CN105401280B - False twist processing machine - Google Patents
False twist processing machine Download PDFInfo
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- CN105401280B CN105401280B CN201510550091.0A CN201510550091A CN105401280B CN 105401280 B CN105401280 B CN 105401280B CN 201510550091 A CN201510550091 A CN 201510550091A CN 105401280 B CN105401280 B CN 105401280B
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- Prior art keywords
- mentioned
- yarn
- cooling device
- cooling
- common pipeline
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Classifications
-
- D—TEXTILES; PAPER
- D02—YARNS; MECHANICAL FINISHING OF YARNS OR ROPES; WARPING OR BEAMING
- D02G—CRIMPING OR CURLING FIBRES, FILAMENTS, THREADS, OR YARNS; YARNS OR THREADS
- D02G1/00—Producing crimped or curled fibres, filaments, yarns, or threads, giving them latent characteristics
- D02G1/02—Producing crimped or curled fibres, filaments, yarns, or threads, giving them latent characteristics by twisting, fixing the twist and backtwisting, i.e. by imparting false twist
- D02G1/0206—Producing crimped or curled fibres, filaments, yarns, or threads, giving them latent characteristics by twisting, fixing the twist and backtwisting, i.e. by imparting false twist by false-twisting
- D02G1/0266—Producing crimped or curled fibres, filaments, yarns, or threads, giving them latent characteristics by twisting, fixing the twist and backtwisting, i.e. by imparting false twist by false-twisting false-twisting machines
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- D—TEXTILES; PAPER
- D02—YARNS; MECHANICAL FINISHING OF YARNS OR ROPES; WARPING OR BEAMING
- D02J—FINISHING OR DRESSING OF FILAMENTS, YARNS, THREADS, CORDS, ROPES OR THE LIKE
- D02J13/00—Heating or cooling the yarn, thread, cord, rope, or the like, not specific to any one of the processes provided for in this subclass
- D02J13/001—Heating or cooling the yarn, thread, cord, rope, or the like, not specific to any one of the processes provided for in this subclass in a tube or vessel
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- D—TEXTILES; PAPER
- D02—YARNS; MECHANICAL FINISHING OF YARNS OR ROPES; WARPING OR BEAMING
- D02J—FINISHING OR DRESSING OF FILAMENTS, YARNS, THREADS, CORDS, ROPES OR THE LIKE
- D02J13/00—Heating or cooling the yarn, thread, cord, rope, or the like, not specific to any one of the processes provided for in this subclass
- D02J13/003—Heating or cooling the yarn, thread, cord, rope, or the like, not specific to any one of the processes provided for in this subclass by contact with at least one stationary surface, e.g. a plate
Abstract
A kind of false twist processing machine configures cooling device in appropriate location corresponding with the configuration of twister etc..Multiple 1st cooling devices (41a) and multiple 2nd cooling devices (41b) are alternately arranged in body longitudinal direction.The configuration of 2nd cooling device is upper compared to the 1st cooling device.Independent tubes (52) of each cooling device with the opposed component (51a, 51b) of a pair for separating gap (51c) configuration in body width direction and with the inner space (52a) being connected to gap.Upper configured with the 2 common pipelines (42,43) extended along body longitudinal direction compared to multiple cooling devices.The gap of 1st cooling device is connected to via independent tubes and the 1st connecting pipe road (44) with the inner space (42a) of the 1st common pipeline.The gap of 2nd cooling device is connected to via independent tubes and the 2nd connecting pipe road (45) with the inner space (43a) of the 2nd common pipeline.
Description
Technical field
The present invention relates to the false twist processing machines for applying false twisting to yarn.
Background technique
False twist processing machine documented by patent document 1 is on the yarn path from yarn-feeding device, that is, bobbin cradle to winding device
It is provided with the 1st heating device (" the 1st heating device " and " the 2nd heating device " that is equivalent to the application), cooling device (quite
In " cooling unit " of the application), false-twisting device (" twister " that is equivalent to the application), the 2nd heating device (be equivalent to this
" the reheating unit " of application), finish assign the devices such as device, these devices are in body longitudinal direction with the amount of 12 spindles
The amount of multiple spans is provided with as 1 span.In addition, the cooling device in patent document 1 (is equivalent to the " cold of the application
But unit ") in, in the side of the pipeline extended along above-mentioned body longitudinal direction, it is provided with using the amount of 2 yarns as 1 group
Multiple cooling ends (" cooling device " that is equivalent to the application).Each cooling end includes the fixing wall portion for being fixed on the side of pipeline
Part;And pacified in a manner of it can dismantle by separating the state configured with gap with fixation wall component in the longitudinal direction in pipeline
Movable wall member loaded on fixation wall component.Gap between fixation wall component and movable wall member is via in the side of pipeline
The inner space of narrow longitudinal trough (" intercommunicating pore " that is equivalent to the application) and pipeline that the part Chong Die with above-mentioned gap is formed
Connection.Pipeline is connect with scavenger fan (" air blower " that is equivalent to the application), if driving scavenger fan, in the inside of pipeline
The flowing that the air of longitudinal direction is generated in space, along with the flowing of the air, fixation wall component and movable wall member it
Between gap generate towards pipeline air flowing.Fixation wall component and movable wall member in multiple cooling ends as a result,
Between gap in the yarn advanced it is cooled.In addition, multiple yarns after cooled (are equivalent to this towards false-twisting device respectively
" twister " of application) conveying.
Patent document 1: Japanese Unexamined Patent Publication 11-107084 bulletin
Here, the cooling device of documented false twist processing machine (is equivalent to the " cooling single of the application in patent document 1
Member ") in, the fixation wall component due to being formed as cooling end is fixed in the construction of the side of pipeline, can not with pipeline
The orthogonal direction in side on change positional relationship between multiple cooling ends.Thus, for example, multiple in order to configure to high-density
False-twisting device (" twister " that is equivalent to the application) and from body longitudinal direction by body longitudinal direction it is adjacent 2
In the case that a false-twisting device (" twister " that is equivalent to the application) is in staggered configuration, existing (can not be equivalent to cooling end
" cooling device " of the application) it configures corresponding appropriate with the configuration of false-twisting device (" twister " that is equivalent to the application)
The misgivings of position.
Summary of the invention
The purpose of the present invention is to provide it is a kind of will can be used to carry out yarn cooling cooling device configuration with its
The false twist processing machine of the corresponding appropriate location such as configuration of his device.
False twist processing machine involved in 1st invention is, carries out false twisting processing to multiple yarns, and body longitudinal direction compared with
Long, have: multiple heating devices heat above-mentioned multiple yarns;Multiple cooling devices are configured in the yarn path of yarn
In above-mentioned multiple heating devices downstream side, above-mentioned multiple yarns are cooled down, have in above-mentioned body longitudinal direction
Separate the opposed component of a pair of gap arrangement;Multiple twisters configure above-mentioned multiple coolings in the yarn path of yarn
The downstream side of device, to above-mentioned multiple Yarn twistings;And common pipeline, along above-mentioned body longitudinal direction extend, have with it is upper
State the inner space of the above-mentioned gap connection in multiple cooling devices, above-mentioned multiple cooling devices are, multiple 1st cooling devices and
Multiple 2nd cooling devices are alternately arranged along above-mentioned body longitudinal direction, and from above-mentioned body longitudinal direction, the above-mentioned 1st is cold
But device and above-mentioned 2nd cooling device are in staggered configuration, above-mentioned 1st cooling device relative to above-mentioned 2nd cooling device be located at it is upper
State common pipeline opposite side, the false twist processing machine be also equipped with connect above-mentioned gap in above-mentioned 1st cooling device with it is above-mentioned common
Multiple 1st connecting pipe roads of the inner space of pipeline.
According to the present invention, from body longitudinal direction, the 1st cooling device and the 2nd cooling device are in staggered configuration, as a result,
1st, the 2nd cooling device can be configured according to the configuration for other devices (twister etc.) for constituting false twist processing machine in energy
On the yarn path for enough maintaining the bending angle of yarn appropriate.In addition, in the present invention, the 1st cooling device is cooling relative to the 2nd
Device is configured in opposite side of threading a pipe together, and therefore, the configuration of the 1st cooling device is positioned away from from common pipeline.However, energy
The inner space in enough above-mentioned gaps that multiple 1st cooling devices are connected via the 1st connecting pipe road and common pipeline.
In addition, at least the 1st cooling device in the 1st cooling device and the 2nd cooling device leaves configuration from common pipeline.
Therefore, can thread a pipe together the gap in the gap of the 1st cooling device and the 2nd cooling device connection respectively.Moreover, by
In the case that the gap of 1 cooling device and the gap of the 2nd cooling device are connect with respective common pipeline, for example, by the 1st
The cooling yarn of cooling device and the situation different by the yarn variety (material, thickness etc.) of the cooling yarn of the 2nd cooling device
Under, the cooling degree of the yarn in the 1st, the 2nd cooling device can be independently set as corresponding with yarn variety appropriate
Degree.
False twist processing machine involved in 2nd invention is in the false twist processing machine involved in the 1st invention, to be also equipped with connection
Multiple 2nd connecting pipe roads of the inner space in above-mentioned gap and above-mentioned common pipeline in above-mentioned 2nd cooling device.
In accordance with the invention it is possible to the 1st cooling device and the 2nd this both sides of cooling device are left into configuration from common pipeline,
Therefore, the 1st, the freedom degree of the configuration of the 2nd cooling device is high, can more reliably fill the 1st, the 2nd cooling device according to twisting
The configuration set etc. and configure on the yarn path of bending angle for being able to maintain that yarn appropriate.
False twist processing machine involved in 3rd invention is, in the false twist processing machine involved in the 1st or the 2nd invention, as
Above-mentioned common pipeline, has: the 1st common pipeline, has the inside being connected to the above-mentioned gap in above-mentioned multiple 1st cooling devices
Space;And the 2nd common pipeline, there is the inner space being connected to the above-mentioned gap in above-mentioned multiple 2nd cooling devices.
It is flowed in the interior space in accordance with the invention it is possible to independently be set in the 1st common pipeline and the 2nd common pipeline
Air flow velocity etc., therefore can independently be set in the air flowed in the above-mentioned gap of the 1st cooling device amount and
The amount of the air flowed in the above-mentioned gap of 2nd cooling device.Therefore, can make in the 1st cooling device and the 2nd cooling device
The cooling degree of yarn is different.As a result, for example, by the cooling yarn of the 1st cooling device and the yarn cooling by the 2nd cooling device
In the case that the yarn variety (material, thickness etc.) of line is different, can by the 1st, the 2nd cooling device the 1st, the 2nd yarn
Cooling degree is independently set as degree appropriate corresponding with yarn variety.
False twist processing machine involved in 4th invention is in the false twist processing machine involved in the 3rd invention, to be also equipped with: the 1st
Air blower is connect with the above-mentioned inner space of above-mentioned 1st common pipeline;2nd air blower, it is above-mentioned with above-mentioned 2nd common pipeline
Inner space connection;And control device, independently control above-mentioned 1st air blower and above-mentioned 2nd air blower.
According to the present invention, by independently controlling the connect with the inner space of the 1st common pipeline the 1st drum using control unit
Blower and the 2nd air blower connecting with the inner space of the 2nd common pipeline, can be independently controlled between the 1st cooling device
The amount of the amount of the air flowed in gap and the air flowed in the gap of the 2nd cooling device.Thereby, it is possible to cold by the 1st, the 2nd
But in device the 1st, the cooling degree of the 2nd yarn be independently set as degree appropriate corresponding with yarn variety.
False twist processing machine involved in 5th invention is that the false twisting involved in any invention in the 1st~the 4th invention adds
In work machine, be also equipped with: multiple doubling devices, configuration in the yarn path of yarn compared to above-mentioned multiple heating devices, above-mentioned
The position of multiple cooling devices and above-mentioned multiple twister downstreams, will be by adjacent above-mentioned 1st cooling device and upper
State the 2 one thread difference doubling after cooling of the 2nd cooling device;And multiple winding devices, it configures in the yarn path of yarn
The position compared to above-mentioned doubling device downstream, respectively wind doubling after yarn.
According to the present invention, for example, when will be used for 2 yarns wound by 1 winding device from body longitudinal direction
In the case that 2 twisters of line twisting are in staggered configuration, the 1st, the 2nd cooling corresponding with this 2 twisters can be filled
Configuration is set in position appropriate corresponding with the configuration of this 2 twisters etc., can will the corresponding with 1 winding device the 1st,
2nd cooling device configures according to the configuration of other devices corresponding with 1 winding device and is being able to maintain that yarns Y appropriate
On the yarn path of bending angle.
Invention effect
In accordance with the invention it is possible to by the 1st, the 2nd cooling device according to other device (twisters for constituting false twist processing machine
Deng) configuration and configure on the yarn path of bending angle for being able to maintain that yarn appropriate.In addition, in the present invention, the 1st is cold
But device configuration is positioned away from from common pipeline, but it is possible to fill via the 1st connecting pipe road connection multiple 1 is cooling
The inner space that the above-mentioned gap set is threaded a pipe together.
In addition, the gap in the gap of the 1st cooling device and the 2nd cooling device connect with respective common pipeline
In the case of, for example, by the cooling yarn of the 1st cooling device and by the yarn variety (material of the cooling yarn of the 2nd cooling device
Matter, thickness etc.) it is different in the case where, the cooling degree of the yarn in the 1st, the 2nd cooling device can be independently set as with
Yarn variety degree appropriate accordingly.
Detailed description of the invention
Fig. 1 is the general principal view of false twist processing machine involved in embodiments of the present invention.
Fig. 2 is the figure for showing the construction of heating unit viewed from above, cooling unit and twister.
Fig. 3 is the cross-sectional view along the III-III line of Fig. 2.
In Fig. 4, (a) is (b) to be section view along the IVB-IVB line of Fig. 3 along the cross-sectional view of the IVA-IVA line of Fig. 3
Figure.
In Fig. 5, (a) is (b) to be cross-sectional view along the VB-VB line of Fig. 2 along the cross-sectional view of the VA-VA line of Fig. 2.
In Fig. 6, (a), which is by 1 amplified figure of cooling device of Fig. 5, to be shown the opposed of a side in (a)
The figure of state after component disassembly.
In Fig. 7, (a) is the figure of from the direction of arrow VIIA (a) of Fig. 6, is (b) from the direction of arrow VIIB
The figure of (b) of Fig. 6, (c) be opposed component from the direction of arrow VIIC after the disassembly of (b) of Fig. 6 figure.
In Fig. 8, (a) is (b) to be VIIIB-VIIIB along Fig. 2 along the cross-sectional view of the VIIIA-VIIIA line of Fig. 5
The cross-sectional view of line.
Fig. 9 is the figure for showing the construction of winding device viewed from above, and (a) shows the shape when yarn after winding doubling
State (b) shows state when not carrying out doubling to yarn and wind respectively.
In Figure 10, (a) is variation 1 with Fig. 8 (a) comparable figure, is (b) the suitable with (b) of Fig. 8 of variation 1
Figure.
In Figure 11, (a) is variation 2 with Fig. 8 (a) comparable figure, is (b) the suitable with (b) of Fig. 8 of variation 2
Figure.
In Figure 12, (a) is variation 3 with Fig. 8 (a) comparable figure, is (b) the suitable with (b) of Fig. 8 of variation 3
Figure.
In Figure 13, (a) be variation 4 with the comparable figure of Fig. 3, (b) be variation 5 with the comparable figure of Fig. 3.
Figure 14 be variation 6 with the comparable figure of Fig. 3.
Label declaration
1 false twist processing machine
24 twisters
The 1st twister of 24a
The 2nd twister of 24b
26 doubling devices
The 1st heating device of 32a
The 2nd heating device of 32b
35 heat blocks
36 heat generating components
38 yarn traveling slots
41 cooling devices
The 1st cooling device of 41a
The 2nd cooling device of 41b
42 the 1st common pipelines
43 the 2nd common pipelines
44 the 1st connecting pipe roads
45 the 2nd connecting pipe roads
60 winding devices
111 common pipelines
121 the 1st common pipelines
122 the 2nd common pipelines
131 common pipelines
132 the 1st connecting pipe roads
Specific embodiment
Hereinafter, being illustrated to the preferred embodiment of the present invention.
As shown in Figure 1, false twist processing machine 1 involved in present embodiment is the aftermentioned each dress for constituting yarn-finished portion 12
Set (an aftermentioned yarn feeding roller 20, primary heating unit 21, only twirl yarn guide 22, cooling unit 23, twister 24, tension
Sensor 30, secondary yarn feeding roller 25, doubling device 26, reheating unit 27, three times yarn feeding roller 28 etc.) respectively with from bobbin
Frame 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 just
Body longitudinal direction (direction vertical with the paper of Fig. 1) hand over, horizontal is arranged with multiple long in body longitudinal direction
Device.In addition, hereinafter, the direction (left and right directions of Fig. 1) orthogonal and horizontal with body longitudinal direction to be defined as to " body is wide
The direction (up and down direction of Fig. 1) that gravity is acted on is defined as vertical direction and is illustrated by degree direction ".In addition, will be with figure
Nearby side and depth side in the orthogonal direction of 1 paper are respectively defined as " the nearby side " of body longitudinal direction, " depth
Side ", by the upside of Fig. 1 and downside be respectively defined as " upside " of vertical direction, " downside " and be illustrated.In addition, in vacation
It twists in processing machine 1, bobbin cradle 11, yarn-finished portion 12 and winder 13 are in such a way that 11 side of bobbin cradle becomes outside in body
Width direction symmetrically configures.In addition, the movement of false twist processing machine 1 is controlled by control device 10.
Bobbin cradle 11 has multiple creel 11a.Multiple creel 11a keep yarn feeding that S is wrapped respectively.
Yarn-finished portion 12 have a yarn feeding roller 20, primary heating unit 21, only twist yarn guide 22, cooling unit 23,
Twister 24, tension sensor 30, secondary yarn feeding roller 25, doubling device 26, reheating unit 27, three times yarn feeding roller 28
Deng.
Yarn feeding roller 20 is multiple relative to being provided independently from from multiple yarns Ys of yarn feeding package S supply, and along body
Longitudinal direction arrangement.Yarn feeding roller 20 conveys corresponding yarns Y towards primary heating unit 21.Primary heating unit 21 configures
The downstream side of a yarn feeding roller 20 in the yarn path of yarns Y.Primary heating unit 21 is relative to from a yarn feeding roller 20
It is arranged 1 in multiple yarns Ys that conveying comes per 4 adjacent one thread Y, and is arranged along body longitudinal direction.Each primary heating list
21 couples of corresponding 4 one thread Y of member are heated.
The detailed construction of primary heating unit 21 is illustrated.As shown in Figure 1 to 4, primary heating unit 21 has
31,2 the 1st heating device 32a of cabinet, 2 the 2nd heating device 32b and multiple insulations 33.
Cabinet 31 is the component of the rectangular shape using body width direction as longitudinal direction.In the inside shape of cabinet 31
At the storage space 31a having in lower end and body width direction both ends open.
2 the 1st heating device 32a and 2 the 2nd heating device 32b are incorporated in storage space 31a.In addition, 2 the 1st
Heating device 32a and 2 the 2nd heating device 32b are alternately arranged in body longitudinal direction.In addition, the 1st heating device 32a and the 2nd
Heating device 32b is in staggered configuration in vertical direction, and the 2nd heating device 32b is integrally located at as a result, leans on compared to the 1st heating device 32a
The position of upside.In addition, 2 the 1st heating device 32a and 2 the 2nd heating device 32b are located at identical height.By
This, 2 the 1st heating device 32a and 2 the 2nd heating device 32b are in zigzag configuration.
Here, different from present embodiment, such as, it is also considered that variation 4 (3 (a) referring to Fig.1) as be described hereinafter like that will
Primary heating unit 21 is formed as being accommodated with 1 the 1st heating device 32a and 1 the 2nd in the storage space 31a of 1 cabinet 31
Heating device 32b.In this case, relative to 2 heating devices (1 the 1st heating device 32a and 1 the 2nd heating device
32b) need 1 cabinet 31.In contrast, in the present embodiment, 2 are accommodated in the storage space 31a of 1 cabinet 31
1 heating device 32a and 2 the 2nd heating device 32b.Therefore, in the present embodiment, relative to 4 heating device (2 the 1st
Heating device 32a and 2 the 2nd heating device 32b) need 1 cabinet 31.As a result, in the present embodiment, and in 1 cabinet
The case where 31 storage space 31a is accommodated with 1 the 1st heating device 32a and 1 the 2nd heating device 32b compares, and can subtract
The quantity (keeping its approximately half of) of the whole cabinet 31 of few false twist processing machine 1, can make false twist processing machine 1 in body long side side
To miniaturization.
Each heating device 32a, 32b have upstream side heating part 34a and downstream side heating part 34b respectively.Downstream side heating
The downstream side (inside of body width direction) of upstream side heating part 34a of the 34b configuration in portion in the yarn path of yarns Y.Separately
Outside, upstream side heating part 34a and downstream side heating part 34b have heat block 35, heat generating components 36, temperature sensor respectively
37。
Heat block 35 be made of metal material, using body width direction as the portion of the rectangular shape of longitudinal direction
Part.But the heat block 35 for constituting downstream side heating part 34b is wider in body than the heat block 35 for constituting upstream side heating part 34a
The length for spending direction is long.In addition, as described above, the 2nd heating device 32b is integrally located at the upside of the 1st heating device 32a.As a result,
The heat block 35 of 1st heating device 32a and the heat block 35 of the 2nd heating device 32b are from body longitudinal direction even to connect
The all nonoverlapping degree in part is in staggered configuration in vertical direction.
In addition, being formed with yarn traveling slot 38 in heat block 35.Yarn traveling slot 38 is formed in the body of heat block 35
Central portion in longitudinal direction extends in body width direction throughout the overall length of heat block 35, and wide in lower end and body
Spend the both ends open in direction.It is made of ceramic material etc. and in addition, being provided in yarn traveling slot 38 along body width direction
Separate arbitrary spaced multiple yarn guides 71.The yarns Y advanced in yarn traveling slot 38 is drawn by multiple yarn guides 71
Lead, thus by with heat block 35 it is discontiguous in a manner of in yarn traveling slot 38 along body width direction advance.
In addition, each heat block 35 be located at yarn traveling slot 38 just on part, be formed in body width direction
Extend throughout the overall length of heat block 35 and in the both ends open of body width direction, insert for inserting heat generating components 36
Hole 39.In addition, the central portion on the upper surface of each heat block 35, body longitudinal direction and body width direction, forms
There is recess portion 40.
Here, heat block 35 by the block piece 35a of one half part of nearby side formed in body longitudinal direction and formed into
The block piece 35b of deep one half part of side is engaged and is formed.Moreover, being formed with nearby side one of yarn traveling slot 38 on block piece 35a
One half part of nearby side of half part, one half part of nearby side of insertion hole 39 and recess portion 40, is formed with yarn on block piece 35b
One half portion of depth side of one half part of depth side of line traveling slot 38, one half part of depth side of insertion hole 39 and recess portion 40
Point.
Heat generating components 36 is nichrome wire heater, sheath heater etc., and is inserted through insertion hole 39.In addition, hair
Thermal part 36 is drawn from insertion hole 39 towards the two sides of body width direction, and is assigned circuit 29 with electric current and connect.
It is the circuit for making heat generating components 36 flow through electric current that electric current, which assigns circuit 29,.Moreover, if assigning electricity using electric current
Road 29 makes heat generating components 36 flow through electric current, then heat generating components 36 generates heat, and heat block 35 is heated.In addition, electric current assigns circuit 29
It is formed to independently change the hair of each heat block 35 in each 1st heating device 32a and each 2nd heating device 32b
The electric current flowed in thermal part 36.
Temperature sensor 37 is incorporated in the recess portion 40 of heat block 35.Temperature sensor 37 is for detecting heat block 35
Temperature component.
Multiple insulations 33 are accommodated with the storage sky of 2 the 1st heating device 32a and 2 the 2nd heating device 32b to fill
Between the mode in gap of 31a configure.But multiple insulations 33 are in storage space 31a, positioned at each heat block 35 to avoid
The mode of the part of the downside of yarn traveling slot 38 configures.As a result, in the downside of the yarn traveling slot 38 of each heat block 35, formed
There is the slit 19 in the both ends open of the lower end and body width direction of vertical direction.Thereby, it is possible to from downside via slit
19 are inserted into yarns Y towards yarn traveling slot 38.
Moreover, in the 4 one thread Y to advance in 1 primary heating unit 21, nearly front from body longitudinal direction
1st, the 3rd this 2 one thread Y advance in the yarn traveling slot 38 of 2 the 1st heating device 32a.In addition, in this 4 one thread
Y, the yarn from the 2nd, the 4th this 2 one thread of nearly front of body longitudinal direction in 2 the 2nd heating device 32b advances
It advances in slot 38.Moreover, the yarns Y advanced in yarn traveling slot 38 by the heat in the yarn traveling slot 38 of heat block 35 and
It is heated.
Only twirl yarn guide 22 has been provided independently from multiple relative to multiple yarns Ys, and is configured in the yarn path of yarns Y
Primary heating unit 21 tight upstream side.In addition, these multiple yarn guides 22 of only twisting are arranged along body longitudinal direction.It only twists and leads
Yarn device 22 is transferred to for preventing from twisting compared to the only position of twirl yarn guide 22 on the upstream side when twisting as described later to yarns Y
Component.Here, it only twists yarn guide 22 and is arranged 1 relative to every 1 one thread.
The downstream side of primary heating unit 21 of the configuration of cooling unit 23 in the yarn path of yarns Y.Cooling unit 23
Have 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 is provided independently from multiple relative to multiple yarns Ys.These multiple cooling devices 41 are multiple 1
Cooling device 41a and multiple 2nd cooling device 41b are alternately arranged along body longitudinal direction.Multiple 1st cooling device 41a and
Multiple 2nd cooling device 41b are arranged in identical height along body longitudinal direction respectively.In addition, the 1st cooling device 41a and the 2nd
Cooling device 41b is in staggered configuration on the direction orthogonal with the lower surface of aftermentioned common pipeline 42,43 (from body longitudinal direction
Observation is in staggered configuration), the 2nd cooling device 41b is located at the position upper compared to the 1st cooling device 41 as a result,.
As shown in figures 5-8, each cooling device 41 has a pair of opposed component 51a, 51b and independent tubes 52.Opposed portion
Part 51a, 51b be in body width direction it is long, from body width direction from by substantially in "U" word in a manner of be bent over,
The plate body being made of metal material.Opposed component 51a and 51b body longitudinal direction be separated for use in make yarns Y advance between
Gap 51c and it is opposed.
In addition, being provided in the opposed faces 51a1 opposed with opposed component 51b of opposed component 51a along in the 51c of gap
Yarns Y direction of travel arrangement multiple contact portion 71a.In addition, in the opposed with opposed component 51a of opposed component 51b
Opposed faces 51b1 is provided with multiple contact portion 71b of the direction of travel arrangement along the yarns Y in the 51c of gap.In addition, multiple
Contact portion 71a and multiple contact portion 71b cross-shaped arrangement from upside.Moreover, the yarns Y advanced in the 51c of gap with
Contact portion 71a, 71b contact, thus the yarns Y is suppressed along the vibration of body longitudinal direction.
Independent tubes 52 be configured at opposed component 51a, 51b just on, and spread opposed component 51a, 51b longitudinal direction
Overall length extend.In the inside of independent tubes 52, the substantially overall length being formed in the longitudinal direction of independent tubes 52 extends
Inner space 52a.Moreover, opposed component 51a, 51b are installed on the lower surface of independent tubes 52.In addition, in independent tubes 52
Lower end, the part of gap 51c between opposed component 51a and 51b overlapping, along the longitudinal direction of independent tubes 52
It is formed with multiple intercommunicating pore 52b at substantially equal intervals.Gap 51c is via in multiple intercommunicating pore 52b and independent tubes 52 as a result,
Portion space 52a connection.In addition, in the upper end of independent tubes 52, and be the central portion in the longitudinal direction of independent tubes 52, shape
It is as described later for carrying out the intercommunicating pore 52c connecting between connecting pipe road 44,45 at having.
Here, opposed component 51a, 51b are illustrated relative to the mounting structure of independent tubes 52.Opposed component 51a
The lower surface of independent tubes 52 is fixed in by bolt 72.In addition, the portion of the formation opposed faces 51a1 in opposed component 51a
Point, and location hole 73a is respectively formed with for the central portion and both ends of the longitudinal direction of opposed component 51a.In addition, opposed
The part of the downside positioned at each location hole 73a of component 51a is formed with guidance insertion hole 74a.
Location hole 73b is formed in the part opposed with each location hole 73a of opposed component 51b.In addition, in opposed component
It between 51a and opposed component 51b, and is to be overlapped with the central portion of the longitudinal direction of opposed component 51a, 51b and both ends
Part is each configured with spacer 50.The through hole 50a Chong Die with location hole 73a, 73b is formed on spacer 50.Fixed
Insert has positioning pin 76 in hole 73a, the 73b and through hole 50a of position.Opposed component 51b is via positioning pin 76 and opposed as a result,
Component 51a is installed in independent tubes 52, and carries out the positioning of the up and down direction relative to opposed component 51a.In addition, positioning
Pin 76 is fixed in opposed component 51b.
In addition, being formed with guidance insertion hole 74b in the part opposed with guidance insertion hole 74a of opposed component 51b.Drawing
Leading insert in insertion hole 74a, 74b has the ceramic guiding piece part 77 being made of ceramic material.Ceramic guiding piece 77, which is located at, to be compared
The yarns Y advanced in the 51c of gap position against the top, as described later, by being intended to edge with because of the flowing of the air in the 51c of gap
Yarns Y contact that vertical direction is vibrated, advancing in the 51c of gap, inhibits yarns Y this case that vibrating in vertical direction.
In addition, ceramic guiding piece 77 is fixed in opposed component 51b.
On the other hand, 3 bars 81 are provided in independent tubes 52.The long side side of independent tubes 52 is arranged in 3 bars 81
The side of the depth side of the body longitudinal direction of upward central portion and both ends, by the swing extended along body longitudinal direction
The bearing of axis 82 is swings freely, and the spring 83 by being set to swinging axle 82 exerts a force towards the nearby side of body longitudinal direction.
Moreover, the direction configuration that bar 81 is usually parallel with vertical direction with longitudinal direction.As a result, such as (a) of Fig. 6, Fig. 7
(a) shown in, the bar 81 to be exerted a force by spring 83 is contacted with positioning pin 76, and via positioning pin 76 to opposed component 51b towards opposed
Component 51a force.As a result, opposed component 51b between opposed component 51a to accompany the state of spacer 50 by towards opposed component
51a is pushed, to carry out the positioning of the body longitudinal direction relative to opposed component 51a.
On the other hand, when carrying out the cleaning of opposed faces 51a1,51b1 of opposed component 51a, 51b etc., as Fig. 6 (b),
Shown in (b) of Fig. 7, make bar 81 from (a) of Fig. 6, Fig. 7 (a) shown in position counterclockwise swing about 90 °.Then,
The direction configuration parallel with body width direction with the longitudinal direction of itself of bar 81, does not contact with positioning pin 76.Opposed portion as a result,
Part 51b is moved freely in body width direction.Moreover, if moving opposed component 51b towards from the direction that opposed component 51a leaves
Dynamic, then positioning pin 76 is deviate from from location hole 73a, and ceramic guiding piece 77 is deviate from from guidance insertion hole 74a.Thereby, it is possible to will be opposed
Component 51b is unloaded from independent tubes 52.Moreover, in the present embodiment, can will reveal being removed by opposed component 51b
The yarn that adheres on the opposed faces 51b1 of the opposed faces 51a1 of opposed component 51a out and the opposed component 51b being removed or
Finish etc. removes.At this point, the opposed component 51b dismantled also can be cleaned entirely.
1st common pipeline 42 is configured in the top of multiple cooling devices 41, and across multiple cooling devices 41 and along body
Longitudinal direction extends.Configure as a result, compared to the position of the 2nd cooling device 41b on the lower the 1st cooling device 41a relative to
2nd cooling device 41b is located at and the 1st common 42 opposite side of pipeline.In addition, the lower surface of the 1st common pipeline 42 is to lean on machine
Mode of the part of inside in body width direction then positioned at upside is tilted relative to body width direction.It is common the 1st
The inner space 42a extended in body longitudinal direction throughout its overall length is formed in pipeline 42.In addition, in the 1st common pipeline
42 inner space 42a is connected with the 1st air blower 46a.If driving the 1st air blower 46a, machine is generated in the 42a of inner space
The flowing of such air shown in arrow W11 in (a) in Fig. 5 of body longitudinal direction.In addition, in the 1st common pipeline 42
Lower end be formed with the multiple intercommunicating pore 42b being connected to inner space 42a.Here, multiple intercommunicating pore 42b are formed in will be more
Positioned at the machine of the 1st common pipeline 42 when a 1st cooling device 41a is divided into the group of 2 the 1st cooling device 41a adjacent to each other
Part between 2 the 1st cooling device 41a of the composition each group in body longitudinal direction.Here, symmetrical in body width direction
1st common pipeline 42 of configuration can also be connected to 1 in end and connect with 1 the 1st air blower 46a.
The 2nd common configuration of pipeline 43 is in the top of multiple cooling devices 41, with the body width side with the 1st common pipeline 42
The adjacent mode in upward outside configures, and extends across multiple cooling devices 41 along body longitudinal direction.It configures as a result,
The 1st cooling device 41a compared to the position of the 2nd cooling device 41b on the lower is total to relative to the 2nd cooling device 41b positioned at the 1st
It threads a pipe 42 opposite sides.In addition, the lower surface of the 2nd common pipeline 43 is to lean on the part of the inside in body width direction then
The mode positioned at upside is tilted relative to body width direction.It is formed in the 2nd common pipeline 43 throughout body long side
The inner space 43a that the overall length in direction extends.In addition, being connected with the 2nd air blower in the inner space 43a of the 2nd common pipeline 43
46b.If driving the 2nd air blower 46b, generated in the 43a of inner space such shown in arrow W21 in (b) of Fig. 7
The flowing of the air of body longitudinal direction.It is connected in addition, being formed in the lower end of the 2nd common pipeline 43 with inner space 43a
Multiple intercommunicating pore 43b.Here, multiple intercommunicating pore 43b be formed in by multiple 2nd cooling device 41b be divided into mutually it is adjacent
2 the 2nd cooling device 41b group when 2 the 2nd of composition each group in the body longitudinal direction of the 2nd common pipeline 43
Part between cooling device 41b.Here, the 2nd of balanced configuration the common pipeline 43 can also be at end in body width direction
End is connected to 1 and connect with 1 the 2nd air blower 46b.
Group each setting 1 of the 1st connecting pipe road 44 relative to each above-mentioned the 1st cooling device 41a of adjacent 2,
And it is configured between the 1st cooling device 41a and the 1st common pipeline 42 in vertical direction.1st connecting pipe road 44 is in upper end
Intercommunicating pore 42b connection corresponding with the 1st common pipeline 42.In addition, the 1st connecting pipe road 44 is from connecting with intercommunicating pore 42b
Coupling part extends towards downside, midway towards body longitudinal direction two sides branch and bending, and further in its front end court
Downside bending is connect with the intercommunicating pore 52c of the independent tubes 52 of the 1st cooling device 41a.Above-mentioned 2 the 1st cooling devices as a result,
Inner space 52a via independent tubes 52 of gap 51c between the opposed component 51a and 51b of 41a, the 1st connecting pipe road 44
Inner space 44a be connected to the inner space 42a of the 1st common pipeline 42.
Group each setting 1 of the 2nd connecting pipe road 45 relative to each above-mentioned the 2nd cooling device 41b of adjacent 2,
And it is configured between the 2nd cooling device 41b and the 2nd common pipeline 43 in vertical direction.2nd connecting pipe road 45 is in upper end
It is connect with the intercommunicating pore 43b of the 2nd common pipeline 43.In addition, the 2nd connecting pipe road 45 is from the interconnecting piece connecting with intercommunicating pore 43b
Point towards downside extend, midway towards body longitudinal direction two sides branch and bending, and further its front end towards downside roll over
It is curved, it is connect with the intercommunicating pore 52c of the independent tubes 52 of the 2nd cooling device 41b.Pair of above-mentioned 2 the 2nd cooling device 41b as a result,
The gap 51c between component 51a and 51b is set via in the inner space 52a of independent tubes 52 and the 2nd connecting pipe road 45
Portion space 45a is connect with the inner space 43a of the 2nd common pipeline 43.
Moreover, in cooling unit 23, using blower motor 47a, 47b blower 46a, 46b, to make the 1st
The inner space 43a of the common pipeline 43 of inner space 42a and the 2nd of common pipeline 42 is generated such as (a) of Fig. 5, (b) respectively
The flowing of the air of body longitudinal direction as arrow W11, W21.Then, cold along with the flowing of these air, the 1st, the 2nd
But the air of the gap 51c between the opposed component 51a and 51b of device 41a, 41b is respectively as used arrow in (a) of Fig. 5, (b)
Shown in W12, W22 like that via the inner space 52a of the independent tubes 52 and inner space 44a in connecting pipe road 44,45,
45a flows into inner space 42a, 43a of common pipeline 42,43.The flowing for generating air in the 51c of gap as a result, in gap
The yarns Y advanced in 51c is cooled.
Twister 24 be provided independently from relative to multiple yarns Ys it is multiple, and configure in the downstream side of cooling device 41.Separately
Outside, these multiple twisters 24 are that multiple 1st twister 24a and multiple 2nd twister 24b are along body longitudinal direction
It is alternately arranged.In addition, the 2nd twister 24b be configured on the outside of from the 1st twister 24a towards body width direction and on
The position that side is staggered (the 1st twister 24a and the 2nd twister 24b are in staggered configuration from body longitudinal direction).As a result,
Match in an overlapping manner from body longitudinal direction with not making the 1st twister 24a and the 2nd twister 24b be staggered
The case where setting compares, and can configure twister 24 to high-density.
Twister 24 twists yarns Y.At this point, the direction twisted in the 1st twister 24a and the 2nd twister 24b
As opposite direction.In addition, at this point, being located at only between twirl yarn guide 22 and the 1st, the 2nd twister 24a, 24b in yarns Y
Part be twisted.In addition, at this point, yarns Y by primary heating unit 21 heat on the basis of be twisted, the yarn after being twisted
Line Y is cooled down by cooling unit 23.In addition it is also possible to be the direction twisted in the 1st twister 24a and the 2nd twister 24b
As identical direction.
Here, to the configuration of heating device 32a, 32b, the configuration of cooling device 41a, 41b, twister 24a, 24b's
Relationship between configuration is illustrated.In yarn-finished portion 12, yarns Y is successively in the yarn traveling slot of the 1st heating device 32a
38, it advances in the gap 51c and the 1st twister 24a of the 1st cooling device 41a.Therefore, it in yarn-finished portion 12, needs
So that heating device 32a, the 1st cooling device 41a and the 1st twister 24a configuration are being able to maintain that yarns Y appropriate
Mode on the yarn path of bending angle determines heating device 32a, the 1st cooling device 41a, between the 1st twister 24a
Positional relationship.In addition, yarns Y is successively cold in the yarn traveling slot the 38, the 2nd of the 2nd heating device 32b in yarn-finished portion 12
But it advances in the gap 51c and the 2nd twister 24b of device 41b.Therefore, it in yarn-finished portion 12, needs to be formed with
The mode of yarn path appropriate determines the 2nd heating device 32b, the 2nd cooling device 41b, the position between the 2nd twister 24b
Set relationship.
At this point, be different from the present invention, if such as with Japanese Unexamined Patent Publication 11-107084 bulletin documented by mode phase
Together, independent tubes 52 and connecting pipe road 44,45 are not provided with, opposed component 51a, 51b of each cooling device 41 siphunculus together
The lower surface in road 42,43 directly engages, thus make gap 51c thread a pipe together 42,43 inner space 42a, 43a connection, then
Cooling device 41a, 41b can not be left configuration from common pipeline 42,43.Therefore, it is impossible to which the 1st cooling device 41a and the 2nd is cold
But device 41b is in staggered configuration in 42, the 43 orthogonal direction (from body longitudinal direction) in lower surface of threading a pipe together.Knot
Fruit, as described above, being filled when by the twisting of the 1st heating device 32a and the 2nd heating device 32b and the 1st twister 24a and the 2nd
It, can not be by the 1st cooling device 41a and the 2nd cooling device 41b according to heating device 32a, 32b when setting 24b and being in staggered configuration respectively
And twister 24a, 24b configuration and configure on the yarn path of bending angle for being able to maintain that yarns Y appropriate.
In contrast, in the present embodiment, the 1st cooling device 41a and the 2nd cooling device 41b from common pipeline 42,
43 leave configuration, also, the 1st cooling device 41a and the 2nd cooling device 41b thread a pipe together 42,43 lower surface it is orthogonal
Direction is in staggered configuration.Moreover, via the 1st connecting pipe road 44, the common pipeline 42 of gap 51c and the 1st of the 1st cooling device 41a
Inner space 42a connection, via the 2nd connecting pipe road 45, the common pipeline 43 of gap 51c and the 2nd of the 2nd cooling device 41b
Inner space 43a connection.
In this way, in the present embodiment, the 1st cooling device 41a and the 2nd cooling device 41b can threaded a pipe together
42, the orthogonal direction in 43 lower surface is in staggered configuration, therefore, can be by the 1st cooling device 41a and the 2nd cooling device 41b root
It configures according to the configuration of heating device 32a, 32b and twister 24a, 24b in the bending angle for being able to maintain that yarns Y appropriate
Yarn path on.
In addition, in the present embodiment, the 1st cooling device 41a and the 2nd cooling device 41b are respectively from the 1st common pipeline
42 and the 2nd common pipeline 43 leaves.However, in the present embodiment, even if in the 1st, the 2nd cooling device 41a, 41b and
It, also can be cooling by the 1st via the 1st connecting pipe road 44 in the case that 1st, the 2nd common pipeline 42,43 configures in this way
The gap 51c of device 41a is connect with the inner space 42a of the 1st common pipeline 42, and can be via the 2nd connecting pipe road 45
The gap 51c of 2nd cooling device 41b is connect with the inner space 43a of the 2nd common pipeline 43.
At this point, as described above, the 1st cooling device 41a relative to the 2nd cooling device 41b configure with the 1st common pipeline 42
Opposite side.However, in the present embodiment, connecting pipe road 44 is arranged 1 relative to every 2 adjacent the 1st cooling device 41a
It is a.Therefore, it can be connected via the 1st connecting pipe road 44 in the common pipeline 42 of gap 51c and the 1st of the 1st cooling device 41a
Portion space 42a.
Also, in the present embodiment, due to like this can be by the 1st cooling device 41a and the 2nd cooling device 41b
Both sides leave configuration from the 1st common pipeline 43 of common pipeline 42 and the 2nd respectively, therefore, with as aftermentioned variation 2
Opposed component 51a, 51b of 2 cooling device 41b threads a pipe the lower surfaces of 122 (referring to Fig.1 1) the case where directly engaging phase together
Compare, the freedom degree of the configuration of the 1st cooling device 41a and the 2nd cooling device 41b is high.Thereby, it is possible to by the 1st cooling device 41a
And the 2nd cooling device 41b more reliably configured according to the configuration of heating device 32a, 32b and twister 24a, 24b
On the yarn path of bending angle for being able to maintain that yarns Y appropriate.
Tension sensor 30 be provided independently from relative to multiple yarns Ys it is multiple, and configure in the downstream side of twister 24.
In addition, these multiple tension sensors 30 are, the yarns Y after false twisting processing is implemented by the 1st twister 24a for detecting
Multiple 1st tension sensor 30a of tension and for detect by multiple 2nd twister 24b implement false twisting processing after yarn
Multiple 2nd tension sensor 30b of the tension of line Y, are alternately arranged in body longitudinal direction.In addition, the 2nd tension sensor
30b configuration is in the position upper compared to the 1st tension sensor 30a.The detection of tension sensor 30 is implemented by twister 24
The tension of yarns Y after false twisting processing.The testing result of the tension of the yarns Y detected using tension sensor 30 is for example in institute
It is used in judgement of quality of package P1, P2 (referring to Fig. 9) of formation etc..
Secondary yarn feeding roller 25 be provided independently from relative to multiple yarns Ys it is multiple, and configure in the yarn path of yarns Y
The downstream side of tension sensor 30.In addition, these multiple secondary yarn feeding rollers 25 are arranged along body longitudinal direction.Secondary yarn feeding roller 25
It is conveyed the yarns Y after false twisting processing is implemented by twister 24 via doubling device 26 towards reheating unit 27, or
It is directly conveyed towards reheating unit 27 not via doubling device 26.In addition, utilizing the defeated of secondary 25 delivered yarn Y of yarn feeding roller
Send speed faster than using the conveying speed of a 20 delivered yarn Y of yarn feeding roller, yarns Y is by a yarn feeding roller 20 and secondary yarn feeding
The difference of the conveying speed of roller 25 and be stretched.In addition, after only twirl is thermally fixed between twirl yarn guide 22 and twister 24
Yarns Y is between twister 24 and secondary yarn feeding roller 25 by backtwisting.The twirl of yarns Y is released from as a result, but due to yarns Y
Twirl be thermally fixed, therefore each long filament be formed as form wave-shaped, be applied false twisting after state.
Doubling device 26 is relative to every adjacent 2 one thread Y (1 after implementing false twisting processing by the 1st twister 24a
One thread, 2 twister 24b of He You implement 1 one thread after false twisting processing, add up to 2 one thread Y) setting 1, and
The downstream side of secondary yarn feeding roller 25 is arranged along body longitudinal direction.Doubling device 26 is by corresponding 2 one thread Y doubling.
Reheating unit 27 configures in the downstream side of doubling device 26.Reheating unit 27 is, for example, to utilize thermal medium
Yarn travel section is heated to the heating device of homogenization temperature, is constituted are as follows: makes to send out by assigning circuit (not shown) using electric current
Thermal part (not shown) flows through electric current and is heated thermal medium.Moreover, reheating unit 27 is using the warm of thermal medium to quilt
Yarns Y after implementing stretching, false twisting processing implements defined heat treatment without tension.
Yarn feeding roller 28 is provided independently from multiple relative to multiple yarns Ys three times, and is configured in the yarn path of yarns Y
The downstream side of reheating unit 27.In addition, these multiple rollers of yarn feeding three times 28 are arranged along body longitudinal direction.Yarn feeding roller three times
28 convey the yarns Y after heat treatment without tension has been carried out towards winder 13.In addition, yarn feeding roller 28 and reheating unit three times
27 configure in body width direction interval.It is provided in space between reheating unit 27 and three times yarn feeding roller 28
Perhaps Mobile workbench operator can carry out the operations such as repiece to operation post not shown on the operation post or Mobile workbench.
Winder 13 has multiple winding devices 60.In addition, these multiple winding devices 60 are along vertical direction and body
Longitudinal direction arrangement.In addition, winding device 60 such as has reel cage 61, take-up roll 62, traversing gear 63 shown in (a) of Fig. 9, (b).
On reel cage 61, as shown in (a) of Fig. 9,1 bobbin B1 can be installed.Moreover, 2 in doubling device 26
In the case that yarns Y is by doubling, 1 bobbin B1 is installed on reel cage 61.In addition, on reel cage 61, as shown in (b) of Fig. 9,
Instead of 1 bobbin B1, axial length can also be installed for the approximately half of of bobbin B1 and in the 2 bobbin B2 axially linked.
Moreover, being equipped with 2 bobbin B2 on reel cage 61 in the case that 2 one thread Y are not by doubling in doubling device 26.
It is installed on bobbin B1, B2 of reel cage 61 direction configuration parallel with body longitudinal direction with axial direction, and by reel cage 61
It rotatably supports.Take-up roll 62 extends along body longitudinal direction, with the surface of bobbin B1, B2 for being installed on reel cage 61, logical
It crosses and is winding the doubling Ya of 2 one thread Y on bobbin B1 and the package P1 that is formed or and the winding yarn Y on bobbin B2
The surface contact of the package P2 of formation.Collecting motor 64 is connected in take-up roll 62.Moreover, if driving collecting motor 64,
Take-up roll 62 rotates, with this linkage, bobbin B1, the B2 contacted with take-up roll 62 or package P1, P2 rotation.Doubling Ya as a result,
It is wound in bobbin B1 or yarns Y is wound in bobbin B2.Here, collecting motor 64 can also directly drive to be installed on and shake
Bobbin B1, B2 of frame 61.At this point, take-up roll 62 becomes the driven voller that the rotation with bobbin B1, B2 rotates in linkage.
Traversing gear 63 configures the upstream side of the reel cage 61 in the yarn path of yarns Y and take-up roll 62.Traversing dress
Setting 63 has 67,23 belt wheel 66a~66c, cricoid band traverse guides 68.Belt wheel 66a and belt wheel 66b are in body long side
The configuration of direction interval.Belt wheel 66c is configured between the belt wheel 66a and 66b in body longitudinal direction from belt wheel 66a, 66b
The position being staggered on the inside of towards body width direction.Belt wheel 66c is connect with traversing motors 69, if driving traversing motors 69, band
Take turns 66c rotation.Band 67 is hung on 3 belt wheel 66a~66c.2 traverse guides 68 band 67 be located at belt wheel 66a and 66b it
Between spaced-apart interval installation.In addition, the traverse guide 68 of the side in 2 traverse guides 68 can be torn open from band 67
It unloads.
Moreover, in the case that 2 one thread Y are by doubling in doubling device 26, as shown in (a) of Fig. 9, one side
Traverse guide 68 is unloaded from band 67 in advance, from yarn-finished portion 12 towards winder 13 conveying come doubling Ya be hung on it is another
It is conveyed on the basis of the traverse guide 68 of side towards take-up roll 62.On the other hand, when not carrying out 2 in doubling device 26
In the case where the doubling of yarns Y, as shown in (b) of Fig. 9,2 68 both sides of traverse guide are installed in band 67, from yarn plus
It is in the yarns Y that the Ministry of worker 12 comes towards the conveying of winder 13, implement by the 1st twister 24a the yarns Y after false twisting processing and hang
It is conveyed on the basis of the traverse guide 68 of Yu Yifang towards take-up roll 62, after implementing false twisting processing by the 2nd twister 24b
Yarns Y conveyed on the basis of being hung on traverse guide 68 of another party towards take-up roll 62.
In traversing gear 63, if driving traversing motors 69 and making belt wheel 66c positive and negative rotation, band 67 is advanced and belt wheel
The driven rotation of 66a, 66b.Traverse guide 68 is moved back and forth along the axial direction (body longitudinal direction) of bobbin B1, B2 as a result, is hung on
The axial traversing of the doubling Ya of traverse guide 68 or yarns Y along bobbin B1, B2.
Moreover, doubling Ya is wound in bobbin B1 while making axial traversing of the doubling Ya along bobbin B1 by winding device 60
And package P1 is formed, or this 2 one thread Y is wound in 2 cylinders while making 2 one thread Y along the axial traversing of bobbin B2
Pipe B2 and formed package P2.
Next, being illustrated to the control device 10 of the movement of control false twist processing machine 1.Control device 10 is by CPU
The structures such as (Central Processing Unit), ROM (Read Only Memory), RAM (Random Access Memory)
At.In addition, control device 10 as shown in Figure 1, shown in Figure 5 via inverter circuit 54 with air blower 46a, 46b (strictly speaking for for driving
The motor of dynamic air blower 46a, 46b) connection, air blower 46a, 46b are controlled by carrying out the control relative to inverter circuit 54
Movement.Here, inverter circuit 54 can be provided independently from relative to each air blower 46a, 46b, can also be relative to 2 or more
Air blower 46a, 46b be commonly arranged.
In addition, control device 10 assigns circuit 29 and each heating device 32a, 32b via electric current as shown in figure 1, figure 3 and figure 4
Heat generating components 36 connect, flowed in heat generating components 36 by controlled relative to the control that electric current assigns circuit 29
Electric current.Here, electric current assigns circuit 29 and can be provided independently from relative to each heat generating components 36, can also be relative to 2 or more
Heat generating components 36 be commonly arranged.In addition, control device 10 is connect with temperature sensor 37 as shown in Figure 3, Figure 4, from temperature
Sensor 37 receives signal relevant to the temperature of heat block 35.
Although in addition, omit detailed description, control device 10 in addition to this also with yarn feeding roller 20, a twister
24, tension sensor 30a, 30b, secondary yarn feeding roller 25, reheating unit 27, three times yarn feeding roller 28, winding device 60, traversing
The connection such as device 63 (motor being connect with belt wheel 66c), and control the movement of these components.
Next, to the electric current that is carried out by control device 10 assign the control (temperature of heat block 35 controls) of circuit 29 into
Row explanation.In ROM of control device 10 etc., in advance for example for each type of yarns Y, it is stored with and is filled relative to each heating
Set the set temperature of the heat block 35 of the upstream side heating part 34a and downstream side heating part 34b in 32a, 32b.Moreover, operation
If person operate etc. and select to operation portion (not shown) the type of the yarns Y heated in each heating device 32a, 32b,
According to the type of selected yarns Y, independently determine relative to the upstream side heating part 34a in each heating device 32a, 32b
And the set temperature of the heat block 35 of downstream side heating part 34b.
Moreover, control device 10 is based on the temperature detected using temperature sensor 37, so that the temperature of each heat block 35
The mode close to determined set temperature is spent, control electric current assigns circuit 29.It is illustrated in more details, for example, utilizing
In the case that the temperature that temperature sensor 37 detects is lower than set temperature, then to be got over the big situation of the difference of set temperature
The mode for increasing the electric current flowed in corresponding heat generating components 36 controls electric current and assigns circuit 29.On the other hand, temperature is being utilized
In the case that the temperature that detects of degree sensor 37 is higher than set temperature, then more to subtract with the big situation of the difference of set temperature
The mode of the small electric current flowed in corresponding heat generating components 36 controls electric current and assigns circuit 29.
Moreover, in the present embodiment can be only by controlling electric current imparting circuit 29 using control device 10 like this
The temperature of the heat block 35 of upstream side heating part 34a in Site control each heating device 32a, 32b and each heating device
The temperature of the heat block 35 of downstream side heating part 34b in 32a, 32b.As a result, in yarn-finished portion 12, to multiple types
Yarns Y (for example, material or thickness etc. different yarn) twisting in the case where, each yarns Y can be independently heated to
Its type is corresponding, is suitble to the temperature twisted using twister 24.
For example, when the yarns Y advanced in the yarn traveling slot 38 of the 1st heating device 32a is cation dyeable polyester yarn
(CD yarn) in the case that the yarns Y advanced in the yarn traveling slot 38 of the 2nd heating device 32b is polyester yarn, makes the 2nd heating
Upstream side heating part 34a of the temperature than the 1st heating device 32a of the heat block 35 of the upstream side heating part 34a of device 32b adds
The temperature of heat block 35 is high, and heats the temperature of the heat block 35 of the downstream side heating part 34b of the 2nd heating device 32b than the 1st
The temperature of the heat block 35 of the downstream side heating part 34b of device 32a is high.The heat ratio pair that thereby, it is possible to make to assign polyester yarn
The heat that cation dyeable polyester yarn assigns is big.Here, cation dyeable polyester yarn, which refers to, is contaminated in easy by the dye of positive ion
The polyester yarn of the state of color.In the present embodiment, the heat due to that can make to assign cation dyeable polyester yarn like this
It is different from the heat assigned to polyester yarn, therefore cation dyeable polyester yarn and polyester yarn can be separately heated to appropriate
Temperature.
In addition, in the present embodiment, as described above, in each heating device 32a, 32b, downstream side heating part 34b's
Length of the length of the body width direction of heat block 35 than the body width direction of the heat block 35 of upstream side heating part 34a
It is long.In addition, as described above, in each heating device 32a, 32b, the setting of the heat block 35 relative to upstream side heating part 34a
Temperature is higher than the set temperature of the heat block 35 relative to downstream side heating part 34b.As a result, in each heating device 32a, 32b,
When advancing in the yarn traveling slot 38 in upstream side heating part 34a, temperature sharp rises yarns Y in a short time, thereafter,
When advancing in the yarn traveling slot 38 in downstream side heating part 34b, expend than the yarn traveling slot in upstream side heating part 34a
Longer time when advancing in 38 and temperature slowly rises.
In addition, in the present embodiment, as described above, the heat block 35 and the 2nd heating device 32b of the 1st heating device 32a
Heat block 35 be in staggered configuration with the even all nonoverlapping degree in part in vertical direction from body longitudinal direction.Cause
This, it is complete from body longitudinal direction with the heat block 35 of the 1st heating device 32a and the heat block 35 of the 2nd heating device 32b
The case where overlapping or part the case where being overlapped as aftermentioned variation 5, compare, it is difficult to generate the 1st heating device 32a's
Heat transmitting between heat block 35 and the heat block 35 of the 2nd heating device 32b.Also, in the present embodiment, to fill heating
The mode in the gap for the storage space 31a that device 32a, 32b are contained is configured with multiple insulations 33, therefore, in the 1st heating
It is more difficult to generate hot transmitting between the heat block 35 of device 32a and the heat block 35 of the 2nd heating device 32b.
Accordingly, in the present embodiment, it is difficult to generate the heat block 35 and the 2nd heating device 32b of the 1st heating device 32a
Heat block 35 between heat interference.Therefore, the temperature of the heat block 35 of each heating device 32a, 32b can be reliably made to become
Set temperature.
In addition, as described above, working as to utilize heating device 32a, 32b respectively to cation dyeable polyester yarn and polyester
Yarn is heated, and makes the set temperature of the heat block 35 of the upstream side heating part 34a of the 2nd heating device 32b than the 1st heating device
The set temperature of the heat block 35 of the upstream side heating part 34a of 32a is high, and makes the downstream side heating part of the 2nd heating device 32b
The set temperature of the heat block 35 of downstream side heating part 34b of the set temperature of the heat block 35 of 34b than the 1st heating device 32a
Gao Shi, the heat of the heat block 35 of the 2nd heating device 32b, which is difficult to be transferred to, to be located at compared to the position of the 2nd heating device 32b on the lower
The 1st heating device 32a heat block 35.Therefore, in this case, each heating device 32a, 32b can more reliably be made
The temperature of heat block 35 becomes set temperature.
In addition, when the yarns Y advanced in the yarn traveling slot 38 of the 1st heating device 32a and in the 2nd heating device 32b
Yarn traveling slot 38 in the case that the yarns Y advanced is the identical yarn of type, heated in the 1st heating device 32a and the 2nd
In device 32b, keep the set temperature of the heat block 35 of upstream side heating part 34a identical, and make the heating of downstream side heating part 34b
The set temperature of block 35 is identical.Even if as a result, in this case, yarns Y can be also heated to temperature appropriate.
Next, being illustrated to the control of air blower 46a, 46b for being carried out by control device 10.When in the 1st cooling dress
It sets the yarns Y advanced in the gap 51c of 41a, be yarn of the same race with the yarns Y advanced in the gap 51c of the 2nd cooling device 41b
In the case where line, control device 10 rotates air blower 46a, 46b with identical speed.As a result, the 1st cooling device 41a's
The flowing that the air of same degree is generated in the gap 51c of gap 51c and the 2nd cooling device 41b, the 1st cooling device 41a's
The yarns Y advanced in the 51c of gap and the yarns Y advanced in the gap 51c of the 2nd cooling device 41b are cooled to same degree.
On the other hand, when the yarns Y advanced in the gap 51c in the 1st cooling device 41a and the 2nd cooling device 41b's
In the case that the type (material, thickness etc.) for the yarns Y advanced in the 51c of gap is different, control device 10 passes through according to these yarns
The type of line Y rotates air blower 46a and 46b with different rotation speeds, thus makes the inner space of the 1st common pipeline 42
The flow velocity of air in the inner space 43a of the flow velocity of air in 42a and the 2nd common pipeline 43 is different.Thereby, it is possible to make
It the flow velocity of the air flowed in the gap 51c of 1st cooling device 41a and is flowed in the gap 51c of the 2nd cooling device 41b
The flow velocity of air is different, can be by the yarns Y advanced in the gap 51c of the 1st cooling device 41a and in the 2nd cooling device
The yarns Y advanced in the gap 51c of 41b is cooled to degree appropriate corresponding with the type of yarns Y.
For example, being cation dyeable polyester yarn using the 1st cooling device 41a cooling yarns Y, utilizing the 2nd cooling dress
In the case where the cooling yarns Y of 41b is set as polyester yarn, by making the rotation speed of the 2nd air blower 46b than the 1st air blower 46a's
Rotation speed is fast, and the heat that the heat ratio captured from polyester yarn can be made to capture from cation dyeable polyester yarn is big.In this implementation
In mode, due to that can make the heat captured from cation dyeable polyester yarn different from the heat captured from polyester yarn like this,
Therefore cation dyeable polyester yarn and polyester yarn can be cooled to temperature appropriate respectively.
Next, explanation is applied with the variation after various changes to present embodiment.
In the above-described embodiment, the 1st cooling device 41a is connect with the 1st common pipeline 42, and in contrast, the 2nd is cooling
Device 41b is connect with the 2nd common pipeline 43, and but it is not limited to this.In variation 1, as shown in Figure 10, across in above-mentioned reality
The mode in the region that the 1st common pipeline 43 of common pipeline 42 and the 2nd is configured in mode is applied configured with 1 common pipeline
111 (" the 1st common pipelines " of the invention).111 connections moreover, connecting pipe road 44,45 is threaded a pipe together.
It, can be cooling by the 1st cooling device 41a and the 2nd even if in this case, also identical as above-mentioned embodiment
Device 41b is configured according to the configuration of heating device 32a, 32b and twister 24a, 24b and is being able to maintain that yarn appropriate
On the yarn path of the bending angle of Y.In addition, in this case, it is different from above-mentioned embodiment, it can not be in the 1st cooling device
The flow velocity of the air flowed in the 51c of gap is independently changed in 41a and the 2nd cooling device 41b.However, for example, by the 1st
The yarns Y and be the yarn etc. of identical type by the 2nd cooling device 41b cooling yarns Y that cooling device 41a is cooled down, without making
In the case where carrying out cooling degree difference to yarns Y using the 1st cooling device 41a and the 2nd cooling device 41b, then it is not present
Problem.
In addition, in the above-described embodiment, the gap 51c of the 1st cooling device 41a via the 1st connecting pipe road 44 with
The inner space 42a of 1st common pipeline 42 is connected to, and the gap 51c of the 2nd cooling device 41b is via the 2nd connecting pipe road 45 and the
The inner space 43a connection of 2 common pipelines 43, but it is not limited to this.In variation 2, as shown in (a) of Figure 11, (b), the 1st
The gap 51c of cooling device 41a is identical as above-mentioned embodiment via independent tubes 52 and the 1st connecting pipe road 44 and
The inner space 121a connection of 1 common pipeline 121.In contrast, opposed component 51a, 51b of the 2nd cooling device 41b directly pacifies
Lower surface loaded on the 2nd common pipeline 122.In addition, in the lower surface of the 2nd common pipeline 122, with the 2nd cooling device 41b
The part of gap 51c overlapping, is formed with multiple intercommunicating pores 123.The gap 51c of the 2nd cooling device 41b is via multiple companies as a result,
Through-hole 123 is connect with the inner space 122a of the 2nd common pipeline 122.
In addition, in variation 3, as shown in (a) of Figure 12, (b), intercommunicating pore is formed in the side of common pipeline 131
131b, the 1st connecting pipe road 132 are connect with intercommunicating pore 131b, and the inner space 132a in the 1st connecting pipe road 132 is together as a result,
Thread a pipe 131 inner space 131a connection.The gap 51c of the 1st cooling device 41a is via independent tubes 52 and the 1st as a result,
Connecting pipe road 132 thread a pipe together 131 inner space 131a connection.In addition, the opposed component of the 2nd cooling device 41b
51a, 51b are directly mounted at the lower surface of common pipeline 131.In addition, the lower surface of common pipeline 131, cooling fill with the 2nd
The part for setting the gap 51c overlapping of 41b, is formed with multiple intercommunicating pore 131c.The gap 51c warp of 2nd cooling device 41b as a result,
It is threaded a pipe together 122 inner space 122a connection by multiple intercommunicating pore 131c.
In the case where variation 2,3, and not set 2nd connecting pipe road 45, therefore, it is impossible to by the 2nd cooling device 41b
Configuration is left from common pipeline 122,131.That is, being threaded a pipe under 122,131 together of the 2nd cooling device 41b can not be changed
Position on the orthogonal direction in surface.Even if also identical as above-mentioned embodiment however, in this case, the 1st can be changed
The position on the orthogonal direction in lower surface for threading a pipe 122,131 together of cooling device 41a.Moreover, as long as change the 1st is cold
But the position on the orthogonal direction in lower surface for threading a pipe 122,131 together of device 41a, then thread a pipe 122 together,
Positional relationship between on the orthogonal direction in 131 lower surface, the 1st cooling device 41a and the 2nd cooling device 41b is changed.
Therefore, even if in the case where variation 2,3, although cold compared with the 1st cooling device 41a and the 2nd compared with the above implementation
But the freedom degree of the configuration of device 41b is lower, but by adjusting the position between the 1st cooling device 41a and the 2nd cooling device 41b
Relationship is set, it can be by the 1st cooling device 41a and the 2nd cooling device 41b according to heating device 32a, 32b and twister
The configuration of 24a, 24b and configure on the yarn path of bending angle for being able to maintain that yarns Y appropriate.
Even if in addition, the 1st cooling device 41a is located at also relative to the 2nd cooling device 41b in the case where variation 2,3
It threads a pipe together 122,131 opposite sides.Even if connecting pipe road 44 is also relative to every adjacent 2 however, in variation 2,3
A 1st cooling device 41a is arranged 1.Therefore, the gap 51c of the 1st cooling device 41a can be made via the 1st connecting pipe road 44
Thread a pipe together 122,131 inner space 122a, 131a connection.
In addition, in the above-described embodiment, the individual tubes of 1 the 1st cooling device 41a of the 1st connecting pipe road 44 and 2
The intercommunicating pore 52c connection in road 52, the intercommunicating pore of the independent tubes 52 of 1 the 2nd cooling device 41b of the 2nd connecting pipe road 45 and 2
52c connection, but it is not limited to this.1 the 1st connecting pipe road 44 can also be with the independent tubes 52 of 1 the 1st cooling device 41a
Intercommunicating pore 52c connection.Alternatively, 1 the 1st connecting pipe road 44 can also be with the independence of 3 or more the 1st cooling device 41a
The intercommunicating pore 52c connection of pipeline 52.2nd connecting pipe road 45 is also identical.
In addition, in the above-described embodiment, 2 the 1st heating device 32a and 2 the 2nd are accommodated in 1 cabinet 31
Heating device 32b, but it is not limited to this.For example, as shown in (a) of Figure 13, being accommodated in 1 cabinet 31 in variation 4
1 the 1st heating device 32a and 1 the 2nd heating device 32b.In addition, in variation 5, as shown in (b) of Figure 13, in 1 case
3 the 1st heating device 32a and 3 the 2nd heating device 32b are accommodated in body 31.In addition, being omitted in (a), (b) of Figure 13
The electric current illustrated in Fig. 3 assigns the diagram of circuit 29 and control device 10.
Even if in these cases, the heat block 35 of the heat block 35 of the 1st heating device 32a and the 2nd heating device 32b from
The observation of body longitudinal direction is also in staggered configuration with nonoverlapping degree.Therefore, identical as above-mentioned embodiment, in the 1st heating
It is difficult to generate hot interference between the heat block 35 of device 32a and the heat block 35 of the 2nd heating device 32b, it can reliably will be each
Heat block 35 is heated to set temperature.Alternatively, it is also possible to store 4 or more the 1st heating device 32a and 4 in 1 cabinet 31
A the 2nd above heating device 32b.
In addition, in the above-described embodiment, the heating dress of the 1st heating device 32a and the 2nd is accommodated in 1 cabinet 31
32b is set, but it is not limited to this.For example, it is also possible to be formed as only being accommodated with the cabinet 31 of 1 the 1st heating device 32a and only store
There is the cabinet 31 of 1 the 2nd heating device 32b to arrange in body longitudinal direction.
In addition, in the above-described embodiment, the heat block 35 of the 1st heating device 32a and adding for the 2nd heating device 32b
Heat block 35 is in staggered configuration with nonoverlapping degree in vertical direction from body longitudinal direction, but be not restricted to that this.For example,
In variation 6, as shown in figure 14, the heat block 35 of the 1st heating device 32a and the heat block 35 of the 2nd heating device 32b are in lead
Hang down and be in staggered configuration on direction, but its offset is small compared with the above implementation, the heat block 35 of the 1st heating device 32a with
The part overlapping from body longitudinal direction of the heat block 35 of 2nd heating device 32b.But in variation 6, in order to avoid
Direct contact between the heat block 35 of 1st heating device 32a and the heat block 35 of the 2nd heating device 32b, the 1st heating device
The heat block 35 of 32a and the heat block 35 of the 2nd heating device 32b leave in body longitudinal direction, and in body longitudinal direction
On the heat block 35 of the 1st heating device 32a and the heat block 35 of the 2nd heating device 32b between be also configured with insulation 33.This
Outside, in Figure 14, the diagram that illustrated electric current in Fig. 3 assigns circuit 29 and control device 10 is omitted.
Even if in this case, when the heat block 35 of heat block 35 and the 2nd heating device 32b with the 1st heating device 32a
When completely overlapped situation compares from body longitudinal direction, it is also difficult to generate the heat block 35 of the 1st heating device 32a with
Heat interference between the heat block 35 of 2nd heating device 32b.
In addition, the heat block 35 of the 1st heating device 32a and the heat block 35 of the 2nd heating device 32b are not limited to from body
Longitudinal direction observation is in staggered configuration.For example, the 1st heating device 32a and the 2nd heating device 32b in the body longitudinal direction it
Between interval it is sufficiently big in the case where, the heating of the heat block 35 and the 2nd heating device 32b of the 1st heating device 32a can also be made
Block 35 is completely overlapped from body longitudinal direction.
In addition, in the above-described embodiment, making to heat as in the 1st heating device 32a and the 2nd heating device 32b
The different example of the set temperature of block 35, the setting to the heat block 35 for the upstream side heating part 34a for making the 2nd heating device 32b
Temperature is higher than the set temperature of the heat block 35 of the upstream side heating part 34a of the 1st heating device 32a, makes the 2nd heating device 32b
Downstream side heating part 34b heat block 35 downstream side heating part 34b of the set temperature than the 1st heating device 32a heating
The example that the set temperature of block 35 is high is illustrated, and but it is not limited to this.It can also make the upstream side of the 2nd heating device 32b
The heat block 35 of upstream side heating part 34a of the set temperature of the heat block 35 of heating part 34a than the 1st heating device 32a is set
It is low to determine temperature.In addition, the set temperature of the heat block 35 of the downstream side heating part 34b of the 2nd heating device 32b can also be than the 1st
The set temperature of the heat block 35 of the downstream side heating part 34b of heating device 32a is low.
In addition, in the above-described embodiment, making heat block in the 1st heating device 32a and the 2nd heating device 32b
The different example of 35 set temperature is illustrated, and but it is not limited to this.
For example, it is also possible to make heat block between 2 the 1st heating device 32a or between 2 the 2nd heating device 32b
35 set temperature is different.It is long in body in the 1st heating device 32a and the 2nd heating device 32b as above-mentioned embodiment
In the case where being alternately arranged on edge direction, in body longitudinal direction, the 2nd heating device 32b configuration adds in adjacent 2 the 1st
Between thermal 32a, the 1st heating device 32a is configured between 2 adjacent the 2nd heating device 32b, therefore, 2 the 1st heating
Device 32a leaves configuration in body longitudinal direction, and 2 the 2nd heating device 32b leave in body longitudinal direction match each other
It sets.In addition, being folded with insulation 33 between 2 the 1st heating device 32a and between 2 the 2nd heating device 32b.By
This, it is difficult between the heat block 35 of 2 the 1st heating device 32a and between the heat block 35 of 2 the 2nd heating device 32b
Generate heat transmitting.Therefore, even if in this case, also can be in each 1st heating device 32a and each 2nd heating device 32b
Heat block 35 is reliably set to become set temperature.
In addition, being formed as in the above-described embodiment, in primary heating unit 21, each heating can be independently set
The set temperature of the heat block 35 of the upstream side heating part 34a of device 32a, 32b, but it is not limited to this.For example, it is also possible to make institute
The heat generating components 36 of the upstream side heating part 34a of some heating device 32a, 32b are connected to each other, so that can not be in heating device
Make the set temperature of the heat block 35 of upstream side heating part 34a different between 32a, 32b.Equally, in the above-described embodiment
Be formed as, can independently set the set temperature of the heat block 35 of the downstream side heating part 34b of each heating device 32a, 32b,
But it is not limited to this.For example, it is also possible to make the heat generating components 36 of the downstream side heating part 34b of all heating device 32a, 32b
It is connected to each other, so that the set temperature of the heat block 35 of downstream side heating part 34b can not be made between heating device 32a, 32b
It is different.
In addition, in the above-described embodiment, heating device 32a, 32b have upstream side heating part 34a and downstream side adds
Hot portion 34b, but be not restricted to that this.For example, heating device 32a, 32b also can have upstream side in body width direction
1 heating part made of the length of heating part 34a is added with the length of downstream side heating part 34b.
In addition, in the above-described embodiment, allowing hand over following movement: in doubling device 26 simultaneously to 2 one thread Y
Doubling Ya is wound in 1 bobbin B1 in winding device 60 by yarn;And not to 2 one thread Y doublings, by this 2 one thread Y
2 bobbin B2 are wrapped around, but it is not limited to this.Doubling Ya can also be wound in 1 bobbin B1 always by winding device 60.
Alternatively, doubling device 26 can also be not provided with, yarns Y is wound in 2 bobbin B2 always by winding device 60.In addition, in the feelings
Under condition, the direction that can also be twisted in the 1st twister 24a and the 2nd twister 24b is identical direction.
In addition, in the above-described embodiment, relative to adjacent 2 twisters 24 (1 the 1st twister 24a and
1 the 2nd twister 24b) it is provided with 1 winding device 60, but it is not limited to this.For example, it is also possible to be not provided with doubling device
26, and 1 twister 24 is provided with 1 winding device 60.Even if, can also be the 1st in addition, in this case
The direction twisted in twister 24a and the 2nd twister 24b is identical direction.In addition, in this case, two can also be made
Secondary heating unit 27 has construction identical with primary heating unit 21.It in this case, can will be real by the 1st twister 24a
The yarns Y that yarns Y, 2 twister 24b of He You after having applied false twisting processing implement after false twisting processing is heated to and yarns Y
Type degree appropriate accordingly.
In addition, in the above-described embodiment, the direction of travel of the yarns Y in cooling device 41a, 41b is relative to level
The inclination in direction is small, and but it is not limited to this.For example, can also apply the present invention to as Japanese Unexamined Patent Publication 11-107084 public affairs
The substantially inclined false twisting processing relative to horizontal direction of the direction of travel of yarn such documented by report, in cooling device
Machine.
In addition, in the above-described embodiment, as the rotation by controlling air blower 46a, 46b using inverter circuit 54
Speed is illustrated to carry out the structure of the adjusting of the cooling capacity of cooling device 41a, 41b, and but it is not limited to this.It can also be with
By being arranged in common pipeline 42,43 manually or according to flows such as the butterfly valves of instruction auto-action for carrying out self-control device 10
Device is adjusted to adjust cooling air quantity.In addition, can also combine the control to air blower 46a, 46b for carrying out carrying out using inverter
It makes and is adjusted using the flow of the progress such as valve.
Claims (7)
1. a kind of false twist processing machine carries out false twisting processing to multiple yarns, and body longitudinal direction is longer, which is characterized in that tool
It is standby:
Multiple heating devices heat above-mentioned multiple yarns;
Multiple cooling devices configure the downstream side of above-mentioned multiple heating devices in the yarn path of yarn, to above-mentioned multiple
Yarn is cooled down, and has the opposed component of a pair that gap arrangement is separated in above-mentioned body longitudinal direction;
Multiple twisters configure the downstream side of above-mentioned multiple cooling devices in the yarn path of yarn, to above-mentioned multiple
Yarn twisting;And
Common pipeline extends along above-mentioned body longitudinal direction, with what is be connected to the above-mentioned gap in above-mentioned multiple cooling devices
Inner space,
Above-mentioned multiple cooling devices are that multiple 1st cooling devices and multiple 2nd cooling devices are handed over along above-mentioned body longitudinal direction
For arrangement,
From above-mentioned body longitudinal direction, above-mentioned 1st cooling device and above-mentioned 2nd cooling device are in staggered configuration,
Above-mentioned 1st cooling device relative to above-mentioned 2nd cooling device be located at above-mentioned common pipeline opposite side,
The false twist processing machine is also equipped with the inner space for connecting above-mentioned gap and above-mentioned common pipeline in above-mentioned 1st cooling device
Multiple 1st connecting pipe roads.
2. false twist processing machine according to claim 1, which is characterized in that
Be also equipped with the inner space for connecting above-mentioned gap and above-mentioned common pipeline in above-mentioned 2nd cooling device multiple 2 connect
It connects and uses pipeline.
3. false twist processing machine according to claim 1, which is characterized in that
As above-mentioned common pipeline, have:
1st common pipeline has the inner space being connected to the above-mentioned gap in above-mentioned multiple 1st cooling devices;And
2nd common pipeline has the inner space being connected to the above-mentioned gap in above-mentioned multiple 2nd cooling devices.
4. false twist processing machine according to claim 2, which is characterized in that
As above-mentioned common pipeline, have:
1st common pipeline has the inner space being connected to the above-mentioned gap in above-mentioned multiple 1st cooling devices;And
2nd common pipeline has the inner space being connected to the above-mentioned gap in above-mentioned multiple 2nd cooling devices.
5. false twist processing machine according to claim 3, which is characterized in that be also equipped with:
1st air blower is connect with the above-mentioned inner space of above-mentioned 1st common pipeline;
2nd air blower is connect with the above-mentioned inner space of above-mentioned 2nd common pipeline;And
Control device independently controls above-mentioned 1st air blower and above-mentioned 2nd air blower.
6. false twist processing machine according to claim 4, which is characterized in that be also equipped with:
1st air blower is connect with the above-mentioned inner space of above-mentioned 1st common pipeline;
2nd air blower is connect with the above-mentioned inner space of above-mentioned 2nd common pipeline;And
Control device independently controls above-mentioned 1st air blower and above-mentioned 2nd air blower.
7. false twist processing machine described according to claim 1~any one of 6, which is characterized in that be also equipped with:
Multiple doubling devices, configuration being filled compared to above-mentioned multiple heating devices, above-mentioned multiple coolings in the yarn path of yarn
It sets and the position of above-mentioned multiple twister downstreams, cooling will be filled by adjacent above-mentioned 1st cooling device and the above-mentioned 2nd
Set 2 one thread difference doubling after cooling;And
Multiple winding devices configure the position compared to above-mentioned doubling device downstream in the yarn path of yarn, respectively
Yarn after winding doubling.
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US4380144A (en) * | 1981-08-03 | 1983-04-19 | Milliken Research Corporation | Belt false twisting system |
JPS60126331A (en) * | 1983-12-13 | 1985-07-05 | Murata Mach Ltd | Yarn cooling in false twister |
JP2582812B2 (en) * | 1987-11-20 | 1997-02-19 | 東レ株式会社 | High-speed false twisting method |
DE3838838A1 (en) | 1987-11-20 | 1989-06-01 | Barmag Barmer Maschf | Apparatus for the simultaneous texturing of a multiplicity of multifilament threads |
JPH09157973A (en) * | 1995-12-07 | 1997-06-17 | Murata Mach Ltd | Yarn cooling apparatus of draw false-twist texturing machine |
JP3490844B2 (en) | 1996-05-30 | 2004-01-26 | 東レエンジニアリング株式会社 | Cooling device for false twisting machine |
JPH11107084A (en) | 1997-10-01 | 1999-04-20 | Toray Eng Co Ltd | False twister |
CH692623A5 (en) | 1997-10-03 | 2002-08-30 | Rieter Ag Maschf | Spinnstrecktexturier- or draw texturing. |
AU3422700A (en) * | 1999-02-16 | 2000-09-04 | Temco Textilmaschinenkomponenten Gmbh | Method for feeding in and starting a thread and false twist texturing device |
AU5699300A (en) * | 1999-07-08 | 2001-01-30 | University Of Manchester Institute Of Science & Technology, The | Processing textile materials |
GB0000786D0 (en) * | 2000-01-14 | 2000-03-08 | Univ Manchester | Apparatus for processing textile materials |
JP4060508B2 (en) * | 2000-02-16 | 2008-03-12 | Tmtマシナリー株式会社 | Drawing false twisting machine |
JP4462751B2 (en) * | 2000-11-22 | 2010-05-12 | 東レエンジニアリング株式会社 | False twisting machine |
WO2003021020A2 (en) * | 2001-09-01 | 2003-03-13 | Saurer Gmbh & Co. Kg | Texturing machine |
EP1598457A1 (en) * | 2004-05-19 | 2005-11-23 | Schärer Schweiter Mettler AG | False-twisting and/or air-covering machine |
EP1630268B1 (en) * | 2004-08-26 | 2007-01-10 | SSM Schärer Schweiter Mettler AG | Method of assuring yarn quality and yarn processing machine |
JP5133909B2 (en) * | 2009-01-06 | 2013-01-30 | Tmtマシナリー株式会社 | Yarn cooling device, textile machine, and yarn cooling method |
JP2011047074A (en) * | 2009-08-27 | 2011-03-10 | Tmt Machinery Inc | False twister |
CN203270152U (en) * | 2013-05-16 | 2013-11-06 | 新昌县丝宝纺织机械有限公司 | Cold and hot shaping device of one-step process cold and hot shaping false twisting machine |
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