EP2228470A2 - Method for setting weft-insertion conditions in multi-color weft insertion loom - Google Patents
Method for setting weft-insertion conditions in multi-color weft insertion loom Download PDFInfo
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- EP2228470A2 EP2228470A2 EP10000818A EP10000818A EP2228470A2 EP 2228470 A2 EP2228470 A2 EP 2228470A2 EP 10000818 A EP10000818 A EP 10000818A EP 10000818 A EP10000818 A EP 10000818A EP 2228470 A2 EP2228470 A2 EP 2228470A2
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- Prior art keywords
- weft
- control values
- weft insertion
- setting
- related devices
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- 238000003780 insertion Methods 0.000 title claims abstract description 331
- 230000037431 insertion Effects 0.000 title claims abstract description 235
- 238000000034 method Methods 0.000 title claims abstract description 18
- 230000004044 response Effects 0.000 claims abstract description 8
- 230000005540 biological transmission Effects 0.000 description 36
- 238000001514 detection method Methods 0.000 description 25
- 238000009941 weaving Methods 0.000 description 21
- 239000004744 fabric Substances 0.000 description 10
- 230000006870 function Effects 0.000 description 10
- 238000004804 winding Methods 0.000 description 6
- 239000003086 colorant Substances 0.000 description 4
- 230000001276 controlling effect Effects 0.000 description 4
- 230000002093 peripheral effect Effects 0.000 description 4
- 230000005856 abnormality Effects 0.000 description 2
- 238000004891 communication Methods 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 230000001105 regulatory effect Effects 0.000 description 2
- 235000014676 Phragmites communis Nutrition 0.000 description 1
- 230000002159 abnormal effect Effects 0.000 description 1
- 230000001133 acceleration Effects 0.000 description 1
- 230000003213 activating effect Effects 0.000 description 1
- 238000010009 beating Methods 0.000 description 1
- 239000012530 fluid Substances 0.000 description 1
- 230000004043 responsiveness Effects 0.000 description 1
- 230000000717 retained effect Effects 0.000 description 1
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Classifications
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- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D47/00—Looms in which bulk supply of weft does not pass through shed, e.g. shuttleless looms, gripper shuttle looms, dummy shuttle looms
- D03D47/28—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
- D03D47/3026—Air supply systems
- D03D47/3053—Arrangements or lay out of air supply systems
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- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D47/00—Looms in which bulk supply of weft does not pass through shed, e.g. shuttleless looms, gripper shuttle looms, dummy shuttle looms
- D03D47/28—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
- D03D47/3026—Air supply systems
- D03D47/3033—Controlling the air supply
- D03D47/3046—Weft yarn selection
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- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D51/00—Driving, starting, or stopping arrangements; Automatic stop motions
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- D—TEXTILES; PAPER
- D03—WEAVING
- D03J—AUXILIARY WEAVING APPARATUS; WEAVERS' TOOLS; SHUTTLES
- D03J1/00—Auxiliary apparatus combined with or associated with looms
- D03J1/005—Displays or displaying data
Definitions
- the present invention relates to a method for setting control values of a weft insertion device provided with a plurality of weft insertion systems in a multi-color weft insertion loom including the weft insertion device.
- looms perform a single cycle of weft insertion by activating a plurality of weft-insertion-related devices (a measuring-and-storing device, a main nozzle, sub-nozzles, etc.) in cooperation with each other.
- This set of weft-insertion-related devices is referred to herein as a "weft insertion system.”
- Multi-color weft insertion looms include a plurality of weft insertion systems, and a selection number is assigned to each of the weft insertion systems. For example, in a six-color weft insertion loom, one of selection numbers 1 to 6 is assigned to each of the weft insertion systems.
- a weft-insertion control device determines the weft insertion system to be activated on the basis of the selection number thereof.
- the relationship between the weft-insertion-related devices and the weft insertion systems to which the weft-insertion-related devices belong is fixed. More specifically, in, for example, a six-color weft insertion loom including six measuring-and-storing devices f1 to f6 and six main nozzles n1 to n6, the measuring-and-storing device f1 and the main nozzle n1 belong to a weft insertion system 1 (selection number 1) and the measuring-and-storing device f2 and the main nozzle n2 belong to a weft insertion system 2 (selection number 2). In this manner, the relationship between the weft-insertion-related devices and the weft insertion systems is fixed.
- the measuring-and-storing device and the main nozzle included in the weft insertion system 1 of selection number 1 are the measuring-and-storing device f1 and the main nozzle n1, respectively, and it is not common to change, for example, only the main nozzle to the main nozzle n2.
- control values are set in a weft-insertion control unit by a setting device as the weft insertion conditions in association with the selection numbers.
- the "control values” are values for controlling the weft-insertion-related devices which belong to the respective weft insertion systems, and are set in association with the selection numbers.
- the control values include, for example, an ejection pressure and an ejection time of each weft insertion nozzle; and an amount of operation and an operation time of a motor for driving a yarn winding arm of each measuring-and-storing device.
- the control values are determined in accordance with the types or the like of the weft yarns to be subjected to weft insertion by the respective weft insertion systems, and are set in association with the selection numbers assigned to the respective weft insertion systems.
- the operations of the weft-insertion-related devices which belong to the respective weft insertion systems are controlled under the weft insertion conditions set in the weft-insertion control unit so that a weft insertion operation is performed by the weft-insertion-related devices activated in cooperation with each other.
- the control values may be transmitted from an external recording medium, such as a memory card, in which the weft insertion conditions are stored or from a host computer connected to the loom.
- an external recording medium such as a memory card
- Japanese Unexamined Patent Application Publication No. 2006-70410 discloses an invention titled "method for setting set values in loom" that can be applied to a multi-color weft insertion loom. According to this publication, first, an operator manually inputs the weft insertion conditions (control values) for a single weft insertion system (selection number). Then, the control values for another weft insertion system is set by using a copy function.
- weaving conditions including the weft insertion conditions that have previously been set in an cloth weaving operation may be stored in a storage medium. Then, when the same type of cloth as the previously woven cloth is to be woven, all of the weaving conditions may be read from the storage medium and set in the weft-insertion control unit. In addition, there may also be a case in which cloth of a type different from that of the previously woven cloth is to be woven but some of the weft insertion conditions included in the previously set weaving conditions are to be set in the weft-insertion control unit.
- weft yarn A weft yarns to be subjected to weft insertion
- control values for one weft yarn (hereinafter called "weft yarn A") in weft yarns to be subjected to weft insertion
- control values for the conditions (control values) for the weft yarn A in a previously performed weaving operation.
- control values included in the weft insertion conditions stored in the weft-insertion control unit of the loom are set in association with the selection numbers. Accordingly, the weft insertion conditions stored in the storage medium or the like are also set in association with the selection numbers.
- the weft insertion system (selection number) used to insert the weft yarn A in the current weaving operation is the same as that in the previous weaving operation, only the control values for the weft yarn A can be simply read from the recording medium and set in the weft-insertion control unit.
- control values for weft insertion of the weft yarn A are stored in association with selection number 1 in the storage device or the like. Therefore, if the control values are simply read and set in the weft-insertion control unit, the control values for weft insertion of the weft yarn A are set as control values for weft-insertion-related devices belonging to the weft insertion system corresponding to selection number 1.
- control values cannot be simply read from the storage medium or the like and set in the weft-insertion control unit.
- the control values read from the storage medium or the like must be provisionally set in the weft-insertion control unit, and then the thusset control values must be set as the control values for the weft insertion system corresponding to selection number 3 by using, for example, the copy function described in the above-described publication. Then, the control values for the weft insertion system corresponding to selection number 1 must be reset.
- An object of the present invention is to provide a multi-color weft insertion loom which allows specific control values of weft insertion conditions stored in a storage medium, which stores control values as weft insertion conditions in association with selection numbers, to be readily set in the weft-insertion control unit as control values corresponding to an arbitrary selection number.
- the present invention is applied to a method for setting weft insertion conditions in a multi-color weft insertion loom including a weft insertion device, a setting device, and a weft-insertion control unit.
- the weft insertion device includes two or more weft insertion systems which each include a plurality of weft-insertion-related devices that operate in a weft insertion operation.
- the setting device sets control values for controlling operations of the weft-insertion-related devices belonging to the respective weft insertion systems.
- the control values are set in advance in the weft-insertion control unit as the weft insertion conditions in association with selection numbers assigned to the respective weft insertion systems.
- the weft-insertion control unit controls, in accordance with the control values, the operations of the weft-insertion-related devices belonging to the respective weft insertion systems, thereby causing the weft-insertion-related devices to perform the weft insertion operation.
- the setting device performs the steps of reading control values for weft-insertion-related devices that are setting targets from control values included in weft insertion conditions stored in a storage device and corresponding to a selected selection number; and setting, in response to a generation of a setting command signal, the control values read in the reading step in the weft-insertion control unit as control values for the weft-insertion-related devices that are the setting targets in a weft insertion system corresponding to a designated selection number.
- the control values of the weft-insertion-related devices that are the setting targets may either be set in advance or not.
- the following features are preferably provided. That is, in the method for setting the weft insertion conditions, among the weft-insertion-related devices belonging to the respective weft insertion systems, the weft-insertion-related devices that are the setting targets for which the control values are to be set are individually or simultaneously selected by the operator before the step of reading the control values of the weft-insertion-related devices that are the setting targets.
- control values for weft-insertion-related devices stored in the storage device in association with a certain selection number can be readily set as control values for weft-insertion-related devices belonging to a weft insertion system corresponding to another selection number. Therefore, time and labor for changing the settings of the weft insertion conditions can be saved.
- the weft-insertion-related devices that are the setting targets for which the control values are to be set may be set in advance, and one or more of the weft-insertion-related devices may be selected.
- the setting process can be facilitated.
- the weft-insertion-related devices to be set as the setting targets can be individually selected. In such a case, only the control values that are necessary to be set can be set. However, it is often necessary to set the control values of all of the weft-insertion-related devices. Therefore, in addition to the above-described selecting function, a function of simultaneously selecting all of the weft-insertion-related devices as the setting targets may also be provided. In such a case, the process can be further facilitated in many cases.
- Fig. 1 illustrates the main section of a fluid jet (air jet) multi-color weft insertion loom as an example of a multi-color weft insertion loom to which the present invention is applied.
- a fluid jet (air jet) multi-color weft insertion loom as an example of a multi-color weft insertion loom to which the present invention is applied.
- weft insertion device 11 weft yarns 14 of colors C1, C2, ... are pulled out from respective yarn suppliers 13 supported by supplier stands 12, and are guided to the insides of, for example, yarn winding arms 16 included in drum-type measuring-and-storing devices 15.
- the yarn winding arms 16 rotate while the weft yarns 14 are retained by stopper pins 18 on outer peripheral surfaces of drums 17 in a stationary state, so that the weft yarns 14 are wound around the outer peripheral surfaces of the drums 17.
- a predetermined length of each weft yarn 14 necessary for a single cycle of weft insertion is wound around the corresponding drum 17 and is stored until weft insertion of the weft yarn 14 is executed.
- the operations of the measuring-and-storing devices 15 (rotating operations of the yarn winding arms 16 and the reciprocal operations of the stopper pins 18) and the operations of weft-insertion main nozzles 21, which will be described below, are performed by a weft insertion controller 44 in a weft-insertion control device 43 included in a loom control device 42.
- the operations are performed on the basis of the order of selection of the weft yarns 14 defined by a weft insertion pattern (also called a "weft selection pattern").
- the stopper pin 18 corresponding to the weft yarn 14 selected by the weft insertion controller 44 is removed from the outer peripheral surface of the corresponding drum 17 by an operating unit 19. Accordingly, the weft yarn 14 wound around the outer peripheral surface of the drum 17, that is, the predetermined length of weft yarn 14 which is necessary for a single cycle of weft insertion, is set to a releasable state on the drum 17.
- the weft-insertion main nozzle 21 corresponding to the selected weft yarn 14 performs an air ejection operation so that the weft yarn 14, which extends from the drum 17 and is inserted through a weft yarn brake 20 and the main nozzle 21, is released from the drum 17 and is subjected to weft insertion.
- the weft yarn brake 20, which is provided for each weft yarn 14, includes a pair of fixing guides 20a and 20a which guide the weft yarn 14 and which are spaced from each other and a movable guide 20b provided such that the movable guide 20b can reciprocate between the fixing guides 20a and 20a so as to bend the weft yarn 14.
- the movable guide 20b is reciprocated by an actuator 20c.
- the weft yarn brake 20 activates the actuator 20c so as to move the movable guide 20b into the space between the fixing guides 20a and 20a, so that the weft yarn 14 is bent and a braking force is applied to the weft yarn 14.
- breakage of the weft yarn 14 which occurs when the weft yarn 14 is restrained by the stopper pin 18 in the last stage of weft insertion can be prevented.
- the main nozzle 21 corresponding to the selected weft yarn 14 starts to eject compressed air toward a shed 25 of warp yarns 24.
- the ejection of the compressed air is continued for a set ejection period, so that the predetermined length of weft yarn 14 is inserted into the shed 25.
- the weft yarn 14 travels along a weft traveling path in the shed 25.
- the compressed air is supplied from a compressed air source 35 to a pressure regulator 36, which adjusts the pressure of the compressed air to a pressure suitable for weft insertion.
- the compressed air is supplied to the main nozzle 21 through an electromagnetic on-off valve 37.
- the electromagnetic on-off valve 37 is operated on the basis of the order of weft selection defined by the weft insertion pattern under the control of the weft insertion controller 44.
- the weft insertion device 11 shown in Fig. 1 is a four-color weft insertion device.
- the same number of yarn suppliers 13, measuring-and-storing devices 15, main nozzles 21, etc., as the number of colors (number of weft yarns) are provided and the weft yarns are subjected to weft insertion in the order of weft selection defined by the weft insertion pattern.
- a plurality of groups of sub-nozzles 22 are caused to eject compressed air into the weft traveling path in the traveling direction of the weft yarn 14 by performing simultaneous ejection or relay ejection of the compressed air.
- the compressed air is supplied from the compressed air source 35 to a pressure regulator 38, which adjusts the pressure of the compressed air to a suitable air pressure. Then, the compressed air is supplied to the sub-nozzles 22 of each group through electromagnetic on-off valves 39 provided for respective groups.
- the electromagnetic on-off valves 39 supply the compressed air to the corresponding groups of sub-nozzles 22 at set times under the control of the weft insertion controller 44, and causes the sub-nozzles 22 to eject the compressed air to accelerate the weft yarn 14 in the weft insertion direction.
- the above-described pressure regulator 38 for the sub-nozzles 22 may be a pressure regulating valve. However, in such a case, sufficient responsiveness cannot be obtained. Therefore, the pressure regulator 38 is preferably structured such that a selector valve can selectively switch between a plurality of flow passages which are provided with respective pressure regulating valves and the number of which corresponds to the number of weft insertion systems or the number of pressure values to be selected.
- the weft insertion of the weft yarn 14 is normally performed by the ejection operation performed by the main nozzle 21 and the groups of sub-nozzles 22, a beating up motion is performed in which the weft yarn 14 is beaten up against a cloth fell 29 of a woven cloth 28 by a reed 27.
- the weft yarn 14 is woven into the woven cloth 28.
- the weft yarn 14 is cut by a yarn cutter 30 at a weft insertion side, and is separated from the weft yarn 14 in the main nozzle 21.
- a first weft detection device (feeler) 31, a sensor (feeler head) 33 (hereinafter also referred to as a "first sensor”) of the first weft detection device 31, a second weft detection device (feeler) 32, and a sensor (feeler head) 34 (hereinafter also referred to as a "second sensor”) of the second weft detection device 32 are used for determining whether or not the weft insertion operation has been normally performed.
- the sensor 33 of the first weft detection device 31 is positioned such that the sensor 33 faces the weft traveling path in a region near the edge of the woven cloth 28 at a weft arrival side and such that the weft yarn 14 reaches the sensor 33 if the weft yarn 14 is normally inserted.
- the sensor 33 can detect the leading end of the weft yarn 14 if the weft yarn 14 is normally inserted.
- the detection is performed by comparing a level of a detection signal generated by the sensor 33 in a normal arrival time period (predetermined detection time period) of the weft yarn 14 with a reference signal level.
- the sensor 33 of the first weft detection device 31 can detect a weft insertion failure (short pick, bent pick, etc.) in which the leading end of the inserted weft yarn 14 does not reach the position of the first sensor 33.
- the detection period is generally set in terms of rotational angle of a main shaft 40.
- the first sensor 33 When the first sensor 33 detects an arrival of the weft yarn 14 within the above-described detection period, the first sensor 33 generates a corresponding output signal. At this time, the first weft detection device 31 generates a yarn signal S1 indicating that a normal weft insertion has been performed on the basis of the output signal from the first sensor 33, and transmits the yarn signal S1 to a main control unit 42a in the loom control device 42. The main control unit 42a continues the operation of the loom (weaving operation) under the condition that the yarn signal S1, which indicates that a normal weft insertion has been performed, is being obtained.
- the first weft detection device 31 determines that an abnormality has occurred in the weft insertion operation and outputs a weft stop signal (hereinafter also referred to as a "first weft stop signal") S2.
- the weft stop signal S2 is transmitted to the main control unit 42a.
- the main control unit 42a If the main control unit 42a receives the weft stop signal S2, the main control unit 42a immediately performs stop control and stops the loom at a predetermined angle.
- the sensor 34 of the second weft detection device 32 faces the weft traveling path at a position farther from the edge of the woven cloth 28 at the weft arrival side than the first sensor 33 in the weft insertion direction. More specifically, the sensor 34 is positioned such that the weft yarn 14 does not reach the sensor 34 if the weft yarn 14 is normally inserted.
- the sensor 34 is provided to detect a weft insertion failure such as breakage of the weft yarn 14 and long pick. The detection is performed by comparing a level of a detection signal generated by the second sensor 34 at an abnormal arrival time (arrival angle) of the weft yarn 14 in a detection period with a reference signal level.
- the detection period is generally set in terms of rotational angle of the main shaft 40.
- the second weft detection device 32 determines that an abnormality has occurred in the weft insertion operation and outputs a weft stop signal (hereinafter also referred to as a "second stop signal") S3.
- the weft stop signal S3 is transmitted to the main controller 42a.
- the main control unit 42a If the main control unit 42a receives the weft stop signal S3, the main control unit 42a immediately stops the loom at a predetermined angle, similar to the case in which the first weft stop signal S2 is received.
- the loom control device 42 controls the loom in synchronization with the rotation of the main shaft 40 of the loom and performs other necessary control operations.
- the loom control device 42 includes the main control unit 42a and the weft-insertion control unit 43 (which includes the weft insertion controller 44 and a weft-selection-signal generator 45).
- An encoder 41 is connected to the main shaft 40 to detect a rotational angle ⁇ of the main shaft 40. In the weaving operation, the encoder 41 generates a signal representing the rotational angle ⁇ of the main shaft 40, and outputs the signal to the main control unit 42a and to the weft insertion controller 44 and the weft-selection-signal generator 45 of the weft-insertion control unit 43.
- the main control unit 42a controls the main operation of the loom or the operation of stopping the loom on the basis of the signal representing the rotational angle ⁇ of the main shaft 40.
- the weft-selection-signal generator 45 in the weft-insertion control unit 43 determines the amount of rotation of the main shaft 40 from the rotational angle ⁇ , and selects one of the weft yarns 14 on the basis of the order of weft selection set in the weft insertion pattern. Then, the weft-selection-signal generator 45 generates a weft selection signal S8 corresponding to the selected weft yarn 14 and transmits the weft selection signal S8 to the weft insertion controller 44.
- the weft insertion controller 44 controls, in accordance with set control values, the operations of the measuring-and-storing device 15, the weft yarn brake 20, the main nozzle 21, and the sub-nozzles 22 which belong to the weft insertion system corresponding to the selected weft yarn 14 on the basis of the rotational angle ⁇ .
- the weft insertion operation of the selected weft yarn 14 is performed by the corresponding weft insertion system.
- the order of weft selection is set in the weft insertion pattern, to be accurate, the order of selection of the weft insertion systems (selection numbers assigned to the weft insertion systems) is set in the weft insertion pattern.
- the "weft insertion system” is a group of weft-insertion-related devices that operate in cooperation with each other to perform a single cycle of weft insertion.
- the "weft-insertion-related devices” are devices which are used in the weft insertion operation for the weft yarns 14 pulled out from the yarn suppliers 13 and which are positioned downstream of the yarn suppliers 13.
- the weft-insertion-related devices include the measuring-and-storing devices 15, the weft yarn brakes 20, the main nozzles 21, the sub-nozzles 22, and the first and second weft detection devices 31 and 32. Among these components, the sub-nozzles 22 and the first and second weft detection devices 31 and 32 are used in common between the weft insertion systems.
- the loom control device 42 described above may be structured as a combination of functional blocks.
- the loom control device 42 may be provided as a combination of devices provided as the blocks.
- predetermined software may be installed in a computer and be executed so that input/output means, storage means, and arithmetic/control means of the computer and the software cooperate with each other to provide the blocks, and the loom control device 42 may be provided as a combination of the thus-obtained blocks.
- a setting display device 46 which functions as a setting device and which is capable of two-way communication, is provided to exchange data of weaving conditions with the main control unit 42a and the weft-insertion control unit 43.
- the setting display device 46 includes an input display 47, a port 48, a memory 49 which functions as an internal storage unit, a central processing unit (CPU) 50 which functions as a processor, and a card reader 51 into which a memory card 52 that functions as a storage device (external storage unit) can be inserted.
- the port 48 receives data (including various signals) from the input display 47, the CPU 50, and the loom control device 42 and transmits data therebetween.
- the memory 49 is rewritable.
- the memory 49 stores a program for controlling the input display 47, which is a touch-panel display, and other necessary software and data.
- the CPU 50 is a so-called microprocessor and controls an input/output operation of the port 48 in accordance with predetermined software stored in the memory 49.
- the CPU 50 also controls the input display 47, reads predetermined data from the memory 49 or the memory card 52 in response to screen display requests from the input display 47, and causes the input display 47 to show the required display screen.
- the memory card 52 stores some of weft insertion conditions used in previous weaving operations. More specifically, the memory card 52 stores control values for the weft-insertion-related devices belonging to the weft insertion systems used in the previous weaving operations. The control values are stored in correspondence (association) with the selection numbers assigned to the weft insertion systems. The weft insertion conditions stored in the memory card 52 are transmitted to the memory 49 and the weft insertion controller 44 through the CPU 50 in response to the operation of the setting display device 46, and are s stored (set) therein.
- the input display 47 is a display device, and a portion of the display screen of the input display 47 functions as a touch-panel input device.
- the operator can input display requests, various commands, a command for setting the weft insertion conditions, etc., by touching display keys (display buttons) shown on the display screen.
- Fig. 2 illustrates an example of a display screen 53 displayed on the input display 47.
- the display screen 53 shown in Fig. 2 is a so-called touch-panel display, and shows display contents for setting the weft insertion conditions in the weft insertion controller 44 on a single screen.
- the display contents include display keys 54 to 62 which can be selected or designated (touched) by the operator.
- the display keys include display keys showing selection numbers for a transmission source, selection numbers for a transmission destination, and items (hereinafter referred to as "items of control values") that can be set as setting targets for which the control values are to be set in the weft insertion system corresponding to the selection number designated as the transmission destination.
- an execution key and a close key are also provided.
- the transmission source means the memory card 52 in the illustrated example, and the selection numbers of the transmission source are the selection numbers stored in the memory card 52 in association with the control values and assigned to the weft insertion systems for which the control values were used in previous weaving operations.
- the transmission destination means the weft insertion controller 44 of the loom in which the control values are to be set, and the selection numbers of the transmission destination are the selection numbers assigned to the respective weft insertion systems in the loom and set in the weft insertion controller 44.
- a plurality of display keys 54 showing the selection numbers of the transmission source and a plurality of display keys 63 showing the selection numbers of the transmission destination are collectively displayed to form display key groups 54a and 63a showing the selection numbers of the transmission source and the transmission destination, respectively.
- the display key group 54a showing the selection numbers of the transmission source and the display key group 63a showing the selection numbers of the transmission destination are separately disposed in the upper section of the display screen 53.
- the display key group 54a showing the selection numbers of the transmission source is shown in the upper right section of the display screen 53, and is labeled "CARD" at a position near the display key group 54a.
- the display key group 63a showing the selection numbers of the transmission destination is shown in the upper left section of the display screen 53, and is labeled "SETTING" at a position near the display key group 63a.
- One of the display keys 54 can be selected (provisionally selected) from the display key group 54a showing the selection numbers of the transmission source, and one of the display keys 63 can be selected (provisionally selected) from the display key group 63a showing the selection numbers of the transmission destination.
- the display keys 54 showing the selection numbers of the transmission source include yarn supplier marks 54b and selection numbers 54c which are different from each other and displayed in association with the yarn supplier marks 54b.
- the selection numbers 54c are assigned to (correspond to) the control values included in the weft insertion conditions stored in the memory card 52.
- the display keys 63 showing the selection numbers of the transmission destination also include yarn supplier marks 63b and selection numbers 63c which are different from each other and displayed in association with the yarn supplier marks 63b.
- the selection numbers 63c are assigned to the weft insertion systems controlled by the weft insertion controller 44 in the multi-color weft insertion loom, and are associated with the control values included in the weft insertion conditions to be set.
- the display in the illustrated example can be used for a weft insertion device 11 capable of performing weft insertion of eight colors of weft yarns 14 (eight weft yarns 14) at a maximum, which differs from the number of weft insertion systems actually included in the loom. Therefore, the display can be used in common between multiple kinds of looms.
- the display keys 54 showing the selection numbers of the transmission source are shown clearly to show that they are selectable.
- the weft insertion conditions stored in the memory card 52 have been used in a six-color weft insertion device 11.
- the display keys 63 showing the selection numbers of the transmission destination are shown clearly to show that they are selectable.
- the loom including the weft insertion controller 44, which is the transmission destination includes a four-color weft insertion device 11 including four weft insertion systems.
- the display keys 54 corresponding to selection numbers 7 and 8 in the display keys 54 showing the selection numbers of the transmission source and the display keys 63 corresponding to selection numbers 5 to 8 in the display keys 63 showing the selection numbers of the transmission destination are displayed with a low brightness to show that they cannot be selected or designated.
- the display keys 54 and 63 showing the selection numbers of the transmission source and the transmission destination are displayed in a certain manner (smudged or shaded) on the display screen to distinguish them from display keys that are not selected or designated.
- the display keys 55 to 60 showing the items of control values are displayed in a middle section of the display screen 53.
- the display keys 55 to 60 show the weft-insertion-related devices that can be selected as setting targets for which the control values (control values for controlling the weft-insertion-related devices that belong to the weft insertion systems) are set.
- the weft-insertion-related devices that can be selected as setting targets for which the control values are set include the main nozzles 21, the sub-nozzles 22, the weft yarn brakes 20 (display key: WBS key 57), the measuring-and-storing devices 15 (display key: feeder key 58), and the first and second weft feelers 31 and 32 (display key: feeler key 59).
- control values of the electromagnetic on-off valves 37 and 39 (display key: main/sub key 55) that control the ejection times and the pressure regulators 36 and 38 (display key: pressure key 56) that adjust the pressures are set.
- the control values of the weft-insertion-related devices displayed by the display keys will now be described.
- the control values of the main/sub key 55 are the ejection times (that is, on/off times of the electromagnetic on-off valves 37 and 39).
- the control values of the pressure key 56 are the ejection pressures (adjustment values of the pressure regulators 36 and 38) of the main and sub nozzles 21 and 22.
- the control values of the WBS key 57 define the operation mode of the actuator 20c for reciprocating the movable guides 20b.
- the control values of the feeder key 58 define the control mode (the amount of operation (the winding amount), the rotational speed, the acceleration and deceleration, etc.) of the drive motor for driving the yarn winding arms 16 in the measuring-and-storing devices 15.
- the control values of the feeler key 59 include control gains for processing the yarn signals from the first and second weft detection devices 31 and 32 and thresholds (reference signal levels) for determining whether or not weft insertion has been normally performed.
- the control values are set in the weft insertion controller 44.
- a display key (all key 60) for selecting all of the above-described display keys showing the weft-insertion-related devices is shown therebelow as one of the display keys of the items of control values.
- all of the five items (five weft-insertion-related devices) shown above the display key 59 are set to the selected state.
- a display key (execution key 61) is displayed in a lower section of the display screen 53.
- selection and designation (provisional selection and provisional designation) of the display keys 54 and 63 showing the selection numbers of the transmission source and the transmission destination and the selection (provisional selection) of the display keys 55 to 60 showing the items of control values are made effective (confirmed).
- the control values corresponding to the selected selection number of the transmission source are read into the setting display device 46 from the memory card 52 as the control values for the selected weft-insertion-related devices, and are set in the weft insertion controller 44 in association with the designated selection number of the transmission destination.
- Another display key (close key 62) is displayed in the lower section of the display screen 53.
- the display screen 53 for setting the weft insertion conditions (control values) in the weft insertion controller 44 by using the memory card 52 is closed and another display screen is presented.
- a display screen for inputting numerical values of the items of control values is presented, and the numerical values of the items of control values can be input in association with the selection numbers on this screen.
- the multi-color weft insertion loom is a four-color air jet loom in which four weft yarns 14 pulled out from respective yarn suppliers 13 are subjected to weft insertion by four weft insertion systems corresponding to the respective yarn supplies 13.
- Weft yarns C1, C2, C3, and C4 are used, and selection numbers 1, 2, 3, and 4 are assigned to the weft insertion systems corresponding to the weft yarns C1, C2, C3, and C4, respectively.
- the weft insertion systems corresponding to the selection numbers 1, 2, 3, and 4 are called the weft insertion systems 1, 2, 3, and 4, respectively.
- the control values of the weft-insertion-related devices used in weft insertion of the weft yarns C1 to C4 are set in the weft insertion controller 44 in association with the selection numbers 1, 2, 3, and 4 assigned to the weft insertion systems to which the weft-insertion-related devices belong.
- the control values included in the weft insertion conditions used in previous weaving operations are stored in the memory card 52 in association with the selection numbers (1 to 6).
- control values for the weft-insertion-related devices included in one of the four weft insertion systems used in the current weaving operation are read from the memory card 52 by the setting display device 46 and are set in the weft insertion controller 44. It is also assumed that the selection number of the transmission destination corresponding to the control values to be set in the weft insertion controller 44 differs from the selection number of the transmission source corresponding to the control values to be read from the memory card 52.
- control values for the weft-insertion-related devices belonging to weft insertion systems other than the weft insertion system 2 may be set in the weft insertion controller 44 by reading weft insertion conditions stored in another memory card or allowing the operator to input numerical control values.
- selection number 2 the control values stored in that card in association with selection number 2 are also set as the control values for the weft insertion system 2 in the weft insertion controller 44.
- the present invention is not limited to the above-described example.
- the weft-insertion-related devices set as the setting targets for which the control values are to be set are selected in step (5).
- this step may also be omitted, and a similar setting operation may be performed by steps (1), (2), (3), (4), and (6).
- the weft-insertion-related devices for which the control values are to be set are set in advance in the program as setting targets.
- steps (1) to (6) are performed in that order. However, the steps may also be performed in the order of (1), (2), (4), (5), (3), and (6).
- the weft insertion system for which the control values read from the storage device are to be set is designated and the selection number corresponding to the control values to be read from the storage device is selected. Then, the setting command signal is generated so that the control values are read from the storage device and are set in the weft insertion controller 44.
- the process of reading the control values from the storage device and the process of setting the control values in the weft insertion controller 44 may be separately performed as in the following steps (01) to (05).
- the memory card 52 is used as the storage device.
- the multi-color weft insertion loom may be connected to a host computer such that two-way communication can be performed therebetween, and a memory included in the host computer may be used as the storage device according to the present invention.
- desired control values may be read from the weft insertion conditions stored in this memory.
- the memory included in the loom control device 42 of the multi-color weft insertion loom may be structured such that the weft insertion conditions can be stored in and read out from the memory. In such a case, the desired control values may be selected and read from the weft insertion conditions stored in the memory.
- the input device of the input display 47 is not limited to the touch-panel input device, and may also be another kind of input device, such as a keyboard.
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Abstract
Description
- The present invention relates to a method for setting control values of a weft insertion device provided with a plurality of weft insertion systems in a multi-color weft insertion loom including the weft insertion device.
- In general, looms perform a single cycle of weft insertion by activating a plurality of weft-insertion-related devices (a measuring-and-storing device, a main nozzle, sub-nozzles, etc.) in cooperation with each other. This set of weft-insertion-related devices is referred to herein as a "weft insertion system."
- Multi-color weft insertion looms include a plurality of weft insertion systems, and a selection number is assigned to each of the weft insertion systems. For example, in a six-color weft insertion loom, one of selection numbers 1 to 6 is assigned to each of the weft insertion systems. A weft-insertion control device determines the weft insertion system to be activated on the basis of the selection number thereof.
- In general, the relationship between the weft-insertion-related devices and the weft insertion systems to which the weft-insertion-related devices belong is fixed. More specifically, in, for example, a six-color weft insertion loom including six measuring-and-storing devices f1 to f6 and six main nozzles n1 to n6, the measuring-and-storing device f1 and the main nozzle n1 belong to a weft insertion system 1 (selection number 1) and the measuring-and-storing device f2 and the main nozzle n2 belong to a weft insertion system 2 (selection number 2). In this manner, the relationship between the weft-insertion-related devices and the weft insertion systems is fixed. In other words, the measuring-and-storing device and the main nozzle included in the weft insertion system 1 of selection number 1 are the measuring-and-storing device f1 and the main nozzle n1, respectively, and it is not common to change, for example, only the main nozzle to the main nozzle n2.
- In such a multi-color weft insertion loom, control values are set in a weft-insertion control unit by a setting device as the weft insertion conditions in association with the selection numbers. The "control values" are values for controlling the weft-insertion-related devices which belong to the respective weft insertion systems, and are set in association with the selection numbers. The control values include, for example, an ejection pressure and an ejection time of each weft insertion nozzle; and an amount of operation and an operation time of a motor for driving a yarn winding arm of each measuring-and-storing device.
- The control values are determined in accordance with the types or the like of the weft yarns to be subjected to weft insertion by the respective weft insertion systems, and are set in association with the selection numbers assigned to the respective weft insertion systems. The operations of the weft-insertion-related devices which belong to the respective weft insertion systems are controlled under the weft insertion conditions set in the weft-insertion control unit so that a weft insertion operation is performed by the weft-insertion-related devices activated in cooperation with each other.
- According to the related art, in a process of setting the weft insertion conditions in the weft-insertion control unit or the like, the control values may be transmitted from an external recording medium, such as a memory card, in which the weft insertion conditions are stored or from a host computer connected to the loom. As an example of such a related art, Japanese Unexamined Patent Application Publication No.
2006-70410 - In addition, according to the related art, weaving conditions including the weft insertion conditions that have previously been set in an cloth weaving operation may be stored in a storage medium. Then, when the same type of cloth as the previously woven cloth is to be woven, all of the weaving conditions may be read from the storage medium and set in the weft-insertion control unit. In addition, there may also be a case in which cloth of a type different from that of the previously woven cloth is to be woven but some of the weft insertion conditions included in the previously set weaving conditions are to be set in the weft-insertion control unit. For example, there may be a case in which the conditions (control values) for one weft yarn (hereinafter called "weft yarn A") in weft yarns to be subjected to weft insertion are to be set to the same conditions (control values) as those set for the weft yarn A in a previously performed weaving operation. In such a case, it is desirable to read only the control values for weft insertion of the weft yarn A from the weft insertion conditions that are used in the previous weaving operation and stored in the storage medium. Then, the control values are set in the weft-insertion control unit.
- As described above, the control values included in the weft insertion conditions stored in the weft-insertion control unit of the loom are set in association with the selection numbers. Accordingly, the weft insertion conditions stored in the storage medium or the like are also set in association with the selection numbers. In the case where the weft insertion system (selection number) used to insert the weft yarn A in the current weaving operation is the same as that in the previous weaving operation, only the control values for the weft yarn A can be simply read from the recording medium and set in the weft-insertion control unit. However, in the case where the weft insertion system (selection number) used to insert the weft yarn A in the current weaving operation is different from that in the previous weaving operation, the control values for the weft yarn A cannot be simply read and set in the weft-insertion control unit as in the case where the selection number does not change between the current and previous weaving operations, and a more complex setting process is necessary.
- More specifically, in the case where weft insertion of the weft yarn A is performed by a weft insertion system corresponding to selection number 1 in the previous weaving operation, the control values for weft insertion of the weft yarn A are stored in association with selection number 1 in the storage device or the like. Therefore, if the control values are simply read and set in the weft-insertion control unit, the control values for weft insertion of the weft yarn A are set as control values for weft-insertion-related devices belonging to the weft insertion system corresponding to selection number 1. Therefore, in the case where, for example, weft insertion of the weft yarn A is performed by the weft insertion to be system corresponding to selection number 3 in the current weaving operation, the control values cannot be simply read from the storage medium or the like and set in the weft-insertion control unit. To set the control values for the weft yarn A, the control values read from the storage medium or the like must be provisionally set in the weft-insertion control unit, and then the thusset control values must be set as the control values for the weft insertion system corresponding to selection number 3 by using, for example, the copy function described in the above-described publication. Then, the control values for the weft insertion system corresponding to selection number 1 must be reset.
- An object of the present invention is to provide a multi-color weft insertion loom which allows specific control values of weft insertion conditions stored in a storage medium, which stores control values as weft insertion conditions in association with selection numbers, to be readily set in the weft-insertion control unit as control values corresponding to an arbitrary selection number.
- The present invention is applied to a method for setting weft insertion conditions in a multi-color weft insertion loom including a weft insertion device, a setting device, and a weft-insertion control unit. The weft insertion device includes two or more weft insertion systems which each include a plurality of weft-insertion-related devices that operate in a weft insertion operation. The setting device sets control values for controlling operations of the weft-insertion-related devices belonging to the respective weft insertion systems. The control values are set in advance in the weft-insertion control unit as the weft insertion conditions in association with selection numbers assigned to the respective weft insertion systems. The weft-insertion control unit controls, in accordance with the control values, the operations of the weft-insertion-related devices belonging to the respective weft insertion systems, thereby causing the weft-insertion-related devices to perform the weft insertion operation.
- In the method for setting the weft insertion conditions in the multi-color weft insertion loom, the setting device performs the steps of reading control values for weft-insertion-related devices that are setting targets from control values included in weft insertion conditions stored in a storage device and corresponding to a selected selection number; and setting, in response to a generation of a setting command signal, the control values read in the reading step in the weft-insertion control unit as control values for the weft-insertion-related devices that are the setting targets in a weft insertion system corresponding to a designated selection number.
- The control values of the weft-insertion-related devices that are the setting targets may either be set in advance or not. In order for the operator to easily recognize the weft-insertion-related devices which are set as the setting targets, the following features are preferably provided. That is, in the method for setting the weft insertion conditions, among the weft-insertion-related devices belonging to the respective weft insertion systems, the weft-insertion-related devices that are the setting targets for which the control values are to be set are individually or simultaneously selected by the operator before the step of reading the control values of the weft-insertion-related devices that are the setting targets.
- According to the method for setting the weft insertion conditions of the present invention, control values for weft-insertion-related devices stored in the storage device in association with a certain selection number can be readily set as control values for weft-insertion-related devices belonging to a weft insertion system corresponding to another selection number. Therefore, time and labor for changing the settings of the weft insertion conditions can be saved.
- In addition, in the method for setting the weft insertion conditions according to the present invention, among the weft-insertion-related devices belonging to the respective weft insertion systems, the weft-insertion-related devices that are the setting targets for which the control values are to be set may be set in advance, and one or more of the weft-insertion-related devices may be selected. In such a case, the setting process can be facilitated. In the selecting step, the weft-insertion-related devices to be set as the setting targets can be individually selected. In such a case, only the control values that are necessary to be set can be set. However, it is often necessary to set the control values of all of the weft-insertion-related devices. Therefore, in addition to the above-described selecting function, a function of simultaneously selecting all of the weft-insertion-related devices as the setting targets may also be provided. In such a case, the process can be further facilitated in many cases.
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Fig. 1 is a diagram illustrating the main section of a weft insertion device included in an air jet loom; and -
Fig. 2 is a diagram illustrating a display screen shown on a setting display device for setting weft insertion conditions in a weft-insertion controller. -
Fig. 1 illustrates the main section of a fluid jet (air jet) multi-color weft insertion loom as an example of a multi-color weft insertion loom to which the present invention is applied. Although only two weft insertion systems are shown inFig. 1 , it is assumed that a four-colorweft insertion device 11 including four weft insertion systems is provided, and the following description is based on this assumption. In theweft insertion device 11 shown inFig. 1 ,weft yarns 14 of colors C1, C2, ... are pulled out fromrespective yarn suppliers 13 supported by supplier stands 12, and are guided to the insides of, for example,yarn winding arms 16 included in drum-type measuring-and-storingdevices 15. Theyarn winding arms 16 rotate while theweft yarns 14 are retained bystopper pins 18 on outer peripheral surfaces ofdrums 17 in a stationary state, so that theweft yarns 14 are wound around the outer peripheral surfaces of thedrums 17. Thus, a predetermined length of eachweft yarn 14 necessary for a single cycle of weft insertion is wound around the correspondingdrum 17 and is stored until weft insertion of theweft yarn 14 is executed. - The operations of the measuring-and-storing devices 15 (rotating operations of the
yarn winding arms 16 and the reciprocal operations of the stopper pins 18) and the operations of weft-insertionmain nozzles 21, which will be described below, are performed by aweft insertion controller 44 in a weft-insertion control device 43 included in a loom control device 42. The operations are performed on the basis of the order of selection of theweft yarns 14 defined by a weft insertion pattern (also called a "weft selection pattern"). - At a weft-insertion start time, the
stopper pin 18 corresponding to theweft yarn 14 selected by theweft insertion controller 44 is removed from the outer peripheral surface of thecorresponding drum 17 by an operating unit 19. Accordingly, theweft yarn 14 wound around the outer peripheral surface of thedrum 17, that is, the predetermined length ofweft yarn 14 which is necessary for a single cycle of weft insertion, is set to a releasable state on thedrum 17. Then, the weft-insertionmain nozzle 21 corresponding to the selectedweft yarn 14 performs an air ejection operation so that theweft yarn 14, which extends from thedrum 17 and is inserted through aweft yarn brake 20 and themain nozzle 21, is released from thedrum 17 and is subjected to weft insertion. - The
weft yarn brake 20, which is provided for eachweft yarn 14, includes a pair of fixingguides weft yarn 14 and which are spaced from each other and a movable guide 20b provided such that the movable guide 20b can reciprocate between the fixing guides 20a and 20a so as to bend theweft yarn 14. The movable guide 20b is reciprocated by anactuator 20c. In the last stage of weft insertion, theweft yarn brake 20 activates the actuator 20c so as to move the movable guide 20b into the space between the fixing guides 20a and 20a, so that theweft yarn 14 is bent and a braking force is applied to theweft yarn 14. Thus, breakage of theweft yarn 14 which occurs when theweft yarn 14 is restrained by thestopper pin 18 in the last stage of weft insertion can be prevented. - At the set weft-insertion start time, the
main nozzle 21 corresponding to the selectedweft yarn 14 starts to eject compressed air toward ashed 25 ofwarp yarns 24. The ejection of the compressed air is continued for a set ejection period, so that the predetermined length ofweft yarn 14 is inserted into theshed 25. In this weft insertion operation, theweft yarn 14 travels along a weft traveling path in theshed 25. The compressed air is supplied from acompressed air source 35 to apressure regulator 36, which adjusts the pressure of the compressed air to a pressure suitable for weft insertion. Then, the compressed air is supplied to themain nozzle 21 through an electromagnetic on-offvalve 37. The electromagnetic on-offvalve 37 is operated on the basis of the order of weft selection defined by the weft insertion pattern under the control of theweft insertion controller 44. - As described above, the
weft insertion device 11 shown inFig. 1 is a four-color weft insertion device. In the case where multi-color weft insertion for two or more colors, for example, is to be performed, the same number ofyarn suppliers 13, measuring-and-storingdevices 15,main nozzles 21, etc., as the number of colors (number of weft yarns) are provided and the weft yarns are subjected to weft insertion in the order of weft selection defined by the weft insertion pattern. - While the inserted
weft yarn 14 travels along the weft traveling path in the shed 25, a plurality of groups ofsub-nozzles 22 are caused to eject compressed air into the weft traveling path in the traveling direction of theweft yarn 14 by performing simultaneous ejection or relay ejection of the compressed air. Thus, theweft yarn 14 is accelerated in the weft insertion direction. The compressed air is supplied from the compressedair source 35 to apressure regulator 38, which adjusts the pressure of the compressed air to a suitable air pressure. Then, the compressed air is supplied to thesub-nozzles 22 of each group through electromagnetic on-offvalves 39 provided for respective groups. In the weft insertion operation, the electromagnetic on-offvalves 39 supply the compressed air to the corresponding groups ofsub-nozzles 22 at set times under the control of theweft insertion controller 44, and causes the sub-nozzles 22 to eject the compressed air to accelerate theweft yarn 14 in the weft insertion direction. - The above-described
pressure regulator 38 for the sub-nozzles 22 may be a pressure regulating valve. However, in such a case, sufficient responsiveness cannot be obtained. Therefore, thepressure regulator 38 is preferably structured such that a selector valve can selectively switch between a plurality of flow passages which are provided with respective pressure regulating valves and the number of which corresponds to the number of weft insertion systems or the number of pressure values to be selected. - When the weft insertion of the
weft yarn 14 is normally performed by the ejection operation performed by themain nozzle 21 and the groups ofsub-nozzles 22, a beating up motion is performed in which theweft yarn 14 is beaten up against a cloth fell 29 of awoven cloth 28 by areed 27. Thus, theweft yarn 14 is woven into the wovencloth 28. Then, theweft yarn 14 is cut by ayarn cutter 30 at a weft insertion side, and is separated from theweft yarn 14 in themain nozzle 21. - A first weft detection device (feeler) 31, a sensor (feeler head) 33 (hereinafter also referred to as a "first sensor") of the first
weft detection device 31, a second weft detection device (feeler) 32, and a sensor (feeler head) 34 (hereinafter also referred to as a "second sensor") of the secondweft detection device 32 are used for determining whether or not the weft insertion operation has been normally performed. Thesensor 33 of the firstweft detection device 31 is positioned such that thesensor 33 faces the weft traveling path in a region near the edge of the wovencloth 28 at a weft arrival side and such that theweft yarn 14 reaches thesensor 33 if theweft yarn 14 is normally inserted. Thus, thesensor 33 can detect the leading end of theweft yarn 14 if theweft yarn 14 is normally inserted. The detection is performed by comparing a level of a detection signal generated by thesensor 33 in a normal arrival time period (predetermined detection time period) of theweft yarn 14 with a reference signal level. Thus, thesensor 33 of the firstweft detection device 31 can detect a weft insertion failure (short pick, bent pick, etc.) in which the leading end of the insertedweft yarn 14 does not reach the position of thefirst sensor 33. The detection period is generally set in terms of rotational angle of amain shaft 40. - When the
first sensor 33 detects an arrival of theweft yarn 14 within the above-described detection period, thefirst sensor 33 generates a corresponding output signal. At this time, the firstweft detection device 31 generates a yarn signal S1 indicating that a normal weft insertion has been performed on the basis of the output signal from thefirst sensor 33, and transmits the yarn signal S1 to amain control unit 42a in the loom control device 42. Themain control unit 42a continues the operation of the loom (weaving operation) under the condition that the yarn signal S1, which indicates that a normal weft insertion has been performed, is being obtained. - If the yarn signal S1 is not generated in the above-described detection period, that is, if a weft insertion failure occurs and the arrival of the
weft yarn 14 is not detected by thefirst sensor 33, the firstweft detection device 31 determines that an abnormality has occurred in the weft insertion operation and outputs a weft stop signal (hereinafter also referred to as a "first weft stop signal") S2. The weft stop signal S2 is transmitted to themain control unit 42a. - If the
main control unit 42a receives the weft stop signal S2, themain control unit 42a immediately performs stop control and stops the loom at a predetermined angle. - The
sensor 34 of the secondweft detection device 32 faces the weft traveling path at a position farther from the edge of the wovencloth 28 at the weft arrival side than thefirst sensor 33 in the weft insertion direction. More specifically, thesensor 34 is positioned such that theweft yarn 14 does not reach thesensor 34 if theweft yarn 14 is normally inserted. Thesensor 34 is provided to detect a weft insertion failure such as breakage of theweft yarn 14 and long pick. The detection is performed by comparing a level of a detection signal generated by thesecond sensor 34 at an abnormal arrival time (arrival angle) of theweft yarn 14 in a detection period with a reference signal level. The detection period is generally set in terms of rotational angle of themain shaft 40. If the secondweft detection device 32 receives an output signal from thesecond sensor 34 within the above-described detection period, the secondweft detection device 32 determines that an abnormality has occurred in the weft insertion operation and outputs a weft stop signal (hereinafter also referred to as a "second stop signal") S3. The weft stop signal S3 is transmitted to themain controller 42a. - If the
main control unit 42a receives the weft stop signal S3, themain control unit 42a immediately stops the loom at a predetermined angle, similar to the case in which the first weft stop signal S2 is received. - The loom control device 42 controls the loom in synchronization with the rotation of the
main shaft 40 of the loom and performs other necessary control operations. For this purpose, the loom control device 42 includes themain control unit 42a and the weft-insertion control unit 43 (which includes theweft insertion controller 44 and a weft-selection-signal generator 45). Anencoder 41 is connected to themain shaft 40 to detect a rotational angle θ of themain shaft 40. In the weaving operation, theencoder 41 generates a signal representing the rotational angle θ of themain shaft 40, and outputs the signal to themain control unit 42a and to theweft insertion controller 44 and the weft-selection-signal generator 45 of the weft-insertion control unit 43. - The
main control unit 42a controls the main operation of the loom or the operation of stopping the loom on the basis of the signal representing the rotational angle θ of themain shaft 40. The weft-selection-signal generator 45 in the weft-insertion control unit 43 determines the amount of rotation of themain shaft 40 from the rotational angle θ, and selects one of theweft yarns 14 on the basis of the order of weft selection set in the weft insertion pattern. Then, the weft-selection-signal generator 45 generates a weft selection signal S8 corresponding to the selectedweft yarn 14 and transmits the weft selection signal S8 to theweft insertion controller 44. Theweft insertion controller 44 controls, in accordance with set control values, the operations of the measuring-and-storingdevice 15, theweft yarn brake 20, themain nozzle 21, and the sub-nozzles 22 which belong to the weft insertion system corresponding to the selectedweft yarn 14 on the basis of the rotational angle θ. Thus, the weft insertion operation of the selectedweft yarn 14 is performed by the corresponding weft insertion system. - Although it is explained above that the order of weft selection is set in the weft insertion pattern, to be accurate, the order of selection of the weft insertion systems (selection numbers assigned to the weft insertion systems) is set in the weft insertion pattern.
- The "weft insertion system" is a group of weft-insertion-related devices that operate in cooperation with each other to perform a single cycle of weft insertion. In addition, the "weft-insertion-related devices" are devices which are used in the weft insertion operation for the
weft yarns 14 pulled out from theyarn suppliers 13 and which are positioned downstream of theyarn suppliers 13. The weft-insertion-related devices include the measuring-and-storingdevices 15, theweft yarn brakes 20, themain nozzles 21, the sub-nozzles 22, and the first and secondweft detection devices weft detection devices - The loom control device 42 described above may be structured as a combination of functional blocks. The loom control device 42 may be provided as a combination of devices provided as the blocks. Alternatively, predetermined software may be installed in a computer and be executed so that input/output means, storage means, and arithmetic/control means of the computer and the software cooperate with each other to provide the blocks, and the loom control device 42 may be provided as a combination of the thus-obtained blocks.
- A setting display device 46, which functions as a setting device and which is capable of two-way communication, is provided to exchange data of weaving conditions with the
main control unit 42a and the weft-insertion control unit 43. - The setting display device 46 includes an
input display 47, aport 48, amemory 49 which functions as an internal storage unit, a central processing unit (CPU) 50 which functions as a processor, and acard reader 51 into which amemory card 52 that functions as a storage device (external storage unit) can be inserted. Theport 48 receives data (including various signals) from theinput display 47, theCPU 50, and the loom control device 42 and transmits data therebetween. - The
memory 49 is rewritable. Thememory 49 stores a program for controlling theinput display 47, which is a touch-panel display, and other necessary software and data. - The
CPU 50 is a so-called microprocessor and controls an input/output operation of theport 48 in accordance with predetermined software stored in thememory 49. TheCPU 50 also controls theinput display 47, reads predetermined data from thememory 49 or thememory card 52 in response to screen display requests from theinput display 47, and causes theinput display 47 to show the required display screen. - The
memory card 52 stores some of weft insertion conditions used in previous weaving operations. More specifically, thememory card 52 stores control values for the weft-insertion-related devices belonging to the weft insertion systems used in the previous weaving operations. The control values are stored in correspondence (association) with the selection numbers assigned to the weft insertion systems. The weft insertion conditions stored in thememory card 52 are transmitted to thememory 49 and theweft insertion controller 44 through theCPU 50 in response to the operation of the setting display device 46, and are s stored (set) therein. - The
input display 47 is a display device, and a portion of the display screen of theinput display 47 functions as a touch-panel input device. The operator can input display requests, various commands, a command for setting the weft insertion conditions, etc., by touching display keys (display buttons) shown on the display screen. -
Fig. 2 illustrates an example of adisplay screen 53 displayed on theinput display 47. Thedisplay screen 53 shown inFig. 2 is a so-called touch-panel display, and shows display contents for setting the weft insertion conditions in theweft insertion controller 44 on a single screen. The display contents includedisplay keys 54 to 62 which can be selected or designated (touched) by the operator. The display keys (display buttons) include display keys showing selection numbers for a transmission source, selection numbers for a transmission destination, and items (hereinafter referred to as "items of control values") that can be set as setting targets for which the control values are to be set in the weft insertion system corresponding to the selection number designated as the transmission destination. In addition, an execution key and a close key are also provided. Each of the display keys will be described in detail. In the following description, the transmission source means thememory card 52 in the illustrated example, and the selection numbers of the transmission source are the selection numbers stored in thememory card 52 in association with the control values and assigned to the weft insertion systems for which the control values were used in previous weaving operations. In addition, the transmission destination means theweft insertion controller 44 of the loom in which the control values are to be set, and the selection numbers of the transmission destination are the selection numbers assigned to the respective weft insertion systems in the loom and set in theweft insertion controller 44. - A plurality of
display keys 54 showing the selection numbers of the transmission source and a plurality ofdisplay keys 63 showing the selection numbers of the transmission destination are collectively displayed to form displaykey groups key group 54a showing the selection numbers of the transmission source and the displaykey group 63a showing the selection numbers of the transmission destination are separately disposed in the upper section of thedisplay screen 53. InFig. 2 , the displaykey group 54a showing the selection numbers of the transmission source is shown in the upper right section of thedisplay screen 53, and is labeled "CARD" at a position near the displaykey group 54a. Similarly, the displaykey group 63a showing the selection numbers of the transmission destination is shown in the upper left section of thedisplay screen 53, and is labeled "SETTING" at a position near the displaykey group 63a. One of thedisplay keys 54 can be selected (provisionally selected) from the displaykey group 54a showing the selection numbers of the transmission source, and one of thedisplay keys 63 can be selected (provisionally selected) from the displaykey group 63a showing the selection numbers of the transmission destination. - The
display keys 54 showing the selection numbers of the transmission source include yarn supplier marks 54b andselection numbers 54c which are different from each other and displayed in association with the yarn supplier marks 54b. The selection numbers 54c are assigned to (correspond to) the control values included in the weft insertion conditions stored in thememory card 52. - The
display keys 63 showing the selection numbers of the transmission destination also include yarn supplier marks 63b andselection numbers 63c which are different from each other and displayed in association with the yarn supplier marks 63b. The selection numbers 63c are assigned to the weft insertion systems controlled by theweft insertion controller 44 in the multi-color weft insertion loom, and are associated with the control values included in the weft insertion conditions to be set. - Referring to
Fig. 2 , in the displaykey groups display keys 54 and eightdisplay keys 63 are arranged in two rows and four columns. Therefore, the display in the illustrated example can be used for aweft insertion device 11 capable of performing weft insertion of eight colors of weft yarns 14 (eight weft yarns 14) at a maximum, which differs from the number of weft insertion systems actually included in the loom. Therefore, the display can be used in common between multiple kinds of looms. - In the display screen, among the
display keys 54 showing the selection numbers of the transmission source, thedisplay keys 54 corresponding to selection numbers 1 to 6 are shown clearly to show that they are selectable. This shows that the weft insertion conditions stored in thememory card 52 have been used in a six-colorweft insertion device 11. In addition, among thedisplay keys 63 showing the selection numbers of the transmission destination, thedisplay keys 63 corresponding to selection numbers 1 to 4 are shown clearly to show that they are selectable. This shows that the loom including theweft insertion controller 44, which is the transmission destination, includes a four-colorweft insertion device 11 including four weft insertion systems. In addition, thedisplay keys 54 corresponding to selection numbers 7 and 8 in thedisplay keys 54 showing the selection numbers of the transmission source and thedisplay keys 63 corresponding to selection numbers 5 to 8 in thedisplay keys 63 showing the selection numbers of the transmission destination are displayed with a low brightness to show that they cannot be selected or designated. In addition, among thedisplay keys display keys - The
display keys 55 to 60 showing the items of control values are displayed in a middle section of thedisplay screen 53. Thedisplay keys 55 to 60 show the weft-insertion-related devices that can be selected as setting targets for which the control values (control values for controlling the weft-insertion-related devices that belong to the weft insertion systems) are set. In the illustrated example, the weft-insertion-related devices that can be selected as setting targets for which the control values are set include themain nozzles 21, the sub-nozzles 22, the weft yarn brakes 20 (display key: WBS key 57), the measuring-and-storing devices 15 (display key: feeder key 58), and the first andsecond weft feelers 31 and 32 (display key: feeler key 59). With regard to themain nozzles 21 and the sub-nozzles 22, the control values of the electromagnetic on-offvalves 37 and 39 (display key: main/sub key 55) that control the ejection times and thepressure regulators 36 and 38 (display key: pressure key 56) that adjust the pressures are set. - The control values of the weft-insertion-related devices displayed by the display keys will now be described. The control values of the main/
sub key 55 are the ejection times (that is, on/off times of the electromagnetic on-offvalves 37 and 39). The control values of the pressure key 56 are the ejection pressures (adjustment values of thepressure regulators 36 and 38) of the main andsub nozzles feeder key 58 define the control mode (the amount of operation (the winding amount), the rotational speed, the acceleration and deceleration, etc.) of the drive motor for driving theyarn winding arms 16 in the measuring-and-storingdevices 15. The control values of the feeler key 59 include control gains for processing the yarn signals from the first and secondweft detection devices weft insertion controller 44. - Selection of the weft-insertion-related devices as the setting targets is performed by touching the corresponding display keys. However, at this time, the selection is provisional.
- In the illustrated example, a display key (all key 60) for selecting all of the above-described display keys showing the weft-insertion-related devices is shown therebelow as one of the display keys of the items of control values. When the operator touches this
display key 60, all of the five items (five weft-insertion-related devices) shown above thedisplay key 59 are set to the selected state. - A display key (execution key 61) is displayed in a lower section of the
display screen 53. When thisdisplay key 61 is selected, selection and designation (provisional selection and provisional designation) of thedisplay keys display keys 55 to 60 showing the items of control values are made effective (confirmed). Then, the control values corresponding to the selected selection number of the transmission source are read into the setting display device 46 from thememory card 52 as the control values for the selected weft-insertion-related devices, and are set in theweft insertion controller 44 in association with the designated selection number of the transmission destination. - Another display key (close key 62) is displayed in the lower section of the
display screen 53. When thisdisplay key 62 is selected, thedisplay screen 53 for setting the weft insertion conditions (control values) in theweft insertion controller 44 by using thememory card 52 is closed and another display screen is presented. For example, a display screen for inputting numerical values of the items of control values is presented, and the numerical values of the items of control values can be input in association with the selection numbers on this screen. - A method for setting the weft insertion conditions in the multi-color weft insertion loom will now be described on the basis of the following assumption. That is, the multi-color weft insertion loom is a four-color air jet loom in which four
weft yarns 14 pulled out fromrespective yarn suppliers 13 are subjected to weft insertion by four weft insertion systems corresponding to the respective yarn supplies 13. Weft yarns C1, C2, C3, and C4 are used, andselection numbers selection numbers weft insertion systems weft insertion controller 44 in association with theselection numbers memory card 52 in association with the selection numbers (1 to 6). - In this example, it is assumed that the control values for the weft-insertion-related devices included in one of the four weft insertion systems used in the current weaving operation are read from the
memory card 52 by the setting display device 46 and are set in theweft insertion controller 44. It is also assumed that the selection number of the transmission destination corresponding to the control values to be set in theweft insertion controller 44 differs from the selection number of the transmission source corresponding to the control values to be read from thememory card 52. - On the basis of the above-described assumption, an operation of reading the control values stored in association with selection number 3 from the weft insertion conditions stored in the
memory card 52 and setting the thus-obtained control values in theweft insertion controller 44 as the control values for the weft-insertion-related devices included in theweft insertion system 2 will be described with reference to steps (1) to (6). Control values for the weft-insertion-related devices belonging to weft insertion systems other than the weft insertion system 2 (selection number 2) may be set in theweft insertion controller 44 by reading weft insertion conditions stored in another memory card or allowing the operator to input numerical control values. In the case where the weft insertion conditions are read from a memory card, the control values stored in that card in association withselection number 2 are also set as the control values for theweft insertion system 2 in theweft insertion controller 44. - (1) The
memory card 52, in which the weft insertion conditions are stored, is inserted into thecard reader 51 in the setting display device 46. - (2) The
input display 47 included in the setting display device 46 is operated such that thedisplay screen 53 shown inFig. 2 is displayed on theinput display 47. Thedisplay screen 53 is used to set the weft insertion conditions (control values) in theweft insertion controller 44 by using thememory card 52. - (3)
Selection number 2 is designated as the selection number corresponding to the weft insertion system for which the control values are to be set in theweft insertion controller 44. More specifically, in the displaykey group 63a that is displayed in the upper left section of thedisplay screen 53 and that shows the selection numbers of the transmission destination, the operator touches the selection number (display key labeled "2" in the illustrated example) corresponding to the weft insertion system for which the control values are to be set. As a result, the selection number is set in a designated (provisionally designated) state. At this time, a provisional destination signal is output from theinput display 47 to theCPU 50 through theport 48. - (4) Selection number 3 is selected as the selection number corresponding to the control values that are to be read from the
memory card 52. More specifically, in the displaykey group 54a that is displayed in the upper right section of thedisplay screen 53 and that shows the selection numbers of the transmission source, the operator touches the selection number (display key labeled "3" in the illustrated example) corresponding to the control values to be read. As a result, the selection number is set in a selected (provisionally selected) state. At this time, a provisional selection signal is output from theinput display 47 to theCPU 50 through theport 48. - (5) The weft-insertion-related devices for which the control values are to be set are selected. More specifically, the operator touches the
display keys 55 to 60 that are displayed in the middle section of thedisplay screen 53 and that show the items of control values corresponding to the respective weft-insertion-related devices, so that the corresponding weft-insertion-related devices are set to the selected state. In thedisplay screen 53, the operator may touch the "all" key 60. In such a case, all of the weft-insertion-related devices belonging to the selected weft insertion system (selection number) are simultaneously set to the selected state. In the following description, it is assumed that the "all" key has been touched. Accordingly, a provisional selection signal is output from theinput display 47 to theCPU 50 through theport 48. - (6) Then, an execution operation is performed to make the provisional selection and provisional designation effective, and a setting command signal is generated in response to the execution operation. Accordingly, the control values of the setting targets corresponding to selection number 3 are read from the
memory card 52 and are set in theweft insertion controller 44 as the control values forselection number 2. More specifically, when the operator touches the "execution" key 61 shown in the lower section of thedisplay screen 53, the setting command signal is output from theinput display 47 to theCPU 50 through theport 48. When theCPU 50 receives the setting command signal, theCPU 50 determines that the provisional selection and provisional designation are effective. The setting command signal also functions as a reading command signal, so that the control values are read out to theCPU 50 from thememory card 52 and are set in theweft insertion controller 44. - The present invention is not limited to the above-described example. For example, in the above-described example, the weft-insertion-related devices set as the setting targets for which the control values are to be set are selected in step (5). However, this step may also be omitted, and a similar setting operation may be performed by steps (1), (2), (3), (4), and (6). In this case, it is assumed that the weft-insertion-related devices for which the control values are to be set are set in advance in the program as setting targets.
- In addition, in the above-described example, steps (1) to (6) are performed in that order. However, the steps may also be performed in the order of (1), (2), (4), (5), (3), and (6).
- In addition, in the above-described example, first, the weft insertion system for which the control values read from the storage device are to be set is designated and the selection number corresponding to the control values to be read from the storage device is selected. Then, the setting command signal is generated so that the control values are read from the storage device and are set in the
weft insertion controller 44. However, instead of performing the above-described operation, the process of reading the control values from the storage device and the process of setting the control values in theweft insertion controller 44 may be separately performed as in the following steps (01) to (05). - (01) The selection number corresponding to the control values to be read from the storage device is selected by the operator.
- (02) In response to a generation of a reading command signal based on the selection, the setting display device 46 reads control values corresponding to the selected selection number from the storage device. In this case, a display key (button) dedicated to the reading command is provided.
- (03) The control values read in step (02) are stored in the
memory 49 included in the setting display device 46 or the like. - (04) The weft insertion system (selection number) for which the control values read from the storage device are to be set is designated by the operator.
- (05) In response to a generation of a setting command signal based on the designation, the control values stored in the memory in step (03) are set in the
weft insertion controller 44 by the setting display device 46 as the control values for the selection number designated in step (04). - In the present embodiment, the
memory card 52 is used as the storage device. However, the present invention is not limited to this. For example, the multi-color weft insertion loom may be connected to a host computer such that two-way communication can be performed therebetween, and a memory included in the host computer may be used as the storage device according to the present invention. In this case, desired control values may be read from the weft insertion conditions stored in this memory. Alternatively, the memory included in the loom control device 42 of the multi-color weft insertion loom may be structured such that the weft insertion conditions can be stored in and read out from the memory. In such a case, the desired control values may be selected and read from the weft insertion conditions stored in the memory. - The input device of the
input display 47 is not limited to the touch-panel input device, and may also be another kind of input device, such as a keyboard.
Claims (2)
- A method for setting weft insertion conditions in a multi-color weft insertion loom including a weft insertion device (11), a setting device (46), and a weft-insertion control unit (43), the weft insertion device (11) including two or more weft insertion systems which each include a plurality of weft-insertion-related devices that operate in a weft insertion operation, the setting device (46) setting control values for controlling operations of the weft-insertion-related devices belonging to the respective weft insertion systems, the control values being set in advance in the weft-insertion control unit (43) as the weft insertion conditions in association with selection numbers assigned to the respective weft insertion systems, the weft-insertion control unit (43) controlling, in accordance with the control values, the operations of the weft-insertion-related devices belonging to the respective weft insertion systems, thereby causing the weft-insertion-related devices to perform the weft insertion operation,
wherein the setting device (46) performs the steps of:reading control values for weft-insertion-related devices that are setting targets from control values included in weft insertion conditions stored in a storage device and corresponding to a selected selection number; andsetting, in response to a generation of a setting command signal, the control values read in the reading step in the weft-insertion control unit (43) as control values for the weft-insertion-related devices that are the setting targets in a weft insertion system corresponding to a designated selection number. - The method according to claim 1, wherein, among the weft-insertion-related devices belonging to the respective weft insertion systems, the weft-insertion-related devices that are the setting targets for which the control values are to be set are individually or simultaneously selected by the operator before the step of reading the control values of the weft-insertion-related devices that are the setting targets.
Applications Claiming Priority (1)
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JP2009055185A JP2010209485A (en) | 2009-03-09 | 2009-03-09 | Method for setting weft-insertion conditions in multi-color weft insertion loom |
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EP2228470A2 true EP2228470A2 (en) | 2010-09-15 |
EP2228470A3 EP2228470A3 (en) | 2013-10-30 |
EP2228470B1 EP2228470B1 (en) | 2021-08-18 |
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EP10000818.4A Active EP2228470B1 (en) | 2009-03-09 | 2010-01-27 | Method for setting weft-insertion conditions in multi-color weft insertion loom |
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EP (1) | EP2228470B1 (en) |
JP (1) | JP2010209485A (en) |
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CN102071519B (en) * | 2010-11-26 | 2012-09-05 | 浙江三禾纺织机械有限公司 | Numerical control system for water jet loom |
JP7359049B2 (en) | 2020-03-17 | 2023-10-11 | 株式会社豊田自動織機 | Air jet loom weft brake control device |
Citations (1)
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JP2006070410A (en) | 2004-09-06 | 2006-03-16 | Tsudakoma Corp | Method for setting set value in weaving machine |
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CN1003873B (en) * | 1985-06-06 | 1989-04-12 | 株式会社丰田自动机械制作所 | Method and apparatus for monitoring weft insertion in a fluid jet loom |
US5276627A (en) * | 1989-06-21 | 1994-01-04 | Kabushiki Kaisha Toyoda Jidoshokki Seisakusho | Method of setting weaving conditions for a jet loom |
CN1069302A (en) * | 1991-08-12 | 1993-02-24 | 日产自动车株式会社 | Fluid jet loom and method of operating thereof |
JP4022136B2 (en) * | 2002-12-10 | 2007-12-12 | 津田駒工業株式会社 | Calculation method of weft launch timing and setting method of weft insertion condition |
CN1702215B (en) * | 2004-05-24 | 2011-05-18 | 津田驹工业株式会社 | Weft-insertion-condition display unit for loom |
-
2009
- 2009-03-09 JP JP2009055185A patent/JP2010209485A/en not_active Withdrawn
-
2010
- 2010-01-27 EP EP10000818.4A patent/EP2228470B1/en active Active
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JP2006070410A (en) | 2004-09-06 | 2006-03-16 | Tsudakoma Corp | Method for setting set value in weaving machine |
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CN101838881A (en) | 2010-09-22 |
EP2228470B1 (en) | 2021-08-18 |
EP2228470A3 (en) | 2013-10-30 |
JP2010209485A (en) | 2010-09-24 |
CN101838881B (en) | 2014-08-27 |
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