CN102031613A - Method for producing jacquard chain and jacquard chain warping machine - Google Patents

Abstract

The invention relates to a method for producing jacquard chains and a jacquard chain warping machine, wherein threads (11) are placed on transport surfaces (5) by a thread eyelet (15) to generate a thread cover layer (17).The transport surfaces (5) are arranged at a periphery of a warping drum (2) and are movable axially parallel to the warping drum (2).The thread eyelet (15) and the transport surfaces (5) are moved relative to each other during placing of the threads.To produce jacquard chains with high quality, a parameter of the thread cover layer (17) on the transport surfaces (5) is determined. Relative movement between the thread eyelet (15) and the transport surfaces (5) is controlled based on the determined parameter.

Description

Be used to make the method and the warper of jacquard weave chain

Technical field

The present invention relates to a kind of method that is used to make the jacquard weave chain, be placed on yarn on the conveyor surface by means of thread-carrier in the method and generation yarn cover layer, wherein said conveyor surface is arranged on the circumference of warper drum and can moves in warper drum by axially parallel, and wherein said thread-carrier and conveyor surface relative to each other motion in putting down the process of yarn.

In addition, the present invention relates to a kind of warper with warper drum and a plurality of thread-carriers, a plurality of conveyor surfaces that can be parallel to the axial-movement of warper drum wherein on the circumference of described warper drum, have been arranged, yarn can be placed on the described conveyor surface forming the yarn cover layer by means of described thread-carrier, and the axis that wherein said thread-carrier and conveyor surface can be parallel to described warper drum relative to each other moves.

Background technology

Such method and such warper are open such as obtaining from EP 1 445 361 A2.

The jacquard weave chain that also can be called " short chain " is made in the following manner, promptly from the end face of warper drum with one or more yarns simultaneously round the circumference of warper drum reel and this process, be placed on such as be configured to circularly around the conveyor surface of conveyer belt on.If one or more yarns of reeling simultaneously are wound up on the warper drum with the coil of needed number, so described conveyor surface just leaves described end face, is used to ensuing yarn that the locus is provided.

When being wound up into yarn on the warper drum, can't radially arrange each coil up and down with stacking.Exist such danger in this case, above promptly described yarn falls down and is wound on by ensuing coil on free end face.This is just producing huge difficulty during debatching with the jacquard weave chain from warper drum when beaming afterwards, these difficulties can be until causing yarn breakage.

Therefore when being wound up into yarn on the warper drum, produce yarn cover layer with tapered end face.So select the gradient of this end face, thereby worry that no longer yarn slides.In order to produce the end face of this taper, when reeling, thread-carrier and conveyor surface are relative to each other moved.Especially when being wound up into threads on the warper drum simultaneously, that is to say when producing so-called " little cotton yarn tape ", what have certain meaning concerning debatching afterwards is, described little cotton yarn tape forms the yarn cover layer with a kind of circumferential surface, and described circumferential surface as far as possible accurately is parallel to the axis of warper drum.If do not observe this condition, will produce a kind of jacquard weave chain so afterwards, each yarn has very different tension force on this jacquard weave chain.Such jacquard weave chain is difficult in later on such as processing in weaving mill or the knitting mill.

Summary of the invention

Task of the present invention is that manufacturing has high-quality jacquard weave chain.

This task is resolved in a kind of method that starts described type in the following manner, is promptly detecting tectal at least one parameter of described yarn at least one conveyor surface and is depending on the parameter control thread-carrier that detected and the relative motion between the conveyor surface.

Thereby people control, in which way yarn is put on the warper drum, and depends on the yarn cover layer and whether meet desired regulation control thread-carrier and the relative motion between the conveyor surface.Being considered to possible thus so far to a large extent is, influence the tectal structure of yarn, so influence the tectal structure of yarn or rather, thereby can more easily and with the jacquard weave chain that higher quality will so be made on the circumference of warper drum extract out later on.

Preferred at this, for producing relative motion in the following assembly at least one moved: thread-carrier, routing cell, conveyor surface and warper drum, wherein said thread-carrier is arranged on the described routing cell in the mode that can move.Also can simultaneously a plurality of assemblies in these assemblies be moved, be used to realize the tectal desired structure of yarn.One of these assemblies are moved just be enough to produce the yarn cover layer of the circumferential surface of end face with tapered inclined-plane and axially parallel.

Preferably when putting down yarn, make warper drum rotation and with the detection limit of parameter on the predetermined position of rotation of warper drum.If such as realizing described conveyor surface by this mode of pitch arrangement conveyer belt with regulation on the circumference of warper drum, that just produces the yarn cover layer with polygonal shape.If in this case such as with the detection limit of parameter warper drum below conveyer belt is in measurement mechanism the time residing position of rotation on, that just can detect described parameter just on conveyer belt.This in most of the cases is enough to obtain the enough information about the tectal structure of described yarn, thereby can control described relative motion continuously.

Preferably as the depth of parallelism between the axis of the parameter use tectal height of yarn and/or tectal surface of yarn and warper drum and/or the gradient of the tectal free end face of yarn.Often that one of these parameters are just enough as parameter.But, under specific situation, maybe advantageously, be used as parameter with two in these parameters or three.If such as discovery, the tectal surface of described yarn is no longer parallel with the axis of warper drum, that is so relative motion between described conveyor surface of control and the thread-carrier just, thereby make described thread-carrier move to place nearer above the conveyor surface when producing the gradient, perhaps when producing the opposite gradient of the tectal circumferential surface of described yarn, then must control thread-carrier and conveyor surface relative to each other enters in the bigger registration it in end towards the thread-carrier dorsad of described warper drum.Another kind of scheme is, the gradient of control free end face.If this gradient is " right ", should think that so usually the tectal structure of described yarn is also up to specification.Can determine the tectal recruitment of yarn and control described relative motion from detecting the tectal height of yarn according to this recruitment in the moment that successively accompanies.

If produce described yarn cover layer by a series of little cotton yarn tapes that are arranged side by side, so advantageously only for the little cotton yarn tape of article one detect described parameter and for all ensuing little cotton yarn tapes use described relative motion for the employed function of the little cotton yarn tape of article one.On warper, can't make the jacquard weave chain by all this modes of yarn that are included in the jacquard weave chain of reeling abreast simultaneously.Or rather, so handle, thereby always reel only one group of yarn simultaneously.These yarns of reeling simultaneously abreast are also referred to as " little cotton yarn tape ".If especially all little cotton yarn tapes are configured to same pattern, so only the relative motion that detects between described thread-carrier and the conveyor surface for the little cotton yarn tape of article one is just enough, and method is that described parameter is monitored and used as adjustable parameter.The change curve of this relative motion can be kept in the memory then and be used to construct ensuing little cotton yarn tape.Certainly, also can also in the winding process of ensuing little cotton yarn tape, check.But the parameter that often no longer needs to depend on current measurement comes control corresponding is carried out in described relative motion.The uniform structure that this has saved working power and can realize the jacquard weave chain on the whole.

The preferred conveyor surface that uses has distributed the contact-making surface of the wedge shape with predetermined angle of gradient for described conveyor surface on an end of workspace.This angle of gradient is corresponding to the gradient of the cone on tectal another axial end portion of yarn.Obtain the tectal desired structure of yarn then from the beginning, that is to say from first coil and just can detect the parameter that is used to control the relative motion between described thread-carrier and the conveyor surface.

Described task is resolved on a kind of warper that starts described type in the following manner, promptly be provided with measurement mechanism, this measurement mechanism detects tectal at least one parameter of yarn and is connected with driving control device, and described driving control device is then controlled the relative motion between described thread-carrier and the conveyor surface.

As top in conjunction with as described in method explain, can detect tectal one or more parameter of yarn and find whether produce the yarn cover layer like this by means of described measurement mechanism in desired mode.If not this situation, that just changes the relative motion between thread-carrier and the conveyor surface.In winding process, exist such relative motion usually, be used on the tectal end face of yarn, producing the structure of taper.If described yarn cover layer does not meet desired regulation, that just makes described relative motion become bigger or littler.

Preferably the contact-making surface that will have the wedge shape of the predetermined angle of gradient on an end of workspace is distributed to described conveyor surface.This angle of gradient is equivalent to the cone angle on tectal another end face of yarn.Described contact-making surface can be arranged on the element of wedge shape, and this element directly is fixed on the corresponding conveyor surface.But also the contact-making surface of described wedge shape can be arranged in can be on the device of described conveyor surface split movement and this device then when producing the yarn cover layer, move with described conveyor surface.

Be preferably and produce described relative motion, at least one in the following assembly can be moved: thread-carrier, routing cell, conveyor surface and warper drum, wherein said thread-carrier is arranged on the described routing cell in the mode that can move.A plurality of assemblies in these assemblies are moved simultaneously.But,, then simplified control procedure if always simultaneously one of these assemblies are moved.The function that the movement of other assembly can be used for other then.

Preferred described measurement mechanism detects at least one in the following parameter: the depth of parallelism between the axis of the tectal height of yarn, the tectal surface of yarn and warper drum and the gradient of the tectal free end face of yarn.If capable of the axis of warper drum such as the tectal air spots of yarn, the relative motion between so described thread-carrier and the conveyor surface is just too big or too little, and must proofread and correct accordingly.If the gradient of the tectal free end face of described yarn does not meet desired regulation, then be suitable for identical situation.

Preferred described measurement mechanism is configured to laser measuring device for measuring.Laser measuring device for measuring can be used as distance-measuring device at this, is used to detect the depth of parallelism between the axis of surface on the tectal height of yarn, the tectal circumference of yarn and warper drum and/or the gradient of the tectal free end of yarn.Laser measuring device for measuring has than higher 30 microns resolution ratio or precision.This is enough concerning most of common employed yarns.

Preferred described warper drum has rotating driving device and phase angle sensor, and wherein said phase angle sensor is connected with described measurement mechanism.Thereby described phase angle sensor makes measurement mechanism " synchronously ", that is to say that it notifies this measurement mechanism, warper drum when be in can the spin angular position of detected parameters in.If especially described conveyor surface is made of the conveyer belt on the circumference that is arranged in warper drum with predetermined spacing with distributing, so such design is exactly favourable.In this case, that is to say in polygonal mode and produce described yarn cover layer.Be used to detect the measured value that then can when warper drum rotates, detect other with respect to the measurement mechanism of the distance of fixing point continuously, can certainly proofread and correct the measured value of these variations or described measurement mechanism correspondingly moves by account form.But more simply be only on the predetermined circumferential point of described warper drum, to measure.

The axis that preferred described measurement mechanism can be parallel to warper drum moves.Then also can control wideer such as the little cotton yarn tape that comprises 24 or 48 yarns placed side by side.Described measurement mechanism is used for the tectal structure of yarn is monitored then such as can periodically moving back and forth.

Preferably be provided with storage device, can preserve the relative motion function in this storage device, wherein said storage device is connected with driving control device.As top in conjunction with as described in method explain, in many cases the little cotton yarn tape that article one is reeled describe relative motion function relative motion just time changing curve and then to be used for all ensuing little cotton yarn tapes just enough.This generation has the yarn cover layer of the very high uniformity then.In this processing mode, can carry out smoothly in addition to the function of described relative motion, make to cause that the drive unit of described relative motion can work more equably.The heat of avoiding thus producing increases.

Description of drawings

Present invention is described in conjunction with the accompanying drawings by means of preferred embodiment below.Wherein:

Unique accompanying drawing is to be used for the schematic diagram that the manufacturing to the jacquard weave chain makes an explanation.

The specific embodiment

Accompanying drawing shows the schematic diagram of the warper 1 with warper drum 2, and this warper drum 2 has rotating driving device 3.By means of described rotating driving device 3, described warper drum 2 direction along arrow 4 when making the jacquard weave chain is rotated.

Arranged many conveyer belts 5 on the circumference of described warper drum 2, described conveyer belt 5 can move along the direction of arrow 6 by a drive unit that is not shown specifically.Described conveyer belt 5 thereby formation conveyor surface, described conveyor surface can be parallel to axis 7 motions of warper drum 2, move to end 9 from free end 8 or rather when making the jacquard weave chain, have arranged described rotating driving device on described end 9.

The contact-making surface 10 that has distributed wedge shape for every conveyer belt 5.Under the simplest situation, the contact-making surface 10 of described wedge shape directly is fixed on the conveyer belt 5 and moves with described conveyer belt 5 thus.But described contact-making surface 10 also can be arranged and with other mode and 5 motions of described conveyer belt dividually with conveyer belt 5.

When the beginning of warping process, described contact-making surface 10 and described free end 8 adjacent layouts that is to say that described conveyer belt 5 correspondingly moved before the beginning of reeling.

For making the jacquard weave chain, yarn 11 is extracted out from the bobbin cradle 12 that schematically illustrates.In bobbin cradle 12, arranged a plurality of bobbins 13 for this reason, be generally every one thread 11 or rather and arrange a bobbin.

Yarn 11 is by routing cell 14 guidings.The thread-carrier 15 that in described routing cell 14, schematically illustrates for every one thread being provided with.The axis 7 that each thread-carrier 15 can both be parallel to warper drum 2 moves with respect to described routing cell 14.As illustrating by arrow 16, the axis 7 that described routing cell 14 also can be parallel to warper drum 2 on the whole moves.

Described conveyer belt 5 can move and be driven equally.These conveyer belts 5 so move, and the reversion section that makes its outer surface just be in the outside is diametrically moved towards another end 9 from free end 8.Stipulate also that at last described warper drum 2 can be parallel to its axis 7 on the whole and move.

As schematically illustrating in the accompanying drawings, finally should produce yarn cover layer 17, this yarn cover layer 17 has the end face 18 of taper, and the inclination angle of this end face 18 is consistent with the gradient of described contact-making surface 10.In this case, the circumferential surface 19 of the outside of described yarn cover layer 17 axis 7 that is parallel to warper drum 2 is arranged.

This point is accomplished in the following manner in the past, just such as make described thread-carrier 15 for each coil such as three times of the yarn diameter that moved or more.But, do not have thus directly to guarantee that people also realize the corresponding structure of described yarn cover layer 17 and realize the corresponding structure of the package of jacquard weave chain thus.

People use measurement mechanism 20 now, and this measurement mechanism is such as being configured to laser measuring device for measuring.As illustrating by double-head arrow 21, the axis that this measurement mechanism 20 also can be parallel to described warper drum 2 moves.

Described measurement mechanism 20 detects the circumferential surface 19 of described yarn cover layer 17 and the distance between the fixing point.Therefore can detect the layer thickness recruitment of described yarn cover layer 17 by means of this measurement mechanism 20.Utilize this from a series of size that can obtain the relative motion between described thread-carrier 15 and the conveyer belt 5 to the layer thickness recruitment that obtains tectal thickness of yarn or the measurement done of height, the size of this relative motion is essential, so that the integral body of the yarn 11 that the little cotton yarn tape of just having reeled is just reeled is simultaneously followed the angle of described contact-making surface 10.

Though can determine this angle by account form in advance.But also advantageously determined this angle before the warping process begins by this way, several or a few coil moves by the calculating predetermined value with these of " feeding " relative motion between thread-carrier 15 and the conveyer belt 5 just when the warping process begins before making.Determine by means of described measurement mechanism 20 now, the feeding meeting of whether being regulated causes each coil of described little cotton yarn tape to stack so up and down, makes its " front " just be resisted against on the described contact-making surface 10 and produce desired cone angle thus on other end face 18 towards the one side of rotating driving device 3.If this is the case, that just can proceed work with the relative motion of being regulated.If not this situation, that just must change described relative motion.In order to simplify ensuing explanation, described relative motion is called " feeding ".Therefore, if the cone angle on the end face 18 of described yarn cover layer 17 is too precipitous, that just must enlarge feeding.If its peace is smooth, then must dwindle feeding.

Scheme or additional project also can determine whether the tectal circumferential surface 19 of described yarn is parallel to the axis 7 of warper drum 2 by means of described measurement mechanism 20 as an alternative.9 have the gradient if find described circumferential surface 19 towards the end, that just must dwindle feeding.If 9 produce decline towards the end, then must enlarge described feeding.

Another kind of scheme is, the inclination angle of described end face 18 is monitored.If this inclination angle is different from the inclination angle of contact-making surface 10, so here also be necessary feeding is proofreaied and correct accordingly.

Described relative motion can produce in a different manner.Under the simplest situation, an assembly is moved.Other assembly then keeps static along the direction of the axis 7 of described warper drum 2.

Therefore, such as thread-carrier 15 is moved, be used to produce the structure of the tectal taper of yarn.Can and correspondingly make routing cell 14 motions with respect to routing cell 14 fixed thread guides 15.Can make thread-carrier 15 and routing cell 14 be maintained fixed and make conveyer belt 5 motion or thread-carrier 15 and routing cell 14 are maintained fixed, conveyer belt 5 is maintained fixed and whole mobile warper drum 2 on warper drum 2.For simple and clear reason necessary for this reason driving control device is not shown.

Certainly, also can make the multiple motion in these motions combined each other.

Described conveyer belt 5 is seen from the end face of warper drum 2 and is formed a polygon.Correspondingly, polygon of described yarn cover layer 17 same formation.If make warper drum 2 rotations when the warping by described rotating driving device 3 now, so only because the polygonized structure of described yarn cover layer 17 makes described measurement mechanism 20 and distance between surperficial 19 constantly change.

In order still to obtain desired parameter in simple mode, described warper drum 2 has phase angle sensor 22, this phase angle sensor 22 and angular transducer 23 actings in conjunction.Correspondingly, the driving control device that is not shown specifically " knows ", described yarn cover layer 17 from the next door of measurement mechanism 20 through the out-of-date support that when obtains conveyer belt 5.Described measurement mechanism 20 is then such as only just write down measured value when conveyer belt 5 leaves in its lower section.

People can regulate described feeding in whole warping process, that is to say the monitoring that the relative motion between thread-carrier 15 and the conveyer belt 5 is continued and readjust in case of necessity.

But it is just enough in many cases, only to detect necessary relative motion for the little cotton yarn tape of article one.Can in the storage device that is not shown specifically, describe the change curve and the later element that this change curve of describing is used to control the described relative motion of participation about rotating cycle of this relative motion then.

At this, also can carry out to a certain degree smooth, thereby the drive unit that can avoid participating in the result of described relative motion stands excessive load to function.

Claims (14)

1. be used to make the method for jacquard weave chain, by means of thread-carrier (15) yarn (11) is placed on conveyor surface (5) in the method and goes up and produce yarn cover layer (17), wherein said conveyor surface (5) is arranged on the circumference of warper drum (2) and can moves in warper drum (2) by axially parallel, wherein said thread-carrier (15) and conveyor surface (5) be relative to each other motion in putting down the process of yarn, it is characterized in that, go up to detect at least one parameter of described yarn cover layer (17) and depend on the parameter that is detected at least one conveyor surface (5) and control relative motion between described thread-carrier (15) and the conveyor surface (5).

2. by the described method of claim 1, it is characterized in that, for producing relative motion in the following assembly at least one moved: thread-carrier (15), routing cell (14), conveyor surface (5) and warper drum (2), wherein said thread-carrier (15) is arranged on the described routing cell (14) in the mode that can move.

3. by claim 1 or 2 described methods, it is characterized in that, when putting down yarn (11), make warper drum (2) rotation and with the detection limit of described parameter on the predetermined position of rotation of warper drum (2).

4. by each described method in the claim 1 to 3, it is characterized in that, use the gradient of the free end face (18) of the depth of parallelism between the axis of the surface (19) of the height of described yarn cover layer (17) and/or yarn cover layer (17) and warper drum (2) and/or described yarn cover layer (17) as parameter.

5. by each described method in the claim 1 to 4, it is characterized in that, produce yarn cover layer (17) by a series of little cotton yarn tapes that are arranged side by side, only detect described parameter and being used on all ensuing little cotton yarn tapes described relative motion for the employed function of the first little cotton yarn tape for the first little cotton yarn tape.

6. by each described method in the claim 1 to 5, it is characterized in that, use conveyor surface (5), on an end of workspace, distributed the contact-making surface (10) of wedge shape with predetermined angle of gradient for described conveyor surface (5).

7. warper, have warper drum (2) and a plurality of thread-carrier (15), a plurality of conveyor surfaces (5) that can be parallel to axis (7) motion of this warper drum (2) wherein on the circumference of described warper drum (2), have been arranged, yarn (11) can be placed on conveyor surface (5) by means of described thread-carrier (15) goes up to form yarn cover layer (17), and wherein said thread-carrier (15) relative to each other moves with the axis (7) that described conveyor surface (11) can be parallel to described warper drum (2), it is characterized in that, be provided with measurement mechanism (20), this measurement mechanism (20) detects at least one parameter of described yarn cover layer (17) and is connected the relative motion between described thread-carrier of this drive control device controls (15) and the conveyor surface (5) with driving control device.

8. by the described warper of claim 7, it is characterized in that, on an end of workspace, distributed the contact-making surface (10) of wedge shape with predetermined angle of gradient for described conveyor surface (5).

9. by claim 7 or 8 described warpers, it is characterized in that, for producing relative motion, in the following assembly at least one can be moved: thread-carrier (15), routing cell (14), conveyor surface (5) and warper drum (2), wherein said thread-carrier (15) is arranged on the described routing cell (14) in the mode that can move.

10. by each described warper in the claim 7 to 9, it is characterized in that described measurement mechanism (20) detects at least one in the following parameter: the gradient of the depth of parallelism between the surface (19) of the height of yarn cover layer (17), yarn cover layer (17) and the axis (7) of warper drum (2) and the free end face (18) of yarn cover layer (17).

11., it is characterized in that described measurement mechanism (20) is configured to laser measuring device for measuring by each described warper in the claim 7 to 10.

12. by each described warper in the claim 7 to 11, it is characterized in that described warper drum (2) has rotating driving device (3) and phase angle sensor (22,23), wherein said phase angle sensor is connected with described measurement mechanism (20).

13., it is characterized in that the axis (7) that described measurement mechanism (20) can be parallel to described warper drum (2) moves by each described warper in the claim 7 to 12.

14., it is characterized in that by each described warper in the claim 7 to 12, be provided with storage device, in this storage device, can preserve the relative motion function, wherein said storage device is connected with described driving control device.

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