CN105401280A - False twist processing machine - Google Patents

Abstract

The invention discloses a false twist processing machine, and a cooling device is configured at a proper position which is corresponding to the configuration of a twisting device. A plurality of first cooling devices (41a) and a plurality of second cooling devices (41b) are alternately arranged in a direction of a long side of a machine body. The second cooling devices (41b) are configured higher than the first cooling devices (41a). Each cooling device is provided with a pair of opposite parts (51a, 51b) which are arranged in a width direction of the machine body at an interval (51c), and an independent pipe (52) which is provided with an internal space (52a) communicated with the interval (51c). Two communicated pipes (42, 43) which extend in the direction of the long side of the machine body are arranged to be higher than the plurality of cooling devices. The intervals of the first cooling devices (41a) are communicated with the internal space (42) of the first communicated pipe (42) through the independent pipe and a first connection pipe (44), and the intervals of the second cooling devices (41b) are ccommunicated with the internal space (43a) of the second communicated pipe (43) through the independent pipe and a second connection pipe (45).

Description

False twist processing machine

Technical field

The present invention relates to false twist processing machine yarn being applied to false twisting.

Background technology

False twist processing machine described in patent document 1 is being provided with the 1st heater (being equivalent to " the 1st heater " and " the 2nd heater " of the application) from yarn-feeding device and bobbin cradle to the yarn path of coiler device, cooling device (being equivalent to " cooling unit " of the application), false-twisting device (being equivalent to " twisting apparatus " of the application), 2nd heater (being equivalent to " the post bake unit " of the application), the devices such as finish applicator, these devices are provided with the amount of multiple span on body long side direction using the amount of 12 spindles as 1 span.In addition, in the cooling device (being equivalent to " cooling unit " of the application) of patent document 1, in the side of the pipeline extended along above-mentioned body long side direction, be provided with the multiple cooling ends (being equivalent to " cooling device " of the application) using the amount of 2 yarns as 1 group.Each cooling end has: the fixation wall parts being fixed on the side of pipeline; And to separate the state that configures with gap to be installed on fixation wall parts movable wall member in the mode that can dismantle on the long side direction of pipeline with fixation wall parts.The narrow longitudinal trough (being equivalent to " intercommunicating pore " of the application) that fixation wall parts and the gap between movable wall member are formed via the part overlapping with above-mentioned gap of the side at pipeline is communicated with the inner space of pipeline.Pipeline is connected with scavenger fan (being equivalent to " air blast " of the application), if driving scavenger fan, in the inner space of pipeline, then produce the flowing of the air of long side direction, along with the flowing of this air, the gap between fixation wall parts and movable wall member produces the flowing towards the air of pipeline.Thus, the yarn of advancing in the fixation wall parts in multiple cooling end and the gap between movable wall member is cooled.In addition, the multiple yarns after being cooled are carried by towards false-twisting device (being equivalent to " twisting apparatus " of the application) respectively.

Patent document 1: Japanese Unexamined Patent Publication 11-107084 publication

Here, in the cooling device (being equivalent to " cooling unit " of the application) of false twist processing machine described in patent document 1, because the fixation wall parts being formed as cooling end are fixed in the structure of the side of pipeline, the position relationship between multiple cooling end therefore cannot be changed on the direction orthogonal with the side of pipeline.Therefore, such as, when in order to configure to high-density multiple false-twisting device (being equivalent to " twisting apparatus " of the application) and from body long side direction observe 2 false-twisting devices (be equivalent to " twisting apparatus " of the application) adjacent at body long side direction are in staggered configuration, cooling end (being equivalent to " cooling device " of the application) cannot be configured in the misgivings with the corresponding appropriate location of configuration of false-twisting device (being equivalent to " twisting apparatus " of the application) by existence.

Summary of the invention

The object of the present invention is to provide and a kind ofly can will be used for being configured in the cooling device that yarn cools the false twist processing machine of the appropriate location corresponding to configuration of other devices etc.

False twist processing machine involved by 1st invention is carry out false twisting processing to multiple yarn, and body long side direction is longer, possesses: multiple heater, heats above-mentioned multiple yarn, multiple cooling device, is configured in the downstream of the above-mentioned multiple heater in the yarn path of yarn, cools above-mentioned multiple yarn, has a pair opposed parts separating gap arrangement on above-mentioned body long side direction, multiple twisting apparatus, is configured in the downstream of the above-mentioned multiple cooling device in the yarn path of yarn, to above-mentioned multiple Yarn twisting, and common pipeline, extend along above-mentioned body long side direction, there is the inner space be communicated with the above-mentioned gap in above-mentioned multiple cooling device, above-mentioned multiple cooling device is, multiple 1st cooling device and multiple 2nd cooling device are alternately arranged along above-mentioned body long side direction, observe from above-mentioned body long side direction, above-mentioned 1st cooling device and above-mentioned 2nd cooling device are in staggered configuration, above-mentioned 1st cooling device is positioned at and above-mentioned common pipeline opposition side relative to above-mentioned 2nd cooling device, this false twist processing machine also possesses multiple 1st connecting pipe roads of the inner space connecting above-mentioned gap in above-mentioned 1st cooling device and above-mentioned common pipeline.

According to the present invention, observe from body long side direction, 1st cooling device and the 2nd cooling device are in staggered configuration, thereby, it is possible to the 1st, the 2nd cooling device is configured on the yarn path of the angle of bend of the yarn that can remain suitable according to the configuration of other devices (twisting apparatus etc.) of formation false twist processing machine.In addition, in the present invention, the 1st cooling device is configured in relative to the 2nd cooling device opposition side of threading a pipe together, and therefore, the 1st cooling device is configured in the position left from common pipeline.But, multiple above-mentioned gap of the 1st cooling device and the inner space of common pipeline can be connected via the 1st connecting pipe road.

In addition, at least the 1st cooling device in the 1st cooling device and the 2nd cooling device leaves configuration from common pipeline.Be connected therefore, it is possible to is threaded a pipe respectively together with the gap of the 2nd cooling device in the gap of the 1st cooling device.And, when the gap in the gap of the 1st cooling device and the 2nd cooling device is connected with respective common pipeline, such as, when the yarn cooled by the 1st cooling device is different with the yarn variety (material, thickness etc.) of yarn that cooled by the 2nd cooling device, the cooling degree of the yarn in the 1st, the 2nd cooling device can be set as the suitable degree corresponding to yarn variety independently.

False twist processing machine involved by 2nd invention is, in the false twist processing machine involved by the 1st invention, also possesses multiple 2nd connecting pipe roads of the inner space connecting above-mentioned gap in above-mentioned 2nd cooling device and above-mentioned common pipeline.

According to the present invention, 1st cooling device and the 2nd these both sides of cooling device can be left configuration from common pipeline, therefore, 1st, the free degree of the configuration of the 2nd cooling device is high, the 1st, the 2nd cooling device can be configured on the yarn path of the angle of bend of the yarn that can remain suitable according to the configuration of twisting apparatus etc. more reliably.

False twist processing machine involved by 3rd invention is, in the false twist processing machine involved by the 1st or the 2nd invention, as above-mentioned common pipeline, possesses: the 1st common pipeline, has the inner space be communicated with the above-mentioned gap in above-mentioned multiple 1st cooling device; And the 2nd common pipeline, there is the inner space be communicated with the above-mentioned gap in above-mentioned multiple 2nd cooling device.

According to the present invention, the flow velocity etc. of the air flowed in inner space can be set in independently, therefore, it is possible to the amount being set in the air flowed in the above-mentioned gap of the 1st cooling device independently and the amount of air flowed in the above-mentioned gap of the 2nd cooling device in the 1st common pipeline and the 2nd common pipeline.Therefore, it is possible to make the cooling degree of yarn different in the 1st cooling device with the 2nd cooling device.Thus, such as, when the yarn cooled by the 1st cooling device is different with the yarn variety (material, thickness etc.) of yarn that cooled by the 2nd cooling device, the cooling degree of the 1st, the 2nd yarn in the 1st, the 2nd cooling device can be set as the suitable degree corresponding to yarn variety independently.

False twist processing machine involved by 4th invention is, in the false twist processing machine involved by the 3rd invention, also possesses: the 1st air blast, is connected with the above-mentioned inner space of above-mentioned 1st common pipeline; 2nd air blast, is connected with the above-mentioned inner space of above-mentioned 2nd common pipeline; And control device, control above-mentioned 1st air blast and above-mentioned 2nd air blast independently.

According to the present invention, the 1st air blast be connected with the inner space of the 1st common pipeline and the 2nd air blast be connected with the inner space of the 2nd common pipeline is controlled independently, the amount that can control the air flowed in the gap of the 1st cooling device independently and the amount of air flowed in the gap of the 2nd cooling device by utilizing control part.Thereby, it is possible to the cooling degree of the 1st, the 2nd yarn in the 1st, the 2nd cooling device is set as the suitable degree corresponding to yarn variety independently.

False twist processing machine involved by 5th invention is, in false twist processing machine involved by arbitrary invention in the 1st ~ 4th invention, also possess: multiple doubling device, be configured in the position comparing above-mentioned multiple heater, above-mentioned multiple cooling device and above-mentioned multiple twisting apparatus downstream in the yarn path of yarn, distinguish doublings by by adjacent above-mentioned 1st cooling device and cooled 2 one threads of above-mentioned 2nd cooling device; And multiple coiler device, be configured in the position comparing above-mentioned doubling device downstream in the yarn path of yarn, the yarn after the doubling that reels respectively.

According to the present invention, such as, when observing when being used for being in staggered configuration 2 twisting apparatuss that 2 one threads reeled by 1 coiler device are twisted from body long side direction, 1st, 2nd cooling device corresponding to these 2 twisting apparatuss can be configured in the suitable position etc. corresponding with the configuration of these 2 twisting apparatuss, 1st, 2nd cooling device corresponding with 1 coiler device can be configured on the yarn path of the angle of bend of the yarns Y that can remain suitable according to the configuration of other devices corresponding with 1 coiler device.

Invention effect

According to the present invention, the 1st, the 2nd cooling device can be configured on the yarn path of the angle of bend of the yarn that can remain suitable according to the configuration of other devices (twisting apparatus etc.) of formation false twist processing machine.In addition, in the present invention, the 1st cooling device is configured in the position left from common pipeline, but the inner space threaded a pipe together in the above-mentioned gap that it is possible to connect multiple 1st cooling device via the 1st connecting pipe road.

In addition, when the gap in the gap of the 1st cooling device and the 2nd cooling device is connected with respective common pipeline, such as, when the yarn cooled by the 1st cooling device is different with the yarn variety (material, thickness etc.) of yarn that cooled by the 2nd cooling device, the cooling degree of the yarn in the 1st, the 2nd cooling device can be set as the suitable degree corresponding to yarn variety independently.

Accompanying drawing explanation

Fig. 1 is the general principal view of the false twist processing machine involved by embodiments of the present invention.

Fig. 2 is the figure of the structure illustrated from the heating unit of top view, cooling unit and twisting apparatus.

Fig. 3 is the sectional view of the III-III line along Fig. 2.

In Fig. 4, (a) is the sectional view of the IVA-IVA line along Fig. 3, and (b) is the sectional view of the IVB-IVB line along Fig. 3.

In Fig. 5, (a) is the sectional view of the VA-VA line along Fig. 2, and (b) is the sectional view of the VB-VB line along Fig. 2.

In Fig. 6, (a) is the figure after being amplified by 1 of Fig. 5 cooling device, and (b) illustrates the figure of the state after the opposed parts dismounting of a side in (a).

In Fig. 7, a () is the figure observing (a) of Fig. 6 from the direction of arrow VIIA, b () is the figure observing (b) of Fig. 6 from the direction of arrow VIIB, (c) is the figure observing the opposed parts after the dismounting of (b) of Fig. 6 from the direction of arrow VIIC.

In Fig. 8, (a) is the sectional view of the VIIIA-VIIIA line along Fig. 5, and (b) is the sectional view of the VIIIB-VIIIB line along Fig. 2.

Fig. 9 is the figure of the structure of the coiler device illustrated from top view, and (a) illustrates the state during yarn after winding doubling, and (b) illustrates state when not carrying out doubling to yarn and reel respectively.

In Figure 10, (a) is the figure suitable with (a) of Fig. 8 of variation 1, and (b) is the figure suitable with (b) of Fig. 8 of variation 1.

In Figure 11, (a) is the figure suitable with (a) of Fig. 8 of variation 2, and (b) is the figure suitable with (b) of Fig. 8 of variation 2.

In Figure 12, (a) is the figure suitable with (a) of Fig. 8 of variation 3, and (b) is the figure suitable with (b) of Fig. 8 of variation 3.

In Figure 13, (a) is the figure suitable with Fig. 3 of variation 4, and (b) is the figure suitable with Fig. 3 of variation 5.

Figure 14 is the figure suitable with Fig. 3 of variation 6.

Label declaration

1 false twist processing machine

24 twisting apparatuss

24a the 1st twisting apparatus

24b the 2nd twisting apparatus

26 doubling devices

32a the 1st heater

32b the 2nd heater

35 heat blocks

36 heat generating components

38 yarns are advanced groove

41 cooling devices

41a the 1st cooling device

41b the 2nd cooling device

42 the 1st common pipelines

43 the 2nd common pipelines

44 the 1st connecting pipe roads

45 the 2nd connecting pipe roads

60 coiler devices

111 common pipelines

121 the 1st common pipelines

122 the 2nd common pipelines

131 common pipelines

132 the 1st connecting pipe roads

Detailed description of the invention

Below, the preferred embodiment of the present invention is described.

As shown in Figure 1, false twist processing machine 1 involved by present embodiment is each device (yarn feeding roller 20 described later of formation yarn-finished portion 12 described later, a heating unit 21, only twist with the fingers thread-carrier 22, cooling unit 23, twisting apparatus 24, tension pick-up 30, secondary yarn feeding roller 25, doubling device 26, post bake unit 27, three yarn feeding rollers 28 etc.) respectively with from bobbin cradle 11 by yarn-finished portion 12 until the running face (paper of Fig. 1) of yarn that is configured of the yarn path of winder 13 is orthogonal, the body long side direction (direction vertical with the paper of Fig. 1) of level is arranged with multiple devices long on body long side direction.In addition, below, by orthogonal with body long side direction and the direction of level (left and right directions of Fig. 1) is defined as " body width ", the direction (above-below direction of Fig. 1) that acted on by gravity is defined as vertical and is described.In addition, nearby side in the direction orthogonal with the paper of Fig. 1 and depth side are defined as respectively " nearby the side ", " depth side " of body long side direction, the upside of Fig. 1 and downside are defined as respectively " upside ", " downside " of vertical and are described.In addition, in false twist processing machine 1, the mode that bobbin cradle 11, yarn-finished portion 12 and winder 13 become outside with bobbin cradle 11 side configures symmetrically at body width.In addition, the action of false twist processing machine 1 is controlled by control device 10.

Bobbin cradle 11 possesses multiple creel 11a.Multiple creel 11a keeps yarn feeding package S respectively.

Yarn-finished portion 12 possesses a yarn feeding roller 20, heating unit 21, only twists with the fingers thread-carrier 22, cooling unit 23, twisting apparatus 24, tension pick-up 30, secondary yarn feeding roller 25, doubling device 26, post bake unit 27, three yarn feeding rollers 28 etc.

One time yarn feeding roller 20 is provided with multiple relative to the multiple yarns Y supplied from yarn feeding package S independently, and arranges along body long side direction.One time the yarns Y of correspondence is carried towards a heating unit 21 by yarn feeding roller 20.A heating unit 21 is configured in the downstream of a yarn feeding roller 20 in the yarn path of yarns Y.Heating unit 21 arranges 1 relative to 4 often adjacent one thread Y in the multiple yarns Y transported from yarn feeding roller 20, and arranges along body long side direction.The 4 one thread Ys of each heating unit 21 to correspondence heat.

The detailed construction of a heating unit 21 is described.As shown in Figure 1 to 4, a heating unit 21 possesses casing 31,2 the 1st heater 32a, 2 the 2nd heater 32b and multiple insulations 33.

Casing 31 is parts of the rectangular shape using body width as long side direction.The accommodation space 31a in lower end and body width both ends open is formed in the inside of casing 31.

2 the 1st heater 32a and 2 the 2nd heater 32b are incorporated in accommodation space 31a.In addition, 2 the 1st heater 32a and 2 the 2nd heater 32b are alternately arranged at body long side direction.In addition, the 1st heater 32a and the 2nd heater 32b is in staggered configuration in vertical, and thus, the 2nd heater 32b entirety is positioned at the position comparing the 1st top side of heater 32a.In addition, 2 the 1st heater 32a and 2 the 2nd heater 32b lay respectively at identical height.Thus, 2 the 1st heater 32a and 2 the 2nd heater 32b are in zigzag configuration.

Here, different from present embodiment, such as, also consider a heating unit 21 to be formed as in the accommodation space 31a of 1 casing 31, be accommodated with 1 the 1st heater 32a and 1 the 2nd heater 32b as variation 4 ((a) with reference to Figure 13) described later.In this case, 1 casing 31 is needed relative to 2 heaters (1 the 1st heater 32a and 1 the 2nd heater 32b).On the other hand, in the present embodiment, 2 the 1st heater 32a and 2 the 2nd heater 32b is accommodated with at the accommodation space 31a of 1 casing 31.Therefore, in the present embodiment, 1 casing 31 is needed relative to 4 heaters (2 the 1st heater 32a and 2 the 2nd heater 32b).Thus, in the present embodiment, be accommodated with 1 the 1st heater 32a with the accommodation space 31a at 1 casing 31 to compare with the situation of 1 the 2nd heater 32b, the quantity (being only about half of) of the casing 31 of false twist processing machine 1 entirety can be reduced, false twist processing machine 1 can be made miniaturized at body long side direction.

Each heater 32a, 32b possess upstream side heating part 34a and heating part, downstream 34b respectively.Heating part, downstream 34b is configured in the downstream (inner side of body width) of the upstream side heating part 34a in the yarn path of yarns Y.In addition, upstream side heating part 34a and heating part, downstream 34b possesses heat block 35, heat generating components 36, temperature sensor 37 respectively.

Heat block 35 is made up of metal material, using body width as the parts of the rectangular shape of long side direction.But the heat block 35 forming heating part, downstream 34b is longer in the length of body width than the heat block 35 forming upstream side heating part 34a.In addition, as mentioned above, the 2nd heater 32b entirety is positioned at the upside of the 1st heater 32a.Thus, the heat block 35 of the 1st heater 32a and the heat block 35 of the 2nd heater 32b are observed from body long side direction and are in staggered configuration in vertical with the even all nonoverlapping degree in local.

In addition, in heat block 35, be formed with yarn to advance groove 38.Yarn groove 38 of advancing is formed at central portion on the body long side direction of heat block 35, extends in the total length of body width throughout heat block 35, and at the both ends open of lower end and body width.In addition, be provided with in groove 38 advanced by yarn and be made up of ceramic material etc. and separate arbitrary spaced multiple thread-carrier 71 along body width.The yarns Y of advancing in groove 38 advanced by yarn is guided by multiple thread-carrier 71, thus to advance along body width in groove 38 advanced by yarn with the discontiguous mode of heat block 35.

In addition, to advance the part just gone up of groove 38 at the yarn that is positioned at of each heat block 35, be formed body width throughout the total length of heat block 35 extend and body width both ends open, for inserting the inserting hole 39 of heat generating components 36.In addition, each heat block 35 upper surface, central portion on body long side direction and body width, be formed with recess 40.

Here, heat block 35 is by forming the block sheet 35a of the nearby side half part on body long side direction and forming the block sheet 35b joint of depth side half part and formed.And, block sheet 35a is formed yarn to advance the nearby side half part of the nearby side half part of groove 38, the nearby side half part of inserting hole 39 and recess 40, block sheet 35b is formed yarn and advances the depth side half part of the depth side half part of groove 38, the depth side half part of inserting hole 39 and recess 40.

Heat generating components 36 is nichrome wire heater, sheath heater etc., and is inserted through inserting hole 39.In addition, heat generating components 36 is drawn by from inserting hole 39 towards the both sides of body width, and gives circuit 29 with electric current and be connected.

Electric current imparting circuit 29 is the circuit for making heat generating components 36 flow through electric current.And make heat generating components 36 flow through electric current if utilize electric current to give circuit 29, then heat generating components 36 generates heat, and heat block 35 is heated.In addition, electric current gives the electric current that circuit 29 is formed as flowing in the heat generating components 36 of each heat block 35 that can change independently in each 1st heater 32a and each 2nd heater 32b.

Temperature sensor 37 is incorporated in the recess 40 of heat block 35.Temperature sensor 37 is parts of the temperature for detecting heat block 35.

Multiple insulation 33 is accommodated with the gap of the accommodation space 31a of 2 the 1st heater 32a and 2 the 2nd heater 32b mode with landfill configures.But multiple insulation 33 configures to avoid the advance mode of part of downside of groove 38 of yarn in accommodation space 31a, that be positioned at each heat block 35.Thus, the downside of groove 38 of advancing at the yarn of each heat block 35, is formed with the slit 19 of the both ends open at the lower end of vertical and body width.Thereby, it is possible to insert yarns Y from downside via slit 19 towards yarn groove 38 of advancing.

And, in the 4 one thread Y advanced in 1 heating unit 21, advance groove 38 advanced by the yarn of 2 the 1st heater 32a from the nearly front the 1st of body long side direction, the 3rd this 2 one thread Y.In addition, in this 4 one thread Y, advance groove 38 advanced by the yarn of 2 the 2nd heater 32b from the nearly front the 2nd of body long side direction, the 4th this 2 one thread.And the yarns Y of advancing in groove 38 advanced by yarn to be advanced the heat in groove 38 and being heated by the yarn of heat block 35.

Only twisting with the fingers thread-carrier 22 is provided with multiple relative to multiple yarns Y independently, and is configured in the tight upstream side of a heating unit 21 in the yarn path of yarns Y.In addition, these multiple thread-carriers 22 of only twisting with the fingers arrange along body long side direction.Only twisting with the fingers thread-carrier 22 is only twist with the fingers the parts of thread-carrier 22 by the position of upstream side when twisting yarns Y as described later for preventing from twisting with the fingers being passed to compare.Here, only twist with the fingers thread-carrier 22 and arrange 1 relative to every 1 one thread.

Cooling unit 23 is configured in the downstream of a heating unit 21 in the yarn path of yarns Y.Cooling unit 23 possesses cooling device 41, the 1st common pipeline 42, the 2nd common pipeline 43, the 1st connecting pipe road 44 and the 2nd connecting pipe road 45.

Cooling device 41 arranges multiple relative to multiple yarns Y independently.These multiple cooling devices 41 are, multiple 1st cooling device 41a and multiple 2nd cooling device 41b is alternately arranged along body long side direction.Multiple 1st cooling device 41a and multiple 2nd cooling device 41b arranges along body long side direction at identical height respectively.In addition, 1st cooling device 41a and the 2nd cooling device 41b is in staggered configuration (observe from body long side direction and be in staggered configuration) on the direction orthogonal with the lower surface of common pipeline 42,43 described later, thus, the 2nd cooling device 41b is positioned at the position comparing the 1st top side of cooling device 41.

As shown in figures 5-8, each cooling device 41 possesses a pair opposed parts 51a, 51b and independent tubes 52.Opposed parts 51a, 51b be long on body width, from body width observe with the mode roughly in " コ " word by bending, the plate body that is made up of metal material.Opposed parts 51a and 51b separates gap 51c for making yarns Y advance and opposed at body long side direction.

In addition, at the opposed faces 51a1 opposed with opposed parts 51b of opposed parts 51a, be provided with multiple contact site 71a that the direct of travel along the yarns Y in the 51c of gap arranges.In addition, at the opposed faces 51b1 opposed with opposed parts 51a of opposed parts 51b, be provided with multiple contact site 71b that the direct of travel along the yarns Y in the 51c of gap arranges.In addition, multiple contact site 71a and multiple contact site 71b observes cross-shaped arrangement from upside.And the yarns Y of advancing in the 51c of gap contacts with contact site 71a, 71b, this yarns Y is suppressed along the vibration of body long side direction thus.

Independent tubes 52 is configured at just going up of opposed parts 51a, 51b, and extends throughout the total length of the long side direction of opposed parts 51a, 51b.In the inside of independent tubes 52, be formed with the inner space 52a that the roughly total length on the long side direction of independent tubes 52 extends.And opposed parts 51a, 51b are installed on the lower surface of independent tubes 52.In addition, the bottom of independent tubes 52 with the part of the gap 51c overlap between opposed parts 51a and 51b, the long side direction along independent tubes 52 is formed with multiple intercommunicating pore 52b at substantially equal intervals.Thus, gap 51c is communicated with the inner space 52a of independent tubes 52 via multiple intercommunicating pore 52b.In addition, in the upper end of independent tubes 52, and be independent tubes 52 long side direction on central portion, be formed as described later for carrying out the intercommunicating pore 52c of the connection between connecting pipe road 44,45.

Here, opposed parts 51a, 51b are described relative to the installation constitution of independent tubes 52.Opposed parts 51a is fixed in the lower surface of independent tubes 52 by bolt 72.In addition, in the part of the formation opposed faces 51a1 of opposed parts 51a, and be formed with locating hole 73a respectively for the central portion of long side direction of opposed parts 51a and both ends.In addition, in the part being positioned at the downside of each locating hole 73a of opposed parts 51a, be formed and guide inserting hole 74a.

Locating hole 73b is formed in the part opposed with each locating hole 73a of opposed parts 51b.In addition, between opposed parts 51a with opposed parts 51b, and for be configured with distance piece 50 respectively with the central portion of the long side direction of opposed parts 51a, 51b and the part of both ends overlap.Distance piece 50 is formed the through hole 50a overlapping with locating hole 73a, 73b.Alignment pin 76 has been inserted in locating hole 73a, 73b and through hole 50a.Thus, opposed parts 51b is installed in independent tubes 52 via alignment pin 76 and opposed parts 51a, and carries out the location of the above-below direction relative to opposed parts 51a.In addition, alignment pin 76 is fixed in opposed parts 51b.

In addition, be formed in the part opposed with guiding inserting hole 74a of opposed parts 51b and guide inserting hole 74b.Guiding in inserting hole 74a, 74b the pottery guiding pieces 77 of inserting and being made up of ceramic material.Pottery guiding piece 77 is arranged in the yarns Y position by the top compared and advance at gap 51c, as described later, by with the flowing because of the air in the 51c of gap and for vibrate along vertical, the yarns Y of advancing in the 51c of gap contacts, and suppresses yarns Y in vertical, vibrate this situation.In addition, ceramic guiding piece 77 is fixed in opposed parts 51b.

On the other hand, independent tubes 52 is provided with 3 bars 81.3 bars 81 are arranged on the side of the depth side of the body long side direction at central portion on the long side direction of independent tubes 52 and both ends, being supported by the swinging axle 82 that extends along body long side direction is swing freely, and is exerted a force by the nearby side of the spring 83 being arranged at swinging axle 82 towards body long side direction.

And, bar 81 usually with long side direction parallel with vertical towards configuration.Thus, as (a) of Fig. 6, Fig. 7 (a) shown in, the bar 81 exerted a force by spring 83 contacts with alignment pin 76, and exerts a force towards opposed parts 51a to opposed parts 51b via alignment pin 76.As a result, opposed parts 51b to be pushed by towards opposed parts 51a with the state accompanying distance piece 50 between opposed parts 51a, thus carries out the location of the body long side direction relative to opposed parts 51a.

On the other hand, carry out the opposed faces 51a1 of opposed parts 51a, 51b, 51b1 cleaning time etc., as (b) of Fig. 6, Fig. 7 (b) shown in, make bar 81 from (a) of Fig. 6, Fig. 7 (a) shown in position counterclockwise swing about 90 °.So, bar 81 with the long side direction of self parallel with body width towards configuration, do not contact with alignment pin 76.Thus, opposed parts 51b moves freely on body width.And if make opposed parts 51b towards moving from the direction that opposed parts 51a leaves, then alignment pin 76 is deviate from from locating hole 73a, ceramic guiding piece 77 is deviate from from guiding inserting hole 74a.Thereby, it is possible to opposed parts 51b is unloaded from independent tubes 52.And, in the present embodiment, the removing such as yarn or finish that can will the opposed faces 51b1 of the opposed faces 51a1 of the opposed parts 51a exposed being removed by opposed parts 51b and the opposed parts 51b be removed adheres to.Now, the opposed parts 51b dismantled also can wholely clean.

1st common pipeline 42 is configured in the top of multiple cooling device 41, and crosses over multiple cooling device 41 and extend along body long side direction.Thus, be configured in the 1st cooling device 41a comparing the 2nd cooling device 41b position on the lower and be positioned at common pipeline 42 opposition side with the 1st relative to the 2nd cooling device 41b.In addition, the mode that the lower surface of the 1st common pipeline 42 is then positioned at upside with the part by the inner side on body width tilts relative to body width.Be formed in the 1st common pipeline 42 on body long side direction throughout the inner space 42a that its total length extends.In addition, the 1st air blast 46a is connected with at the inner space 42a of the 1st common pipeline 42.If drive the 1st air blast 46a, then in the 42a of inner space, produce the flowing with the such air shown in arrow W11 in (a) at Fig. 5 of body long side direction.In addition, the multiple intercommunicating pore 42b be communicated with inner space 42a are formed in the bottom of the 1st common pipeline 42.Here, multiple intercommunicating pore 42b is formed at the part between 2 the 1st cooling device 41a of each group of formation when multiple 1st cooling device 41a being divided into the group of 2 mutually adjacent the 1st cooling device 41a on the body long side direction of the 1st common pipeline 42.Here, on body width, the 1st of balanced configuration the common pipeline 42 also can connect to 1 at end and be connected with 1 the 1st air blast 46a.

2nd common pipeline 43 is configured in the top of multiple cooling device 41, configures, and cross over multiple cooling device 41 and extend along body long side direction in the mode adjacent with the outside on the body width of the 1st common pipeline 42.Thus, be configured in the 1st cooling device 41a comparing the 2nd cooling device 41b position on the lower and be positioned at common pipeline 42 opposition side with the 1st relative to the 2nd cooling device 41b.In addition, the mode that the lower surface of the 2nd common pipeline 43 is then positioned at upside with the part by the inner side on body width tilts relative to body width.The inner space 43a that the total length throughout body long side direction extends is formed in the 2nd common pipeline 43.In addition, the 2nd air blast 46b is connected with at the inner space 43a of the 2nd common pipeline 43.If drive the 2nd air blast 46b, then in the 43a of inner space, produce the flowing with the air of the such body long side direction shown in arrow W21 in (b) of Fig. 7.In addition, the multiple intercommunicating pore 43b be communicated with inner space 43a are formed in the bottom of the 2nd common pipeline 43.Here, multiple intercommunicating pore 43b is formed at the part between 2 the 2nd cooling device 41b of each group of formation when multiple 2nd cooling device 41b being divided into the group of 2 mutually adjacent the 2nd cooling device 41b on the body long side direction of the 2nd common pipeline 43.Here, on body width, the 2nd of balanced configuration the common pipeline 43 also can connect to 1 at end and be connected with 1 the 2nd air blast 46b.

1st connecting pipe road 44 is each relative to the group of each above-mentioned 2 adjacent the 1st cooling device 41a arranges 1, and between the 1st cooling device 41a be configured in vertical and the 1st common pipeline 42.The corresponding intercommunicating pore 42b of 1st connecting pipe road 44 in upper end with the 1st common pipeline 42 connects.In addition, 1st connecting pipe road 44 extends from the coupling part be connected with intercommunicating pore 42b towards downside, in midway bending towards the both sides branch of body long side direction, and further in its leading section towards downside bending, be connected with the intercommunicating pore 52c of the independent tubes 52 of the 1st cooling device 41a.Thus, the gap 51c between opposed parts 51a and the 51b of above-mentioned 2 the 1st cooling device 41a is communicated with the inner space 42a of the 1st common pipeline 42 via the inner space 52a of independent tubes 52, the inner space 44a in the 1st connecting pipe road 44.

2nd connecting pipe road 45 is each relative to the group of each above-mentioned 2 adjacent the 2nd cooling device 41b arranges 1, and between the 2nd cooling device 41b be configured in vertical and the 2nd common pipeline 43.The intercommunicating pore 43b of 2nd connecting pipe road 45 in upper end with the 2nd common pipeline 43 is connected.In addition, 2nd connecting pipe road 45 extends from the coupling part be connected with intercommunicating pore 43b towards downside, in midway bending towards the both sides branch of body long side direction, and further in its leading section towards downside bending, be connected with the intercommunicating pore 52c of the independent tubes 52 of the 2nd cooling device 41b.Thus, the gap 51c between opposed parts 51a and the 51b of above-mentioned 2 the 2nd cooling device 41b is connected with the inner space 43a of the 2nd common pipeline 43 via the inner space 52a of independent tubes 52 and the inner space 45a in the 2nd connecting pipe road 45.

And, in cooling unit 23, utilize blower motor 47a, 47b blower 46a, 46b, thus make the inner space 43a of the inner space 42a of the 1st common pipeline 42 and the 2nd common pipeline 43 produce the flowing of the air of the body long side direction as arrow W11, the W21 of (a), (b) of Fig. 5 respectively.So, along with the flowing of these air, the air of the gap 51c between opposed parts 51a and the 51b of the 1st, the 2nd cooling device 41a, 41b is respectively as flowed into inner space 42a, 43a of common pipeline 42,43 with inner space 44a, the 45a via the inner space 52a of independent tubes 52 and connecting pipe road 44,45 as shown in arrow W12, W22 in (a), (b) of Fig. 5.Thus, produce the flowing of air in the 51c of gap, the yarns Y of advancing in the 51c of gap is cooled.

Twisting apparatus 24 arranges multiple relative to multiple yarns Y independently, and is configured in the downstream of cooling device 41.In addition, these multiple twisting apparatuss 24 are, multiple 1st twisting apparatus 24a and multiple 2nd twisting apparatus 24b alternately arranges along body long side direction.In addition, the 2nd twisting apparatus 24b is configured at from the 1st twisting apparatus 24a outside body width and the position (the 1st twisting apparatus 24a and the 2nd twisting apparatus 24b from body long side direction observe be in staggered configuration) of staggering, upside.Thus, and do not make the 1st twisting apparatus 24a stagger with the 2nd twisting apparatus 24b and observe situation about configuring in an overlapping manner from body long side direction to compare, twisting apparatus 24 can be configured to high-density.

Twisting apparatus 24 pairs of yarns Y twisting.Now, the direction of twisting with the fingers in the 1st twisting apparatus 24a and the 2nd twisting apparatus 24b becomes opposite direction.In addition, now, being twisted in the part only between sth. made by twisting thread-carrier 22 and the 1st, the 2nd twisting apparatus 24a, 24b in yarns Y.In addition, now, yarns Y is twisted on the basis of being heated by heating unit 21, is cooled by cooling unit 23 by the yarns Y after twisting.In addition, also can be that the direction of twisting with the fingers in the 1st twisting apparatus 24a and the 2nd twisting apparatus 24b becomes identical direction.

Here, to the configuration of heater 32a, 32b, the configuration of cooling device 41a, 41b, the relation between the configuration of twisting apparatus 24a, 24b is described.In yarn-finished portion 12, yarns Y is advanced successively in the yarn of the 1st heater 32a advances groove 38, the gap 51c of the 1st cooling device 41a and the 1st twisting apparatus 24a.Therefore, in yarn-finished portion 12, need to make heater 32a, the 1st cooling device 41a and the 1st twisting apparatus 24a be configured in mode on the yarn path of the angle of bend of the yarns Y that can remain suitable, determine heater 32a, position relationship between the 1st cooling device 41a, the 1st twisting apparatus 24a.In addition, in yarn-finished portion 12, yarns Y is advanced successively in the yarn of the 2nd heater 32b advances groove 38, the gap 51c of the 2nd cooling device 41b and the 2nd twisting apparatus 24b.Therefore, in yarn-finished portion 12, the mode needing to be formed with suitable yarn path determines the position relationship between the 2nd heater 32b, the 2nd cooling device 41b, the 2nd twisting apparatus 24b.

Now, different from the present invention, if such as described with Japanese Unexamined Patent Publication 11-107084 publication etc. mode is identical, independent tubes 52 and connecting pipe road 44,45 are not set, opposed parts 51a, 51b of each cooling device 41 thread a pipe together 42,43 lower surface directly engage, make thus gap 51c thread a pipe together 42,43 inner space 42a, 43a be communicated with, then cooling device 41a, 41b cannot be left configuration from common pipeline 42,43.Therefore, cannot by the 1st cooling device 41a and the 2nd cooling device 41b thread a pipe together 42,43 the orthogonal direction of lower surface (observing from body long side direction) be in staggered configuration.Result, as mentioned above, when the 1st heater 32a and the 2nd heater 32b and the 1st twisting apparatus 24a and the 2nd twisting apparatus 24b is in staggered configuration respectively, the 1st cooling device 41a and the 2nd cooling device 41b cannot be configured on the yarn path of the angle of bend of the yarns Y that can remain suitable according to the configuration of heater 32a, 32b and twisting apparatus 24a, 24b.

On the other hand, in the present embodiment, 1st cooling device 41a and the 2nd cooling device 41b leaves configuration from common pipeline 42,43, and, the 1st cooling device 41a and the 2nd cooling device 41b thread a pipe together 42,43 the orthogonal direction of lower surface be in staggered configuration.And the gap 51c via the 1st connecting pipe road the 44,1st cooling device 41a is connected with the inner space 42a of the 1st common pipeline 42, the gap 51c via the 2nd connecting pipe road the 45,2nd cooling device 41b is connected with the inner space 43a of the 2nd common pipeline 43.

Like this, in the present embodiment, can by the 1st cooling device 41a and the 2nd cooling device 41b thread a pipe together 42,43 the orthogonal direction of lower surface be in staggered configuration, therefore, it is possible to the 1st cooling device 41a and the 2nd cooling device 41b is configured on the yarn path of the angle of bend of the yarns Y that can remain suitable according to the configuration of heater 32a, 32b and twisting apparatus 24a, 24b.

In addition, in the present embodiment, the 1st cooling device 41a and the 2nd cooling device 41b leaves from the 1st common pipeline 42 and the 2nd common pipeline 43 respectively.But, in the present embodiment, even if when the 1st, the 2nd cooling device 41a, 41b and the 1st, the 2nd common pipeline 42,43 configure by this way, also via the 1st connecting pipe road 44, the gap 51c of the 1st cooling device 41a can be connected with the inner space 42a of the 1st common pipeline 42, and via the 2nd connecting pipe road 45, the gap 51c of the 2nd cooling device 41b can be connected with the inner space 43a of the 2nd common pipeline 43.

Now, as mentioned above, the 1st cooling device 41a is configured in common pipeline 42 opposition side with the 1st relative to the 2nd cooling device 41b.But in the present embodiment, connecting pipe road 44 arranges 1 relative to 2 often adjacent the 1st cooling device 41a.Therefore, it is possible to connect the gap 51c of the 1st cooling device 41a and the inner space 42a of the 1st common pipeline 42 via the 1st connecting pipe road 44.

And, in the present embodiment, owing to the 1st cooling device 41a and the 2nd cooling device 41b both sides can be left configuration from the 1st common pipeline 42 and the 2nd common pipeline 43 respectively like this, therefore, compared with the situation that the lower surface of threading a pipe for 122 (with reference to Figure 11) together with opposed parts 51a, the 51b of the 2nd cooling device 41b as variation 2 described later directly engages, the free degree of the configuration of the 1st cooling device 41a and the 2nd cooling device 41b is high.Thereby, it is possible to the 1st cooling device 41a and the 2nd cooling device 41b is configured on the yarn path of the angle of bend of the yarns Y that can remain suitable according to the configuration of heater 32a, 32b and twisting apparatus 24a, 24b more reliably.

Tension pick-up 30 arranges multiple relative to multiple yarns Y independently, and is configured in the downstream of twisting apparatus 24.In addition, these multiple tension pick-ups 30 are, for detecting multiple 1st tension pick-up 30a of tension force and the multiple 2nd tension pick-up 30b for detecting the tension force being implemented the yarns Y after false twisting processing by multiple 2nd twisting apparatus 24b of the yarns Y after implementing false twisting processing by the 1st twisting apparatus 24a, body long side direction is alternately arranged.In addition, the 2nd tension pick-up 30b is configured in the position comparing the 1st top side of tension pick-up 30a.Tension pick-up 30 detects the tension force being implemented the yarns Y after false twisting processing by twisting apparatus 24.The testing result of the tension force of the yarns Y utilizing tension pick-up 30 to detect such as uses in the judgement of the quality of formed package P1, P2 (with reference to Fig. 9) etc.

Secondary yarn feeding roller 25 arranges multiple relative to multiple yarns Y independently, and is configured in the downstream of the tension pick-up 30 in the yarn path of yarns Y.In addition, these multiple secondary yarn feeding rollers 25 arrange along body long side direction.Yarns Y after implemented false twisting processing by twisting apparatus 24 is carried towards post bake unit 27 via doubling device 26 by secondary yarn feeding roller 25, or does not directly carry towards post bake unit 27 via doubling device 26.In addition, utilize the transporting velocity Billy of secondary yarn feeding roller 25 delivered yarn Y fast by the transporting velocity of a yarn feeding roller 20 delivered yarn Y, yarns Y is stretched by yarn feeding roller 20 and the difference of the transporting velocity of secondary yarn feeding roller 25.In addition, only the yarns Y after by heat fixation is being twisted with the fingers between twisting apparatus 24 and secondary yarn feeding roller 25 by backtwisting between sth. made by twisting thread-carrier 22 and twisting apparatus 24.Thus, the sth. made by twisting of yarns Y is removed, but because the sth. made by twisting of yarns Y is by heat fixation, therefore each long filament be formed as in wavy form, be applied in false twisting after state.

Doubling device 26 relative to often adjacent 2 one thread Y (by the 1st twisting apparatus 24a implement false twisting process after 1 one thread and by the 2nd twisting apparatus 24b implement false twisting process after 1 one thread, add up to 2 one thread Y) arrange 1, and arrange along body long side direction in the downstream of secondary yarn feeding roller 25.Doubling device 26 is by 2 one thread Y doublings of correspondence.

Post bake unit 27 is configured in the downstream of doubling device 26.Post bake unit 27 is such as utilize thermal medium that yarn travel section is heated to the heater of homogenization temperature, is configured to: give circuit (not shown) by utilizing electric current and make heat generating components (not shown) flow through electric current and thermal medium is heated.And post bake unit 27 utilizes the heat of thermal medium to the heat treatment without tension being implemented the yarns Y enforcement regulation after stretching, false twisting processing.

Three times yarn feeding roller 28 arranges multiple relative to multiple yarns Y independently, and is configured in the downstream of the post bake unit 27 in the yarn path of yarns Y.In addition, these multiple three yarn feeding rollers 28 arrange along body long side direction.Yarns Y after being implemented heat treatment without tension is carried towards winder 13 by three yarn feeding rollers 28.In addition, three yarn feeding rollers 28 and post bake unit 27 are in the configuration spaced apart of body width.Be provided with not shown operation post or Mobile workbench in space between post bake unit 27 and three yarn feeding rollers 28, operator can carry out the operations such as repiece on this operation post or Mobile workbench.

Winder 13 possesses multiple coiler device 60.In addition, these multiple coiler devices 60 are along vertical and the arrangement of body long side direction.In addition, coiler device 60 possesses reel cage 61, take up roll 62, traversing gear 63 as shown in (a), (b) of Fig. 9.

On reel cage 61, as shown in (a) of Fig. 9,1 bobbin B1 can be installed.And, when 2 one thread Y are by doubling in doubling device 26, reel cage 61 is provided with 1 bobbin B1.In addition, on reel cage 61, as shown in (b) of Fig. 9, replace 1 bobbin B1, also can installation shaft to length be the only about half of of bobbin B1 and at 2 the bobbin B2 axially linked.And, when 2 one thread Y are not by doubling in doubling device 26, reel cage 61 is provided with 2 bobbin B2.

Bobbin B1, B2 of being installed on reel cage 61 with axis parallel with body long side direction towards configuration, and to be supported as rotatable by reel cage 61.Take up roll 62 extends along body long side direction, be installed on reel cage 61 bobbin B1, B2 surface, by the doubling Ya of the 2 one thread Y that reel on bobbin B1 the package P1 that formed or the surface contact of package P2 formed by winding yarn Y on bobbin B2.Take up roll 62 is connected with collecting motor 64.And if drive collecting motor 64, then take up roll 62 rotates, and links therewith, and bobbin B1, B2 of contacting with take up roll 62 or package P1, P2 rotate.Thus, doubling Ya is wound in bobbin B1, or yarns Y is wound in bobbin B2.Here, collecting motor 64 also can be installed on bobbin B1, B2 of reel cage 61 by Direct driver.Now, take up roll 62 becomes the driven voller rotated in linkage with the rotation of bobbin B1, B2.

Traversing gear 63 is configured in the upstream side of reel cage 61 in the yarn path of yarns Y and take up roll 62.Traversing gear 63 has band 67,2 traverse guides 68 of 3 belt wheel 66a ~ 66c, ring-type.Belt wheel 66a and belt wheel 66b is in the configuration spaced apart of body long side direction.The position of staggering towards the inner side of body width from belt wheel 66a, 66b is configured between belt wheel 66a and the 66b of belt wheel 66c on body long side direction.Belt wheel 66c is connected with traversing motors 69, if drive traversing motors 69, then belt wheel 66c rotates.Band 67 is wrapping with in 3 belt wheel 66a ~ 66c.2 traverse guides 68 are installed at the spaced-apart interval between belt wheel 66a and 66b of band 67.In addition, the traverse guide 68 of the side in 2 traverse guides 68 can be dismantled from band 67.

And, when in doubling device 26,2 one thread Y are by doubling, as shown in (a) of Fig. 9, the traverse guide 68 of one side is unloaded by from band 67 in advance, and the doubling Ya transported from yarn-finished portion 12 towards winder 13 is carried by towards take up roll 62 on the basis of traverse guide 68 being hung on the opposing party.On the other hand, when do not carry out the doubling of 2 one thread Y in doubling device 26, as shown in (b) of Fig. 9,2 traverse guide 68 both sides are all installed in band 67, the yarns Y transported from yarn-finished portion 12 towards winder 13, to be implemented false twisting processing by the 1st twisting apparatus 24a after yarns Y carried by towards take up roll 62 on the basis of traverse guide 68 being hung on a side, by the 2nd twisting apparatus 24b implement false twisting process after yarns Y carried by towards take up roll 62 on the basis of traverse guide 68 being hung on the opposing party.

In traversing gear 63, if drive traversing motors 69 and make belt wheel 66c positive and negative rotation, then 67 are with to advance and the driven rotation of belt wheel 66a, 66b.Thus, traverse guide 68 moves back and forth along the axis (body long side direction) of bobbin B1, B2, is hung on the axial traversing along bobbin B1, B2 of the doubling Ya of traverse guide 68 or yarns Y.

And, coiler device 60 makes doubling Ya along the axial traversing of bobbin B1 while doubling Ya is wound in bobbin B1 and forms package P1, or makes 2 one thread Y this 2 one thread Y is wound in 2 bobbin B2 along the axial traversing of bobbin B2 and form package P2.

Next, the control device 10 of the action controlling false twist processing machine 1 is described.Control device 10 is made up of CPU (CentralProcessingUnit), ROM (ReadOnlyMemory), RAM (RandomAccessMemory) etc.In addition, control device 10 is connected, by carrying out the action controlling air blast 46a, 46b relative to the control of inverter circuit 54 with air blast 46a, 46b (being the motor for blower 46a, 46b strictly speaking) via inverter circuit 54 as shown in Figure 1, shown in Figure 5.Here, inverter circuit 54 can be arranged independently relative to each air blast 46a, 46b, also can air blast 46a, 46b relative to more than 2 commonly arrange.

In addition, control device 10 is given circuit 29 via electric current and is connected with the heat generating components 36 of each heater 32a, 32b as shown in Fig. 1, Fig. 3, Fig. 4, is controlled the electric current of flowing in heat generating components 36 by the control carried out relative to electric current imparting circuit 29.Here, electric current is given circuit 29 and can be arranged independently relative to each heat generating components 36, also can commonly arrange by the heat generating components 36 relative to more than 2.In addition, control device 10 is connected with temperature sensor 37 as shown in Figure 3, Figure 4, receives the signal with the temperature correlation of heat block 35 from temperature sensor 37.

In addition, although omission detailed description, but control device 10 in addition also with a connection such as yarn feeding roller 20, twisting apparatus 24, tension pick-up 30a, 30b, secondary yarn feeding roller 25, post bake unit 27, three yarn feeding rollers 28, coiler device 60, traversing gear 63 (motor be connected with belt wheel 66c), and control the action of these parts.

Next, the control (temperature of heat block 35 controls) of the electric current imparting circuit 29 undertaken by control device 10 is described.In the ROM etc. of control device 10, in advance such as each kind of yarns Y, store the design temperature of the heat block 35 relative to the upstream side heating part 34a in each heater 32a, 32b and heating part, downstream 34b.And, if operator carries out the kind of the yarns Y that operation waits and selection is heated in each heater 32a, 32b to not shown operating portion, then according to the kind of selected yarns Y, determine the design temperature of the heat block 35 relative to the upstream side heating part 34a in each heater 32a, 32b and heating part, downstream 34b independently.

And control device 10, based on the temperature utilizing temperature sensor 37 to detect, to make the temperature of each heat block 35 close to the mode of the design temperature determined, controls electric current and gives circuit 29.Be described in more detail, such as, when the temperature utilizing temperature sensor 37 to detect is lower than design temperature, the mode then more increasing the electric current flowed in corresponding heat generating components 36 with large with the difference of design temperature situation controls electric current and gives circuit 29.On the other hand, when the temperature utilizing temperature sensor 37 to detect is higher than design temperature, the mode then more reducing the electric current flowed in corresponding heat generating components 36 with large with the difference of design temperature situation controls electric current and gives circuit 29.

And, control electric current by utilizing control device 10 like this and give circuit 29, in the present embodiment, the temperature of the heat block 35 of heating part, the downstream 34b in the temperature of the heat block 35 of the upstream side heating part 34a in each heater 32a, 32b and each heater 32a, 32b can be controlled independently.Thus, in yarn-finished portion 12, when the yarns Y (such as, the yarn that material or thickness etc. are different) to multiple kind is twisted, each yarns Y can be heated to independently corresponding to its kind, be applicable to the temperature that utilizes twisting apparatus 24 to twist.

Such as, the yarns Y of advancing in groove 38 advanced by the yarn at the 1st heater 32a is cation dyeable polyester yarn (CD yarn), when the yarns Y of advancing during groove 38 advanced by the yarn of the 2nd heater 32b is polyester yarn, make the temperature of the heat block 35 of the upstream side heating part 34a of the 2nd heater 32b higher than the temperature of the heat block 35 of the upstream side heating part 34a of the 1st heater 32a, and make the temperature of the heat block 35 of heating part, the downstream 34b of the 2nd heater 32b higher than the temperature of the heat block 35 of heating part, the downstream 34b of the 1st heater 32a.Thereby, it is possible to the heat making the heat comparison cation dyeable polyester yarn given polyester yarn give is large.Here, cation dyeable polyester yarn refers to and is in easily by the polyester yarn of the state of cationic dyeing.In the present embodiment, different from the heat given polyester yarn owing to can make like this heat of cation dyeable polyester yarn imparting, therefore, it is possible to cation dyeable polyester yarn and polyester yarn are heated to suitable temperature respectively.

In addition, in the present embodiment, as mentioned above, in each heater 32a, 32b, the length of the body width of the heat block 35 of heating part, downstream 34b is longer than the length of the body width of the heat block 35 of upstream side heating part 34a.In addition, as mentioned above, in each heater 32a, 32b, high relative to the design temperature of the heat block 35 of heating part, downstream 34b relative to the design temperature ratio of the heat block 35 of upstream side heating part 34a.Thus, in each heater 32a, 32b, yarns Y when advancing in advancing groove 38 at the yarn of upstream side heating part 34a at short notice temperature rise sharp, thereafter, when advancing in advancing groove 38 at the yarn of heating part, downstream 34b, to expend than the time longer when advancing in advancing groove 38 at the yarn of upstream side heating part 34a and temperature rises lentamente.

In addition, in the present embodiment, as mentioned above, the heat block 35 of the 1st heater 32a and the heat block 35 of the 2nd heater 32b are observed from body long side direction and are in staggered configuration in vertical with the even all nonoverlapping degree in local.Therefore, observe completely overlapping situation with the heat block 35 of the 1st heater 32a and the heat block 35 of the 2nd heater 32b from body long side direction or the situation of local overlap is compared as variation 5 described later, be difficult to the heat trnasfer between the heat block 35 of generation the 1st heater 32a and the heat block 35 of the 2nd heater 32b.And, in the present embodiment, the mode in the gap of the accommodation space 31a be contained with landfill heater 32a, 32b is configured with multiple insulation 33, therefore, is more difficult to produce heat trnasfer between the heat block 35 and the heat block 35 of the 2nd heater 32b of the 1st heater 32a.

Accordingly, in the present embodiment, the heat be difficult between the heat block 35 of generation the 1st heater 32a and the heat block 35 of the 2nd heater 32b is interfered.Therefore, it is possible to reliably make the temperature of the heat block 35 of each heater 32a, 32b become design temperature.

In addition, as mentioned above, when in order to utilize heater 32a, 32b heats cation dyeable polyester yarn and polyester yarn respectively, make the design temperature of the heat block 35 of the upstream side heating part 34a of the 2nd heater 32b higher than the design temperature of the heat block 35 of the upstream side heating part 34a of the 1st heater 32a, and when making the design temperature height of the design temperature of the heat block 35 of heating part, the downstream 34b of the 2nd heater 32b than the heat block 35 of heating part, the downstream 34b of the 1st heater 32a, the heat of the heat block 35 of the 2nd heater 32b is difficult to be passed to the heat block 35 being positioned at the 1st heater 32a comparing the 2nd heater 32b position on the lower.Therefore, in this case, the temperature of the heat block 35 of each heater 32a, 32b can be made more reliably to become design temperature.

In addition, when the yarns Y of advancing during groove 38 advanced by the yarn at the 1st heater 32a with advance groove 38 at the yarn of the 2nd heater 32b in the yarns Y of advancing be kind identical yarn, in the 1st heater 32a and the 2nd heater 32b, make the design temperature of the heat block 35 of upstream side heating part 34a identical, and make the design temperature of the heat block 35 of heating part, downstream 34b identical.Thus, even if under these circumstances, also yarns Y can be heated to suitable temperature.

Next, the control of air blast 46a, 46b of being undertaken by control device 10 is described.When the yarns Y of advancing in the gap 51c at the 1st cooling device 41a, be yarn of the same race with the yarns Y of advancing in the gap 51c of the 2nd cooling device 41b, control device 10 makes air blast 46a, 46b rotate with identical speed.Thus, in the gap 51c of the 1st cooling device 41a and the gap 51c of the 2nd cooling device 41b, produce the flowing of the air of same degree, the yarns Y of advancing in the gap 51c of the 1st cooling device 41a and the yarns Y of advancing in the gap 51c of the 2nd cooling device 41b are cooled to same degree.

On the other hand, when the yarns Y of advancing in the gap 51c at the 1st cooling device 41a is different with the kind (material, thickness etc.) of yarns Y of advancing in the gap 51c of the 2nd cooling device 41b, control device 10 rotates with different rotary speeies by making air blast 46a and 46b according to the kind of these yarns Y, makes the flow velocity of the air in the inner space 42a of the 1st common pipeline 42 different with the flow velocity of the air in the inner space 43a of the 2nd common pipeline 43 thus.Thus, the flow velocity of the air flowed in the gap 51c of the 1st cooling device 41a can be made different with the flow velocity of the air flowed in the gap 51c of the 2nd cooling device 41b, the yarns Y of advancing in the gap 51c of the 1st cooling device 41a and the yarns Y of advancing in the gap 51c of the 2nd cooling device 41b can be cooled to the suitable degree corresponding to the kind of yarns Y.

Such as, when utilize the 1st cooling device 41a cool yarns Y be cation dyeable polyester yarn, utilize the 2nd cooling device 41b cool yarns Y for polyester yarn, by making the rotary speed of the 2nd air blast 46b faster than the rotary speed of the 1st air blast 46a, the heat that the heat ratio captured from polyester yarn can be made to capture from cation dyeable polyester yarn is large.In the present embodiment, due to the heat captured from cation dyeable polyester yarn can be made like this different from the heat captured from polyester yarn, therefore, it is possible to cation dyeable polyester yarn and polyester yarn are cooled to suitable temperature respectively.

Next, illustrate the variation after various change is applied with to present embodiment.

In the above-described embodiment, the 1st cooling device 41a is connected with the 1st common pipeline 42, and on the other hand, the 2nd cooling device 41b is connected with the 2nd common pipeline 43, but is not limited to this.In variation 1, as shown in Figure 10,1 common pipeline 111 (" the 1st common pipeline " of the present invention) is configured with in the mode of crossing over the region that the 1st common pipeline 42 and the 2nd common pipeline 43 are in the above-described embodiment configured.And thread a pipe 111 connections all together in connecting pipe road 44,45.

Even if in this case, also the embodiment with above-mentioned is identical, the 1st cooling device 41a and the 2nd cooling device 41b can be configured on the yarn path of the angle of bend of the yarns Y that can remain suitable according to the configuration of heater 32a, 32b and twisting apparatus 24a, 24b.In addition, in this case, different from above-mentioned embodiment, in the 1st cooling device 41a and the 2nd cooling device 41b, the flow velocity of the air flowed in the 51c of gap cannot be changed independently.But, such as, being the yarn etc. of identical type in the yarns Y cooled by the 1st cooling device 41a and the yarns Y that cooled by the 2nd cooling device 41b, when the degree without the need to making to utilize the 1st cooling device 41a and the 2nd cooling device 41b to cool yarns Y is different, then not having problems.

In addition, in the above-described embodiment, the gap 51c of the 1st cooling device 41a is communicated with via the inner space 42a of the 1st connecting pipe road 44 with the 1st common pipeline 42, the gap 51c of the 2nd cooling device 41b is connected via the inner space 43a of the 2nd connecting pipe road 45 with the 2nd common pipeline 43, but is not limited to this.In variation 2, as shown in (a), (b) of Figure 11, the gap 51c of the 1st cooling device 41a is identical with above-mentioned embodiment to be connected with the inner space 121a of the 1st common pipeline 121 via independent tubes 52 and the 1st connecting pipe road 44.On the other hand, opposed parts 51a, 51b of the 2nd cooling device 41b are directly installed on the lower surface of the 2nd common pipeline 122.In addition, in lower surface, overlapping with the gap 51c of the 2nd cooling device 41b part of the 2nd common pipeline 122, multiple intercommunicating pore 123 is formed with.Thus, the gap 51c of the 2nd cooling device 41b is connected via the inner space 122a of multiple intercommunicating pore 123 with the 2nd common pipeline 122.

In addition, in variation 3, as shown in (a), (b) of Figure 12, intercommunicating pore 131b is formed in the side of common pipeline 131,1st connecting pipe road 132 is connected with intercommunicating pore 131b, thus, the inner space 132a in the 1st connecting pipe road 132 thread a pipe together 131 inner space 131a be communicated with.Thus, the 1st cooling device 41a gap 51c via independent tubes 52 and the 1st connecting pipe road 132 thread a pipe together 131 inner space 131a connect.In addition, opposed parts 51a, 51b of the 2nd cooling device 41b are directly installed on the lower surface of common pipeline 131.In addition, in lower surface, overlapping with the gap 51c of the 2nd cooling device 41b part of common pipeline 131, multiple intercommunicating pore 131c is formed with.Thus, the 2nd cooling device 41b gap 51c via multiple intercommunicating pore 131c thread a pipe together 122 inner space 122a connect.

When variation 2,3, the 2nd connecting pipe road 45 is not set, therefore, the 2nd cooling device 41b cannot be left configuration from common pipeline 122,131.That is, the position on the orthogonal direction of lower surface of threading a pipe 122,131 together of the 2nd cooling device 41b cannot be changed.But even if in this case, the embodiment also with above-mentioned is identical, the position on the orthogonal direction of lower surface of threading a pipe 122,131 together of the 1st cooling device 41a can be changed.And, as long as change the position on the orthogonal direction of lower surface of threading a pipe 122,131 together of the 1st cooling device 41a, then on the orthogonal direction of lower surface of threading a pipe 122,131 together, between the 1st cooling device 41a and the 2nd cooling device 41b position relationship is changed.Therefore, even if when variation 2,3, although the free degree step-down of the configuration of the 1st cooling device 41a and the 2nd cooling device 41b compared with above-mentioned embodiment, but by position relationship between adjustment the 1st cooling device 41a and the 2nd cooling device 41b, the 1st cooling device 41a and the 2nd cooling device 41b can be configured on the yarn path of the angle of bend of the yarns Y that can remain suitable according to the configuration of heater 32a, 32b and twisting apparatus 24a, 24b.

In addition, even if when variation 2,3, the 1st cooling device 41a is also positioned at relative to the 2nd cooling device 41b 122,131 opposition sides of threading a pipe together.But even if in variation 2,3, connecting pipe road 44 also arranges 1 relative to 2 often adjacent the 1st cooling device 41a.Therefore, it is possible to via the 1st connecting pipe road 44 make the gap 51c of the 1st cooling device 41a thread a pipe together 122,131 inner space 122a, 131a be communicated with.

In addition, in the above-described embodiment, 1 the 1st connecting pipe road 44 is connected with the intercommunicating pore 52c of the independent tubes 52 of 2 the 1st cooling device 41a, and 1 the 2nd connecting pipe road 45 is connected with the intercommunicating pore 52c of the independent tubes 52 of 2 the 2nd cooling device 41b, but is not limited to this.1 the 1st connecting pipe road 44 also can be connected with the intercommunicating pore 52c of the independent tubes 52 of 1 the 1st cooling device 41a.Or 1 the 1st connecting pipe road 44 also can be connected with the intercommunicating pore 52c of the independent tubes 52 of the 1st cooling device 41a of more than 3.2nd connecting pipe road 45 is also identical.

In addition, in the above-described embodiment, in 1 casing 31, be accommodated with 2 the 1st heater 32a and 2 the 2nd heater 32b, but be not limited to this.Such as, in variation 4, as shown in (a) of Figure 13, in 1 casing 31, be accommodated with 1 the 1st heater 32a and 1 the 2nd heater 32b.In addition, in variation 5, as shown in (b) of Figure 13, in 1 casing 31, be accommodated with 3 the 1st heater 32a and 3 the 2nd heater 32b.In addition, in (a), (b) of Figure 13, omit illustrated electric current in figure 3 and give the diagram of circuit 29 and control device 10.

Even if in these cases, the heat block 35 of the 1st heater 32a and the heat block 35 of the 2nd heater 32b are observed from body long side direction and are also in staggered configuration with nonoverlapping degree.Therefore, identical with above-mentioned embodiment, between the heat block 35 and the heat block 35 of the 2nd heater 32b of the 1st heater 32a, be difficult to produce heat interfere, reliably each heat block 35 can be heated to design temperature.In addition, the 2nd heater 32b of more than the 1st heater 32a and 4 of more than 4 also can be received in 1 casing 31.

In addition, in the above-described embodiment, in 1 casing 31, be accommodated with the 1st heater 32a and the 2nd heater 32b, but be not limited to this.Such as, the casing 31 that also can be formed as only being accommodated with 1 the 1st heater 32a and the casing 31 being only accommodated with 1 the 2nd heater 32b arrange on body long side direction.

In addition, in the above-described embodiment, the heat block 35 of the 1st heater 32a and the heat block 35 of the 2nd heater 32b are observed from body long side direction and are in staggered configuration in vertical with nonoverlapping degree, but are not limited to this.Such as, in variation 6, as shown in figure 14, the heat block 35 of the 1st heater 32a and the heat block 35 of the 2nd heater 32b are in staggered configuration in vertical, but its offset is little compared with above-mentioned embodiment, it is overlapping that the heat block 35 of the 1st heater 32a and the heat block 35 of the 2nd heater 32b observe local from body long side direction.But, in variation 6, direct contact between the heat block 35 and the heat block 35 of the 2nd heater 32b of the 1st heater 32a, the heat block 35 of the 1st heater 32a and the heat block 35 of the 2nd heater 32b leave on body long side direction, and are also configured with insulation 33 between the heat block 35 of the 1st heater 32a on body long side direction and the heat block 35 of the 2nd heater 32b.In addition, in fig. 14, the diagram that electric current illustrated in Fig. 3 gives circuit 29 and control device 10 is omitted.

Even if in this case, when with the heat block 35 of the 1st heater 32a and the heat block 35 of the 2nd heater 32b from body long side direction observe completely overlapping situation compare time, the heat be also difficult between the heat block 35 of generation the 1st heater 32a and the heat block 35 of the 2nd heater 32b is interfered.

In addition, the heat block 35 of the 1st heater 32a and the heat block 35 of the 2nd heater 32b are not limited to observe from body long side direction be in staggered configuration.Such as, when interval between the 1st heater 32a on body long side direction and the 2nd heater 32b is fully large, the heat block 35 of the 1st heater 32a and the heat block 35 of the 2nd heater 32b also can be made from body long side direction to observe completely overlapping.

In addition, in the above-described embodiment, as the example making the design temperature of heat block 35 different in the 1st heater 32a with the 2nd heater 32b, to making the design temperature of the heat block 35 of the upstream side heating part 34a of the 2nd heater 32b example that is higher than the design temperature of the heat block 35 of the upstream side heating part 34a of the 1st heater 32a, that make the design temperature of the heat block 35 of heating part, the downstream 34b of the 2nd heater 32b higher than the design temperature of the heat block 35 of heating part, the downstream 34b of the 1st heater 32a be illustrated, but be not limited to this.Also the design temperature of the heat block 35 of the upstream side heating part 34a of the 2nd heater 32b can be made lower than the design temperature of the heat block 35 of the upstream side heating part 34a of the 1st heater 32a.In addition, the design temperature of the heat block 35 of heating part, the downstream 34b of the 2nd heater 32b also can be lower than the design temperature of the heat block 35 of heating part, the downstream 34b of the 1st heater 32a.

In addition, in the above-described embodiment, in the 1st heater 32a with the 2nd heater 32b, the different example of the design temperature of heat block 35 is illustrated, but is not limited to this.。

Such as, also can between 2 the 1st heater 32a or the design temperature of the chien shih heat block 35 of 2 the 2nd heater 32b different.When the 1st heater 32a as above-mentioned embodiment and the 2nd heater 32b alternately configures on body long side direction, on body long side direction, 2nd heater 32b is configured between 2 adjacent the 1st heater 32a, 1st heater 32a is configured between 2 adjacent the 2nd heater 32b, therefore, 2 the 1st heater 32a leave configuration on body long side direction, and 2 the 2nd heater 32b leave configuration each other on body long side direction.In addition, between 2 the 1st heater 32a and between 2 the 2nd heater 32b, insulation 33 is folded with.Thus, be difficult to produce heat trnasfer between the heat block 35 of 2 the 1st heater 32a and between the heat block 35 of 2 the 2nd heater 32b.Therefore, even if in this case, also can reliably make heat block 35 become design temperature in each 1st heater 32a and each 2nd heater 32b.

In addition, be formed as in the above-described embodiment, in a heating unit 21, the design temperature of the heat block 35 of the upstream side heating part 34a of each heater 32a, 32b can be set independently, but be not limited to this.Such as, the heat generating components 36 of the upstream side heating part 34a of all heater 32a, 32b also can be made to be connected to each other, making cannot be different at the design temperature of the heat block 35 of the chien shih upstream side heating part 34a of heater 32a, 32b.Equally, be formed as in the above-described embodiment, the design temperature of the heat block 35 of heating part, the downstream 34b of each heater 32a, 32b can be set independently, but be not limited to this.Such as, the heat generating components 36 of heating part, the downstream 34b of all heater 32a, 32b also can be made to be connected to each other, making cannot be different at the design temperature of the heat block 35 of the chien shih downstream heating part 34b of heater 32a, 32b.

In addition, in the above-described embodiment, heater 32a, 32b possess upstream side heating part 34a and heating part, downstream 34b, but are not limited to this.Such as, heater 32a, 32b also can have 1 heating part that the length of upstream side heating part 34a is added with the length of heating part, downstream 34b on body width.

In addition, in the above-described embodiment, following action can be switched: to 2 one thread Y doublings in doubling device 26, in coiler device 60, doubling Ya is wound in 1 bobbin B1; And not to 2 one thread Y doublings, this 2 one thread Y is wound in 2 bobbin B2 respectively, but is not limited to this.Doubling Ya also can be wound in 1 bobbin B1 by coiler device 60 all the time.Or also can not arrange doubling device 26, yarns Y is wound in 2 bobbin B2 by coiler device 60 all the time.In addition, in this case, the direction also can twisted with the fingers in the 1st twisting apparatus 24a and the 2nd twisting apparatus 24b is identical direction.

In addition, in the above-described embodiment, adjacent 2 twisting apparatuss 24 (1 the 1st twisting apparatus 24a and 1 the 2nd twisting apparatus 24b) are provided with 1 coiler device 60, but are not limited to this.Such as, also doubling device 26 can not be set, and 1 twisting apparatus 24 is provided with 1 coiler device 60.In addition, even if in this case, the direction also can twisted with the fingers in the 1st twisting apparatus 24a and the 2nd twisting apparatus 24b is identical direction.In addition, in this case, post bake unit 27 also can be made to have the structure identical with heating unit 21.Like this, can by implemented by the 1st twisting apparatus 24a false twisting processing after yarns Y and by the 2nd twisting apparatus 24b implement false twisting process after yarns Y be heated to the suitable degree corresponding to the kind of yarns Y.

In addition, in the above-described embodiment, the direct of travel of the yarns Y in cooling device 41a, 41b is little relative to the inclination of horizontal direction, but is not limited to this.Such as, the false twist processing machine that the direct of travel that also can apply the present invention to as described in Japanese Unexamined Patent Publication 11-107084 publication, in cooling device yarn significantly tilts relative to horizontal direction.

In addition, in the above-described embodiment, the structure of carrying out the adjustment of the cooling capacity of cooling device 41a, 41b as the rotary speed by utilizing inverter circuit 54 to control air blast 46a, 46b is illustrated, but is not limited to this.Also can by arranging manually at common pipeline 42,43 or adjusting cooling air quantity according to flow adjusters such as the butterfly valves of the instruction auto-action carrying out self-control device 10.In addition, the control to air blast 46a, 46b carrying out utilizing inverter to carry out and the flow utilizing valve etc. to carry out adjustment can also be combined.

Claims (5)

1. a false twist processing machine, carries out false twisting processing to multiple yarn, and body long side direction is longer, it is characterized in that, possesses:

Multiple heater, heats above-mentioned multiple yarn;

Multiple cooling device, is configured in the downstream of the above-mentioned multiple heater in the yarn path of yarn, cools above-mentioned multiple yarn, has a pair opposed parts separating gap arrangement on above-mentioned body long side direction;

Multiple twisting apparatus, is configured in the downstream of the above-mentioned multiple cooling device in the yarn path of yarn, to above-mentioned multiple Yarn twisting; And

Common pipeline, extends along above-mentioned body long side direction, has the inner space be communicated with the above-mentioned gap in above-mentioned multiple cooling device,

Above-mentioned multiple cooling device is, multiple 1st cooling device and multiple 2nd cooling device are alternately arranged along above-mentioned body long side direction,

Observe from above-mentioned body long side direction, above-mentioned 1st cooling device and above-mentioned 2nd cooling device are in staggered configuration,

Above-mentioned 1st cooling device is positioned at and above-mentioned common pipeline opposition side relative to above-mentioned 2nd cooling device,

This false twist processing machine also possesses multiple 1st connecting pipe roads of the inner space connecting above-mentioned gap in above-mentioned 1st cooling device and above-mentioned common pipeline.

2. false twist processing machine according to claim 1, is characterized in that,

Also possess multiple 2nd connecting pipe roads of the inner space connecting above-mentioned gap in above-mentioned 2nd cooling device and above-mentioned common pipeline.

3. false twist processing machine according to claim 1 and 2, is characterized in that,

As above-mentioned common pipeline, possess:

1st common pipeline, has the inner space be communicated with the above-mentioned gap in above-mentioned multiple 1st cooling device; And

2nd common pipeline, has the inner space be communicated with the above-mentioned gap in above-mentioned multiple 2nd cooling device.

4. false twist processing machine according to claim 3, is characterized in that, also possesses:

1st air blast, is connected with the above-mentioned inner space of above-mentioned 1st common pipeline;

2nd air blast, is connected with the above-mentioned inner space of above-mentioned 2nd common pipeline; And

Control device, controls above-mentioned 1st air blast and above-mentioned 2nd air blast independently.

5. the false twist processing machine according to any one of Claims 1 to 4, is characterized in that, also possesses:

Multiple doubling device, be configured in the position comparing above-mentioned multiple heater, above-mentioned multiple cooling device and above-mentioned multiple twisting apparatus downstream in the yarn path of yarn, distinguish doublings by by adjacent above-mentioned 1st cooling device and cooled 2 one threads of above-mentioned 2nd cooling device; And

Multiple coiler device, is configured in the position comparing above-mentioned doubling device downstream in the yarn path of yarn, the yarn after the doubling that reels respectively.