CN201485586U - Device for manufacturing whole multilayer fabric - Google Patents

Abstract

The utility model provides a device capable of forming a whole multilayer fabric with needed section geometric structure. The device can be used for manufacturing the fabric which has the section geometric structure and is formed by multiple layers of fibers that are bound together by using a penetrating layer for binding yarns; and each layer of fibers are arranged along given orientation and are not bent or twisted. The device is also characterized by using big yarn package, being simple in tension control, being easy to be amplified to big-size sectional parts for manufacture and capable of high automation, and the like.

Description

Make the device of integral multilayer fabric

One, technical field

The utility model relates to multiply cloth, more properly says it is integral multilayer fabric and the device of making this fabric.This integral multilayer fabric with the appointment syndicated format is made up of the yarn that is configured in each layer with specified angle, and these thread layers are in aggregates by one group of binder yarn access node that runs through each thread layers again.

Two, background technology

Integral multilayer fabric is comprising advanced composite material, power industry, and conveyer belt and paper grade (stock) cloth or the like all have a wide range of applications in interior numerous areas.Advanced composite material is made up of the high-performance fiber of impregnating resin, depends on fiber, resin and Fabrication parameter.Advanced composite material has the performance of many excellences, such as, high strength weight ratio and high-modulus weight ratio, endurance, anti-damage, chemicals-resistant, weatherability, heatproof and coefficient of thermal expansion designability or the like are not enumerated one by one.Fibre reinforced composites mainly bear load by fiber.Fibre reinforced composites usually are prefabricated into various forms of semi-finished product earlier to satisfy the needs of follow-up manufacturing fibre reinforced composites parts.These class semi-finished product can be the pre-soaked resin bands that long filament forms that is arranged in parallel, and sheet or woven are made parts with the shop layer or the mode of twining then.Traditional shop layer composite only depends on to keep between its fibrage more than the resin a little less than the fibrous material and connects.Traditional shop layer composite peeled off layering easily.Three-dimensional composite material is introduced fibrous material at whole thickness direction and is strengthened, and can reduce the danger of peeling off layering effectively, makes the more anti-damage of material.Except that having more excellent performance, the overall structure reinforced composite also has such as process automation, real shape manufacturing and low production cost or the like advantage.Woven or braiding can be made the three dimensional fabric that intersects between interlayer or adjacent layer.In this kind fabric, yarn is because of intersection flexing or distortion.Can to reduce with this fabric be rigidity and the intensity that composite is made on the basis for the flexing of yarn or distortion in the fabric.Though because of intersection forms an integral body, do not dispose fortifying fibre in this kind fabric between tissue layer at whole thickness direction.Reinforced composite is also used a kind of no flexing fabric.This multiply cloth forms with the knitting method access node thread layers that is arranged in parallel separately at a predetermined angle.The United States Patent (USP) 4518640 of Wilkens has been introduced the method for making this multiply cloth.These class methods are only applicable to the fixing plate fabric of fiber alignment direction.In these class methods, the yarn of each layer adopts the high performance material such as glass fibre or graphite fibre usually.Be used for the hosiery yarns good fiber of flexibility normally of each thread layers of access node,, and do not use the high performance yarns the same with each layer yarn such as polyester or polyamide fiber.With the United States Patent (USP) 4312261 of Florentine and the United States Patent (USP) 5085252 of Mohamed is the method for representative, and having introduced respectively and having made cross sectional shape with 3 D weaving and three-dimensional woven method is rectangle or other method as I type and the real core fabric of T type.In these fabrics, no matter be that yarn in the layer or the yarn that connects thickness can adopt fortifying fibre.These methods all can be made the size of fabric because of it, shape or the like and limitation is arranged.United States Patent (USP) 4346741 with the United States Patent (USP) 4001478 of King and Banos etc. is the method for representative, has introduced the method at circumferencial direction shop layer and thickness direction fortifying fibre manufacturing cast fabric respectively.But these methods can't satisfy the needs that change fabric geometry and yarn orientation at the fabric diverse location.In that all form in the method for integral fabrics so far, neither one can be provided at orientation, cross sectional shape and the size that changes fiber in the process that fabric forms on request.Usually also with other weak point, such as poor efficiency, automatization level is low for these methods, frequently changes in yarn package and the fabric low or the like the shortcoming of fiber volume fraction.Therefore, the present technique field is necessary to address the aforementioned drawbacks and deficiency.

Three, utility model content

Technical problem: the utility model provides one can form the device with required cross section geometric structural entity multiply cloth at above-mentioned technological deficiency.This device can be made the cross section geometric structure and wear layer fabric that binder yarn access node multi-layer fiber is together formed by using, and every layer of fiber arranged and not flexing or distortion along designated orientations.

Goal of the invention 1 of the present utility model: provide one can form device with required cross section geometric structural entity multiply cloth.The cross section geometric structure of this fabric is by forming with wearing a layer binder yarn access node multi-layer fiber together, and every layer of fiber arranged and not flexing or distortion along designated orientations.

Goal of the invention 2 of the present utility model: provide one can form device with required cross-sectional geometry integral multilayer fabric.The example of the cross-sectional geometry of fabric comprises conventional or unconventional cartridge type, conventional or unconventional real core such as I type, and the T type, U type and plate or the like is not enumerated one by one.

Goal of the invention 3 of the present utility model: provide one can form device with cross-sectional geometry variation integral multilayer fabric.The sectional dimension size of fabric can change along the fabric length direction.

Goal of the invention 4 of the present utility model: provide one can form device with cross-sectional geometry variation integral multilayer fabric.Cross-sectional geometry can change along the fabric length direction.

Goal of the invention 5 of the present utility model: provide one can form device with cross-sectional geometry variation integral multilayer fabric.The thickness of the wall thickness of cartridge type fabric or real core fabric can change along the fabric length direction.

Goal of the invention 6 of the present utility model: provide one can form device with cross-sectional geometry variation integral multilayer fabric.The wall thickness of hollow fabric can change in the cross section and along the fabric length direction.

Goal of the invention 7 of the present utility model: provide one can form device with cross-sectional geometry variation integral multilayer fabric.By selecting binder yarn whether to participate in also is the syndicated format of the fixedly conversion fabric of binder yarn.

Goal of the invention 8 of the present utility model a: device that can form integral multilayer fabric is provided.In this fabric in every layer fiber orientation can change along the fabric length direction.

Goal of the invention 9 of the present utility model: provide one to use and withdraw from yarn from yarn package and form the device that thread layers constitutes integral multilayer fabric.Because of yarn needn't the wraparound package need be in two dimension or 3 D weaving usually uncommon use as weight parts such as spring or elastic webbing for withdrawing from and regain yarn.

Goal of the invention 10 of the present utility model: provide the direct tenslator control of a usefulness tension force to form the device of integral multilayer fabric.This tenslator since when yarn forms thread layers yarn not need to withdrawing from from the package folk prescription be compensation wraparound package.

Technical scheme: the utility model relates to a manufacturing and has the device of specifying the syndicated format multiply cloth.In a case, this device disposes a plurality of winding yarns along first direction with the multilayer stacked system and carries device, and each winding yarn carry device can be along doing relative motion with the perpendicular second direction of first direction.Each winding yarn carries all has one group the yarn package that disperses to provide winding yarn is set on the device, these winding yarns will constitute one deck winding yarn.And carrying device, a plurality of winding yarns will provide the multi-lay winding yarn together.One or more winding yarns carry device motion in the opposite direction and cause the winding yarn intersection on it and produce a plurality of crosspoints.Each winding yarn carries device and can be rotated in a second direction, or translation.

This device also has a plurality of binder yarns to draw pin.These binder yarns that carry the device configuration with respect to winding yarn draw pin, run through each winding yarn layer in the precalculated position along first direction and introduce binder yarn, thereby the winding yarn layer is run through each layer access node together.This device has a urgent rod at least.Urgent rod passes winding yarn fork place at predetermined instant and binder yarn is pushed to fell carries out urgent motion.

In a case, this device also has several forming rings.These forming rings play the effect of tightening the winding yarn layer and support the winding yarn layer when introducing the push-tight binder yarn.In the circulation that each fabric forms, the position of these several forming rings can change.

This device also has the yarn of gripping feeding pin and the gripping yarn draws pin.These gripping yarn feeding pins and gripping yarn draw pin and draw the pin configuration with respect to these binder yarns, when each binder yarn draws that pin runs through that each winding yarn layer is introduced and crooked binder yarn forms when opening coil, grip yarn and draw pin and grip yarn feeding pin and pass the binder yarn coil and in fabric, lock binder yarn gripping yarn.

In addition, each binder yarn draws pin and also may be furnished with auxiliary rod on the device.The effect of auxiliary rod be when grip yarn when passing the binder yarn coil hold-in winding open, and do not make the binder yarn overbending when after penetrating the gripping yarn, tightening up binder yarn.

In a case, this device also have one the cover can form the gripping yarn coil include the knitting mechanism that draws pin and yarn feeder.This grips yarn coil and passes the bending coil that opens of binder yarn, at this, with gripping yarn fixing binder yarn in fabric, and prevents to withdraw from and pull out binder yarn when tightening up binder yarn because of binder yarn draws pin.

In a case, this device has a cover or a few cover tension control mechanism to be configured in each winding yarn to carry in the device configuration, the tension force when regulating the winding yarn unwinding.The stop mechanism that is accompanied by this cover or a few cover tension control mechanisms is used for preventing that winding yarn is drawn out when urgent.

Although can change and revise, the marrow and the intension thereof of novel concept only proposed according to this announcement, along with the hereinafter elaboration of preferential case in conjunction with the accompanying drawings, the every aspect that the utility model covers will be conspicuous.

Beneficial effect: the utility model provides a device that can form integral multilayer fabric.Form integral multilayer fabric by this device and overcome above-mentioned various limitation and shortcoming, no matter the shape of parts is simply or complexity, does not all have the flexing or the distortion of yarn.Except that various advantages, the device that the utility model provides also possesses and uses big yarn package, and Tension Control is simple, easily is amplified to the parts manufacturing of large scale cross section, and can be increasingly automated or the like characteristics.

Four, description of drawings

In order to explain the utility model principle, set forth with literal in conjunction with the accompanying drawings, one or several case of the present utility model is described.As possible, allly relate to same base part in the case, each accompanying drawing adopts similar identification number, wherein:

Fig. 1 is the schematic representation of apparatus that is used for making multiply cloth according to case of the utility model.

Fig. 2 is the flow chart that is used for making multiply cloth according to case of the utility model.

Fig. 3 to Fig. 6 is the schematic diagram that is used for making the multiply cloth series of steps in conjunction with case device of the utility model.(a) Zhuan Zhi vertical view, (b) Zhuan Zhi profile.

Fig. 7 is a schematic diagram of making (45/-45/0/90/-45/45) shop layer cast fabric according to case of the utility model, is unit representation from internal layer with the degree to outer each layer orientation wherein.

Fig. 8 is some cross sectional shape examples (a)-(i) that can form fabric according to the utility model.

Five, the specific embodiment

More specifically setting forth the utility model with follow-up example only is for explanation also, and concerning those those skilled in the art that, some change deriving method is conspicuous.Elaborate some cases of the utility model now.Alike identification number is represented identical corresponding component in each accompanying drawing.As here set forth and follow-up claim in use, unless otherwise indicated, the implication of " " and " this " also comprises a plurality of meanings.In addition, as here set forth and follow-up claim in use, unless otherwise indicated, all parts of mentioning just comprise each side, the each several part of these parts.

No matter use under the utility model context still is concrete condition, the term of using in this elaboration generally has original implication in its technical field.Next or in the elaboration in other places, some can be further described for the term of setting forth the utility model and using.Comprise the example of speaking of term, the example of using everywhere in the elaboration only is for explanation also, shows no sign of the meaning of any restriction the utility model implication and scope thereof.Equally, the utility model is not subjected to provide the limitation of example in this elaboration.

Here use, " about ", " approximately " or " probably " generally is to provide about in the of 20% of numerical value or scope, be more preferably about in the of 10%, and preferably about in the of 5%.Unless stated otherwise, the numerical value quantity of mentioning here can be understood as " about ", " approximately " or " probably ".

" multilayer " mentioned herein, the meaning is at least 2 layers; " a plurality of ", the meaning is at least 1.

Fig. 1-Fig. 8 in conjunction with the accompanying drawings, set forth here be more of the present utility model for example.According to aim of the present utility model, as here embodying and extensively narration, the utility model relates to use and wears layer yarn access node by one group and form integral multilayer fabric together and with the multilayer yarn of specified angle configuration, with the method that forms integral multilayer fabric, according to requirement to local fibre structure and fabric geometry, this integral multilayer fabric, its cross sectional shape can be also can changing of fixing, and its fiber orientation and integrant syndicated format can be also can changing of fixing.

According to the utility model, integral multilayer fabric can be made with the yarn of two group systems, and one group is winding yarn, and another group is a binder yarn.Winding yarn has multilayer and arranges with specified angle, this with the angle of fabric length direction can 0 degree with ± 90 spend between variation.With binder yarn together each layer of the winding yarn access node that needs.The winding yarn number of plies can change on request but be subjected to the restriction that winding yarn carries the device number on the equipment therefor.In a case, can select for use the core that is placed with appropriate geometry along machine direction that the winding yarn layer is shaped, thereby do the fabric of making hollow or belt carcass.Along with fabric forms, can be in the different position of fabric changes every layer the orientation of winding yarn.

Fig. 1 makes according to case of the utility model to have the schematic diagram of specifying syndicated format multiply cloth device 100.Device 100 has two to carry device 110a and 110b along first direction 101 with the winding yarn of two layers of configuration, and configuration mode makes each winding yarn carry device 110a/110b can be along doing relative motion with the perpendicular second direction 102a/102b of first direction 101.A plurality of yarn packages 120 provide winding yarn 130.The yarn package 120 that offers every layer of winding yarn 130 on the fabric is placed in separately at interval, and winding yarn carries on the device 110a/110b.In the example shown in Figure 1, batch with core 103 and to become fabric 112.The fabric that one end of winding yarn 130 inserts on the core 103 from yarn package 120.Two winding yarns carry device 110a and the 110b motion of 102a and 102b in the opposite direction and winding yarn 130 on it is intersected and produce a plurality of crosspoints 132.

In present case, winding yarn carries device 110a and 110b can separately or coordinate to rotate along direction 102a and/or 102b respectively.Winding yarn carries device 110a and 110b rotates around 103 cores of core 101.Thereby, form cast or tubular-type fabric.In other case, winding yarn carries device can be separately or coordinate together to move along carrying device and dispose/be provided with the perpendicular direction of direction (first direction) (second direction) with winding yarn.In operation, the winding yarn motion of carrying device is controlled by control system.The syndicated format that forms appointment is that winding yarn carries device relative motion distance by the control winding yarn number of plies, batches the distance of fabric and selects binder yarn whether to participate in reaching along first direction.

So, carry device 110a and 110b with two winding yarns in institute's demonstration example, carry two layers of winding yarn of winding yarn 130 formation of device 110a and 110b output like this from two winding yarns.Yet, use the utility model not to be subjected to winding yarn to carry the restriction of device quantity.According to the utility model, winding yarn carries maximum numbers of plies that the decision of device quantity can be made fabric.

Each winding yarn carries device determines that by the rotation that circumferential movement such as rigid disc carry device yarn is arranged with needed angle in each layer.Winding yarn carry device can be rigidity also can be flexible.It can be also can be other geometry as the disk of describing in the example that rigidity is carried device.The flexible device example that carries comprises conveyer belt, chain and the mechanism that orbits etc.

In winding process, the package that winding yarn is provided can be yarn of a package, also can be that many yarns are exported bull in the package in winding process.Package can be that the limit is arranged, cross winding or other structural shape.The winding yarn package can be placed on inner surface, outer surface, side or the inside of carrying device.

In a case, the part winding yarn carries device can be by static bobbin cradle for yarn.These winding yarns carry device and can remain static in weaving process, form 0 ° of thread layers, and perhaps these winding yarns carry device and can do to move back and forth and be formed with the fabric of muscle.

Each winding yarn carries can dispose one or more sets tension control mechanisms (not showing) on the device, the tension force of winding yarn during with the adjusting unwinding.Stop mechanism can be a separate part, can be the part of tension control mechanism also, is used for preventing that winding yarn is drawn out when urgent.

Device 100 also has one or more to draw pin 140 with respect to the binder yarn that winding yarn carries device 110a and 110b configuration, be used for passing each winding yarn layer introducing/insertion binder yarn along first direction 101, thereby each layer of winding yarn worn layer access node together in the precalculated position.

In the access node process, can pass each layer winding yarn 130 in position according to syndicated format and introduce and lock binder yarn.Also can after compressing, the new winding yarn of laying 130 wear a layer direction introducing binder yarn again as sewing.Integrating each layer with similar bind may cause some winding yarns impaired.So as illustrating in the example in the early time, before compressing, binder yarn is introduced in the space of passing between new formation winding yarn 130 crosspoints 132, can avoid damaging winding yarn.How introducing binder yarn has a plurality of schemes optional, comprises various knitting mechanisms, the arrow shaft delivery device, and shuttle and sewing or the like are not enumerated one by one.

In the case of Fig. 1 and Fig. 3 to Fig. 6 explanation, draw with many binder yarns that pin 140 passes the introducing of each layer of winding yarn and coil is opened in the formation of crooked binder yarn.Device 100 also has to draw the gripping yarn feeding pin 172 of pin 140 configuration and grip yarn with respect to many binder yarns and draws pin 174.When many binder yarns draw that pin 140 passes that each winding yarn layer is introduced and crooked binder yarn forms when opening coil, grip yarn feeding pin 172 and grip yarn and draw pin 174 and pass open binder yarn coil and in fabric, lock binder yarn gripping yarn.

For improving running speed, device 100 preferably disposes binder yarn and the gripping yarn pin with the identical tricks of winding yarn package number.Every cover binder yarn draws pin and grips the instruction that control system is followed in motion that yarn draws pin.Bottom line needs a pair of pin to be used to grip yarn.In this case, each weaves that this along the circumferential direction walks Man Yiquan to pin with respect to the winding yarn layer in the circulation.

As shown in Figure 1, device 100 also disposes one or more and urgent excellent 160, urgent excellent 160 is used for passing winding yarn fork place at predetermined instant and binder yarn is pushed to fell carries out urgent motion.

In operation, one or more urgent excellent 160 is carved in due course and passes winding yarn 130 fork places and introduce binder yarns to the 130 urgent preparations of fell 105 push-tight winding yarns.Arrange urgent motion and can introduce binder yarn by as close as possible fell prior to introducing binder yarn.Suitable geometry adds top sheave and low-friction coefficient material and reduces to the friction of urgent rod and winding yarn and the damage that causes minimum.Another selection, except that urgent before introducing, the back is urgent to be after introducing binder yarn the binder yarn of just introducing to be pushed to fell 105.Though many urgent rods help high efficiency running and favor, similarly action also can be finished with the single urgent rod of motion along the circumferential direction.

Device 100 also disposes a plurality of forming rings, and first forming ring, 151, the second forming rings 153 and the 3rd forming ring 155, forming ring play the effect of tightening the winding yarn layer and support the winding yarn layer in introducing binder yarn and urgent motion.In the circulation that each fabric forms, the position of these several forming rings can conversion.

In addition, on the device 100 every grip yarn and draw pin 140 and also may be furnished with auxiliary rod (not showing).The effect of auxiliary rod be when grip yarn when passing the binder yarn coil hold-in winding open, and be unlikely to make binder yarn too much crooked when tightening up binder yarn after gripping yarn penetrating.

The device also have one the cover can form the gripping yarn coil include the knitting mechanism that draws pin and yarn feeder.This grips yarn coil and passes the coil that the binder yarn bend open becomes, and wherein, with gripping yarn fixing binder yarn in fabric, and prevents to withdraw from and pull out binder yarn when tightening up binder yarn because of binder yarn draws pin.

According to the utility model, use said apparatus can produce integral multilayer fabric: at first, to carry device and form a plurality of winding yarns crosspoint along second direction at least one winding yarn that moves according to the following step.These motions are controlled according to syndicated format by control system.Then, pass each winding yarn layer insertion in the precalculated position along first direction and promptly introduce and lock binder yarn.Form multiply cloth to a plurality of winding yarns crosspoint push-tight binder yarn.Batch established multiply cloth.Repeat above each step and reach desired size up to multiply cloth.

Each motion such as winding yarn carries the device motion, and binder yarn is introduced, and is urgent and batch is by the control system synchronous coordination, and whole operation can be also can be stepping continuously.

Consult Fig. 2 and Fig. 3, particularly Fig. 2, listed the flow chart of making multiply cloth according to case of the utility model.Use 6 ring-like winding yarns to carry device 310a-310f in this case.

Before the entry into service, carry device 310a at each winding yarn, 310b, 310c, 310d, place winding yarn package 320 on 310e and the 310f, yarn one end ties up to along core axial 301 and is placed on the core 303 of forming ring 351 inboards, the diameter of core 303 and the tubing 312 internal diameters coupling that will make.In step 201, the machine of finishing on all is prepared and can be started.Finish a circulation following each step is arranged: in step 211, according to the fabric form of design/appointment, the motion winding yarn carries device 310a-310f lay winding yarn 330.In a case, winding yarn carries device 310a (top) and 310f (bottom) moves a step in positive direction (counterclockwise) fortune, winding yarn carries device 310b and 310e moves a step in negative direction (clockwise) fortune, and it is motionless that winding yarn carries the moving maintenance of device 310c, and winding yarn carries device 310d and turns around.In step 213, winding yarn 330 retainers start and stop lay winding yarn 330.In step 220, urgent excellent 360 push that fell is urgent to be return then to.In step 231, the fork place of passing 332 in winding yarn crosspoint introduces binder yarn 342.In step 233, introduce binder yarn 342 and by gripping yarn 371 lockings.In step 235, the binder yarn of take-up slack and gripping yarn.In step 237, control system (not marking) judges whether introduce binder yarn finishes.Also do not finish if introduce binder yarn, whole process is got back to step 231 and is repeated.Otherwise in step 240, winding yarn 330 retainers discharge.Then,, move promptly mobile core 303 1 preset distances of core 303, batch established multiply cloth with assigned rate in step 250.In step 255, control system determines whether required fabric is finished.If required fabric is finished, process stops in step 270.Otherwise, integrate requirement according to structure if necessary and adjust some parameters in step 260, whole process returns step 211 and repeats.

Whole flow process can be adjusted, and whole operation can be also can be stepping continuously.Winding yarn carries device speed (carry device motion step-length) and the two lumps together and has determined local yarn orientation in the fabric in machine direction fabric take-off speed (core moving step length).Carry device speed with respect to fabric take-off rapid change yarn, can change the yarn orientation on demand.Therefore, by in fabric forming procedure, regulating the relative velocity that twines and batch, might produce the fabric of each layer laying angle with length variations.In order to twine thread layers, should reduce the effective number of threads that withdraws from from package or select thinner yarn for use according to required bed thickness near 90 °.

Fig. 3 to Fig. 6 is the example schematic according to a case binder yarn introducing of the utility model and corresponding locking mechanism.Omitted other action of optional feature and parts among the figure, because these are conspicuous to those skilled in the art that.Many binder yarns draw pin 340 and pass the open coil of crooked binder yarn 342 formation of each winding yarn layer 330 introducing, grip yarn 371 like this and can pass coil locking binder yarn 342.Each gripping yarn draws pin 340 also may be furnished with auxiliary rod (not showing).The effect of auxiliary rod is to keep the binder yarn coil to open when penetrating gripping yarn 371, and tightens up the curvature that binder yarn 342 limits binder yarn 342 simultaneously after penetrating gripping yarn 371.One cover comprises that the knitting mechanism that draws pin and yarn feeder forms the gripping yarn coil, and this grips yarn coil and passes the coil of binder yarn bend open.The purpose that grips yarn 371 is a fixing binder yarn 342 in fabric 312, and prevents to withdraw from and pull out binder yarn 342 when tightening up binder yarn 342 because of binder yarn draws pin 340.

Form gripping yarn coil pinning each step of binder yarn (a) to (d) and illustrate in Fig. 3 to Fig. 6 that respectively its program is as follows:

As shown in Figure 3,, rotate winding yarn when carrying device 310a-310f and discharging a certain amount of winding yarn 330, reduces of the friction of outer forming ring 355 with 330 of minimizing winding yarns at step (a).Before introducing binder yarn, it is urgent that urgent excellent 360 push-tight winding yarns are finished each layer, then, promotes outer forming ring 355 to compress each layer winding yarn.Withdraw from urgent excellent 360.

As shown in Figure 4, at step (b), binder yarn draws pin 340 and passes the fork place of winding yarn and stay open coil 345 at fabric 312 upper surfaces.The gripping yarn draws pin 374 and passes binder yarn coil 345.

As shown in Figure 5, at step (c), binder yarn draws pin 340 to be withdrawed from from fabric 312 upper surfaces and not to tighten up binder yarn 341.Lateral movement grips yarn feeding pin 372 and draws that feeding grips yarn 371 in the pin mouth of pin 374 gripping yarn inwards.

As shown in Figure 6, at step (d), grip yarn and draw pin 374 and from binder yarn coil 345, withdraw from and lock in the last gripping yarn coil gripping a yarn 371.Further withdraw from binder yarn and draw pin 340, tighten up binder yarn 341.

Grip yarn and introduce mechanism and along the circumferential direction move to next binder yarn position, repeating step (c) and (d) tighten up all binder yarns 341 up to locking.The core band to move on the fabric and is finished fabric take-off.

Repeat above each step up to finishing whole fabric.

In this illustrated, the core band on the established fabric and is moved, and gripped yarn (if need not grip yarn, being exactly binder yarn) coil like this and will be exposed at fabric exterior.On the contrary, core and fabric also can move down by forming ring, will appear at the fabric inner surface by the coil that grips yarn (if need not grip yarn, being exactly binder yarn) formation like this.

According to the utility model, at any time, whether whether every binder yarn of control system decision introduced and locked with gripping yarn.Like this, even in same fabric, also can change syndicated format on request.

One or more winding yarns carry device motion in the opposite direction and cause the winding yarn intersection on it and produce a plurality of crosspoints, finally influence the fabric form.Fig. 7 is the schematic diagram that is formed with (45/-45/0/90/-45/45) shop layer cast fabric according to case of the utility model, wherein shows with kilsyth basalt to outer each layer orientation from internal layer.

According to the method for setting forth above, also can form cross sectional shape fabric miscellaneous.Fig. 8 has been enumerated a part of example.Except that can doing cylinder type tubular structure (a), also have many variations, the fabric of production has the cross sectional shape of difference or variation along its length.Core also can not be a circular cross-section to produce those as (b) with the fabric of noncircular cross section (c).Shown in figure (d), fabric cross-sectional sizes and shape also can change along its length.Another variation is, uses builder instead without core, also can make plate shaped or other cross sectional shape (f) as (e).Plate shaped fabric also can be made with the approach of severing tubular structure (a), and T type structure can form by the approach of folding tubular structure (a).Generally, when carrying direction motion of device maintenance, the winding yarn that each year, device provided forms continuous thread layers in fabric.Yet, carrying configuration package in appropriate location on the device, allow a year device move back and forth consciously, can lay discontinuous thread layers.One or more layers this discontinuous thread layers forms muscle (g) on fabric.The width of muscle, height and interval can change on request.Muscle can be in the fabric outside, and inboard or two sides have.The plate shaped fabric (h) that has muscle can obtain by the approach of severing tubular structure (g).Axially (0 degree) number of yarns of diverse location on the conversion cross section, perhaps some winding yarn layer is not spread completely, or the two has concurrently, can be manufactured on the fabric (i) of varied in thickness in the same cross section.

In a word, among others, the utility model has been described in detail to make with specified angle and has been configured in each layer and wears layer apparatus and method of the integral multilayer fabric that yarn access node all-in-one-piece winding yarn is formed by one group.According to the requirement to local fibre structure and fabric geometry, this integral multilayer fabric, its cross sectional shape can be also can changing of fixing, and its fiber orientation and integrant syndicated format can be also can changing of fixing.

Above the elaboration of the utility model example only is the convenience in order to illustrate and to narrate, and shows no sign of the attempt that also the utility model only is not confined to narrate example not much else.In view of explanation above, can derive more designs.

The selection of case and elaboration are in order to explain principle of the present utility model and uses thereof, and those people that are familiar with this area can association go out more.Concerning those were familiar with the people in the utility model field, according to marrow of the present utility model and intension thereof, other case will be conspicuous.Therefore, intension of the present utility model be by claim rather than by above the explanation and wherein illustrative examples define.

Claims (8)

1. device of making integral multilayer fabric is characterized in that including:

I. dispose a plurality of winding yarns along first direction with the multilayer stacked system and carry device, and configuration mode make each winding yarn carry device can be along doing relative motion with the perpendicular second direction of first direction, each winding yarn carries all one group of yarn package that winding yarn is provided on the device, these winding yarns will constitute one deck winding yarn, and the winding yarn that a plurality of winding yarns carry on the device will form the multi-lay winding yarn together, and one or more winding yarns carry device motion in the opposite direction and produce a plurality of crosspoints of winding yarn on it;

II. many binder yarns that carry device configuration with respect to winding yarn draw pin and pass each winding yarn layer in the precalculated position along first direction and introduce binder yarn, thereby each layer of winding yarn worn layer access node together;

III. pass with a urgent rod at least that the winding yarn of fork is urgent at the fixed time pushes binder yarn to fell.

2. according to the device of the described manufacturing integral multilayer fabric of claim 1, it is characterized in that also including several forming rings, these forming rings are used for tightening the winding yarn layer and support the winding yarn layer the binder yarn push-tights of introducing the time, in the circulation that each fabric forms, the position of these several forming rings can conversion.

3. according to the device of the described manufacturing integral multilayer fabric of claim 1, it is characterized in that also including drawing the gripping yarn feeding pin of pin configuration and gripping yarn and draw pin with respect to many binder yarns, thereby, when these binder yarns draw pin and run through each winding yarn layer and introduce binder yarn and form the binder yarn coil, grip yarn and draw pin and grip yarn feeding pin and pass the open coil of binder yarn and in fabric, lock binder yarn gripping yarn.

4. according to the device of the described manufacturing integral multilayer fabric of claim 1, it is characterized in that also including one the cover can form the gripping yarn coil include the knitting mechanism that draws pin and yarn feeder, this grips yarn coil and passes the coil that the binder yarn bend open becomes, wherein, with gripping fixedly binder yarn of yarn, and prevent to withdraw from and pull out binder yarn when tightening up binder yarn because of binder yarn draws pin.

5. according to the device of the described manufacturing integral multilayer fabric of claim 1, it is characterized in that also including a cover or a few cover tension control mechanism and be configured in each winding yarn and carry in the device configuration, the tension force when regulating the winding yarn unwinding.

6. according to the device of the described manufacturing integral multilayer fabric of claim 3, it is characterized in that also including every binder yarn draws pin and is furnished with auxiliary rod, the effect of auxiliary rod is to keep the binder yarn coil to open when gripping yarn inserting, and does not make binder yarn crooked too many when tightening up binder yarn after gripping yarn inserting.

7. according to the device of the described manufacturing integral multilayer fabric of claim 6, it is characterized in that also including the stop mechanism that is accompanied by this cover or a few cover tension control mechanisms to prevent that winding yarn is drawn out when urgent.

8. according to the device of the described manufacturing integral multilayer fabric of claim 6, it is characterized in that each winding yarn carries device and can be rotated in a second direction, or translation.

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