EP0407433A1 - Process for executing a stitching operation with a sewing machine provided with needle feed. - Google Patents
Process for executing a stitching operation with a sewing machine provided with needle feed.Info
- Publication number
- EP0407433A1 EP0407433A1 EP89904029A EP89904029A EP0407433A1 EP 0407433 A1 EP0407433 A1 EP 0407433A1 EP 89904029 A EP89904029 A EP 89904029A EP 89904029 A EP89904029 A EP 89904029A EP 0407433 A1 EP0407433 A1 EP 0407433A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- needle
- feed
- stitch
- sewing
- control unit
- 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.)
- Granted
Links
Classifications
-
- D—TEXTILES; PAPER
- D05—SEWING; EMBROIDERING; TUFTING
- D05B—SEWING
- D05B27/00—Work-feeding means
- D05B27/10—Work-feeding means with rotary circular feed members
-
- D—TEXTILES; PAPER
- D05—SEWING; EMBROIDERING; TUFTING
- D05B—SEWING
- D05B19/00—Programme-controlled sewing machines
- D05B19/02—Sewing machines having electronic memory or microprocessor control unit
- D05B19/12—Sewing machines having electronic memory or microprocessor control unit characterised by control of operation of machine
- D05B19/16—Control of workpiece movement, e.g. modulation of travel of feed dog
-
- D—TEXTILES; PAPER
- D05—SEWING; EMBROIDERING; TUFTING
- D05D—INDEXING SCHEME ASSOCIATED WITH SUBCLASSES D05B AND D05C, RELATING TO SEWING, EMBROIDERING AND TUFTING
- D05D2207/00—Use of special elements
- D05D2207/05—Magnetic devices
- D05D2207/06—Permanent magnets
Definitions
- the invention relates to a method according to the preamble of claim 1.
- the stitch hole in the stitch plate is designed as a stitch slot running in the feed direction.
- the invention is therefore based on the object
- the claim 2 contains a simple solution to the displacement of the axis of the needle.
- both the needle is stabbed in and out of the sewing material in the immediate end region of the stitch slot, which results in optimal clamping conditions of the free fade at the edge of the stitch slot.
- the measure according to claim 4 brings about a reduction in the thread consumption during the first stitch formation and thus a reduction in retraction of the sewing threads by the thread lever.
- FIG. 1 is an overall view of a sewing machine equipped with needle feed, partly in section,
- FIG. 2 is an enlarged side view of the sewing machine of FIG. 1, partially in section,
- 4 shows a rear view of the stepper motor drive for the swinging out of the needle bars, partly in section, 5 is a block diagram of the electronic circuit for the feed device,
- Fig. 6 shows a section through the needle plate of the sewing machine in an enlarged view
- FIG. 7 shows an enlarged detail from FIG. 6.
- the sewing machine consists of the base plate (1), the column (2), the stand (3), the arm (4) and the head (5).
- a main shaft (6) is mounted in the arm (4) in a conventional manner and is driven by a sewing motor (8) fixed below the base plate (1) via a V-belt (7). From the main shaft (6) is driven by a Zah ⁇ rieme ⁇ (9) in the base plate (1) gripper shaft (10) which is in drive connection with a gripper, not shown, in drive connection.
- the main shaft (6) drives a needle bar (14) equipped with the needle (13) via a crank (11) and a link (12).
- the handlebar (12) is articulated to the needle bar (14) via an articulated connection (15) (Fig. 2). This is mounted in a rocker (17) carried by an oscillating shaft (16) (FIG. 1).
- the oscillating shaft (16) is mounted in the arm (4) parallel to the main shaft (6).
- the end of the oscillating shaft (16) protruding into the stand (3) carries a lever arm (18) which extends over a
- Gele ⁇ khan (19) is connected to an eccentric (20). This engages around an eccentric (21) (Fig. 4) which is fixedly connected to a drive shaft (22) of a stepper motor (23) fastened in the arm (4).
- the eccentric (21) is coaxial with a pin (24) to the drive shaft (22) extending housing bore (25).
- a carrier (30) is mounted on an eccentric bolt (31) which has bearing pins (34 and 35) projecting into bores (32 and 33) in the column (2).
- the bearing journal (35) is provided with a slot (36).
- the eccentric (31) is clamped to the carrier (30) by a screw (37).
- a standing shaft (38) is mounted in the carrier (30) and is guided in the axial direction by an actuating ring (39) and a coupling (40).
- the carrier (30) is equipped at the lower end with a flange plate (41) on which a stepper motor (42) is attached, the drive shaft (43) through which
- Coupling (40) is rigidly coupled to the standing shaft (38).
- the standing shaft (38) carries a pinion (44) of a spiroid gear (45), the ring gear (46) of which is fixedly connected to a sliding wheel (47), which is ball-bearing-mounted in a known manner and an integral part with an axle stub (48) having.
- This is received by a bore in an arm (30a) of the carrier (30) and can be clamped by a screw (49) after adjustment in the axial direction.
- the slide wheel (47) can be adjusted in height by means of the support (30) relative to a needle plate (50) which closes the column (2) upwards and through which it protruding through a slot (50a).
- the stitch plate (50) is provided with a stitch slot (50b) for the passage of the needle (13).
- the carrier (30) is by a in its upper part screwed screw (51), which projects through a slot (52) in the column (2), firmly clamped to the latter.
- the lateral position of the pusher wheel (47) can be aligned with the slot (50a) in the throat plate (50).
- a vertical shaft (53) is loosely mounted in the head (5) of the sewing machine.
- a clamping piece (54) is screwed onto the shaft (53). This has a radial bore in which a pin (55) is pressed.
- a coupling piece (56) is also loosely mounted on the shaft 53.
- a web (57) projecting laterally from it protrudes through a slot in the head (5) and secures the coupling piece (56) against rotation.
- the coupling piece (56) is designed as a ring cutout in its lower region and thus encompasses the clamping piece (54).
- the ring cutout has a recess (59) into which the pin (55) protrudes and which at one end merges into a locking groove (60), while at the other end it ends with a wall (61).
- a compression spring (62) which is supported against an actuator (63) fixed on the shaft (53), presses the coupling piece (56) and thus the upper wall of its ring section slightly downwards against the pin (55).
- a lever arm (65) of an angle lever (66) mounted in the head (5) protrudes below the web (57) and is connected via a link (67) to a lever linkage (not shown) that can be actuated by the operator.
- a cam (68) is fastened under the lever arm (65) on a shaft (69) mounted in the head (5).
- the shaft (69) (Fig. 2) carries a hand lever (70) on its outwardly projecting end.
- a block (71) is attached, which is equipped with a groove guide (72) • .
- An angular flap (73) with a long hole is screwed into this, which is firmly connected to a roller support (74).
- This has a pipe socket (75) (see also FIG. 3) which merges into an end piece (76) projecting downwards.
- a bore is provided in this for the attachment of an axle stub (78) of a roller bearing (80) with ball bearings.
- the roller foot (80) has a Laufri ⁇ g (81) with which a ring gear (82) of a spiroid gear (83) is fixedly connected, the pinion (84) is eccentrically engaged with the ring gear (82).
- a tubular support (85) is received, which is clamped in position by screws (86) screwed into the pipe socket (75).
- the carrier (85) consists of a tube (87), a hollow cylinder (88) which adjoins at the top and an annular connecting flange (89).
- a shaft (90) is mounted in the tube (87), which carries the pinion (84) at its lower end and is fixedly connected to a ring shoulder (91) which bears against the lower end of the tube (87).
- the shaft (90) is gripped in the area of its upper end by the insert of a ball bearing (93) pressed into the hollow cylinder (88).
- the upper end of the shaft (90) is rigidly coupled by a coupling (94) to a drive shaft (95) of a stepper motor (96), the housing of which is screwed onto the end bottle (89).
- a pulse disc (100) is attached, which has two I pulsbah ⁇ e ⁇ , each of which works with a pulse generator (101 or 102).
- One pulse path has a plurality of pulse markings (103) (FIG. 5) distributed uniformly over its circumference, while the other pulse path only has two pulse markings (104), one of which has the pulse generator (101) when the needle (13) emerges. out of the workpiece and the other happens when the needle (13) enters the workpiece.
- the pulse generator (101) is connected to a control unit (105).
- a U switching arrangement (106) is connected to this via a control line (106a)
- the outputs of the counters (111, 112 and 113) are connected to inputs of power stage ⁇ (117, 118 and 119) for the associated stepper motors (23, 42 and 96).
- the outputs of the counters (111, 112 and 113) are connected to the control unit (105) via lines (purple, 112a and 113a). Lines (117a, 118a and 119a) lead from the control unit (105) to the power stages (117, 118 and 119).
- Three switches (120, 121 and 122) are also connected to the control unit (105), of which the switch (120) is used to actuate a reverse sewing process, while the two switches (121 and 122) are used for slow driving the stepping motors (42 and 96) in the forward or backward direction when the sewing machine is at a standstill preferably in the needle position.
- an oscillator (123) is connected to the two power stages (118 and 119) via a divider (124) and a switch (125).
- the switch (125) is connected to the control unit (105) via a control line (125a).
- the oscillator (123) is also connected to the input (E1) of the switching arrangement (106), the input (E2) of which is connected to the pulse generator (102).
- the output of the Umschalta ⁇ interpret (106) leads to the inputs (El) of the three AND gates (107, 108 and 109), the outputs of which are each connected to the associated counter (111, 112 and 113), which are designed as a down counter and which can be individually preset by the control unit (105) via the collecting line (110).
- the keypad (114) With the keypad (114) the number of steps of the stepper motors (23, 42 and 96) per sewing stitch and thus the feed length of the individual transport elements - needle (13), pusher wheel (47) and roller foot (80) - can be selected between the respective stitch formation, different feed amounts of the pushing wheel (47) with respect to the roller foot (80) can also be set.
- the measure of the preselected stitch length is shown in the display unit (115).
- a motor control (126) is connected to the control unit (105) via a bus (126a).
- Motor control (126) is specially provided for the control of the sewing motor (8) and connected to it via a line (8a).
- a speed setpoint generator (127) designed as a foot control element is connected to the engine control unit via a collecting line (127a) (126) connected.
- a counter (128) is connected to the control unit (105) via a collecting line (128a) and a line (128b) and to the pulse generator (101) via a line (128c).
- the operator sets the desired feed amounts of the needle (13), the pusher wheel (47) and the roller presser (80) using the keypad (114), the corresponding digital values being taken from the data memory (116) via the control unit (105) and thus the Counters (111, 112 and 113) can be preset. At the same time, values corresponding to the feed amounts are displayed in the display unit (115).
- the sewing motor (8) drives the main shaft (6) via the V-belt (7), which moves the needle bar (14) up and down via the drive connection - crank (11) and handlebar (12).
- the main shaft (6) also drives the gripper (not shown) via the toothed belt (9) and the gripper drive shaft (10).
- the drive for feeding the workpiece is triggered via the pulse generator (101) whenever the needle (13) penetrates the workpiece and when it leaves it.
- the pulse generator (101) emits a pulse to the control unit (105).
- one of the counters (111, 112 or 113) If one of the counters (111, 112 or 113) has reached the counter range "0", it outputs a control pulse to the associated power stage (117, 118) or 119), whereby the corresponding stepper motor (23, 42 or 96) by one Step is advanced. At the same time, this counter (111, 112 or 113) emits a pulse to the control unit (105) via the associated control line (purple, 112a and 113a), which presets this counter (111, 112 or 113) again to a new value. The control unit (105) retrieves the corresponding values from the data memory (116). It also determines the ones connected to the power levels (117, 118 and 119)
- Step impulses drive the rocker arm (17), the pusher wheel (47) and the roller foot (80) to jointly transport the workpiece.
- the stepper motor (42) rotates the pusher wheel (47) via the standing shaft (38) which is firmly coupled to its output shaft (43) and the angular gear (45), while the stepper motor (80) simultaneously rotates via the shaft which is firmly coupled to its output shaft (95) Shaft (90) and the angular gear (83) drives the roller foot (80).
- the stepper motor (23) rotates simultaneously over his Output shaft (22) gradually in one direction to the eccentric (21), its eccentricity transmitting deflection movements via the eccentric rods (20) and the lever arm (18) to the rocker (17), which thereby swings out by corresponding angular amounts. This takes place when the needle (13) is inserted in the workpiece in synchronism with the feed of the pusher wheel (47) and the roller foot (80) and when the needle (13) is cut out by driving the eccentric (21) in the opposite direction.
- the needle bar (14) performs a sinusoidal oscillating motion in the feed direction. During its pierced phase in the workpiece, it swings in the feed direction and during the pierced phase, it swings in the opposite direction.
- the control of the stepper motor (23) for swinging out the needle bars (14) is therefore designed so that it gives the stepper motor (96) during one revolution of the main shaft (6), ie with each feed between two stitch formations, two sinusoidal partial step sequences which one drives the stepper motor (23) in the feed direction and the other drives it in the opposite direction.
- the drive of the stepper motors (42 and 96) for the sliding wheel (47) and the caster (80) is advantageously not carried out as a constant step sequence, but in two sinusoidal partial step sequences.
- the input (E2) of the respective AND gate (107 , 108 or 109) from the control unit (105) switched to L potential via the control line (107a, 108a or 109a), so that the further transmission of the clock pulses by the pulse generator (102) is prevented by the corresponding AND gate (107, 108 or 109).
- control unit (105) causes the axis of the needle (13) to be shifted into the end region of the stitch slot (50b) in the stitch plate (50) before each sewing operation.
- the control unit (105) tests the status of the sewing motor (8) and the speed setpoint generator (127) via the collecting line (126a).
- the control unit (105) sends a signal to the motor control (126) via the collecting line (126a), which first prevents the sewing motor (8) from starting.
- the control unit (105) reads out corresponding digital values for the needle (13), for the sliding wheel (47) and for the roller presser (80) from the data memory (116), which correspond to the calculated value (W) and thus effects the Bus (110) a preset of the counters (111, 112 and 113).
- the control unit (105) then switches the changeover switch (106) to (El), so that the pulses emitted by the oscillator (123) go to the inputs (El) of the AND gates (107, 108 and 109) a ng.
- control unit (105) receives the information via the control unit (126) that the
- Speed setpoint generator (127) is actuated, it switches via the control line (107a, 108a and 109a) the potential at the inputs (E2) of the AND gates (107, 108 and 109) to (H), so that that of the Oscillator (123) outgoing impulses are passed through the switchover arrangement (106) connected to the input (El) when the sewing motor (8) is stopped before the AND gates (107, 108 and 109) to the counters (111, 112 and 113).
- stepper motors (23, 42 and 96) takes place in the manner described above until the number of steps specified in the data memory (116) for the sliding wheel, caster and needle drive are executed.
- the input (E2) of the respective AND gate (107, 108 or 109) is switched to L potential by the control unit (105) via the control line (107a, 108a or 109a), so that the corresponding AND gate ( 107, 108 or 109) the further passage of the clock pulses from the pulse generator (102) is prevented.
- the sewing motor (8) is released through the manifold (126a).
- the axis of the needle (13) was pivoted into position (S1) (Fig. 7).
- the counter (128) is loaded via the collecting line (128a) with a presettable value which corresponds to the number of starting stitches to be produced in the sewing phase, after which the needle bars (14) are to return to their normal sewing position.
- the changeover switch (106) is operated by the control unit (105) switched to (E2) so that the pulses coming from the pulse generator (102) reach the inputs (E1) of the AND gates (107, 108 and 109). To execute the first stitch, however, no data are read into the counters (111, 112 and 113).
- the motor controller (126) now drives the sewing motor (8) at the speed specified by the speed setpoint generator (127).
- the first stitch formation is carried out without feed because the counters (111, 112 and 113) contain no data which cause the stepping motors (23, 42 and 96) to be driven.
- the other stitches are carried out with the stitch length (S) entered on the keyboard (114) by calling up corresponding data values from the data memory (116) in the manner described above, the needle (13) moving in the direction shown in FIG. 7 with S '/ 2 area executes, so that a perfect stitch formation already occurs with the first stitch.
- the counter (128) is counted down by "1". As soon as the counter (128) is at "0", the stitch formation of the starting stitches is complete.
- the counter (128) indicates a pulse via the line (128b) the control unit (105), after which the next pulse of the pulse generator (101) triggers a movement when the needle (13) emerges from the sewing material, which indicates the axis of the needle (13), the pusher wheel (47) and the roller foot (80) the next stitch is moved back by the same amount by which they were moved in the feed direction before the sewing process.
- the needle (13) is swung out again in the central region of the stitch slot (50b) of the stitch plate (50) (in 7 labeled S / 2). If the sewing process is started with a sequence of stitches running in the reverse direction, e.g. B.
- the control device (105) shifts the axis of the needle (13) in the front, ie directed to the operator area of the stitch slot (50b) of the stitch plate (50).
- the production of the initial stitches then proceeds analogously to the embodiment described above with normal feed adjustment, after which the axis of the needle (13) is shifted into its central region.
- the impulse that occurs from the pulse generator (101) triggers a stopping of the needle bar guide (17) via the control unit (105).
- the control unit (105) controls the total feed amount of the pusher wheel (47) and the roller presser (80) to execute a stitch with the set stitch length (S) while the pusher wheel (47 ) and roller foot (80) in the pierced phase of the needle (13).
- This stitch is carried out until the counter (128) preset with the number of starting stitches (Fig. 5) has reset and emits a pulse to the control unit (105) via the line (128b).
- the switch (120) is actuated, whereby the control unit (105) at the start of a new pulse from the pulse generator (101) via the control lines (117a, 118a and 119a) at the power stages (117, 118 and 119) reverses the direction of movement of the stepper motors (23, 42 and 96) so that they drive the pusher wheel (47), the caster (80) and the needle bars (14) in the opposite direction as long as the switch is actuated (120) stops.
- the sequence of steps of the stepper motors (23, 42 and 96) is carried out by calling up the corresponding values set in the keypad (114) from the data memory (116) in the manner described above.
- the control unit (105) switches the switchover arrangement (106) to the input (El), so that the pulses emitted by the oscillator (123) reach the inputs (El ) of the AND gates (107, 108 and 109).
- clock pulses from the oscillator (123) to the inputs (El) of the AND gates (107, 108 and 109) instead of the clock pulses from Given pulse generator (102).
- the control unit (105) switches the AND elements (107, 108 and 109) off via the control lines (107a, 108a and 109a).
Landscapes
- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Sewing Machines And Sewing (AREA)
Abstract
Au début d'une opération de couture avec une machine à coudre pourvue d'un dispositif d'avancement de l'aiguille, on obtient souvent des points de couture défectueux du fait que les fils initiaux ne sont pas suffisamment serrés dans la plaque d'aiguilles à cause de la fente allongée où se déplace l'aiguille. Selon le nouveau procédé, l'aiguille (13) est transférée avant le début de l'opération de couture vers une zone terminale (S1) de la fente d'aiguille (50b) afin d'exécuter un nombre prédéterminé de points de couture initiaux.At the start of a sewing operation with a sewing machine provided with a needle advancing device, faulty stitches are often obtained because the initial threads are not sufficiently tight in the thread plate. needles because of the elongated slit where the needle moves. According to the new method, the needle (13) is transferred before the start of the sewing operation to an end area (S1) of the needle slit (50b) in order to perform a predetermined number of initial stitches. .
Description
Claims
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE3815303A DE3815303A1 (en) | 1988-05-05 | 1988-05-05 | METHOD FOR CARRYING OUT A SEWING PROCESS WITH A SEWING MACHINE WITH NEEDLE TRANSPORT |
DE3815303 | 1988-05-05 |
Publications (2)
Publication Number | Publication Date |
---|---|
EP0407433A1 true EP0407433A1 (en) | 1991-01-16 |
EP0407433B1 EP0407433B1 (en) | 1992-12-16 |
Family
ID=6353694
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP89904029A Expired - Lifetime EP0407433B1 (en) | 1988-05-05 | 1989-04-01 | Process for executing a stitching operation with a sewing machine provided with needle feed |
Country Status (6)
Country | Link |
---|---|
US (1) | US5105751A (en) |
EP (1) | EP0407433B1 (en) |
JP (1) | JP2642208B2 (en) |
DE (2) | DE3815303A1 (en) |
ES (1) | ES2010955A6 (en) |
WO (1) | WO1989010992A1 (en) |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5226377A (en) * | 1992-05-14 | 1993-07-13 | Kastre John D | Single and double toed pressure feet for sewing thick material |
DE29809192U1 (en) | 1998-05-20 | 1998-07-23 | KSL Keilmann Sondermaschinenbau GmbH, 64653 Lorsch | sewing machine |
US6776112B2 (en) * | 2000-05-29 | 2004-08-17 | G.M. Pfaff Aktiengesellschaft In Insolvenz | Sewing machine comprising a device for steering towards the end of a seam |
CN105734840B (en) * | 2016-05-05 | 2018-10-23 | 浙江中捷缝纫科技有限公司 | A kind of sewing machine of stepper motor feeding |
Family Cites Families (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2669206A (en) * | 1951-12-15 | 1954-02-16 | Singer Mfg Co | Needle stabilizer for sewing machines |
US3216386A (en) * | 1962-01-03 | 1965-11-09 | Necchi Spa | Sewing machine with upper needle point and lower wheel feed |
JPS53104350A (en) * | 1977-02-18 | 1978-09-11 | Brother Ind Ltd | Device for stopping stitch of sewing machine |
JPS55122495A (en) * | 1979-03-16 | 1980-09-20 | Hitachi Ltd | Controller for electric sewing machine |
US4513676A (en) * | 1982-08-30 | 1985-04-30 | Microdynamics, Inc. | Method and apparatus for automatically decelerating and stopping a sewing machine motor |
DE3516715C2 (en) * | 1985-05-09 | 1987-04-30 | Pfaff Industriemaschinen Gmbh, 6750 Kaiserslautern | Sewing machine with a feed device |
DE3516713C1 (en) * | 1985-05-09 | 1986-04-24 | Pfaff Industriemaschinen Gmbh, 6750 Kaiserslautern | Sewing machine with a needle bar mounted in a swing arm |
JPS63139593A (en) * | 1986-11-29 | 1988-06-11 | ジューキ株式会社 | Work feeder of sewing machine |
JPH03139593A (en) * | 1989-10-25 | 1991-06-13 | Tokin Corp | Manufacture of electron beam sensor comprising oxide single crystal |
-
1988
- 1988-05-05 DE DE3815303A patent/DE3815303A1/en active Granted
-
1989
- 1989-04-01 US US07/466,318 patent/US5105751A/en not_active Expired - Lifetime
- 1989-04-01 EP EP89904029A patent/EP0407433B1/en not_active Expired - Lifetime
- 1989-04-01 DE DE8989904029T patent/DE58903051D1/en not_active Expired - Fee Related
- 1989-04-01 JP JP1503573A patent/JP2642208B2/en not_active Expired - Lifetime
- 1989-04-01 WO PCT/EP1989/000352 patent/WO1989010992A1/en active IP Right Grant
- 1989-05-04 ES ES8901537A patent/ES2010955A6/en not_active Expired
Non-Patent Citations (1)
Title |
---|
See references of WO8910992A1 * |
Also Published As
Publication number | Publication date |
---|---|
DE3815303C2 (en) | 1990-05-17 |
WO1989010992A1 (en) | 1989-11-16 |
JP2642208B2 (en) | 1997-08-20 |
DE58903051D1 (en) | 1993-01-28 |
DE3815303A1 (en) | 1989-11-16 |
EP0407433B1 (en) | 1992-12-16 |
JPH03504084A (en) | 1991-09-12 |
US5105751A (en) | 1992-04-21 |
ES2010955A6 (en) | 1989-12-01 |
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Legal Events
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