前苏联专利SU1454260A3 Device for laying at least one weft thread on shuttlless loom, particularly, with microlayers

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专利摘要:
The invention relates to textile machinery, can be used on shuttleless weaving machines, mainly weaving machines with micro-laying machines, and can improve the reliability of the device. The device is intended for laying at least one weft yarn and has a pretensioner I for the weft yarn, followed by an additional means for tensioning the II weft yarn. The length of the yarn stock formed in the tensioner II corresponds exactly to the length of the weft yarn 16 transmitted through the feed nozzle to the yarn clamp 29 to the microplayer, which releases a portion of the weft yarn with a length equal to the transmitted length X for transmission to the jig 29 before the preload nat I will release the weft thread dp of laying, and after the laying of the OT there is no part of the weft thread 16. The device prevents the transfer of the end of the weft thread 16 by supplying a nozzle to the microplayer, therefore the corresponding thread is not sewn. 6 hp f-ly, 9 ill. i WITH
公开号:SU1454260A3
申请号:SU864007952
申请日:1986-01-17
公开日:1989-01-23
发明作者:Вениг Эрнст；Гачаи Лоран；Линке Пауль
申请人:Гебрюдер Зульцер Аг (Фирма)；
IPC主号:

专利说明:

FIG L
The invention relates to textile machinery and can be used in a device for laying at least one weft thread on weaving machines, in particular on weaving machines with micro-laying, having a pretressing means for weft yarn and a means for transferring the weft thread and holding the weft thread until it reaches transfer to the device laying threads.
The purpose of the invention is to increase the reliability of work.
FIG. 1 shows a diagram of a device for laying out thread clarifications; in fig. 2 - part of the device; in fig. 3 — retaining elements of the weft yarn; in fig. 4 - the device is in the position after the transfer of the weft yarn to the microplayer; in fig. 5 - retaining elements, option; in fig. 6-8g are the same, embodiments; in fig. 9 shows an embodiment of the dp mode with two ducks or alternating ducks for the purpose of mixing.
The device for laying eight weft threads, (Fig. 1) in accordance with the program of the drawing in the shift operation mode, consists of means I for preloading the weft thread and additional means II for stretching the weft thread.
The pre-tensioner I has a niten resident 1, which can rotate around axis 2. The nitate resident 1 is driven by a roller 3 through the cam 4, which is driven from the main shaft of the weaving machine. The strap 5 threads of the customer 1 is pumped to the rhythm of the machine across a plurality of weft threads 6, which are supplied from an appropriate feed w: 1 (not shown) and equipped with eight grooves for the threads. Before each 1) 1m groove 7, for carvings on both sides of the bar 5 there are two carriages 8 and 9 with elements 10 for holding each weft yarn (not shown). In addition, on two sides of the strip 5 there is a carriage 1 or 12 with eyes 13 or 14 for guiding the thread. For each weft yarn 16, a brake 17 is provided. Yarn After passing through the pre-tensioning means I, the weft thread falls into an additional means.
0
five
0
five
-
0
35
40
45
50
II tensioning the weft thread. Fig. 3 shows three of the eight elements for holding the yarn, which are fixed on the carriage 8. Each element 18 consists of two plates 18 and 18, which with the help of springs can hold the weft yarn rejected by the inhabitant 1, the elements are fixed on the carriage 9. 19 to hold the yarn.
FIG. 1, both the T and 11 tension means are shown schematically. The additional means II for tensioning the weft yarn has eight nitenates - residents 20 in the form of a lever with a groove 21 for the thread. The lever can rotate around the axis 22. On both sides of each groove for the thread there is an eye for guiding the thread 23 or 24, which is attached to the carriage 25 or 26. The thread 6 passes from the pre-tensioner I - through the second tensioner II into the feed nozzle 27. Pneumatically holding and transferring the weft yarn to the microplayer. The neck 28 of the nozzle 27 ends in front of the microprojector in the laying position. There is a fixture
29 for clamping the micropacker thread. Feed nozzle 27 through the pipeline
30 is absorbed by compressed air. Each weft thread, for example weft thread 16, passes through the peephole 23, the chute 21 for directing the thread in the corresponding nitenate of the inhabitant, through the peephole 24 and through one of the eight guide channels of the weft yarn in the feed nozzle 27. Each thread has a 20 The fabric pattern is driven by the mating motor 31 in synchronization with the nitentate 1, so that the selected nitenate 20 resides in motion between the deflected position 20 and the position 20.
Indicated in FIG. 1, the position is adopted to further clarify the principle, the operation of the device for the initial position. All weft yarns are diverted by nitrate 1 and 20. The weft yarn rejected by the bar 5 is held in this position with elements 18 and 19. All weft yarns in both tensioning means I and II are tensioned by stretching by passing through a feed nozzle 27 compressed air. The clamping device 29 is open. When a selected weft yarn is laid, for example 16, clockwise, the corresponding thread 20 rests first of all, so that the weft thread can be freely pulled through the nozzle 27 to position 16 under the action of the pulling force. In this case, the nozzle 27 blows the end 16 the weft thread in the fixture 29 for clamping the micro-plotter thread. Here, the weft thread advances by a length x. This length is characterized as the transfer length of the weft yarn (Fig. 4). From the beginning
method 29 for clamping the yarn. A laid weft thread is knocked up by a foot. The weft thread is then deflected further down by the nientate resident 1 and additionally also continuing to descend the nitenate 20, while its end is inside the neck 28 of the nozzle 27. While the nitenta 1 goes along with the weft thread to the lower position, the thread is clamped between elements 18 and 19. The transporting device receives the ejected from the catching
the scrap of the release of the nitenate of the living device, the microplayer and the overwind 20 are simultaneously lifted by the cam 4 nitenate resident 1 of the means I of the pre-tensioning of the thread. However, the elements 18 and 19 hold the thread 16 in the deflected position. When the transfer of the weft yarn to the microclip yarn clamp 29 is completed, the nitate resident 1 is in position 1. In this moment
time microchips with combat help 25 income t to the height of the elongated weft
The mechanism of the hook 32 pushes the threads 36 and even slightly higher. At the same time, the thread 16 is shrunk dkipny retaining elements
from elements 18 and 19 for braking the weft thread practically in
hold. Before passing the micro-process during the entire process of laying.
Kladchika brake 17 threads opened, so zor the result of the test weft
that the weft thread is wound from the supply spool to the required amount of gasket and laid in the throat. During the initial laying phase, the cam 4 continuously moves the nitenate resident 1 further forward, so that the weft thread under the force of the pulling force of the microprojector 27 can freely move to position 16, the unfolded weft threads remain clamped in the respective restraint elements. The corresponding nitenate inhabitants of the additional thread tensioning means II also leave the unfolded weft threads in a deflected position. After the microprojector has passed the weft thread through the throat, it slows down in the catching device and then shifts backward a little until it reaches the pushing position. Simultaneously, the nitrate resident 1 is lowered by cam 4, so that the weft thread remains elongated. On both sides of the throat, the thread is adopted by a thread-catching device. The weft thread is cut with a knife 33 from the weft side and is freely fed by the micro-installer through the holes and places it outside the pharynx to the place of insertion. The microplayer opens the clamp opening and simultaneously rotates the lever in front of the nozzle 27 so that it is ready to receive the next weft yarn. The device again takes the position shown in FIG. one.
The retaining elements 34 and 35 (Fig. 5) for holding the weft threads
five
0
when threading, the threading of the weft thread during the laying process takes place evenly and without abrupt jerks, so that the thread does not overload.
The device (Fig. 6) consists of a pre-tensioning means CG with nitenate 37 and an additional tension means TV. Tension means TV has a nitenate for each weft thread, a resident 38 in the form of a two-arm lever that can rotate around axis 39 and is equipped with a movable eye on one shoulder to guide weft thread 40.
5 The other arm of the lever 38 is connected to the executive bar 41 of the engine 42. The ITT and TV tension tools thus have common eyes for the direction of the thread 40. The device works in such a way that the transfer of the laid weft thread 43 to the micro-plier thread clamping device is carried out by turning nitenate inhabitant 38 counterclockwise
g arrows, so that its part 38 plots the weft thread with the aid of a peephole 40 to direct the thread from position 40 to the right to position 40. In this way, a partial
0
pulling or advancing the weft yarn so that the length of the X dp transfer yarn to the microplayer is freely fed. After paving with the backing of the microplayer or after cutting the weft yarn from the weft side, means III and IV; the tensions are turned back to the inclined position. I The pivot point 44 nitenate of the occupant 45 of the additional tension means V (Fig. 7) is selected so that the eye for guiding the filament 46 of the occupant nitenum cushions at the end of the free movement of the tensioner at position 46 below the feed nozzle 47. in that the bottom side of the inlet; 48 channels weft threads in the feed nozzle 47 form the thread guides.
The tool VI additional tension; (Fig. 8) has on one side I dp of each weft yarn, three thread guides 49-51, located below, weft yarn 52, and on the other side, 1 dva thread guides 53 and 54, which I have fortified on the executive rod 55 of the engine 56. In the exit position; the thread guides 53 and 54 are respectively between the thread guides; 49 and 50 or 50 and 51, so that two loops 57 and 58 are formed and the end of the weft thread 52 is located in the neck feed nozzle 59. Dp transfer weft yarn and device 60 for clamping the thread micro-laying and the actuator rod 55 is raised from the lower position 55 executive motor 56, so that both loops 57 and 58 are pulled, and the gear is transmitted to the length X mikroprokladchik. - When the microplayer is moved backward or after the weft thread is cut from the weft side, both tensioners are turned back to the deflection position.
A device for laying weft yarns (Fig. 9) in an operation mode with two ducks or alternating weft for the purpose of mixing, with two weft threads 61 and 62 alternately being laid or alternately in accordance with a certain pattern of the pattern includes prestressing means VII and additional means VIII for tensioning the yarn 61. For the weft yarn 62 there is
4542606
agent, IX preload and additional tension agent X. Both pneumatic retention and transfer means for weft yarns 63 and 64 operate alternately or in accordance with the pattern program as described. Tension motions of weft yarn sections 61 and 62 in medium tension VIII and X are carried out under the influence of a machine running in rhythm with respect to both weft threads of common inhabitant 15. My invention can be used on shuttleless weaving machines with other laying organs and can also be rotated 180 °, i.e. yarn deflection is carried out
20 up, not down.
ten

权利要求:
Claims (6)
[1]
1. The DP device of the laying 5 with at least one weft thread on the shuttleless loom, mainly with micro-builders, containing the pre-tensioning thread of the weft thread, located in front of the weft thread, by means of pneumatic retention and transfer of the weft thread to the micro tracer, a strip mounted with the possibility of g kachan between the elements dp of holding the thread perpendicular to its movement, and the thread-guiding eyes installed before and after the means tension, characterized in that, in order to increase the reliability of operation, it has an additional means of tensioning the weft thread, which is located between the pretressing means of the weft thread and the means of pneumatic retention and transfer of the weft thread to the micro laying device to create a stock of weft thread after laying it in the length of the length required for transferring and fixing in the microplayer until the thread is released by means of pre-tensioning when the weft thread is laid again.
[2]
2. The device according to claim 1, is about DJI e e with the fact that the additional means of tensioning the weft thread is made in the form of two combs, with one comb rigidly mounted on the frame of the machine, and the other
0
five
0
five
the comb has the possibility of reciprocating motion in a vertical plane, with the tooth of one of the dies shifted relative to the teeth of the other comb.
[3]
3. The device according to claim 1, characterized in that the nitro directing eye, located on the side of the additional tension means, is mounted so that it can move, and the additional tension means is made in the form of a double-arm lever, on one of whose arms the movable Nitena - the correcting peephole.
[4]
4. The device according to claim 3, wherein the movable thread guide eye has the ability to move along the trajectory of the weft yarn.
[5]
5..The device according to
1/7
. 3, about t l and - that is mobile
The thread-guiding eye has the ability to move across the direction of movement of the weft yarn, while the extreme point of the eye movement path is located below the plane of the pneumatic means and held to the transfer of the weft thread to the micro-ply.
[6]
6. The device according to PP. 1-5, characterized by the fact that the pre-tensioning means of the weft yarn and the additional means of tensioning the weft yarn are mounted with the possibility of synchronous movement.
15
7c Device on PP. 1-6, characterized in that the elements for holding the thread are made in the form of elastic plates arranged in contact with each other, while the plastics 1 are mounted so that their upper ends are located above the thread-guiding eyes.
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2
Fig.Z
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FIG. S
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Fi8,8
Fiz.7
FIG. eight
FIG 3

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同族专利:

公开号 | 公开日

EP0189497A1|1986-08-06|

DE3564596D1|1988-09-29|

JPS61174446A|1986-08-06|

US4649965A|1987-03-17|

EP0189497B1|1988-08-24|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

GB353764A|1929-09-23|1931-07-30|Teeag Textil Finanz A G|Improvements in looms with nipping shuttles|

US2589429A|1945-11-24|1952-03-18|Sulzer Ag|Device for tensioning the weft thread in looms|

FR1260351A|1960-06-16|1961-05-05|Sulzer Ag|Weft material tensioning device to be inserted into the shed|

SU589305A1|1976-03-01|1978-01-25|Чебоксарский Машиностроительный Завод|Weft thread compensator for shuttleless loom|

FR2466548A1|1979-09-27|1981-04-10|Cretin Louis Atel|Shuttleless loom weft withdrawal device - cuts down weft losses at selvedges|

CH654601A5|1982-04-07|1986-02-28|Sulzer Ag|Weft thread tensioning device for weaving machines, especially gripper pojectile weaving machines.|BE1003558A3|1989-09-19|1992-04-21|Picanol Nv|BLOW device for weft threads in weaving machines.|

EP0617153B1|1993-03-26|1996-10-09|Sulzer RàTi Ag|Process to influence the movement of a weft yarn drawn from a storage bobbin to the weft inserting device of a loom and loom to carry out the process|

CN108290699B|2015-11-11|2019-10-11|P.T.M.T.有限责任公司|For supplying the controlled system of weft yarn in loom|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

EP19850100856|EP0189497B1|1985-01-28|1985-01-28|Arrangement for the insertion of at least one weft thread into looms|

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