EP1580308B1 - Dispositif et procédé de commande de démarrage pour métier à tisser - Google Patents
Dispositif et procédé de commande de démarrage pour métier à tisser Download PDFInfo
- Publication number
- EP1580308B1 EP1580308B1 EP05003151A EP05003151A EP1580308B1 EP 1580308 B1 EP1580308 B1 EP 1580308B1 EP 05003151 A EP05003151 A EP 05003151A EP 05003151 A EP05003151 A EP 05003151A EP 1580308 B1 EP1580308 B1 EP 1580308B1
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- EP
- European Patent Office
- Prior art keywords
- weft
- loom
- elasticity
- blank
- selection
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- 238000000034 method Methods 0.000 title claims description 131
- 238000003780 insertion Methods 0.000 claims description 95
- 238000010009 beating Methods 0.000 claims description 80
- 239000004744 fabric Substances 0.000 claims description 46
- 230000037431 insertion Effects 0.000 claims description 41
- 230000003213 activating effect Effects 0.000 claims description 5
- 230000008569 process Effects 0.000 description 20
- 238000009941 weaving Methods 0.000 description 14
- 230000007547 defect Effects 0.000 description 11
- 230000004913 activation Effects 0.000 description 9
- 230000008602 contraction Effects 0.000 description 7
- 230000006870 function Effects 0.000 description 7
- 238000010586 diagram Methods 0.000 description 6
- 238000004804 winding Methods 0.000 description 4
- 239000002759 woven fabric Substances 0.000 description 4
- 230000000452 restraining effect Effects 0.000 description 3
- 235000014676 Phragmites communis Nutrition 0.000 description 2
- 230000002950 deficient Effects 0.000 description 2
- 238000011156 evaluation Methods 0.000 description 2
- 238000002360 preparation method Methods 0.000 description 2
- 230000002265 prevention Effects 0.000 description 2
- 230000007420 reactivation Effects 0.000 description 2
- 238000011084 recovery Methods 0.000 description 2
- 230000002159 abnormal effect Effects 0.000 description 1
- 238000006243 chemical reaction Methods 0.000 description 1
- 238000001514 detection method Methods 0.000 description 1
- 238000006073 displacement reaction Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 239000012530 fluid Substances 0.000 description 1
- 230000007246 mechanism Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000008439 repair process Effects 0.000 description 1
- 230000004044 response Effects 0.000 description 1
- 230000001360 synchronised effect Effects 0.000 description 1
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 1
Images
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
-
- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D51/00—Driving, starting, or stopping arrangements; Automatic stop motions
- D03D51/002—Avoiding starting marks
-
- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D51/00—Driving, starting, or stopping arrangements; Automatic stop motions
- D03D51/007—Loom optimisation
Definitions
- the present invention relates to a technique for preventing light filling bars caused by an insufficient beating force at the start of operation of a loom by executing a so-called blank beating start.
- a reverse rotation and operation without weft insertion are performed before starting weft insertion.
- the present invention relates to a technique for preventing fabric defects caused when the blank beating start is executed irrespective of the characteristics of the weft.
- weft bars are easily generated when restarting the operation of the loom.
- weft insertion is started after a drive operation signal is generated, the loom is activated, and beat-up motion is performed, weft bars are generated because the beating force immediately after the activation is weaker than that during steady operation.
- a loom activation method called a blank beating start is disclosed in Japanese Unexamined Patent Application Publication No. 61-124651 .
- a motor in the loom is rotated in the reverse direction by a predetermined amount, and then the main shaft of the loom is activated in the forward direction and is rotated in the forward direction by the same amount as the previous reverse rotation while performing blank beating, which is beat-up motion without weft insertion. Then, weft insertion is started.
- the above-mentioned starting methods are selectively used depending on the conditions of the weft bars.
- a selvedge device which supplies selvedge yarns for restraining weft at the side edges of woven fabric to form selvedges also operates in the reverse direction. Therefore, a weft yarn positioned at a cloth fell upon reactivation receives no restraining force from the selvedge yarns or warp.
- the starting methods including a blank beating start involving a reverse operation and a normal start, is known from EP 1285984 A2 .
- an object of the present invention is to control the activation of a loom depending on whether or not the weft yarn has elasticity .
- the loom is activated with a starting method which does not involve the reverse operation depending on the characteristics of the weft, more specifically, when the weft has elasticity.
- a start control apparatus of a loom includes a control unit which selects one of a plurality of starting methods and operates the loom in accordance with the selected starting method when a drive operation signal is input; and a weft-insertion control unit which selectively inserts one of a plurality of kinds of weft in accordance with information regarding weft selection while the loom is in operation.
- the starting methods include a normal start and a blank beating start in which a loom main shaft is rotated in a reverse direction by a predetermined amount, beat-up motion is performed without weft insertion while activating the loom, and then weft insertion is started, the amount of reverse rotation in the blank beating start being set such that a weft yarn positioned at a cloth fell is released from warp yarns.
- the drive operation signal is generated, whether or not the weft yarn positioned at the cloth fell has elasticity is determined on the basis of the information regarding weft selection, and the normal start is executed if it is determined that the weft yarn has elasticity.
- the information regarding weft selection includes not only weft selection information but also a weft-insertion pick number (count value) on the basis of which a weft selection signal is generated.
- the information regarding the elasticity of the weft includes not only information which directly shows the elasticity, such as a twist direction, the number of twists per unit length, and whether or not an elasticizing process has been performed, but also information which indirectly reflects the above-mentioned information, such as a part number of a weft supplier.
- the information regarding the elasticity of the weft also includes information showing the degree of elasticity in addition to the presence/absence thereof. An evaluation criterion for the elasticity may be adequately set depending on the kind of the weft such that fabric defects can be prevented.
- the information regarding the elasticity may be manually input by the operator, read out from a memory medium such as a memory card, or automatically set via a loom management computer connected to the loom.
- the first aspect in looms of a multicolor weft insertion type in which multiple kinds of weft are selectively inserted in accordance with the weft selection information corresponding to the weft-insertion pick number, when a drive operation signal is generated, whether or not a weft yarn positioned at the cloth fell has elasticity can be determined on the basis of the information regarding weft selection such as the weft selection signal and the weft-insertion pick number. Accordingly, when the drive operation signal of the loom is generated, if the weft yarn has elasticity according to the result of the above-described determination, the normal start which does not involve the reverse rotation is executed instead of the blank beating start which involves the reverse rotation.
- either one of the blank beating start which involves the reverse rotation or the normal start may be executed. Accordingly, fabric defects caused when the blank beating start is executed and the loom main shaft is rotated in the reverse rotation at the start of operation since the weft yarn having elasticity contracts by being released from the warp are prevented.
- the normal start executed instead of the blank beating start may be performed manually. More specifically, the operator may visually check the result of determination and operate the loom by pressing an operation button selected from among a plurality of operation buttons provided in correspondence with the starting methods. Alternatively, it may also be automatically determined whether or not the blank beating start is adequate when the operator presses the operation button, and the loom may be operated with a starting method corresponding to the result of determination.
- the control unit determines whether or not the weft yarn positioned at the cloth fell has elasticity on the basis of the information regarding weft selection, and executes the normal start when the weft yarn is determined to have elasticity. If the weft yarn is determined to have no elasticity, either one of the blank beating start or the normal start may be selected as the starting method, and the starting method is adequately set depending on the specifics of the fabric.
- a start control apparatus of a loom includes a setting unit to which selection information for selecting one of a plurality of starting methods and information regarding elasticity of weft are input; and a control unit which operates the loom in accordance with the selected starting method when a drive operation signal is input.
- the starting methods include a normal start and a blank beating start in which a loom main shaft is rotated in a reverse direction by a predetermined amount, beat-up motion is performed without weft insertion while activating the loom, and then weft insertion is started, the amount of reverse rotation in the blank beating start being set such that a weft yarn positioned at a cloth fell is released from warp yarns.
- one of the setting unit and the control unit determines whether or not to restrict the selection of the blank beating start on the basis of the input information regarding the elasticity of the weft.
- whether or not the selection of the blank beating start is to be restricted is automatically determined on the basis of the information regarding the elasticity of the weft input to the setting unit. Therefore, when the weft having elasticity is used, the normal start, which is the substitute starting method for the blank beating start, may be executed in accordance with the result of determination. Accordingly, similar to the first aspect, unlike the known system, fabric defects caused by the contraction of the weft yarn when the blank beating start is performed (that is, when the reverse rotation of the loom main shaft is performed) are prevented.
- the information regarding the result of determination obtained in the first and second aspects may be displayed in a visible manner via the setting unit.
- the fact that the weft yarn positioned at the cloth fell has elasticity or the fact that the selection of the blank beating start is inadequate are displayed. Accordingly, the operator recognizes that the starting method is inadequate and corrects the setting of the starting method or manually operates the loom with the starting method other than the blank beating start.
- the fabric quality can be adequately controlled by checking the information showing the result of determination.
- the normal starting method may include, for example, at least one of (1) a first start in which the loom is activated at a current drive operation position, beat-up motion is performed, and then weft insertion is started and (2) a second start in which the loom is activated at the current drive operation position, weft insertion is started, and then the beat-up motion is performed. More specifically, the normal starting method may include one or both of (1) and (2). When both of (1) and (2) are included, one of them may be set in advance or be selected in accordance with a predetermined algorithm on the basis of weaving conditions.
- FIG. 1 shows an air jet loom 10 of a two-color weft insertion type which selectively inserts two kinds of weft depending on a weft-insertion pick number.
- the loom 10 includes weft suppliers 12a and 12b for supplying weft yarns 11a and 11b, respectively, weft feeders 13a and 13b, stopper pins 14a and 14b installed adjacent to the weft feeders 13a and 13b, main nozzles 15a and 15b for inserting the weft yarns 11a and 11b by air jet, and a plurality of sub nozzles 16, 16... disposed in a warp shed 21 along a weft-insertion path for pushing the weft yarn 11a or 11b being inserted by the air jet.
- the main nozzles 15a and 15b are connected to their respective electromagnetic valves 17 and 17 and pressure adjusters 18 and 18 constituted of, for example, electro-pneumatic proportional valves or the like via air tanks (not shown).
- the sub nozzles 16, 16... disposed along the weft-insertion path are classified into a plurality of groups along the weft insertion direction, and each group is connected to an electromagnetic valve 17 and a pressure adjuster 18 via an air tank (not shown).
- the pressure adjusters 18, 18... are connected to a common fluid source 19 for supplying compressed air.
- Various devices of the loom 10 including a warp shedding device (not shown), a reed 22, a weft cutter 26, etc., are linked to a main shaft 20 of the loom 10 via motion conversion mechanisms (not shown), and a weft feeler 25 for detecting the weft yarn is disposed so as to face the weft-insertion path at a position near a fabric edge opposite from a weft-insertion position.
- the weft feeders 13a and 13b retain the weft yarns 11a and 11b, respectively, by rotating yarn guides and winding the weft yarns 11a and 11b around drums, and the weft yarns 11a and 11b are restrained by the stopper pins 14a and 14b, respectively, which move toward and away from the circumferential surfaces of the drums.
- a weft-insertion control unit 28 which will be described below, operates such that the stopper pin 14a corresponding to the selected weft yarn 11a is retracted so as to release the weft yarn 11a wound around the drum in the open phase of the warp shed.
- the weft-insertion nozzles including the main nozzle 15a corresponding to the selected weft yarn 11a and the sub nozzles 16, 16... blow compressed air in relays. Accordingly, the selected weft yarn 11a is released from the weft feeder 13a and is inserted as shown in the figure. Then, when the weft yarn 11a is released from the weft feeder 13a by a predetermined number of windings, the weft-insertion control unit 28 causes the stopper pin 14a to extend and stop the weft yarn 11a. The inserted weft yarn 11a is beaten by the reed 22, cut by the weft cutter 26, and thereby becomes a part of a woven fabric 23.
- the above-described air jet loom 10 is of the two-color weft insertion type in which the weft yarns 11a and 11b are selectively inserted in each rotation of the loom in accordance with a weft-insertion pattern.
- the loom may also be of a single-color weft insertion type, a three-color weft insertion type, or more.
- the electromagnetic valves 17, 17... , the weft feeders 13a and 13b, and the stopper pins 14a and 14b are connected to output terminals of the weft-insertion control unit 28.
- An angle detector 27 constituted of, for example, a rotary encoder is connected to the loom main shaft 20, and an electric signal representing a crank angle of the main shaft 20 is output by the angle detector 27.
- An angle signal ⁇ is input to an input terminal of the weft-insertion control unit 28, and a setting unit 50 for setting information such as conditions of weft insertion is connected to the weft-insertion control unit 28.
- Fig. 2 is an internal block diagram of a control apparatus 30 of the loom which functions as a start control apparatus of the loom according to the present invention.
- the control apparatus 30 of the loom basically includes a control unit 32 to which the angle signal ⁇ is input, the weft-insertion control unit 28 which controls actuators of the above-described weft-insertion devices, and the setting unit 50 for transmitting set values to the control units 32 and 28.
- the control unit 32 includes a main controller 34 which controls the overall operation of the loom and a determination unit 40 which outputs a weft selection signal S1 and determines whether or not to restrict the selection of the blank beating start.
- the determination unit 40 basically includes a stepping-signal generator 41 which generates a forward-rotation stepping signal Sf or a reverse-rotation stepping signal Sr each time the loom main shaft angle ⁇ reaches a predetermined angle depending on the rotational direction of the main shaft and a signal generator 42 which counts the stepping signals Sf and Sr input thereto and outputs a signal representing the count value as a weft pick number.
- the angle signal ⁇ is input to the stepping-signal generator 41.
- the stepping-signal generator 41 Each time the loom operates by one turn and the input angle reaches the predetermined angle (for example 0°), the stepping-signal generator 41 generates a single pulse of either the forward-rotation stepping signal Sf or the reverse-rotation stepping signal Sr depending on the rotational direction.
- the signal generator 42 which will be described in detail below, memorizes a weft selection pattern set via the setting unit 50, and is capable of counting the number of pulses of the two stepping signals Sf and Sr input to the signal generator 42.
- the signal generator 42 increments or decrements a weft-insertion pick count value by 1 and outputs the weft selection signal S1 corresponding to the pick count value on the basis of the memorized weft selection pattern.
- the determination unit 40 functions not only as a weft-selection-signal generator but also as a determination circuit which generates a blank-beating-start restriction signal S3. This will be described in more detail below.
- the signal generator 42 if the stepping signal Sf is input while the pick count value is at an upper limit "5", the signal generator 42 returns the pick count value to "1". In reverse, if the stepping signal Sr is input while the pick count value is at a lower limit "1", the signal generator 42 returns the pick count value to "5".
- the main controller 34 includes, for example, a microprocessor unit (MPU), a memory which stores software, such as a control program of the loom, and a port for inputting/outputting signals to the MPU, none of which is shown in the figure.
- the main controller 34 receives signals from the loom's operation buttons including an drive button 35a, a reverse rotation button 35b, and a stop button (not shown); the main shaft angle signal ⁇ from the angle detector 27; and abnormal signals from the weft feeler 25, a warp breakage sensor (not shown), etc.
- MPU microprocessor unit
- the main controller 34 receives signals from the loom's operation buttons including an drive button 35a, a reverse rotation button 35b, and a stop button (not shown); the main shaft angle signal ⁇ from the angle detector 27; and abnormal signals from the weft feeler 25, a warp breakage sensor (not shown), etc.
- the main controller 34 outputs, for example, an activation signal S6, a reverse-rotation signal S7, and a brake command signal S8 to current generators 36 and 37 which supply current to a motor 38 and a loom brake 39, respectively, via ports (not shown), and also outputs an drive signal S4, a blank-weaving command signal S5, an activation preparation signal S9, etc., to the weft-insertion control unit 28, a warp control unit 44, which will be described below, and a weft detection unit 45 to which the weft feeler 25 is connected.
- the setting unit 50 includes, for example, a touch-panel setting display 51 having a display function and is connected to the weft-insertion control unit 28, the main controller 34, and the determination unit 40 so that necessary information can be set and communicated between these units and the setting unit 50. More specifically, with regard to the determination unit 40, the setting unit 50 sets weft selection information for each weft-insertion pick number and information regarding elasticity of the weft.
- the setting unit 50 sets data regarding weft insertion for each kind of selectable weft, the data including timing at which the compressed air is to be discharged from the main nozzle and sub nozzles, pressures of the compressed air supplied to the nozzles, the amount of rotation of a flyer of the weft feeder, that is, the number of windings of the weft yarn for each pick of weft insertion, and timing at which the weft yarn is to be released from the stopper pin.
- the setting unit 50 sets data regarding the selectively set starting method and conditions for the set starting method in the main controller 34, and data regarding warp tension control and weft density control such as warp tension, a warp-beam diameter, and a weft density in the warp control unit 44.
- Such information may be input manually by the operator, read out from a memory medium such as a memory card, or automatically set via a loom management computer connected to the loom.
- the activation signal S6 is output from the main controller 34, and accordingly the current generator 36 supplies current to the motor 38.
- the motor 38 rotates the main shaft 20 of the loom, and the angle signal ⁇ corresponding to the rotation of the main shaft 20 is input to the stepping-signal generator 41, the weft-insertion control unit 28, and the main controller 34.
- the stepping-signal generator 41 outputs the stepping signal Sf and the signal generator 42 increments the count value of the weft-insertion pick number by 1.
- the signal generator 42 outputs one of selection signals CL1 and CL2 corresponding to the weft-insertion devices to the weft-insertion control unit 28 as the weft selection signal S1.
- the weft-insertion control unit 28 outputs drive signals to the electromagnetic valves 17 and the pressure adjusters 18 under conditions set for each kind of weft (jet start angles, jet finish angles, and pressures), and drives the corresponding stopper pin 14 and the weft feeder 13 at the same time.
- the warp control unit 44 is a known device which detects a warp tension at a predetermined angle and rotates a warp beam (not shown) so as to maintain a desired warp tension during the operation of the loom.
- the warp control unit 44 also rotates a take-up roller (not shown) for winding the woven fabric such that the rotational speed of the loom and the weft density are maintained at predetermined values.
- a total step number of the weft selection information is "5". More specifically, it is assumed that the weft selection pattern corresponding to the weft selection information is set such that a process of inserting a weft yarn "a" having no elasticity for four picks and a weft yarn "b” having elasticity for one pick is repeated.
- the setting unit 50 sets, in the form of symbols, the selection information regarding the weft-insertion device (the main nozzle and the weft feeder) to which the weft is set for each weft-insertion pick number in the signal generator 42 included in the determination unit 40.
- the weft selection information (weft selection pattern) is transmitted to the signal generator 42 and is memorized in the form shown in, for example, Fig. 4.
- the loom 10 is operated under the above-described conditions.
- the main controller 34 turns off the drive signal S4 and stops the motor 38 via the current generator 36.
- the main controller 34 outputs the brake command signal S8 and activates the brake 39 via the current generator 37 to immediately stop the rotation of the loom main shaft 20. Then, the main controller 34 rotates the main shaft 20 in the reverse direction until it reaches a predetermined angle (300°), so that the warp shed is closed in the standby state.
- the setting unit 50 communicates with the operator through a display screen (not shown) on the setting display 51 so as to set weaving conditions of the loom, and a plurality of starting methods including the blank beating start and a normal start, which will be described below, are set such that they can be selected.
- a display screen not shown
- a normal start which will be described below
- the main shaft is rotated in the reverse direction from the main shaft angle 300°, which is the current drive operation position, by about one and a half turns and is stopped at 120°. Then, the loom is activated (forward direction) and blank weaving without weft insertion is performed for one and a half turns. Then, weft insertion is started.
- the operation of the loom is started by executing the 300° start, which is the normal start, as the substitute starting method for the blank beating start. If the weft yarn is determined to have no elasticity, the operation of the loom is started by executing the blank beating start, which is set as the preferred starting method.
- the main controller 34 When the operator presses the drive button 35a, the main controller 34 outputs a determination command signal S2 to the determination unit 40, and the determination unit 40 performs a predetermined determination in response to the input signal and outputs the blank-beating-start restriction signal S3 depending on the result of determination. After a predetermined time period from the output of the determination command signal S2, the main controller 34 selectively executes one of the starting methods depending on the blank-beating-start restriction signal S3 and starts the operation of the loom 10.
- Fig. 5 shows the flow of a process performed by the main controller 34 in a period from the input of the drive operation signal S0 to the main controller 34 to the start of operation of the loom.
- the main controller 34 outputs the determination command signal S2 to the determination unit 40 (Step 1) and reads out the starting method and detailed conditions regarding the starting method set in the setting unit 50 in advance (Step 2).
- the conditions include the amount of reverse rotation for the blank beating start (the number of picks of the reverse rotation and the main shaft crank angle at which the reverse rotation is to be stopped), and these conditions are set in the setting unit 50 in advance.
- the main controller 34 checks whether or not the starting method set as the preferred starting method is the blank beating start (Step 3). If the blank beating start is set as the starting method (that is, if the result is 'yes'), the main controller 34 checks whether or not the blank-beating-start restriction signal S3 is output from the determination unit 40 (Step 4).
- Step 5 the blank beating start set as the preferred starting method is executed. Then, the starting method-selecting process is finished.
- Step 6 the normal start (the 300° start described below), which is the starting method set as the substitute starting method for the blank beating start, is executed. Then, the starting method selecting process is finished.
- the signal generator 42 shown in Fig. 2 also has a function of determining whether or not the weft yarn which is already woven in and positioned at the cloth fell has elasticity, in other words, whether or not the weft yarn would contract in the reverse rotation of the blank beating start, and outputs the blank-beating-start restriction signal S3 depending on the result of determination. More specifically, the setting unit 50 transmits the information regarding whether or not the weft has elasticity, which is the information regarding the elasticity of the weft, to the signal generator 42 in correspondence with the symbols of the weft-insertion devices (the main nozzles and the weft feeders) to which the weft is set.
- the signal generator 42 is capable of recognizing that the weft yarn "a” having no elasticity is set in the main nozzle 15a and the weft feeder 13a included in the weft-insertion device corresponding to the symbol "a", and that the weft yarn "b” having elasticity is set in the main nozzle 15b and the weft feeder 13b included in the weft-insertion device corresponding to the symbol "b".
- the signal generator 42 determines whether or not to restrict the selection of the blank beating start in accordance with, for example, a predetermined software algorithm, depending on the selected weft from the current weft pick number to that at the end of the reverse rotation in the blank beating start on the basis of the weft selection information and the amount of reverse rotation in the blank beating start. Then, the signal generator 42 outputs the blank-beating-start restriction signal S3 depending on the result of determination.
- the pick count value (weft pick number) of the signal generator 42 is synchronized with the rotation of the loom main shaft (the forward or reverse rotation of the loom main shaft) while the electric power to the control apparatus 30 is turned on.
- the loom 10 is stopped at the weft-insertion pick number "5" and the angle 300°.
- the weft selection signal in this state corresponds to the kind of the weft yarn which is already woven in and positioned at the cloth fell. Since the loom is stopped at the weft-insertion pick number "5" and the weft yarn "b" having elasticity is selected, the signal generator 42 determines that the weft yarn would contract if the reverse rotation is performed and turns on the output of the blank-beating-start restriction signal S3, as shown in Fig. 4.
- the algorithm for determining whether or not to restrict the selection of the blank beating start is preferably capable of adequately providing an output irrespective of the combinations of the kinds of weft and the number of weft-insertion devices to which the weft is set.
- the main controller 34 reads out information indicating that the blank beating start is set as the preferred starting method in Step 2, determines that the output of the blank-beating-start restriction signal S3 is on in Step 4, and executes the 300° start, which is the normal starting method selected as the substitute starting method, in Step 6.
- the loom When the 300° start, which is the normal starting method, is selected, the loom is activated at 300°, which is the current drive operation position, as shown by the solid line in Fig. 3. More specifically, the beat-up motion is carried out once and the operation of the loom 10 is started by inserting the weft yarn "a" corresponding to the weft-insertion pick number "1".
- the above-described blank beating start is shown by a dashed line in Fig. 3.
- the reverse rotation is performed from the current drive operation position 300° by about one and a half turns (to 120° where the weft-insertion pick number is "4", which corresponds to the previous pick).
- the loom is activated in the forward direction while the output of the blank-weaving command signal S5 is turned on, so that blank weaving without weft insertion is performed for one and a half turns, in which the beat-up motion is carried out twice.
- the output of the blank-weaving command signal S5 is turned off and the operation of the loom is started by restarting weft insertion with the weft yarn "a" corresponding to the weft-insertion pick number "1".
- the main shaft 20 of the loom is rotated in the reverse direction from the current drive operation position 300° in the blank beating start and the warp shed is opened accordingly, the weft yarn "b" having elasticity is released from the warp and the selvedge yarns and contracts. Therefore, a fabric defect occurs.
- the main shaft angle at which the contraction of the weft yarn occurs varies depending on the shedding conditions in the warp shedding device such as dwell in the shedding curve, the area of the warp shed, and cross timing, the conditions of the selvedge device, the characteristics of the warp and weft, etc.
- a main shaft angle around 260° is the limit when the cross timing of the warp shedding device is 300°.
- the present invention even when the operator selects the blank beating start as the preferred starting method through the setting unit 50 by mistake without taking the elasticity of the weft into account, if the input information regarding the elasticity of the weft indicates that the weft has elasticity, the normal start is automatically selected as the substitute starting method for the blank beating start which involves the reverse rotation when the loom is operated. Therefore, unlike the known system, fabric defects caused when the blank beating start involving the reverse rotation is executed irrespective of whether or not the weft has elasticity and the weft yarn "b" having elasticity which has already been woven in contracts by being released at the cloth fell are prevented.
- the weft selection pattern and the detailed settings for the selected start are not limited to the above-described example, and may be adequately set depending on the specifics of the fabric.
- the information for determining whether of not the weft at the drive operation has elasticity is not limited to the weft selection information (weft selection pattern).
- weft selection information weft selection pattern
- weft having high elasticity somewhat contracts in a period from the end of discharge of the jet from the weft-insertion nozzles to the time at which the beat-up motion is carried out.
- the contraction of the weft yarn may be directly detected using the yarn signal from the weft feeler 25 and be memorized for each weft-insertion pick, and this information may be used instead of the weft selection information.
- the method for detecting the contraction of the weft yarn is not particularly limited.
- the elasticity of the weft may also be evaluated on the basis of the degree of elasticity (the amount of contraction per unit length) in addition to the presence/absence thereof.
- the evaluation criterion may be adequately set depending on whether the fabric defects will occur due to the contraction of the weft yarn.
- the blank-beating-start restriction signal is generated on the basis of the weft selection information and the information regarding whether or not the weft has elasticity.
- the step number is relatively small as in the case where the loom is of the two-color weft insertion type and two kinds of weft are alternately inserted in, for example, two-color one-pick (1 ⁇ 1) or two-color two-pick (2x2) pattern, or if the weft having elasticity is always set in a predetermined one of the weft-insertion devices, the weft selection signal S1 corresponding to the weft-insertion device to which the weft having elasticity is set (one of CL1, CL27) may also be used instead of the blank-beating-start restriction signal S3.
- the information which the weft selection signal is based on, for example, the ordinality of whether the weft-insertion pick number is even number or odd number may also be used for outputting the blank-beating-start restriction signal S3.
- the selection of the blank beating start may also be restricted depending only on the weft selection information without using the information regarding whether or not the weft has elasticity.
- the blank-beating-start restriction signal S3 may also be generated depending only on the information regarding the elasticity of the weft. More specifically, the signal generator 42 in the determination unit 40 receives the information regarding the elasticity of the weft from the setting unit 50, and outputs the blank-beating-start restriction signal S3 if it determines that at least one of a plurality of kinds of weft has elasticity. In such a case, the loom is operated by executing the normal start, which is set as the substitute starting method, irrespective of the preferred starting method set by the setting unit 50.
- the blank beating start is set as the preferred starting method for the case in which the weft yarn positioned at the cloth fell when the drive operation signal is generated has no elasticity in the above-described embodiment
- the setting may also be such that the normal start is executed.
- the starting method for the case in which the weft yarn has no elasticity may be selected from the blank beating start and the normal start, which is the substitute starting method for the blank beating start, by taking the actual states of weft bars and other conditions into account.
- a single preferred starting method is set in the setting unit 50 in advance, and the substitute starting method, which is also set in advance, is executed instead of the preferred starting method depending on the result of determination regarding the elasticity of the weft yarn positioned at the cloth fell.
- the starting method to be executed when the drive operation signal is generated may also be set for each of the weft-insertion pick numbers in advance by the setting unit 50 in accordance with the elasticity of the weft yarn positioned at the cloth fell.
- the control unit 32 checks the weft-insertion pick number, and the operation of the loom is started using the starting method corresponding to the determined pick number.
- the weft-insertion pick number is updated in synchronization with the rotation of the main shaft in the operation of the loom and the reverse rotation. Therefore, the use of the weft pick number when the drive operation signal is generated is included within the scope of the first aspect of the present invention in which whether or not the weft yarn positioned at the cloth fell when the drive operation signal is generated has elasticity is determined on the basis of the information regarding the weft selection.
- the drive operation position of the loom (for example, the operation corresponding to the amount of reverse rotation of the loom main shaft in the recovery operation for the weft insertion error) is sometimes uniquely determined depending on the cause of stoppage. Accordingly, the position (main shaft angle) at which the drive operation is performed may be estimated from the kind of a signal representing the cause of stoppage before the generation of the drive operation signal (more specifically, in a period from the generation of the signal representing the cause of stoppage to the generation of the drive operation signal).
- the determination is performed based on the weft selection information.
- the time at which whether or not the weft yarn has elasticity is determined is not limited.
- the causes of stoppage are classified into a weft trouble, such as the weft insertion error, and other troubles, such as the warp breakage and the operation of a stop button. This is because the amount of rotation (amount of reverse rotation) of the loom main shaft performed for the recovery operation differs depending on whether or not the cause of stoppage is related to the weft trouble.
- the normal start is automatically selected instead of the blank beating start depending on the result of determination based on the weft selection information or the kind of weft yarn.
- a warning about the risk of fabric defects due to the contraction of the weft may also be issued.
- a dedicated warning lamp may be turned on or a warning message like "risk of fabric defects due to reverse rotation in blank beating start" may be shown on the setting display 51 of the setting unit 50 to attract the operator's attention.
- the operator notices the warning, he or she operates the drive operation button corresponding to the normal start to start the operation with the normal start instead of the blank beating start which involves the reverse rotation, or resets the selected starting method to the normal start.
- the normal start which is the substitute starting method for the preferred starting method
- the control unit 32 which controls the loom.
- this is performed by the setting unit 50. More specifically, when the operator sets weaving conditions of the loom, the information regarding the elasticity of the weft is input first and the setting unit 50 determines whether or not the weft has elasticity. If it is determined that the weft has elasticity, the blank beating start which involves the reverse rotation is eliminated from the list of settable starting methods so that only the normal start can be set.
- the circuit structure corresponding to this embodiment is obtained simply by removing the blank-beating-start restriction signal S3 from the structure shown in Fig. 2, and therefore explanations regarding the circuit are omitted.
- Fig. 6 shows the flow of a process performed by the setting unit 50 when the operator sets the weaving conditions.
- the operator inputs weft-kind information by operating the setting unit 50 (Step 1).
- the weft-kind information input in this step includes, for example, information regarding whether or not the weft has elasticity such as the kind of weft, whether or not an elasticizing process has been performed, the twist number, etc.
- the setting unit 50 proceeds to the next step (Step 2). In this step, in accordance with a predetermined algorithm, the setting unit 50 determines whether or not the weft has elasticity and sets an elasticity flag if the weft has elasticity.
- Step 8 If the elasticity flag is set in Step 3 (that is, if the result is 'yes'), it is determined that the blank beating start cannot be selected and the 300° start, which is the normal start, is set as the selected starting method (Step 8). Then, the setting unit 50 displays an input screen for inputting detailed conditions corresponding to the normal start, and the operator inputs required information (Step 6). Then, when the input is finished, the process proceeds to the step for inputting weaving conditions such as weft-insertion conditions (Step 7) and the starting method selecting process is finished.
- the information regarding the elasticity of the weft is input in advance, and if the information input to the setting unit 50 indicates that the weft has elasticity, the blank beating start which involves the reverse rotation is eliminated from the list of selectable starting methods. Accordingly, the normal starting method is selected and set as the starting method of the loom. Therefore, the operator is prevented from selecting the blank beating start without taking the elasticity of the weft into account by mistake.
- fabric defects caused when the blank beating start involving the reverse rotation is executed and the weft yarn "b" having elasticity which has already been woven in contracts by being released at the cloth fell are prevented. Therefore, a problem in that the quality of the woven fabric is degraded for a long time until the operator or a fabric inspector notices the incorrect setting of the starting method is prevented.
- the loom is preferably started at a main shaft angle at which the warp shed is somewhat opened in the direction of the shedding motion so that the cloth fell is prevented from being displaced in the vertical direction, and such a state of the warp shed is obtained when the main shaft angle is around 60°.
- the 300° start is an example of a first start
- the 60° start is an example of a second start.
- the drive operation positions (angles) of the former and latter starts are not limited to 300° and 60°, respectively, and may be set arbitrarily as long as the intended effects can be obtained.
- the other weft-bar prevention techniques may include, for example, a technique of generating the activation preparation signal S9 when the loom is operated and rotating the take-up roller and the warp beam by predetermined amounts to correct the position of the cloth fell.
- These techniques are additionally used when, for example, the normal start is selected instead of the blank beating start as described above.
- these techniques may also be used irrespective of the starting method. More preferably, the amounts of rotation for correcting the position of the cloth fell are set to different values depending on whether the blank beating start is set or the normal start is set.
- the main controller 34 for controlling the start of the loom and the determination unit 40 for determining whether or not to restrict the blank beating start on the basis of the weft selection information and the information regarding the elasticity of the weft are provided independently of each other. However, they may also be provided as a single circuit.
- the main controller 34 included in the control unit 32 may also be structured as a circuit having additional functions of various processes of the loom regarding the warp control unit, the feeler, etc., and all of these processes may be performed by the microprocessor unit and a software installed in advance.
- Fig. 1 shows a loom of the two-color weft insertion type
- the present invention may also be applied to looms of a single-color weft insertion type, a three-color weft insertion type, or more.
- an air jet loom is explained in the above-described embodiments
- the present invention may also be applied to other shuttleless looms such as water jet looms and rapier looms.
- the present invention may also be applied to looms having automatic repair devices which automatically solve the cause of stoppage, such as weft insertion error and yarn breakage of weft or warp, and restart the operation.
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Claims (5)
- Procédé de commande de démarrage pour un appareil de commande de démarrage (30) d'un métier à tisser (10), l'appareil de commande de démarrage (30) comprenant :une unité de commande (32) qui choisit l'un d'une pluralité de procédés de démarrage et fait fonctionner le métier à tisser (10) selon le procédé de démarrage choisi lorsqu'un signal d'opération d'entraînement est entré ; etune unité de commande d'insertion de trame (28) qui insère sélectivement l'un d'une pluralité de types de trame selon des informations concernant la sélection de trame tandis que le métier à tisser (10) est en fonctionnement,dans lequel les procédés de démarrage comprennent un démarrage normal et un démarrage de tassage d'ébauche dans lequel un arbre principal du métier à tisser (20) est mis en rotation dans un sens inverse d'une quantité prédéterminée, un mouvement de frappe est effectué sans insertion de trame tout en activant le métier à tisser (10), puis l'insertion de trame est démarrée, la quantité de rotation inverse dans le démarrage de tassage d'ébauche étant fixée de telle sorte qu'un fil de trame positionné au niveau d'une ligne de serrage de duite (24) est libéré des fils de chaîne, caractérisé en ce quele procédé de commande de démarrage comprend une étape consistant à déterminer si oui ou non le fil de trame positionné au niveau de la ligne de serrage de duite (24) présente une élasticité sur la base des informations concernant la sélection de trame lorsque le signal d'opération d'entraînement est généré et une étape consistant à exécuter le démarrage normal s'il est déterminé que le fil de trame présente une élasticité.
- Appareil de commande de démarrage (30) d'un métier à tisser (10) comprenant :une unité de réglage (50) dans laquelle des informations de sélection destinées à choisir l'un d'une pluralité de procédés de démarrage etdes informations concernant l'élasticité de trame sont entrées ;une unité de commande (32) qui fait fonctionner le métier à tisser (10) selon le procédé de démarrage choisi lorsqu'un signal d'opération d'entraînement est entré ; etune unité de commande d'insertion de trame (28) qui insère sélectivement l'un d'une pluralité de types de trame selon les informations concernant la sélection de trame tandis que le métier à tisser (10) est en fonctionnement ;dans lequel les procédés de démarrage comprennent un démarrage normal et un démarrage de tassage d'ébauche dans lequel un arbre principal de métier à tisser (20) est mis en rotation dans un sens inverse d'une quantité prédéterminée, un mouvement de frappe est effectué sans insertion de trame tout en activant le métier à tisser (10), puis l'insertion de trame est démarrée, la quantité de rotation inverse dans le démarrage de tassage d'ébauche étant fixée de telle sorte qu'un fil de trame positionné au niveau d'une ligne de serrage de duite (24) est libéré des fils de chaîne, etdans lequel l'unité de commande (32) détermine si oui ou non le fil de trame positionné au niveau de la ligne de serrage de duite (24) présente une élasticité sur la base des informations concernant la sélection de trame lorsque le signal d'opération d'entraînement est généré et exécute le démarrage normal s'il est déterminé que le fil de trame présente une élasticité.
- Appareil de commande de démarrage (30) d'un métier à tisser (10) comprenant :une unité de réglage (50) dans laquelle des informations de sélection destinées à choisir l'un d'une pluralité de procédés de démarrage etdes informations concernant l'élasticité de trame sont entrées ; etune unité de commande (32) qui fait fonctionner le métier à tisser (10) selon le procédé de démarrage choisi lorsqu'un signal d'opération d'entraînement est entré,dans lequel les procédés de démarrage comprennent un démarrage normal et un démarrage de tassage d'ébauche dans lequel un arbre principal de métier à tisser (20) est mis en rotation dans un sens inverse d'une quantité prédéterminée, un mouvement de frappe est effectué sans insertion de trame tout en activant le métier à tisser (10), puis l'insertion de trame est démarrée, la quantité de rotation inverse dans le démarrage de tassage d'ébauche étant fixée de telle sorte qu'un fil de trame positionné au niveau d'une ligne de serrage de duite (24) est libéré des fils de chaîne et,dans lequel l'une de l'unité de réglage (50) et de l'unité de commande (32) détermine si oui ou non restreindre la sélection du démarrage de tassage d'ébauche sur la base des informations entrées concernant l'élasticité de la trame.
- Procédé de commande de démarrage selon la revendication 1, dans lequel le résultat de la détermination est affiché de manière visible.
- Procédé de commande de démarrage selon la revendication 1, dans lequel le démarrage normal comprend au moins l'un parmi :(1) un premier démarrage dans lequel le métier à tisser (10) est activé à une position d'opération d'entraînement actuelle, un mouvement de frappe est effectué, puis l'insertion de trame est démarrée ; et(2) un second démarrage dans lequel le métier à tisser (10) est activé à la position d'opération d'entraînement actuelle, l'insertion de trame est démarrée, puis le mouvement de frappe est effectué.
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JP2004088082 | 2004-03-24 | ||
JP2004088082A JP2005273076A (ja) | 2004-03-24 | 2004-03-24 | 織機のスタート制御装置およびスタート制御方法 |
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EP1580308A2 EP1580308A2 (fr) | 2005-09-28 |
EP1580308A3 EP1580308A3 (fr) | 2006-04-19 |
EP1580308B1 true EP1580308B1 (fr) | 2007-12-05 |
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EP (1) | EP1580308B1 (fr) |
JP (1) | JP2005273076A (fr) |
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Cited By (1)
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CN101671910B (zh) * | 2008-09-12 | 2012-11-28 | 皮卡诺股份有限公司 | 用于控制纬线细丝输送穿过梭口的方法 |
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JP5137302B2 (ja) * | 2005-10-06 | 2013-02-06 | 津田駒工業株式会社 | 織機の運転装置 |
CN104975418B (zh) * | 2014-04-04 | 2017-06-13 | 浙江三禾智能科技有限公司 | 一种织机开车痕去除方法 |
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US5172732A (en) * | 1989-06-29 | 1992-12-22 | Lindauer Dornier Gesellschaft Mbh | Method for starting a power loom as a function of standstill time |
EP0629725A1 (fr) * | 1993-06-15 | 1994-12-21 | Sulzer RàTi Ag | Procédé pour démarrer un métier à tisser et métier à tisser pour effectuer ce procédé |
JP2003049347A (ja) * | 2001-08-08 | 2003-02-21 | Tsudakoma Corp | 織機の運転方法および織機の運転装置 |
-
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- 2004-03-24 JP JP2004088082A patent/JP2005273076A/ja active Pending
-
2005
- 2005-02-15 DE DE602005003603T patent/DE602005003603T2/de active Active
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Cited By (1)
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CN101671910B (zh) * | 2008-09-12 | 2012-11-28 | 皮卡诺股份有限公司 | 用于控制纬线细丝输送穿过梭口的方法 |
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JP2005273076A (ja) | 2005-10-06 |
EP1580308A3 (fr) | 2006-04-19 |
DE602005003603D1 (de) | 2008-01-17 |
EP1580308A2 (fr) | 2005-09-28 |
DE602005003603T2 (de) | 2008-11-13 |
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