CN201933245U - Texturing machine - Google Patents

Abstract

The utility model relates to a texturing machine, which has at least one process area for manufacturing composite yams. In order to achieve the aim, the process area comprises a primary yam work station which is used for packaging primary yams, an auxiliary yam work station which is used for packaging auxiliary yams, a plurality of guiding units, a plurality of processing units, and a coiling device which is used for coiling composite yams to form a coiling package. The guiding units and the processing units are assembled in a machine frame to form advancing paths for yams. In order to guarantee that no matter where the supplying position is, the distance of supplying auxiliary yams is as short as possible, the auxiliary yam work station is provided with an elongate rigid bracket which has a fixing end and a relative holding end, wherein the fixing end of the bracket is dismountablely arranged on the machine frame, and the relative holding end of the bracket is provided with coiling bracket assembly which is used for coiling auxiliary yams.

Description

Texturing Machines

Technical field

The utility model relates to a kind of Texturing Machines, and it has at least one machining area.

Background technology

In the preparation process of textured yarn, be well known that by making up a plurality of yarns in yarn, to produce special effect.Therefore, in order to increase elasticity, for example, the extraordinary auxilliary yarn of elasticity is mixed with the main yarn that was out of shape.For this purpose, Texturing Machines also must have the auxilliary yarn station that at least one is used for auxilliary yarn package except having the common main yarn station that is used for main yarn package.

For example, by known this Texturing Machines among the WO2009/040850A2.This known Texturing Machines has machining area, this machining area has the auxilliary yarn station that is used for the main yarn station of main yarn package, a plurality of moving cell, a plurality for the treatment of apparatus and is used to prepare auxilliary yarn, and described a plurality for the treatment of apparatus are made of heater, cooling device, anamorphic attachment for cinemascope and interlacing apparatus.In this case, auxilliary yarn station is assigned to one of them guidance unit, so that main yarn and auxilliary yarn are jointly guided at this guidance unit place.Depend on composite yarn prepared in various situations, the diverse location place in machining area supplies with auxilliary yarn.Therefore, the first auxilliary yarn station is directly assigned to first guidance unit, so that supplied with auxilliary yarn before main yarn distortion.In the yarn travel path, the second auxilliary yarn station is assigned to the 3rd guidance unit, for example, can offer the main yarn that had been out of shape with assisting yarn by the second auxilliary yarn station.The type that depends on technology and yarn, one of them auxilliary yarn station is adapted to an auxilliary yarn package and activated.Yet in order to carry out PROCESS FOR TREATMENT very neatly on Texturing Machines, this needs very high expense with regard to equipment.

WO 2004/009886 discloses another kind of Texturing Machines, and wherein, auxilliary yarn station is directly assigned to first guidance unit in the machining area.Yet in this case, when auxilliary yarn was supplied to the main yarn that has been out of shape, it was necessary overcoming corresponding long distance by other thread-carrier.

The utility model content

Therefore, the purpose of this utility model is a kind of universal Texturing Machines of exploitation, no matter is which kind of technology, can will assist yarn on short as far as possible distance and offer main yarn.

Another purpose of the present utility model is to realize a kind of machining area in known Texturing Machines, and in machining area, auxilliary yarn station has compact structure as far as possible.

Realize above-mentioned purpose according to the utility model, wherein, auxilliary yarn station has the rigid carriers of elongation, this carriage has stiff end and relative maintenance end, wherein, the stiff end of carriage is detachably mounted on the frame, and wherein, the relative maintenance end of carriage carries the package carriage assembly that is used for auxilliary yarn package.

Special advantage of the present utility model is: the auxilliary yarn station in the machining area of Texturing Machines is maintained on the frame, so that it can easily be changed.Therefore, depend on the kind of technology and yarn, auxilliary yarn station can be arranged on all places place in the machining area.This can both allow to obtain when supplying with auxilliary yarn very short in the yarn path.For this purpose, the stiff end of carriage is directly installed on the pre-position on the frame.Therefore, the elongated structure of carriage allows to realize that the package carriage assembly from auxilliary yarn package has enough intervals, and this package carriage assembly is maintained on the relative maintenance end of carriage.

When extracting out, auxilliary yarn package kept certain tensile stress in order to work as auxilliary yarn, preferred enforcement following improvement the of the present utility model: the package carriage assembly has movable revoliving arm and rotatable friction roller, when auxilliary yarn was extracted out, revoliving arm and friction roller and auxilliary yarn package interacted.

Therefore, an end of revoliving arm is connected on the maintenance end of carriage by the revolution trunnion, and the opposed end place of revoliving arm has the rotatable receiver that is used to receive auxilliary yarn package.By this revoliving arm, auxilliary yarn package can be maintained on the circumference of friction roller, and this friction roller is installed in rotation on the maintenance end of carriage.

In order to ensure extracting auxilliary yarn continuously out, friction roller preferably is connected to motor and is driven by predetermined peripheral speed.

In order to use common supply line at the inner cabling of frame, it is useful especially implementing following improvement the of the present utility model, wherein, motor is maintained at the stiff end of carriage, and wherein, between the stiff end and maintenance end of carriage, has the belt drive unit that is formed on the carriage, by means of this belt drive unit, motor is connected to friction roller.Therefore, supply and control auxilliary yarn station with regard to available relatively shorter cable route.

In this case, the mode of saving the space especially is that drive unit is designed so that motor and friction roller are maintained at a side of carriage, and belt drive unit is formed on the opposite side of carriage.Guaranteed that also thread-carrier and driving element are separated by carriage so simultaneously.

In addition, can also isolate belt drive unit and external environment by outer cover.

In order to supply auxilliary yarn as far as possible continuously and to make the interruption after auxilliary yarn package uses up very of short duration, preferred employing following improvement the of the present utility model, wherein, the sensor bracket with yarn sensor is maintained on the carriage, and is arranged on the downstream of package carriage assembly in the yarn travel path.Therefore, the extraction of auxilliary yarn can be monitored continuously by yarn sensor.

If being used as auxilliary yarn, mixes elastomeric yarn with main yarn, then be preferably designed to according to Texturing Machines of the present utility model and make carriage directly be fixed on the part frame, this part frame extends and is used to make the treating apparatus of supplying with the yarn distortion and is arranged between the guidance unit in anamorphic attachment for cinemascope downstream.This allows directly to come to extract out the auxilliary yarn of elasticity by second guidance unit in the machining area from auxilliary yarn package.

Realized a kind of layout of compactness especially of each device and unit, wherein, anamorphic attachment for cinemascope, auxilliary yarn station carriage, second guidance unit and the treating apparatus that is used to two yarns are merged are set at a rack unit of vertically locating by the mode of arranging up and down.Particularly, this also makes and can operate all relevant treatment unit and treating apparatus simply from maintenance channel.

Because this Texturing Machines has a plurality of machining areas usually, so according to improvement of the present utility model, auxilliary yarn station can be preferably integrated, wherein, the carriage of the auxilliary yarn station of adjacent machining area remains on the same crossbeam of frame.Therefore, during each auxilliary yarn station machine in normal service that can be integrated into machining area spaces.

The utility model provides a kind of Texturing Machines, and it has at least one machining area that is used to produce composite yarn, and wherein, this machining area has: main yarn station, and this main yarn station has the main yarn package that is used to provide main yarn; Auxilliary yarn station, this auxilliary yarn station has the auxilliary yarn package that is used to provide auxilliary yarn; A plurality of guidance units; A plurality for the treatment of apparatus; Reel composite yarn to form the coiler device of coiling package with being used to, and wherein, guidance unit and treating apparatus are set in the frame to be combined to form the yarn travel path, and described treating apparatus comprises the heater that is used to heat main yarn, be used to cool off the cooling device of main yarn, be used to make the anamorphic attachment for cinemascope and the interlacing apparatus that is used to main yarn and auxilliary yarn are merged of main yarn distortion, it is characterized in that: auxilliary yarn station has the rigid carriers of elongation, this rigid carriers has stiff end and has relative maintenance end, wherein, the stiff end of this carriage is removably mounted on the frame, and wherein, the relative maintenance end of this carriage carries the package carriage assembly that is used for auxilliary yarn package.

According to an embodiment, the package carriage assembly has movable revoliving arm and rotatable friction roller, and when this auxilliary yarn was drawn out of, this revoliving arm and friction roller and auxilliary yarn package interacted.

According to an embodiment, an end of revoliving arm is connected on the maintenance end of carriage by the revolution trunnion, and the opposed end of revoliving arm has the receiver that is used to receive auxilliary yarn package; And friction roller is rotatably installed on the maintenance end of carriage, and is bearing in during operation on the circumference of auxilliary yarn package.

According to an embodiment, friction roller is coupled to motor.

According to an embodiment, motor is maintained at the stiff end place of carriage; And between the stiff end and maintenance end of carriage, be formed with belt drive unit on carriage, motor is connected to friction roller by means of this belt drive unit.

According to an embodiment, motor and friction roller are maintained at a bracket side, and belt drive unit is maintained at relative bracket side.

According to an embodiment, belt drive unit and external environment are isolated with outer cover.

According to an embodiment, the sensor bracket with yarn sensor is maintained on the carriage, and is set at the downstream of package carriage assembly on the travel path of yarn.

According to an embodiment, carriage is fixed to anamorphic attachment for cinemascope and is arranged on a part of frame of extending between the guidance unit in anamorphic attachment for cinemascope downstream.

According to an embodiment, carriage, the guidance unit that is arranged on the anamorphic attachment for cinemascope downstream and the interlacing apparatus of anamorphic attachment for cinemascope, auxilliary yarn station all are arranged on the rack unit of same vertical location by the mode of arranging up and down.

According to an embodiment, under the situation that two the above machining areas are arranged, the carriage of the auxilliary yarn station of each adjacent machining area all is maintained on the same crossbeam of rack unit of vertical location.

Description of drawings

Hereinafter, illustrate in greater detail the utility model with reference to accompanying drawing and by exemplary embodiment according to Texturing Machines of the present utility model, wherein:

Fig. 1 has schematically shown the cutaway view according to the exemplary embodiment of Texturing Machines of the present utility model;

Fig. 2 and Fig. 3 have schematically shown the side view of the auxilliary yarn station of exemplary embodiment among Fig. 1;

Fig. 4 has schematically shown the front view of the auxilliary yarn station of exemplary embodiment among Fig. 1.

The specific embodiment

Fig. 1 shows first exemplary embodiment according to Texturing Machines of the present utility model.The cutaway view of this exemplary embodiment has been represented the yarn travel path in the Texturing Machines machining area, wherein, main yarn is by extraction from main yarn package, guiding, distortion and tractive, and wherein, main yarn after the distortion and auxilliary yarn combined and be wound into composite yarn with the package of formation coiling.For the necessary guidance unit of this purpose and treating apparatus are arranged in the multi-piece type frame 7, to form the yarn travel path that partly surrounds maintenance channel 19.This Texturing Machines has a plurality of machining areas on longitudinal direction (the figure paper plane is equivalent to transverse plane among Fig. 1), so that produce a composite yarn in all cases in each machining area.Therefore, be arranged side by side machining area more than 200 usually.Because the structure of each machining area has identical form in this exemplary embodiment, so describe the guidance unit and the treating apparatus of one of them machining area hereinafter with reference to Fig. 1.

In order from main yarn package 2, to extract main yarn 11 out, be provided with main yarn station 1.Main yarn station 1 is formed in the bobbin cradle 6, maintains one group of master's yarn station 1 on bobbin cradle 6.Be arranged in the face of on the rack unit 7.1 of bobbin cradle 6 being first guidance unit 3.The treating apparatus (being called cooling device 5 herein) that is used to heat the treating apparatus (being expressed as heater 4 herein) of main yarn 11 and is used to cool off main yarn 11 is in the back of first guidance unit 3 on the yarn travel path.Heater 4 and cooling device 5 are arranged on the center frame 7.2 that strides across maintenance channel 19.At the remainder place of yarn travel path, followed by be the treating apparatus that is used to make main yarn 11 distortion, be expressed as anamorphic attachment for cinemascope 8 in this embodiment.In this embodiment, anamorphic attachment for cinemascope 8 is normally formed by being called the frictional disk unit, and wherein, yarn is directed in by three piles of formed gaps of dish.These three piles of dishes are stacked mutually, and all drive by power transmission shaft separately.Anamorphic attachment for cinemascope 8 is arranged in the upper area of rack unit 7.3 of vertical arrangement.Anamorphic attachment for cinemascope 8 and heater 4 and cooling device 5 form so-called deformed region, make main yarn 11 distortion in this deformed region.

Main yarn 11 for tractive and extraction were out of shape is provided with second guidance unit 9 in the downstream of anamorphic attachment for cinemascope 8.Being in the part between the anamorphic attachment for cinemascope 8 and second guidance unit 9 of rack unit 7.3, frame 7 has the crossbeam 27 that is used for fixing auxilliary yarn station 20.For this reason, auxilliary yarn station 20 has the rigid carriers 23 of elongation, and this rigid carriers 23 has end of maintenance 24 and stiff end 25.Stiff end 25 is fixed on the crossbeam 27, and relative maintenance end 24 stretches out towards the direction of maintenance channel 19.The package carriage assembly 26 that is used to receive auxilliary yarn package 21 is arranged on the maintenance of carriage 23 and holds 24 places.

In order to further specify auxilliary yarn station 20, in addition referring to Fig. 2,3 and 4.Fig. 2 has shown the view of carriage one side 40.2, and Fig. 3 has shown the view of the opposition side 40.1 of carriage.Fig. 4 shows auxilliary yarn station 20 by front view.Not especially under the situation at arbitrary accompanying drawing, below explanation is applicable to all accompanying drawings.

Hold the package carriage assembly 26 at 24 places to have movable revoliving arm 29 in the maintenance of carriage 23, this movable revoliving arm 29 is installed into and can keeping revolution on the end 24 by revolution trunnion 30.Relative free end at revoliving arm 29 is provided with rotatable package receiver 31, is keeping auxilliary yarn package 21 on this rotatable package receiver 31.Revoliving arm 29 interacts with the friction roller 32 that is rotatably installed on the carriage 23.Be directed to operating position place on friction roller 32 circumference in order to assist yarn package 21 by revoliving arm 29, on revoliving arm 29, be formed with handle 28.In operation, assisting yarn package 21 is maintained on the circumference of friction roller 32.In this embodiment, in order from auxilliary yarn package 21, to extract auxilliary yarn 22 out, drive friction roller 32 by motor 33.

Motor 33 is arranged on the stiff end 25 of carriage 23.Belt pulley 35.1 and 35.2 is assigned to motor 33 and friction roller 32 respectively on carriage opposition side 40.2, wherein, belt pulley 35.1 is connected on the motor 33, and belt pulley 35.2 is connected on the friction roller 32.Belt pulley 35.1 and 35.2 has formed belt drive unit 34, and this belt drive unit 34 is formed on the bracket side 40.2 that keeps between end 24 and the stiff end 25.For the protection of anti-external environment influence is provided, protect belt drive unit 34 by the outer cover 36 that only is shown in broken lines.

The stiff end 25 of carriage 23 is fixed on the crossbeam 27 of rack unit 7.3 (not shown herein).Here, as example, removably connecting between stiff end 25 and the crossbeam 27 is depicted as screw and connects.As shown in Figure 4, a plurality of auxilliary yarn stations are remained on the crossbeam 27 in such a way.During the auxilliary yarn station 20 of adjacent machining area can space by the machine in normal service that this mode is integrated into the machining area of Texturing Machines.

In the central area of carriage 23 and be provided with yarn sensor 37 below package carriage assembly 26, this yarn sensor 37 is maintained on the carriage 23 by sensor bracket 38.Yarn sensor 37 is arranged so that when auxilliary yarn 22 is drawn out of that with respect to package carriage assembly 26 auxilliary yarn 22 is guided through yarn sensor 37.Yarn sensor 37 is connected on the control device of distributing to machining area by holding wire (not shown herein).

As shown in Figure 1, directly extract auxilliary yarn 22 out by second guidance unit 9 from auxilliary yarn station 20.Therefore, both are transmitted the main yarn 11 that was out of shape and auxilliary yarn 22 together and pass second guidance unit 9.

In rack unit 7.3, be used for two yarns 11 and 22 treating apparatus that are merged together are set directly at second guidance unit, 9 downstreams.The treating apparatus that is used for yarn is merged together is shown as interlacing apparatus 15 herein.In interlacing apparatus 15, the fibre single thread of main yarn 11 is mixed, with the fibre single thread of auxilliary yarn 22 so that obtain composite yarn 39.In this embodiment, elastomeric yarn preferably is used as auxilliary yarn 22, so that improve the elasticity of composite yarn 39.

In the exemplary embodiment shown in Figure 1, composite yarn 39 is directed into the treating apparatus that is used to relax via the setting guidance unit 16 that is used for post processing.The treating apparatus that is used to relax is represented as setting heater 13 in this embodiment.

After the post processing of composite yarn 39, composite yarn 39 is directed in the coiler device 10.1 via the 3rd guidance unit 14.In coiler device 10.1, composite yarn 39 is wound into coiling package 12.For this purpose, coiler device 10.1 has movable bobbin cradle 17 and driven roller 18.Driven roller 18 is arranged on traversing gear (no longer illustrating in greater detail) upstream side herein in the yarn travel path, before yarn being put in the coiling package, this traversing gear reciprocally guides yarn in the stroke range of traversing, so that wind cross winding package in coiler device 10.1.In this embodiment, coiling package 12 contacts on the circumference that is bearing in driven roller 18 and with constant peripheral speed and is driven, so that reel this composite yarn 39.

Because coiler device 10.1 than the guidance unit 3,9 that is arranged on the coiler device upstream side and 16 and treating apparatus 8 and 15 in machining area, need bigger width, so the coiler device 10.2 of adjacent machining area and 10.3 is by the layer mode upper and lower settings.In this exemplary embodiment, coiler device 10.1,10.2 and 10.3 is kept by self ground in rack unit 7.3, and be arranged on coiler device 10.1 to 10.3 upstream side guidance unit 3,9 and 16 and treating apparatus kept abreast mutually.

In exemplary embodiment shown in Figure 1, some guidance units are the form of winding guidance unit, and some guidance units are the form of clamping guidance unit.Particularly, the guidance unit 3 and 9 that is used to be out of shape with tractive is formed by twining guidance unit in this exemplary embodiment.Therefore, in various situations, first guidance unit 3 and second guidance unit 9 have branch roll dies and active draw-off godet, and main yarn 11 is repeatedly twined the ground guiding on them.

On the contrary, the 3rd guidance unit 14 forms the clamping guidance unit with power transmission shaft and pressure roll in this exemplary embodiment, pressure roll is maintained on the circumference of power transmission shaft by clamping limb, so that composite yarn 39 is guided by in the folder crack between power transmission shaft and pressure roll in this embodiment.

Yet to point out clearly that here the design of the guidance unit in this Texturing Machines and structure are to not influence of the utility model.Therefore, shown guidance unit both can form the winding guidance unit also can form the clamping guidance unit, perhaps can form the combination of twining guidance unit and clamping guidance unit.

The exemplary embodiment of the Texturing Machines shown in Fig. 1 only shows the structure of the general technology that is used to produce composite yarn.In principle, composite yarn 39 even can after two yarns 11 and 22 are incorporated in together, directly just be wound into coiling package 12 without any post processing.In this case, composite yarn 39 does not pass setting guidance unit 16 and setting heater 13.Composite yarn is directly extracted out from interlacing apparatus 15 by the 3rd guidance unit 16, and is provided for coiler device 10.1.

Equally, auxilliary yarn station 20 in rack unit 7.3 shown in the location be as example.In principle, auxilliary yarn station 20 can be set on the coiling frame parts 7.1.Depend on the place that requires to supply with auxilliary yarn 22 on the yarn travel path of main yarn 11, carriage 23 can be connected on corresponding rack unit 7.1 or 7.2.Like this, can in Texturing Machines, realize the confession yarn path of lacking very much of auxilliary yarn 22.

Reference numerals list

1 main yarn station

2 main yarn packages

3 first guidance units

4 heaters

5 cooling devices

6 bobbin cradles

7 frames

7.1,7.2,7.3 rack units

8 anamorphic attachment for cinemascopes

9 second guidance units

10.1,10.2,10.3 coiler devices

11 main yarns

12 coiling packages

13 setting heaters

14 the 3rd guidance units

15 interlacing apparatus

16 setting guidance units

17 bobbin cradles

18 driven rollers

19 maintenance channels

20 auxilliary yarn stations

21 auxilliary yarn packages

22 auxilliary yarns

23 carriages

24 keep end

25 stiff ends

26 package carriage assemblies

27 crossbeams

28 handles

29 revoliving arms

30 revolution trunnions

31 package receivers

32 friction rollers

33 motor

34 belt drive units

35.1,35.2 belt pulleys

36 outer covers

37 yarn sensors

38 sensor brackets

39 composite yarns

40.1,40.2 bracket side

Claims (11)

1. Texturing Machines, it has at least one machining area that is used to produce composite yarn (39), and wherein, this machining area has: main yarn station (1), this main yarn station (1) has the main yarn package (2) that is used to provide main yarn (11); Auxilliary yarn station (20), this auxilliary yarn station (20) has the auxilliary yarn package (21) that is used to provide auxilliary yarn (22); A plurality of guidance units (3,9,14); A plurality for the treatment of apparatus (4,5,8,15); Reel composite yarn (39) to form the coiler device (10.1) of coiling package (12) with being used to, and wherein, guidance unit (3,9,14) and treating apparatus (4,5,8,15) are set in the frame (7) to be combined to form the yarn travel path, and described treating apparatus comprises the heater (4), the cooling device (5) that is used to cool off main yarn that are used to heat main yarn, be used to the interlacing apparatus (15) that makes the anamorphic attachment for cinemascope (8) of main yarn distortion and be used to make main yarn and the merging of auxilliary yarn, it is characterized in that:

Auxilliary yarn station (20) has the rigid carriers (23) of elongation, this rigid carriers (23) has stiff end (25) and has relative maintenance end (24), wherein, the stiff end (25) of this carriage (23) is removably mounted on the frame (7), and wherein, the relative maintenance end (24) of this carriage (23) carries the package carriage assembly (26) that is used for auxilliary yarn package (21).

2. Texturing Machines according to claim 1, it is characterized in that, package carriage assembly (26) has movable revoliving arm (29) and rotatable friction roller (32), and when this auxilliary yarn (22) when being drawn out of, this revoliving arm (29) and friction roller (32) interact with auxilliary yarn package (21).

3. Texturing Machines according to claim 2, it is characterized in that, an end of revoliving arm (29) is connected on the maintenance end (24) of carriage (23) by revolution trunnion (30), and the opposed end of revoliving arm (29) has the receiver (31) that is used to receive auxilliary yarn package (21); And friction roller (32) is rotatably installed on the maintenance end (24) of carriage (23), and is bearing in during operation on the circumference of auxilliary yarn package (21).

4. according to claim 2 or 3 described Texturing Machiness, it is characterized in that friction roller (32) is coupled to motor (33).

5. Texturing Machines according to claim 4 is characterized in that, motor (33) is maintained at the stiff end (25) of carriage (23) and locates; And between the stiff end (25) and maintenance end (24) of carriage (23), be formed with belt drive unit (34) on carriage (23), motor (33) is connected to friction roller (32) by means of this belt drive unit (34).

6. Texturing Machines according to claim 5 is characterized in that, motor (33) and friction roller (32) are maintained at a bracket side (40.1), and belt drive unit (34) is maintained at relative bracket side (40.2).

7. Texturing Machines according to claim 6 is characterized in that, with outer cover (36) belt drive unit (34) and external environment is isolated.

8. Texturing Machines according to claim 1 is characterized in that, the sensor bracket (38) with yarn sensor (39) is maintained on the carriage (23), and is set at the downstream of package carriage assembly (26) on the travel path of yarn.

9. Texturing Machines according to claim 1 is characterized in that, carriage (23) is fixed to anamorphic attachment for cinemascope (8) and is arranged on a part of frame (7) of extending between the guidance unit (9) in anamorphic attachment for cinemascope (8) downstream.

10. Texturing Machines according to claim 9, it is characterized in that carriage (23), the guidance unit (9) that is arranged on anamorphic attachment for cinemascope (8) downstream and the interlacing apparatus (15) of anamorphic attachment for cinemascope (8), auxilliary yarn station all are arranged on the rack unit (7.3) of same vertical location by the mode of arranging up and down.

11. Texturing Machines according to claim 10, it is characterized in that, under the situation that two the above machining areas are arranged, the carriage (23) of the auxilliary yarn station (20) of each adjacent machining area all is maintained on the same crossbeam (27) of rack unit (7.3) of vertical location.

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