frame must work together. Rather, the weight of the steel strip itself is even absorbed by the drivers guided on the machine frame. The task of the steel belt is thus reduced to the transmission of the comparatively low tensile forces to the drivers or the pin slides. Despite the relatively light and less complex design of the steel strip, an exact alignment of the drivers with the spinning positions in the sleeve changing position can thus be ensured even in continuous operation.
  • the attachment of the drivers on the endless conveyor in precise alignment can be done as well as the known direct attachment of the trunnions to the endless conveyor, although the main advantage according to the invention is that the trunnion slides only need to be brought into engagement with the rotating drivers at the loading station. At the unloading station, the trunnion slides can be easily removed from the carriers, while the precisely positioned carriers remain unchanged on the endless conveyor remain.
  • both debris of the endless conveyor on a single machine side, expediently, according to claim 3, both debris are equipped with drivers and trunnion slides.
  • the endless conveyor is guided around two mutually opposite machine sides of one or more spinning station groups, so that the full sleeves (cops) on both sides of the spinning machine can be exchanged for empty sleeves in a single operation.
  • the endless conveyor can be suitably moved forwards or backwards at times by half a division of the spinning position.
  • the arrangement of the additional pins on the driver is particularly advantageous because conventional pin slides can thereby be used.
  • the measure according to claim 7 is provided.
  • the endless conveyor is used according to one embodiment only for advancing, but not for carrying the trunnion slides.
  • the support rail according to claim 8 is preferably provided for carrying the trunnion slide.
  • the mounting rail can also perform the longitudinal guidance of the trunnion according to claim 9.
  • the driver has a pure drive function.
  • the pin carriage is additionally guided by the driver, for example by being in a snap connection with the latter.
  • the drivers hold the trunnion magnetically.
  • the invention is used with particular advantage in combination with a subsequent winder, the journal slides provided in the winder also taking over the conveying of the sleeves on the spinning machine.
  • the pin carriages guided in groups unsynchronized one behind the other in groups are exactly positioned during the transition to the spinning machine by being brought into engagement in a controlled manner with the precisely positioned drivers.
  • the trunnion slides are removed from their exact positioning on the endless conveyor at the end of the relevant spinning station group and fed to the normal transport system of the winding machine, which works in a completely different cycle than the ring spinning machine. There is therefore no timing interface between the ring spinning machine and the winding machine.
  • a buffer path is expediently connected between the spinning machine and the winding machine in order to take into account somewhat different working speeds of the two machines.
  • a predetermined supply of full sleeves or empty sleeves, which are arranged on journal slides, is kept available on the buffer sections. If a buffer section is full, the subsequent device can be switched off for a certain period of time. Conversely, the device supplied can be temporarily switched off by suitable switching means, for example working with light barriers, when there are no more storage sleeves on the buffer line.
  • suitable switching means for example working with light barriers
  • the full heads can be removed from the sleeve journal on one buffer section.
  • the trunnion slides are also removed from the buffer section, fitted with a new sleeve and then placed on the second buffer section again. Thanks to the monitoring according to the invention, pin slides with full cops are always supplied and the pin slides with empty sleeves are conveyed back into the ring spinning machine.
  • the buffer sections which are to be protected against fiber flight, can also ensure that the full sleeves (cops) are largely protected against fiber flight by rapid transfer into the buffer section.
  • the buffer zone at the exit of the ring spinning machine should have a capacity approximately equal to the number of spinning stations supplying it.
  • the gripper-free transfer of the trunnion slides from the spinning machine to the winding machine or the buffer section and vice versa can expediently be carried out according to claim 14.
  • a particularly advantageous development of the invention is characterized in accordance with claim 19 in that the drivers are arranged on the endless conveyor with adjustable length.
  • the drivers are arranged on the endless conveyor with adjustable length.
  • the formation of the guide recess and the profile according to claim 20 ensures a particularly advantageous guidance of the drivers and thus of the endless conveyor on the machine frame.
  • the design with a T-cross section has the advantage that there is perfect guidance both in the vertical and in the lateral direction, and weight-related tipping of the drivers about an axis running in the conveying direction is effectively and completely avoided.
  • a ring spinning machine 27 has parallel to one another on opposite machine sides Spinning station groups 12a and 12b, each consisting of only schematically indicated spinning stations 11a, 11b, 11c, 11d, 11e, 11f, 11g, 11h and 11i, 11k, 11l, 11m, 11n, 11o, 11p, and 11q.
  • the same possible distance between spinning positions is designated by 24.
  • Further details of the ring spinning machine 27, in particular the machine heads, are not shown because the arrangements in question are customary and known. For the sake of clarity, the number of spinning stations 11 is reproduced in a greatly reduced manner.
  • An endless conveyor 17 in the form of a vertically running steel belt is guided around the two spinning unit groups 12a, 12b and is placed around the deflecting rollers 39, 40, 41, 42 with a vertical axis at the two ends of the spinning unit groups 12a, 12b running parallel and in alignment with one another. There are therefore two long debris extending along a spinning group 12a or 12b and two short debris of the endless conveyor 17 connecting the two spinning unit groups 12a, 12b at the ends.
  • drivers 19a, 19b, 19c, 19d, 19e, 19f, 19g, 19h and 19i, 19k, 19l, 19m are aligned with the individual spinning positions 11a to 11q and extend outward from the endless conveyor 17.
  • 19n, 19o, 19p and 19q attached.
  • a horizontal support rail 22 extends in the area of the spinning station groups 12a, 12b, which is also guided around the left end of the ring spinning machine 27 parallel to the endless conveyor 17 in order to establish a transport connection between the two sides of the ring spinning machine.
  • a pin carriage 18 On the mounting rail 22 are in series with the drivers 19a to 19h or 19i to 19q in a pin carriage 18 arranged, which according to FIG. 11 consist of a circular disc-shaped sliding body 44 and a sleeve pin 13 arranged vertically thereon, which are preferably made in one piece from plastic.
  • dashed sleeve changing devices 14 which can be designed as in classic doffers and are used to remove 11 full sleeves (cops) from the spindles of the spinning stations and instead place empty sleeves 16 on the spindles, which are by means of the endless conveyor 17 have been introduced to the individual spinning stations 11.
  • the deflecting rollers 41, 42 are connected to one another by a tensioning beam 47 which is movable in the direction of the double arrows in the longitudinal direction of the machine and which is set by a tensioning device 48, which is supported on the machine frame, under a pre-tensioning tensioning the endless conveyor 17.
  • a cleaning station with blowing or suction nozzles and / or brushes can be provided in a manner not shown, in order to clean the carriers 19 and the conveyor belt 17 from fiber fly.
  • a cleaning element for example in the form of a cleaning disk, can be fastened at any point on the endless conveyor 17, which is not already occupied by drivers 19, which slides along the carrier rail 22 when the endless conveyor 17 rotates and thereby cleans it.
  • a cleaning element can be provided in all embodiments of the invention.
  • buffer sections 28, 29 formed by conveyor belts 34, 35 are provided in alignment with the sections of the support rails 22 running along the spinning units 11, to which a winding machine 26 with guide rails 30, which is only schematically indicated, is attached and winding units 31 connects.
  • the number of winding units 31 is at least one order of magnitude smaller than the number of spinning units 11.
  • a deflector 36 is provided, which grips the pin slides 18 in the region of the deflection roller 39 and separates them from the drivers 19 guided around the deflection roller 39 , so that they reach the conveyor belt 34 beginning in the region of the deflection roller 39.
  • a conveyor belt 35 is likewise arranged, which first leads to the slide carriage 18 equipped with empty sleeves 16 to a stop 37, which is briefly withdrawn by means of a drive device 50 controlled by a light barrier 49 to release the foremost journal slide 18 can.
  • the conveyor belts 34, 35 are driven in a controlled manner temporarily or continuously during a sleeve changing process.
  • the support rail 22 associated with the spinning group 12a connects, so that the pin carriage 18, released from the holding stop 37 and equipped with empty sleeves 16, is pushed from the conveyor belt 35 onto the stationary support rail 22 and gripped there by the driver finger 45 of a driver 19 can be.
  • each conveyor belt 34, 35 light barriers 51, 52, 53, 54 are provided, which serve to determine the presence or absence of trunnion slides 18 at the relevant point and accordingly the mode of operation of the transport devices of the ring spinning machine 27 and the Control winding machine 26.
  • a further mechanically retractable and extendable stop 55 is provided, which is temporarily withdrawn when the full winding of the winding machine 26 is required to allow a predetermined number of full tubes 15 to pass through the winding machine 26.
  • the spinning process on the ring spinning machine 27 is resumed, and the endless conveyor 17 is started in the direction of the arrow, whereupon the full sleeves 15 are successively pushed onto the conveyor belt 34 of the buffer zone by the deflector 36 28 are handed over.
  • the winding machine 30 calls up the required number of full tubes 18 in order to produce the final large bobbins at the winding stations 31.
  • the mounting rail 22 has in the lower part of FIG 1 reproduced embodiment with mechanical driver fingers 45 also a lateral guide 56.
  • the journal carriages 18 which they have taken along and thus the supporting journals 13 fastened to the journal carriage 18 are also exactly relative to the individual spinning stations 11 aligned.
  • the initially non-existent alignment is produced during the transition from the conveyor belt 35 to the mounting rail 22, while it is deliberately given up again during the transition of the full sleeves 15 from the upper mounting rail 22 to the conveyor belt 34, since the cycle of the winding machine 26 is now changed again.
  • an endless conveyor 17 with both debris 20, 21 is arranged on a machine side along a spinning group 12.
  • the sleeve changing device 14 exchanges the full sleeves arranged on the spindles of the spinning stations 11 by first placing the full sleeves 15 on the support rail 22 arranged on the run 20 in the region of the precisely positioned drivers 19 'and then from the run facing away from the machine 21 arranged support rail 22 in the area of the exactly positioned to each spinning station Carrier 19 '' removes an empty sleeve from the pin slides 18 arranged there and places it on the spindles of the spinning stations 11. After this change has been made, the endless conveyor 17 is switched on.
  • FIG. 3 shows three versions of drivers 19 fastened to the endless conveyor 17 by means of screws 92 ′ with different embodiments of receiving openings 57 for the pin slides 18. While the first driver 19 has a trough-like prismatic receiving opening 57 with three separate permanent magnets 46 arranged one behind the other, the prismatic trough-like opening 57 'of the central driver 19 is equipped with a correspondingly prismatic permanent magnet 46.
  • the receiving opening 57 ′′ of the third driver 19 shown is part-circular and is equipped with a permanent magnet 46 which is designed in the form of a part-circle.
  • the sliding body 44 of the peg slide 18 is made of a soft magnetic on the circumference in the form of a circular cylinder jacket, with inserts 58 running in particular all around 3, partially come to rest against the permanent magnets 46, so that they are attracted by them and thereby the pin slides 18 are held on the drivers 19 in a defined position.
  • 4 and 12 are equipped with full sleeves 15 pin slides 18 at the end of the ring spinning machine 17 or at the end of a spinning group by a deflector 36, against which the pin slides 18 start in the region of the deflection roller 39, separated from the drivers 19 and on Conveyor belt 34 is transferred, which is connected to the winding machine 26 (Fig. 1,2).
  • the deflector 36 is bow-shaped, as shown in FIG. 12, in such a way that the vertical steel conveyor belt 17 and the drivers 19 detached from the peg carriage 18 can pass through the bow opening, in order to get onto the circulation roller 39 and be guided around it.
  • the empty tube feed conveyor belt 35 In the conveying direction, directly behind the deflector 36, the empty tube feed conveyor belt 35 is provided, which feeds pin slides 18 equipped with empty tubes 16 to the carriers 19 emptied on the deflector 36.
  • the feed direction f is perpendicular to the apex 17 'of the conveyor belt 17th
  • FIG. 7 shows how such a light barrier 60 could be designed in detail.
  • a light transmitter-receiver 61 emits a light beam 62 upwards through the area in which a peg slide 18 should be located.
  • a retroreflector 63 is provided which, in the absence of a peg slide 18, reflects light into the light transmitter-receiver 61, so that a corresponding false signal can be triggered there. If there is a trunnion carriage 18 in the path of the light beam 62, no light is reflected to the light transmitter-receiver 61 and so no false signal is triggered at the light transmitter receiver 61, so that the operation of the conveyor 17 does not have to be interrupted.
  • the base 64 according to FIG. 8, which is made of good sliding and resistant plastic, is dome-shaped, so that there is only a sliding support on the support rail 22 on the circumference.
  • the floor 65 according to FIG. 9 has three sliding projections 67 which project downwards and are distributed uniformly over the outer circumference.
  • the floor 66 according to FIG. 10 has a flat support projection 68 in the central area, so that here the trunnion slide 18 only slides on the support rail 22 in its central area.
  • the vertical steel conveyor belt 17 has a spring 73 which projects inwards to the deflecting roller 39 and which engages in a circumferential groove 74 of the deflecting roller 39.
  • the other deflecting rollers 40, 41, 42 have corresponding circumferential grooves 74. This measure ensures that the steel strip 17 and the deflecting rollers are properly aligned vertically.
  • the vertically standing conveyor belt 17 has an outwardly pointing spring 75 which, displaceable in the conveying direction, engages in a corresponding groove 76 in the driver 19.
  • the driver 19 can be fixed in different longitudinal positions relative to the conveyor belt 17. In this way, a longitudinal adjustment of the driver 19 relative to the endless conveyor 17 is possible.
  • the driver 19 In its lower area, the driver 19 has a T-shaped guide recess 78, by means of which it slidably rests on a profile 79 with a T cross section that is complementary thereto.
  • the T-profile is firmly connected to the mounting rail 22 and the lateral guide 56, i.e. machine-proof. Due to this guidance of the drivers 19, these and the conveyor belt 17 are also supported and guided correctly in the vertical direction between the deflecting rollers 39, 40, 41, 42.
  • the circular-cylindrical sliding body 44 of the pin carriage 18 is slidably mounted on the mounting rail 22 and is advanced by the driver finger 45 of the driver 19 when the endless conveyor 17 is put into circulation.
  • the lateral guides 56 are bent at their upper end to a guide edge 80, so that the sliding bodies 44 are secured against lifting from above and can only be moved in the desired conveying direction.
  • the pin carriage 18 can also be provided with an additional pin 23 which is designed in the same way as the sleeve pin 13.
  • a connecting tab 84 extends from the foot of the additional pin 23 to the foot of the sleeve pin 13, where it forks.
  • the two fork arms 84 ', 84' ' encompass the base of the sleeve pin 13 in the form of a circle and are snapped into an all-round groove 13' '. In this way, a defined distance 25 is produced between the sleeve pin 13 and the additional pin 23, which is equal to half the distance 24 between two spinning positions.
  • the additional pin 23 can also pivot about the central axis 85 of the sleeve pin 13, as is indicated by the double arrow in FIG. 15.
  • This swiveling has the meaning that the sleeve pin 13 and the additional pin 23, when arranged in a straight guide 86, can be set exactly one behind the other, as shown in FIG. 15, while when the guide 86 changes into a curved region 87 there is a relative pivoting between the two pins 13, 23 is possible so that the overall arrangement can also be properly guided over curved regions of the conveyor 17.
  • each additional pin 23 After the additional pin 23 is located exactly between two successive sleeve pins 13, the sliding bodies 44 of which lie close to one another, the foot 88 of each additional pin 23 overlaps the sliding body 44 of the immediately following pin slide 18, and must therefore be designed with a corresponding height offset.
  • the additional pins 23 have the sense of temporarily accommodating the empty or full sleeve when changing the sleeve at a spinning station 11, so that the arrangement of such an additional pin 23 on the Spinning machine itself unnecessary.
  • the additional pins 23 can also be provided on the drivers 19, which for this purpose grip the support pins 13 or their feet 13 'in a fork shape from the endless conveyor 17, so that a platform 19' '' is formed behind each sleeve pin 13, on which the additional pin 23 is located at the half pitch 25. 17 and 18, the additional pin 23 is constructed the same as the sleeve pin 13 and also has the same arrangement in the vertical direction.
  • the feet 13 ' are the The sleeve pin 13 is held from the front by a spring arm 92 which extends away from the endless conveyor 17 and which carries a rounded recess 93 which partially wraps around the circular cylindrical foot 13 'from the front and thus the foot 13' against the platform 19 '''of the driver 19 presses.
  • the pin slides 18 need only be supported in a sliding manner from below by the mounting rail 22, while all other mounting and guiding functions are taken over by the drivers 19.
  • the support rail 22 is designed as a hollow and extending in the longitudinal direction of the machine guide profile with a flat upper sliding surface, which is arranged fixed to the machine.
  • the driver 19 fastened to the conveyor belt 17 is fastened to the endless conveyor 17 by means of a screw 93 'and slidably guided in the conveying direction by the engagement of a profile 93 integral with it in a guide recess 94 of the mounting rail profile 22 on the machine frame. In this way, the steel belt forming the endless conveyor 17 is carried by the driver 19 and stabilized in its vertical position.
  • the driver platform 19 ′ extends rearward and outward from a vertically upwardly directed arm 95 above the upper surface of the sliding body 44 of the pin carriage 18 in order to engage behind the foot 13 ′ of the sleeve pin 13.
  • the jaw 96 which is pressed against the foot 13 'by means of a leaf spring 92' ', engages the sleeve journal 13 so that the journal carriage 18 is detachably held and guided on all sides and can be removed in the direction away from the endless conveyor 17.
  • a group of spinning units 12 generally consists of 48 spinning units. 3 to 25 spinning station groups are put together to form a spinning machine. According to the runs Endless conveyor 17 along or around such a spinning machine, that is to say that an endless conveyor 17 is preferably not guided around each individual spinning group, but rather around all of the spinning groups.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Textile Engineering (AREA)
  • Spinning Or Twisting Of Yarns (AREA)
  • Replacing, Conveying, And Pick-Finding For Filamentary Materials (AREA)
EP91107787A 1988-09-24 1989-09-21 Spinnmaschine Expired - Lifetime EP0450662B1 (de)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
CH3547/88 1988-09-24
CH3547/88A CH678720A5 (en)) 1988-09-24 1988-09-24
EP89910608A EP0404875B1 (de) 1988-09-24 1989-09-21 Synchron-Endlosförderer an einer Spinnmaschine

Related Parent Applications (1)

Application Number Title Priority Date Filing Date
EP89910608.2 Division 1989-09-21

Publications (2)

Publication Number Publication Date
EP0450662A1 EP0450662A1 (de) 1991-10-09
EP0450662B1 true EP0450662B1 (de) 1994-11-02

Family

ID=4258336

Family Applications (3)

Application Number Title Priority Date Filing Date
EP89910608A Expired - Lifetime EP0404875B1 (de) 1988-09-24 1989-09-21 Synchron-Endlosförderer an einer Spinnmaschine
EP91107786A Expired - Lifetime EP0452978B1 (de) 1988-09-24 1989-09-21 Spinnmaschine
EP91107787A Expired - Lifetime EP0450662B1 (de) 1988-09-24 1989-09-21 Spinnmaschine

Family Applications Before (2)

Application Number Title Priority Date Filing Date
EP89910608A Expired - Lifetime EP0404875B1 (de) 1988-09-24 1989-09-21 Synchron-Endlosförderer an einer Spinnmaschine
EP91107786A Expired - Lifetime EP0452978B1 (de) 1988-09-24 1989-09-21 Spinnmaschine

Country Status (6)

Country Link
US (1) US5185993A (en))
EP (3) EP0404875B1 (en))
JP (1) JP2944118B2 (en))
CH (1) CH678720A5 (en))
DE (3) DE58909240D1 (en))
WO (1) WO1990003461A1 (en))

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US5337551A (en) * 1989-06-15 1994-08-16 W. Schlafhorst Ag & Co. Textile machine tube transport assembly with full package and empty tube capability
DE3924713C2 (de) * 1989-07-26 2001-08-23 Zinser Textilmaschinen Gmbh Transportvorrichtung
DE3924711A1 (de) * 1989-07-26 1991-01-31 Zinser Textilmaschinen Gmbh Transportvorrichtung zum bereitstellen von leeren spulenhuelsen an spinnstellen und zum abtransportieren von vollen spinnspulen von spinnstellen einer doppelseitigen spinnmaschine, insbesondere einer ringspinnmaschine
DE3924710A1 (de) * 1989-07-26 1991-01-31 Zinser Textilmaschinen Gmbh Transportvorrichtung
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DE4113090A1 (de) * 1991-04-22 1992-10-29 Rieter Ag Maschf Verfahren und vorrichtung zur ueberfuehrung von kopsen und leerhuelsen zwischen einer ringspinnmaschine und einer anschliessenden spulmaschine
DE4113092C2 (de) * 1991-04-22 1999-09-23 Rieter Ag Maschf Zapfenschlitten-Überführungsvorrichtung an einer Ringspinnmaschine
EP0517668B1 (de) * 1991-06-02 1996-01-10 Maschinenfabrik Rieter Ag Spulen-bzw. Hülsentransport in Spinnmaschinen
DE4121772A1 (de) * 1991-07-01 1993-01-07 Palitex Project Co Gmbh Anlage zum spulentransport zwischen vielstellen-textilmaschinen
DE4129537C2 (de) * 1991-09-05 2000-01-27 Rieter Ag Maschf Transportsystem zur Beförderung von Voll- und Leerhülsen bei Spinn- und Spulmaschinen
DE4131527A1 (de) * 1991-09-21 1993-03-25 Schlafhorst & Co W Caddy fuer den voneinander unabhaengigen einzeltransport von kopsen und kopshuelsen in einem transportsystem einer textilmaschine
DE4402143A1 (de) * 1993-04-24 1994-10-27 Schlafhorst & Co W Vorrichtung zum Ent- und Versorgen einer Kreuzspulen herstellenden Maschine
DE4319173A1 (de) * 1993-06-09 1994-12-15 Schlafhorst & Co W Ringspinnmaschine bei der längs auf beiden Seiten der Maschine vorhandener Spindelreihen zum Zuführen von Leerhülsen und Abführen von Kopsen antreibbare Transportbänder angeordnet sind
IT1272873B (it) * 1995-01-10 1997-07-01 Savio Macchine Tessili Srl Sistema di distribuzione e movimentazione delle spole alle stazioni di roccatura di una roccatrice automatica
DE19532350B4 (de) * 1995-09-01 2004-07-08 Maschinenfabrik Rieter Ag Verfahren und Vorrichtung zum Abtransportieren von Kopsen bei einer Ringspinnmaschine
RU2139235C1 (ru) * 1995-10-25 1999-10-10 Риетер Елитекс А.С. Усти над Орлици Способ и устройство для питания наматывающих устройств текстильной машины пустыми патронами
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CH678720A5 (en)) 1991-10-31
WO1990003461A1 (de) 1990-04-05
EP0452978B1 (de) 1995-05-17
DE58909240D1 (de) 1995-06-22
DE58908610D1 (de) 1994-12-08
EP0450662A1 (de) 1991-10-09
JP2944118B2 (ja) 1999-08-30
EP0404875A1 (de) 1991-01-02
JPH03501506A (ja) 1991-04-04
EP0452978A1 (de) 1991-10-23
US5185993A (en) 1993-02-16
EP0404875B1 (de) 1994-02-16
DE58907005D1 (de) 1994-03-24

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