EP2904136B1 - Device and method for monitoring a weft thread - Google Patents
Device and method for monitoring a weft thread Download PDFInfo
- Publication number
- EP2904136B1 EP2904136B1 EP13766355.5A EP13766355A EP2904136B1 EP 2904136 B1 EP2904136 B1 EP 2904136B1 EP 13766355 A EP13766355 A EP 13766355A EP 2904136 B1 EP2904136 B1 EP 2904136B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- weft thread
- guide channel
- weaving machine
- air guide
- detector
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- 238000012544 monitoring process Methods 0.000 title claims description 18
- 238000000034 method Methods 0.000 title claims description 8
- 238000009941 weaving Methods 0.000 claims description 49
- 238000003780 insertion Methods 0.000 claims description 31
- 230000037431 insertion Effects 0.000 claims description 31
- 238000001514 detection method Methods 0.000 claims description 27
- 238000011144 upstream manufacturing Methods 0.000 claims description 14
- 239000004744 fabric Substances 0.000 claims description 11
- 239000000463 material Substances 0.000 claims description 4
- 229920002994 synthetic fiber Polymers 0.000 claims description 3
- 235000014676 Phragmites communis Nutrition 0.000 description 10
- 230000003247 decreasing effect Effects 0.000 description 3
- 239000011248 coating agent Substances 0.000 description 2
- 238000000576 coating method Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 238000007664 blowing Methods 0.000 description 1
- 230000007423 decrease Effects 0.000 description 1
- 239000000945 filler Substances 0.000 description 1
- 230000003287 optical effect Effects 0.000 description 1
- 229920000915 polyvinyl chloride Polymers 0.000 description 1
- 239000004800 polyvinyl chloride Substances 0.000 description 1
- 230000007704 transition Effects 0.000 description 1
Images
Classifications
-
- 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
- D03D47/28—Looms in which bulk supply of weft does not pass through shed, e.g. shuttleless looms, gripper shuttle looms, dummy shuttle looms wherein the weft itself is projected into the shed
- D03D47/30—Looms in which bulk supply of weft does not pass through shed, e.g. shuttleless looms, gripper shuttle looms, dummy shuttle looms wherein the weft itself is projected into the shed by gas jet
- D03D47/3066—Control or handling of the weft at or after arrival
- D03D47/3073—Detection means therefor
-
- 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
- D03D47/28—Looms in which bulk supply of weft does not pass through shed, e.g. shuttleless looms, gripper shuttle looms, dummy shuttle looms wherein the weft itself is projected into the shed
- D03D47/30—Looms in which bulk supply of weft does not pass through shed, e.g. shuttleless looms, gripper shuttle looms, dummy shuttle looms wherein the weft itself is projected into the shed by gas jet
- D03D47/3066—Control or handling of the weft at or after arrival
- D03D47/308—Stretching or holding the weft
-
- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D51/00—Driving, starting, or stopping arrangements; Automatic stop motions
- D03D51/18—Automatic stop motions
- D03D51/34—Weft stop motions
Definitions
- the invention relates to a weaving machine with a device for monitoring a weft thread comprising a broken-weft thread detector for providing a signal when an inserted weft thread exceeds its length by a predetermined amount and an air guide channel located upstream of the broken weft thread detector, wherein the broken-weft thread detector is mounted on a sley of a weaving machine.
- the invention further relates to a method for monitoring a weft thread in a weaving machine.
- a weft thread detector arranged at the arrival side of a weaving machine for monitoring an arrival of an inserted weft thread is known and is called hereafter first weft thread detector or arrival detector for weft thread.
- a weft thread detector for providing a signal when an inserted weft thread exceeds its length by a predetermined amount is called hereafter broken-weft thread detector.
- the broken-weft thread detector is also called second weft thread detector.
- the expression "second weft thread detector” is not to be construed as an indication of the number of weft thread detectors. In one embodiment, the second weft thread detector is used as only weft thread detector, i.e. without a first weft thread detector.
- first weft thread detector and “second weft thread detector” rather denote an order in which the weft thread detectors are arranged in the insertion direction.
- a device for monitoring a weft thread in a weaving machine comprising a first weft thread detector and a second weft thread detector are known in the prior art.
- GB 2 119 819 A discloses a device comprising a first weft thread detector, a suction device for weft thread and a second weft thread detector fixed in succession on a support of a sley of a weaving machine.
- the suction device is provided for catching and stretching inserted weft threads at the arrival side.
- a jet of air leaving the suction device without being deflected does not reach the detection zone of the second weft thread detector.
- the device comprises a deflection finger. The finger is located between the outlet of the suction device and the second weft thread detector and fixed to the frame of the weaving machine perpendicular to the insertion path.
- the finger is brought in the range of the jet of air and the jet of air is deflected towards the detection zone of the second weft thread detector.
- a weft thread present in the jet of air when the finger is located in the range of the jet of air, will be deflected towards the second weft thread detector and will be detected by the second weft thread detector.
- US 4,432,399 discloses a device for monitoring a weft thread in a weaving machine, comprising a first weft thread detector for providing a stop signal when the inserted weft thread does not reach its normal length and a second weft thread detector spaced from the first weft thread detector for providing a signal when the inserted weft thread exceeds its normal length by a predetermined amount.
- an air guide channel is arranged for bridging the space between the two weft thread detectors, which air guide channel lies in the extension of the insertion path.
- the two weft thread detectors and the air guide channel are arranged in order to move with the reed.
- WO 2011/000561 A1 discloses a weaving machine with a device for monitoring a weft thread comprising a broken-weft thread detector for providing a signal when an inserted weft thread exceeds its length by a predetermined amount.
- a weaving machine with a device for monitoring a weft thread comprising a broken-weft thread detector for providing a signal when an inserted weft thread exceeds its length by a predetermined amount and an air guide channel located upstream of the broken-weft thread detector, wherein the broken-weft thread detector is mounted on a sley of a weaving machine and the air guide channel is arranged stationary on the weaving machine.
- the air guide channel is arranged in a fixed position with respect to the frame of the weaving machine, whereas the broken-weft thread detector is mounted on the sley and moves with the reed during beat-up.
- an arrival detector for weft thread is provided upstream of the air guide channel, i.e. a weft thread detector for detecting the arrival of a weft thread is provided.
- the arrival detector is also referred to as first weft thread detector.
- the arrival detector (first weft thread detector) and the broken-weft thread detector (second weft thread detector) are both mounted on the sley in the extension of the reed, wherein the first weft thread detector is arranged upstream of the air guide channel and the second weft thread detector is arranged downstream of the air guide channel.
- Weft thread detectors generally have a limited detection zone. A weft thread is only detected when the weft thread reaches the detection zone.
- the first weft thread detector is arranged close to the end of the reed, wherein relay nozzles provided for an insertion of a weft thread blow the weft thread in the detection zone of the first weft thread detector.
- a broken-weft thread detector for detecting weft threads that extend too far outside a shed is also called second weft thread detector.
- Such a second weft thread detector is arranged downstream of the first weft thread detector in the insertion direction.
- the air flow is directed to an area allowing the broken-weft thread detector to detect a weft thread transported by the air flow.
- the air guide channel is arranged stationary. Therefore, the weft thread end leaving the air guide channel is presented at a presenting area allowing a more reliable detection.
- the presenting area is determined by the shape and/or position of the air guide channel.
- the shape and/or position may be chosen to minimize the influence of the movement of the weft thread through the air guide channel and/or to minimize forces acting on the weft thread moving through the air guide channel at least in a zone of the air guide channel.
- an insertion of a weft thread upstream of the air guide channel is not or only slightly influenced by the transport of the weft thread through the air guide channel.
- a movement of the broken-weft thread detector with respect to the presented weft thread does not or only slightly influence the insertion of weft threads upstream of the air guide channel.
- the air guide channel is configured to present a weft thread in a presenting area traversed by a detection zone of the broken-weft thread detector during beat-up.
- an air flow leaving the outlet opening of the air guide channel is channelled to the presenting area, which is chosen so that the detection zone of the broken-weft thread detector traverses the air flow leaving the outlet opening during beat-up.
- An end of for example a broken weft thread transported by the air flow will be presented in the presenting area.
- the broken-weft thread detector is mounted on the sley and moves during beat-up, wherein the detection zone traverses the presenting area. In result, an effective detection zone of the broken-weft thread detector is traversed.
- the air guide channel does not necessarily guide the air flow towards the detection zone of the broken-weft thread detector, but rather to a presenting area in front of the detection zone during insertion, wherein during beat-up the detection zone is moved towards and across this presenting area and in this way traverses the presenting area.
- a "presenting area in front of the detection zone" is defined an area that is located opposite the side of the broken-weft thread detector that in use is directed to the fabric and where a leading end-part of a weft thread extending outside the air guide channel can be located.
- a weft thread stretching device is provided in the extension of an insertion path of the weft thread upstream of the air guide channel, which weft thread stretching device is configured for catching end-parts of inserted weft threads, wherein preferably the air guide channel bridges at least 50%, more preferably at least 70%, in particular at least 80% of the distance between the weft thread stretching device and the broken-weft thread detector.
- the weft thread stretching device comprises a suction nozzle, more in particular a ring-jet suction nozzle.
- a ring-jet suction nozzle is defined as a suction device, wherein a suction effect is obtained by blowing compressed air into the suction device.
- Compressed air used for catching inserted weft threads is used to transport a weft thread through the air guide channel.
- the air guide channel is in preferred embodiments provided in the extension of the cross-section of the suction nozzle at an outlet side of the suction nozzle.
- the air guide channel fits well with the outlet opening of the weft thread stretching device, more particularly with the outlet opening of the suction nozzle of the weft thread stretching device.
- efficient use of the air flow through the suction nozzle is made to transport the weft thread towards the presenting area, in particular to a presenting area in front of the detection zone of the broken-weft thread detector.
- the air guide channel comprises a tube, in particular a straight tube.
- the tube provides a closed air guide channel, wherein an air flow through the tube is not or only slightly disturbed by external influences.
- forces acting on the weft thread while the weft thread is moving through the tube are minimised and the movement of the weft thread through the tube does not or only slightly influences an insertion of the weft threads upstream of the tube.
- the air guide channel also allows guiding a weft thread through the air guide channel.
- the tube has an inlet opening having a circular cross-section.
- a tube having a circular cross-section allows a smooth transition of the air flow from the suction nozzle to the air guide channel.
- the air guide channel is shaped to channel the air flow towards the presenting area.
- the air guide channel comprises a nozzle-shaped end-part arranged at an outlet side of the air guide channel.
- the nozzle-shaped end-part has a flattened outlet opening, in particular an outlet opening with an oval cross-section.
- the height of the outlet opening is defined as the dimension in the direction perpendicular to the insertion path of a weft thread and perpendicular to the beat-up direction.
- the nozzle-shaped end-part and the tube are manufactured as separate parts and fixed to each other.
- the nozzle-shaped end-part in one embodiment is detachably fixed to the tube, allowing for a replacement of the end-part.
- the nozzle-shaped end-part is permanently fixed to the tube, in particular glued or welded to the tube.
- the nozzle-shaped end-part and the tube are formed in one piece.
- the shape of the air guide channel is preferably optimized for minimizing a contact of internal walls with the weft thread.
- a weft thread may still make contact with the internal wall of the air guide channel, in particular at an end-part of the air guide channel. Therefore, in one embodiment at least in the vicinity of the internal wall of the air guide channel a wear-resistant coating and/or a wear-resistant insert is provided in a weft thread contact area of the air guide channel, more in particular in an area of the air guide channel directed to the fabric.
- the air guide channel is at least partly made, in particular at least in the vicinity of the internal wall, of a material having a low frictional resistance to air and weft threads, in particular a synthetic material, for example a polyvinyl chloride reinforced with fillers.
- the arrival detector for detecting the arrival of a weft thread and the broken-weft thread detector for providing a signal when an inserted weft thread exceeds its length by a predetermined amount are configured for optically monitoring the weft thread.
- both weft thread detectors work on the same operating principle.
- optical weft thread detectors as described in EP 0 943 024 B1 are used, the content of which is herewith incorporated by reference.
- a detection zone of a arrival detector and/or broken-weft thread detector extends between an upper part and a lower part of the weft thread detector.
- the upper part and the lower part of the weft thread detector are defined as parts of the weft thread detector arranged above and below an insertion path as seen in a direction approximately perpendicular to a fabric, i.e. in the direction of the height of the air guide channel.
- a method for monitoring a weft thread in a weaving machine with a device comprising a broken-weft thread detector for providing a signal when an inserted weft thread exceeds its length by a predetermined amount which is mounted on a sley of a weaving machine and an air guide channel, which air guide channel is located upstream of the broken-weft thread detector, wherein the air guide channel is arranged stationary on the weaving machine and channels an air flow to a presenting area, and a detection zone of the broken-weft thread detector is moved through the presenting area during beat-up.
- Figure 1 is a schematic top view of a part of a weaving machine, more particularly of an air-jet weaving machine, with a device 1 for monitoring a weft thread comprising a broken-weft thread detector, hereinafter referred to as second weft thread detector 10, according to a first embodiment of the invention during insertion of a weft thread 2.
- Fig. 2 shows a perspective view of a part of a weaving machine similar to Fig. 1 .
- the weft thread 2 is inserted in a shed formed by selectively raising and lowering warp threads 3. During insertion, the weft thread 2 is supported by relay nozzles 4 and guided in an insertion channel 509 (see Fig. 2 ) through a reed 5.
- the insertion channel 509 mainly determines the insertion path of the weft thread.
- a first weft thread detector 6, also called arrival detector for weft thread is arranged on the sley 500 (see Fig. 2 ) at the end of the insertion channel 509 next to the reed 5 in order to detect the arrival of the weft thread 2.
- the leading end-part 2f of the inserted weft thread 2 is caught and stretched with a predetermined tension by a weft thread stretching device 7, such as a suction nozzle.
- a weft thread stretching device 7 is arranged stationary on the weaving machine in an extension of an insertion path of the weft thread 2, for example by means of a support beam 700.
- the reed 5 is attached to the sley 500 and is moved in beat-up direction B towards a beat-up line 800 of a fabric 8 for a beat-up movement, in short beat-up.
- the weft thread 2, of which the leading end-part 2f is caught and stretched by the weft thread stretching device 7, as schematically shown in Fig. 1 is moved with the reed 5 towards the beat-up line 800 and is beaten-up into the fabric 8.
- a weft thread holding device 9 is arranged stationary on the weaving machine in an area of a beat-up line 800 for holding the leading end-parts of a number of beaten-up weft threads 2d.
- the weft thread stretching device 7 is also arranged stationary on the weaving machine, at a distance from the beat-up line 800 in the extension of an insertion path of the weft thread 2.
- a movable guiding device 91 is provided for guiding the caught leading end-part 2f of the weft thread 2 towards the weft thread holding device 9. The guiding device 91 is fixed on the sley 500.
- a cutting device 92 is provided between a fabric edge 801 of the fabric 8 and the weft thread holding device 9 for cutting the ends of the weft threads after they are bound by the warp threads 3.
- the cutting device 92 is arranged close to the fabric edge 801 for minimizing the length of the ends of the bound weft threads protruding from the fabric 8.
- the cut-off ends are removed via a duct (not-shown) provided to the weft thread holding device 9.
- an optional suction device 12 for removing faulty inserted weft threads is shown schematically.
- the weft thread stretching device 7 is a ring-jet suction nozzle.
- the weft thread stretching device 7 is connected to a compressed-air tank (not shown) in order to obtain a suction effect.
- the device 1 for monitoring a weft thread comprises a second weft thread detector 10 for providing a signal when an inserted weft thread exceeds its length by a predetermined amount.
- the second weft thread detector 10 is mounted on the sley 500 of the weaving machine and moves together with the sley 500. In the embodiment shown, the second weft thread detector 10 is mounted on the sley 500 in line with the first weft thread detector 6.
- an air guide channel 11 is provided, which is located upstream of the second weft thread detector 10 seen in the insertion direction of the weft thread.
- the air guide channel 11 is arranged fixed in a position with respect to the frame of the weaving machine.
- the air guide channel 11 is arranged at the outlet side of the weft thread stretching device 7, in an extension of an insertion path of the weft thread 2 by means of a support beam 700.
- the air guide channel 11 fits well with an outlet opening of the weft thread stretching device 7 configured as suction nozzle.
- the air guide channel 11 bridges mainly the distance between the weft thread stretching device 7 and the second weft thread detector 10, more in particular bridges at least 80% of the distance between the weft thread stretching device 7 and weft thread detector 10.
- the air guide channel 11 comprises a straight tube 110 having an inlet opening having a circular cross-section and a nozzle-shaped end-part 112 arranged at the outlet side of the air guide channel 11.
- the nozzle-shaped end-part 112 is mounted on the straight tube 110.
- the air guide channel 11 is manufactured at least at the vicinity of the internal wall of a material having a low frictional resistance to air and a low frictional resistance to weft threads, for example a synthetic material.
- Fig. 3 shows a front view and Fig. 4 a cross-section along a line A-A in Fig. 3 of an embodiment of a nozzle-shaped end-part 112.
- Other exemplary embodiments of nozzle-shaped end-parts 112 are shown in Figures 9 to 18 and will be described with reference to these figures below.
- the nozzle-shaped end-part 112 has a flattened outlet opening 112a.
- the outlet opening 112a has an oval cross-section.
- the nozzle-shaped end-part 112 has a circular cross-section that fits well with the cross-section of the tube shown in Fig. 2 .
- a channel 112c is provided between the inlet opening 112b having a circular cross-section and the flattened outlet opening 112a.
- the length of the nozzle-shaped end-part 112 is defined as the dimension in the direction of an insertion path of a weft thread.
- the width of the nozzle-shaped end-part 112 is defined as the dimension in the beat-up direction B, i.e. in the direction of a movement path of the weft thread during beat-up.
- the height of the nozzle-shaped end-part 112 is defined as the dimension in the direction perpendicular to the insertion path and perpendicular to the beat-up direction B.
- a width of the channel 112c is approximately constant over the length of the nozzle-shaped end-part 112.
- a height of the channel 112c through the nozzle-shaped end-part 112 decreases for channelling the air flow through the nozzle-shaped end-part 112 to a presenting area.
- the flattened outlet opening 112a is slightly curved upwards with respect to a center line in order to adapt the course of the flattened outlet opening 112a to the beat-up direction B.
- an annular space 112d for receiving the tube 110 (see Fig. 2 ) is provided at the inlet side of the nozzle-shaped end-part 112.
- an insert 112e for example a rod, near the outlet opening 112a, is provided.
- the insert 112e is made wear-resistant, for example, comprises a wear-resistant coating and/or is made of a wear-resistant material.
- the insert 112e can co-operate during beat-up with an end-part 2f (see Fig. 1 ) of a weft thread 2 extending between the nozzle-shaped end-part 112 and the second weft thread detector 10.
- the wear-resistant insert 112e is provided in a weft thread contact area of the air guide channel 11, more in particular in an area of the air guide channel 11 directed to the fabric 8.
- the second weft thread detector 10 and the first weft thread detector 6 which are both mounted on the sley 500, are moved in the beat-up direction B as shown in Fig. 1 .
- Figs. 5 to 7 show a front view of a second weft thread detector 10 and the nozzle-shaped end-part 112 during the beat-up direction B at successive instants in time.
- the second weft thread detector 10 is configured for optically monitoring weft threads.
- the second weft thread detector 10 is, in a known way, fixed by fixation means 15 to the sley 500 (see Fig. 1 ).
- the second weft thread detector 10 is provided with a guiding opening 10a arranged in the extension of the insertion channel 509 of the reed 5 (see Fig. 2 ).
- the shape of the guiding opening 10a of the second weft thread detector 10 is similar to the shape of the dents of the reed 5.
- the guiding opening 10a is limited by an upper leg 10b and a lower leg 10c, wherein light rays are directed transversely through the guiding opening 10a between the upper leg 10b and the lower leg 10c.
- a detection zone of the second weft thread detector 10 extends between an upper part and a lower part of the weft thread detector 10 perpendicular to an insertion path.
- the first weft thread detector 6 is, for example, configured similar to the second weft thread detector 10. Examples of weft thread detectors suitable to be used as the second weft thread detector 10 and/or the first weft detector 6 are described in EP 0 943 024 B1 .
- the air guide channel 11, more in particular the nozzle-shaped end-part 112, is configured to present the weft thread in a presenting area.
- the presenting area is chosen such that it is traversed by the detection zone of the second weft thread detector 10 during beat-up.
- the presenting area at which a weft thread is presented to the second weft thread detector 10 is determined by the position and/or the shape of the air guide channel 11.
- the presenting area is determined by the area of the leading end-part 2f extending beyond the nozzle-shaped end-part 112. In the embodiment of Fig.
- the leading end-part 2f determining the presenting area is located approximately beyond the centre of the nozzle-shaped end-part 112.
- the presenting area is traversed in this embodiment by the detection zone of the second weft thread detector 10 in positions located near the positions shown in Figs. 6 and 7 , such as the position of Fig. 8 .
- Figs. 9 to 18 show exemplary embodiments of nozzle-shaped end-parts 112.
- the nozzle-shaped end-parts 112 shown in Figs. 3 to 4 and 9 to 18 are similar in shape and common reference numbers will be used for similar or common elements.
- the nozzle-shaped end-part 112 has a flattened outlet opening 112a with an oval cross-section and an inlet opening 112b with a circular cross-section that fits well on the cross-section of the tube 110 shown in Fig. 2 .
- a channel 112c is provided between the inlet opening 112b and the flattened outlet opening 112a.
- the presenting area at which weft threads are presented to the second weft thread detector 10 is determined by the shape of the outlet opening 112a, its width, its height and its position with respect to the insertion path.
- the presenting area is chosen such that the presenting area is traversed by the detection zone of the second weft thread detector 10 during beat-up. Therefore, the height of the flattened outlet opening 112a is chosen in order that the presenting area is located between the upper leg 10b and the lower leg 10c of the second weft thread detector 10 during beat-up (see Figs. 5 to 7 ). However, within these boundary conditions, it is possible to vary the height.
- the width of the flattened outlet opening 112a and/or its offset with respect to a longitudinal axis of the weft thread stretching device 7 (see Fig. 2 ) in the beat-up direction B can also be varied in order to ensure that the presenting area is traversed by the detection zone of the second weft thread detector 10.
- the embodiment of Fig. 9 differs from the embodiment of Fig. 3 in that a height of the flattened outlet opening 112a is decreased for decreasing the presenting area. However, a width of the channel 112c to the nozzle-shaped end-part 112 is kept constant.
- the area of the channel 112c arranged closer to the beat-up line 800 is referred to as front area, whereas the opposing area of the channel 112c is referred to as rear area.
- a sidewall of the channel 112c through the nozzle-shaped end-part 112 is provided with a convex bulge in the front area.
- Figs. 13 and 14 show an embodiment of the nozzle-shaped end-part 112 similar to that of Figs. 11 and 12 .
- a sidewall of the channel 112c through the nozzle-shaped end-part 112 is also provided with a convex bulge in the front area of the nozzle-shaped end-part 112, wherein a height of the flattening outlet opening 112a is decreased compared to the embodiment of Figs. 11 and 12 .
- Figs. 15 and 16 show a further embodiment of a nozzle-shaped end-part 112, wherein a channel 112c through the nozzle-shaped end-part 112 is curved towards a beat-up line 800 (see Fig. 1 ) in order to provide a presenting area which is closer to the beat-up line 800.
- a curvature of the sidewalls of the channel 112c is not uniform. Rather, an area of the channel 112c closer to the beat-up line 800 is provided with a more pronounced concave curvature for guiding an air flow towards to the rear area of the channel 112c.
- Figs. 17 and 18 show an embodiment of a nozzle-shaped end-part 112 similar to that shown in Fig. 15 and 16 .
- a curvature towards the beat-up line 800 is considerably more pronounced for bringing the presenting area closer to the beat-up line 800 (see Fig. 1 ).
- Figs. 19 and 20 show an air guide channel 11 with a tube 110, for example a straight tube, which is provided with a number of openings 115 for escaping compressed air out of the tube 110.
- the tube 110 is also provided with recesses 116 in the vicinity of the inlet opening where the tube 110 is intended to be fixed to the weft thread stretching device 7.
- the openings in the tube 110 can be arranged according to a variant not shown in other positions along the tube 110, for example similar as with a tube known from EP 0 273 473 .
- the device and the method according to the invention are not limited to the embodiments described and illustrated in the drawings by way of example.
- the device and the method can also be configured within the claims according to variant embodiments, shapes and dimensions. Combinations of the illustrated embodiments that come under the claims are also possible.
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Description
- The invention relates to a weaving machine with a device for monitoring a weft thread comprising a broken-weft thread detector for providing a signal when an inserted weft thread exceeds its length by a predetermined amount and an air guide channel located upstream of the broken weft thread detector, wherein the broken-weft thread detector is mounted on a sley of a weaving machine. The invention further relates to a method for monitoring a weft thread in a weaving machine.
- A weft thread detector arranged at the arrival side of a weaving machine for monitoring an arrival of an inserted weft thread is known and is called hereafter first weft thread detector or arrival detector for weft thread.
- A weft thread detector for providing a signal when an inserted weft thread exceeds its length by a predetermined amount is called hereafter broken-weft thread detector. The broken-weft thread detector is also called second weft thread detector. The expression "second weft thread detector" is not to be construed as an indication of the number of weft thread detectors. In one embodiment, the second weft thread detector is used as only weft thread detector, i.e. without a first weft thread detector. The terms "first weft thread detector" and "second weft thread detector" rather denote an order in which the weft thread detectors are arranged in the insertion direction.
- A device for monitoring a weft thread in a weaving machine comprising a first weft thread detector and a second weft thread detector are known in the prior art.
- For example,
GB 2 119 819 A -
US 4,432,399 discloses a device for monitoring a weft thread in a weaving machine, comprising a first weft thread detector for providing a stop signal when the inserted weft thread does not reach its normal length and a second weft thread detector spaced from the first weft thread detector for providing a signal when the inserted weft thread exceeds its normal length by a predetermined amount. Between the two weft thread detectors, an air guide channel is arranged for bridging the space between the two weft thread detectors, which air guide channel lies in the extension of the insertion path. The two weft thread detectors and the air guide channel are arranged in order to move with the reed. -
WO 2011/000561 A1 discloses a weaving machine with a device for monitoring a weft thread comprising a broken-weft thread detector for providing a signal when an inserted weft thread exceeds its length by a predetermined amount. - It is the object of the invention to provide a weaving machine with a device for monitoring a weft thread and a method for monitoring a weft thread allowing a reliable detection of inserted weft threads that exceed their length by a predetermined amount, i.e. inserted weft threads extending too far outside the shed.
- This object is solved by a weaving machine and a method with the features of
claims 1 and 15. - According to a first aspect of the invention, a weaving machine with a device for monitoring a weft thread is provided, the device comprising a broken-weft thread detector for providing a signal when an inserted weft thread exceeds its length by a predetermined amount and an air guide channel located upstream of the broken-weft thread detector, wherein the broken-weft thread detector is mounted on a sley of a weaving machine and the air guide channel is arranged stationary on the weaving machine.
- In other words, the air guide channel is arranged in a fixed position with respect to the frame of the weaving machine, whereas the broken-weft thread detector is mounted on the sley and moves with the reed during beat-up.
- In preferred embodiments, an arrival detector for weft thread is provided upstream of the air guide channel, i.e. a weft thread detector for detecting the arrival of a weft thread is provided. The arrival detector is also referred to as first weft thread detector.
- The arrival detector (first weft thread detector) and the broken-weft thread detector (second weft thread detector) are both mounted on the sley in the extension of the reed, wherein the first weft thread detector is arranged upstream of the air guide channel and the second weft thread detector is arranged downstream of the air guide channel.
- Weft thread detectors generally have a limited detection zone. A weft thread is only detected when the weft thread reaches the detection zone. The first weft thread detector is arranged close to the end of the reed, wherein relay nozzles provided for an insertion of a weft thread blow the weft thread in the detection zone of the first weft thread detector.
- A broken-weft thread detector for detecting weft threads that extend too far outside a shed is also called second weft thread detector. Such a second weft thread detector is arranged downstream of the first weft thread detector in the insertion direction. By providing an air guide channel, the air flow is directed to an area allowing the broken-weft thread detector to detect a weft thread transported by the air flow. In accordance with the invention, the air guide channel is arranged stationary. Therefore, the weft thread end leaving the air guide channel is presented at a presenting area allowing a more reliable detection. The presenting area is determined by the shape and/or position of the air guide channel. The shape and/or position may be chosen to minimize the influence of the movement of the weft thread through the air guide channel and/or to minimize forces acting on the weft thread moving through the air guide channel at least in a zone of the air guide channel. Hence, an insertion of a weft thread upstream of the air guide channel is not or only slightly influenced by the transport of the weft thread through the air guide channel. In addition, a movement of the broken-weft thread detector with respect to the presented weft thread does not or only slightly influence the insertion of weft threads upstream of the air guide channel.
- According to an embodiment, the air guide channel is configured to present a weft thread in a presenting area traversed by a detection zone of the broken-weft thread detector during beat-up. To this end, in one embodiment an air flow leaving the outlet opening of the air guide channel is channelled to the presenting area, which is chosen so that the detection zone of the broken-weft thread detector traverses the air flow leaving the outlet opening during beat-up. An end of for example a broken weft thread transported by the air flow will be presented in the presenting area. The broken-weft thread detector is mounted on the sley and moves during beat-up, wherein the detection zone traverses the presenting area. In result, an effective detection zone of the broken-weft thread detector is traversed. Therefore, a more reliable detection is ensured. In other words, during insertion the air guide channel does not necessarily guide the air flow towards the detection zone of the broken-weft thread detector, but rather to a presenting area in front of the detection zone during insertion, wherein during beat-up the detection zone is moved towards and across this presenting area and in this way traverses the presenting area. In the context of the application, a "presenting area in front of the detection zone" is defined an area that is located opposite the side of the broken-weft thread detector that in use is directed to the fabric and where a leading end-part of a weft thread extending outside the air guide channel can be located.
- In one embodiment, a weft thread stretching device is provided in the extension of an insertion path of the weft thread upstream of the air guide channel, which weft thread stretching device is configured for catching end-parts of inserted weft threads, wherein preferably the air guide channel bridges at least 50%, more preferably at least 70%, in particular at least 80% of the distance between the weft thread stretching device and the broken-weft thread detector. In one embodiment the weft thread stretching device comprises a suction nozzle, more in particular a ring-jet suction nozzle. In the context of the application, a ring-jet suction nozzle is defined as a suction device, wherein a suction effect is obtained by blowing compressed air into the suction device. Compressed air used for catching inserted weft threads is used to transport a weft thread through the air guide channel. The air guide channel is in preferred embodiments provided in the extension of the cross-section of the suction nozzle at an outlet side of the suction nozzle.
- In one embodiment, the air guide channel fits well with the outlet opening of the weft thread stretching device, more particularly with the outlet opening of the suction nozzle of the weft thread stretching device. In this case, efficient use of the air flow through the suction nozzle is made to transport the weft thread towards the presenting area, in particular to a presenting area in front of the detection zone of the broken-weft thread detector.
- In preferred embodiments, the air guide channel comprises a tube, in particular a straight tube. The tube provides a closed air guide channel, wherein an air flow through the tube is not or only slightly disturbed by external influences. In addition, when providing a straight tube, forces acting on the weft thread while the weft thread is moving through the tube are minimised and the movement of the weft thread through the tube does not or only slightly influences an insertion of the weft threads upstream of the tube. The air guide channel also allows guiding a weft thread through the air guide channel.
- According to an embodiment, the tube has an inlet opening having a circular cross-section. In particular when providing a ring-jet suction nozzle a tube having a circular cross-section allows a smooth transition of the air flow from the suction nozzle to the air guide channel.
- The air guide channel is shaped to channel the air flow towards the presenting area. For this purpose, in one embodiment, the air guide channel comprises a nozzle-shaped end-part arranged at an outlet side of the air guide channel. In order to limit the presenting area of the air flow leaving the air guide channel, in preferred embodiments, the nozzle-shaped end-part has a flattened outlet opening, in particular an outlet opening with an oval cross-section. In the context of the application, the height of the outlet opening is defined as the dimension in the direction perpendicular to the insertion path of a weft thread and perpendicular to the beat-up direction.
- In one embodiment, the nozzle-shaped end-part and the tube are manufactured as separate parts and fixed to each other. The nozzle-shaped end-part in one embodiment is detachably fixed to the tube, allowing for a replacement of the end-part. In other embodiments, the nozzle-shaped end-part is permanently fixed to the tube, in particular glued or welded to the tube. In still another embodiment, the nozzle-shaped end-part and the tube are formed in one piece.
- The shape of the air guide channel is preferably optimized for minimizing a contact of internal walls with the weft thread. However, a weft thread may still make contact with the internal wall of the air guide channel, in particular at an end-part of the air guide channel. Therefore, in one embodiment at least in the vicinity of the internal wall of the air guide channel a wear-resistant coating and/or a wear-resistant insert is provided in a weft thread contact area of the air guide channel, more in particular in an area of the air guide channel directed to the fabric.
- In one embodiment, the air guide channel is at least partly made, in particular at least in the vicinity of the internal wall, of a material having a low frictional resistance to air and weft threads, in particular a synthetic material, for example a polyvinyl chloride reinforced with fillers.
- In still another embodiment, the arrival detector for detecting the arrival of a weft thread and the broken-weft thread detector for providing a signal when an inserted weft thread exceeds its length by a predetermined amount are configured for optically monitoring the weft thread. In preferred embodiments, both weft thread detectors work on the same operating principle. In particular, optical weft thread detectors as described in
EP 0 943 024 B1 are used, the content of which is herewith incorporated by reference. - In one embodiment, a detection zone of a arrival detector and/or broken-weft thread detector extends between an upper part and a lower part of the weft thread detector. In the context of the application, the upper part and the lower part of the weft thread detector are defined as parts of the weft thread detector arranged above and below an insertion path as seen in a direction approximately perpendicular to a fabric, i.e. in the direction of the height of the air guide channel.
- According to a second aspect, a method is provided for monitoring a weft thread in a weaving machine with a device comprising a broken-weft thread detector for providing a signal when an inserted weft thread exceeds its length by a predetermined amount which is mounted on a sley of a weaving machine and an air guide channel, which air guide channel is located upstream of the broken-weft thread detector, wherein the air guide channel is arranged stationary on the weaving machine and channels an air flow to a presenting area, and a detection zone of the broken-weft thread detector is moved through the presenting area during beat-up.
- Further features and advantages of the invention will emerge from the following description of the embodiments illustrated in the drawings, wherein
- figure 1:
- is a schematic top view of a part of a weaving machine with a device according to an embodiment of the invention;
- figure 2:
- is a perspective view of a part of the weaving machine shown in
figure 1 in a position during insertion of a weft thread; - figure 3:
- is a front view of an embodiment of a nozzle-shaped end part;
- figure 4:
- is a cross-section along a line A-A in
figure 3 ; - figure 5:
- is a front view of a weft thread detector and the nozzle shaped end-part during insertion;
- figure 6:
- is a front view of a weft thread detector and the nozzle shaped end-part of
figure 5 during beat-up; - figure 7:
- is a front view of a weft thread detector and the nozzle shaped end-part of
figure 6 during further beat-up; - figure 8:
- is a perspective view of a part of the weaving machine shown in
figure 2 in a position during beat-up of a weft thread; - figures 9
- and 10;
figures 11 and 12 ,figures 13 and 14 ; - figures 15 and 16; and figures 17 and 18
- are respectively variant embodiments of
figures 3 and 4 ; - figure 19:
- is a top view of an air guide channel provided with the nozzle-shaped end-part of
figures 17 and 18 ; - figure 20
- is a perspective view of
figure 19 . -
Figure 1 is a schematic top view of a part of a weaving machine, more particularly of an air-jet weaving machine, with a device 1 for monitoring a weft thread comprising a broken-weft thread detector, hereinafter referred to as secondweft thread detector 10, according to a first embodiment of the invention during insertion of a weft thread 2.Fig. 2 shows a perspective view of a part of a weaving machine similar toFig. 1 . - The weft thread 2 is inserted in a shed formed by selectively raising and lowering warp threads 3. During insertion, the weft thread 2 is supported by
relay nozzles 4 and guided in an insertion channel 509 (seeFig. 2 ) through areed 5. Theinsertion channel 509 mainly determines the insertion path of the weft thread. In the embodiment shown, a firstweft thread detector 6, also called arrival detector for weft thread, is arranged on the sley 500 (seeFig. 2 ) at the end of theinsertion channel 509 next to thereed 5 in order to detect the arrival of the weft thread 2. - The leading end-
part 2f of the inserted weft thread 2 is caught and stretched with a predetermined tension by a weftthread stretching device 7, such as a suction nozzle. As schematically shown, the weftthread stretching device 7 is arranged stationary on the weaving machine in an extension of an insertion path of the weft thread 2, for example by means of asupport beam 700. - The
reed 5 is attached to thesley 500 and is moved in beat-up direction B towards a beat-upline 800 of afabric 8 for a beat-up movement, in short beat-up. The weft thread 2, of which the leading end-part 2f is caught and stretched by the weftthread stretching device 7, as schematically shown inFig. 1 , is moved with thereed 5 towards the beat-upline 800 and is beaten-up into thefabric 8. - In accordance with the embodiment shown in
Fig. 1 , a weft thread holding device 9 is arranged stationary on the weaving machine in an area of a beat-upline 800 for holding the leading end-parts of a number of beaten-upweft threads 2d. As mentioned above, the weftthread stretching device 7 is also arranged stationary on the weaving machine, at a distance from the beat-upline 800 in the extension of an insertion path of the weft thread 2. In one embodiment, amovable guiding device 91 is provided for guiding the caught leading end-part 2f of the weft thread 2 towards the weft thread holding device 9. The guidingdevice 91 is fixed on thesley 500. A cuttingdevice 92 is provided between afabric edge 801 of thefabric 8 and the weft thread holding device 9 for cutting the ends of the weft threads after they are bound by the warp threads 3. The cuttingdevice 92 is arranged close to thefabric edge 801 for minimizing the length of the ends of the bound weft threads protruding from thefabric 8. The cut-off ends are removed via a duct (not-shown) provided to the weft thread holding device 9. Further also anoptional suction device 12 for removing faulty inserted weft threads is shown schematically. - In the embodiment shown, the weft
thread stretching device 7 is a ring-jet suction nozzle. The weftthread stretching device 7 is connected to a compressed-air tank (not shown) in order to obtain a suction effect. - The device 1 for monitoring a weft thread according to the invention comprises a second
weft thread detector 10 for providing a signal when an inserted weft thread exceeds its length by a predetermined amount. The secondweft thread detector 10 is mounted on thesley 500 of the weaving machine and moves together with thesley 500. In the embodiment shown, the secondweft thread detector 10 is mounted on thesley 500 in line with the firstweft thread detector 6. - Further, an
air guide channel 11 is provided, which is located upstream of the secondweft thread detector 10 seen in the insertion direction of the weft thread. Theair guide channel 11 is arranged fixed in a position with respect to the frame of the weaving machine. - As schematically shown, the
air guide channel 11 is arranged at the outlet side of the weftthread stretching device 7, in an extension of an insertion path of the weft thread 2 by means of asupport beam 700. In the embodiment, theair guide channel 11 fits well with an outlet opening of the weftthread stretching device 7 configured as suction nozzle. Theair guide channel 11 bridges mainly the distance between the weftthread stretching device 7 and the secondweft thread detector 10, more in particular bridges at least 80% of the distance between the weftthread stretching device 7 andweft thread detector 10. - In an embodiment shown, the
air guide channel 11 comprises astraight tube 110 having an inlet opening having a circular cross-section and a nozzle-shaped end-part 112 arranged at the outlet side of theair guide channel 11. In the embodiment shown, the nozzle-shaped end-part 112 is mounted on thestraight tube 110. Theair guide channel 11 is manufactured at least at the vicinity of the internal wall of a material having a low frictional resistance to air and a low frictional resistance to weft threads, for example a synthetic material. -
Fig. 3 shows a front view andFig. 4 a cross-section along a line A-A inFig. 3 of an embodiment of a nozzle-shaped end-part 112. Other exemplary embodiments of nozzle-shaped end-parts 112 are shown inFigures 9 to 18 and will be described with reference to these figures below. - As shown in
Figs. 3 and 4 , the nozzle-shaped end-part 112 has a flattenedoutlet opening 112a. In the embodiment shown theoutlet opening 112a has an oval cross-section. At theinlet opening 112b the nozzle-shaped end-part 112 has a circular cross-section that fits well with the cross-section of the tube shown inFig. 2 . Achannel 112c is provided between theinlet opening 112b having a circular cross-section and the flattenedoutlet opening 112a. In the context of the application, the length of the nozzle-shaped end-part 112 is defined as the dimension in the direction of an insertion path of a weft thread. The width of the nozzle-shaped end-part 112 is defined as the dimension in the beat-up direction B, i.e. in the direction of a movement path of the weft thread during beat-up. The height of the nozzle-shaped end-part 112 is defined as the dimension in the direction perpendicular to the insertion path and perpendicular to the beat-up direction B. As shown in the cross-section ofFig. 3 , in this embodiment, a width of thechannel 112c is approximately constant over the length of the nozzle-shaped end-part 112. A height of thechannel 112c through the nozzle-shaped end-part 112 decreases for channelling the air flow through the nozzle-shaped end-part 112 to a presenting area. As seen inFig. 3 , the flattenedoutlet opening 112a is slightly curved upwards with respect to a center line in order to adapt the course of the flattenedoutlet opening 112a to the beat-up direction B. - For fixing the nozzle-shaped end-
part 112 anannular space 112d for receiving the tube 110 (seeFig. 2 ) is provided at the inlet side of the nozzle-shaped end-part 112. Further, aninsert 112e, for example a rod, near theoutlet opening 112a, is provided. Theinsert 112e is made wear-resistant, for example, comprises a wear-resistant coating and/or is made of a wear-resistant material. Theinsert 112e can co-operate during beat-up with an end-part 2f (seeFig. 1 ) of a weft thread 2 extending between the nozzle-shaped end-part 112 and the secondweft thread detector 10. Herewith the wear-resistant insert 112e is provided in a weft thread contact area of theair guide channel 11, more in particular in an area of theair guide channel 11 directed to thefabric 8. - During beat-up, the second
weft thread detector 10 and the firstweft thread detector 6 which are both mounted on thesley 500, are moved in the beat-up direction B as shown inFig. 1 . -
Figs. 5 to 7 show a front view of a secondweft thread detector 10 and the nozzle-shaped end-part 112 during the beat-up direction B at successive instants in time. The secondweft thread detector 10 is configured for optically monitoring weft threads. The secondweft thread detector 10 is, in a known way, fixed by fixation means 15 to the sley 500 (seeFig. 1 ). In the embodiment shown, the secondweft thread detector 10 is provided with a guidingopening 10a arranged in the extension of theinsertion channel 509 of the reed 5 (seeFig. 2 ). The shape of the guidingopening 10a of the secondweft thread detector 10 is similar to the shape of the dents of thereed 5. The guidingopening 10a is limited by anupper leg 10b and alower leg 10c, wherein light rays are directed transversely through the guidingopening 10a between theupper leg 10b and thelower leg 10c. In other words, a detection zone of the secondweft thread detector 10 extends between an upper part and a lower part of theweft thread detector 10 perpendicular to an insertion path. The firstweft thread detector 6 is, for example, configured similar to the secondweft thread detector 10. Examples of weft thread detectors suitable to be used as the secondweft thread detector 10 and/or thefirst weft detector 6 are described inEP 0 943 024 B1 . - The
air guide channel 11, more in particular the nozzle-shaped end-part 112, is configured to present the weft thread in a presenting area. As shown inFigs. 5 to 7 , the presenting area is chosen such that it is traversed by the detection zone of the secondweft thread detector 10 during beat-up. As described above, the presenting area at which a weft thread is presented to the secondweft thread detector 10 is determined by the position and/or the shape of theair guide channel 11. In the context of the application, the presenting area is determined by the area of the leading end-part 2f extending beyond the nozzle-shaped end-part 112. In the embodiment ofFig. 5 , for example, the leading end-part 2f determining the presenting area is located approximately beyond the centre of the nozzle-shaped end-part 112. The presenting area is traversed in this embodiment by the detection zone of the secondweft thread detector 10 in positions located near the positions shown inFigs. 6 and 7 , such as the position ofFig. 8 . -
Figs. 9 to 18 show exemplary embodiments of nozzle-shaped end-parts 112. The nozzle-shaped end-parts 112 shown inFigs. 3 to 4 and9 to 18 are similar in shape and common reference numbers will be used for similar or common elements. In all embodiments, the nozzle-shaped end-part 112 has a flattenedoutlet opening 112a with an oval cross-section and aninlet opening 112b with a circular cross-section that fits well on the cross-section of thetube 110 shown inFig. 2 . Achannel 112c is provided between theinlet opening 112b and the flattenedoutlet opening 112a. The presenting area at which weft threads are presented to the secondweft thread detector 10 is determined by the shape of theoutlet opening 112a, its width, its height and its position with respect to the insertion path. - As mentioned above, the presenting area is chosen such that the presenting area is traversed by the detection zone of the second
weft thread detector 10 during beat-up. Therefore, the height of the flattenedoutlet opening 112a is chosen in order that the presenting area is located between theupper leg 10b and thelower leg 10c of the secondweft thread detector 10 during beat-up (seeFigs. 5 to 7 ). However, within these boundary conditions, it is possible to vary the height. The width of the flattenedoutlet opening 112a and/or its offset with respect to a longitudinal axis of the weft thread stretching device 7 (seeFig. 2 ) in the beat-up direction B can also be varied in order to ensure that the presenting area is traversed by the detection zone of the secondweft thread detector 10. - As the comparison of
Figs. 3 and 4 andFigs. 9 and 10 shows, the embodiment ofFig. 9 differs from the embodiment ofFig. 3 in that a height of the flattenedoutlet opening 112a is decreased for decreasing the presenting area. However, a width of thechannel 112c to the nozzle-shaped end-part 112 is kept constant. - In the context of the application, the area of the
channel 112c arranged closer to the beat-up line 800 (seeFig. 1 ) is referred to as front area, whereas the opposing area of thechannel 112c is referred to as rear area. In the embodiment ofFigs. 11 and 12 , a sidewall of thechannel 112c through the nozzle-shaped end-part 112 is provided with a convex bulge in the front area. By providing a convex bulge in the front area, an air flow flowing in the front area is deflected towards the rear area. -
Figs. 13 and 14 show an embodiment of the nozzle-shaped end-part 112 similar to that ofFigs. 11 and 12 . In the embodiment shown inFigs. 13 and 14 , a sidewall of thechannel 112c through the nozzle-shaped end-part 112 is also provided with a convex bulge in the front area of the nozzle-shaped end-part 112, wherein a height of the flatteningoutlet opening 112a is decreased compared to the embodiment ofFigs. 11 and 12 . -
Figs. 15 and 16 show a further embodiment of a nozzle-shaped end-part 112, wherein achannel 112c through the nozzle-shaped end-part 112 is curved towards a beat-up line 800 (seeFig. 1 ) in order to provide a presenting area which is closer to the beat-upline 800. In the embodiment shown, a curvature of the sidewalls of thechannel 112c is not uniform. Rather, an area of thechannel 112c closer to the beat-upline 800 is provided with a more pronounced concave curvature for guiding an air flow towards to the rear area of thechannel 112c. -
Figs. 17 and 18 show an embodiment of a nozzle-shaped end-part 112 similar to that shown inFig. 15 and 16 . In the embodiment shown inFigs. 17 and 18 , a curvature towards the beat-upline 800 is considerably more pronounced for bringing the presenting area closer to the beat-up line 800 (seeFig. 1 ). -
Figs. 19 and 20 show anair guide channel 11 with atube 110, for example a straight tube, which is provided with a number ofopenings 115 for escaping compressed air out of thetube 110. In order to easy the fixing, thetube 110 is also provided withrecesses 116 in the vicinity of the inlet opening where thetube 110 is intended to be fixed to the weftthread stretching device 7. The openings in thetube 110 can be arranged according to a variant not shown in other positions along thetube 110, for example similar as with a tube known fromEP 0 273 473 . - The device and the method according to the invention are not limited to the embodiments described and illustrated in the drawings by way of example. The device and the method can also be configured within the claims according to variant embodiments, shapes and dimensions. Combinations of the illustrated embodiments that come under the claims are also possible.
Claims (15)
- Weaving machine with a device for monitoring a weft thread comprising a broken-weft thread detector (10) for providing a signal when an inserted weft thread exceeds its length by a predetermined amount and an air guide channel (11) located upstream of the broken-weft thread detector (10), wherein the broken-weft thread detector (10) is mounted on a sley (500) of the weaving machine,
characterized in that
the air guide channel (11) is arranged stationary on the weaving machine. - Weaving machine according to claim 1, characterized in that the air guide channel (11) is configured to present a weft thread (2) in a presenting area traversed by a detection zone of the broken-weft thread detector (10) during beat-up.
- Weaving machine according to claim 1 or 2, characterized in that a weft thread stretching device (7) is provided in the extension of an insertion path of the weft thread (2) upstream of the air guide channel (11), which weft thread stretching device (7) is configured for catching end-parts (2f) of the inserted weft threads (2).
- Weaving machine according to claim 3, characterized in that the air guide channel (11) bridges at least 80% of the distance between the weft thread stretching device (7) and the broken-weft thread detector (10).
- Weaving machine according to claim 4, characterized in that the air guide channel (11) fits well on the outlet opening (112a) of the weft thread stretching device (7).
- Weaving machine according to any one of claims 1 to 5, characterized in that the air guide channel (11) comprises a tube (110), in particular a straight tube (110), wherein the tube (110) preferably comprises an opening with a circular cross-section at the inlet side.
- Weaving machine according to any one of claims 1 to 6, characterized in that the air guide channel (11) comprises a nozzle-shaped end-part (112) arranged at an outlet side of the air guide channel (11).
- Weaving machine according to claim 7, characterized in that the nozzle-shaped end-part (112) has a flattened outlet opening (112a), in particular an outlet opening (112a) with an oval cross-section.
- Weaving machine according to claim 7 or 8, characterized in that the nozzle-shaped end-part (112) and the tube (110) are formed in one piece.
- Weaving machine according to any one of claims 1 to 9, characterized in that a wear-resistant insert (112e) is provided in a weft thread contact area of the air guide channel (11), more in particular in an area of the air guide channel (11) directed to the fabric (8).
- Weaving machine according to any one of claims 1 to 10, characterized in that the air guide channel (11) is at least in the vicinity of the internal wall made of a material having a low frictional resistance to air and weft threads, in particular a synthetic material.
- Weaving machine according to any one of claims 1 to 11, characterized in that an arrival detector (6) for detecting the arrival of a weft thread is provided, wherein the arrival detector (6) is mounted on the sley (500) of the weaving machine upstream of the air guide channel (11).
- Weaving machine according to claim 12, characterized in that the arrival detector (6) for detecting the arrival of a weft thread and the broken-weft thread detector (10) for providing a signal when an inserted weft thread exceeds its length by a predetermined amount, are configured for optically monitoring a weft thread.
- Weaving machine according to claim 13, characterized in that a detection zone of a weft thread detector (6, 10) extends between an upper part and a lower part of the weft thread detector (6, 10).
- Method for monitoring a weft thread in a weaving machine with a device according to any one of claims 1 to 14 comprising a broken-weft thread detector (10) for providing a signal when an inserted weft thread exceeds its length by a predetermined amount which is mounted on a sley (500) of the weaving machine and an air guide channel (11) located upstream of the broken-weft thread detector (10),
characterized in that
the air guide channel (11) which is arranged stationary on the weaving machine channelling an air flow to a presenting area, and that a detection zone of the broken-weft thread detector (10) is moved through the presenting area during beat-up.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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BE2012/0655A BE1021449B1 (en) | 2012-10-01 | 2012-10-01 | DEVICE AND METHOD FOR MONITORING AN IMPOSITION WIRE |
PCT/EP2013/069994 WO2014053377A2 (en) | 2012-10-01 | 2013-09-25 | Device and method for monitoring a weft thread |
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EP2904136A2 EP2904136A2 (en) | 2015-08-12 |
EP2904136B1 true EP2904136B1 (en) | 2019-03-06 |
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EP (1) | EP2904136B1 (en) |
CN (1) | CN104822869B (en) |
BE (1) | BE1021449B1 (en) |
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CN104178888B (en) * | 2014-07-28 | 2015-11-04 | 吴江万工机电设备有限公司 | A kind of Dimension Synthesis method of high speed four bar beating-up mechanism |
CN105671752B (en) * | 2016-04-08 | 2018-03-16 | 青岛百佳机械有限公司 | Water-jet loom photoelectric weft-finder telecontrol equipment and the water-jet loom with the device |
BE1024545B1 (en) * | 2016-09-02 | 2018-04-05 | Picanol Nv | Device and method for catching and stretching weft threads |
CN107090650B (en) * | 2017-04-19 | 2018-09-14 | 张赓 | A kind of Weft search unit and its application method |
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2012
- 2012-10-01 BE BE2012/0655A patent/BE1021449B1/en active
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- 2013-09-25 TR TR2019/07833T patent/TR201907833T4/en unknown
- 2013-09-25 EP EP13766355.5A patent/EP2904136B1/en active Active
- 2013-09-25 CN CN201380051476.1A patent/CN104822869B/en active Active
- 2013-09-25 WO PCT/EP2013/069994 patent/WO2014053377A2/en active Application Filing
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CN104822869A (en) | 2015-08-05 |
EP2904136A2 (en) | 2015-08-12 |
BE1021449B1 (en) | 2015-11-25 |
WO2014053377A3 (en) | 2014-07-03 |
WO2014053377A2 (en) | 2014-04-10 |
TR201907833T4 (en) | 2019-06-21 |
CN104822869B (en) | 2016-09-14 |
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