EP3425095B1 - Webblatt und verfahren zu dessen herstellung - Google Patents

Webblatt und verfahren zu dessen herstellung Download PDF

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Publication number
EP3425095B1
EP3425095B1 EP17180271.3A EP17180271A EP3425095B1 EP 3425095 B1 EP3425095 B1 EP 3425095B1 EP 17180271 A EP17180271 A EP 17180271A EP 3425095 B1 EP3425095 B1 EP 3425095B1
Authority
EP
European Patent Office
Prior art keywords
spacer
slats
reed
plane
lamellae
Prior art date
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Active
Application number
EP17180271.3A
Other languages
German (de)
English (en)
French (fr)
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EP3425095A1 (de
Inventor
Johannes Bruske
Gerhard Braun
Peter Meinert
Stephen WOHNHAS
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Groz Beckert KG
Original Assignee
Groz Beckert KG
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Groz Beckert KG filed Critical Groz Beckert KG
Priority to EP17180271.3A priority Critical patent/EP3425095B1/de
Priority to JP2020500642A priority patent/JP7311486B2/ja
Priority to CN201880045230.6A priority patent/CN111051587B/zh
Priority to KR1020207003543A priority patent/KR102595393B1/ko
Priority to US16/628,821 priority patent/US10920344B2/en
Priority to PCT/EP2018/068369 priority patent/WO2019008138A1/de
Publication of EP3425095A1 publication Critical patent/EP3425095A1/de
Application granted granted Critical
Publication of EP3425095B1 publication Critical patent/EP3425095B1/de
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Classifications

    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D49/00Details or constructional features not specially adapted for looms of a particular type
    • D03D49/60Construction or operation of slay
    • D03D49/62Reeds mounted on slay
    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D49/00Details or constructional features not specially adapted for looms of a particular type
    • D03D49/68Reeds or beat-up combs not mounted on the slay
    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D13/00Woven fabrics characterised by the special disposition of the warp or weft threads, e.g. with curved weft threads, with discontinuous warp threads, with diagonal warp or weft
    • D03D13/008Woven fabrics characterised by the special disposition of the warp or weft threads, e.g. with curved weft threads, with discontinuous warp threads, with diagonal warp or weft characterised by weave density or surface weight

Definitions

  • the invention relates to a reed and a method for producing a reed.
  • a reed has a plurality of lamellae arranged parallel to one another. Two immediately adjacent lamellae delimit an intermediate space through which a warp thread is passed. The lamellae are used to keep the warp threads at a defined distance from one another. In order to be able to produce a uniform fabric, it is necessary that all immediately adjacent lamellae have the same distance from one another.
  • FR 1 146 831 A known to bend the lamella several times in its two end sections, so that a serrated lamella section is created.
  • the serrated sections of adjacent lamellae are offset from one another in a longitudinal direction in which the lamella extends. The adjacent lamella rests against the prongs of one lamella, so that the distance or the width of the space between two lamellae is defined.
  • Such formed lamellae of a reed are also in U.S. 2,152,430 A disclosed.
  • a further embodiment of the lamellae is shown there, in which an end section is bent through 180 ° and the bent part is formed into a projection on which the respectively adjacent lamella rests.
  • U.S. 2,147,258 A describes the slats of a reed, which are provided with two parallel slots in at least one end section in their direction of extension, so that three webs are thereby formed.
  • the middle web is deformed in one direction and the two outer webs in the other direction protruding from the lamella plane.
  • spacer projections are formed on which directly adjacent lamellae touch.
  • Such slats are also made DE 2 508 575 A known.
  • EP 0 943 712 A1 and U.S. 4,529,014 A describe a reed in which the end sections of the lamellae are made thicker than the central working section of the lamellae and bear against one another. As a result, a defined distance between the working sections of the lamellae is achieved. In U.S. 4,529,014 A it is also proposed to glue the slats together.
  • a known slats of a reed are provided with an opening through which a line-up rail runs. Adjacent to this opening, the slats are bent over by 180 °. The thickness of the bent areas determines the distance between two lamellas that are directly adjacent to one another.
  • GB 1 245 872 A discloses an embodiment of a reed with the aim of increasing the distance between two parallel planes touching a slat on opposite sides without having to increase the thickness of the slat. This is to be achieved in that the lamella is curved or angled in its cross-sectional profile. One level lies on a central area on the convex side, while the other level on the concave side on the two outer areas of the Cross section of the lamella is applied. The greater the bend or curvature of the cross-sectional profile, the greater the distance between these two planes.
  • U.S. 4,694,867 A D1 describes a reed with lamellae according to the preamble of claim 1.
  • the lamellae are provided with spacer knobs at one end section, which take up a considerable proportion of the area compared to the total area of the lamellae.
  • the reed according to the invention has a plurality of lamellae which extend in a longitudinal direction between a first end and an opposite second end.
  • Each lamella has an end section immediately following the first end and the second end.
  • the two end sections delimit a working section which extends between the end sections.
  • the working section of the reed serves to guide the warp threads, while the end sections are designed to fasten the lamellae to one another or to a carrier of the reed.
  • the working section of each lamella has two opposite lamella outer surfaces.
  • Each lamellar outer surface extends in a plane that passes through the Longitudinal direction and a transverse direction aligned at right angles to the longitudinal direction is spanned.
  • the warp threads run through the reed between two lamellar outer surfaces of second immediately adjacent lamellas. Depending on the position of the heald frames, a warp thread can extend in the transverse direction or at an angle to the transverse
  • Each lamella thus has a first lamella outer surface which extends in a first plane and a second lamella outer surface which extends in a second plane.
  • the two planes are aligned parallel to each other and define the thickness of the lamella in the working section.
  • the lamellar outer surfaces are preferably rectangular and extend in the longitudinal direction between the two end sections and in the transverse direction between a front edge and a rear edge of the lamella.
  • spacer knobs are present in at least one end section of several and preferably all of the lamellae.
  • the spacer knobs are produced in particular by an embossing process. It is preferred if the lamella has spacer knobs in both end sections.
  • the spacer knobs are recessed on a first side opposite the first level and raised on the opposite second side opposite the second level. Each spacer knob thus forms a recess on the first side opposite the first level and on the second side a projection compared to the second level.
  • the spacer knobs are distributed in an end section and are preferably arranged at a distance from one another.
  • the spacer knobs are preferably arranged in an end section according to a regular pattern.
  • the spacer knobs On the first side, the spacer knobs have an inner knob surface, which adjoins the first level and forms a concave recess opposite the first level.
  • the spacer knobs On the second side, the spacer knobs have an outer knobs surface that adjoins the second level and forms a convex projection compared to the second level.
  • the sum of all knob outer surfaces of all spacer knobs which are arranged in a common end section is a maximum of 15%, preferably a maximum of 10% and more preferably a maximum of 8% of the total end section surface in this end section.
  • the total end section area is defined by the sum of an area portion of the end section that extends in the second plane plus the sum of all knob outer surfaces.
  • the surface section of the end section surface that extends in the second plane is at least 85%, preferably at least 90% and more preferably at least 92% of the total end section surface.
  • the spacer knobs are set up to define a minimum distance between two adjacent slats in the reed. If a lamella rests against the spacer knobs of the adjacent lamella, the minimum distance between the working sections of the lamella corresponds to the height of the spacer knobs on the second side opposite the second level. If the lamellas are glued to one another during the manufacture of the reed, adhesive is introduced between the adjacent end sections of the lamellas. Capillary forces can cause deformations of the end sections or the lamella. Since not all the spaces between the end sections are filled with adhesive at the same time, the capillary forces can cause them to move Set irregular distances between the slats or the slats may be deformed.
  • the spacer knobs provide a minimum distance between two slats. Because the spacer knobs have a sufficiently small proportion of the total knob outer surface compared to the total end section surface, the capillary effect is not additionally reinforced. It has been shown that by means of spacer knobs, the area proportion of which is sufficiently small within the respective end section, an improved uniformity of the lamellar spacing can be achieved compared to the previous solutions.
  • the spacer knobs can be produced easily and efficiently by an embossing process during the manufacture of the reed.
  • the proportion of the total burl inner surface of all spacer knobs in a common end section on their first side is a maximum of 15%, preferably a maximum of 10% and more preferably a maximum of 8% of the total end section surface on this side.
  • the total end section area on the first side corresponds to the sum of the area section of the end section that extends in the first plane, as well as the sum of all knob inner surfaces of the existing spacer knobs.
  • the spacer knobs are preferably free of openings. They are generated, for example, by a forming process. A separation process such as cutting or punching is not provided. It is also preferred if the end sections are designed entirely without openings.
  • the reed In a width direction, at right angles to the first plane and the second plane, in which the lamellae are lined up next to one another, the reed has two edge-side lamellae and a plurality of middle lamellae, which are arranged between the edge-side lamellae. It is preferred if at least all of the central lamellae have spacer knobs in one or both end sections. At least one of the two edge-side lamellae preferably also has spacer knobs in at least one end section. In one embodiment, it is provided that all of the lamellae have a plurality of spacer knobs in one or both end sections. In this design, all slats can be made identical.
  • At least three, preferably at least five to ten spacer knobs are present in an end section.
  • each spacer knob has a central knob part.
  • the central knob part is preferably designed to be rotationally symmetrical and can, for example, have a cylindrical or frustoconical or spherical cap shape.
  • each spacer knob can have an outer knob part which completely encloses the central knob part.
  • the outer knob part can be designed conically.
  • the cone angle with respect to the first or second plane is acute and is a maximum of 10 ° or a maximum of 5 ° or a maximum of 3 °.
  • the spacer knobs arranged directly next to one another end sections of the lamellas can in one embodiment are aligned with one another, ie all the spacer knobs of adjacent end sections are arranged along a plurality of straight lines which extend at right angles to the first or second plane.
  • the spacer knobs of each directly adjacent end sections can also be arranged offset parallel to the first plane or the second plane, so that they are not aligned.
  • the spacer knobs preferably have a height or maximum height which is essentially the same as the distance between the first level and the second level, that is to say the same as the thickness or the strength of the lamella.
  • the height can be, for example, from 0.8 times to 1.2 times the thickness of the lamella.
  • the spacer knobs have a diameter that is 5-10 times as large as the height.
  • all the spacer knobs have the same diameter and the same height. It is further preferred if all the spacer knobs have the same shape or external shape.
  • immediately adjacent slats have a slat spacing from one another which corresponds at least to the height of the spacer knobs and is preferably at most 5% or at most 2% greater than the height of the spacer knobs. Immediately adjacent lamellae can thus rest against one another on the spacer knobs or be arranged next to one another without contact.
  • the slats are fed one after the other to an assembly station. Before reaching the assembly station, at least one or some and preferably all of the lamellae are embossed in the end sections in order to produce the spacer knobs. It is also possible to stamp the lamellae in a separate stamping station and then to feed them to a separate assembly device. In the assembly device or assembly station, the slats are positioned at a defined distance from one another, the distance corresponding at least to the height of the spacer knobs.
  • the lamellas can be temporarily attached to one another in the desired relative position with the aid of a wire. An adhesive connection is then established between the respective adjacent end sections of the lamellae. For example, the slats can be glued to one another and to a carrier of the reed.
  • the wire for the temporary fixation of the lamellas can be removed after the adhesive bond has hardened.
  • a reed 15 is illustrated schematically.
  • the reed 15 has a plurality of lamellae 16 aligned parallel to one another and arranged at a distance from one another.
  • Each lamella 16 has a first end 17 and a second end 18 and extends in the longitudinal direction L between the first end 17 and the second End of 18 ( Figure 4 ).
  • the two ends 17, 18 form end faces or edges of the lamella 16.
  • An end section 19 adjoins the first end 17 and the second end 18. In the longitudinal direction, the two end sections 19 are separated from one another by a working section 20 of the lamella 16 arranged between them.
  • the first end 17 and the second end 18 are connected to one another by two edges extending in the longitudinal direction L, a front edge 21 and a rear edge 22.
  • the front edge 21 and the rear edge 22 are arranged at a distance from one another in a transverse direction Q.
  • Each of the lamellae 16 has a first lamella outer surface A1 in the working section 20 and a second lamella outer surface A2 on the opposite side in the working section 20 ( Figure 4 ).
  • the first outer lamella surface A1 extends in a first plane E1 and the second outer lamella surface A2 extends in a second plane E2.
  • the two planes E1, E2 are aligned parallel to one another and spanned by the longitudinal direction L and the transverse direction Q.
  • the lamellae 16 of the reed 15 are arranged with the formation of defined spaces 25 between the working sections 20 of immediately adjacent lamellae 16.
  • the spaces 25 have the same size.
  • the intermediate spaces 25 serve to guide warp threads 26 in the width direction B and to predetermine the distance between the warp threads 26 in the width direction B and to keep it constant.
  • the lamellas 16 are each arranged with their end sections 19 in an associated carrier 27 of the reed 15.
  • the slats 16 can be connected with their end sections 19 by an adhesive connection to the carriers 27 of the reed 15.
  • the end sections 19 of the lamellae 16 arranged next to one another in the width direction B are also connected to one another by the adhesive connection.
  • the adhesive connection between the end sections 19 of the lamellas 16 and the respective carrier 27 is highly schematized in FIG Figure 11 shown.
  • An adhesive 28 is in Figure 11 illustrated dotted. It can be seen that the adhesive 28 flows into the gaps between two immediately adjacent end sections 19 of the lamellae 16.
  • some or preferably all of the lamellae 16 have a plurality of spacer knobs 30 in one and, for example, in both end sections 19 in each case.
  • at least three and preferably five to ten spacer knobs 30 are present in an end section 19.
  • the working section 20 is free of spacer knobs 30 and other depressions or elevations on the lamella 16.
  • the end section 19 adjacent to the first end 17 ends at the point at which a spacer knob 30 is located, which is at the greatest possible distance from the first end 17.
  • the end section 19 adjacent to the second end 18 ends at the point at which there is a spacer knob 30 which is at the greatest possible distance from the second end 18.
  • the spacer knobs 30 are produced by stamping. They are recessed on a first side S1 compared to the first level E1 and raised on the opposite, second side S2 compared to the second level E2. A preferred embodiment of the spacer knobs 30 is shown in Figures 5-7 each shown in cross section.
  • the second side S2 of the spacer knobs 30 is located on the side of the lamellas 16 on which the second outer lamella surface A2 adjoins in the working section 20. Accordingly, the first side S1 of the spacer knobs 30 is on the side of the lamella 16 on which the working section 20 has its first lamella outer surface A1 ( Figure 4 ). On the first side S1, each spacer knob has an inner knob surface I which adjoins the first plane E1 and delimits the concave, recessed area of the spacer knob 30. On the opposite, second side S2, each spacer knob 30 has a knob outer surface F, which adjoins the second plane E2 and the convex, projecting or raised part of the spacer knob 30 limited. The inner knob surface I and the outer knob surface F are in Figure 5 illustrated.
  • the number and size of the spacer knobs 30 in a single end section 19 is selected such that the sum of all knob outer surfaces F compared to the total end section surface of this end section 19 on the second side S2 is a maximum of 15% or a maximum of 10% or a maximum of 8%.
  • the total end section area on the second side S2 is the area that is formed by the area section of the end section that extends in the second plane E2 plus the sum of the knob outer surfaces F. Additionally or alternatively, the proportion of the sum of all knob inner surfaces I is in a common End section 19 at most 15% or at most 10% or at most 8% of the total end section area on the first side S1.
  • the total end section area on the first side S1 is the area of the end section 19, which results from the sum of all knob inner surfaces I of all spacer knobs 30 in this end section 19 plus the surface section of the end section 19 which extends in the first plane E1.
  • all of the spacer knobs 30 of a common end section 19 or of a lamella 16 and preferably all of the lamellae 16 are of identical design. This simplifies the production of the spacer knobs 30 or the lamellae 16.
  • each spacer knob 30 has one central knob part 31, which is enclosed by an outer knob part 32.
  • the central knob part 31 is preferably designed to be rotationally symmetrical to an axis which extends in the width direction B and thus at right angles to the planes E1, E2.
  • the central knob part 31 can be cylindrical or frustoconical or spherical.
  • the central knob part 31 has a central wall section 33 extending essentially parallel to the second plane E2.
  • This central wall section 33 can also be designed with a convex curve when viewed from the second side S2 onto the spacer knob 30.
  • the central wall section 33 is, for example, circular and connected to the outer knob part 32 by a connecting wall section 34.
  • the connecting wall section 34 has a conical shape and forms a hollow truncated cone.
  • the connecting wall section 34 expands the diameter of the central knob part 31 from the central wall section 33 to the outer knob part 32. If the central wall section 33 has the shape of a spherical cap or some other convexly curved shape, the connecting wall section 34 can also be omitted.
  • the outer knob part 32 is optional and can be omitted in an exemplary embodiment that is not illustrated. In the preferred embodiment, it serves to give the spacer knobs 30 a resilient effect.
  • the outer knob part 32 has a conical shape and forms a hollow truncated cone.
  • a cone angle ⁇ of the outer knob part 32 measured between the first plane E1 and the knob inner surface I is very small and has in the embodiment an amount of less than 5 ° or less than 3 °.
  • a cone angle of the connecting wall section 34 is larger and is preferably at least 30 ° or at least 40 °.
  • the spacer knobs 30 of adjacent end sections 19 of the lamellae 16 can be arranged in alignment with one another in the width direction B.
  • the spacer knobs 30 are produced, for example, by a forming process and preferably an embossing process. Due to the deformation and the material flow caused, the dimension of a spacer knob 30 on the second side S2 is larger than on the first side S1. As a result, even if the spacer knobs 30 are in an aligned arrangement, it is prevented that adjacent lamellae 16 come into contact with one another without any spacing.
  • the spacer knobs 30 of directly adjacent end sections 19 of second lamellas 16 can also be arranged offset to one another parallel to the planes E1, E2 ( Figure 7 ). Otherwise, the design of the spacer knobs 30 corresponds to FIG Figure 7 execution in the Figures 5 and 6 .
  • the spacer knob 30 has a height H which represents the point with the greatest distance from the second level E2.
  • the height H is defined by the part of the knob outer surface F that is located on the central wall section 33.
  • This height H of the spacer knob 30 defines the minimum distance that two immediately adjacent lamellae have in the area of their working sections 20.
  • the height H preferably corresponds essentially to the thickness or strength S of the lamella 16.
  • Die Thickness S of the lamella 16 is defined by the distance between the first plane E1 and the second plane E2.
  • the diameter D of the spacer knob 30 is approximately 8 to 12 times and preferably 10 times the height H. If the outer knob part 32 is omitted in an exemplary embodiment that is not illustrated, the diameter D of the spacer knob 30 is approximately that 4 to 6 times and preferably 5 times the height H.
  • the lamellae 16 can have spacer knobs 30 in each of the two end sections 19. In order to ensure a minimum distance between the lamellae 16, the provision of spacer knobs 30 on all the lamellae 16 is not absolutely necessary.
  • the reed 15, viewed in the width direction B has two edge-side lamellae 16r and central lamellae 16m arranged between them. At least one of the edge-side lamellae 16r does not require any spacer knobs, since a central lamella 16m is only present on one side of the edge-side lamella 16r.
  • this edge-side lamella 16r can be designed without spacer knobs. If the spacer knobs 30 of the lamellae 16 are aligned in the width direction B, all lamellas 16 preferably have spacer knobs. In order to standardize the production of the lamellae 16 and to ensure that each lamella 16 can be used at any point in the reed 15, all lamellae 16 are preferably provided with spacer knobs 30 in at least one or both end sections 19.
  • the number and position of the spacer knobs 30 in an end section 19 can vary.
  • the Figures 9 and 10 illustrates two possible arrangements.
  • the in Figure 10 The embodiment shown, the spacer knobs 30 are arranged in the end sections 19 in the form of a matrix in rows and columns with uniform intervals.
  • the in Figure 9 In the illustrated embodiment, the rows immediately adjacent in the longitudinal direction L are offset in the transverse direction Q.
  • the possible arrangements for the spacer knobs in the end sections 19 are varied. Irregular arrangement variants are also possible. It is essential that the area proportion of the spacer knobs according to the invention is adhered to in relation to the entire end section area in order to keep the capillary forces low when creating an adhesive connection and still ensure a minimum distance between immediately adjacent lamellae 16 to create the gap 25.
  • lamellae 16 are provided as band-shaped or strip-shaped foil or sheet metal parts. These lamellae 16 are embossed in an embossing station 40 in order to produce the spacer knobs 30 in the end sections.
  • embossing station 40 has one or more embossing dies 41 which work together with a die 42 in order to produce the spacer knobs 30.
  • the embossed lamellae 16 are then positioned and aligned relative to one another in an assembly station 43.
  • a lamella spacing is thereby established between immediately adjacent lamellae 16 or their working sections 20 x is set, which is preferably slightly greater than the height H of the spacer knobs.
  • the height H of a spacer knob can be approximately 0.015 mm to 0.025 mm and the lamella spacing x can be a maximum of 10% or a maximum of 5% greater than the height H of the spacer knobs. If the spacer knobs are not aligned ( Figure 7 ) the minimum distance or the smallest lamellar distance x corresponds to the height H of the spacer knobs 30.
  • the spacer knobs 30 In the aligned alignment, when the spacer knobs 30 have an outer knob part 32, the central knob part 31 on its second side S2 can partially on the first side S1 of the adjacent Distance nubs 30 engage in the recess there.
  • the minimum distance or smallest lamella spacing x between two adjacent lamellas 16 can therefore be smaller than the height H of the spacer knob 30 (see FIG Figures 5 and 6 ). In all cases, however, the spacer knobs 30 ensure a minimum distance between immediately adjacent slats 16.
  • the positioned and aligned lamellae 16 can be temporarily attached to one another by a preferably flexible or bendable fixing means, such as a wire 44.
  • a preferably flexible or bendable fixing means such as a wire 44.
  • an adhesive connection is then produced between the end sections 19 of the lamellae 16 which are arranged adjacent to one another in the width direction B and are assigned to a common carrier 27.
  • adhesive 28 flows into the gap between the adjacent end sections 19 and thereby produces an adhesive connection.
  • the small spacer knobs 30 in terms of area ensure that, on the one hand, a minimum distance between the lamellae 16 is guaranteed and, on the other hand, the capillary forces be kept sufficiently small.
  • an adhesive connection with the relevant supports 27 is also produced.
  • the embossing station 40 and the assembly station 43 can be part of a common device or machine.
  • the manufacturing process can be automated.
  • the lamellar spacing x in the assembly station 43 is preferably set by a highly precise machine axis.
  • the invention relates to a reed 15 and a method for its production.
  • the reed 15 has a plurality of lamellas 16 which are arranged in a width direction B with the formation of intermediate spaces 25 each with a lamella spacing x.
  • Each lamella 16 has two opposite end sections 19, at which it is connected to a respective carrier 27 and to the immediately adjacent lamella (s) 16 by an adhesive connection.
  • the lamella 16 has several spacer knobs 30, which are preferably produced by stamping.
  • the spacer knobs 30 form a recess on the one, first side S1 and on the opposite, second side S2 a projection with a knob outer surface F.
  • the sum of all knob outer surfaces F of the spacer knobs 30 of a single end section 19 of a lamella 16 has a maximum proportion of 15% or a maximum of 10% or a maximum of 8% of the total end section area on this second side S2.

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Powder Metallurgy (AREA)
  • Looms (AREA)
  • Food-Manufacturing Devices (AREA)
  • Connection Of Batteries Or Terminals (AREA)
  • Prostheses (AREA)
  • Shaping Metal By Deep-Drawing, Or The Like (AREA)
  • Footwear And Its Accessory, Manufacturing Method And Apparatuses (AREA)
  • Lead Frames For Integrated Circuits (AREA)
  • Slide Fasteners, Snap Fasteners, And Hook Fasteners (AREA)
EP17180271.3A 2017-07-07 2017-07-07 Webblatt und verfahren zu dessen herstellung Active EP3425095B1 (de)

Priority Applications (6)

Application Number Priority Date Filing Date Title
EP17180271.3A EP3425095B1 (de) 2017-07-07 2017-07-07 Webblatt und verfahren zu dessen herstellung
JP2020500642A JP7311486B2 (ja) 2017-07-07 2018-07-06 筬及びその製造方法
CN201880045230.6A CN111051587B (zh) 2017-07-07 2018-07-06 织筘和用于其制造的方法
KR1020207003543A KR102595393B1 (ko) 2017-07-07 2018-07-06 리드 및 리드 제조 방법
US16/628,821 US10920344B2 (en) 2017-07-07 2018-07-06 Reed and method for producing same
PCT/EP2018/068369 WO2019008138A1 (de) 2017-07-07 2018-07-06 Webblatt und verfahren zu dessen herstellung

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP17180271.3A EP3425095B1 (de) 2017-07-07 2017-07-07 Webblatt und verfahren zu dessen herstellung

Publications (2)

Publication Number Publication Date
EP3425095A1 EP3425095A1 (de) 2019-01-09
EP3425095B1 true EP3425095B1 (de) 2020-09-30

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EP17180271.3A Active EP3425095B1 (de) 2017-07-07 2017-07-07 Webblatt und verfahren zu dessen herstellung

Country Status (6)

Country Link
US (1) US10920344B2 (ja)
EP (1) EP3425095B1 (ja)
JP (1) JP7311486B2 (ja)
KR (1) KR102595393B1 (ja)
CN (1) CN111051587B (ja)
WO (1) WO2019008138A1 (ja)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2023025478A1 (de) 2021-08-27 2023-03-02 Groz-Beckert Kg Webblatt und verfahren zur herstellung eines webblatts
DE102021122217A1 (de) 2021-08-27 2023-03-02 Groz-Beckert Kommanditgesellschaft Webblatt und Verfahren zur Herstellung eines Webblatts
DE102021122220A1 (de) 2021-08-27 2023-03-02 Groz-Beckert Kommanditgesellschaft Webblatt und Verfahren zur Herstellung eines Webblatts

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
ES2973865T3 (es) * 2019-09-10 2024-06-24 Groz Beckert Kg Peine con una pluralidad de láminas

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WO2023025478A1 (de) 2021-08-27 2023-03-02 Groz-Beckert Kg Webblatt und verfahren zur herstellung eines webblatts
WO2023025479A1 (de) 2021-08-27 2023-03-02 Groz-Beckert Kg Webblatt und verfahren zur herstellung eines webblatts
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DE102021122220A1 (de) 2021-08-27 2023-03-02 Groz-Beckert Kommanditgesellschaft Webblatt und Verfahren zur Herstellung eines Webblatts

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US10920344B2 (en) 2021-02-16
CN111051587A (zh) 2020-04-21
CN111051587B (zh) 2022-04-08
WO2019008138A1 (de) 2019-01-10
JP7311486B2 (ja) 2023-07-19
KR102595393B1 (ko) 2023-10-31
JP2020526677A (ja) 2020-08-31
EP3425095A1 (de) 2019-01-09
KR20200027981A (ko) 2020-03-13

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