CN105765120A - Double friction unit having movable friction spindles - Google Patents

Double friction unit having movable friction spindles Download PDF

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Publication number
CN105765120A
CN105765120A CN201480056777.8A CN201480056777A CN105765120A CN 105765120 A CN105765120 A CN 105765120A CN 201480056777 A CN201480056777 A CN 201480056777A CN 105765120 A CN105765120 A CN 105765120A
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CN
China
Prior art keywords
friction
spindle
double
arrangement
spindle arrangement
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Granted
Application number
CN201480056777.8A
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Chinese (zh)
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CN105765120B (en
Inventor
W·雷德
A·索末菲尔德
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Saurer Technologies & CoKg GmbH
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Sula Parts Co Ltd
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Publication of CN105765120A publication Critical patent/CN105765120A/en
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Publication of CN105765120B publication Critical patent/CN105765120B/en
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Classifications

    • DTEXTILES; PAPER
    • D02YARNS; MECHANICAL FINISHING OF YARNS OR ROPES; WARPING OR BEAMING
    • D02GCRIMPING OR CURLING FIBRES, FILAMENTS, THREADS, OR YARNS; YARNS OR THREADS
    • D02G1/00Producing crimped or curled fibres, filaments, yarns, or threads, giving them latent characteristics
    • D02G1/02Producing crimped or curled fibres, filaments, yarns, or threads, giving them latent characteristics by twisting, fixing the twist and backtwisting, i.e. by imparting false twist
    • D02G1/04Devices for imparting false twist
    • D02G1/06Spindles
    • DTEXTILES; PAPER
    • D02YARNS; MECHANICAL FINISHING OF YARNS OR ROPES; WARPING OR BEAMING
    • D02GCRIMPING OR CURLING FIBRES, FILAMENTS, THREADS, OR YARNS; YARNS OR THREADS
    • D02G1/00Producing crimped or curled fibres, filaments, yarns, or threads, giving them latent characteristics
    • D02G1/02Producing crimped or curled fibres, filaments, yarns, or threads, giving them latent characteristics by twisting, fixing the twist and backtwisting, i.e. by imparting false twist
    • D02G1/04Devices for imparting false twist
    • D02G1/08Rollers or other friction causing elements
    • D02G1/082Rollers or other friction causing elements with the periphery of at least one disc

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Textile Engineering (AREA)
  • Yarns And Mechanical Finishing Of Yarns Or Ropes (AREA)

Abstract

The invention relates to a double friction unit (1) for a texturing machine (2), comprising a first spindle assembly (4) for texturing a first yarn and a second spindle assembly (5) for texturing a second yarn, the first spindle assembly and the second spindle assembly being arranged on a common carrier (3), wherein the first spindle assembly (4) has a plurality of first friction spindles (6.1, 6.2, 6.3), of which at least one first friction spindle (6.1) can be moved between a first operating position (25) and a first open position (26), and wherein the second spindle assembly (5) has a plurality of second friction spindles (7.1, 7.2, 7.3), of which at least one second friction spindle (7.1) can be moved between a second operating position (27) and a second open position (28).

Description

There are double; two friction elements of the friction spindle that can move
Technical field
The present invention relates to a kind of double; two friction elements for texturing machine, chemical fibre can be made to deform by means of this pair of friction element.This pair of friction element is for giving smooth long filament one texture.
Background technology
In order to manufacture textured yarn it is known that two long filaments to be merged after a deformation one bicomponent filament yarn of formation.Use the texturing machine with multiple Working position for this, wherein at each Working position, two long filaments are guided concurrently by different unit and process.This unit such as could be for the transfer roller, heater or the deformation unit that guide, stretch or make one of described long filament to deform.Working position is generally arranged side by side each other along the longitudinal side of texturing machine and is particular enable to control independently of one another by controlling device.Additionally, Working position has predetermined spacing.Space uniform especially, the distance of single times that are interpreted as at each between structural detail repeated of (adjacent) Working position.Double; two friction elements are a kind of special deformation units, and its design is used for, and is deformed abreast each other concurrently by two long filaments at each Working position within texturing machine.For this, (uniquely) double; two friction element is used especially at each Working position, this pair of friction element has two independent spindle arrangements with frictional disk, and therefore the long filament of a Working position can be processed by friction spindle each other abreast.Double; two friction elements must so design so that in texturing machine, predetermined the spacing between Working position can keep.There is following expectation: the frictional disk with maximum gauge can be used as much as possible, therefore, it is possible to reach high deformation velocity simultaneously.In this respect, in known double; two friction elements, also demonstrate that other optimization needs.Particularly because predetermined the spacing and sufficiently large frictional disk can not be used all the time between the Working position of conventional texturing machine, desired high deformation velocity therefore sometimes can not be reached.
Another problem is particularly in the operability of double; two friction elements.This is particularly to making long filament penetrate in the spindle arrangement of double; two friction element, this is because spindle arrangement is difficult to touch from the fore side of texturing machine after double; two friction elements are installed in texturing machine.This is related specifically to following double; two friction elements, and wherein spindle arrangement is staggeredly arranged on the support of double; two friction elements relative to the front of double; two friction elements or fore side, and this is such as known from document DE3419484A1.
Summary of the invention
Therefore it is an object of the invention to, solve the problem described in prior art and a kind of double; two friction elements for texturing machine especially set out at least in part, utilize this texturing machine can reach high deformation velocity and this texturing machine has high operation comfort.Additionally should proposing a kind of texturing machine, double; two friction elements of this texturing machine allow high deformation velocity and have high operation comfort.
This purpose realizes by means of the double; two friction elements according to the feature of independent claims and texturing machine.The other favourable design of the present invention provides in the dependent claims.It is noted that the feature individually listed in the dependent claims can be mutually combined with reasonable manner arbitrary, technical and define the other design of the present invention.Additionally, the feature that precise expression and explanation provide in the claims in the description, wherein state out the other preferred design of the present invention.
The double, two friction elements for texturing machine according to the present invention have be arranged on common support for make first long filament deformation the first spindle arrangement and for make second long filament deformation the second spindle arrangement, wherein, first spindle arrangement has multiple first friction spindle, at least one first friction spindle in the plurality of first friction spindle can be conditioned or mobile between the first run location/operating position and the first open position, wherein, second spindle arrangement has multiple second friction spindle, at least one second friction spindle in the plurality of second friction spindle can be conditioned or mobile between the second run location and the second open position.
Double; two friction elements in this proposition are used for making the first long filament and the deformation of the second long filament, and this first long filament and the second long filament are jointly directed in (single) Working position for texturing machine.For this, double; two friction elements so design especially, namely can observe predetermined the spacing between multiple Working positions in texturing machine.Space uniform especially, the distance of single times that refer between the structural detail repeated of the adjacent Working position of texturing machine.The preferably 80mm-140mm that spaces of this texturing machine, it is particularly preferred to for 100mm-120mm, or it is more preferably 110mm.
Double; two friction elements have be arranged on common support for make first long filament deformation the first spindle arrangement and for make second long filament deformation the second spindle arrangement.First spindle arrangement has multiple first friction spindle, and the second spindle arrangement has multiple second friction spindle.First friction spindle of the first spindle arrangement and the second friction spindle of the second spindle arrangement are can be fixed in the way of rotating on common support.This common support is particular enable to realize the particularly compact version of double; two friction element.Additionally, common support is preferably formed from metal and such as can according to the form design of housing or plate.First friction spindle and the second friction spindle are respectively disposed with frictional disk.The quantity of the frictional disk of each first friction spindle or each second friction spindle is preferably between 1 and 10.It is furthermore preferred that the first spindle arrangement has three the first friction spindles, and/or the second spindle arrangement has three the second friction spindles.First friction spindle of the first spindle arrangement and/or the second friction spindle of the second spindle arrangement are fixed on common support with triangular structure respectively relative to each other especially, thus corresponding frictional disk is overlapping at least in part.Frictional disk also has the diameter of preferably 40mm-60mm.But it is particularly preferred that using diameter is the frictional disk of 53mm or 53.5mm.This frictional disk allows extra high deformation velocity.
At least one first friction spindle of the first spindle arrangement can be regulated between the first run location and the first open position.Furthermore it is possible to regulate at least one second friction spindle of the second spindle arrangement between the second run location and the second open position.In order to adjust at least one first friction spindle joint between the first run location and the first open position and/or in order to regulate at least one second friction spindle between the second run location and the second open position, it is preferable that few first friction spindle and/or at least one the second friction spindle can be separately directed in the breach of support.In the first run location of at least one the first friction spindle, it is possible to the central authorities at the first spindle arrangement guide the first long filament, and therefore the first long filament can be deformed by the first spindle arrangement.In the second run location of at least one the second friction spindle, it is possible to the central authorities at the second spindle arrangement guide the second long filament, and therefore the second long filament can be deformed by the second spindle arrangement.When at least one first friction spindle is adjusted to the first open position from the first run location and/or when at least one second friction spindle is adjusted to the second open position from the second run location, at least one first friction spindle and/or at least one the second friction spindle are preferably removed from the first spindle arrangement or the second spindle arrangement and/or are turned on.By at least one first friction spindle being adjusted in the first open position and/or at least one second friction spindle being adjusted in the second open position, it is easier to realize or be capable of making the first long filament penetrate in the first spindle arrangement and/or making the second long filament penetrate in the second spindle arrangement.Thus can also construct double; two friction element particularly compactly, therefore, it is possible to use the king-sized frictional disk of diameter, it is possible to obtain higher deformation velocity.
First spindle arrangement and the second spindle arrangement are preferably able to drive respectively through an independent motor/motor.Additionally, common support is preferably able to be inserted on motor shell.Downside at support, first spindle of the first spindle arrangement intercouples preferably by the second belt preferably by the second spindle of the first belt and/or the second spindle arrangement, thus the first friction spindle is preferably able to be preferably able to drive commonly through the second motor commonly through the first motor driving and/or the second friction spindle.It is preferred here that, first rotation direction of the first friction spindle of the first spindle arrangement is different from the second rotation direction of the second friction spindle of the second spindle arrangement, thus so-called S yarn can be manufactured by means of a spindle arrangement, so-called Z yarn can be manufactured by means of another spindle arrangement.
Double; two friction elements also have the entrance filar guide being arranged on supporting plate especially and the output filar guide designed on motor shell especially especially above the first friction spindle and the second friction spindle, wherein, at least one enters filar guide and is assigned to the first spindle arrangement and the second spindle arrangement accordingly with at least one output filar guide.
It is also advantageous that observe from the fore side of double; two friction elements, the first spindle arrangement and the second spindle arrangement successive at least in part are arranged with staggering.That side that the fore side of double; two friction elements particularly relates to double; two friction element, that can be touched by operator when double; two friction elements are arranged in texturing machine.Double; two friction elements have only one fore side especially.Observe from the fore side of double; two friction elements, the first described spindle arrangement and the second spindle arrangement front and back at least in part are arranged with staggering, in other words this layout also particularly shows, the first spindle arrangement and the second spindle arrangement to some extent away from fore side and/or be not parallel to relative to each other fore side arrange.By this design, it is possible to the especially economical space saving double; two friction element of design.
It is also advantageous that at least one first friction spindle can be regulated by the first actuated piece from the fore side of double; two friction elements, at least one second friction spindle can be regulated by the second actuated piece from the fore side of double; two friction elements.First actuated piece and/or the second actuating member, as being switch or button, can especially electronically be controlled the adjustment between the first run location and the first open position of at least one first friction spindle and/or at least one second friction spindle adjustment between the second run location and the second open position by user by this switch or button from fore side.
It is also advantageous that, the first actuated piece or the second actuated piece are push rod or fork, and this push rod or fork extend towards the fore side of double; two friction elements.Push rod or fork are preferably connected with at least one first friction spindle and/or at least one the second friction spindle (mechanically).Push rod and/or fork preferably, extend to especially the fore side of double; two friction element from least one first friction spindle and/or at least one the second friction spindle so far so that user need not reach into when activating described bar in double; two friction element.
In addition also advantageously, the first spindle arrangement is assigned the first auxiliary device for making the first long filament penetrate, or the second spindle arrangement is assigned the second auxiliary device for making the second long filament penetrate.First auxiliary device and/or the second auxiliary device particularly machinery, can make the first long filament penetrate in the first spindle arrangement by means of this machinery and/or make the second long filament penetrate in the second spindle arrangement.
It is particularly preferred that the first auxiliary device is the first connecting rod with the first auxiliary thread guide, or the second auxiliary device is the second connecting rod with the second auxiliary thread guide.First auxiliary thread guide and/or the second auxiliary thread guide particularly otch, shackle/eye or guide structure, arrange can the first long filament and/or the second long filament releasably and be at least partially fixed on the first auxiliary device and/or the second auxiliary device by means of these.By means of the first auxiliary device can by the first long filament and/or by means of the second auxiliary device can by the second long filament from the fore side of double; two friction elements towards the direction of the first spindle arrangement and/or the second spindle arrangement or especially towards central authorities' guiding of the first spindle arrangement and/or the second spindle arrangement.
It is also advantageous that, the first auxiliary device or the second auxiliary device are designed as the push pedal being arranged in side face.Push pedal preferably has elongated hole, can guide push pedal in side face by this elongated hole.At this, push pedal is preferably at the slide over side walls of support.Thus can especially economical space saving design the first auxiliary device and/or the second auxiliary device.
It is also advantageous that, first spindle arrangement has the first wobble-plate, at least one first friction spindle can be regulated between the first run location and the first open position by means of this first wobble-plate, or wherein, second spindle arrangement has the second wobble-plate, can regulate at least one second friction spindle by means of this second wobble-plate between the second run location and the second open position.The plate that first wobble-plate and/or the second wobble-plate are particularly made of metal.At least one first friction spindle that can regulate is connected with another first friction spindle especially through the first wobble-plate and can pass through the first wobble-plate and swing between the first run location and the first open position around this another the first friction spindle according to the form of turning arm especially.For this, at least one first friction spindle that can regulate and another first friction spindle extend through the first wobble-plate, wherein, two the first friction spindles can be rotatably supported among the first wobble-plate or on.At least one second friction spindle that can regulate is connected especially through the second wobble-plate with another second friction spindle and passes through the second wobble-plate and swings between the second run location and the second open position around this another the second friction spindle according to the form of turning arm especially.For this, at least one second friction spindle that can regulate and another second friction spindle extend through the second wobble-plate, wherein, two the second friction spindles can be rotatably supported among the second wobble-plate or on.
It is also advantageous that, multiple first friction spindles of the first spindle arrangement can pass through the first motor and drive, and multiple second friction spindles of the second spindle arrangement can pass through the second motor and drive.First motor and/or the second motor particularly motor.
nullA kind of texturing machine set forth below according to a further aspect in the invention,This texturing machine has the double; two friction element of at least two,Wherein,Double; two friction elements are arranged in Working position to space each other abreast,Wherein,At least one double; two friction element have be arranged on common support for making the first spindle arrangement of the first long filament deformation and for making the second spindle arrangement of the second long filament deformation,Wherein,First spindle arrangement has multiple first friction spindle,At least one first friction spindle in the plurality of first friction spindle can be conditioned between the first run location and the first open position,Wherein,Second spindle arrangement has multiple second friction spindle,At least one second friction spindle in the plurality of second friction spindle can be conditioned between the second run location and the second open position.
Space and be in particular 80mm-140mm, it is preferred to 100mm-120mm and be particularly preferably 110mm.The feature of corresponding Working position particularly in, preferably respectively guide concurrently wherein and process two long filaments.Additionally, be particular enable to control each Working position independently of one another.The explanation of the double; two friction elements according to the present invention it is referred to about other details.
A kind of texturing machine also advantageously, wherein, at least one double; two friction element designs according to any one of dependent claims.
In order to penetrate the first long filament and/or the second long filament, first this long filament is threaded into the first entrance filar guide or second and enters in filar guide.In order to the first long filament be inserted in the first spindle arrangement and/or the second long filament be inserted in the second spindle arrangement, make at least one first friction spindle swing to the first open position from the first run location by being used for opening the first actuated piece of the first spindle arrangement and/or make at least one second friction spindle swing to the second open position from the second run location by the second actuated piece for opening the second spindle arrangement.Meanwhile, being actuated for making the first long filament and/or the second long filament penetrate in the following manner for being maintained at the first auxiliary device in the position of the removal opened and the second auxiliary device, namely the push pedal of side is pushed in its closed position.Once the first long filament and/or the second long filament are directed in the middle position preset of the first spindle arrangement and/or the second spindle arrangement by penetrating auxiliary, then at least one first friction spindle and/or at least one the second friction spindle are just introduced back in the first run location or the second run location.This process carries out preferably by powered first friction spindle and/or the second friction spindle.
Accompanying drawing explanation
The present invention and technical field is described in detail below according to accompanying drawing.It is noted that accompanying drawing illustrates the particularly preferred enforcement variant of one of the present invention, but the present invention is not limited.At this, identical parts have same accompanying drawing labelling in the accompanying drawings.Accompanying drawing schematically shows:
Fig. 1: illustrate double; two friction element in the perspective;
Fig. 2: illustrating double; two friction element in a top view, wherein, friction spindle is arranged in run location;
Fig. 3: illustrating double; two friction element in a top view, wherein, friction spindle is arranged in open position;With
Fig. 4: illustrate the schematic diagram of texturing machine in a top view.
Detailed description of the invention
Fig. 1 illustrates double; two friction element 1 in the perspective.Double; two friction elements 1 have support 3, and the first spindle arrangement 4 and the second spindle arrangement 5 are maintained on this support jointly.First spindle arrangement 4 has three the first friction spindles 6.1,6.2,6.3, and the second spindle arrangement 5 has three the second friction spindles 7.1,7.2,7.3.First friction spindle the 6.1,6.2,6.3 and second friction spindle 7.1,7.2,7.3 is rotatably maintained on support 3 with triangle moulding respectively.First friction spindle 6.1,6.2 and 6.3 carries multiple frictional disks 29, and these frictional disks are fixed and overlapping in the center of the first friction spindle 6.1,6.2 and 6.3 with being staggered.Second friction spindle 7.1,7.2 and 7.3 carries multiple frictional disks 35, and these frictional disks are fixed and overlapping in the center of the second friction spindle 7.1,7.2 and 7.3 with being staggered.Additionally, the first spindle arrangement 4 is assigned the first actuated piece 9, the second spindle arrangement 5 is assigned the second actuated piece 10.In this embodiment, the first actuated piece 9 is fork 12, and the second actuated piece 10 is push rod 11.By fork 12, the first friction spindle 6.1 of the first spindle arrangement 4 can pass through the first wobble-plate 20 and swing around the first friction spindle 6.2.For this, the first friction spindle 6.1 is maintained in the first breach on support 3.By push rod 11, being maintained at the second friction spindle 7.1 in the second breach on support 3 can be swung around the second friction spindle 7.2 by the second wobble-plate 21.For this, operator can activate push rod 11 and fork 12 from the fore side 8 of double; two friction elements 1.
In addition, first spindle arrangement 4 is assigned the first auxiliary device 13 for making to penetrate in the first spindle arrangement 4 at this unshowned first long filament, and the second spindle arrangement 5 is assigned the second auxiliary device 14 for making to penetrate in the second spindle arrangement 5 at this unshowned second long filament.In this embodiment, the first auxiliary device 13 is first connecting rod 15, and the second auxiliary device 14 is second connecting rod 17.
Additionally, the first auxiliary device 13 and the second auxiliary device 14 are designed as the push pedal 19.1,19.2 being arranged in support 3 side.
First long filament flows to the first spindle arrangement 4 by the first entrance filar guide 31, second long filament flows to the second spindle arrangement 5 by the second entrance filar guide 32, therefore can to pass through the first spindle arrangement 4 directed and be deformed for the first long filament, and it is directed and be deformed that the second long filament can pass through the second spindle arrangement 5.For this, the first spindle arrangement 4 can drive by means of the first motor 22, and the second spindle arrangement 5 can drive by means of the second motor 23.Motor 22 and 23 is commonly disposed in motor shell 34, and this motor shell is directly connected with support 3.Motor shell 34 has the first output filar guide (not shown at this) towards the first spindle arrangement 4, has the second output filar guide (not shown at this) towards the second spindle arrangement 5.The first friction spindle 6.1 that can regulate is arranged in the first run location 25 in FIG, and the second friction spindle 7.1 is arranged in the second run location 27 in FIG.
Fig. 2 illustrates double; two friction element 1 in a top view, and wherein, the first friction spindle 6.1 is arranged in the first run location 25, and the second friction spindle 7.1 is arranged in the second run location 27.First friction spindle 6.1,6.2,6.3 of the first spindle arrangement 4 is also arranged so as on support 3 with triangular form, and the frictional disk 29 making the first friction spindle is overlapping at least in part.Additionally, the second friction spindle 7.1,7.2,7.3 of the second spindle arrangement 5 is arranged so as on support 3 with triangular form, the frictional disk 35 making the second friction spindle is overlapping equally at least in part.
Fig. 3 illustrates double; two friction element 1 in a top view, and wherein, the first friction spindle 6.1 of the first spindle arrangement 4 is arranged in the first open position 26, and the second friction spindle 7.1 of the second spindle arrangement 5 is arranged in the second open position 28.Double; two friction elements 1 are in following situation in figure 3, namely after the first friction spindle 6.1 is along clockwise direction adjusted in first open position 26 by the first wobble-plate 20 around the first friction spindle 6.2 by means of fork 12.Additionally, the double; two friction elements 1 shown in Fig. 3 are in following situation, namely after the second friction spindle 7.1 is in reverse to clockwise about the second friction spindle 7.2 swing by the push rod 11 being bearing in guiding mechanism 30 by the second wobble-plate 21.Fork 12 and push rod 11 can both be operated from the fore side 8 of double; two friction elements 1 by operator.Fork 12 is connected with the first wobble-plate 20, this first wobble-plate can be swingingly maintained on the first friction spindle 6.2 and is directed in dish opening by the first adjacent friction spindle 6.1, therefore makes the first friction spindle 6.1 swing relative to the first adjacent friction spindle 6.2 by actuating fork 12.Correspondingly, the second movable friction spindle 7.1 is maintained in the second dish opening of the second wobble-plate 21, and the second friction spindle 7.2 that this second wobble-plate can be fixed around position swings.For this, push rod 11 couples with the second wobble-plate 21.
In addition being drawn by Fig. 3, the first auxiliary device 13 is directed into and penetrates in position.For this, first connecting rod 15 is promoted by the direction towards fore side 8, thus the front at the center of the design the first auxiliary thread guide 16 on the end of connecting rod 15 the first spindle arrangement 4 of being arranged on support 3.For this, connecting rod 15 is directed on the side of support 3 by push pedal 19.1.After the long filament of input penetrates in the first auxiliary thread guide 16 by the first entrance filar guide 31, the connecting rod 15 with the first auxiliary thread guide 15 is pushed back to the center of the first spindle arrangement 4.This position of connecting rod 15 figure 2 illustrates.
In figure 3, the second auxiliary device 14 of the second spindle arrangement 5 is directed into equally and penetrates in position, and wherein, second connecting rod 17 is pulled out by the direction towards the fore side 8 on support 3.The front at the center of the second spindle arrangement 5 that design auxiliary thread guide 18 on the end of second connecting rod 17 is arranged on support 3 at this.Second connecting rod 17 is directed on the side of support 3 by the second push pedal 19.2 for this.After the second long filament penetrates in the second auxiliary thread guide 18 by the second entrance filar guide 32, the second connecting rod 17 on support 3 is pushed back, and therefore the second auxiliary thread guide 18 is moved back to the center of the second spindle arrangement 5.This situation figure 2 illustrates.
After the first long filament and the second long filament are threaded in spindle arrangement 4 and 5, on support 3, first friction spindle 6.1 is swung to the first run location 25 by the first actuated piece 9 from the first open position 26, and the second friction spindle 7.1 is swung to the second run location 27 from the second open position 28 by the second actuated piece 10.To this, Fig. 3 is shown in the situation of double; two friction elements 1 when penetrating the first and second long filaments, and Fig. 2 illustrates the situation of double; two friction elements 1 when the first long filament and the second long filament are deformed.This can perform all for from the fore side 8 of double; two friction elements 1 to actuated piece 9 and 10 and the During manual operation that activates of auxiliary device 13 and 14.Therefore can also realize, in corresponding Working position, interrupt deformation process when filament breakage with when therefore restarting very shortly.
Fig. 4 illustrates the schematic diagram of the texturing machine 2 with multiple pairs of friction elements 1, and these pair of friction element is associated with corresponding Working position 33 respectively.Working position 33 has and fixing spaces 24.Spacing between adjacent Working position 24 is preferably located in the scope of 100mm to 120mm.There is the frictional disk 29 and 35 of diameter big as far as possible in order to realize higher deformation velocity in order to use, make every effort to have be sized to 110mm space 24.
The present invention allows high deformation velocity and also has high operation comfort.
Reference numerals list:
1 pair of friction element
2 texturing machines
3 supports
4 first spindle arrangements
5 second spindle arrangements
6.1,6.2,6.3 first friction spindle
7.1,7.2,7.3 second friction spindle
8 fore sides
9 first actuated pieces
10 second actuated pieces
11 push rods
12 forks
13 first auxiliary device
14 second auxiliary device
15 first connecting rods
16 first auxiliary thread guides
17 second connecting rods
18 second auxiliary thread guides
19.1,19.2 push pedals
20 first wobble-plates
21 second wobble-plates
22 first motors
23 second motors
24 space
25 first run locations
26 first open positions
27 second run locations
28 second open positions
29 frictional disks
30 guiding mechanisms
31 first enter filar guide
32 second enter filar guide
33 Working positions
34 motor shells
35 frictional disks

Claims (11)

  1. null1. the double; two friction elements (1) for texturing machine (2),This pair of friction element have be arranged on common support (3) for making the first spindle arrangement (4) of the first long filament deformation and for making the second spindle arrangement (5) of the second long filament deformation,Wherein,First spindle arrangement (4) has multiple first friction spindle (6.1、6.2、6.3),At least one first friction spindle (6.1) in the plurality of first friction spindle can be conditioned between the first run location (25) and the first open position (26),Wherein,Second spindle arrangement (5) has multiple second friction spindle (7.1、7.2、7.3),At least one second friction spindle (7.1) in the plurality of second friction spindle can be conditioned between the second run location (27) and the second open position (28).
  2. 2. according to claim 1 pair of friction element (1), it is characterized in that, as viewed from the fore side (8) of double; two friction elements (1), the first spindle arrangement (4) and the second spindle arrangement (5) front and back at least in part are arranged with staggering.
  3. 3. according in any one of the preceding claims wherein pair of friction element (1), it is characterized in that, the first actuated piece (9) can be passed through from the fore side (8) of double; two friction elements (1) and regulate at least one first friction spindle (6.1), the second actuated piece (10) can be passed through from the fore side (8) of double; two friction elements (1) and regulate at least one second friction spindle (5).
  4. 4. according to claim 3 pair of friction element (1), it is characterized in that, first actuated piece (9) or the second actuated piece (10) are push rod (11) or fork (12), this push rod or fork to be extended towards the fore side (8) of double; two friction elements (1).
  5. 5. according in any one of the preceding claims wherein pair of friction element (1), it is characterized in that, first spindle arrangement (4) has been equipped the first auxiliary device (13) for making the first long filament penetrate, or the second spindle arrangement (5) has been equipped the second auxiliary device (14) for making the second long filament penetrate.
  6. 6. according to claim 5 pair of friction element (1), it is characterized in that, first auxiliary device (13) is the first connecting rod (15) with the first auxiliary thread guide (16), or the second auxiliary device (14) is the second connecting rod (17) with the second auxiliary thread guide (18).
  7. 7. the double; two friction elements (1) according to claim 5 or 6, it is characterized in that, the first auxiliary device (13) and/or the second auxiliary device (14) are designed to be arranged in the push pedal (19.1,19.2) of support (3) side.
  8. 8. according in any one of the preceding claims wherein pair of friction element (1), it is characterized in that, first spindle arrangement (4) has the first wobble-plate (20), at least one first friction spindle (6.1) can be made to move between the first run location (25) and the first open position (26) by means of this first wobble-plate, or, second spindle arrangement (5) has the second wobble-plate (21), at least one second friction spindle (7.1) can be made to move between the second run location (27) and the second open position (28) by means of this second wobble-plate.
  9. 9. according in any one of the preceding claims wherein pair of friction element (1), it is characterized in that, the plurality of first friction spindle (6.1,6.2,6.3) of the first spindle arrangement (4) can pass through the first motor (22) and drive, and the plurality of second friction spindle (7.1,7.2,7.3) of the second spindle arrangement (5) can pass through the second motor (23) and drive.
  10. null10. a texturing machine (2),There is the double; two friction element (1) of at least two,Wherein,Double; two friction elements (1) are arranged in Working position (33) with space (24) each other abreast,Wherein,At least one double; two friction element (1) have be arranged on common support (3) for making the first spindle arrangement (4) of the first long filament deformation and for making the second spindle arrangement (5) of the second long filament deformation,Wherein,First spindle arrangement (4) has multiple first friction spindle (6.1、6.2、6.3),At least one first friction spindle (6.1) in the plurality of first friction spindle can be conditioned between the first run location (25) and the first open position (26),Wherein,Second spindle arrangement (5) has multiple second friction spindle (7.1、7.2、7.3),At least one second friction spindle (7.1) in the plurality of second friction spindle can be conditioned between the second run location (27) and the second open position (28).
  11. 11. texturing machine according to claim 10 (2), it is characterised in that at least one double; two friction element (1) described design according to any one of claim 2 to 9.
CN201480056777.8A 2013-10-18 2014-10-14 Double friction elements with the friction spindle that can be moved Expired - Fee Related CN105765120B (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
DE102013111537.3 2013-10-18
DE201310111537 DE102013111537A1 (en) 2013-10-18 2013-10-18 Double friction unit with adjustable friction spindles
PCT/EP2014/071995 WO2015055637A1 (en) 2013-10-18 2014-10-14 Double friction unit having movable friction spindles

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CN105765120B CN105765120B (en) 2018-01-12

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EP (1) EP3058121A1 (en)
JP (1) JP6525985B2 (en)
CN (1) CN105765120B (en)
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WO (1) WO2015055637A1 (en)

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EP3260590A1 (en) * 2016-06-22 2017-12-27 Forster Rohner Ag Feed device for the controlled feeding of an elongated medium, use of a feed device and embroidery machine having a feed device
GB2594226B (en) * 2019-07-05 2023-03-15 Heathcoat Fabrics Ltd Yarn texturing apparatus

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US4110962A (en) * 1972-03-17 1978-09-05 Kugelfischer Georg Schafer & Co. False twisting device
US3885378A (en) * 1973-04-16 1975-05-27 Kugelfischer G Schaefer & Co False twisting apparatus
US4584831A (en) * 1984-05-25 1986-04-29 Fag Kugelfischer Georg Schafer Kgaa Device for the false twisting of threads by means of friction disks
US4704858A (en) * 1985-10-10 1987-11-10 Rieter Scragg Limited False twisting apparatus
US5099642A (en) * 1989-12-13 1992-03-31 Fag Kugel Fischer Georg Schafer Threading a friction false twisting unit
WO1998044177A1 (en) * 1997-03-27 1998-10-08 Temco Textilmaschinenkomponenten Gmbh & Co. Kg Arrangement with at least two texturing devices, specially for producing folded yarns
CN102021699A (en) * 2009-09-10 2011-04-20 德特勒夫·格根斯 Frictional false twisting device

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JP2016533439A (en) 2016-10-27
JP6525985B2 (en) 2019-06-05
DE102013111537A1 (en) 2015-04-23
WO2015055637A1 (en) 2015-04-23
EP3058121A1 (en) 2016-08-24

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