CN1829649A - Thread processing system and adaptation method - Google Patents
Thread processing system and adaptation method Download PDFInfo
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- CN1829649A CN1829649A CNA2004800216689A CN200480021668A CN1829649A CN 1829649 A CN1829649 A CN 1829649A CN A2004800216689 A CNA2004800216689 A CN A2004800216689A CN 200480021668 A CN200480021668 A CN 200480021668A CN 1829649 A CN1829649 A CN 1829649A
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- yarn
- diameter
- weft
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- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D47/00—Looms in which bulk supply of weft does not pass through shed, e.g. shuttleless looms, gripper shuttle looms, dummy shuttle looms
- D03D47/34—Handling the weft between bulk storage and weft-inserting means
- D03D47/36—Measuring and cutting the weft
- D03D47/361—Drum-type weft feeding devices
- D03D47/367—Monitoring yarn quantity on the drum
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Abstract
The invention relates to an air-jet loom (W) and a thread processing system comprising at least one weft-thread measuring delivery device (F), in which a loom controller (MC) and a measuring delivery device controller (C) are connected via an information transmission route (A) for at least the cloth width (B, B') and the storage body diameter (D) that is to be set can be defined using the transmitted cloth width information (iB). An optoelectronic thread sensor (S) generates signals from the presence or absence of the weft-thread (Y) in a scanning zone (Z) on the storage body (4). The thread sensor (S) is a reflection-operated sensor, which can be used to generate weft-thread presence and absence signal levels (Hi, Lo, Hi , Lo ). An automatic level threshold selection device (K) is connected to the information transmission route (A), said device having at least two different level thresholds (S1, S2) for signal level evaluation for different cloth widths. Each level threshold value (S1, S2) lies between the respective presence and absence signal levels for the diameter that is correlated with the current cloth width (B, B'). This allows the measuring delivery device to automatically adapt, with regard to the thread scanning operation, to the current cloth width or the defined diameter (D) of the storage body.
Description
Technical field
The present invention relates to a kind of Yarn-processing system, and relate to a kind of method according to claim 6 preamble according to claim 1 preamble.
Background technology
Because every weft yarn in the air-jet loom must be inserted in the loom shed open by air-jet loom, the length of throwing a spear must be measured according to the actual woven width of the air-jet loom of adjusting respectively by measured yarn feeding device.Therefore, measure yarn feeding device and be provided with the brake equipment that comprises a braking element.According to the weaving repetition period, braking element is moved and enters the memory device main body, is perhaps regained from the memory device main body.In the time of combination, braking element pins weft yarn and prevents further withdrawal.When regaining, braking element allows the weft yarn coil of withdrawal predetermined quantity, up to occur next time braking element in conjunction with and divide other length of throwing a spear up to having reached.For the length adjustment of will throwing a spear is divided other actual woven width in the loom shed open, the diameter of memory device main body is adjusted to and makes that the straight multiple (will d/d coil quantity) of memory device main body girth is corresponding with throw a spear length or actual woven width respectively.For example need above-mentioned adjustment after the change width in weaving, and in some cases when the long or too short weft yarn of appearance as follow-up adjustment.In order to simplify these operations, modern air-jet loom all disposes at the loom controller and measures the information transfer channel of two way communication between the yarn feeding device controller.The loom controller obtains each actual woven width.Information transfer channel can for example be comprised in the serial CAN-bus system.Described information transfer channel is used for transmitting respectively throw a spear length or weaving width at least.For example, the microprocessor of measuring the yarn feeding device controller is according to the information that receives respectively, calculates that throw a spear will d/d weft threads number of turns amount at every turn, and each of memory bank optimized diameter.Optimize diameter and both can illustrate on the measurement yarn feeding device, also can illustrate on the controller panel of loom controller, the staff can manually or carry out the adjustment of diameter under the help of auxiliary device like this.Further, measure the quantity that the yarn feeding device controller is responsible for showing the weft yarn coil of the yarn supply of representing on the memory device main body always, this quantity can satisfy the consumption that intermittently weft yarn withdrawal causes just.The yarn supply is constantly to replenish.The weft yarn coil is formed on the memory device main body by the wound element of a rotation.Wound element is by an engine drive, measure the yarn feeding device controller and control this driving engine, preferably according to being microprocessor generation signal on the basis that whether has weft yarn in the signal of yarn scanning photoelectricity yarn detector, the search coverage on the memory device main body.When yarn detector detects when having weft yarn in search coverage, driving engine is decelerated or stops.When yarn detector detects when not having weft yarn in search coverage, driving engine is accelerated or starts.At present, the electro-optical yarn detector can mainly be divided into two classes.First kind yarn detector uses the reflecting surface on the memory device main body, and monitoring is from the light of this return reflection surface.In case yarn is near the surface, described light will be lived in crested.The yarn detector direct detection weft yarn of another kind of type, in case promptly yarn appears in the search coverage, detector just can monitor the light by the weft yarn reflection.Measure in the yarn feeding device at one, especially in having the measurement yarn feeding device of yarn disconnector, to the use of the first kind yarn detector that comprises the reflecting surface on the memory device main body because following former thereby become impracticable: the element of memory device main body moves needed space in operation and is difficult to allow to be provided with reflecting surface.The measurement needed installing space of the essential brake equipment of length of throwing a spear has also limited reflecting surface has been set.Further, because the contact area between weft yarn and the memory device main body should be as much as possible little, so that minimize harmful friction, enough big reflecting surface is difficult to be set at herein.At last, signal evaluation is quite complicated because since inevitably pollutants can not to distinguish very reliably whether reflecting surface covered by weft yarn still be that contaminated thing covers.For for preferred second type the yarn detector that uses in the described Yarn-processing system, just there not being above-mentioned restriction.But, survey for the reflected light of weft yarn for yarn detector and to have another problem, because it may wait the complexity that becomes in the light of distinguishing the weft yarn reflected back and the light time of the mechanical background parts reflected back of memory device main body.Because light transmission distance has been along with variation has taken place in diameter, from the light intensity of background parts reflected back may be according to the big adjustment diameter of described memory device main body or little adjustment diameter and for example intensity change.Owing to measure the actual adjustment back diameter that the yarn feeding device controller is not known the memory device main body, therefore after being adjusted into new di, be difficult to avoid reliably spurious signal at present.
Summary of the invention
One of purpose of the present invention is to provide a kind of disclosed in front a kind of Yarn-processing system and method, the present invention has reduced the above-mentioned shortcoming of measuring second kind of yarn detector in the yarn feeding device with form simple in structure, and the variation light reflection that is caused by the background assembly of memory device main body can not exert an influence to the particularity of finding lost pick like this.
Above-mentioned purpose realizes by the feature in claim 1 and the claim 6.
The present invention has considered following factor, in the situation of correspondence from the catoptrical electro-optical yarn detector of weft yarn, has signal and do not have the signal rank of signal that intensity reduces along with the reducing of diameter of memory device main body.Above-mentioned effect is complicated and have the signal rank and do not exist between the signal rank adjusted diameter independently failure-free distinguish.But the level threshold selecting arrangement provides the level threshold of the assessment of the predetermined diameter setting range that is used for the memory device main body or predetermined diameter, and threshold value is set to it and is in for what this diameter produced and has the signal rank and do not exist between the signal rank.Selected level threshold can be described as plane of reference, is accurately informed existence that whether yarn detector has detected weft yarn and does not exist by this threshold value microprocessor.The level threshold selecting arrangement uses any available information of throwing a spear or weaving width information and provides accurate level threshold as signal evaluation, and this threshold value is fit to adjusted weaving width respectively or according to the diameter of weaving width adjustment.Like this, the falseness influence of the background reflectance light that changes along with vary in diameter will oneself be suppressed by it, because Xuan Ding level threshold and be complementary according to the distance between yarn detector and the weft yarn respectively, there is the signal rank in level threshold and does not exist between the signal rank what produce for this diameter like this.In order to select each suitable level threshold, the weaving width information can be transferred to the level threshold selecting arrangement by information transfer channel.By the information of being transmitted, which in the threshold value that needs different stage the level threshold selecting arrangement be apprised of.Information can directly transmit or transmit by microprocessor indirectly from the loom controller, this microprocessor even may handle described information and may divide other select command to level threshold selecting arrangement output.Microprocessor even can retrieve suitable level threshold, this threshold value is used to the signal rank is assessed subsequently.Described selecting arrangement uses any known weaving width information or diameter information so that adjust the response action of finding lost pick device, and after vary in diameter took place, microprocessor was in the state that can control driving engine reliably like this.
The method according to this invention is measured yarn feeding device and oneself is adjusted to actual weaving width by the weaving width information according to finding lost pick.The required qualification diameter of doing of just adjusting the memory device main body of staff.
Already in measure on the yarn feeding device or be present under the situation in the controller panel of loom at the read out instrument of the memory device main body that calculates by the weaving width information that has existed, wherein read out instrument can be activated or be provided so that correspondingly notify the staff by microprocessor, can provide subsequently from microprocessor or the signal transmission passage from read out instrument to the level threshold selecting arrangement.The rank selecting arrangement provides subsequently according to the diameter that calculates and provides correct level threshold for the assessing signal rank.
In addition, because yarn qualities or the yarn color handled respectively are also influential to the reflex behavior of weft yarn, therefore preferably are provided for the setting device of yarn qualities parameter or color parameter and setting device is connected with microprocessor and/or level threshold selecting arrangement.The staff is in the relevant suitable parameters of setting device adjustment.Subsequently, when selecting suitable level threshold for above-mentioned yarn qualities or yarn color and for the diameter that calculate and/or that adjust of memory device main body, microprocessor is considered and/or will be considered above-mentioned parameter by the level threshold selecting arrangement.
Preferably, the level threshold selecting arrangement is integrated in the microprocessor, and this microprocessor is carried out other assessment of signal level, and receives the weaving width information from the loom controller.In second type intelligent yarn detector situation, level threshold selecting arrangement even can be integrated into yarn detector or be integrated in the circuit of yarn detector, above-mentioned second type intelligent yarn detector relies on assessment of signal rank or the signal conditioning of itself carrying out at least a portion respectively, and exports the signal of handling to microprocessor.
Preferably, the level threshold selecting arrangement is provided with at least two different level threshold, above-mentioned threshold value for example with maximum gauge and minimum diameter or corresponding near the diameter range of maximum gauge and minimum diameter.These level threshold can be able to be stored in the table with retrieving.Even can be, even can provide threshold value with stepless form not only with single step form retrieval threshold.In table, level threshold is corresponding respectively with the different-diameter of different weaving width or memory device main body, according to the content of weaving width information or the diameters that calculates respectively, can retrieve or adjust each correct level threshold like this.
Description of drawings
Embodiments of the invention are described below with reference to accompanying drawings.In the accompanying drawings:
Fig. 1 is the side schematic view of a Yarn-processing system,
Fig. 2 is one the detailed view of Fig. 1, and
Fig. 3 shows signal level other chart relevant with the memory device main diameter.
The specific embodiment
Schematically illustrated Yarn-processing system comprises air-jet loom W and the weft measurement yarn feeding device F in a yarn path among Fig. 1.Can there be a plurality of yarn paths.One is inserted device E and will insert loom shed open 5 from the weft yarn Y of the predetermined length of throwing a spear of measuring yarn feeding device F off and on.
The insertion device E of air-jet loom W comprises controlled air nozzle.The loom shed open has the weaving width B with the preliminary dimension shown in the solid line.Can change by the shown weaving width B of B.The controller panel 6 of loom W links to each other with loom controller MC.Described loom controller MC for example is connected with yarn feeding device controller C by communication bus system BS (for example CAN bus system) and/or by at least one information transfer channel A.
In the housing of measuring yarn feeding device F, be provided with the CD-ROM drive motor M that is used for wound element 2.Memory device main body 3 firmly is supported on the housing.Memory device main body 3 can be designed as shaft-like that has thin axial pusher dog.Memory device main body 3 is used to carry the yarn supply that the weft yarn coil that formed by wound element 2 constitutes.In memory device main body 3, can work so that adjacent yarn coil is separated from each other by the director element (not shown) that wound element 2 drives.
One brake equipment P is set in the shell holder.Brake equipment P has a braking element, and described element can be adjusted between braking position and release position usually.Also be provided with an electro-optical yarn detector S herein, the reflected light rays of described detector S response yarn coil, and transmit to measuring yarn feeding device controller C, the signal rank of described signal according to following situation is determined promptly whether have or do not exist the weft yarn coil in search coverage Z.Measuring yarn feeding device controller C assesses described signal and drives driving engine M so that adjust the preliminary dimension (reach the yarn coil of predetermined quantity, for example yarn coil foremost enters search coverage Z) of yarn supply.Memory device main body 3 disposes manually or the diameter setting device 4 of machinery even remote controlled.The diameter of memory device main body identifies with D.As convention, the measured yarn feeding device controller of brake equipment P C is according to weaving repetition period control, so that discharge weft yarn coil or locking withdrawal for withdrawal.Can control or take other modes to control according to information transmitted in transmission path A.
Loom controller MC receives the information about adjusted actual woven width B or B ', and for good and all or circularly provides the information iB of weaving width B or B ' to measuring yarn feeding device controller C.By above-mentioned information, measure the yarn feeding device controller and calculate, and which diameter D is optimum, and the straight multiple of the girth of which memory device main body will be corresponding with weave width B or B ' for what yarn coils every shuttle of realizing withdrawing must discharge.
Fig. 2 schematically shows the device assembly of measuring yarn feeding device F.Electro-optical yarn detector S is arranged in housing 1 or the shell holder, and detector S can scan weft yarn Y among the predetermined search coverage Z on memory device main body 3 like this.Because the assembly in the memory device main body 3 comprises a reflecting background inevitably, and because yarn detector S wishes to survey the reflected light rays from weft yarn, the rank that then transmits changes according to the diameter of adjusting respectively, and (Fig. 2 will show minimum diameter and maximum dimension D because yarn detector S will change to reflecting background and to the distance that reflects weft yarn subsequently
MinAnd D
Max).In Fig. 3, above-mentioned situation is explained.
It is the signal rank of the yarn detector S of unit that Fig. 3 for example shows on vertical axis with volt (V).Horizontal shaft is represented diameter D with millimeter.The corresponding adjusted maximum dimension D of first perpendicular line in chart
MaxRepresent adjusted minimum diameter D at another perpendicular line on right side
MinFor example under the situation that occurs the black weft yarn on the maximum gauge, the signal rank is not from existing the H of weft yarn among storage area Z
iChange to the L that in storage area Z, has weft yarn
o(there is weft yarn in Y=, and there is not weft yarn in N=).The signal rank changes between 5V (when not existing) and 4V (when existing).For the minimum diameter of same weft yarn, there is not signal rank H in weft yarn
i' be 3V, and have signal rank L
o' only be 2V.Because measurement yarn feeding device controller C does not obtain any information for the diameter D of actual adjustment, when other intensity of signal level reduces along with reducing of diameter, then can not draw the failure-free conclusion for the control of driving engine M.
According to the present invention, for different adjustment diameters or be at least threshold value S1, the S2 that different diameter setting ranges is provided for other different stage of assessing signal level.Be used for maximum gauge or near the level threshold numerical value S1 among the diameter setting range of maximum gauge in the present embodiment at H
iBe 5V L
oBe selected as 4.5V under the situation for 4V.Another be used to minimum diameter or near the level threshold numerical value S2 among the diameter setting range of minimum diameter in the present embodiment at H
iBe 3V L
oBe selected as 2.5V under the situation for 2V.When assessment time, the signal rank only determines subsequently whether the signal rank that receives is higher than respectively or is lower than selected level threshold S1 or S2.When the signal that receives is superior to threshold value, then judge not have weft yarn.If the signal rank is lower than threshold value, then judge to have weft yarn.Because the diameter of each threshold value and adjustment or predetermined diameter range are relevant, and there is the signal rank in it and is not existing between the signal rank, in above-mentioned every kind of situation, can obtain clear and error-free judgement, according to this judgement, measure yarn feeding device controller C and can correctly control driving engine M.
The measurement yarn feeding device C of Fig. 2 comprises a microprocessor MP, and it links to each other with information transfer channel A, and receives weaving width information i from loom controller MC
BYarn detector S and driving engine M link to each other with microprocessor MP.In Fig. 2, maximum dimension D
MaxMinimum diameter D is shown with solid line
MinShown in broken lines.Auxiliary device can be set, for example a read out instrument R is being set near the position of measuring yarn feeding device controller C, microprocessor MP shows optimum diameter B and weft threads number of turns amount G by described read out instrument R, and described optimum diameter B is according to weaving width information i
BCalculate, and the quantity G of weft yarn coil is the quantity of the weft yarn coil that should discharge for the every shuttle of actual woven width.Further, can provide the setting device T of the parameter that is respectively applied for yarn qualities or yarn color, it also is connected with microprocessor MP.Microprocessor MP for example provides a diameter information i to read out instrument R
D
Be respectively yarn detector S or microprocessor MP level threshold selecting arrangement K is provided.Search coverage Z on the yarn detector S monitoring memory main body 3.The detection range of yarn detector S changes according to the diameter D of each adjustment.Microprocessor MP assessing signal.Level threshold selecting arrangement K in addition can be integrated among the microprocessor MP, for example on the position of signal evaluation circuit.The form of the magnitude of voltage that at least two different level threshold S1, S2 can be for example calculate with volt is stored among the table Q of level threshold selecting arrangement K.Level threshold selecting arrangement K is connected with information transfer channel A by information transfer channel (this passage can be based upon among the microprocessor MP) or direct (shown in broken lines) so that weaving width information i is provided
BAlternatively or additionally, as shown in the figure, selecting arrangement K can link to each other with the information transfer channel between microprocessor MP and the read out instrument R, level threshold selecting arrangement K both can receive weaving width information i respectively like this
B, can also receive diameter information i
DDiameter information i
DAlso be provided for read out instrument R.Alternatively, as shown, the customizing messages that is used for level threshold selecting arrangement K can directly be produced by microprocessor MP.These can be the select commands of processing format.As another optional embodiment, microprocessor MP itself obtains level threshold S1 or the S2 of the diameter D that is fit to calculate.
In addition, the set yarn qualities or the parameter of yarn color can be used as colouring information i in setting device T
cBe provided for microprocessor MP and/or level threshold selecting arrangement K, like this by the level threshold of suitable selection, the actual reflectance characteristics of the weft material of handling will be included in the consideration of signal rank assessment.Be used for diameter information i
DAn information transfer channel A ' both can also can extend to level threshold selecting arrangement K from microprocessor MP from read out instrument R.Another information transfer channel A " can extend to screening device K from setting device T respectively, perhaps also via microprocessor MP.
Before Yarn-processing system starts or after weaving width B, B ' change, weaving width information i
BBe transferred to and measure yarn feeding device controller C, this controller C calculates simultaneously must controlled diameter D and the weft threads number of turns amount G for throw a spear and need discharge at every turn.Result of calculation can show (read out instrument R even can be arranged in the controller panel 6 of loom W) in read out instrument R.In some cases, even one yarn parameter is set at setting device T.Set yarn parameter is as colouring information i
cOutput.The staff can adjust the diameter D that calculates by experience or by service adjustment device 4.Simultaneously, by weaving width information i
BPerhaps diameter information i
D, in some situation, color combining information i
C, adjust or export or retrieve suitable level threshold S1 or S2.Measure yarn feeding device F like this and will be adjusted to actual yarn width B or B ' according to finding lost pick subsequently.
Can provide different stage threshold value or relative diameter simulation ground that threshold value promptly infinitely is provided more than two.
After Yarn-processing system started, brake equipment P was placed into retrieving position.Weft yarn Y is inserted in the loom shed open 5.Before the quantity G that reaches adjustment soon, brake equipment P is placed into braking position to be stopped to throw a spear.This moment or even thereafter, driving engine M can turn round so that replenish yarn supply on the memory device main body 3.When yarn detector S detects when not having weft yarn in search coverage Z, driving engine M can be driven or quicken.When yarn detector S detects when having weft yarn in search coverage Z, driving engine M can be decelerated or even stop.Yarn detector S produces signal, for example higher signal rank or the lower signal rank that exists of not existing.Relevant with actual diameter D or weaving width B, B ' respectively level threshold S1 or S2 are positioned at and exist and do not have signal rank H
iPerhaps L
o(H
i' or L
o') between and when the signal rank is evaluated, will be included into limit of consideration.In other words, when signal was superior to threshold value, there was not weft yarn in microprocessor MP judgement, and when the signal rank was lower than threshold value, there was weft yarn in microprocessor MP judgement.Carry out control according to above-mentioned conclusion to driving engine M.
Alternatively, yarn detector S can be designed as and export than weft yarn signal rank higher under the non-existent situation under the situation that weft yarn exists.Yarn detector S can axially being adjusted along shell holder in memory device main body 3.Preferably, brake equipment P can radially be adjusted, so that obtain the position of relative memory device main body girth optimum once more after diameter changes.
In another unshowned embodiment, level threshold selecting arrangement K even can be separately positioned on loom controller MP or in controller panel 6.Relevant with separately weaving width B, B ' subsequently existing level threshold S1 or S2 will be transferred to through transmission path A and measure yarn feeding device controller C, like this, measuring the in service of yarn feeding device F, measure yarn feeding device controller C and automatically adjust, so that turn round independently mutually error-freely and with the actual diameter D that adjusts.When an intelligent yarn detector S has integrated evaluation circuits, the level threshold S1, the S2 that select for the actual woven width can handle in yarn detector S subsequently, and there is signal in this detector S and does not have signal to microprocessor MP output reliably subsequently.
Claims (6)
1. Yarn-processing system, described system comprises that an air-jet loom (W) and at least one have the weft measurement yarn feeding device (F) of a variable memory device main body (3) of a diameter (D) and a diameter setting device (4), this system also comprises a loom controller (MC) and comprises the measurement yarn feeding device controller (C) of a microprocessor (MP), described measurement yarn feeding device controller (C) is by be used for throwing a spear at least a length or a weaving width (B, B ') information transfer channel (A) links to each other with loom controller (MC), the evaluation circuits that this system and then be included in is measured in the yarn feeding device controller (C) is so that calculate the diameter of memory device main body (D) at least, and described diameter (D) will be according to throw a spear length or the weaving width information (i that are transmitted
B) be adjusted, and this system finally comprises the electro-optical yarn detector (S) that at least one links to each other with microprocessor (MP), this yarn detector (S) is according to existing in the search coverage (Z) on memory device main body (3) or not existing weft yarn (Y) to produce signal, it is characterized in that, described yarn detector (S) is a yarn reflected light rays detector, when weft yarn (Y) exists or is not present in the search coverage (Z), the yarn reflected light rays of this detector (S) response weft yarn (Y) changes, and according to a rank threshold value (S1, S2) there is not the signal rank in generation and has signal rank (H
i, L
o, H
i', L
o'), other intensity of above-mentioned signal level reduces along with reducing of diameter (D); And a rank threshold value selecting arrangement (K) is set and itself links to each other with information transfer channel (A) directly or indirectly; And a described rank threshold value selecting arrangement (K) for other assessment of signal level is had at least two with different length or the weaving width information (i of throwing a spear
B) relevant different stage threshold value (S1, S2), for the diameter setting range or the diameter of the memory device main body (3) relevant with weaving width (B, B '), each level threshold all is positioned at not having the signal rank and having signal rank (H separately
i, L
o, H
i', L
o') between.
2. Yarn-processing system according to claim 1 is characterized in that, for providing read out instrument (R) according to throw a spear length or the memory device diameter (D) that calculates of weaving width (B, B ') that are transmitted; Read out instrument (R) links to each other with microprocessor (MP) and by from the diameter information (i of microprocessor (MP)
D) activate; Between microprocessor (MP) and level threshold selecting arrangement (K), be provided with and be used for diameter information (i
D) transmission path (A ').
3. Yarn-processing system according to claim 1 is characterized in that, be provided with a setting device that is used for yarn qualities parameter or yarn color parameter, and this device links to each other with microprocessor (MP) and/or level threshold selecting arrangement (K).
4. Yarn-processing system according to claim 1 is characterized in that, level threshold selecting arrangement (K) is integrated in the microprocessor (MP) respectively, perhaps is integrated in the yarn detector (S).
5. Yarn-processing system according to claim 1, it is characterized in that, in a table (Q), storing be used to be retrieved or launch, preferably be retrieved with classification or stepless mode or launch, with different weaving width (B, B ') or different cooresponding at least two the different level threshold of diameter (D) (S1, S2).
6. be used to adjust the method for weft measurement yarn feeding device (F), described weft measurement yarn feeding device (F) has a variable memory device main diameter (D) and is comprised in the Yarn-processing system, described system comprises the air-jet loom (W) of the weaving width (B, B ') of basis actual woven variable-width separately, according to this method, loom controller (MC) and measurement yarn feeding device controller (C) pass through the information (i of actual woven width at least
B) go up communication at information transfer channel (A), like this can be according to weaving width information (i
B) determine the adjustment numerical value of memory device main diameter, and according to this method, at least one electro-optical yarn detector (S) is the weft yarn supply of scanning on memory device main body (3) in measuring yarn feeding device (F), and do not exist signal rank and weft yarn to have signal rank (H for measuring yarn feeding device controller (C) generation weft yarn
i, L
o, H
i', L
o'), it is characterized in that the light that yarn detector (S) reflects from weft yarn (Y) by response produces and do not have the signal rank and have signal rank (H
i, L
o, H
i', L
o'); And provide at least two different level threshold (S1, S2) with there being rank for assessment and for the rank of distinguishing separately that do not exist, in described level threshold (S1, S2), level threshold (S1) or level threshold (S2) itself are at least by weaving width information (i
B) and chosen, and be used subsequently, like this its with actual weaving width (B, B ') or with the predetermined adjustment numerical value that is used for memory device main diameter (D) be relevant.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE2003134339 DE10334339A1 (en) | 2003-07-28 | 2003-07-28 | Yarn processing system and method of adjustment |
DE10334339.3 | 2003-07-28 |
Publications (2)
Publication Number | Publication Date |
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CN1829649A true CN1829649A (en) | 2006-09-06 |
CN100475676C CN100475676C (en) | 2009-04-08 |
Family
ID=34088892
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CNB2004800216689A Expired - Fee Related CN100475676C (en) | 2003-07-28 | 2004-07-08 | Thread processing system and adaptation method |
Country Status (4)
Country | Link |
---|---|
EP (1) | EP1648808B1 (en) |
CN (1) | CN100475676C (en) |
DE (1) | DE10334339A1 (en) |
WO (1) | WO2005014454A1 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106460262A (en) * | 2014-05-09 | 2017-02-22 | 必佳乐公司 | Weft feeder device |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103336424A (en) * | 2013-06-15 | 2013-10-02 | 常州瑞昇科技有限公司 | Dual-core control system of weft finishing machine |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS59106543A (en) * | 1982-12-13 | 1984-06-20 | 日産自動車株式会社 | Weft yarn feeder of segment loom |
EP0290380B1 (en) * | 1987-04-24 | 1991-08-28 | GebràDer Sulzer Aktiengesellschaft | Weft thread storing apparatus with an automatic thread-measuring device for weaving looms |
-
2003
- 2003-07-28 DE DE2003134339 patent/DE10334339A1/en not_active Withdrawn
-
2004
- 2004-07-08 CN CNB2004800216689A patent/CN100475676C/en not_active Expired - Fee Related
- 2004-07-08 WO PCT/EP2004/007513 patent/WO2005014454A1/en active Application Filing
- 2004-07-08 EP EP04740812A patent/EP1648808B1/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106460262A (en) * | 2014-05-09 | 2017-02-22 | 必佳乐公司 | Weft feeder device |
CN106460262B (en) * | 2014-05-09 | 2018-11-13 | 必佳乐公司 | Weft feeding device device |
Also Published As
Publication number | Publication date |
---|---|
CN100475676C (en) | 2009-04-08 |
DE10334339A1 (en) | 2005-02-24 |
WO2005014454A1 (en) | 2005-02-17 |
EP1648808A1 (en) | 2006-04-26 |
EP1648808B1 (en) | 2011-07-06 |
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