EP3165488A1 - Guide transversal, machine de bobinage de fil et procédé de production de guide transversal - Google Patents

Guide transversal, machine de bobinage de fil et procédé de production de guide transversal Download PDF

Info

Publication number: EP3165488A1
Authority: EP; European Patent Office
Prior art keywords: arm body; guide member; guide; body member; yarn
Prior art date: 2015-11-09
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 Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Withdrawn

Application number

EP16195738.6A

Other languages

German (de)

English (en)

Inventor

Yuji KURO

Hiroki Takashima

Yasunobu Tanigawa

Koji Takayasu

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.)

Murata Machinery Ltd

Original Assignee

Murata Machinery Ltd

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.)

2015-11-09

Filing date

2016-10-26

Publication date

2017-05-10

2016-10-26 Application filed by Murata Machinery Ltd filed Critical Murata Machinery Ltd

2017-05-10 Publication of EP3165488A1 publication Critical patent/EP3165488A1/fr

Status Withdrawn legal-status Critical Current

Images

Classifications

- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H54/00—Winding, coiling, or depositing filamentary material
- B65H54/02—Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers
- B65H54/28—Traversing devices; Package-shaping arrangements
- B65H54/2827—Traversing devices with a pivotally mounted guide arm
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H57/00—Guides for filamentary materials; Supports therefor
- B65H57/28—Reciprocating or oscillating guides
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H54/00—Winding, coiling, or depositing filamentary material
- B65H54/02—Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers
- B65H54/28—Traversing devices; Package-shaping arrangements
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H57/00—Guides for filamentary materials; Supports therefor
- B65H57/006—Traversing guides
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H57/00—Guides for filamentary materials; Supports therefor
- B65H57/24—Guides for filamentary materials; Supports therefor with wear-resistant surfaces
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2701/00—Handled material; Storage means
- B65H2701/30—Handled filamentary material
- B65H2701/31—Textiles threads or artificial strands of filaments

Definitions

the present disclosure relates to a traverse guide, a yarn winding machine, and a method for producing the traverse guide.
a yarn winding machine includes a traverse guide configured to move in a reciprocating rotational manner so as to traverse a yarn to be wound by a winding bobbin.
a distal end portion of an arm body member of a traverse guide described in Japanese Unexamined Patent Publication No. 2013-63807 is provided with a guide member having a yarn hooking portion configured to guide a yarn.
the guide member described in Japanese Unexamined Patent PublicationNo. 2013-63807 is fixed to the arm body member with adhesive applied therebetween.
adhesive strength of the adhesive may decrease.
the guide member may detach.
the adhesive may squeeze out from between the arm body member and the guide member. In this case, in the adhesive thus squeezing out, or in a gap generated between the arm body member and the guide member due to squeezing out of the adhesive, a yarn may be caught, whereby the yarn may be cut.
the present disclosure aims to provide a traverse guide, a yarn winding machine, and a method for producing the traverse guide in which a guide member can be reliably fixed to an arm body member without applying adhesive.
a traverse guide includes: an arm body member having a distal end portion in a hook-like curved shape and containing a metallic material; and a guide member integrally fixed to the distal end portion of the arm body member without adhesive applied therebetween and having a yarn hooking portion configured to hook a yarn.
Hardness of the guide member is higher than hardness of the arm body member, and at least part of the guide member other than the yarn hooking portion has an embedded portion embedded in the distal end portion.
the guide member In this traverse guide, at least part of the guide member other than the yarn hooking portion has the embedded portion embedded in the distal end portion of the arm body member.
a through hole may be formed in the guide member, and the arm body member may have a first bone portion inserted into the through hole and being in close contact with an inner surface of the through hole.
the through hole and the first bone portion can prevent the guide member from detaching. Because the first bone portion is in close contact with the inner surface of the through hole, a backlash of the guide member can be prevented.
the guide member may be tucked into and engage with the arm body member along a traveling direction of the yarn, and may also be tucked into and engage with the arm body member along a direction intersecting the traveling direction.
the arm body member can prevent position error of the guide member in the traveling direction and the direction intersecting the traveling direction.
the guide member may be provided so as to cover part of the arm body member, a through hole may be formed in the arm body member, and the guide member may have a second bone portion inserted into the through hole and being in close contact with an inner surface of the throughhole.
the through hole and the second bone portion can prevent the guide member from detaching. Because the second bone portion is in close contact with the inner surface of the through hole, a backlash of the guide member can be prevented.
a protruding portion may be provided on either one of the at least part of the guide member embedded in the arm body member and the arm body member, and a recess with which the protruding portion is in close contact may be formed on the other one of the at least part of the guide member embedded in the arm body member and the arm bodymember.
the protruding portion and the recess prevent the guide member from detaching. Because the protruding portion is in close contact with the recess, a backlash of the guide member can be prevented.
the protruding portion may protrude along the traveling direction of the yarn.
the guide member in the direction intersecting the traveling direction of the yarn, by engaging the protruding portion with the recess, the guide member can be prevented from detaching.
the guide member may have a hook-like curved shape
the yarn hooking portion may be structured with a portion including an inner peripheral surface of the guide member and may be disposed on a curved-shape inner side than an inner peripheral surface of the distal end portion is.
the yarn to be traversed can be prevented from coming into contact with portions other than the yarn hooking portion.
a base end of the guide member may be embedded in the arm body member.
a gap or a level difference, for example, formed between the base end of the guide member and the arm body member can be bridged.
the guide member may have a first member and a second member that have stick shapes separated from each other in parallel, and both ends of the first member and both ends of the second member may be embedded in the arm body member.
the first member and the second member of the guide member can be easily formed.
both ends of the first member and the second member embedded in the arm body member can prevent the guide member from detaching.
the metallic material may be an aluminium alloy, a magnesium alloy, brass, a zinc alloy, a beryllium alloy, or zinc. This can reduce the weight of the traverse guide.
the guide member may contain ceramics.
the guide member having high hardness can be prepared at low cost.
the traverse guide according to one aspect of the present disclosure may further include an intermediate layer provided on a surface of the guide member embedded in the arm body member.
the intermediate layer can improve bondability between the arm body member and the guide member.
the guide member may contain a tungsten alloy, a nickel alloy, a chromium-molybdenum alloy, a nickel-chromium-molybdenum alloy, or a chromium alloy.
the guide member can contain a metallic material having high hardness.
abrasion resistance of the guide member improves.
a yarn winding machine includes: the traverse guide described in any one of the above paragraphs; a drive section configured to move the traverse guide in a reciprocating rotational manner; and a winding member configured to wind the yarn traversed by reciprocating rotational motion of the traverse guide onto a package.
This yarn winding machine includes the above-described traverse guide, in which at least part of the guide member other than the yarn hooking portion is embedded in the arm body member.
the guide member is integrally fixed to the arm body member, being firmly held on the arm body member without adhesive applied therebetween so as not to detach.
the guide member can be reliably fixed to the arm body member.
a method for producing a traverse guide includes: a step of forming an arm body member by placing in a die a metallic material and a guide member having a hardness higher than that of the metallic material and having a yarn hooking portion configured to hook a yarn and by molding the metallic material in the die to form an arm body member.
the arm body member is molded integrally with the guide member without adhesive applied therebetween.
the arm body member is molded integrally with the guide member without adhesive applied therebetween.
the guide member is integrally fixed to the arm body member, being firmly held on the arm body member without adhesive applied therebetween so as not to detach.
the guide member can be reliably fixed to the arm body member.
the traverse guide, the yarn winding machine, and the method for producing the traverse guide can be provided in which the guide member can be fixed to the arm body member without applying adhesive.
upstream and downstream mean upstream and downstream in a traveling direction of a yarn Y during yarn winding.
the automatic winder 1 includes a plurality of winder units 2 disposed in parallel and a machine control device 4.
the machine control device 4 controls (manages) operation of the entire automatic winder 1.
the automatic winder 1 may further include an automatic doffing device (not depicted).
each winder unit 2 includes a winding unit main body 3 and a unit controller 17 as main components.
the unit controller 17 includes a central processing unit (CPU), a random access memory (RAM), a read only memory (ROM), an I/O port, and a communication port.
the ROM stores therein a program for controlling the respective components of the winder unit 2.
the I/O port and the communication port are connected to respective sections (described later in detail) and the machine control device 4 included in the winder unit 2 are connected.
the I/O port and the communication port are configured to enable communication of control information, for example, therethrough. With this configuration, the unit controller 17 can control operation of the respective sections included in the winder unit 2.
the winding unit main body 3 includes a yarn supplying section 5, a yarn-unwinding assisting device 7, a tension applying device 9, a yarn monitor 11, a splicer device 13, and a winding section (winding member) 15 in a yarn traveling path between a yarn supplying bobbin 6 and a contact roller 22.
the yarn supplying section 5 is provided in a lower portion of the winder unit 2.
the yarn supplying section 5 is configured to be able to hold the yarn supplying bobbin 6 conveyed by a bobbin conveying system (not depicted) in a predetermined position.
the yarn-unwinding assisting device 7 assists unwinding of the yarn Y from the yarn supplying bobbin 6 by lowering a regulation member 8 covering a core tube of the yarn supplying bobbin 6 in conj unction with unwinding of the yarn Y from the yarn supplying bobbin 6.
the regulation member 8 comes into contact with a balloon of the yarn Y that is formed in an upper portion of the yarn supplying bobbin 6 by rotation and centrifugal force of the yarn Y unwound from the yarn supplying bobbin 6, and controls the balloon of the yarn Y to an appropriate size, thereby assisting the unwinding of the yarn Y.
a sensor (not depicted) for detecting a chase portion of the yarn supplying bobbin 6 is provided. When this sensor detects descent of the chase portion, the yarn-unwinding assisting device 7 follows the descent of the chase portion to lower the regulation member 8 by an air cylinder (not depicted), for example.
the tension applying device 9 applies a predetermined tension to the traveling yarn Y.
a tension applying device 9 for example, a gate-type device in which movable comb teeth are disposed with respect to fixed comb teeth can be used. By causing the yarn Y to pass through between the comb teeth meshing with each other while causing the yarn Y to bend, resistance can be applied to the traveling yarn Y to apply an appropriate tension thereto.
a disk-type device can be used as the tension applying device 9.
the yarn monitor 11 includes a sensor (not depicted) for detecting an abnormal part (yarn defect) of the yarn Y. Near the yarn monitor 11, a cutter 12 configured to cut the yarn Y immediately after the yarn monitor 11 has detected a yarn defect is provided.
the splicer device 13 splices the lower yarn on the yarn supplying bobbin 6 side and the upper yarn on the side of a winding bobbin 14.
a mechanical knotter or a device using fluid such as compressed air for example, can be used as the splicer device configured to splice the upper yarn and the lower yarn.
a lower-yarn catching member 16 configured to catch the lower yarn to guide the lower yarn to the splicer device 13 is provided below the splicer device 13 .
an upper yarn catching member 18 configured to catch the upper yarn to guide the upper yarn to the splicer device 13 is provided above the splicer device 13 .
the winding section 15 includes a cradle 20 configured to support the winding bobbin 14 around which the yarn Y is wound and the contact roller 22 configured to come into contact with the circumferential surface of the winding bobbin 14 and being rotatable.
the winding section 15 includes a rotational driving source (not depicted) configured to rotationally drive the winding bobbin 14 supported by the cradle 20. By rotationally driving the winding bobbin 14, the yarn Y can be wound around the circumference of the winding bobbin 14.
the winding bobbin 14 around which the yarn Y has been wound in this manner is called a package P.
the winder unit 2 includes an arm-type traverse device 24 configured to traverse the yarn Y to be wound around the winding bobbin 14 near the cradle 20.
the traverse device 24 includes a traverse driving motor (driving section) 26 and a traverse guide 30.
the traverse driving motor 26 is a driving source configured to move the traverse guide 30 in a reciprocating rotational manner.
the traverse driving motor 26 is configured with a servo motor, for example.
the traverse driving motor 26 has a rotational drive shaft 28 connected to the traverse guide 30 as an output shaft.
the traverse guide 30 is fixed to the rotational drive shaft 28 in a relatively non-rotatable manner. As depicted in FIG. 3 , in a state in which the traverse guide 30 is fixed to the rotational drive shaft 28, the longitudinal direction of the traverse guide 30 is substantially orthogonal to the rotational drive shaft 28.
the rotor of the traverse driving motor 26 repeats forward and reverse rotations, whereby the traverse guide 30 moves in a reciprocating rotational manner.
a guide member 51 (described later in detail) attached to the traverse guide 30, the yarn Y is caught. Accordingly, this yarn Y reciprocates in the winding width direction (lateral direction in FIG. 2 ) of the package P in conjunction with the motion of the traverse guide 30.
the yarn Y is wound around the winding bobbin 14 while being traversed, whereby the package P of a predetermined shape can be formed.
the traverse guide 30 includes an arm body member 31 and an attached member 41 attached to the arm body member 31.
the following description is made assuming that the longitudinal direction of the traverse guide 30 is a "direction ⁇ ", the direction along the traveling direction of the yarn Y orthogonal to the direction ⁇ is a "direction ⁇ ", and the crosswise direction of the traverse guide 30 orthogonal to the direction ⁇ and to the direction ⁇ is a "direction ⁇ ".
the direction intersecting the direction P is any direction including the direction ⁇ and the direction ⁇ .
the arm body member 31 has a body portion 32, a base end portion 33 provided to the body portion 32 on the base end side in the direction ⁇ , and a distal end portion 34 provided to the body portion 32 on the distal end side in the direction ⁇ .
the arm body member 31 contains a metallic material.
the arm body member 31 of the present embodiment ismoldedby die casting, thixomolding, or inj ectionmolding, for example, using the metallic material.
the arm body member 31 is molded integrally with the guide member 51 described later without adhesive applied therebetween.
the metallic material herein is a material containing metal or an alloy. Examples of the metallic material contained in the arm body member 31 include an aluminium alloy, a magnesium alloy, brass, a zinc alloy, a beryllium alloy, and zinc.
the body portion 32 has a shape of a plate that tapers down from the base end portion 33 toward the distal end portion 34.
the base end portion 33 is a portion to which the attached member 41 is attached.
Through holes 33a, 33b, 33c, and 33d are formed on the base end portion 33.
a fastener such as a screw is inserted into each of the through holes 33a, 33b, and 33c.
the attached member 41 is fastened to the base end portion 33.
the rotational drive shaft 28 see FIG. 3
the attached member 41 contains aluminium, for example.
the attached member 41 is formed by machining, for example.
an attachment hole 42 into which the rotational drive shaft 28 (see FIG. 3 ) is inserted is formed in the attached member 41.
the traverse guide 30 is attached to the rotational drive shaft 28 (see FIG. 3 ) through the attachment hole 42.
FIG. 4 Referring to FIG. 4 , FIG. 5A , FIG. 5B , and FIG. 6 , the following describes the distal end portion 34 and the guide member 51 that is fixed integrally with the distal end portion 34 in detail.
the distal end portion 34 has a hook-like curved shape. Specifically, the distal end portion 34 extends straight from the base end side along the direction ⁇ and is then curved, and the distal end thereof extends so as to face the base end portion 33. The distal end portion 34 bends in a hook-like shape to form a substantial J-shape in plan view.
the guide member 51 is a portion that comes into contact with the yarn Y in the traverse guide 30.
the guide member 51 has a yarn hooking portion 51a configured to hook the yarn Y.
the guide member 51 similarly to the distal end portion 34, has a hook-like curved shape having a substantial J-shape in plan view. Specifically, the guide member 51 extends straight from the base end 51b thereof along the direction ⁇ and is then curved at a curved portion 51f, and the distal end 51c thereof extends so as to face the base end portion 33. In the guide member 51, the base end 51b is positioned closer to the body portion 32 than the distal end 51c is.
the guide member 51 may be surface treated.
This surface treatment film includes at least one of a diamond-like carbon film (DLC film), a titanium nitride film (TiN film), a titanium carbonitride film (TiCN film), a titanium aluminium nitride film (TiAlN film), and an aluminium chromium nitride film (AlCrN film).
DLC film diamond-like carbon film
TiN film titanium nitride film
TiCN film titanium carbonitride film
TiAlN film titanium aluminium nitride film
AlCrN film aluminium chromium nitride film
the yarn hooking portion 51a is structured with portions including a side surface of the guide member 51 on the inner peripheral side.
the yarn hooking portion 51a is disposed on a curved-shape inner side than a side surface 34a of the distal end portion 34 on the inner peripheral side is.
the yarn hooking portion 51a is provided along the shape of the guide member 51, and bends in a hook-like shape to form a substantial J-shape in plan view.
the yarn Y (see FIG. 3 ) traversed by the traverse device 24 slidingly travels while being in contact with the yarn hooking portion 51a.
inner periphery herein means a periphery of the curve bending in a hook-like shape on the inner side.
curved-shape inner side means the inner side in the curved shape.
part of the guide member 51 other than the yarn hooking portion 51a is embedded in the distal end portion 34 of the arm body member 31.
an outer peripheral part 51d of the guide member 51 is embedded in a groove 34b formed on the side surface 34a of the distal end portion 34 on the inner peripheral side.
the outer peripheral part 51d is an embedded portion embedded in the distal end portion 34.
a side surface on the outer peripheral side and a pair of surfaces intersecting the direction ⁇ are covered by the groove 34b in a state of being in close contact with the groove 34b without a gap therebetween.
an inner peripheral part 51e of the guide member 51 including the yarn hooking portion 51a is exposed from the distal end portion 34.
the inner peripheral part 51e protrudes toward the curved-shape inner side more than the side surface 34a of the distal end portion 34 on the inner peripheral side does.
outer periphery herein means a periphery of the curve bending in a hook-like shape on the outer side.
the distal end 51c and its vicinity of the guide member 51 jut out toward the body portion 32 more than the distal end 34c of the distal end portion 34 does. With this configuration, the yarn Y to be traversed can be made less likely to come into contact with the distal end 34c of the distal end portion 34.
the guide member 51 thus configured is integrally fixed to the distal end portion 34 of the arm body member 31.
the guide member 51 is tucked into and engages with the arm body member 31 in the direction ⁇ , and is also tucked into and engages with the arm body member 31 in the direction intersecting the direction ⁇ .
the guide member 51 is tucked into and engages with the arm body member 31 in all of the direction ⁇ , the direction ⁇ , and the direction ⁇ as depicted in FIG. 5A and FIG. 5B .
the hardness of the guide member 51 is higher than the hardness of the arm body member 31.
the hardness of material contained in the guide member 51 only needs to be equal to or higher than 120HV in Vickers hardness.
Specific examples of the material contained in the guide member 51 include ceramics such as alumina and zirconia, siliconnitride, siliconcarbide, and high-hardness alloy materials such as a tungsten alloy, a nickel alloy, a chromium-molybdenum alloy, a nickel-chromium-molybdenum alloy, and a chromium alloy.
the guide member 51 contains alumina.
the guide member 51 containing alumina is prepared (step S1).
This guide member 51 is formed in a hook-like shape by sintering using a muffle furnace, for example. On the guide member 51, grinding, for example, may be performed.
the metallic material and the guide member 51 are placed in a die, and the die is closed.
the metallic material in the die is hot molded and is then cooled to form the arm body member 31 (step S2).
the metallic material and the guide member 51 are placed in the die so that at least part of the guide member 51 other than the yarn hooking portion 51a is embedded in the metallic material.
the metallic material in a chip form or a pellet form may be placed in the die.
the melting temperature of the metallic material is set lower, whereby dimensional accuracy and strength, for example, of the arm body member 31 can be improved.
step S3 the arm body member 31 in which the guide member 51 is embedded is taken out of the die.
step S4 the attached member 41 is attached to the arm body member 31 (step S4).
step S4 with screws to be inserted into the through holes 33a, 33b, and 33c, the attached member 41 is fastened to the base end portion 33.
the guide member 51 other than the yarn hooking portion 51a has the embedded portion (outer peripheral part 51d) embedded in the distal end portion 34 of the arm body member 31.
the at least part of the guide member 51 other than the yarn hooking portion 51a enters and comes into close contact with the distal end portion 34 of the arm body member 31, and is tucked into the arm body member 31 so as not to detach. Consequently, the guide member 51 is integrally fixed, being firmly held on the arm body member 31 without adhesive applied therebetween so as not to detach.
the guide member 51 can be reliably fixed to the arm body member 31.
the traverse guide 30 can traverse the yarn Y for a long period of time.
the guide member 51 and the distal end portion 34 integrally fixed to the guide member 51 each have a hook-like curved shape.
the yarn hooking portion 51a is structured with portions including the side surface of the guide member 51 on the inner peripheral side, and is disposed on the curved-shape inner side than the side surface 34a of the distal end portion 34 on the inner peripheral side is.
the guide member 51 is tucked into and engages with the arm body member 31 in the direction ⁇ , and also is tucked into and engages with the arm body member 31 in the direction intersecting the direction ⁇ . With this configuration, position error of the guide member 51 in the direction ⁇ and the direction intersecting the direction ⁇ can be prevented by the arm body member 31.
the guide member 51 is fixed integrally with the arm body member 31 when the arm body member 31 is molded. In this case, without applying adhesive, the guide member 51 can be firmly fixed to the arm body member 31.
the metallic material contained in the arm body member 31 is an aluminium alloy, a magnesium alloy, brass, a zinc alloy, a beryllium alloy, or zinc. This can reduce the weight of the traverse guide 30.
the guide member 51 contains ceramics.
the guide member 51 having high hardness can be prepared at low cost.
the guide member 51 may contain a tungsten alloy, a nickel alloy, a chromium-molybdenum alloy, a nickel-chromium-molybdenum alloy, or a chromium alloy.
the guide member 51 can contain a metallic material having high hardness.
At least one of a diamond-like carbon film, a titanium nitride film, a titanium carbonitride film, a titanium aluminium nitride film, and an aluminium chromium nitride film may be provided. In this case, abrasion resistance of the guide member 51 improves.
the guide member 51 and the distal end portion 34 may be provided to the body portion 32 on the distal end side in a state of being rotated 180° about the direction ⁇ from the state depicted in FIGS. 5A and 5B .
the guide member 51 and the distal end portion 34 bending in hook-like shapes may be formed so that the opening on the curved-shape inner side is open to the distal end side of the arm body member 31, instead of being formed as depicted in FIGS. 5A and 5B in which the opening on the curved-shape inner side is open to the base end side of the arm body member 31.
the guide member 51 may be integrally fixed to the distal end portion 34 by forming the groove 34b (see FIG. 6 ) of the distal end portion 34 so that the groove 34b is open to the distal end side, and embedding the outer peripheral part 51d of the guide member 51 along the groove 34b.
an intermediate layer may be provided on a surface (e.g. , a side surface of the guide member 51 on the outer peripheral side) of the guide member 51 embedded in the arm body member 31.
the traverse guide 30 may further include an intermediate layer provided on a surface of the guide member 51 embedded in the arm body member 31.
the intermediate layer is a layer having excellent accessibility (wettability) to the arm body member 31 containing the metallic material.
the intermediate layer is a metallization layer, for example.
the metallization layer is provided on the surface of the guide member 51 by metallizing with high-melting point metal paste, active-metal plating, or noble-metal plating, for example.
metallization layer By providing such a metallization layer on the surface, bondability between the arm body member 31 containing the metallic material and the guide member 51 containing ceramics can be improved.
chemical bonding metal bonding
the guide member 51 is firmly fixed to the arm body member 31.
the metallization layer may be provided after the surface treatment film is formed, or may be provided before the surface treatment film is formed. In other words, the surface treatment film may be provided on the metallization layer, or may be provided between the surface of the arm body member 31 and the metallization layer.
a portion of a guide member 51A embedded in a distal end portion 34A is provided with a pair of protruding portions 52.
the protruding portions 52 are provided extending along the outer peripheral part 51d of the guide member 51A.
the protruding portions 52 protrude in the direction ⁇ from a pair of surfaces of the outer peripheral part 51d each on the outer peripheral side.
This guide member 51A has a substantial T-shape cross section.
recesses 35 in which the protruding portions 52 are embedded in a state of being in close contact therewith are formed.
the recesses 35 have shapes corresponding to the protruding portions 52 of the guide member 51A.
the recesses 35 are formed extending along the groove 34b.
the recesses 35 are formed in a pair on the bottom side of the groove 34b so as to face each other in the direction ⁇ .
the pair of the recesses 35 each are recessed on one side and the other side in the direction ⁇ .
the guide member 51A is integrally fixed to the arm body member 31, being firmly held on the arm body member 31 without adhesive applied therebetween so as not to detach.
the functional effect of enabling the guide member 51A to be reliably fixed to the arm body member 31 without applying adhesive can be obtained.
the protruding portions 52 are engaged with the recesses 35 in the direction intersecting the direction ⁇ , whereby the guide member 51A can be reliably prevented from detaching. Because the protruding portions 52 are in close contact with the recesses 35, a backlash of the guide member 51 can be prevented.
the protruding portions 52 do not necessarily have to be provided extending continuously along the outer peripheral part 51d of the guide member 51A, and may be provided extending intermittently, for example.
the protruding portions 52 may be provided to the arm body member 31, and the recesses 35 may be formed in the guide member 51A.
the above-described functional effect can be obtained. The essential thing is that either one of the portion of the guide member 51A embedded in the arm body member 31 and the arm body member 31 needs to be provided with the protruding portions 52, and the other needs to be provided with the recesses 35.
part of the outer peripheral part 51g juts out toward the curved-shape outer side more than a distal end portion 34B does, and part of the inner peripheral part 51e juts out toward the curved-shape inner side more than the distal end portion 34B does.
areas from the vicinity of the curved portion 51f to a distal end part in the outer peripheral part 51g of the guide member 51B are exposed from the distal end portion 34B.
through holes 53a to 53c are formed each along the direction ⁇ .
the shape of the through holes 53a to 53c in plan view is circular, but may be substantially rectangular, for example.
the through holes 53a to 53c are formed in the guide member 51B at portions embedded in the distal end portion 34B.
the through holes 53a to 53c are separated from each other.
the through hole 53a is formed on the base end 51b side with respect to the curved portion 51f of the guide member 51B.
the through hole 53b is formed near the curved portion 51f of the guide member 51B.
the through hole 53c is formed on the distal end 51c side with respect to the curved portion 51f of the guide member 51B.
the number of through holes formed in the guide member 51B may be one or two, or may be four or more.
a plurality of through holes are formed in the guide member 51B, at least one thereof needs to be formed on the base end 51b side with respect to the curved portion 51f of the guide member 51B, and at least one of the others needs to be formed on the distal end 51c side with respect to the curved portion 51f of the guide member 51B.
the distal end portion 34B includes a pair of plate-like portions 34d between which the guide member 51B is sandwiched along the direction ⁇ and bone portions 36a to 36c (first bone portion) extending along the direction ⁇ .
the pair of the plate-like portions 34d are coupled to each other by the bone portions 36a to 36c.
the number of bone portions provided to the distal end portion 34B is the same as the number of the through holes.
the bone portion 36a is inserted into the through hole 53a and is in close contact with the inner surface of the through hole 53a.
the bone portion 36b is inserted into the through hole 53b and is in close contact with the inner surface of the through hole 53b
the bone portion 36c is inserted into the through hole 53c and is in close contact with the inner surface of the through hole 53c.
the shapes of the bone portions 36a to 36c are the same as the shapes of the through holes 53a to 53c, respectively.
the guide member 51B is integrally fixed to the arm body member 31, being firmly held on the arm body member 31 without adhesive applied therebetween so as not to detach.
the functional effect of enabling the guide member 51B to be reliably fixed to the arm body member 31 without applying adhesive can be obtained.
guide member 51B is engaged with the arm body member 31 in the direction intersecting the direction ⁇ by the through holes 53a to 53c and the bone portions 36a to 36c.
the guide member 51B can be reliably prevented from detaching. Because the bone portions 36a to 36c are in close contact with the inner surfaces of the through holes 53a to 53c, respectively, a backlash of the guide member 51B can be prevented.
the base end 51b of the guide member 51B is embedded in the distal end portion 34B of the arm body member 31.
a gap or a level difference for example, formed between the base end 51b of the guide member 51B and the arm body member 31 can be bridged.
protruding portions 37a to 37d may be provided to the distal end portion 34C.
the protruding portions 37a to 37d each protrude toward the guide member 51C along the direction ⁇ .
the distal end of the protruding portion 37a and the distal end of the protruding portion 37b face each other with a gap interposed therebetween in the direction ⁇ .
the distal end of the protruding portion 37c and the distal end of the protruding portion 37d face each other with a gap interposed therebetween in the direction ⁇ .
recesses 54a to 54d in which the protruding portions 37a to 37d are embedded, respectively, in a state of being in close contact therewith are formed.
a plurality of dimples may be formed in the guide member 51C, and a plurality of protruding portions that are embedded in the respective dimples in a state of being in close contact therewith may be provided to the distal end portion 34C.
the distal end of the protruding portion 37a and the distal end of the protruding portion 37b may be in contact with each other.
the distal end of the protruding portion 37c and the distal end of the protruding portion 37d may be in contact with each other.
a guide member 51D has a first member 61 and a second member 62.
the first member 61 and the second member 62 are members having stick shapes each extending along the direction ⁇ .
the first member 61 and the second member 62 are separated from each other in parallel.
the length of the first member 61 along the direction ⁇ is longer than the length of the second member 62.
the stick shape is also called a column shape.
the first member 61 and the second member 62 may have a cylindrical column shape or may have a polygonal column shape.
the first member 61 and the second member 62 of the thirdmodi f ication are members having cylindrical column shapes.
Part of the first member 61 is embedded in a distal end portion 34D. Specifically, both end portions of the first member 61 are embedded in the distal end portion 34D. A portion of the first member 61 on the side opposite to the second member 62 side is embedded in the distal end portion 34D. In other words, both end portions of the first member 61 and the portion of the first member 61 on the side opposite to the second member 62 side are embedded portions embedded in the distal end portion 34D. In contrast, a portion of the first member 61 other than these portions is exposed from the distal end portion 34D.
Part of the second member 62 is embedded in the distal end portion 34D. Specifically, both end portions of the second member 62 are embedded in the distal end portion 34D. A portion of the second member 62 on the side opposite to the first member 61 side is embedded in the distal end portion 34D. In other words, both end portions of the second member 62 and the portion of the second member 62 on the side opposite to the first member 61 side are embedded portions embedded in the distal end portion 34D. In contrast, a portion of the second member 62 other than these portions is exposed from the distal end portion 34D.
the exposed portion of the first member 61 which is a portion of the first member 61 excluding both end portions and including a surface opposing to the second member 62, forms a yarn hooking portion 61a.
the exposed portion of the second member 62 which is a portion of the second member 62 excluding both end portions and including a surface opposing to the first member 61, forms a yarn hooking portion 62a.
the yarn hooking portions 61a and 62a have the same function as that of the yarn hooking portion 51a in the above-described embodiment. These yarn hooking portions 61a and 62a are disposed on the curved-shape inner side than the side surface 34a of the distal end portion 34D on the inner peripheral side.
the distal end 34c of the distal end portion 34D protrudes toward a curved direction inner side (first member 61 side) in the direction ⁇ .
the end portion of the second member 62 is securely embedded in the distal end portion 34D.
the guide member 51D is integrally fixed to the arm body member 31, being firmly held thereon without adhesive applied therebetween so as not to detach.
the functional effect of enabling the guide member 51D to be reliably fixed to the arm body member 31 without applying adhesive can be obtained.
the guide member 51D can be easily formed. Because both ends of each of the first member 61 and the second member 62 are embedded in the distal end portion 34D, these both ends of each of the first member 61 and the second member 62 can reliably prevent the guide member 51D from detaching.
a guide member 51E covers most part of the distal end portion 34E in the arm body member 31. Specifically, the guide member 51E covers at least the side surface 34a of the distal end portion 34E on the inner peripheral side and a pair of surfaces of the distal end portion 34E that intersect the direction ⁇ . In contrast, the side surface of the distal end portion 34E on the outer peripheral side is not covered by the guide member 51E.
through holes 38a and 38b are formed along the direction ⁇ .
the shape of the through holes 38a and 38b in plan view is circular, but may be substantially rectangular, for example.
the through holes 38a and 38b are formed in the distal end portion 34E at portions covered by the guide member 51E, and are separated from each other.
the through hole 38a is formed in the distal end portion 34E on the base end side with respect to a curved portion 34e.
the through hole 38b is formed in the distal end portion 34E on the distal end side with respect to the curved portion 34e.
the fourth modification when a plurality of through holes are formed in the distal end portion 34E, at least one of the through holes needs to be formed in the distal end portion 34E on the distal end side with respect to the curved portion 34e, and at least one of the other through holes needs to be formed in the distal end portion 34E on the base end side with respect to the curved portion 34e.
the guide member 51E is provided with bone portions 55a and 55b (second bone portion) extending along the direction ⁇ .
the number of bone portions provided to the guide member 51E is the same as the number of the through holes.
the bone portion 55a is inserted into the through hole 38a and is in close contact with the inner surface of the through hole 38a.
the bone portion 55b is inserted into the through hole 38b and is in close contact with the inner surface of the through hole 38b.
the shapes of the bone portions 55a and 55b are the same as the shapes of the through holes 38a and 38b, respectively.
the bone portions 55a and 55b are embedded portions embedded in the distal end portion 34E.
the guide member 51E is integrally fixed to the arm body member 31, being firmly held thereon without a gap interposed therebetween and without adhesive applied therebetween so as not to detach.
the guide member 51E is engaged with the arm body member 31 in the direction intersecting the direction ⁇ by the through holes 38a and 38b and the bone portions 55a and 55b.
the guide member 51E can be reliably prevented from detaching. Because the bone portions 55a and 55b are in close contact with the inner surfaces of the through holes 38a and 38b, respectively, a backlash of the guide member 51E can be prevented.
the base end 51b of the guide member 51 in the above-described embodiment may be embedded in the arm body member 31 as described in the second modification (the base end 51b may be included as an embedded portion).
the yarn Y to be traversed can be prevented from being caught in a gap or a level difference, for example, formed between the base end 51b of the guide member 51 and the arm body member 31.
the base end of the guide member 51E may be embedded in the arm body member 31 (the base end of the guide member 51E may be included as an embedded portion) .
the arm body member 31 contains the metallic material, but the present disclosure is not limited to this.
the arm body member 31 may contain metal oxide or resin.
the arm body member 31 may be a component having the body portion 32 the length of which is very short in the direction ⁇ .
the arm body member 31 may be a relatively small component that does not have the body portion 32 and in which the base end portion 33 and the distal end portion 34 are integrated.
the arm body member 31 may be attached to a member configured to traverse, such as a belt.
the essential thing is that the arm body member 31 only needs to be a member integrally fixing the guide member, and does not necessarily have to be a member in itself configured to traverse.
a traverse guide includes: an arm body member having a distal end portion in a hook-like curved shape and containing a metallic material; and a guide member integrally fixed to the distal end portion of the arm body member and having a yarn hooking portion configured to hook a yarn.
Hardness of the guide member is higher than hardness of the arm body member, and in at least part of the guide member other than the yarn hooking portion, an embedded portion to be embedded in the distal end portion is formed.
the guide member may be fixed integrally with the arm body member when the arm body member is molded. In this case, without applying adhesive, the guide member can be firmly fixed to the arm body member.
the traverse guide may include: an arm body member having a distal end portion in a hook-like curved shape and containing a metallic material; and a guide member integrally fixed to the distal end portion of the arm body member and having a yarn hooking portion configured to hook a yarn.
an embedded portion to be embedded in the distal end portion may be formed. In this case, without applying adhesive, the guide member can be reliably fixed to the arm body member.
the traverse guide may include: an arm body member having a distal endportion in a hook-like curved shape and containing a metallic material; and a guide member integrally fixed to the distal end portion of the arm body member and having a yarn hooking portion configured to hook a yarn.
a through hole may be formed in the guide member, and the arm body member may have a first bone portion inserted into the through hole and being in close contact with an inner surface of the through hole. In this case, the through hole and the first bone portion can prevent the guide member from detaching. Because the first bone portion is in close contact with the inner surface of the through hole, a backlash of the guide member can be prevented.
the traverse guide may include: an arm body member having a distal end port ion in a hook-like curved shape and containing a metallic material; and a guide member integrally fixed to the distal end portion of the arm body member and having a yarn hooking portion configured to hook a yarn.
the guide member may be tucked into and engage with the arm body member along a traveling direction of the yarn, and may also be tucked into and engage with the arm body member along a direction intersecting the traveling direction. In this case, the arm body member canprevent position error of the guide member in the traveling direction and the direction intersecting the traveling direction.
the traverse guide may include: an arm body member having a distal endportion in a hook-like curved shape and containing a metallic material; and a guide member integrally fixed to the distal end portion of the arm body member and having a yarn hooking portion configured to hook a yarn.
the guide member may be provided so as to cover part of the arm body member, a through hole may be formed in the arm body member, and the guide member may have a second bone portion inserted into the through hole and being in close contact with an inner surface of the through hole. In this case, the through hole and the second bone portion can prevent the guide member from detaching. Because the second bone portion is in close contact with the inner surface of the through hole, a backlash of the guide member can be prevented.
the traverse guide may include: an arm body member having a distal endportion in a hook-like curved shape and containing a metallic material; and a guide member integrally fixed to the distal end portion of the arm body member and having a yarn hooking portion configured to hook a yarn.
the guide member may have a hook-like curved shape, and the yarn hooking portion may be structured with a portion including an inner peripheral surface of the guide member and may be disposed on a curved-shape inner side than an inner peripheral surface of the distal end portion is. In this case, the yarn to be traversed can be prevented from coming into contact with portions other than the yarn hooking portion.

Landscapes

Guides For Winding Or Rewinding, Or Guides For Filamentary Materials (AREA)
Winding Filamentary Materials (AREA)

EP16195738.6A 2015-11-09 2016-10-26 Guide transversal, machine de bobinage de fil et procédé de production de guide transversal Withdrawn EP3165488A1 (fr)

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
JP2015219385A JP2017088301A (ja)	2015-11-09	2015-11-09	トラバースガイド、糸巻取機、及びトラバースガイドの製造方法

Publications (1)

Publication Number	Publication Date
EP3165488A1 true EP3165488A1 (fr)	2017-05-10

Family

ID=57218725

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
EP16195738.6A Withdrawn EP3165488A1 (fr)	2015-11-09	2016-10-26	Guide transversal, machine de bobinage de fil et procédé de production de guide transversal

Country Status (3)

Country	Link
EP (1)	EP3165488A1 (fr)
JP (1)	JP2017088301A (fr)
CN (1)	CN106904486A (fr)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
CN112520501A (zh) *	2021-02-03	2021-03-19	苏州天沐乐纺织有限公司	一种纱架上的延伸臂

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
CN110923420A (zh) *	2019-12-17	2020-03-27	常熟市恒丰机械制造有限公司	一种导纱器的生产工艺

Citations (3)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US6505791B1 (en) *	1998-06-12	2003-01-14	Maschinenfabrik Rieter Ag	Thread traversing device
EP2196423A2 (fr) *	2008-12-10	2010-06-16	Murata Machinery, Ltd.	Bras de va-et-vient et machine de renvideur de fil l'incluant
JP2013063807A (ja)	2011-09-15	2013-04-11	Murata Machinery Ltd	トラバースガイド、巻取ユニット、及び糸巻取機

2015
- 2015-11-09 JP JP2015219385A patent/JP2017088301A/ja active Pending
2016
- 2016-10-25 CN CN201610937176.9A patent/CN106904486A/zh active Pending
- 2016-10-26 EP EP16195738.6A patent/EP3165488A1/fr not_active Withdrawn

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US6505791B1 (en) *	1998-06-12	2003-01-14	Maschinenfabrik Rieter Ag	Thread traversing device
EP2196423A2 (fr) *	2008-12-10	2010-06-16	Murata Machinery, Ltd.	Bras de va-et-vient et machine de renvideur de fil l'incluant
JP2013063807A (ja)	2011-09-15	2013-04-11	Murata Machinery Ltd	トラバースガイド、巻取ユニット、及び糸巻取機

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
CN112520501A (zh) *	2021-02-03	2021-03-19	苏州天沐乐纺织有限公司	一种纱架上的延伸臂

Also Published As

Publication number	Publication date
JP2017088301A (ja)	2017-05-25
CN106904486A (zh)	2017-06-30

Publication	Publication Date	Title
RU2608019C2 (ru)	2017-01-11	Принудительное подающее устройство для подачи металлических проволок с постоянным натяжением
EP3584062A1 (fr)	2019-12-25	Appareil d'impression tridimensionnel
EP3165488A1 (fr)	2017-05-10	Guide transversal, machine de bobinage de fil et procédé de production de guide transversal
EP2712830B1 (fr)	2017-07-26	Bras de va-et-vient et machine de renvideur de fil l'incluant
US8020309B2 (en)	2011-09-20	Circularity measuring apparatus
EP2773834B1 (fr)	2018-03-14	Rideaux électriques de sécurité
JP5514229B2 (ja)	2014-06-04	ワイヤソー装置およびワイヤソー装置を動作させる方法
EP2284582A1 (fr)	2011-02-16	Appareil de câblage pour fibres optiques
WO2007096765A1 (fr)	2007-08-30	Dispositif ameliore pour amener du fil a une machine textile et procede pour mettre en œuvre cette alimentation
EP2570377B1 (fr)	2015-03-18	Guide-fil va-et-vient, unité d'enroulement et machine d'enroulement
JP2018512973A5 (fr)	2018-07-05
JP5288836B2 (ja)	2013-09-11	切りくず処理機能付き工作機械
WO2017179132A1 (fr)	2017-10-19	Dispositif de coupe de dimensionnement automatique
WO2017141305A1 (fr)	2017-08-24	Dispositif de coupe et bord de coupe
US9409737B2 (en)	2016-08-09	Endless clip-strip feed splicer
EP2907645A1 (fr)	2015-08-19	Unité d'injection
EP2765103A1 (fr)	2014-08-13	Dispositif de mandrin et dispositif d'enroulement en arceau
EP3025817B1 (fr)	2016-11-09	Outil de coupe pour dressage d'embouts
EP3042872B1 (fr)	2019-08-21	Machine de bobinage de fil et procédé de fabrication d'une bobine
EP3749603B1 (fr)	2024-05-22	Procédé et système d'alimentation en fil d'optimisation de l'alimentation en fil d'une machine textile fonctionnant de manière très discontinue ou à mouvement alternatif
JP5930301B2 (ja)	2016-06-08	フィンガ状ヤーンガイド
EP3453662B1 (fr)	2021-12-22	Machine d'enroulement de fil
JPH09233775A (ja)	1997-09-05	モータ回転子の製造装置
BR112015002392B1 (pt)	2020-09-24	Método para a adaptação de um movimento de alteração de um fio para uma bobina de flange e um dispositivo de bobinagem
EP2982631A1 (fr)	2016-02-10	Bras de va-et-vient et machine de bobinage de fil

Legal Events

Date	Code	Title	Description
2017-04-07	PUAI	Public reference made under article 153(3) epc to a published international application that has entered the european phase	Free format text: ORIGINAL CODE: 0009012
2017-05-10	AK	Designated contracting states	Kind code of ref document: A1 Designated state(s): AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR
2017-05-10	AX	Request for extension of the european patent	Extension state: BA ME
2017-10-04	17P	Request for examination filed	Effective date: 20170823
2017-10-04	RBV	Designated contracting states (corrected)	Designated state(s): AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR
2018-05-30	17Q	First examination report despatched	Effective date: 20180503
2018-06-08	STAA	Information on the status of an ep patent application or granted ep patent	Free format text: STATUS: THE APPLICATION HAS BEEN WITHDRAWN
2018-07-11	18W	Application withdrawn	Effective date: 20180604

EP3165488A1 - Guide transversal, machine de bobinage de fil et procédé de production de guide transversal - Google Patents

Info

Links

Images

Classifications

Definitions

Landscapes

Applications Claiming Priority (1)

Publications (1)

Family

ID=57218725

Family Applications (1)

Country Status (3)

Cited By (1)

Families Citing this family (1)

Citations (3)

Patent Citations (3)

Cited By (1)

Also Published As

Similar Documents

Legal Events