CN101479412A - Texturing machine - Google Patents

Abstract

A texturing machine is described for texturing and reeling a plurality of threads which is composed of two machine halves. The machine halves are placed against one another in a mirror-image manner and have respectively several operating points with several process units for texturing and reeling several threads. Heating devices thereby face one another in a symmetry plane, which heating devices can be controlled and regulated separately from one another in the machine halves. In order to obtain a compact, space-saving construction and also avoid heat losses, the heating devices of the two machine halves are arranged jointly in the symmetry plane in an insulating housing according to the invention, a heat barrier being embodied inside the insulating housing between the heating devices. Individual settings in the heating devices are thus possible without impacting one another.

Description

Texturing Machines

Technical field

The present invention relates to a kind ofly be used to be out of shape and the Texturing Machines of coiling multiplicity of filaments according to claim 1 as described in the preamble.

Background technology

By being known that a kind of this type of Texturing Machines among the WO 98/33963.

Known Texturing Machines has a large amount of processing stations, to make the multiplicity of filaments distortion simultaneously and to be wound into reel.At this, operation unit for example pay-off, heater, cooling device, distortion unit and coiler device is maintained in the frame.For this reason, each processing stations and therefore the operation unit be divided into two machine half ones, wherein machine half one is that mirror images of each other are provided with symmetrically.This structure has been realized a high relatively space utilization, to obtain a favourable ratio between the space requirement of the quantity of processing stations and machine.At this, but each processing stations in the inside independent operation of machine half one so that the operation unit is driven independently of each other and controls in machine half one.Therefore in known Texturing Machines, the plane of symmetry is between machine half one and be maintained at a separation between the operation unit in machine half one, so that can carry out independent adjusting in each processing stations according to the filamentary material that is provided.

The two-shipper device that such symmetry constitutes has been exactly known since for a long time in the prior art, and for example by learning among the US 4 581 884.

Therefore but old-fashioned Texturing Machines is to be designed for, in all processing stations and long filament is out of shape with identical parameter with identical process adjustments and reels.For high as far as possible integration and the therefore space utilization as well as possible that keeps the operation unit, in the plane of symmetry, be provided with one by the common operation unit that uses of two machine half with the heater form.Such heater has guider and heater, so that heat the long filament group of two directed parallel simultaneously.Therefore this structure of operation unit and use are mandatoryly to be associated with handling when all long filaments are in two machine half ones.Therefore can not be implemented in the independent adjusting of the operation unit within machine half one.

Summary of the invention

The objective of the invention is at present, improve so a kind of this type be used to be out of shape and the Texturing Machines of coiling multiplicity of filaments, although make the possibility of the independent adjusting of operation unit in machine half one still realize the high conformability of operation unit and high space utilization.

Another object of the present invention is, selects a kind of setting of machine half one, and it reaches the effect of energy savings as far as possible.

According to the following solution of purpose of the present invention, promptly the heater of two machine half ones is co-located in the plane of symmetry in the insulation shell, and is designing a thermal boundary within this insulation shell between each heater.

Favourable improvement structure of the present invention is limited by the feature and the feature combination of each dependent claims.

The invention is characterized in that reduce the insulation expense that heat loss is avoided in for heater common being used to significantly, wherein each adjacent heater obtains a common insulation with respect to surrounding environment in machine half one.For fear of within the insulation shell in the opposed processing stations of machine half one the thermoregulator of long filament influence each other, between heater the design thermal boundary.Device as thermal boundary thinks that this device stops the heat conduction between heater.It is important in this that, set heat treatment realization with can't help adjacent heater decision by relevant heater to the long filament of heater.

Because heater is preferably constructed like this, plurality of threads is directed simultaneously as one group and heats, thermal boundary is extending on the overall with of heater and total length within the insulation shell basically in improvement of the present invention structure, and this improvements is constructed and guaranteed not have long filament to be subjected to the heat treatment of not expected owing to the heat radiation of an adjacent heater.

The maximum temperature that adjacent machine half one has a long filament for the adjustment that does not have long filament in one of machine half one is regulated in the extreme case of ground running, keeping one in the processing of long filament influences each other unintentionally, according to a preferred structure that improves of the present invention, thermal boundary between heater is designed to like this, and promptly long filament is heated to maximum temperature less than 80 ℃ in the heater that be not activated when having only the running of heater.Even therefore also avoided the thermal change of not expected under the situation of the maximum heating of adjacent long filament in adjacent heater by thermoregulator long filament.

Advise that preferred an improvement in the structure of the present invention constitute thermal boundary by an air-gap, this thermal boundary is by being connected with surrounding environment at least one opening on the bottom surface of insulation shell and another opening on the insulation shell end face.Therefore realized basically that two kinds of effects advantageously avoid the heat conduction between heater.Be known that air has poor thermal conductivity with respect to other material on the one hand, so that reach high insulating effect by thermal boundary.On the other hand, downwards and upwards open air-gap caused the stack effect of a nature so that within air-gap with surrounding environment generation air exchange, this air exchange causes a favourable thermal output.Therefore obviously improved the effect of thermal boundary.

In order to obtain an air-flow on the overall with that acts on air-gap equably, preferably relate to into slit shape with opening on end face in the bottom surface, and extend on the overall with of air-gap with identical size basically.

In the following cases, wherein machine half one turns round in heater by the long filament of regulating through uniform temp basically, the following heat that distributes by air-gap avoided, promptly according to a favourable improvement structure of the present invention, the opening on the end face of insulation shell is designed to pass through a movably closed with covers.Therefore thermal boundary be designed to can according to the operating condition in machine half one and selected parameter by the lid of opening be high activity or be reduced by the lid of closing.

Heater special an insulation cheaply and effectively of environment towards periphery provides by improvement structure of the present invention, improve structure by this, insulation shell has two by plate shape shell wall insulated cavity that constitute, that be used to hold heater, wherein this insulated cavity has the insulating materials of at least a parcel heater, and wherein thermal boundary is set between the insulated cavity.Therefore the heat loss of not expected on the heater can be reduced to minimum.

The heater that is set in the plane of symmetry of anamorphic attachment for cinemascope is preferred for so-called long filament shrink process, and wherein long filament is transported in the heater by a slight transmission.In order still to ensure the adjustment of a reliable long filament guiding and long filament at this, the structure decision design of Texturing Machines has heater, described heater respectively has one group of heating (little) pipe that is used for heated yarn, and wherein heating tube is heated by a heat medium that is equipped on corresponding heater jointly.

As a kind of heat-carrying agent of heat medium advantageous applications, this heat-carrying agent is directed on the outer wall of heating tube by means of a heat-carrying loop.At this, the heat-carrying loop of two heaters can be regulated independently of each other and can regulate until the maximum temperature in 280 ℃ of scopes.

Description of drawings

In order further to explain the present invention, below with reference to the embodiment of accompanying drawing detailed description according to Texturing Machines of the present invention.In the accompanying drawing:

Fig. 1 schematically illustrates the sectional elevation according to first embodiment of Texturing Machines of the present invention;

Fig. 2 schematically illustrates a view that is maintained at a heater in the insulation shell;

Fig. 3 schematically illustrates a sectional elevation of the heater that is maintained in the insulation shell; And

Fig. 4 schematically illustrates another embodiment that is maintained at a heater in the insulation shell.

The specific embodiment

Letter illustrates the sectional elevation according to one first embodiment of Texturing Machines of the present invention in Fig. 1.Texturing Machines has machine half one that two mirror images are arranged side by side symmetrically.Machine half one on the left side is with Reference numeral 1 expression, and machine half one on the right is with Reference numeral 2 expressions.In next step process of this specification, the operation unit and the device feature that set to each machine half one are additionally provided with Reference numeral 1 or 2, machine half one of subordinate to indicate.

Each machine half one 1 and 2 comprises a plurality of processing stations, so that respectively be out of shape in each processing stations and the threads of reeling.In the view shown in Fig. 1, the long filament flow process of a processing stations is shown respectively in each machine half one 1 and 2.Machine half one 1 with 2 in the vertical-in Fig. 1 the figure paper plane identical with transverse plane-have other processing stations, so that parallel distortion and winding several threads simultaneously abreast.Interior roll winding apparatus in machine half one 1 and 2 occupies the width of three processing stations, so that each three coiler device is set up up and down in a post (Saeule) overlappingly by layer.

Therefore, sectional elevation shown in Figure 1 has been represented the long filament flow process 2 in machine half one 1 and 2 opposed processing stations, the operation unit that wherein is used for tractive, guiding, distortion, the processing of long filament and reels required is maintained at a frame 4.1 and 4.2, wherein the frame 4.1 of machine half one 1 is keeping surrounding with part the relevant operation unit of long filament flow process in an operation path 20.1, and frame 4.2 is keeping surrounding with part the relevant operation unit of long filament flow process in an operation path 20.2 in machine half one 2.

According to the long filament flow process in the processing stations of machine half one 1 of on the left side the operation unit is described below.The layout of operation unit is that the mirror image symmetry is consistent in machine half one on the right, so that has therefore explained the structure of machine half one 2 on the right simultaneously.

In order in processing stations, to pull out long filament 40 and a tractive transport 6.1 to be set from a feeding bobbin 5 that is maintained at the bobbin cradle 3.1.Along the long filament flow process is a deformed region after tractive transport 6.1, comprises a distortion heater 7.1, a distortion cooler 8.1 and a distortion unit 9.1.At then stretching transport 10.1, vortex deformation device 11.1, feeding mechanism 12.1, heater 13.1, a typing transport 16.1 and a coiler device 17.1 thereafter.At this, above-mentioned operation unit can be fabricated and drive as the independent unit of each processing stations or as being used for the multiple unit of one group of processing stations.The operation unit ground that the operation unit of the processing stations in machine half one 1 can be independent of the processing stations of opposed machine half one 2 drives and controls.Therefore be deformed independently and by specific/individual predetermined value in the processing stations of machine half one 1 that each long filament can on the left side.

In order to guide long filament, other the formal long filament induction element of here not explaining in detail for thread guide and guide roller is set in the inside of processing stations, therefore for example passes through guide roller 19.1 guiding in the transition of long filament between distortion heater 7.1 and distortion cooler 8.1.The long filament induction element that further illustrates in Fig. 1 is no longer further explained at this.

In order to obtain the as far as possible compact layout of operation unit in machine half one 1 and 2, be arranged on a heater 13.1 and 13.2 in the plane of symmetry and remained on jointly in the insulation shell 14.For fear of influencing each other when carrying out adjustment, a thermal boundary 15 is set between heater 13.1 and 13.2 in the inside of insulation shell 14 by heater 13.1 and 13.2 pairs of long filaments.This thermal boundary 15 is represented by dotted lines in the inside of insulation shell 14 in Fig. 1.The structure of insulation shell 14 and heater 13.1 and 13.2 constitute thermal boundary 15, are explained in more detail further below.

Insulation shell 14 is maintained in frame 4.1 and 4.2 between the coiler device 17.1 and 17.2 of stratiform setting.At this, insulation shell 14 preferably also can be born the support function of frame 4.1 and 4.2, so that fixing for example coiler device 17.1 and 17.2.So in the zone line of machine half one 1 and 2, obtain a very compact layout generally, and special/individual use possibility and the adjusting possibility that does not hinder heater 13.1 and 13.2.

Texturing Machines shown in Figure 1 is suitable for being out of shape, stretching, shrink a kind of synthetic thread, and is wound into reel.At this, the operation unit is exemplary at the layout and the structure of machine half one 1 and 2 inside.Therefore for example also can be by the transport shown in the individual drive by transport replacement in groups as twining transport, long filament is carried by a driven feed spool therein.

The heater 13.1 and 13.2 that is maintained in the plane of symmetry of Texturing Machines is supported by insulation shell 14 with respect to surrounding environment, to avoid heat loss.In Fig. 2 and 3, the ground more detailed description is set among heater 13.1 and 13.2 structure such as Fig. 1.At this, Fig. 2 illustrates the schematic diagram of insulation shell 14 and besieged heater 13.1 and 13.2, and schematically illustrates the sectional elevation of insulation shell 14 and heater 13.1 and 13.2 in Fig. 3.The a certain accompanying drawing of short of concrete reference, following description is applicable to two accompanying drawings.

Insulation shell 14 is designed to rectangular parallelepiped shape, and constitutes by the side plate 26 and the end plate 36 of rectangle.Side plate 26 and end plate 36 seal by a cover plate 21 at base plate 22 of underrun and at end face.Heater 13.1 and 13.2 is set at the inside of insulation shell 14.Heater 13.1 and 13.2 is as so-called (little) tube heater structure, and it respectively has a heated heating (little) pipe for heated yarn.The heating tube 28.1 of heater 13.1 respectively stretches out from insulation shell 14 with an arrival end and a port of export.Heater 13.1 has a plurality of heating tubes 28.1, so that simultaneously a sets of filaments is carried out adjustment.In this embodiment, heater 13.1 is furnished with seven heating tubes 28.1 of total.At this, heater 13.1 is parallel to the setting of one of side plate 26 of insulation shell 14.

On the opposed side of insulation shell, second heater 13.2 with same configuration is parallel to opposed side plate 26 and is held.Heater 13.2 has a plurality of heating tubes 28.2 equally, and they stretch out from insulation shell 14 respectively with its arrival end and the port of export.Heating tube 28.1 is designed to the hollow cylinder bodily form, comprises open end, so that long filament is in order to heat by heating tube 28.1 and 28.2.

In the inside of insulation shell 14, thermal boundary 15 of structure between heater 13.1 and 13.2.In the embodiment shown in Fig. 2 and 3, thermal boundary 15 constitutes by an air-gap that extends on the total length of heater 13.1 and 13.2 and overall with basically 24.The opening 25 of this air-gap below opening 23 above in cover plate 21 and in base plate 22 one is connected with surrounding environment.Above opening 23 and following opening 25 be designed to slit shape and on the overall with of air-gap 24, extend basically.

As shown in FIG. 3, heater 13.1 and 13.2 respectively is arranged on one in the insulated cavity that the inside of insulation shell 14 constitutes.Heater 13.1 is set in the insulated cavity 27.1, and heater 13.2 is set in the insulated cavity 27.2.In order to constitute insulated cavity 27.1 and 27.2, two demarcation strips 37 are set in the inside of insulation shell 14, these two demarcation strips are parallel to side plate 26 and extend, and constitute air-gap 24 between it.

Heater 13.1 is identical with 13.2 structural design, so that in order to explain this device, describes heater 13.1 in more detail.Heating tube 28.1 passes insulation crust 14 up to base plate 22 from cover plate 21.Inside at insulated cavity 27.1 is provided with heat medium, and this heat medium is from the described heating tube 28.1 of external heat.As heat medium, use for example a kind of Diphyl of a kind of heat-carrying agent at this.In order to guide thermal liquid and in order to heat heating tube 28.1, to be provided with one and to be the distribution cavity 29 of pipeline in insulated cavity 27.1 in upper area in form, this distribution cavity is penetrated by heating tube 28.1.Distribution cavity 29 connects with a heat-carrying loop by an inlet 34.

A collection chamber 30 is set in the lower area of insulated cavity 27.1, and this collection chamber is penetrated by heating tube 28.1 equally.This collection chamber 30 is connected in this heat-carrying loop that is not shown specifically with one by an outlet 35.Top distribution cavity 29 and following collection chamber 30 interconnect by a plurality of sleeve pipes 31, and these sleeve pipes are provided with coaxially with heating tube 28.1 basically and surround heating tube fully at this.Therefore each heating tube 28.1 can heat equably by the heat-carrying agent that is directed in sleeve pipe 31.

Distribution cavity 29, collection chamber 30 and sleeve pipe 31 wrap up with a kind of insulating materials 33 in the inside of insulated cavity 27.1, to avoid the heat loss of environment towards periphery as far as possible.Can application examples such as a kind of glass wool as insulating materials 33.

Heater 13.1 and heater 13.2 are same configuration, and wherein heating tube 28.1 and heating tube 28.2 are heated by the heat-carrying loop that separates, and these heat-carrying loops can be regulated and control independently of each other.

As seen from Figure 1, insulation shell 14 is maintained in the plane of symmetry like this, and promptly the heating tube 28.1 and 28.2 of heater 13.1 and heater 13.2 is substantially perpendicularly directed.Therefore can advantageously followingly improve thermal boundary 15, promptly because a kind of natural stack effect, inside at air-gap 24 forms an air-flow, wherein the air-flow that is entered by the following opening 25 in the base plate 22 by surrounding environment is responsible for, and makes by opening 23 and surrounding environment generation air exchange above in cover plate 21.Therefore can in Texturing Machines, set up operating condition, these operating conditions make it possible to have heat treatment ground and make and a kind of curling long filament of reeling in machine half one, and do not have heat treatment ground to make and a kind of curling long filament of reeling in adjacent machine half one.At this, the long filament that guides by the heater that is not activated is not heated significantly.Irrelevant with the structure of thermal boundary, this thermal boundary for example also can constitute by a kind of insulating materials, and therefore importantly, under the situation of having only the running of one of heater, long filament is heated to one＜80 ℃ maximum temperature in the heater that is not activated.Therefore guarantee, the thermal change of not expected on not heated long filament, do not occur.

For in following operating condition, the heat treatment of curling long filament wherein takes place in two machine half ones of Texturing Machines, avoid the heat loss do not expected, an insulation shell shown in Figure 4 14 and built-in heater 13.1 and another embodiment of 13.2 for example can use in the Texturing Machines as Fig. 1 as it.Embodiment shown in Figure 4 is identical with the embodiment shown in Fig. 2 and 3 basically, thereby following is explained difference, and please refer to above description in addition.

Among the embodiment of insulation shell shown in Figure 4, the thermal boundary 15 between heater 13.1 and 13.2 is same by an air-gap 24 formations.This air-gap 24 is connected with surrounding environment by the opening 23 above opening 25 below in base plate 22 and in cover plate 21 one.A lid 38 is maintained on the cover plate 21, and this lid is adjustable by a swinging axle 39 between the two positions.In the position shown in Figure 4, lid 38 abuts on the cover plate 21 by a longitudinal side.Opening 23 on this constitutes in cover plate 21 is by covering 38 sealings.

In the position of lid 38 a deflection, this position is shown in dotted line in Fig. 4, and lid 38 is by in company with being directed in the position, and the opening 23 in this position in cover plate 21 is open and is connected with surrounding environment.Therefore the heat transfer process that produces in air-gap 24 by stack effect can be regulated according to operating condition.For following situation, promptly heater 13.1 and 13.2 is regulated by substantially the same running and is activated, and the opening 23 above in cover plate 21 seals by cover 38.Therefore in thermal boundary 15, do not produce heat exchange.

For following situation, promptly the adjustment of the long filament that only expectation is curled in one of machine half one in Texturing Machines is covered 38 and is maintained on the insulation shell 14 in the state of opening.Therefore in thermal boundary 15, produce desirable heat exchange.

Lid 38 form of implementation be exemplary by a swinging axle 39 with being connected of heater 13.1 or 13.2.Also have following possibility in principle, lid 38 is positioned on the opening 23 of cover plate 21 as independent member, can be removed fully thereby cover 38 when needed.

Type, structure and layout by the operation unit of the Texturing Machines inside of Fig. 1 are exemplary.The present invention had both extended to part and had also extended to automatic Texturing Machines automatically in principle.The present invention has realized Texturing Machines a kind ofly uses flexibly, and machine half one can be independent therein/be used, to make the long filament of different distortion individually.Can advantageously cancel and being used in one of machine half one or two repackings that machine half one removes or a heater is installed.Therefore each machine half one can both have or not turn round with the heater ground that is activated.Also be not limited in this present invention, heater constitutes by a so-called tube heater.Direct contact heater or contactless heater by electrical heating long filament induction element also can advantageously be used.Equally, the quantity by a simultaneously treated long filament of heater also is exemplary.Therefore heater also can be implemented the independent processing that is used for long filament.

List of numerals

Machine half 21 cover plates on 1 left side

Machine half 22 base plates on 2 the right

3.1,23 upper sheds of 3.2 bobbin cradles

4.1,4.2 frames, 24 air-gaps

5 feeding bobbins, 25 under sheds

6.1,6.2 tractive transports, 26 side plates

7.1,7.2 distortion heaters 27.1,27.2 insulated cavities

8.1,8.2 distortion coolers 28.1,28.2 heating tubes

9.1,9.2 distortion units 29 distribution cavity

10.1,10.2 stretching transports, 30 collection chambers

11.1,11.2 vortex deformation devices, 31 sleeve pipes

12.1,12.2 feeding mechanisms, 33 insulating materials

13.1,13.2 heaters 34 inlet

35 outlets of 14 insulation shells

15 thermal boundarys, 36 end plates

16.1,16.2 typing transports 37 demarcation strips

17.1,17.2 coiler devices 38 lid

18 reels, 39 swinging axles

19.1,19.2 guide rollers, 40 long filaments

20.1,20.2 the operation paths

Claims (10)

1. Texturing Machines, be used for distortion and coiling multiplicity of filaments, comprise two machines, half one (1,2), these two machines, half mirror images of each other are settled symmetrically and are had a plurality of processing stations and a plurality of operation unit respectively and are used for distortion and winding several threads, wherein towards the operation unit of a plane of symmetry by heater (13.1,13.2) constitute, and the heater (13.1) of one of them machine half one (1) can be independent of the adjacent heater of another machine half one (2) to be handled and regulates (13.2), it is characterized in that, two machine half ones (1,2) heater (13.1,13.2) in the plane of symmetry, be set at jointly in the insulation shell (14), and in the inside of insulation shell (14) at heater (13.1,13.2) between the structure thermal boundary (15).

2. Texturing Machines as claimed in claim 1 is characterized in that, described thermal boundary (15) extends on the overall with of heater (13.1,13.2) and total length basically in the inside of insulation shell (14).

3. Texturing Machines as claimed in claim 1 or 2, it is characterized in that, described thermal boundary (15) between heater (13.1,13.2) is to create like this, promptly is heated in the heater that long filament be not activated when having only the running of one of heater (13.1,13.2)＜80 ℃ maximum temperature.

4. as the described Texturing Machines of one of claim 1 to 3, it is characterized in that, described thermal boundary (15) is made of an air-gap (24), and this air-gap is by being connected with surrounding environment at least one opening (25) on the bottom surface of insulation shell (14) and another opening (23) on the end face of insulation shell (14).

5. Texturing Machines as claimed in claim 4 is characterized in that, the opening (25) on bottom surface (22) and the opening (23) on end face (21) be designed to slit shape and basically on the width of air-gap (24) size extend in the same manner.

6. as claim 4 or 5 described Texturing Machiness, it is characterized in that the opening (23) on the end face (21) of insulation shell (14) is designed to can be by movably lid (a 38) sealing.

7. as the described Texturing Machines of one of claim 1 to 6, it is characterized in that, insulation shell (14) has two insulated cavities (27.1,27.2) that constitute by the shell wall (26,37) of plate shape, be used to hold heater (13.1,13.2), wherein insulated cavity (27.1,27.2) has the insulating materials (33) of at least a parcel heater (13.1,13.2), and wherein thermal boundary (15) is set between the insulated cavity (27.1,27.2).

8. as the described Texturing Machines of one of claim 1 to 7, it is characterized in that, each heater (13.1,13.2) has one group of heating tube (28.1,28.2) and is used to heat plurality of threads, and wherein heating tube (28.1,28.2) is heated by the heat medium that is equipped on each self-heating apparatus (13.1,13.2) jointly.

9. Texturing Machines as claimed in claim 8 is characterized in that, heat medium constitutes by a kind of heat-carrying agent, and it is directed on the outer wall of heating tube (28.1,28.2) by means of a heat-carrying loop (34,35).

10. Texturing Machines as claimed in claim 9 is characterized in that, each the heat-carrying loop (34,35) that is equipped on heater (13.1,13.2) can be regulated and control independently of one another.

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