EP3971335A1 - Vorrichtung für nähmaschine und betriebsverfahren - Google Patents

Vorrichtung für nähmaschine und betriebsverfahren Download PDF

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Publication number
EP3971335A1
EP3971335A1 EP20743234.5A EP20743234A EP3971335A1 EP 3971335 A1 EP3971335 A1 EP 3971335A1 EP 20743234 A EP20743234 A EP 20743234A EP 3971335 A1 EP3971335 A1 EP 3971335A1
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EP
European Patent Office
Prior art keywords
fork
presser foot
sensor
workpiece
value
Prior art date
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EP20743234.5A
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English (en)
French (fr)
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EP3971335B1 (de
Inventor
Luís Miguel ROCHA PINTO DE FARIA
Miguel Ângelo FERNANDES CARVALHO
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Aup Automacao De Unidades De Producao Lda
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Aup Automacao De Unidades De Producao Lda
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Publication of EP3971335B1 publication Critical patent/EP3971335B1/de
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    • DTEXTILES; PAPER
    • D05SEWING; EMBROIDERING; TUFTING
    • D05BSEWING
    • D05B29/00Pressers; Presser feet
    • D05B29/06Presser feet
    • D05B29/08Presser feet comprising relatively-movable parts

Definitions

  • This disclosure describes a device and a method for controlling the quality of a textile seam for a sewing machine. More specifically, it describes a device that allows the seam allowances to be controlled during the formation of the stitch when using a sewing machine.
  • this type of decorative stitch is increasingly used, constituting an important adornment for car seat covers to elevate the visual impression of the vehicle's interior, as well as in particular for covering the airbags.
  • the existence of an overlap of layers may prevent the airbag from opening, in the area intended for the seat to rupture, as it does not have enough strength to break the additional decorative seam and the fusible seam, which joins the two parts of the cover, or change the comfort of a garment in contact with the body, or even aesthetically alter the appearance of the seam by the increase in volume it causes.
  • the control of the opening of the seam allowances (edges) of the airbags in the industry is carried out through chromatic sensors, sensitive to color variations, with the ability to distinguish the right side and the wrong side of the materials used in the covers of the seats, during the assembly process in the sewing room (textile fabrics, natural leathers or synthetic leathers).
  • the working principle of this type of sensor is based on its ability to detect that the edges are correctly opened, as the sensor can only “see” the right side of the material. In the event of an edge being fallen, the sensor will "see” the wrong side of the material, which is often of a different color from the right side.
  • CN102587049 describes an industrial flat sewing machine that provides an automatic line-tightening mechanism capable of sensing the thickness of a fabric.
  • the automatic line-tightening mechanism comprises a yarn trapper fixed at the front side of a sewing machine head, a compressor arm provided with a presser foot arranged on the lower end of the compressor arm, a fabric thickness sensor, a follow-up line-tightening frame and two line-tightening pins.
  • the fabric thickness sensor is fixedly arranged on the compressor arm and provided with a vertical curve on one side.
  • a pivot of the follow-up line-tightening frame is pivoted on a vertical shaft inside the sewing machine head, one end of the follow-up line-tightening frame is a follow-up arm tightly adjoined with the curve of the fabric thickness sensor, and a line-tightening surface is formed between the pivot and the follow-up arm.
  • the two line-tightening pins are arranged in guide holes in a wall of a machine shell in a sliding manner, the rear ends of the line-tightening pins are arranged in the sewing machine head and tightly adjoined with the line-tightening surface of the follow-up line-tightening frame, and the front ends of the line-tightening pins are arranged outside the machine head and tightly abuts against the back of a rear yarn bracket of the yarn trapper.
  • US4928611 describes a sewing machine equipped with guide means and ironing means comprising ultrasonic heating means.
  • the middle and orientation fold the free margins of an upper and lower piece of fabric and the folded margins are pressed or ironed by the ultrasonic heating means.
  • the ultrasonic heating means include an ultrasonic horn and a relatively movable anvil towards and away from each other.
  • a thickness detector is provided for detecting a combined thickness of the upper and lower parts of a fabric, and control means are also provided to control the heating energy of one of the ultrasonic heating means and the distance between the horn and the anvil in response to thickness detection.
  • the present disclosure refers to a device that allows a continuous validation of the seam allowances, also called edges, in order to guarantee the formation of seams without unwanted overlaps of material, controlling the number of fabric layers along the sewing process, namely in the critical areas of textile workpieces and leather articles.
  • One of the most relevant examples of this need is the safety zone of the airbags - the side area of the seat cover that will have to break to allow the airbag to exit.
  • the seams that require this monitoring are decorative seams, made on an edge using Lockstitch sewing machines with one or more needles, but only with one of the needles in operation; or on both edges using a two-needle sewing machine.
  • the existence of irregularities in the decorative seam such as an overlap of layers or a variation in stitch density per centimeter, may prevent the airbag from exiting, as it does not have enough strength to break the additional decorative seam and the fusible seam that joins the two parts of the upholstery cover.
  • This decorative seam is made with a type of seam line having a resistance higher than the seam line used in the previous seam, where the two parts were joined, so its ability to join the two parts of the upholstery, which are intended to be easily separated when the airbag is opened, is high, higher than that of the fusible seam that previously joined the parts together. This increases the risk of the seam not bursting, preventing the airbag from exiting at the desired location.
  • the present solution is relevant not only for textile companies in the automotive industry, but for the entire industry in general, since it allows to guarantee the formation of quality seams, thanks to the continuous capacity, and at the time of sewing, to detect the formation of irregular stitches, avoiding further dismantling of the pieces in rework, which become highly expensive for companies, since they affect the quality of fabrics and seams, with several needle holes, and require considerable time that affects the normal flow of the work in the line/group of work, thus guaranteeing manufacturers the certification of a quality sewing, with a high impact on the quality of the sewing but mainly on the safety of the users of these products.
  • the present disclosure consists of a device capable of measuring the individual displacement of the rear presserfoot, independently and continuously, on both sides of a seam, on a sewing machine.
  • the machine used can be of any type, such as the Lockstitch sewing machine with one or two needles; Covering machine; Chain Stitch Machine; Cut-and-sew machine, or any other type of sewing machine.
  • sewing machines of the Lockstitch type which comprise one or two needles and with different types of feed dogs, particularly in triple feed dog machines, where the movement of the fabric during sewing is not ensured only by the lower feed dogs (most common situation) but also by the elliptical movement of the front presser foot bar, and the needle bar, with similar movement.
  • the present disclosure thus relates to an innovative compensating device, in that it comprises a rear presser foot with the ability to compensate between the two sides of the seam and which comprises two targets, at least one optical sensor or at least one inductive sensor, responsible for converting the thickness of the material being sewn, at each stitch, into two independent vertical movements, allowing to determine its individual vertical oscillation value, as well as its differential, and thus ensuring the desired thickness stitch by stitch along the sewing.
  • two sensors are used that provide independent control of the thickness on each side.
  • the error detection capacity since they double the thickness error value.
  • the use of only one sensor is recommended in simpler cases where it is intended to reduce the costs and there is no need to obtain the differential between both seam allowances (edge).
  • the present disclosure concerns a device for processing the three-dimensional assembly of a piece on a sewing machine, of any type of material selected from natural, artificial and synthetic textile materials, natural and/or synthetic leathers. More specifically, it describes a device that allows to control the sewing margins during the formation of the stitch when using a sewing machine.
  • the device of the present disclosure allows the presser foot to also assume the function of variable compensation (compensating presser foot), currently only existing on the front presser foot of triple feed dog sewing machines.
  • One aspect of the present disclosure relates to a device for controlling the quality of a textile seam for a sewing machine comprising: a rear presser foot with compensation comprising two forks for pressing the workpiece being sewn, a fork for each side of the seam after its passage through the needle seam area, in which said forks are vertically and independently oscillating; at least one sensor configured to detect the height or displacement (vertical) of a first fork; and a signal processor configured to detect whether the height detected by the sensor when the first fork that is pressing the workpiece is above or below a predetermined value of excessive thickness.
  • the device and the methodology described in the present embodiment make it possible to detect the defect at the time of making the seam - "in loco", in many cases allowing the user to detect the error, undo the part of the seam with error and fix it. Therefore, the present device allows the reduction of the occurrence of defective decorative seams/fusible seams sewn with errors. The present methodology also allows the reduction of waste due to the reduction of defective products.
  • each fork comprises a stem for the sensor to detect the height of the fork.
  • the sensor configured to detect the height of the first fork is an optical sensor.
  • the sensor configured to detect the height of the first fork is an inductive sensor, preferably analog.
  • the fork stem comprises an optical target with a variable inclination, preferably substantially 45°.
  • the device comprises an additional sensor configured to detect the height of the second fork and wherein the signal processor is additionally configured to detect whether the height detected by the additional sensor when the second fork is pressing the workpiece is above or below a predetermined value, that is, if the workpiece edge has insufficient or excessive thickness leading to its non-conformity.
  • the signal processor is additionally configured to detect whether the height difference detected between the sensor of the first fork and the additional sensor of the second fork when the first and second forks are pressing the workpiece, is above a predetermined value of differential thickness.
  • the signal processor is configured to detect the height difference detected between the sensor of the first fork and the additional sensor of the second fork, in a continuous way, i.e. during the preparation of the workpiece.
  • the optical sensors are located on the head of the sewing machine.
  • the inductive sensors are located on the side walls of the rear presser foot, in order to allow the calculation of the displacement of the stem. That is, the inductives are located next to the side walls of the presser foot. On the sides of the presser feet, 2 magnets are mounted which move with the respective presser fork. Inductive sensors measure the displacement of the magnets relative to themselves.
  • the number of layers of the piece being sewn is at least 2.
  • the number of layers of the piece being sewn is at least 3.
  • the device further comprises at least two needles.
  • the rear presser foot comprises a cavity at the base of the presser foot (in the line of the seam guide) for the passage of the joining of the pieces, since if the material is too thick on each side it could cause a measurement error.
  • the rear presser foot further comprises a central guide between the forks to guide the user when sewing.
  • the device further comprises a front presser foot, preferably a front presser foot with articulated and interlocking forks.
  • the center guide can be next to one of the forks.
  • Another aspect of the present disclosure describes a sewing machine comprising the device described in the present disclosure, preferably a lockstitch machine.
  • the present solution has as one of its main objectives to ensure that the thickness of the material being sewn remains within the predetermined limits throughout the sewing process, allowing the seam allowance not to fall towards the wrong side of the seam and consequently being caught by the decorative seam, after the process of assembling the parts of the upholstery of the cars, where the airbag is expected to pop out due to the upholstery bursting in the event of a vehicle impact.
  • the present device also allows to control the individual displacement of both sides of the seam, ensuring that the thickness on both sides remains as expected, throughout the sewing process, stitch by stitch during sewing, regardless of the thickness difference, color, intersections, tight curves and existence of cuts, which may exist between the two parts being sewn.
  • the present disclosure also concerns a system of automatic and continuous control of the sewing dynamics of the sewing machines that may comprise: a compensating rear presser foot that comprises at least one target on the upper part of the presser foot and a cutout on the base; at least two optical or inductive sensors positioned at the rear or side part of the sewing block.
  • the senor is inductive, it can be located on the side part of the sewing block and the target can be a parallelepiped, preferably of magnetic material.
  • the presser foot may have a base cutout of about 2 millimeters deep and about 2 millimeters wide.
  • the cutout can be on both sides of the central seam guide, or it can be on the left side of the central seam guide or it can be on the right side of the central seam guide.
  • the device can be applied to single-needle or two-needle sewing machines, preferably to lockstitch machines, more preferably triple feed dog lockstitch sewing machines.
  • Another aspect of the present embodiment also concerns a method for controlling the quality of a textile seam on a sewing machine that comprises the device described in the present disclosure, which comprises the following steps:
  • the method described in the present disclosure can further comprise the following steps:
  • the present disclosure relates to a device controlling the quality of a textile seam for a sewing machine that comprises a rear presser foot wherein each presser foot comprises at least two forks or tabs, configured to be in contact with the workpiece being sewn; wherein the forks of the rear presser foot oscillate with each other in order to change position independently of one another, according to the thickness of the fabric; at least one sensor configured to detect the oscillation of the height of one of the forks of the rear presser foot and a microcontroller configured to compare the oscillation of the fork detected by the sensor with a predetermined value and if the oscillation value is substantially different from the predetermined value, trigger an alarm.
  • the present disclosure further relates to an intelligent control system for a sewing machine, preferably a lockstitch machine, comprising a compensating rear presser foot that comprises at least one target at the upper part of the presser foot and one cutout at the base; as well as two optical or inductive sensors positioned at the side part of the sewing block.
  • a sewing machine preferably a lockstitch machine
  • a compensating rear presser foot that comprises at least one target at the upper part of the presser foot and one cutout at the base; as well as two optical or inductive sensors positioned at the side part of the sewing block.
  • the present disclosure describes a device/system that allows to control the sewing margins during the formation of the stitch when using a sewing machine ( in loco ), reducing the occurrence of defective products.
  • the device comprises a compensating rear presser foot ( Figure 10 ), with two targets ( Figure 10 ) at the upper part of the fork stem (and consequently nonexistent in current presser feet), two optical sensors ( Figure 4 ) positioned at the rear part of the sewing machine block ( Figure 5 ), in order to point the beam of laser light to the targets; or, alternatively, two inductive sensors ( Figure 7 ) mounted on the side of the presser bar, pointing laterally to the targets.
  • the compensating rear presser foot also has a cavity (a sinking or cutout) at the base of the presser foot ( Figure 10 ), 2 mm deep and 2 mm wide, on both sides of the central seam guide, on the two-needle Lockstitch machine ( Figure 10 ).
  • the cavity can be only on the left side of the central sewing guide, when sewing is done on the right side, on the lockstitch machine with only one sewing line ( Figure 12 ) or on the right side of the central sewing guide, when sewing is done on the left side, on the lockstitch machine with only one sewing line ( Figure 11 ).
  • These cavities allow the excess thickness resulting from the folding of the material in the crease or fold (folding point of the material, wherein the seam allowance falls (turned) inwards), does not allow the presser foot to be raised vertically, being detected by the sensors, and thus provide an oscillation value of the presser foot that does not correspond to the situation intended to control.
  • the excess material in the fold area is thus accommodated in this innovative channel at the base of the presser foot.
  • the device presents a reduction in the contact area between the base of the presser foot and the material, in the central zone (union between the two forks), through a 2 mm cavity, on each side of the Central Guide of the sewing, in the case of two-needle machines ( Figure 10 ); or only on the side corresponding to the needle entrance, in the case of single needle machines ( Figure 11 (a) and Figure 12 (a) ).
  • this device can be applied to machines using a needle or two needles, where there is the need to change the type of presser foot ( Figure 10 ).
  • a needle sewing can be done on the left side ( Figure 12 ), or on the right side ( Figure 11 ), that is, the type of presser foot to be used has the two positioning variations of the Central Sewing Guide, at the right or left, respectively.
  • the sewing dynamics control device of this disclosure can use two types of distance/displacement measurement sensors, responsible for measuring the independent movement of each of the elements called “forks" of the presser foot (points of support of the presser foot over the material to be sewn - Figure 6 ), on both sides of the seam.
  • the difference between the two methods of measuring the displacement of the presser foot is currently found only in the cost of the sensors, since the measurement accuracy is identical between the two solutions developed in this disclosure.
  • the device comprises at least one optical sensor.
  • the following concerns the optical sensor.
  • Use of two laser systems ( Figure 4 ), mounted on the rear part of the sewing machine block ( Figure 5 ), so that the two light beams fall on each of the targets mounted on the upper part of the presser foot, more specifically on the upper part of the fork stems, so that they reflect the beam of light on the target's inclined plane ( Figure 5 ).
  • the device comprises at least one inductive sensor.
  • two inductive sensors mounted on the side part of the presser foot bar can be used ( Figure 7 ), measuring the displacement of each of the targets mounted on the upper part of the presser foot (on the presser forks).
  • the device may comprise the elements of Figure 8 .
  • laser Figure 4 and Figure 5
  • inductive Figure 7
  • an inductive sensor mounted in a specific position on the sewing machine steering wheel ( Figure 8 ). Its function is to indicate to the processing board "AUP", the point at which it should consider the measurement of the distance sensors (making the trigger). This function is essential since the presser foot during a sewing machine cycle (a stitch), goes up and down, but only firmly holds the material on it during part of this cycle. Only in that part of the cycle does the presser foot perform its function of holding the material being sewn "feeler", used specifically for this solution.
  • the device if the device is implemented with the laser sensors or analog inductive sensors to measure the distance from the sensor to the reflectors, they will always have to include a sensor mounted on the machine's steering wheel that has the function of informing the processor that the presser foot is in the exact position where the respective distance measurements (thicknesses) are to be taken.
  • the sensor used is also a sensor of the inductive type but with a digital output and not analog. The sensor is always inductive because it is cheap and reliable, but it can be of another type.
  • This specific position where measurements are performed corresponds to the position of the seam where the presser foot is in the complete lowered position.
  • the electronic board responsible for AUP signal processing may comprise:
  • the PC (Computer) is responsible for parameterizing and processing of the data.
  • the PLC - programmable logic controllers is responsible for the fast processing of the signals.
  • the calculations made by the device described in this disclosure are based on the following: the optical sensors measure the vertical displacement value of the presser foot caused by the presence of the material under the presser foot (material thickness) is converted into a horizontal displacement, in a 1:1 ratio, due to the angle chosen for the targets: 45 degrees. ( Figure 9 ).
  • the device makes the difference between the Measured Distance values between the two sensors, in order to amplify the difference in relation to the correct seam.
  • the calculation performed by the device described in the present disclosure can be based on the displacement determined by the sensors, preferably analog inductive sensors.
  • the value read by the sensor is direct, as it detects the vertical variation of the Target (and consequently of the presser foot) ( Figure 9 ).
  • the vertical displacement value of the presser foot caused by the presence of the material under the presser foot is read directly by the Sensor.
  • Measured Distance ESPB ⁇ ESPA
  • the system makes the Difference between the Measured Distance values between the two sensors, in order to amplify the difference in relation to the correct seam.
  • the present disclosure allows to:
  • the device has a reduction in the contact area between the base of the presser foot and the material, in the central zone (union between the two forks), through a 2 mm cavity, on each side of the central seam guide in the case of two-needle machines ( Figure 10 ); or only on the side corresponding to the needle entrance, in the case of single needle machines ( Figure 11 and Figure 12 ).
  • the device can be applied to machines using a needle or two needles, where there is the need to change the type of presser foot ( Figures 10 , 11 and 12 ).
  • sewing can be done on the left side ( Figure 12 ), or on the right side ( Figure 11 ), that is, the type of presser foot to be used has the two positioning variations of the central seam guide, on the right or on the left, respectively.

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Sewing Machines And Sewing (AREA)
EP20743234.5A 2019-05-13 2020-05-13 Vorrichtung für eine nähmaschine und betriebsmethode Active EP3971335B1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
PT11551919 2019-05-13
PCT/IB2020/054542 WO2020230062A1 (pt) 2019-05-13 2020-05-13 Dispositivo para uma máquina de costura e método de operação

Publications (2)

Publication Number Publication Date
EP3971335A1 true EP3971335A1 (de) 2022-03-23
EP3971335B1 EP3971335B1 (de) 2024-03-27

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Family Applications (1)

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EP20743234.5A Active EP3971335B1 (de) 2019-05-13 2020-05-13 Vorrichtung für eine nähmaschine und betriebsmethode

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EP (1) EP3971335B1 (de)
WO (1) WO2020230062A1 (de)

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3327663A (en) * 1964-03-25 1967-06-27 Man Sew Corp Compensating presser feet
JPH10165681A (ja) * 1996-12-06 1998-06-23 Masuda Seni Kk ミシン及びミシンの押え
CN105200675B (zh) * 2015-10-31 2018-11-23 拓卡奔马机电科技有限公司 一种门襟机压脚自动调节机构及其控制方法
JP2017184980A (ja) * 2016-04-05 2017-10-12 Juki株式会社 ミシン

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EP3971335B1 (de) 2024-03-27
WO2020230062A1 (pt) 2020-11-19

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