CN102837991A - Finger yarn guide - Google Patents

Abstract

The finger thread guide unit (13) comprises an elongated base body (17) made of plastic with abrasion resistant thread guide elements (42,43) at its free end that traverse a thread running on the surface of a cross-wound spool during the winding operation. The carbon fiber rods (44,45) extending along the length of the base body(17) and a fastening and locking element (19) are molded in the base body, where the abrasion resistant protective units are oxide-ceramic tubes or chrome-plated steel tubes, which are partially molded in the base body.

Description

The finger-type thread-carrier

Technical field

The present invention relates to a kind of finger-type thread-carrier of the preamble according to claim 1.

Background technology

The finger-type thread-carrier of Yarn lateral-movement device of station that is used to make the weaving loom of cross winding bobbin is known, for example in WO 00/24663, DE 102005059028A1 or DE 102008053261A1, has done detailed relatively explanation.

A kind of thread-carrier that is finger-type for example is described in WO 00/24663, and in order to keep little quality as far as possible, this thread-carrier integral body has less relatively thickness.At this, this thread-carrier has on its free end and is used to pick up and guides the guide fork of treating the lay yarn, wherein, the rounding and the chamfered edge of guide fork is carried out additional treatments, to be reduced in the winding process occurring wear between yarn and finger-type thread-carrier.In addition, the guide fork also has finish coat, and its coating material is characterised in that the less relatively while resistance to abrasion of friction is higher.

Yet known finger-type thread-carrier shortcoming is; One side need be carried out expensive subsequent treatment to the seamed edge of guide fork; Reliably to avoid occurring wearing and tearing finger-type thread-carrier or wait to guide the situation of yarn, on this finger-type thread-carrier, there is such danger on the other hand, promptly; The kink that one of them seamed edge of finger-type thread-carrier is occurred from cop unwinding yarn the time is hooked, and this causes responsive relatively finger-type thread-carrier plastic deformation and then inefficacy usually at once.

According to the also known a kind of similar finger-type thread-carrier of DE 102005059028A1.The described finger-type thread-carrier in there has the thread-guiding element of two cylinder type hollow bodies that are designed to be processed by pottery on the free end of its main body; Their shapes and/or power embed main body ordinatedly and constitute the guide fork, and the yarn that in winding process, is wound up on the cross winding bobbin leads mobile between these two thread-guiding elements.At this, the advantage of the structure of the thread-guiding element of being processed by pottery is that its material is very wear-resisting thereby can reduce to the wearing and tearing sign of thread-guiding element minimum.

Yet the shortcoming of known finger-type thread-carrier is; The hollow thread-guiding element of being processed by pottery (it directly links to each other with the main body of thread-carrier) is though from when yarn impacts, not bearing tangible wearing and tearing; Yet because the breaking elongation of pottery is less relatively; With upper frequency lay yarn the time, have such danger all the time, that is, thread-guiding element is for example owing to the moment of deflection that occurs on the main body is easy to fracture; Perhaps under the situation of these thread-guiding elements (wherein ceramic sleeve is arranged on the excellent part of being processed by lighter high strength material), pottery can peel off from excellent part.

In addition, through the known a kind of finger-type thread-carrier of DE 102008053261A1, this finger-type thread-carrier has main body, and this main body is made up of the magnesium foundry goods, and wherein, ceramic thread-guiding element is connected on the subject freedom end through the excellent part of flexural resilience.That is to say that carbon fiber rod is fixed on by means of bonding connection in the respective aperture of magnesium main body, ceramic thread-guiding element is corresponding preferably to be fixed on the carbon fiber rod through bonding connection equally.At this, through ceramic thread-guiding element is bearing on the flexural resilience rod and should realizes, but the moment of deflection that during the lay yarn, occurs absorb by the rod of elastic bending, and keep apart with ceramic thread-guiding element thus.

Though the finger-type thread-carrier structure known by DE 102008053261A1 obviously improved known up to now finger-type thread-carrier, yet this finger-type thread-carrier also has different shortcomings.For example the bonding connection in the carbon fiber rod zone forms mechanical weak location.In addition, another shortcoming of known finger-type thread-carrier is that the magnesium main body is relatively low transverse to the elastic strength of finger-type thread-carrier sense of motion.That is to say that less transverse force has just caused the magnesium main body to keep distortion.

And, engage relevant perhaps required when mounted machine up with various different components and be proved to be quite expensive.In order to guarantee that mode is installed this finger-type thread-carrier according to the rules, for example at first must make each finger-type thread-carrier be matched with its actuating unit separately, wherein, the magnesium main body is perhaps because hand adjustment and plastic deformation.

Summary of the invention

From the finger-type thread-carrier of aforementioned type, task of the present invention is to develop a kind of finger-type thread-carrier, and it does not have the said shortcoming of known finger-type thread-carrier, can make at an easy rate simultaneously.

According to the present invention, solve this task through finger-type thread-carrier as claimed in claim 1.

Favourable improved procedure of the present invention is the theme of dependent claims.

In being constituted as the finger-type thread-carrier of the present invention of many element types parts, use " plastic injection-moulded shaping " manufacturing process according to advantageous manner, so that with having the very various optimization of material ground combination with one another of special material characteristic respectively.That is to say that finger-type thread-carrier of the present invention has the main body that is made of plastics, fixing and locking member is molded in the said main body with the carbon fiber rod that extends beyond principal length.

Because the proportion of main body that form, that constitute Plastic Parts is starkly lower than the proportion of applied magnesium main body in the finger-type thread-carrier at present when making thread-carrier of the present invention; So when making finger-type thread-carrier of the present invention, can relatively freely select the length of carbon fiber rod to be used.That is to say,, compare, also will not improve total rotor inertia with known finger-type thread-carrier although carbon fiber rod extends beyond the zone of finger-type thread-carrier main body based on the intensity reason.

The finger-type thread-carrier of structure is because molded carbon fiber rod by this way, not only about finger-type thread-carrier sense of motion, and also is very bending resistance and indeformable transverse to this sense of motion.That is to say that in fact this finger-type thread-carrier plastic deformation can not occur.

In addition, finger-type thread-carrier of the present invention can be made at an easy rate, and this is because in it is made, neither need carry out mechanical treatment to face of joint, also can not produce the bonding connection to be accomplished of any common relative complex.

Of claim 2 or 3, carbon fiber rod (it constitutes the stabilizing spine of finger-type thread-carrier of the present invention) perhaps is constituted as solid bar or hollow bar.At this, use the carbon fiber rod be constituted as hollow bar especially can make special rigidity and the very little finger-type thread-carrier of quality, and its carbon fiber rod is constituted as the finger-type thread-carrier of solid bar and can make relatively inexpensively.

With regard to the carbon fiber rod cross-sectional plane of finger-type thread-carrier, also there are various feasible patterns.According to claim 4, said carbon fiber rod for example can have circular cross section, and this is a kind of relatively inexpensive structural distortion.Yet fully also can expect such finger-type thread-carrier, wherein applied carbon fiber rod for example has oval cross section (claim 5).Have the carbon fiber rod of oval cross section through application, for example can further improve the bending strength of finger-type thread-carrier, can not increase the quality of finger-type thread-carrier simultaneously at this with plain mode, and then the total rotor inertia that can not improve the finger-type thread-carrier.At this, look the orientation of elliptical shaft and decide, can improve the finger-type thread-carrier along sense of motion or transverse to the bending strength of sense of motion.

In addition, of claim 6, stipulate that in favourable embodiment the carbon fiber rod that is molded in the main body all has wear-resistant protection spare on it protrudes in the part of main body.

At this, of claim 7, for example the oxide ceramics pipe can be used as said wear-resistant protection spare, and said oxide ceramics pipe jointly is molded in the said main body in the part when making said finger-type thread-carrier, thereby need not bonding connection.

Yet as described in claim 8, replace the oxide ceramics pipe of this high abrasion also can use chrome-plated steel.At this, the more insensitive this chrome-plated steel of impact also preferably jointly is molded in the said main body in the part at least.

In addition, according to claim 9, regulation also in favourable embodiment, said wear-resistant protection spare is additionally fixed through the bearing of the semicircular in shape that is made of plastics, and said bearing generates in plastic injection-moulded forming process together.That is to say that said bearing is the component part of said main body, and show as wear-resistant protection spare is fixed on the additional fastening part on the carbon fiber rod.

Said with 11 like claim 10, the fixing and locking member that is molded in the main body has the central support sleeve that is used for the actuating device motor drive shaft, the sleeve shaped salient that is used for device for positioning and securing and a plurality of foundry goods base.At this, one of them sleeve shaped salient has negative thread, and retainer can be located with prescribed manner by means of said negative thread.Said retainer can be realized the accurate pointing of said finger-type thread-carrier on motor drive shaft with plain mode, and meanwhile, the foundry goods base has guaranteed that the said fixing locking member that reaches is fixed in the said finger-type thread-carrier main body reliably when molded.

Shown in claim 12, the main body of finger-type thread-carrier also has sliding members, and said sliding members matches with the slide rail that preferably is arranged on the actuating device during reeling.That is to say that if vibration appears in the finger-type thread-carrier in winding process, sliding members just leans against on the cooresponding slide rail so, this makes that at once the finger-type thread-carrier is steady.

Shown in claim 13, in favourable embodiment, sliding members is fixed on the finger-type thread-carrier main body with removable mode.That is to say that under the situation of needs, sliding members can successfully be replaced by new sliding members.

Description of drawings

Embodiment below in conjunction with description of drawings can access other details of the present invention.

Among the figure:

Fig. 1 illustrates the station of the weaving loom of making cross winding bobbin with lateral plan, and said station has Yarn lateral-movement device, and said Yarn lateral-movement device has finger-type thread-carrier of the present invention;

Fig. 2 illustrates the Yarn lateral-movement device with finger-type thread-carrier of the present invention with front isometric view;

Fig. 3 illustrates the front elevation according to the finger-type thread-carrier of prior art;

Fig. 4 illustrates the front elevation of finger-type thread-carrier of the present invention;

Fig. 5 A illustrates the fixing and locking member that is molded in the finger-type thread-carrier of the present invention with birds-eye view;

Fig. 5 B is the view according to the Section line V-V of Fig. 5 A;

Fig. 6 illustrates the birds-eye view of finger-type thread-carrier of the present invention according to the Section line VI-VI of Fig. 4.

The specific embodiment

Fig. 1 schematically shows the station 2 of the weaving loom 1 of making cross winding bobbin with lateral plan, and this weaving loom 1 is so-called automatic cross winding device in this embodiment.As known, this automatic cross winding device 1 all has the identical station of a plurality of structures 2 between its (unshowned) terminal frame.Equally as known and not further specifying; Spinning bobbin 3 rewindings that on these stations 2, will on ring spinner, make become the cross winding bobbin 5 of large package; Cross winding bobbin 5 is after it is processed; Deliver the cross winding bobbin transmitting device 7 that vertically is provided with to along machine by (unshowned) service unit (for example cross winding bobbin more changing device), be transported to the bobbin point of shipment that is arranged on the machine end side etc. subsequently.

In addition, this automatic cross winding machine 1 also has the feeding mechanism that is bobbin and sleeve delivery system 6 forms usually.In this bobbin and sleeve delivery system 6, spinning bobbin 3 or empty sleeve go in ring on transfer dish 11.The cop drainage area 24 of bobbin and sleeve delivery system 6 only is shown in Fig. 1, storage area 25, the lateral transfer district 26 of leading to winder station 2 and sleeve that can reverse driving returns district 27.

In addition, each winder station 2 all has various different devices, and these devices guarantee that this station normally moves.One of these devices for example are the wind2s with Reference numeral 4 signs, and this wind2 has can be around the bobbin bank 8 of pivotal axis 12 motions.In this case, cross winding bobbin 5 with its surperficial applying bobbin driven roller 9, and is driven by bobbin driven roller 9 through friction fit in winding process.

Yet in an alternative embodiment; The driving of cross winding bobbin can realize that also this actuating device is set directly on the bobbin bank 8 or integral type is bonded to bobbin bank 8 through the actuating device (being preferably electronic commutated DC motor) of controllable rotation speed.

The traversing of yarn 16 that in winding process, is wound up on the cross winding bobbin 5 realized through Yarn lateral-movement device 10.This Yarn lateral-movement device 10 that only schematically shows among Fig. 1 has finger-type thread-carrier 13, and is especially as shown in Figure 2, and finger-type thread-carrier 13 drives through Vidacare corp 14, finger-type thread-carrier 13 cross winding bobbin 5 yarn 16 between distolateral that is used to traverse.As shown in Figure 2 in addition, actuating device 14 has motor drive shaft 33, finger-type thread-carrier 13 anti-being arranged on rotationally on the motor drive shaft 33.The control setup 28 that actuating device 14 self passes through control path 15 and station self links to each other.

In addition; Station 2 all has yarn under working sensor 40, yarn clearer 22, is arranged on yarn cutting device 23 and yarn tension sensor 20 in yarn clearer 22 zones, and they are connected on the control setup 28 of station self through signal or control path 41,29,30,21.As common, each station 2 all has suction nozzle 35, so-called clamp yarn cop 37 and compressed-air controlled Yarn connecting device 36.

Fig. 2 illustrates the Yarn lateral-movement device 10 on the station 2 that is arranged on the weaving loom 1 of making cross winding bobbin with front isometric view.As illustrated, this station 2 has the winder station housing 31 of being furnished with input media 32, and winder station housing 31 mainly holds the control setup 28 of station self.In addition, wind2 4 is fixed on the winder station housing 31, and wind2 4 roughly comprises bobbin bank 8, bobbin driven roller 9 that keeps cross winding bobbin 18 and the Yarn lateral-movement device 10 that is used to traverse and is wound up into the yarn on the cross winding bobbin 5.At this, Yarn lateral-movement device 10 has finger-type thread-carrier 13 of the present invention, and as aforementioned, reversible actuating device 14 of finger-type thread-carrier 13 links to each other through the control setup 28 of control path 15 and station self.Finger-type thread-carrier 13 can be controlled through control setup 28 with prescribed manner, thereby in winding process, especially can accurately set shop yarn speed.

Fig. 3 illustrates by the known thread-carrier of prior art.This thread-carrier 13 has finger-type or pointer shape main body 17, and main body 17 is processed by the magnesium foundry goods.As shown in, main body 17 is dwindled towards its free end, meanwhile, the end of the broad of finger-type thread-carrier 13 has receiving opening, finger-type thread-carrier 13 can be connected on the motor drive shaft of the unshowned separate motors actuating device of Fig. 3 through this receiving opening.Main body 17 has two receiving openings on its narrower free end, but has the rod 38 or 39 of an elastic bending to be fixed in these two receiving openings respectively, but the rod 38 of elastic bending or 39 self all has ceramic thread-guiding element 42 or 43.At this, but rod 38,39 of elastic bending (preferably by carbon fiber composite material, for example carbon (Carbon) is processed) and induction element 42,43 (its be designed to processed by pottery cylinder type hollow body) are to fix through bonding connection.

Fig. 4 illustrates finger-type thread-carrier 13 of the present invention, that is to say, a kind of thread-carrier with the main body 17 that is made of plastics, and carbon fiber rod 44,45 and the fixing locking member 19 that reaches are molded in the main body 17.At this, to compare with the plastic body 17 of admitting carbon fiber rod 44,45, carbon fiber rod 44,45 is longer substantially.That is to say that carbon fiber rod 44,45 not only protrudes in main body 17 in the narrower free end zone of main body 17 but also in its motor drive shaft installation region. Carbon fiber rod 44,45 has wear-resisting guard member in it protrudes in the zone of main body 17, for example be furnished with oxide ceramics pipe 42,43 or chrome-plated steel.At this, these guard members also jointly are molded in the main body 17 in the part at least, thereby are fixed on reliably on the carbon fiber rod 44,45.Relevant therewith, especially advantageously, the bearing 46,47 of semicircular in shape, for example oxide ceramics pipe 42,43 is fixed on this bearing 46,47 in their bottom.Especially shown in Fig. 5 A, the fixing and locking member 19 that is molded in equally in the main body 17 comprises the central support sleeve 48 that is used for actuating device 14 motor drive shafts 33, the sleeve shaped salient 49A that is used for the device for positioning and securing (not shown), 49B, 49C and a plurality of foundry goods base 50.At this, sleeve shaped salient 49A has negative thread 54, and stop part 51 can be realized the accurate pointing of finger-type thread-carrier 13 on motor drive shaft 33 through stop device by means of negative thread 54 location.That is to say; Finger-type thread-carrier 13 can so be located by means of stop part 51; Promptly; The sliding members 52 that is arranged on the main body 17 is arranged on slide rail 53 the place aheads that are fixed on the actuating device 14 with very little spacing, and this sliding members 52 is through suppressing the vibration that may occur with slide rail 53 collaborative works.

Claims (13)

1. the finger-type thread-carrier of the Yarn lateral-movement device of the station of a weaving loom that is used to make cross winding bobbin; Said finger-type thread-carrier has elongate body; Said main body can be connected on the actuating device that can reverse through admitting opening, and on the free end of said main body, said main body has the abrasion resistant thread-guiding element; Said thread-guiding element is used for being wound up into the lip-deep yarn of cross winding bobbin at coiling duty cycle chien shih and traverses

It is characterized in that,

Said finger-type thread-carrier (13) is designed to many element types parts and has the main body (17) that is made of plastics, and fixes the carbon fiber rod (44,45) that reaches locking member (19) and extend beyond the length of said main body (17) and is molded in the said main body.

2. finger-type thread-carrier according to claim 1 is characterized in that, said carbon fiber rod (44,45) is designed to solid bar.

3. finger-type thread-carrier according to claim 1 is characterized in that, said carbon fiber rod (44,45) is designed to hollow bar.

4. according to the described finger-type thread-carrier of one of aforementioned claim, it is characterized in that said carbon fiber rod (44,45) has circular cross section.

5. according to the described finger-type thread-carrier of one of aforementioned claim, it is characterized in that said carbon fiber rod (44,45) has oval cross section.

6. finger-type thread-carrier according to claim 1 is characterized in that, said carbon fiber rod (44,45) all has wear-resistant protection spare (42,43) on it protrudes in the part of said main body (17).

7. finger-type thread-carrier according to claim 6 is characterized in that, said wear-resistant protection spare (42,43) is the oxide ceramics pipe, and said oxide ceramics pipe jointly is molded in the said main body (17) in the part.

As claimed in claim 6, wherein the finger yarn guide, characterized in that the wear protection element (42, 43) is chrome-plated steel, chrome-plated steel tubes of the joint is locally molded in said body (17).

9. according to the described finger-type thread-carrier of one of aforementioned claim, it is characterized in that said wear-resistant protection spare (42,43) is fixing by additionally through the bearing (46,47) of the semicircular in shape of said main body (17).

10. finger-type thread-carrier according to claim 1; It is characterized in that the said central support sleeve (48) that reaches locking member (19) and have the motor drive shaft (33) that is used for actuating device (14), sleeve shaped salient (49A, 49B, 49C) and a plurality of foundry goods base (50) that is used for device for positioning and securing fixed.

11. finger-type thread-carrier according to claim 10 is characterized in that, one of them sleeve shaped salient (49A) has negative thread (54), and retainer (51) can be by means of said negative thread location.

12. finger-type thread-carrier according to claim 1 is characterized in that, said main body (17) has sliding members (52), said sliding members during reeling with for example be arranged on said actuating device (14) on slide rail (53) match.

13. finger-type thread-carrier according to claim 12 is characterized in that, said sliding members (52) is fixed on the said main body (17) of said finger-type thread-carrier (13) with removable mode.

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