CN106435791A - High speed airflow wire feeding device - Google Patents
High speed airflow wire feeding device Download PDFInfo
- Publication number
- CN106435791A CN106435791A CN201610868815.0A CN201610868815A CN106435791A CN 106435791 A CN106435791 A CN 106435791A CN 201610868815 A CN201610868815 A CN 201610868815A CN 106435791 A CN106435791 A CN 106435791A
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- China
- Prior art keywords
- tow
- lifting head
- hole
- head groove
- cylinder
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Classifications
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- D—TEXTILES; PAPER
- D01—NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
- D01D—MECHANICAL METHODS OR APPARATUS IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS
- D01D10/00—Physical treatment of artificial filaments or the like during manufacture, i.e. during a continuous production process before the filaments have been collected
- D01D10/04—Supporting filaments or the like during their treatment
- D01D10/0436—Supporting filaments or the like during their treatment while in continuous movement
- D01D10/0481—Supporting filaments or the like during their treatment while in continuous movement the filaments passing through a tube
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Textile Engineering (AREA)
- Preliminary Treatment Of Fibers (AREA)
- Guides For Winding Or Rewinding, Or Guides For Filamentary Materials (AREA)
Abstract
The high speed airflow wire feeding device includes a cylinder. The center of cylinder is arranged with a tow suction hole, a tow transition cavity and a tow center outlet hole. The tow suction hole is arranged on the top of the cylinder. The tow transition cavity is arranged below the tow suction hole. The shape of the tow transition cavity presents truncated cone-shaped. Small diameter end orientates to the tow suction hole. Large diameter end orientates to the tow center outlet hole. The upper of the cylinder is provided with a sector air cavity. The bottom of the sector air cavity is provided with a group of tangential air guide hole. One side of the cylinder is provided with a rising head groove. The rising head groove is interlinked with the tow suction hole, the tow transition cavity and the tow center outlet hole. An air seal ring is fixed with the cylinder, and provided a high pressure gas inlet hole. The pivot for lifting hood of the rising groove is on the cylinder. The tows which enter through the tow suction hole can quickly derive from the tow center outlet hole under the action of airflow to meet the requirement of spinning in high speed, ensure the tropism of the tows, avoid expansion of tow at the exit of spinneret and eliminate the divergence of tows.
Description
Technical field
The invention belongs to spinning equipment technical field, be specifically related to a kind of high velocity air wire feeder.
Background technology
As is known in the industry, by the spun tow of manifold successively through ring cold wind blower cooling, oiling device oil and
Enter wire feeder through a series of guide roller after drafting system drawing-off, wire feeder is introduced the fiber barrel being disposed below
In.It follows that the wire feeder between guide roller and fiber barrel is that one of complete spinning equipment is indispensable
Parts.
The structure of the wire feeder commonly using in prior art as shown in Figure 4, including a pair shape of cross section is plum blossom
The tow 4 being introduced by guide roller 20 is caused the Sheng silk of lower section in the way of drawing by the godet 10 of shape by a pair godet 10
In bucket.The surface of a pair godet 10 of the wire feeder of this structure is coated with di-aluminium trioxide film layer, through expanding with heat and contract with cold, and should
Film layer easily comes off and causes roll surface coarse, easily undermines tow 4.Especially, owing to have employed a pair godet 10, thus draw
Tow can curly in spring trend, the secondary drawing-off of later process need to be carried out, otherwise can have a strong impact on the orientation of tow.
The technical information of all wire feeders is also shown in disclosed Chinese patent literature, typical such as Authorization Notice No.
" the spinning feeding machine " that CN204237903U recommends, this patent formula offers a chute on a grillage, and sliding in chute sets
Put a slide block, the roll shaft of one of them live-roller in the live-roller that a pair is fitted to each other be rotatably supported on slide block and
Fix a gear wheel, and be directly rotatably supported at the roll shaft of another live-roller in a pair live-roller on grillage, and
Slide block arranges motor, the motor shaft of motor is fixed a little gear, when motor works, motor shaft is driven little tooth
Wheel, the gear wheel being engaged by little gear driven, gear wheel is driven one of them transmission in aforesaid a pair live-roller
Roller, tow introduce between a pair live-roller below fiber barrel in(Specifically can be found in this patent specification the 0017th to
0020 section).This patent structure substantially still shows as towed wire feed.
At least there are following 4 logical frauds in above-mentioned Fig. 4 and the wire feeder recommended by CN204237903U:One, due to
It is mechanical type wire feed, thus wire feed rate is affected, it is difficult to meet high speed spinning requirement;Its two, due to tow and roll body
Contact, thus on the one hand easily affect the orientation of tow, on the other hand can cause the injury to tow;Its three, due at a high speed
The speed of spinning is up to 6000-8000m/min, even more high, thus melting at the die orifice exit of the spinneret of filament spinning component
Body such as acid fiber by polylactic spinning melt there will be expanded situation, and expanded be to affect the bar of silk to do and big avoid, especially work as wire feeder
Wire feed rate and spinning speed can not ideal adaptation when, aforesaid expanded situation can show more serious;Its four, owing to being
Mechanical traction formula wire feed, thus do not simply fail to make tow produce obvolvent effect and tow even can be caused to dissipate.
For above-mentioned prior art, the applicant has made lasting and beneficial exploration, technical scheme described below
Produce under this background.
Content of the invention
The task of the present invention be provide one contribute to significantly improving wire feed rate and use meet high speed spinning require,
Be conducive to ensureing that the orientation and using of tow saves follow-up secondary drawing-off, is of value to and makes tow under the effect of swirling eddy
It is rapidly introduced into fiber barrel and use and avoid producing expanded phenomenon at die orifice exit and having the obvolvent being easy to improve tow to imitate
Really use the high velocity air wire feeder eliminating tow divergent cases.
The task of the present invention is performed by, a kind of high velocity air wire feeder, including a cylinder, at this cylinder
Middle position offers tow inlet hole, tow adapter cavity and tow center leadout hole, and tow inlet hole is positioned at the top of cylinder,
Tow adapter cavity is positioned at the lower section of tow inlet hole and communicates with tow inlet hole, and the shape of this tow adapter cavity is truncated cone-shaped
And one end of the minor diameter of this truncated cone-shaped is towards tow inlet hole, and one end of major diameter is towards tow center leadout hole, silk
Beam center leadout hole communicates with tow adapter cavity and the lower end of this tow center leadout hole communicates with the external world, in the upper end of cylinder
Constitute the fan-shaped air cavity having a surface being depressed in cylinder, offer one in the bottom of this sector air cavity with equidistant intervals state
Group tangential gas flow guide hole, this group tangential gas flow guide hole with downward-sloping state extend to described tow center leadout hole and
Communicate with tow center leadout hole, in the short transverse of the side of cylinder in the state of tangent with the hole wall of tow center leadout hole
Offering a lifting head groove, this lifting head groove communicates with tow inlet hole, tow adapter cavity and tow center leadout hole simultaneously;One air cavity
Closed-loop, this air cavity closed-loop is fixed and in this air cavity closed-loop with described cylinder in the position corresponding to described fan-shaped air cavity
On offer a high pressure gas introduction hole, this high pressure gas introduction hole communicates with fan-shaped air cavity;One is used for making described lifting head groove be in out
The lifting head groove putting or covering state opens and closes cover, and this lifting head groove opens and closes and covers on position hub setting corresponding to lifting head groove at described cylinder
On.
In a specific embodiment of the present invention, and opening and closing corresponding to described lifting head groove on described cylinder
The position of the side of the short transverse of cover is fixed with a pair lifting head groove with upper and lower corresponding state and opens and closes cover hinge seat, and described
Lifting head groove opens and closes the side of the short transverse of cover and is fixed with one in the position corresponding to a pair lifting head groove keying cover hinge seat
Opening and closing cover hinge to lifting head groove, this is opened and closed cover hinge and is respectively pivoted even with lifting head groove keying cover hinge seat by hinge axis to lifting head groove
Connect.
In another specific embodiment of the present invention, open and close at a pair described lifting head groove and respectively offer on cover hinge seat
There is a hinge seat axis hole, and open and close at a pair described lifting head groove and respectively offer hinge shaft hole, described hinge axis on cover hinge
Insert in hinge seat axis hole in the position corresponding to hinge shaft hole.
In another specific embodiment of the present invention, open and close cover back to the side of described cylinder at described lifting head groove
It is fixed with an electromagnet on wall body, be in fit with cylinder and be in when lifting head groove opens and closes cover described lifting head groove covered
During state, described electromagnet is energized and uses and make lifting head groove open and close cover to be pull-in on cylinder, and when lifting head groove opens and closes cover with described
A pair hinge axis when to be the centre of gyration launch towards the direction deviating from cylinder, described lifting head groove is in open state and institute
The electromagnet stated is in power failure state.
In another specific embodiment of the present invention, open and close on cover and corresponding to described at described lifting head groove
The position of electromagnet offers an electromagnet fixing hole, is configured with an electromagnet and fixes spiral shell on this electromagnet fixing screw hole
Nail, this electromagnet is fixed screw and is fixed with electromagnet.
In an also specific embodiment of the present invention, the top composition that described lifting head groove opens and closes cover has a keying cover
Top cover, offers a seal wire with opening on this keying cover top cover and in the position corresponding to described tow inlet hole
Chamber.
In more and in a specific embodiment of the present invention, described guidewire lumen is the taper of gradually narrow contracting from top to bottom
Guidewire lumen.
The present invention's and then in a specific embodiment, described lifting head groove is by being opened in turning on described cylinder
Head groove communicates with described tow inlet hole, tow adapter cavity and tow center leadout hole.
In the present invention again more and in a specific embodiment, described cylinder and lifting head groove open and close cover by magnetic conduction
Metal material is made.
In again and then in a specific embodiment of the present invention, described electromagnet is by coil rack, iron core and coil
Composition, iron core is positioned at coil rack, and coil is around the coil rack chamber build-in being located on iron core and with coil rack, described
Electromagnet is fixed screw and is fixed with iron core.
Having technical effect that of the technical scheme that the present invention provides:One, has a sector owing to constituting in the upper end of cylinder
Air cavity and offer tow inlet hole, tow adapter cavity and tow center entrance hole in the middle position of cylinder, thus at gas
After gases at high pressure are introduced fan-shaped air cavity by the high pressure gas introduction hole of chamber closed-loop, by one group of tangential gas flow guide hole, high pressure gas is introduced
Tow center leadout hole, and enter the air-flow generation rotating tendency of tow center leadout hole, thus enter from tow inlet hole
Tow can under airflow function rapidly from tow center leadout hole derive and use the requirement meeting high speed spinning;Its two,
Owing to one group of tangential gas flow guide hole communicates with tow center leadout hole in the state of tangent with the hole wall of tow center leadout hole,
Thus enter into the air-flow in the leadout hole of tow center and there is rotating tendency, force tow quickly to be drawn, make the orientation of tow
Ensured, it is not necessary to carry out follow-up secondary drawing-off;Its three, owing to have employed air-flow wire feed, thus silk speed warp rapidly can be made
Tow center leadout hole enters in the fiber barrel below cylinder, it is to avoid the expanded phenomenon at die orifice exit for the tow;Its four,
Owing to entering into the air-flow in the guide hole of tow center, there is rotating tendency, thus tow can be made to produce good obvolvent effect, disappear
Divergent cases except tow.
Brief description
Fig. 1 is embodiments of the invention structure charts.
Fig. 2 is the cross sectional representation of Fig. 1.
Fig. 3 is the application examples schematic diagram of the present invention.
Fig. 4 is the schematic diagram of the wire feeder in prior art.
Detailed description of the invention
In order to be more clearly understood from technical spirit and the beneficial effect of the present invention, applicant is below with embodiment
Mode elaborate, but the description to embodiment is not the restriction to the present invention program, any according to structure of the present invention
Think the done pro forma rather than substantial equivalent transformation that is only and be regarded as technical scheme category.
In the following description every relate to upper and lower, left and right, front and rear directionality or title directionality concept be all
For Fig. 1 location state, thus the special limit to the technical scheme that the present invention provides can not be understood as
Fixed.
Refer to Fig. 1 and Fig. 2, show a cylinder 1, offer concentric tow in the middle position of this cylinder 1 and suck
Hole the 11st, tow adapter cavity 12 and tow center leadout hole 13, tow inlet hole 11 is positioned at the top of cylinder 1, tow adapter cavity 12
Be positioned at the lower section of tow inlet hole 11 and communicate with tow inlet hole 11, the shape of this tow adapter cavity 12 be truncated cone-shaped and
One end of the minor diameter of this truncated cone-shaped is towards tow inlet hole 11, and one end of major diameter is towards tow center leadout hole 13, silk
Beam center leadout hole 13 communicates with tow adapter cavity 12 and the lower end of this tow center leadout hole 13 communicates with the external world, at cylinder
The upper end of 1 is constituted around the circular arc direction of cylinder 1 the fan-shaped air cavity 14 of an outer surface being depressed in cylinder 1, this sector air cavity
The length of 14 accounts for 3/4ths of the circumference of cylinder 1, offers with equidistant intervals state in the bottom of this sector air cavity 14
Having one group of tangential gas flow guide hole 141, this group tangential gas flow guide hole 141 extends to aforementioned tow center with downward-sloping state and leads
Portal 13 and communicate with tow center leadout hole 13 in the state of tangent with the hole wall of tow center leadout hole 13(Fig. 2
Show), the short transverse in the side of cylinder 1 offers a lifting head groove 15, with tow inlet hole the 11st, tow while this lifting head groove 15
Adapter cavity 12 and tow center leadout hole 13 communicate;Showing an air cavity closed-loop 2, this air cavity closed-loop 2 is corresponding to aforementioned
The position of fan-shaped air cavity 14 is fixing with aforementioned cylinder 1 and offers a high pressure gas introduction hole 21 in this air cavity closed-loop 2, should
High pressure gas introduction hole 21 communicates with fan-shaped air cavity 14, and this high pressure gas introduction hole 21 is by pipeline and pressure air source in a state of use
As air compressor machine connects;Show that one opens and closes cover 3, this liter for making aforementioned lifting head groove 15 be in lifting head groove that is open or that cover state
Head groove open and close cover 3 in the position hub setting corresponding to lifting head groove 15 on aforementioned cylinder 1.
On aforesaid cylinder 1 and corresponding to aforementioned lifting head groove open and close cover 3 short transverse side position with
Upper and lower corresponding state is fixed with a pair lifting head groove and opens and closes cover hinge seat 16, and opens and closes the short transverse of cover 3 at aforementioned lifting head groove
Side and be fixed with a pair lifting head groove in the position opening and closing cover hinge seat 16 corresponding to a pair lifting head groove and open and close cover hinge 31,
This is opened and closed cover hinge 31 and is respectively pivotally connected by hinge axis 311 and lifting head groove keying cover hinge seat 16 to lifting head groove.
As shown in Figure 1, aforesaid a pair lifting head groove keying cover hinge seat 16 respectively offers a hinge seat axis hole 161,
And open and close at aforesaid a pair lifting head groove and respectively offer hinge shaft hole 312 on cover hinge 31, aforesaid hinge axis 311 is corresponding to
The position of hinge shaft hole 312 is inserted in hinge seat axis hole 161, thus lifting head groove is opened and closed cover 3 and is pivotally connected on cylinder 1.
Continue to see Fig. 1 and Fig. 2, the wall body that aforementioned lifting head groove opens and closes cover 3 sides back to aforementioned cylinder 1 is fixed with one
Electromagnet 32, when lifting head groove keying cover 3 is in and fits and be in the state covering aforesaid lifting head groove 15 with cylinder 1,
Aforementioned electromagnetic iron 32 is energized and uses and make lifting head groove open and close cover 3 to be pull-in on cylinder 1, and when lifting head groove opens and closes cover 3 with aforesaid
When a pair hinge axis 311 launches towards the direction deviating from cylinder 1 for the centre of gyration, aforesaid lifting head groove 15 is in open state simultaneously
And aforesaid electromagnet 32 is in power failure state.It follows that lifting head groove opens and closes cover 3 effects just as the door leaf in daily life
Should.
As shown in Figure 1, offer on aforesaid lifting head groove keying cover 3 and in the position corresponding to aforementioned electromagnetic iron 32
One electromagnet fixing hole 33, is configured with an electromagnet on this electromagnet fixing screw hole 33 and fixes screw 331, and this electromagnet is solid
Determine screw 331 to fix with electromagnet 32.
Aforementioned lifting head groove open and close cover 3 top constitute have a keying cover top cover 34, on this keying cover top cover 34 and
Position corresponding to aforementioned tow inlet hole 11 offers a guidewire lumen 341 with opening 3411.
In the present embodiment, the taper guidewire lumen that aforesaid guidewire lumen 341 is gradually narrow contracting from top to bottom.
Aforesaid lifting head groove 15 turns a groove 151 and aforementioned tow inlet hole the 11st, tow by be opened on aforementioned cylinder 1
Adapter cavity 12 and tow center leadout hole 13 communicate.
In the present embodiment, aforesaid cylinder 1 and lifting head groove open and close cover 3 and are made by the metal material of magnetic conduction.
Aforesaid electromagnet 32 is made up of coil rack the 321st, iron core 322 and coil 323, and iron core 322 is positioned at coil rack
In 321, coil 323 is around the coil rack chamber build-in being located on iron core 322 and with coil rack 321, and aforesaid electromagnet is solid
Determine screw 331 to fix with iron core 322.
Refer to Fig. 3 and combine Fig. 1 and Fig. 2, by the tow after preceding working procedure drawing-off through guide roller 20 and wire guide ring 5
(A device held in industry custom title)Introduce the wire feeder of the present invention.Specifically:First tow 4 is simultaneously entered seal wire by lifting head groove 15
After chamber the 3411st, tow inlet hole the 11st, tow adapter cavity 12 and tow center leadout hole 13, turn off lifting head groove and open and close cover 3.This
When, the pressure-air of pressure air source introduces fan-shaped air cavity 14 by the road, enters the pressure air in fan-shaped air cavity 14 through one group
Tangential gas flow guide hole 141(The present embodiment is three)Enter tow center leadout hole 13, force tow 4 rapidly from tow center
Leadout hole 13 is derived.Meanwhile, aforesaid lifting head groove opens and closes cover 3 and is in the fit-state with cylinder 1, hides lifting head groove 15
Close.Specifically electromagnet 32 is energized and makes lifting head groove open and close cover 3 and be pull-in on cylinder 1.
When being cut off and fall into aforementioned fiber barrel when tow 4 and again work after completing the lifting head of tow 4, then first open and rise
Head groove opens and closes cover 3, is simultaneously introduced to aforesaid tow inlet hole the 11st, silk the tow 4 being imported by guide roller 20 from lifting head groove 15
Bundle adapter cavity 12 and tow center leadout hole 13, then close lifting head groove and open and close cover 3, repeat aforementioned process.It follows that lifting head
Groove 15 serves the effect that tow 4 introduces cylinder 1.
In sum, the technical scheme that the present invention provides compensate for the shortcoming in prior art, has favorably accomplished invention
Task, has cashed the technique effect referring in applicant's superincumbent technique effect hurdle faithfully.
Claims (10)
1. a high velocity air wire feeder, it is characterised in that include a cylinder (1), offers in the middle position of this cylinder (1)
Having tow inlet hole (11), tow adapter cavity (12) and tow center leadout hole (13), tow inlet hole (11) is positioned at cylinder (1)
Top, tow adapter cavity (12) is positioned at the lower section of tow inlet hole (11) and communicates with tow inlet hole (11), this tow
The shape of adapter cavity (12) be one end of the minor diameter of truncated cone-shaped and this truncated cone-shaped towards tow inlet hole (11), and major diameter
One end towards tow center leadout hole (13), tow center leadout hole (13) communicates and this tow with tow adapter cavity (12)
The lower end of center leadout hole (13) communicates with the external world, and constituting in the upper end of cylinder (1) has the fan on a surface being depressed in cylinder (1)
Shape air cavity (14), offers one group of tangential gas flow guide hole (141) in the bottom of this sector air cavity (14) with equidistant intervals state,
This group tangential gas flow guide hole (141) with downward-sloping state extend to described tow center leadout hole (13) and with tow
Communicate with tow center leadout hole (13) in the state of the hole wall of center leadout hole (13) is tangent, at the height of the side of cylinder (1)
Degree direction offers a lifting head groove (15), with tow inlet hole (11), tow adapter cavity (12) and silk while this lifting head groove (15)
Beam center leadout hole (13) communicates;One air cavity closed-loop (2), this air cavity closed-loop (2) is corresponding to described fan-shaped air cavity (14)
Position and described cylinder (1) fixing and in this air cavity closed-loop (2), offer a high pressure gas introduction hole (21), this high pressure
Air introducing holes (21) communicates with fan-shaped air cavity (14);One is used for making described lifting head groove (15) be in lifting head that is open or that cover state
Groove open and close cover (3), this lifting head groove open and close cover (3) in the position hub setting corresponding to lifting head groove (15) on described cylinder (1).
2. high velocity air wire feeder according to claim 1, it is characterised in that upper at described cylinder (1) and right
The position of the side that lifting head groove described in Ying Yu opens and closes the short transverse of cover (3) is fixed with a pair lifting head groove with upper and lower corresponding state
Open and close cover hinge seat (16), and open and close the side of the short transverse of cover (3) at described lifting head groove and corresponding to a pair lifting head
The position that groove opens and closes cover hinge seat (16) is fixed with a pair lifting head groove keying cover hinge (31), and this opens and closes cover hinge to lifting head groove
(31) respectively open and close cover hinge seat (16) by hinge axis (311) and lifting head groove to be pivotally connected.
3. high velocity air wire feeder according to claim 1 and 2, it is characterised in that open and close at a pair described lifting head groove
Respectively offer a hinge seat axis hole (161) on cover hinge seat (16), and open and close on cover hinge (31) at a pair described lifting head groove
Respectively offering hinge shaft hole (312), described hinge axis (311) inserts hinge seat in the position corresponding to hinge shaft hole (312)
In axis hole (161).
4. high velocity air wire feeder according to claim 2, it is characterised in that described lifting head groove open and close cover (3) back to
It is fixed with an electromagnet (32) on the wall body of the side of described cylinder (1), be in and cylinder (1) patch when lifting head groove opens and closes cover (3)
When merging and be in the state covering described lifting head groove (15), described electromagnet (32) is energized and uses and make lifting head groove open and close
Cover (3) is pull-in on cylinder (1), and when lifting head groove open and close cover (3) with described a pair hinge axis (311) be the centre of gyration towards
When deviating from the direction expansion of cylinder (1), described lifting head groove (15) is in open state and described electromagnet (32) is in
Power failure state.
5. high velocity air wire feeder according to claim 4, it is characterised in that open and close on cover (3) at described lifting head groove
And offer an electromagnet fixing hole (33) in the position corresponding to described electromagnet (32), at this electromagnet fixing screw hole
(33) being configured with an electromagnet on and fixing screw (331), this electromagnet is fixed screw (331) and is fixed with electromagnet (32).
6. high velocity air wire feeder according to claim 1, it is characterised in that described lifting head groove opens and closes the top of cover (3)
Constituting has keying cover top cover (34), in this keying cover top cover (34) and in the position corresponding to described tow inlet hole (11)
Put and offer a guidewire lumen (341) with opening (3411).
7. high velocity air wire feeder according to claim 6, it is characterised in that described guidewire lumen (341) for by to
Under the taper guidewire lumen of gradually narrow contracting.
8. high velocity air wire feeder according to claim 1, it is characterised in that described lifting head groove (15) is by offering
The groove (151) that turns on described cylinder (1) is led with described tow inlet hole (11), tow adapter cavity (12) and tow center
Portal (13) communicate.
9. the high velocity air wire feeder according to claim 1 or 2 or 4, it is characterised in that described cylinder (1) and lifting head
Groove keying cover (3) is made by the metal material of magnetic conduction.
10. high velocity air wire feeder according to claim 5, it is characterised in that described electromagnet (32) is by coil bone
Frame (321), iron core (322) and coil (323) composition, iron core (322) is positioned at coil rack (321), and coil (323) is around being located at
Iron core (322) is gone up and the coil rack chamber build-in with coil rack (321), and described electromagnet fixes screw (331) and iron
Core (322) is fixed.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201610868815.0A CN106435791B (en) | 2016-09-30 | 2016-09-30 | High-speed flow wire feeder |
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CN201610868815.0A CN106435791B (en) | 2016-09-30 | 2016-09-30 | High-speed flow wire feeder |
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CN106435791A true CN106435791A (en) | 2017-02-22 |
CN106435791B CN106435791B (en) | 2018-06-05 |
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CN201610868815.0A Active CN106435791B (en) | 2016-09-30 | 2016-09-30 | High-speed flow wire feeder |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107190386A (en) * | 2017-06-30 | 2017-09-22 | 南通新源特种纤维有限公司 | The preparation method of car clutch face sheet long filament recombination line |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3015872A (en) * | 1957-04-25 | 1962-01-09 | British Nylon Spinners Ltd | Apparatus for the heat treatment of running yarns |
US3449549A (en) * | 1966-03-29 | 1969-06-10 | Kokusai Electric Co Ltd | Heat treatment apparatus for a travelling yarn or yarns |
JP2590565B2 (en) * | 1989-06-23 | 1997-03-12 | 村田機械株式会社 | Splicing nozzle block |
CN103603094A (en) * | 2013-08-05 | 2014-02-26 | 东华大学 | Side inlet air jet vortex spinning device |
CN104630941A (en) * | 2013-11-11 | 2015-05-20 | 江南大学 | Device capable of improving quality of ring-spun yarn and application thereof |
CN206109611U (en) * | 2016-09-30 | 2017-04-19 | 苏州金泉新材料股份有限公司 | High -velocity air wire drive feed unit |
-
2016
- 2016-09-30 CN CN201610868815.0A patent/CN106435791B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3015872A (en) * | 1957-04-25 | 1962-01-09 | British Nylon Spinners Ltd | Apparatus for the heat treatment of running yarns |
US3449549A (en) * | 1966-03-29 | 1969-06-10 | Kokusai Electric Co Ltd | Heat treatment apparatus for a travelling yarn or yarns |
JP2590565B2 (en) * | 1989-06-23 | 1997-03-12 | 村田機械株式会社 | Splicing nozzle block |
CN103603094A (en) * | 2013-08-05 | 2014-02-26 | 东华大学 | Side inlet air jet vortex spinning device |
CN104630941A (en) * | 2013-11-11 | 2015-05-20 | 江南大学 | Device capable of improving quality of ring-spun yarn and application thereof |
CN206109611U (en) * | 2016-09-30 | 2017-04-19 | 苏州金泉新材料股份有限公司 | High -velocity air wire drive feed unit |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107190386A (en) * | 2017-06-30 | 2017-09-22 | 南通新源特种纤维有限公司 | The preparation method of car clutch face sheet long filament recombination line |
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