JP6940822B2 - Device for supplying weft - Google Patents

Description

The present invention relates to a device for supplying weft yarns to a jet loom along several yarn passages according to the preamble of an independent claim.

The device for supplying the weft typically includes a creel with several cone holders or cone holder pairs supporting the weft cone. The weft is unwound from the cone , directed to the weft storage unit through the thread brake unit, and the weft is inserted into the jet loom from the weft storage unit.

In order to monitor or measure the weft to be inserted, a yarn sensor for measuring at least one intrinsic (intrinsic) yarn parameter is used in the loom. The following documents: Examples are provided from Patent Documents 1 to 3.

The "intrinsic" yarn property is understood to be the thread property obtained by the formation or structure of the thread itself. Examples of intrinsic thread properties are mass per unit length, diameter, density, surface structure, fluff, material composition, presence of foreign matter and the like. On the other hand, the extrinsic property is a thread property that depends on an external influence or a reference system. Examples of extrinsic yarn properties are the yarn velocity or acceleration with respect to a reference system, the position of the yarn tip in a reference system, or the mechanical yarn tension that depends on the external tensile force.

Creels with sensors for extrinsic yarn properties are known from the art. Patent Document 4 discloses a creel having a thread cutting sensor for each cone holder that supports the cone. The sensor is connected to a central processing unit that monitors thread breaks throughout the creel. Patent Document 5 also discloses a creel having a thread cutting sensor. Patent Document 6 discloses a method for optimizing the yarn separation rate from the creel. For this purpose, the creel is equipped with a thread balloon sensor that records the size of the thread balloon. Patent Document 7 discloses a speed sensor arranged between the creel and the loom. Patent Document 8 discloses a length measuring sensor for specifying the length of the thread unwound from the creel.

As disclosed in Patent Document 2, the yarn sensor for measuring the intrinsic yarn parameter can be used to control the jet loom in order to optimize the energy consumption and fluid consumption of the jet loom. can. The jet loom includes a plurality of relay nozzles arranged along the fluid supply conduit. The weft is introduced into the fluid supply conduit. The relay nozzle is operated to emit staggered fluid pulses that generate a flow of fluid in the fluid supply conduit. The weft is conveyed through the fluid supply conduit by the flow of fluid. As proposed in Patent Document 2, at least two different individual intrinsic properties of the weft portion to be introduced into the fluid supply conduit are specified by the yarn sensor. These sensors are located on a separate stand between the creel and the weft storage unit of the jet loom. The relay nozzles are actuated on the basis of at least two different, distinct, pre-specified properties of each of the weft portions being conveyed.

International Publication No. 2012/0686997 International Publication No. 2012/06698 International Publication No. 2013/010278 Japanese Unexamined Patent Publication No. 2006-193313 German Patent Application Publication No. 4312823 European Patent Application Publication No. 12475705 British Patent No. 1516356 Japanese Unexamined Patent Publication No. 2004-156187

An object of the present invention is to provide a device for supplying weft threads to a jet loom along several yarn passages, which reduces energy consumption and fluid consumption of the jet loom and improves the productivity of the jet loom. It is in.

The above task or other task is accomplished by the apparatus according to the invention, as defined in the independent claims. Advantageous examples are disclosed in the dependent claims.

According to the present invention, the device for supplying the weft to the jet loom along some yarn passages is a weft creel having some cone holders and some yarn brake units, and of some cone holders. At least one of them and at least one of several yarn brake units includes the weft creel assigned to each yarn passage. The device further includes a yarn sensor unit configured to identify at least one intrinsic property of the weft and to be connected to a control unit that controls the fluid supply of the jet loom. A plurality of thread sensor units are provided. At least one of the plurality of thread sensor units is assigned to each thread passage, and each of the plurality of thread sensor units is immovably attached to the weft creel.

In some embodiments, each of the plurality of thread sensor units has the following groups: thread mass per unit length, thread diameter, thread density, thread surface structure, thread fluff, thread material. It is configured to measure at least one intrinsic property of the weft selected from.

Each of the plurality of yarn sensor units includes at least one yarn sensor, preferably two yarn sensors, for measuring at least one, preferably two intrinsic properties of the weft.

In some embodiments, at least one thread sensor unit is located downstream of at least one thread brake unit, preferably within 3-10 cm. Positioning of the two units in such a vicinity can reduce the amplitude of possible vibrations of the weft, leading to an improvement in measurement accuracy.

In some embodiments, the thread outlet of the thread brake unit and the thread inlet of at least one thread sensor unit are such that the thread passage from the thread brake unit to the thread sensor unit circulates from a straight line and the thread is at the thread inlet. It is offset so as to cross the edge part. The vibration of the weft yarn that deviates from the ideal yarn passage through the sensor (sensor passage) due to the unwinding of the yarn can be further reduced, leading to an improvement in measurement accuracy.

In some embodiments, the fluid supply control unit of the jet loom is located on the creel and is connected to a plurality of yarn sensor units.

In some embodiments, the device further comprises at least one weft storage unit, from which the weft can be inserted into the jet loom, with each yarn passage located downstream of the yarn sensor unit1. It is equipped with two thread passage storage units. It is possible to place a yarn guide between at least one yarn sensor unit and at least one weft storage unit in order to more accurately define the yarn passage between the outlet of the sensor unit and the weft storage unit. Further, the thread guide can be arranged near the outlet of the sensor unit and can be offset to define the sac circuit from the straight line of the thread path, so that the thread passing through the sensor unit can be offset. It leads to smoother passage.

At least one yarn sensor unit is set as the measurement head of the yarn-clearer. Such a yarn clearer measuring head is well known from the prior art. Usually, the measuring heads of these yarn clearers are attached to a spinning machine or a winding machine to monitor the quality of the yarn.

Preferably, each thread passage is assigned a pair of cone holders.

The present invention relates to a device for controlling a jet loom, which comprises a plurality of relay nozzles arranged along a fluid supply conduit. The device includes a fluid supply control unit to actuate a relay nozzle to emit staggered fluid pulses that generate a fluid flow in the fluid supply conduit, and weft using the fluid flow. Can be transported through the fluid supply conduit. A device for supplying the weft yarn to the jet loom along some yarn passages as described above is provided upstream of the fluid supply conduit. The device has a plurality of yarn sensor units for identifying at least one intrinsic property of the weft. The fluid supply control unit is configured to actuate the relay nozzles based on at least one intrinsic property of each conveyed weft portion, which has been identified in advance.

The present invention also relates to the above-mentioned jet loom having a device for controlling the jet loom, preferably an air jet loom or a water jet loom.

Therefore, the present invention proposes a device including a yarn sensor unit that measures at least one intrinsic property of the weft portion. Several weft passages are defined, depending on the number of cone holders or cone holder pairs in the weft creel. Each of the several weft passages comprises at least one thread sensor unit immovably attached to the creel. The fixed position of the thread sensor unit with respect to the cone and the thread brake unit that follows it more accurately defines each individual thread passage through the sensor. Also, the sensor can be placed closer to the thread brake unit. The vibration of the weft yarn from this ideal yarn passage is reduced and the yarn flow through the sensor unit becomes smoother, which improves the measurement accuracy of the sensor unit. Experiments have shown that even a small improvement in measurement accuracy can result in better control of the jet loom, leading to a significant reduction in energy and fluid consumption. Since the transfer of weft threads by the flow of fluid through the fluid supply conduit depends on some intrinsic thread parameters, a more accurate measurement of these intrinsic thread properties will lead to the individual properties of the weft section to be inserted. Allowed for better adaptation of jet loom control.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

It is a figure which shows the outline of the apparatus by this invention. It is a perspective view of the apparatus according to this invention. FIG. 3 is a perspective view of the device of FIG. 2 including a yarn storage unit. It is a detailed view of the apparatus of FIG.

FIG. 1 schematically shows a device for supplying a weft 10 to a jet loom (not shown) along a weft passage. The device primarily includes a creel 1 having several cone holders 21, 21', 21 ", each cone holder 21, 21', 21" capable of holding the cone 20 of the weft 10. It is possible. The weft 10 from each cone 20 follows a separate thread passage within the device. Creel 1, some thread brake units 30, 30 ', "which further comprise, 1 Tsunoito brake unit, cone holder 21, 21 30', 21" is provided in each yarn passage downstream of .. Each thread passage further includes one thread sensor unit 40, 40', 40 "arranged downstream of the thread brake units 30, 30', 30" and immovably attached to the creel 1. The illustrated creel 1 has four of these configurations having a cone holder, a thread brake unit and a thread sensor unit, each configuration defining one thread passage. The yarn sensor unit consists of two different intrinsic (originally) weft parts, such as yarn mass per unit length, yarn diameter, yarn density, yarn surface structure, yarn fluff, and yarn material. It can be a thread sensor unit having two thread sensors for measuring properties (provided).

FIG. 2 shows a perspective view of an embodiment of the schematic device of FIG. Instead of one cone holder 21 for each thread passage, the device of FIG. 2 comprises cone holder pairs 21.1, 21.2 for quicker replacement of empty cones. The yarn sensor units 40, 40', 40 "are directly downstream of the yarn brake units 30, 30', 30" and this, in order to minimize possible vibrations of the weft yarns that deviate from the ideal yarn passage. The thread brake units 30, 30', 30 "are mounted as close as possible. The thread sensor units 40, 40', 40" can be mounted on a hollow pole, within which the sensor It is possible to guide the cable to the cover 2 of the crill 1 which houses the electronic components for the sensor and the control unit. These cables can be further connected to the fluid supply control unit of the jet loom.

FIG. 3 shows a perspective view of the device of FIG. 2, including thread storage units 50, 50'for each thread passage. The yarn storage units 50, 50'are attached to a separate yarn storage unit stand (holder) 51 located downstream of the creel 1 and upstream of the jet loom. The weft is inserted into the jet loom from the yarn storage units 50, 50'. Thread guides 52 and 52'are provided for each thread passage via a thread guide arm 53. The thread guides 52, 52'can be arranged near the outlets of the thread sensor units 40, 40', and can define a thread sac circuit from a straight line through the sensor unit, and the sensor unit 40 can be defined. , 40'leads to a smoother passage of thread.

FIG. 4 shows a detailed view of the thread brake unit 30 and the thread sensor unit 40 of the device of FIG. The thread brake unit 30 can be a standard thread brake unit having a blade with an outlet opening 31. The outlet 31 of the yarn brake unit and the inlet 41 of the yarn sensor unit 40 are located within a few centimeters, preferably 3-10 centimeters, and are slightly offset so that the weft circulates from the straight passage. There is. The vibration of the weft caused by unwinding the yarn from the cone is reduced in advance by the yarn brake unit, but is further reduced so that the weft follows a smooth straight line through the sensor passage 43. In this way, the measurement accuracy is greatly improved.

The present invention is not understood only in the examples described above. One of ordinary skill in the art can obtain another modification with the recognition of the present invention that also belongs to the subject matter of the present invention.

1 Weft reel 2 Cover with control unit 10 Weft 20, 20', ... Cone 21,21', ... Cone holder 21.1,21.1', ..., 21.2, 21.2 'Cone holder vs. 30, 30', ... Thread brake unit 31 Thread brake unit outlet 40, 40' Thread sensor unit 41 Thread sensor unit inlet 42 Thread sensor unit outlet 43 Sensor passage 50, 50', ...・ Weft storage unit 51 Weft storage unit stand (holder)
52, 52', ... Thread guide 53 Thread guide arm

Claims (11)

A device for supplying weft threads (10) to a jet loom along several thread passages.
A weft creel (1) having some cone holders (21,21', ...) And some yarn brake units (30,30', ...), the some cone holders (30, 30', ...). 21,21', ...) And at least one of the several thread brake units (30, 30', ...) Are assigned to each thread passage. When,
A yarn sensor unit (40, 40', ...) configured to identify at least one intrinsic property of the weft and to be connected to a control unit for controlling the fluid supply of the jet loom. In the device comprising and
A plurality of the thread sensor units (40, 40', ...) Are provided, and at least one of the plurality of the thread sensor units (40, 40', ...) Is assigned to each thread passage. Each of the plurality of thread sensor units (40, 40', ...) Is immovably attached to the weft thread creel (1).
Each of the plurality of yarn sensor units (40, 40', ...) Each of the following groups: yarn mass per unit length, yarn diameter, yarn density, yarn surface structure, yarn fluff node. , A device selected from yarn materials, configured to measure at least one intrinsic property of the weft . Each of the plurality of thread sensor units (40, 40', ...) Contains at least one thread sensor for measuring at least one intrinsic property of the weft (10). The device according to claim 1. A claim, wherein the at least one thread sensor unit (40, 40', ...) Is arranged downstream of the at least one thread brake unit (30, 30', ...). The device according to 1 or 2. The thread outlet (31) of the thread brake unit (30) and the thread inlet (41) of the at least one thread sensor unit (40) are connected from the thread brake unit (30) to the thread sensor unit (40). The apparatus according to any one of claims 1 to 3 , wherein the thread passage is offset so as to circulate from a straight line. A claim, wherein the fluid supply control unit of the jet loom is arranged in the creel (1) and connected to a plurality of the yarn sensor units (40, 40', ...). The apparatus according to any one of 1 to 4. It further comprises at least one weft storage unit (50, 50', ...), The weft (10) can be inserted into the jet loom from the weft storage unit, and each yarn passage is a yarn sensor unit ( 40, 40', ...) In any one of claims 1 to 5 , characterized in that one weft storage unit (50, 50', ...) Arranged downstream of the weft storage unit (50, 50', ...) Is provided. The device described. A thread guide (52, 52', ...) Between the at least one thread sensor unit (40, 40', ...) And the at least one weft storage unit (50, 50', ...). The device according to claim 6 , wherein the device is arranged. The device according to any one of claims 1 to 7 , wherein the at least one thread sensor unit (40, 40', ...) Is set as a measurement head of the yarn clearer. Claims 1 to 1, wherein each thread passage is assigned a pair of cone holders (21.1, 21.1', ...; 21.2, 21.2', ...). 8. The apparatus according to any one of 8. A device for controlling a jet weaving machine, wherein the jet weaving machine includes a plurality of relay nozzles arranged along a fluid supply conduit, and the device generates a flow of fluid in the fluid supply conduit. It includes a fluid supply control unit for activating the relay nozzle to emit staggered fluid pulses, and the weft can be conveyed through the fluid supply conduit using the fluid flow. , In the device
The device according to any one of claims 1 to 9 is a plurality of thread sensor units (40, 40', ...), The fluid supply control unit is configured to operate the relay nozzle based on at least one pre-specified intrinsic property of each conveyed weft portion. A device characterized by being In a jet loom that has a device for controlling the jet loom.
The jet loom according to claim 10 , wherein the device for controlling the jet loom is the device according to claim 10.

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