CN103485020B - Weaving method of fine superhigh-density satin fabric - Google Patents
Weaving method of fine superhigh-density satin fabric Download PDFInfo
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- CN103485020B CN103485020B CN201310360163.6A CN201310360163A CN103485020B CN 103485020 B CN103485020 B CN 103485020B CN 201310360163 A CN201310360163 A CN 201310360163A CN 103485020 B CN103485020 B CN 103485020B
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Abstract
The invention relates to a weaving method of a fine superhigh-density satin fabric. The fine superhigh-density satin fabric is characterized in that the fineness of warp yarns and weft yarns is 4.9 to 5.8tex, the warp density is 820 to 920 warps per 10cm, the weft density is 750 to 850 wefts per 10cm, the twist factor of the warp yarns is 380 to 420, and the single yarn strength of the warp yarns is 116 to 133cN; the fabric tissue adopts the 5/3 mode or 5/2 mode; the fine superhigh-density satin fabric is weaved by a weaving machine using low-strength yarns as the warp yarns; the two sides of a licker-in of the weaving machine are respectively provided with one set of upper fabric edge position automatic adjusting device of the weaving machine, and each upper fabric edge position automatic adjusting device of the weaving machine comprises a fabric edge position deviation detection part and a licker-in expanding distance adjusting part. The weaving method of the fine superhigh-density satin fabric has the advantages that the continuous and smooth weaving is realized, and the machine stopping by yarn end breakage is greatly reduced; the rate of finished products is high, and the quality of fabric surface is stable.
Description
Technical field
The present invention relates to a kind of method for weaving of thin high density satin fabric, is that a kind of loom with low strong yarn as warp thread is knitted
Make the method for weaving of thin high density satin fabric.
Background technology
Thin high density fabric has good style and comfortableness, taking widely welcomed with home textile field, but
Because fine tex yarn line strength is relatively low, there is the high phenomenon of end breakage rate in weaving processing, by analysis, broken end is occurred mainly in be knitted
The both sides of thing.
During using not wear-resisting or weak twist, low strong yarn as warp thread processing fabric, Jing is often because selvedge position change is drawn on loom
The abrasion aggravation of edge warp thread is played, causes the phenomenons such as broken end, rotten side, burr, affect loom production efficiency, reduce fabric quality (very
Extremely drop etc.).The factor for causing selvedge position to change is more, mainly workshop moisture temperature fluctuation change or average tension on warp change
Cause split fluctuation change, so that selvedge position changes.Generally, by special messenger's timing detection split undulate quantity, split is worked as
When fluctuation exceedes franchise, adjust workshop moisture temperature or warp thread warp tension etc. to solve.
Manual detection, the shortcoming of method of adjustment are:
1st, examined, maintenance amount of labour used restriction, detection frequency is low, maintenance is adjusted not in time;
2nd, split side-play amount franchise arranges that bigger than normal (in a small amount skew is adjusted split, and not only the amount of labour used increases severely, and also substantially increases
Plus workshop moisture temperature and the technical difficulty of warp thread warp tension adjustment), until split skew larger, selvedge position change is brighter
It is aobvious, or even just adjust when producing edge warp end break, bad selvedge, it is very unfavorable to weaving process.Therefore, selvedge position changes
Jing becomes low strong, the woven obstacle of weak twist warp thread batch.
The content of the invention
The method that the present invention breaks through traditional manual detection split change, directly with microswitch and pulling needle detection loom
Selvedge physical location, according to the deviation situation of the relative setting position of selvedge physical location, by stepping motor fabric pair is adjusted
The angle of contact α of coronule, changes the expanding distance that licker-in is produced, and makes selvedge return setting position in time;So that thin high density fabric
Row yielding it is high, steady quality.
In order to achieve the above object, technical scheme provides a kind of weaving side of thin high density satin fabric
Method.
The method for weaving of a kind of thin high density satin fabric of the present invention, the thin high density satin fabric, longitude and latitude yarn is thin
Degree 4.9~5.8tex, end count be 820~920/10cm, filling density be 750~850/10cm, warp thread twist factor 380~420,
Warp thread 116~133cN of single thread force;Fabric tissue flies for five piece three or five piece two flies;
The thin high density satin fabric adopts the loom with low strong yarn as warp thread to weave;It is described with low strong yarn as warp thread
Loom, in the both sides of the licker-in of loom selvedge position automatic regulating apparatus on a set of loom is respectively installed, selvedge position on the loom
Automatic regulating apparatus is put including selvedge position bias detection part and licker-in expanding distance adjustment component;
The selvedge position bias detection part is mainly opened by pulling needle, axle sleeve, fixing axle, torsion spring, pointer, right fine motion
Pass, scale plate and left microswitch composition, the pulling needle and the pointer are separately fixed at the both sides up and down of the axle sleeve, institute
The one end for stating torsion spring connects the pulling needle, and the other end of the torsion spring is fixed in the scale plate, and the axle sleeve is enclosed within institute
State in fixing axle, the fixing axle is fixed in the scale plate, the right microswitch and the left microswitch are symmetrical
Distribution, is each attached in the scale plate, and the fine motion of the fine motion contact of the right microswitch and the left microswitch is touched
Point is relative, and the pointer is between the right microswitch and the left microswitch;When split reduces, selvedge position is inside
Mobile, the pulling needle inwardly swings under torsion spring restoring force effect, so as to the pointer swings out, depresses the left side micro-
The fine motion contact of dynamic switch;When split elongation, selvedge position are displaced outwardly, the pulling needle is promoted to swing out, so as to the finger
Pin inwardly swings, and depresses the fine motion contact of the right microswitch;When selvedge physical location is in setting position, pointer is pointed to
Graduated disc " 0 " point.
The licker-in expanding distance adjustment component, is mainly led by support, stand-off, gear, vertical tooth rack, elevating lever, lifting
Rail, coronule, licker-in, compress bar and compress Lora composition, the stand-off is fixed on the bracket, on the stand-off
The gear is meshed with the vertical tooth rack, and the elevating lever is fixedly connected with the vertical tooth rack, and the elevating lever is in institute
Slide up and down in the track for stating riser guide, the riser guide is fixed on the bracket, the upper end of the elevating lever and institute
State licker-in to be fixedly connected, the coronule can be rotated on the licker-in, the compress bar and the compress Lora are fixed on described
On support;The licker-in expanding distance adjustment component is driven by motor by train;When stepping motor (drives electricity
Machine is by taking stepping motor as an example) forward or reverse certain angle, the gear is driven by train, and then drive described hanging down
Spur rack, the elevating lever move up and down certain distance, and moving up and down for the elevating lever drives the thorn of its upper end fixation
Roller is moved up and down, and then changes angle of contact α of the fabric on the coronule surface, or even changes the expanding of the licker-in apart from L, is made
Selvedge physical location returns setting position.
The pulling needle is located between the compress Lora and the coronule, and the selvedge position bias detection part passes through
The scale plate is fixed on the support;Therefore, the pulling needle detects the cloth between the compress Lora and the coronule
Side physical location.
The relative position of the selvedge position bias detection part and the licker-in expanding distance adjustment component is fixed, all
Install on the bracket, the support is fixed on loom by sliding pair and holding screw;After fixation, the licker-in (16)
Position is identical with the licker-in position of the side shoring device being substituted on former loom, so as to the cloth fell on loom keeps constant.
A kind of method for weaving of thin high density satin fabric as above, has graduated disc in the scale plate, described
The mid-scale of graduated disc is 0.
A kind of method for weaving of thin high density satin fabric as above, the torsion spring is circular arc, is enclosed in described
On axle sleeve.
A kind of method for weaving of thin high density satin fabric as above, the compress bar and the compress Lora are fixed
On the bracket, the upper end of the elevating lever is fixedly connected with the licker-in.
A kind of method for weaving of thin high density satin fabric as above, selvedge position adjust automatically dress on the loom
Put by PLC controls.
A kind of method for weaving of thin high density satin fabric as above, the motor is stepping motor.
A kind of method for weaving of thin high density satin fabric as above, left and right respectively configures a selvedge position on loom
Automatic regulating apparatus is put, structure is symmetrical;It is disposed on selvedge position on the loom on the loom left side as above to adjust automatically
Engagement positions.
The present invention the loom with low strong yarn as warp thread, in the presence of the torsion spring, the pulling needle all the time with loom on
Selvedge contact it is tight, when the pointer points to the graduated disc 0, correspond to the setting position of selvedge;When the pointer pressure
Under the microswitch fine motion contact when, then correspond to poles of the selvedge physical location in two of setting position permissions are deviateed
Extreme position, at this moment will start the regulation action of motor, turn an angle forward or backwards;The elevating lever is set to make upwards
Or move down, so as to change angle of contact α of the fabric on coronule surface, final adjustment expanding is apart from L;
When split reduces, the pulling needle inwardly swings, and drives the fine motion that the pointer depresses the left microswitch to touch
Point, then PLC uniformly export rotating forward trigger pulse, drive the motor to rotate forward, move up the elevating lever, fabric
Angle of contact α on the coronule surface increases, and the expanding of licker-in is increased apart from L, and split expands, and the pulling needle swings out, cloth
Side physical location successive Regression is to setting position;
When split extends, the pulling needle swings out, and drives the fine motion that the pointer depresses the right microswitch to touch
Point;Then PLC uniformly exports reversion trigger pulse, drives the motor reversion, moves down the elevating lever, fabric
Angle of contact α on the coronule surface reduces, and the expanding of licker-in reduces apart from L, and split reduces, and the pulling needle inwardly swings, cloth
Side physical location successive Regression is to setting position.
The present invention the loom with low strong yarn as warp thread, on loom during machine by operative employee according to different fibrous materials, yarn
Line and fabric construction carry out PLC processing parameter settings and device initialization adjustment, and PLC technological parameters (m, Δ T, n) are by touching
Screen setting, device initialization adjustment work is pressed elevating lever manual control and rises, declines button by operative employee, makes fabric on coronule surface
The angle of contact α of normal work is reached, realizes that correct expanding, apart from L, is then pressed and released the button, this device formally enters selvedge
Position detects automatically, adjustment state;Because workshop moisture temperature and warp tension constantly fluctuate change, split also continuous earthwave therewith
Dynamic change, the physical location of selvedge fluctuates in setting position both sides, reaches capacity when the physical location of selvedge deviates setting position
During position, this device corrects in time the physical location of selvedge so as to revert on setting position, it is to avoid reed is to edge warp thread
Heel and toe wear;The extreme position of selvedge physical location is determined by the position of the microswitch, when selvedge physical location reaches
During to extreme position, the pointer depresses the fine motion contact of the microswitch, by the programme-control of PLC, exports m stepping
Motor forward and backward trigger pulse, makes stepping motor forward and backward certain angle, through train and the gear, drives
Vertical tooth rack, elevating lever, licker-in move up and down certain distance, and then change angle of contact α of the fabric on the coronule surface, or even
Change the expanding of the licker-in apart from L, make selvedge physical location return setting position;Device often once automatically adjusts work,
PLC internal counters increase by 1, and when continuously automatically adjusting after n time, selvedge physical location does not still revert to setting position, says
There is exception in bright workshop moisture temperature or warp tension, its undulate quantity is excessive, and at this moment this device is automatically stopped adjustment work, sends sound
Optical signal, asks manual intervention;After failture evacuation, the initialization of manual reversion device, the then automatic tune of starter
Nodular state;Continuously automatically adjusting frequency n can be with parameter setting.
Beneficial effect
It is an advantage of the invention that:
The method for weaving of a kind of thin high density satin fabric of the present invention, continuously can smoothly weave, and broken end is greatly decreased
Shut down;Row yielding is high, and fabric quality is stable.
Description of the drawings
Fig. 1 is selvedge position bias detection part schematic diagram;
Fig. 2 is the combination diagram of licker-in expanding distance adjustment component and selvedge position bias detection part;
Fig. 3 is the side schematic view of Fig. 2;
Fig. 4 is schematic diagram of the fabric to coronule surface angle of contact α;
Fig. 5 is the schematic diagram that licker-in is adjusted to fabric expanding apart from L;
Fig. 6 is the schematic diagram of the loom with low strong yarn as warp thread of the present invention.
Specific embodiment
With reference to specific embodiment, the present invention is expanded on further.It should be understood that these embodiments are merely to illustrate this
Bright rather than restriction the scope of the present invention.In addition, it is to be understood that after the content for having read instruction of the present invention, art technology
Personnel can make various changes or modifications to the present invention, and these equivalent form of values equally fall within the application appended claims and limited
Fixed scope.
The method for weaving of a kind of thin high density satin fabric of the present invention, the thin high density satin fabric, longitude and latitude yarn is thin
Degree 4.9~5.8tex, end count be 820~920/10cm, filling density be 750~850/10cm, warp thread twist factor 380~420,
Warp thread 116~133cN of single thread force;Fabric tissue flies for five piece three or five piece two flies;
The thin high density satin fabric adopts the loom with low strong yarn as warp thread to weave;
The loom with low strong yarn as warp thread of the present invention, in the both sides of the licker-in (16) of loom cloth on a set of loom is respectively installed
Side position automatic regulating apparatus, selvedge position automatic regulating apparatus includes selvedge position bias detection part on the loom
(as shown in Figure 1), licker-in expanding distance adjustment component (as shown in Figures 2 and 3) and electric control unit;
The selvedge position bias detection part mainly by pulling needle (1), axle sleeve (2), fixing axle (3), torsion spring (4), refer to
Pin (5), right microswitch (6), scale plate (7) and left microswitch (8) composition, is shown in Fig. 1, the pulling needle (1) and the finger
Pin (5) is separately fixed at the both sides up and down of the axle sleeve (2), and one end of the torsion spring (4) connects the pulling needle (1), the torsion
The other end of spring (4) is fixed on the scale plate (7), and the axle sleeve (2) is enclosed within the fixing axle (3), the fixation
Axle (3) is fixed on the scale plate (7), and the right microswitch (6) and the left microswitch (8) are symmetrical,
It is fixed on the scale plate (7), the fine motion contact of the right microswitch (6) and the fine motion of the left microswitch (8)
Contact is relative, and the pointer (5) is between the right microswitch (6) and the left microswitch (8);
The licker-in expanding distance adjustment component, mainly by support (9), stand-off (10), gear (11), vertical tooth rack
(12), elevating lever (13), riser guide (14), coronule (15), licker-in (16), compress bar (17) and compress Lora (18) composition,
See Fig. 2 and Fig. 3, the stand-off (10) is fixed on the support (9), the gear (11) on the stand-off (10)
It is meshed with the vertical tooth rack (12), the elevating lever (13) is fixedly connected with the vertical tooth rack (12), the elevating lever
(13) slide up and down in the track of the riser guide (14), the riser guide (14) is fixed on the support (9), institute
The upper end for stating elevating lever (13) is fixedly connected with the licker-in (16), and the coronule (15) can rotate on the licker-in (16),
The compress bar (17) and the compress Lora (18) are fixed on the support (9);The licker-in expanding distance adjustment component
Driven by train by motor;
The pulling needle (1) between the compress Lora (18) and the coronule (15), the selvedge position bias
Detection part is fixed on the support (9) by the scale plate (7), sees Fig. 2 and Fig. 3;
The relative position of the selvedge position bias detection part and the licker-in expanding distance adjustment component is fixed, all
On the support (9), Fig. 2 and Fig. 3 is seen, the support (9) is fixed on loom by sliding pair and holding screw.
There is graduated disc on the scale plate (7), the mid-scale of the graduated disc is 0, sees Fig. 1.
The torsion spring (4) is circular arc, is enclosed on the axle sleeve (2), sees Fig. 1.
The compress bar (17) and the compress Lora (18) are fixed on the support (9), the elevating lever (13)
Upper end is fixedly connected with the licker-in (16), sees Fig. 2 and Fig. 3.
The electric control unit is PLC.
The motor is stepping motor.
Left and right respectively configures a selvedge position automatic regulating apparatus on loom, and structure is symmetrical.
The method of the present invention, in the presence of the torsion spring (4), the pulling needle (1) all the time with loom on selvedge (20)
Contact is tight, when the pointer (5) points to the graduated disc 0, correspond to the setting position of selvedge;When the pointer (5) pressure
Under the microswitch (8) or (6) fine motion contact when, then correspond to selvedge physical location in deviateing two of setting position
The extreme position of permission, at this moment will start the regulation action of motor, turn an angle forward or backwards;Make the lifting
Bar (13) is moved up or down, and so as to change angle of contact α of the fabric on coronule surface, final adjustment expanding is apart from L;Fig. 4
It is schematic diagram of the fabric to coronule surface angle of contact α;Fig. 5 is the schematic diagram that licker-in is adjusted to fabric expanding apart from L.
When split reduces, the pulling needle (1) inwardly swings, and drives the pointer (5) to depress the left microswitch (8)
Fine motion contact, then PLC uniformly export rotating forward trigger pulse, drive the motor to rotate forward, make the elevating lever (13)
Move up, angle of contact α of the fabric on the coronule (15) surface increases, and the expanding of licker-in is increased apart from L, and split expands, institute
State pulling needle (1) to swing out, selvedge physical location successive Regression is to setting position;
When split extends, the pulling needle (1) swings out, and drives the pointer (5) to depress the right microswitch (6)
Fine motion contact;Then PLC uniformly exports reversion trigger pulse, drives the motor reversion, makes the elevating lever (13)
Move down, angle of contact α of the fabric on the coronule (15) surface reduces, and the expanding of licker-in reduces apart from L, and split reduces, institute
State pulling needle (1) inwardly to swing, selvedge physical location successive Regression is to setting position.
Specific operation process is as follows:
After the fine motion contacting of the microswitch (8) or (6), stepping motor forward or reverse certain angle,
Drive the gear (11) to turn an angle by train, make the vertical tooth rack (12) drive the elevating lever (13)
And the coronule (15), the licker-in (16) move up or down certain distance, and then fabric is made in the coronule (15)
The angle of contact α on surface changes, or even expanding is adjusted apart from L, and after certain period of time (Δ T=2-3min) selvedge is made
Physical location revert to setting position.In a word, up to setting position, (split does not reduce selvedge physical location, the microswitch (8)
Connect), then the elevating lever (13) drives the coronule (15), the licker-in (16) to rise, and angle of contact α increases, expanding is apart from L
Increase;Conversely, selvedge physical location surmount setting position (split extend, microswitch (6) connect), then angle of contact α reduce,
Expanding reduces apart from L.
Electric control unit includes technology controlling and process case and stepping motor;Technology controlling and process case is to set technological parameter, control
Make and drive stepping motor, including the manual of elevating lever rises, declines button and device is released the button, PLC system and stepping
Motor driver.The technological parameter that PLC control program is related to is step number m of stepping motor during regulation every time, continuously
The Δ T interval time (for example 2-3min) for automatically adjusting twice, frequency n (for example 3 times) is continuously adjusted, these parameters are according to difference
The setting of fibrous material, yarn and fabric construction.Technological parameter m is during adjusting every time described in elevating lever (13) drive
Coronule (15), the licker-in (16) make the distance (empirical value, by permitting for selvedge physical location deviation setting position for rising or falling
Perhaps bias is determining) and the gear ratio of train, tooth bar pitch, stepping motor stepping angle be calculated.Selvedge reality
The permission bias of border positional deviation setting position is 1-2mm, and the numerical value correspond to the position of the microswitch (6) and (8),
Can be made adjustments according to different fibrous materials, yarn, fabric construction and loom type.
When the elevating lever manual control is risen or fallen button by operative employee connects, respectively to the input terminal of the PLC
2nd, 3 output high level, button release is then low level, and when high level occurs in input terminal 2,3, PLC is equal within the Δ T/2 time periods
M stepping motor forward or reverse trigger pulse of even output, drives the stepping motor forward or reverse certain angle, right
The expanding of the licker-in is adjusted apart from L, and this is the initialized manual adjustment of this device, make L reach one it is appropriate initial
Numerical value;Afterwards, when described device is released the button and pressed by operative employee, the entrance of this device is automatically controlled, adjustment state, open circuit
Connect, to the input terminal 1 of PLC high level is exported and keep;When microswitch 6 or 8 is connected, respectively to the input of PLC
Terminal 4,5 exports high level, and microswitch is broken as low level, and under the conditions of input terminal 1 is high level, input terminal 5 is
High level, then PLC m stepping motor rotating forward trigger pulse of uniform output within the Δ T/2 time periods, drives the stepping electronic
Machine rotates forward certain angle, and the expanding for making the licker-in is increased apart from L;Under the conditions of input terminal 1 is high level, input terminal 4
For high level, then PLC m stepping motor reversion trigger pulse of uniform output within the Δ T/2 time periods, drives the stepping electricity
Motivation inverts certain angle, and the expanding for making the licker-in reduces apart from L;PLC sends first and touches to stepping motor driver
Start timing when sending out pulse, timing is reached after Δ T, if input terminal 4 or 5 remains high level, repeats above-mentioned regulation work
Make, often adjust once, PLC internal counters add 1;Conversely, timing is reached after Δ T, if input terminal 4 or 5 is low level,
Do not go on adjustment work and reset internal counter;When continuous re-adjustments work n time after (internal counter meter
N), still not up to normally, input terminal 4 or 5 is still high level to selvedge position, shows that workshop moisture temperature or warp tension occur
Unusual fluctuations, need manual intervention, and at this moment PLC exports trigger pulse to the open circuit, automatically cuts off open circuit, described
Open circuit to the input terminal 1 of PLC exports low level, stops this device and automatically adjusts work to selvedge position, while sending out
Go out sound and light signal, apply for manual intervention;After manually fixing a breakdown, device unlatching is pressed in the initialization of manual reversion device
Button, open circuit is connected, again the control action of recovery device, and resets PLC internal counters.
Claims (7)
1. a kind of method for weaving of thin high density satin fabric, is characterized in that:The thin high density satin fabric, longitude and latitude yarn fineness
4.9~5.8tex, end count be 820~920/10cm, filling density be 750~850/10cm, warp thread twist factor 380~420, Jing
Yarn 116~133cN of single thread force;Fabric tissue flies for five piece three or five piece two flies;
The thin high density satin fabric adopts the loom with low strong yarn as warp thread to weave;It is described with low strong yarn knitting as warp thread
Machine, in the both sides of the licker-in (16) of loom selvedge position automatic regulating apparatus on a set of loom, selvedge on the loom are respectively installed
Position automatic regulating apparatus includes selvedge position bias detection part and licker-in expanding distance adjustment component;
The selvedge position bias detection part is mainly by pulling needle (1), axle sleeve (2), fixing axle (3), torsion spring (4), pointer
(5), right microswitch (6), scale plate (7) and left microswitch (8) composition, the pulling needle (1) and the pointer (5) are respectively
Be fixed on the both sides up and down of the axle sleeve (2), one end of the torsion spring (4) connects the pulling needle (1), the torsion spring (4) it is another
One end is fixed on the scale plate (7), and the axle sleeve (2) is enclosed within the fixing axle (3), and the fixing axle (3) is fixed
On the scale plate (7), the right microswitch (6) and the left microswitch (8) are symmetrical, are each attached to described
In scale plate (7), the fine motion contact of the right microswitch (6) and the fine motion contact of the left microswitch (8) are relative, institute
Pointer (5) is stated between the right microswitch (6) and the left microswitch (8);
The licker-in expanding distance adjustment component is by support (9), stand-off (10), gear (11), vertical tooth rack (12), elevating lever
(13), riser guide (14), coronule (15), licker-in (16), compress bar (17) and compress Lora (18) composition, the stand-off (10)
It is fixed on the support (9), the gear (11) on the stand-off (10) is mutually nibbled with the vertical tooth rack (12)
Close, the elevating lever (13) is fixedly connected with the vertical tooth rack (12), and the elevating lever (13) is in the riser guide (14)
Track in slide up and down, the riser guide (14) is fixed on the support (9), the upper end of the elevating lever (13) and institute
State licker-in (16) to be fixedly connected, the coronule (15) can rotate on the licker-in (16), the compress bar (17) and the pressure
Cloth Lora (18) is fixed on the support (9);The licker-in expanding distance adjustment component passes through train by motor
Drive;
Between the compress Lora (18) and the coronule (15), the selvedge position bias is detected the pulling needle (1)
Part is fixed on the support (9) by the scale plate (7);
The relative position of the selvedge position bias detection part and the licker-in expanding distance adjustment component is fixed, and is all installed
On the support (9), the support (9) is fixed on loom by sliding pair and holding screw.
2. a kind of method for weaving of thin high density satin fabric according to claim 1, it is characterised in that the graduated disc
There is graduated disc on plate (7), the mid-scale of the graduated disc is 0.
3. a kind of method for weaving of thin high density satin fabric according to claim 1, it is characterised in that the torsion spring
(4) it is circular arc, is enclosed on the axle sleeve (2).
4. a kind of method for weaving of thin high density satin fabric according to claim 1, it is characterised in that the compress bar
(17) it is fixed on the support (9) with the compress Lora (18), upper end and the licker-in (16) of the elevating lever (13)
It is fixedly connected.
5. a kind of method for weaving of thin high density satin fabric according to claim 1, it is characterised in that the driving electricity
Machine is stepping motor.
6. the method for weaving of a kind of thin high density satin fabric according to claim 1, it is characterised in that it is left on loom and
Right respectively one selvedge position automatic regulating apparatus of configuration, structure is symmetrical.
7. the method for weaving of a kind of thin high density satin fabric according to claim 1, it is characterised in that on the loom
Selvedge position automatic regulating apparatus is by PLC controls.
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CN104593929B (en) * | 2014-12-12 | 2016-06-15 | 海泰纺织(苏州)有限公司 | A kind of method for weaving of conducting fabric |
CN111058152B (en) * | 2019-12-27 | 2021-08-10 | 际华三五零九纺织有限公司 | 100-count extra-high-count high-density fabric and production method thereof |
CN112900065B (en) * | 2021-02-26 | 2022-04-12 | 广东溢达纺织有限公司 | Fabric burr trimming device and fabric burr trimming method |
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GB107294A (en) * | 1916-08-26 | 1917-06-28 | Henry Hill | Improvements in or applicable to Smallware Looms. |
GB236149A (en) * | 1924-06-28 | 1925-11-19 | Louis Carriol | Improvements in or relating to looms operating with two weft threads |
GB333679A (en) * | 1929-06-15 | 1930-08-21 | Frederick Stott | Improvements relating to selvedge controlling mechanism for looms for weaving |
GB753481A (en) * | 1953-05-22 | 1956-07-25 | William Wycliffe Spooner | Improvements in or relating to edge sensing or detecting means |
US3885600A (en) * | 1973-07-17 | 1975-05-27 | Jack G Altmann | Method and temple apparatus for guiding fabric lengths through textile weaving machines |
CN201176521Y (en) * | 2008-03-27 | 2009-01-07 | 常熟市龙略机电有限公司 | Edge-detecting machine |
CN201406573Y (en) * | 2009-05-14 | 2010-02-17 | 怡星(无锡)汽车内饰件有限公司 | Automatic feeding correcting device |
CN203174289U (en) * | 2013-03-14 | 2013-09-04 | 山东日发纺织机械有限公司 | Selvedge yarn pressing device of air injection glass fiber loom |
-
2013
- 2013-08-16 CN CN201310360163.6A patent/CN103485020B/en not_active Expired - Fee Related
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
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GB107294A (en) * | 1916-08-26 | 1917-06-28 | Henry Hill | Improvements in or applicable to Smallware Looms. |
GB236149A (en) * | 1924-06-28 | 1925-11-19 | Louis Carriol | Improvements in or relating to looms operating with two weft threads |
GB333679A (en) * | 1929-06-15 | 1930-08-21 | Frederick Stott | Improvements relating to selvedge controlling mechanism for looms for weaving |
GB753481A (en) * | 1953-05-22 | 1956-07-25 | William Wycliffe Spooner | Improvements in or relating to edge sensing or detecting means |
US3885600A (en) * | 1973-07-17 | 1975-05-27 | Jack G Altmann | Method and temple apparatus for guiding fabric lengths through textile weaving machines |
CN201176521Y (en) * | 2008-03-27 | 2009-01-07 | 常熟市龙略机电有限公司 | Edge-detecting machine |
CN201406573Y (en) * | 2009-05-14 | 2010-02-17 | 怡星(无锡)汽车内饰件有限公司 | Automatic feeding correcting device |
CN203174289U (en) * | 2013-03-14 | 2013-09-04 | 山东日发纺织机械有限公司 | Selvedge yarn pressing device of air injection glass fiber loom |
Also Published As
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CN103485020A (en) | 2014-01-01 |
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