CN108657869A - A kind of false twist texturing machine with winding apparatus - Google Patents

Abstract

The invention discloses a kind of false twist texturing machines with winding apparatus, the winding apparatus has several winding devices, the winding device is with longitudinal upper Multi-layers distributing, the mode being sequentially distributed side by side in transverse direction is arranged, wherein, the winding device includes for rolling tube and rotatable reel cage to be clamped, it can be driven to rotate and the traversing guide device of the friction roller contacted with rolling tube during winding and the filar guide with bootable yarn transverse movement, wherein, each winding device all has the entrance side for receiving yarn, wherein, along yarn direction of advance, each winding device is equipped with one and the conveying device in the upstream side of the filar guide is arranged to control the speed of yarn, wherein, the conveying device is arranged in a manner of multilayer.This arrangement has the consistency that can improve winding bobbin hardness.

Description

A kind of false twist texturing machine with winding apparatus

Technical field

The present invention relates to a kind of false twist texturing machines with winding apparatus that winding bobbin consistency can be improved.

Background technology

From a kind of common textile machine known to EP1926674A1, wherein false twist texturing machine by as one embodiment into Row description.In order to be stretched to yarn, false twisting and deformation, there is the false twist texturing machine of the embodiment the first supply to fill successively Set, first heater, cooling device, false-twisting device, the second feedway, secondary heating mechanism, third feedway and volume Around equipment.Winding apparatus is made of a certain number of winding devices.Winding device is with longitudinal multilayer laminated, lateral laid out in parallel Mode is arranged.In the embodiment of EP1926674, winding device is arranged with trilaminate.Third feedway along false twisting to become The direction that the several machine section lateral stackings arrangement of shape machine extends is arranged to a row, and positioned at the winding apparatus relative to yarn before Into the upstream side in direction.According to the path of yarn, yarn is introduced into secondary heating mechanism, is collected subsequently into third feedway It is conveyed middlely to the winding device of winding apparatus, and is finally wound forming in winding device.Therefore, yarn enters respectively corresponding Winding device before have different " length before winding "." length before winding " refers to yarn from third feedway to filar guide Between length.For example, reaching " length before winding " of the yarn of second layer winding device than reaching bottom winding device " length before winding " of yarn is long.

Therefore, such case is very easy to make the tension value production of the yarn with different " length before winding " on different layers Raw difference.Especially for such as yarn of polyamide fibre isostension responsive type, the spinning cake of different layers finally shaped is with different Mellowness, this is desired opposite with the user of false twist texturing machine.

Invention content

Based on prior art defect above-mentioned, problem solved by the invention is to provide a kind of tool of avoidable drawbacks described above There is the false twist texturing machine of winding apparatus.In order to realize this purpose：

First scheme according to the present invention, a kind of false twist texturing machine with winding apparatus, if the winding apparatus has Dry winding device, the winding device are arranged in a manner of being sequentially distributed side by side in longitudinally upper Multi-layers distributing, transverse direction, wherein institute It includes for rolling tube and rotatable reel cage to be clamped, can be driven to rotate and connect with rolling tube during winding to state winding device The traversing guide device of tactile friction roller and the filar guide with bootable yarn transverse movement, wherein each winding device All have the entrance side for receiving yarn, wherein along yarn direction of advance, each winding device is equipped with a setting in institute The conveying device of the upstream side of filar guide is stated to control the speed of yarn, wherein the conveying device is arranged in a manner of multilayer.

In this way, winding device is delivered into a specific speed after entering the conveying device per one thread, Conveying device is multi-tier arrangement, and the multilayer to correspond to winding device is configured.Therefore, the program have can reduce different layers it Between yarn " winding before length " difference advantage.This advantage keeps the forming spinning cake hardness of all winding positions with uniformity.

Yarn is transported to winding device with certain speed in order to realize, driving device is needed actively to drive conveying device Dynamic, therefore alternative plan according to the present invention, the conveying device is driven from driving device with initiatively by yarn to the volume Winding apparatus conveys, preferably, the entrance in the winding device is arranged in the conveying device that each winding device is arranged Side.

Third program according to the present invention, the conveying device that each winding device is arranged to its corresponding volume Most shorter yarn distance between the filar guide of winding apparatus is all identical.In this way, by farthest reducing yarn " before winding The inconsistency of length ", and then farthest reduce yarn and enter the tension difference before winding device.

Fourth program according to the present invention, the conveying device are configured to have driven rolls mechanism and clamping device Clipping structure.Clipping structure make yarn can under the clamping action of clamping device and the rotation of driven rolls mechanism make The conveying device is actively exported with lower quilt.

5th scheme according to the present invention, the conveying device are configured to have driven draw-off godet and help roll Wound form structure.As the alternatively possible structure of conveying device, wound form structure makes yarn be able to be wound with a few Mode be wrapped on driven draw-off godet and help roll, under the action of winding frictional force, described in yarn is actively exported Conveying device.Compared to former transport conveyor constructions, damage smaller that yarn is subject to.

Based on the operation principle of clipping structure, conveying device further can specifically be subdivided into two kinds of structures.

The 6th scheme of the present invention describes the first possibility of clipping structure.The driven rolls of the conveying device Mechanism is arranged to include a driven shaft connecting with the driving device, and the clamping device is arranged to include that can recline Hold-down roller on the circumference of the driven shaft, wherein form yarn between the driven shaft and the hold-down roller and hold Point.The rotation of driven shaft can be such that yarn is fed in one direction.

The 7th scheme of the present invention describes second of possibility of clipping structure.The driven rolls mechanism of the conveying device It is arranged to include a driven shaft connecting with the driving device, the clamping device is arranged to include two loose rolls And around the endless belt of described two loose rolls setting, wherein the driven shaft is tightly attached to the belt surface with shape At yarn gripping surface.

Eighth aspect according to the present invention, the draw-off godet of the adjacent conveying device is by several driving devices Motor respectively drives to rotate, wherein the motor is controlled respectively by the lower level controller of several driving devices.Draw-off godet It is driven separately so that even if the draw-off godet occurs needing out of service because of yarn problem, other draw-off godets can not It is affected by it.

The speed of 9th scheme according to the present invention, all conveying device supply yarns is wound with corresponding yarn Speed difference between the speed of pipe winding is identical.Conveying device is wound to the speed of winding device supply yarn with yarn Usually tool is there are one speed difference between speed, to realize that yarn is further stretched or further relaxes.By making The speed difference of each winding position is consistent, and the stretching or relexation suffered by each yarn for winding position are identical.

In order to obtain the operating parameter as consistent as possible of machine entirety, the tenth scheme according to the present invention is each described Conveying device is driven by the individually driving device, and all driving devices are connect with the same host controller.

Similarly, in order to make a part of false twist texturing machine winding apparatus the conveying device the consistent operation of acquisition Parameter, and with the difference of the parameter of the conveying device of the winding apparatus of another part false twist texturing machine, it is according to the present invention 11st scheme, the driving device are arranged in several driving groups, wherein driving group is all in the driving group The motor of the driving device is connect with one in several lower level controllers.

Description of the drawings

Fig. 1 is a kind of schematic cross-sectional view of the false twist texturing machine with winding apparatus of the invention under embodiment；

Fig. 2 is the schematic cross-sectional view of the false twist texturing machine with winding apparatus of the invention under another embodiment；

Fig. 3 is the schematic cross-sectional view of the false twist texturing machine with winding apparatus of the invention under the third embodiment；

Fig. 4 is the partial elevation view of winding apparatus under Fig. 1 embodiments；

Fig. 5 is the partial elevation view of winding apparatus under Fig. 2 embodiments；

Fig. 6 .1 are the control block diagram of conveying device of the present invention；

Fig. 6 .2 are another control block diagram of conveying device of the present invention；

Fig. 6 .3 are another control block diagram of conveying device of the present invention.

Specific implementation mode

False twist texturing machine is used to be processed to obtain higher elasticity such as thermoplastic fibres such as terylene, polyamide fibre Fiber.As the first embodiment of the present invention, Fig. 1 shows the cross section of the false twist texturing machine with winding apparatus of the present invention Schematic diagram.Although different types of yarn requires the machine being slightly different configuration, the configuration on basis is essentially identical, because not With type yarn be generally required for being extracted, heated, be cooled, by false twisting, be stretched and be wound.It needs to note Meaning, " upstream side " or " downstream side " mentioned in being described below is all using the direction of advance of yarn as reference.

The structure of false twist texturing machine is introduced below as yarn processed sequence.The purpose of false twist texturing machine is The preoriented yarn of low elasticity is handled, therefore the original silk rack 1 that the device of starting end is base feed.Original silk rack is divided by 1 If for dried layer, every layer has substantially horizontally disposed cake axis 1.1, for placing cake 1.2.In general, in one layer side by side Two cakes 1.2 in a cake 1.2 end and another cake 1.2 tail portion combine, to ensure a yarn The continuity of line supply.The first feedway 3 being arranged on mainframe 8 is located at the downstream side of original silk rack 1.From CN101272975 is learnt, it is known that the first feedway 3 may be configured as wound form structure or clipping structure.This embodiment In its be rendered as seal wire dish structure, be made of motor 3.3, draw-off godet 3.2 and help roll 3.1.Motor 3.3 directly drives draw-off godet 3.2 are rotated, and help roll 3.1 is parallel with draw-off godet 3.2 and is spaced apart.When yarn 2 is by the first feedway 3 of wound form On draw-off godet 3.2 and help roll 3.1 a few are wound simultaneously, every time the winding angle on draw-off godet 3.2 and help roll 3.1 respectively Less than 360 °.By the effect of frictional force, yarn 2 is exported from the first feedway 3, to which the first feedway 3 is by yarn 2 It is extracted out from the original silk rack 1.Yarn 2 enters in heating device 4 in turn to be heat-treated, and then cooling device 5 heats dress 4 settings are set, and cooling treatment is applied to yarn 2.False-twisting device 6 is arranged in the downstream side of cooling device 5.And then false-twisting device 6 are provided that the second feedway 7.Equally, the second feedway 7 also optionally uses wound form structure or clipping Structure.The second feedway 7 is made of motor 7.3, draw-off godet 7.2 and help roll 7.1 in the embodiment.Second feedway 7 With than 3 faster speed of the first feedway, therefore, the quilt between the second feedway 7 and the first feedway 3 of yarn 2 Drawing-off.Further, false-twisting device 6 carries out afterturn processing, therefore the while yarn 2 is by heating cooling treatment to yarn 2 A deformation drawing zone is formed between two feedways 7 and the first feedway 3.

The last one process of false twist texturing machine is the rolling step executed by winding apparatus 10.Winding apparatus in Fig. 1 10 include three-layer winding device 18.Winding device 18 in the embodiment is so-called " the same side type " full automatic winding device. " the same side type " refers to that the entrance side 23 that yarn enters and the side for taking out full curled hair cake are the same side.For example, referring to Shown in Fig. 1, the yarn 2 of the winding apparatus 10 in Fig. 1 enters from right side, and expires curled hair cake and taken out from right side.Each winding dress 18 are set mainly by winding station 29, traversing guide device 16, driven friction roller 15, rolling tube 12, reel cage 11, full curled hair cake rail Road 14, blank pipe storehouse 13 and unshowned doffing device composition.Rolling tube 12 can be clamped in one end of reel cage 11, and the other end is rotatable Ground is connected in winding station 29.During normal winding, rolling tube 12 is kept in contact with driven friction roller 15.Positioned at rolling tube 12 and 15 upstream side of friction roller traversing guide device 16 have can be along the filar guide 17 of rolling tube axially reciprocating.For Known belt-type or slot-cylinder type can be used in the mode that driving filar guide 17 moves back and forth.The filar guide 17 can ensure that yarn 2 are laid with when being winding on rolling tube 12 by the axial direction evenly along rolling tube 12, to ultimately form the silk of specific shape Cake.After spinning cake reaches predetermined size, reel cage 11 rotates, and is located at expiring for 16 top of traversing guide device until spinning cake reaches Roll up track 14.Reel cage 11 discharges the spinning cake, and spinning cake is rolled on full volume track 14.Later, the blank pipe in blank pipe storehouse 13, which is supplied to, shakes On frame 11.Then reel cage 11, which rotates, makes blank pipe be contacted with friction roller 15, starts the winding of a new round.

In the entrance side 23 for receiving yarn of each winding device 18, there are one set the arranging of each winding device 18 Set the conveying device 19 in the wound form structure of 17 upstream side of filar guide.Yarn 2 from the second feedway 7 come out after, pass through with The opposite rear side of the entrance side 23, the godet roller 9 being separately equipped with by each winding layer is at certain dog-ear by corresponding to The space of 29 lower section of winding station, into the conveying device 19, such the Silk Road path is arranged so that advances per one thread 2 is total Distance is shorter.The conveying device 19 is arranged in a manner of multilayer laminated in three layers of the winding apparatus 10.Due to false twisting Texturing machine includes that multiple work stations are handled with logarithm one thread, therefore multiple winding devices 18 and multiple conveying devices 19 are horizontal To be arranged side by side.Fig. 4 will be referred to further below to illustrate above-mentioned arrangement.Fig. 4 shows in Fig. 1 embodiments and winds The partial elevation view of equipment 10, and only schematically show spinning cake, filar guide 17 and conveying device 19.Conveying in the embodiment Device 19 is mainly made of draw-off godet 24, pedestal 30, motor 26 and help roll 25.The draw-off godet 24 and help roll 25 are can revolve The mode turned is mounted on pedestal 30.The draw-off godet 24 is directly driven by motor 26 to rotate.It is not driven the auxiliary of source driving Help roller 25 to be arranged in parallel with the draw-off godet 24 in a manner of spaced apart, and help roll 25 and draw-off godet 24 with silk The parallel mode of cake is placed.Yarn 2 is conveyed in a manner of winding a few on help roll 25 and draw-off godet 24 simultaneously.This is implemented All conveying devices 19 in example are designed to that structure is identical, and the quantity phase of the quantity of conveying device 19 and winding device 18 Together.

Fig. 2 and Fig. 5 gives another embodiment of the present invention.Fig. 2 shows under this embodiment false twist texturing machine it is cross-section Face schematic diagram, Fig. 5 show the partial elevation view of winding apparatus 10 under this embodiment.Two width attached drawings are described below.For The terseness of description, illustrates only for the place different from Fig. 1 embodiments.Difference lies in conveyings to fill in the embodiment Set 19 structure difference.The conveying device 19 is the clipping structure being mainly made of driven rolls mechanism and clamping device.Tool Body, one layer of all winding device 18 is equipped with the driven rolls 20 extended along 10 length direction of winding apparatus, letter For it, driven rolls 20 can cover winding device 18 all in one layer.The driven rolls 20 and a motor 26 are direct Connection is to be driven to rotate, therefore the three-layer winding device 18 of winding apparatus 10 is equipped with three driven rolls 20.Individually, often A winding device 18 is arranged again there are one clamping device, which is servo-actuated by two loose rolls 21 and around described two The endless belt 31 that roller 21 is arranged forms.Under the action of the spring mechanism that one has been not shown, clamping device is tight with its endless belt 31 The form of patch driven rolls 20 is equipped with driven rolls 20, therefore the contact between the endless belt 31 and driven rolls 20 Face is as the clamping face for delivered yarn.Yarn 2 passes through this clamping face.

Fig. 3 discloses another embodiment as clipping structure conveying device.Fig. 3 is implemented for false twist texturing machine another kind The schematic cross-sectional view of example.Only a pair place different from previous embodiment illustrates below.Conveying device 19 in Fig. 3 is shown The clipping structure different from conveying device in Fig. 2 19.It is identical both in principle, all it is to utilize the gripping between two components To form a bite or clamping face for delivered yarn.In the embodiment, conveying device 19 includes one and the motor The driven shaft 20 of connection, similarly, driven shaft 20 extends along the mode that can cover all winding devices 18 in one layer to be set It sets.Also, conveying device 19 further includes the hold-down roller 22 on the circumference for can stick on the driven shaft 20.The hold-down roller 22 exists It is pressed in driven rolls 20 under the action of one unshowned spring mechanism.Yarn 2 is between hold-down roller 22 and driven rolls 20 It is clamped, to form the bite for yarn conveying.

In principle, the composition of conveying device 19 is not limited solely to the structure described in aforementioned three embodiments, as long as The device that yarn is conveyed toward winding device 18 can be belonged to initiatively to the conveying device 19 of the present invention.

Further as shown in the embodiments of figs. 4 and 5, each conveying device 19 arrives its corresponding winding device 18 The most shorter yarn distance D of filar guide 17 is identical.Due to making bilateral reciprocation when filar guide 17 works, " most shorter yarn away from It is identical from D " it refers to when 17 face conveying device 19 of filar guide, each filar guide to the most short of its corresponding conveying device Yarn is apart from identical, and this segment distance can be defined as " length before winding ".In this way, " before winding of yarn between different layers Length " is identical.It should be noted that Tensity size of the yarn 2 before entering winding device 18 is determined by two principal elements, one The speed difference between winding device 18 and conveying device 19, second is that filar guide 17 to the most shorter yarn between conveying device 19 away from From.In general, the speed difference between the corresponding conveying device 19 of each winding device 18 is controlled so as to identical numerical value.Therefore really The most shorter yarn for protecting each filar guide to its corresponding conveying device has weight apart from identical on ensureing yarn tension consistency The effect wanted.

Fig. 6 .1 are the control block diagram of conveying device in Fig. 1, Fig. 2 or Fig. 3 embodiment.Conveying device 19.1 to 19.4 is respective It is driven by individual motor 26.1 to 26.4, each motor 26.1 to 26.4 passes through connection and individually lower level controller 27.1 To 27.4 connections.Therefore, the lower level controller 27.1 to 27.4 of control motor 26.1 to 26.4 is frequency converter.All the next controls Device 27.1 to 27.4 processed is all connect by connection with host controller 28.Host controller 28 can be by setting operating parameter Mode control lower level controller 27.1 to 27.4.Fig. 6 .2 are the another of conveying device control in Fig. 1, Fig. 2 or Fig. 3 embodiment Kind control mode.The individual motor 26.1 to 26.4 of each freedom of conveying device 19.1 to 19.4 drives, all motors 26.1 to 26.4 control commonly through a lower level controller 27.Lower level controller 27 is connect with host controller 28.This control mode The driving of conveying device 19 is advantageous, because all conveying devices 19.1 to 19.4 controlled can be transported with identical speed Row.

In general, false twist texturing machine is formed by connecting by 12 section machine sections along the direction vertical with paper.One section machine section is general Processing can be draw textured to 12 one threads.Therefore, the driving device of 12 conveying devices can be considered as in a section machine section One driving group, to which the driving device of the conveying device of a false twist texturing machine can be divided into 12 driving groups.Fig. 6 .3 The driving device of the conveying device of four section machine sections, that is, four driving groups 32.1 to 32.4 are illustratively shown.Wherein, it drives Group 32.1 and 32.2 is controlled by respective lower level controller 27.1 and 27.2 respectively, and driving group 32.3 and 32.4 is by under same Level controller 27.3 controls.In this way, machine user can be respectively controlled different machine sections.

In the embodiment having been described above, the structure of conveying device is illustrative.Its basic principle is each volume It is actively supplied the device of yarn by be arranged that multilayer is arranged near winding apparatus and adjusts the characteristic after Yarn winding forming. Similarly, the structure of false twist texturing machine is also illustrative in above-described embodiment, is not construed as limiting the invention.Such as immediately Another feedway can be arranged further to stretch by behind the second feedway, alternatively, the lower section of the second feedway A sizing heating device can be arranged in space, to meet the heat treatment to the requirements at the higher level of the yarns such as terylene.

Claims (11)

1. a kind of false twist texturing machine with winding apparatus, the winding apparatus has several winding devices, the winding device It is arranged in a manner of being sequentially distributed side by side in longitudinally upper Multi-layers distributing, transverse direction, wherein the winding device includes for volume to be clamped Around pipe and rotatable reel cage, the friction roller that can be driven to rotate and be contacted with rolling tube during winding and with bootable The traversing guide device of the filar guide of yarn transverse movement, wherein each winding device all has the entrance for receiving yarn Side, which is characterized in that

Along yarn direction of advance, each winding device be equipped with one be arranged the conveying device in the upstream side of the filar guide with Control the speed of yarn, wherein the conveying device is arranged in a manner of multilayer.

2. false twist texturing machine as described in claim 1, which is characterized in that the conveying device is driven by driving device with actively Ground supplies yarn to the winding device, wherein the conveying device setting that each winding device is arranged is filled in the winding The entrance side set.

3. false twist texturing machine as described in claim 1, which is characterized in that the conveying device that each winding device is arranged It is all identical to the most shorter yarn distance between the filar guide of its corresponding winding device.

4. false twist texturing machine as claimed in claim 2, which is characterized in that the conveying device is configured to driven rolls The clipping structure of mechanism and clamping device.

5. false twist texturing machine as claimed in claim 2, which is characterized in that the conveying device is configured to have driven The wound form structure of draw-off godet and help roll.

6. false twist texturing machine as claimed in claim 4, which is characterized in that the driven rolls mechanism quilt of the conveying device Be set as including a driven shaft connecting with the driving device, the clamping device be arranged to include can stick on it is described Hold-down roller on the circumference of driven shaft, wherein form yarn between the driven shaft and the hold-down roller and hold point.

7. false twist texturing machine as claimed in claim 4, which is characterized in that the driven rolls mechanism of the conveying device is set It includes a driven shaft being connect with the driving device to be, the clamping device, which is arranged to, to be included two loose rolls and enclose Around the endless belt of described two loose rolls setting, wherein the driven shaft is tightly attached to the belt surface to form yarn Gripping surface.

8. false twist texturing machine as claimed in claim 5, the draw-off godet of the adjacent conveying device is by several drivings The motor of device respectively drives to rotate, wherein the motor is controlled respectively by the lower level controller of several driving devices.

9. the false twist texturing machine as described in claim 1 to 8 any one, which is characterized in that all conveying device supplies The speed difference that the speed of yarn is wound with corresponding yarn between the speed of pipe winding is identical.

10. false twist texturing machine as claimed in claim 9, which is characterized in that each conveying device is by the individual drive Dynamic device driving, all driving devices are connect with the same host controller.

11. false twist texturing machine as claimed in claim 10, which is characterized in that the driving device is arranged on several driving groups In, wherein in the driving group in the motor Yu several lower level controllers of all driving devices of a driving group one A connection.