CN101321678A - Thread guide - Google Patents

Abstract

Thread guide (1) which, for the purpose of laying a thread on a rotating reel (4), guides the thread parallel to the reel axis, over a traversing-lift extent, in a thread-guide fork (5), the finger-like thread guide (1) being connected at the end to a drive device (3), and two hollow-cylindrical guide elements (6, 7), which form the thread-guide fork (5), being arranged at the free end of the thread guide (1).

Description

Thread-carrier

The present invention relates to thread-carrier according to the preamble of claim 1.

The thread-carrier that constitutes in the finger-shaped mode of known preamble according to claim 1 from WO 0024663.This thread-carrier has the guide fork that is used for receiving yarn to be shifted at its free ending tool.This guide fork is formed by longitudinal slot, and this longitudinal slot extends on the direction of the end that is connected to drive assembly of thread-carrier.Whole thread-carrier has thin thickness, and this makes its lighter weight.Occur in the friction that produces between yarn and the thread-carrier in order to reduce, thread-carrier has circle or crack edge in the zone of guide fork, described circle or crack edge are to carry out (retrospective) processing by the supporting leg to the guide fork to produce again.In addition, the guide fork needs suitable finish coat.Must form low-friction surface and must have high resistance to abrasion simultaneously in order to reach this purpose coating material.

According to prior art, proved that its disadvantage is, the supporting leg of guide fork needs secondary processing to prevent from producing wearing and tearing on the thread-carrier or on yarn to be guided.On the other hand, when yarn is extracted out, can produce coil from cop, these coils may cause thread-carrier plastic deformation when the supporting leg of being pitched by guide snarls.

Therefore the purpose that the present invention is based on provides and has the intensity highly and the thread-carrier of resistance to abrasion.

Realize this purpose according to the present invention by the characteristics of claim 1.

According to claim 1, propose that thread-carrier is arranged in its free end and have two thread-guiding elements that are configured to ducted body, described thread-guiding element forms the guide fork.Pei Zhi induction element combines a plurality of advantages by this way.The induction element that is configured to ducted body has the intensity of height, and has the better elastic deformation performance simultaneously.Because they provide less face of joint for the yarn that will be shifted under high speed, so their profile helps to reduce wear.And, compare their lighter weight with supporting leg according to the guide of making by the solid fork of prior art.Thereby reduced mass inertia, because be stock, so especially at the free end of thread-carrier, compare with place, opposite end at thread-carrier, mass inertia has bigger influence.Be particularly advantageous in the design of actuator like this.

Particularly, induction element can be a hollow barrel-type basically.Optionally, induction element can dwindle gradually to an end.For example induction element can be a truncated cone shape.Its advantage is, induction element need not be as the situation of prior art, must reprocess to make circle or the crack edge that produces the generation that is used for reducing friction in the zone of guide fork.Another advantage is that the thread-guiding element of structure proof can prevent to produce coil basically when cop is extracted yarn out in this way.

Induction element can preferably have cylindrical cross section.Can further reduce the frictional influence of yarn on thread-carrier like this.In addition, avoided on induction element, producing sharp edges and contacted, need not secondary processing in other words with yarn.

In addition, induction element can be made of metal or metal alloy, particularly is made of high-grade steel or titanium alloy.Such material has light weight and intensity is higher simultaneously.So also help expendable weight, thereby influenced the inertia properties of thread-carrier energetically.The induction element of being made by such material is also very wear-resisting.In addition, have very high surface quality, therefore need not to be coated with the minimise friction that makes between induction element and the yarn by the induction element of high-grade steel or titanium manufacturing.The induction element of such high strength and high elastic modulus helps to make it further to prevent the generation of coil.

Particularly, induction element can be connected to thread-carrier by force fit.This feasible extra securing device that can save with additive incrementation thread-carrier quality in the zone of induction element.In order to reach this purpose, described induction element can have excessive a little size, and at this moment, they can the mode with non-form fit be connected to thread-carrier by force fit.

Optionally, described induction element can be connected to described thread-carrier by bonding.Described thread-carrier is owing to the quality of using adhesive agent to increase can be ignored.

In addition, described induction element portion within it has bar, and described bar is filled corresponding induction element at least in part.The filling that the described induction element that is configured to ducted body is proceeded to small part makes that the flexural rigidity of induction element has increased in the lower area that receives the guide fork, and this zone is subjected to maximum load in the shifting process of yarn.

For this purpose, described bar should be made of light and high-intensity material.For example described bar can be made of carbon or the material with similarity.The bar of being made by carbon has very high intensity and elasticity, and the while lighter weight, so the weight that described thread-carrier increases in the zone of induction element can be ignored.Described bar preferably is fastened in the described induction element by bonding.

In addition, described induction element has different length.As a result, yarn being introduced described thread-carrier is simplified.

Advantageously, described thread-carrier can dwindle gradually to free end.This also helps to reduce the mass inertia of described thread-carrier, thereby has reduced the power in the deceleration and the generation of the overturn point in the accelerator of described thread-carrier.

Below can learn further details of the present invention from the embodiment shown in the accompanying drawing, in the accompanying drawing:

Fig. 1 shows the scheme drawing according to thread-carrier of the present invention;

Fig. 2 shows the detailed section view according to the guide fork of Fig. 1;

Fig. 3 shows the detailed section view of the guide fork that inserts the bar in the induction element according to having of Fig. 1.

Fig. 1 shows the scheme drawing according to thread-carrier 1 of the present invention.This thread-carrier 1 dwindles gradually to its free end.The thicker end of thread-carrier 1 is connected to independent motor driver 3.For mobile yarn on the rotation bobbin 4 that is driven 2 drivings of device roller, thread-carrier 1 alternately rotates under the effect of its actuator 3 to the left and right.

At its narrow end freely, thread-carrier 1 has the guide fork 5 that is formed by hollow thread-guiding element 6,7.The thread-guiding element 6,7 that forms ducted body is hollow barrel-type in the present embodiment.Optionally, but induction element 6,7 also Xiang Yiduan dwindle gradually.In order to reach this purpose, they can for example be truncated cone shape.Yarn to be shifted is along with the motion of thread-carrier 1 is directed between thread-guiding element 6,7.

As shown in Figure 2, hollow barrel- type induction element 6,7 preferably has cylindrical cross-section.Because induction element 6,7 is circular, thereby reduced with the wear effects of yarn on induction element 6,7 of very fast speed through thread-carrier 1.In order to produce induction element 6,7, can use for example high-grade steel or titanium alloy.These materials have high intensity and surface quality.In addition, because their modulus of elasticity is higher, thereby they have the better elastic deformability.

Induction element 6,7 is fastened to thread-carrier 1 by non-form fit.In this case, induction element 6,7 has excessive a little size, so induction element 6,7 modes with force fit are connected to thread-carrier 1.Optionally, induction element 6,7 can be connected to thread-carrier 1 by adhesive agent, and therefore a kind of connection type of light weight also is provided.

As shown in Figure 3, in order to improve the flexural rigidity of induction element 6,7 in the zone that receives guide fork 5, the bar 8,9 that is suitable for the shape of induction element 6,7 by introducing is strengthened this induction element 6,7, and described bar 8,9 is made by for example carbon or similar material.In this example, bar 8,9 extends on the length top of induction element 6,7 at least.The fastening of bar 8,9 produced by bonding.

Fig. 3 shows the layout of bar 8,9.Described bar partly is positioned to be fastened in the respective end of the induction element 6,7 in the thread-carrier 1.This zone of guide fork 5 is subjected to maximum mechanical load under the effect of the yarn that will be shifted at a high speed.Offset these load by using bar 8,9.Because it is lighter to be used for the weight of material of bar 8,9, thereby they also can complete filling induction element 6,7.

Claims (11)

1. a thread-carrier (1), it is parallel to guiding yarn in described bobbin axis ground in order to make yarn at rotation bobbin (4) superior displacement in guide fork (5), described thread-carrier (1) is constructed in the finger-shaped mode and is connected to drive assembly (3) at the place, end, described thread-carrier is characterised in that, free end at described thread-carrier (1) is arranged two induction elements (6 that are configured to ducted body, 7), described two induction elements form described guide fork (5).

2. thread-carrier according to claim 1 (1) is characterized in that, described induction element (6,7) is hollow barrel-type basically.

3. thread-carrier according to claim 1 (1) is characterized in that, described induction element (6,7) Xiang Yiduan dwindles gradually.

4. according to the described thread-carrier of claim 1 to 3 (1), it is characterized in that described induction element (6,7) has cylindrical cross-section.

5. according to any one described thread-carrier (1) in the claim 1 to 4, it is characterized in that described induction element (6,7) is made of metal, metal alloy or synthetic material.

6. according to any one described thread-carrier (1) in the claim 1 to 5, it is characterized in that described induction element (6,7) is connected to described thread-carrier (1) by form fit.

7. according to any one described thread-carrier (1) in the claim 1 to 5, it is characterized in that, described induction element (6,7) by bonding connection to described thread-carrier (1).

8. according to any one described thread-carrier (1) in the claim 1 to 7, it is characterized in that described induction element (6,7) portion within it has bar (8,9), described bar (8,9) is filled described induction element (6,7) at least in part.

9. thread-carrier according to claim 8 (1) is characterized in that, described bar (8,9) is made of light and high-intensity material.

10. according to any one described thread-carrier (1) in the claim 1 to 9, it is characterized in that described induction element (6,7) has different length.

11., it is characterized in that described thread-carrier (1) dwindles gradually to free end according to any one described thread-carrier (1) in the claim 1 to 10.

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