EP0401827A1 - Dispositif pour enlever des résidus de mèches de bobines de mèche par aspiration - Google Patents

Dispositif pour enlever des résidus de mèches de bobines de mèche par aspiration Download PDF

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Publication number
EP0401827A1
EP0401827A1 EP90110816A EP90110816A EP0401827A1 EP 0401827 A1 EP0401827 A1 EP 0401827A1 EP 90110816 A EP90110816 A EP 90110816A EP 90110816 A EP90110816 A EP 90110816A EP 0401827 A1 EP0401827 A1 EP 0401827A1
Authority
EP
European Patent Office
Prior art keywords
suction
nozzle
bobbins
roving
bobbin
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP90110816A
Other languages
German (de)
English (en)
Other versions
EP0401827B1 (fr
Inventor
Hiroaki Sanno
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.)
Murao and Co Ltd
Original Assignee
Murao and Co 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.)
Filing date
Publication date
Priority claimed from JP1147514A external-priority patent/JP2766673B2/ja
Priority claimed from JP1990000312U external-priority patent/JPH0748690Y2/ja
Application filed by Murao and Co Ltd filed Critical Murao and Co Ltd
Publication of EP0401827A1 publication Critical patent/EP0401827A1/fr
Application granted granted Critical
Publication of EP0401827B1 publication Critical patent/EP0401827B1/fr
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H73/00Stripping waste material from cores or formers, e.g. to permit their re-use
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2701/00Handled material; Storage means
    • B65H2701/30Handled filamentary material
    • B65H2701/31Textiles threads or artificial strands of filaments

Definitions

  • roving yarn residual yarn
  • a roving bobbin formed by molding using wood, synthetic resin, metal, or paper
  • a cutting type in which residual yarn is removed by cutting with a sharp cutting edge applied to the peripheral surface of a roving bobbin in an axial direction of the bobbin
  • a suction type in which residual yarn is rewound by utilizing a pneumatic suction force while a roving bobbin is held rotatably, and at the same time such air current is utilized to disintegrate roving yarn
  • a winding type in which a roving bobbin is held rotatably and is brought into contact with a roving yarn winding band member or the like which is moving to wind roving yarn onto the band for removal.
  • the conveyance of roving bobbins is rationalized.
  • roving bobbins are replaced at a time, or in some construction, roving bobbins after winding in a roving frame are mounted to a conveying device and thereby moved to the creel portion of a ring frame, where they constitute a creel directly.
  • Such a conveyance line is utilized also as an empty bobbin discharge line.
  • a plurality of suction nozzles and a driving device for rotating plural roving bobbins are provided in part of a conveyance line for the return of the roving bobbins in corresponding relation to the bobbins which have been introduced and stopped in a row along the said conveyance line.
  • the nozzles are moved simultaneously toward the peripheral surfaces of the bobbins while an appropriate suction spacing from the yarn end is maintained according to the amount of the residual yarn on each bobbin. Further, the nozzles are moved vertically at a time to search for and such in the yarn end, then moved back in a required height position while sucking in the residual yarn.
  • the roving yarn thus sucked in is immediately disintegrated by utilizing the suction air current in each suction nozzle.
  • the nozzles are again moved up to the positions of such auxiliary members, so that the residual yarns on the bobbins can be surely removed by suction.
  • Fig. 1 shows an apparatus 1 for removing residual yarn from roving bobbins by suction according to the present invention, which apparatus is disposed in opposed relation to a conveyance line 2.
  • a conveyance line 2 which is for the return of bobbins after creel replacement, a large number of bobbin hangers 2a are held for travel at predetermined intervals in a guide rail and are moved in the direction of arrow by a driving device (not shown). From the bobbin hangers 2a there are suspended bobbins 3 with residual yarn so as to be each rotatable freely.
  • the apparatus 1 for removing residual yarn by suction is provided inside a frame 1a.
  • the frame 1a comprises side wall frames 1a, 1a and upper and lower lateral frames 1aa, 1aa, which are mounted together, and hanger frames 1b, 1b are mounted to the upper lateral frame 1aa.
  • the residual yarn removing apparatus 1 is provided between the side wall frames 1a, 1a in a sandwiching relation to the conveyance line 2.
  • the apparatus 1 is disposed in a suspended state, it may be mounted on a base constituted by suitable frame members.
  • the apparatus 1 is for removing residual yarns on a large number of bobbins 3 simultaneously by suction, and in the illustrated embodiment twelve roving bobbins 2 are to be processed by the apparatus 1, but the number of roving bobbins to be processed may be increased or decreased as necessary.
  • a specific number (twelve in the drawings) of roving bobbins 3 are introduced into the residual yarn removing apparatus 1, and when they reach a predetermined position, the operation of the conveyance line 2 is stopped and the residual yarn on each bobbin is removed. When this processing is over, the conveyance line 2 is driven and moved again, whereby the bobbins are taken out as empty bobbins 3a as in Fig. 1.
  • the residual yarns on the bobbins can be sucked in and removed by disposing suction nozzles held at reduced pressure in opposed relation to the bobbins and then rotating the bobbins in a direction of unwinding the residual yarns.
  • suction nozzles held at reduced pressure in opposed relation to the bobbins and then rotating the bobbins in a direction of unwinding the residual yarns.
  • a residual yarn suction nozzle of the type in which pressurized air is introduced and jetted on a pull-in side and an air current formed on the opposite side is utilized as a suction force.
  • the pressurized air is introduced from a compressor provided separately or from a compressor disposed within the base which supports the base 1.
  • the residual yarn thus sucked in is taken out from a discharge port 4a shown in Fig. 2. If necessary, the discharge port 4a may be connected for the supply of the residual yarn to a collector through a duct provided in the above supporting base.
  • the residual yarn sucking and removing apparatus 1 is provided with a residual yarn sucking nozzle device 5 and a bobbin driving device 6, and the roving bobbins 3 introduced are guided on the root side thereby by a guide piece 7 extending throughout the overall length of the apparatus 1.
  • the guide piece 7 is enlarged on the bobbin introducing side (Figs. 7 and 8).
  • the suction nozzle device 5 comprises nozzles 10 which are projected in a biased state from a nozzle holding box 11 capable of being moved forward and backward, and a duct 8 for moving the nozzle 10 vertically while supporting them thereon.
  • the duct 8 and the discharge side of each nozzle 10 are connected through a connecting pipe 12.
  • the duct 8 is mounted to lift seats 14, 14 which are connected to lift drives 13, 13 and on the top of the duct 8 there are provided slide seats 9, 9 which support the nozzle holding box 11 slidably. More specifically, slide pieces 11a, 11a are fixed to the underside of the nozzle holding box 11 so as to be slidable forward and backward along the slide seats 9.
  • a driving motor 15 nearly centrally of the nozzle holding box 11, as shown in Fig. 7.
  • the driving motor 15 can be changed over between forward and reverse rotations. More particularly, a screw shaft 16 is engaged on one end side thereof with a retaining piece 17 attached to the duct 8, and by rotating the screw shaft 16 the nozzle holding box 11 is moved forward and backward.
  • nozzle holding box 11 In the advanced position of the nozzle holding box 11 a nose portion of each biased and projected suction nozzle 10 is in abutment with the outer periphery of an empty bobbin after the removal of residual yarn from the suspended roving bobbin 3 opposed thereto (Fig. 8), while in the retreated position the nozzles and the bobbins are in such a relation as shown in Fig. 7.
  • the lift drives 13 are each constituted as shown in Fig. 6.
  • a well frame 1ab in the shape of a square pillar is formed, extending to the upper and lower portions of the frame 1a, and a guide rod 18 is provided within the frame 1ab, extending to the upper and lower portions of the frame 1ab.
  • the lift seat 14 is mounted to the guide rod 18 vertically movably.
  • the front side of the lift seat 14 is projecting from a slit formed in the front side of the square pillar-like wall frame 1ab.
  • bearing brackets 19a and 19 are attached to the upper and lower portions respectively, of the frame 1ab, and a sprocket wheel is loosely supported by the upper bracket 19a, while a driving shaft 20 is loosely supported by the lower bracket 19, with a sprocket wheel attached thereto.
  • Chains 21 are passed round these sprocket wheels and retained at one ends thereof to the upper and lower portions, respectively, of the lift seat 14, while the other ends thereof are anchored to a turnbuckle type tension adjusting threaded rod 22.
  • the driving shaft 20 is driven by a motor 23 capable of being changed over between forward and reverse rotations. By the operation of the driving shaft 20 the lift seat 14 is moved vertically.
  • an arm 24 is attached to part of the lift seat 14 in a rearwardly projecting state, and position detecting switches 24a, 24b, 24c, 24d (the switch 24a being hidden behind the arm 24) are mounted in the wall frame 1ab so as to be adjustable position.
  • the motor 23 is stopped upon operation of each such position detecting switch. More specifically, the detecting switch 24a detects the lowest position of residual yarn wound round each roving bobbin 3; the switch 24b detects a height position of a later-­described, auxially winding member attached to the bobbin; the switch 24c detects a nearly central height position of the residual yarn wound portion; and the switch 24d detects the highest position of the residual yarn wound round the bobbin.
  • discharge pipes 25, 25 are connected through bellows to the lower portion of the duct 8 which is mounted to the lift seats 14 and supports the suction nozzle device 5.
  • the discharge pipes 25, 25 are connected to a residual yarn storage box 4 which is shown in Fig. 4.
  • photoelectric type sensors 4b, 4b for detecting the passing of sucked residual yarn are provided between the residual yarn storage box 4 and the discharge port 4a.
  • the sensors 4b, 4b which are disposed opposedly to a transparent pipe, detects that there is no longer residual yarn (fiber) passing, in other words, confirms that the residual yarn on each roving bobbin 3 under processing has been removed.
  • the roving bobbins 3 which have been introduced are guided on the root side thereof by the guide piece 7, and the bobbin driving device 6 is disposed below the bobbins.
  • the driving device 6 has a holder box 26 in which are supported bobbin pulleys 27 each through a shaft in corresponding relation to the roving bobbins 3.
  • the bobbin pulleys 27, which are projected on the front end side, are rotated simultaneously through a belt by means of a driving motor 28 which is mounted nearly centrally and on the rear side of the holder box 26.
  • the driving motor 28 can be changed over between forward and reverse rotations and its rotating speed can also be changed over.
  • frames 29, 29 are disposed below the holder body 26 and connected to pushing-up devices 30, 30 which are mounted on a base plate.
  • the frames 29, 29 are pushed up by the operation of the pushing-up devices 30, 30, whereby the bobbin pulleys 27 are fitted in the root side of the roving bobbins 3 to rotate the bobbins.
  • the roving bobbins 3 are different from one another in the amount of yarn remaining thereon, and end portions of residual yarns are not present in certain positions, some hanging down. Therefore, it is necessary to search for and suck in a residual yarn end while maintaining a spacing between the suction nose of each suction nozzle 10 and the corresponding roving bobbin 3 according to the amount of yarn remaining on each individual yarn. In the case where a residual yarn end hangs down, it is necessary to once rotate the bobbin concerned in the winding direction. Some roving bobbin is provided with such an auxiliary winding member 3b as shown in Fig. 17 to facilitate the winding of a winding start end of roving yarn round the bobbin.
  • auxiliary winding member 3b woven cloth or napped cloth is provided so as not to project from the outer peripheral surface of an empty bobbin 3a. Under this construction, a terminal end of residual yarn is sometimes adhered to the auxiliary winding member 3b when the residual yarn is sucked in.
  • the apparatus of the present invention is constructed so that when the suction nozzles 10 are made corresponding to the roving bobbins 3, the nose portions of the nozzles 10 are held in positions in which there are kept spacings according to the amounts of yarns remaining on the respective bobbins, and in this state residual yarn ends are searched for and sucked in. Thereafter, the nozzles 10 are retreated to nearly central portions of the residual yarn winding heights and the roving bobbins 3 are rotated in the rewinding direction at high speed, while the residual yarns are removed by suction. After the lapse of a certain time, the nozzles are again moved to the positions of the auxiliary winding members 3b and the yarns remaining thereon are removed by suction.
  • the suction nozzles 10 disposed in the nozzle holding box 11 are projected from the box in a biased state, as shown in Figs. 9 and 10, and when the box 11 moved forward and the nose portions of the nozzles come into abutment with the roving bobbins 3 and are pushed into the nozzle holding box 11 side, the pushed-in positions are held. After the search and suction of residual yarn ends, the box 11 is retreated, whereby the aforesaid holding of the positions is released.
  • the suction nozzles are each constructed as shown in Figs. 11 and 13.
  • Each nozzle 10 comprises a flange 10a and a threaded portion 10b.
  • a through hole 10c so that the diameter of the hole 10c becomes gradually larger toward the front end side.
  • a support cylinder 31 which comes into threaded engagement with the threaded portion 10b of the nozzle 10 comprises a large diameter portion 31a and a small diameter portion 31b both formed integrally with each other.
  • a jet hole 31c so that the diameter of the hole 31c becomes gradually larger toward the rear side.
  • the large-diameter portion 31a has a bore 31d formed in parallel with the core.
  • a restriction cylinder 32 through packings 33, 33.
  • the restriction cylinder 32 has a through hole 32c formed in parallel with the core.
  • projecting rings 32a, 32a rear formed on the front and are sides of the outer periphery of the cylinder 32, and an intermediate concave portion 32b is utilized as an air sump portion.
  • the concave portion 32b there are formed plural vent holes 32 not parallel with the core toward the outlet side of the through hole 32c.
  • a pressurized air inlet port 31e which comes into communication with the concave portion 32b of the restriction cylinder 32 received in the bore 31d.
  • an annular seat 34 which supports the small-diameter portion 31b of the support cylinder 31 slidably is mounted to the rear wall side of the box 11, and a coil spring 35 is interposed between the annular seat 34 and the stepped part of the large diameter portion of the support cylinder 31.
  • a front-side annular seat 36 which supports the nozzle 10 slidably is inserted beforehand into the nozzle, and at the time of mounting to the nozzle holding box 11, a smaller outside diameter portion 36b of the annular seat 36 is fitted in a hole formed in the front wall side of the box 11 so that a circumferential groove 36d formed in the smaller outside diameter portion 36b is exposed to the exterior of the box 11. Then, a stop ring 37 is fitted in the circumferential groove 36d to retain the front-side annular seat 36.
  • the nozzle can retreat to the nozzle holding box 11 side while sliding on the annular seats 34 and 36 against the biasing force of the coil spring 35. Upon release of the pushing, the nozzle is projected by the biasing force of the coil spring 35.
  • Numeral 38 denotes a buffer ring (not shown in Fig. 13).
  • a pressurized air introducing duct 39 Within the nozzle holding box 11 there is disposed a pressurized air introducing duct 39, and pressurized air is fed into the box 11 from a compressor (not shown) through a flexible pipe. Then from the duct 39 the pressurized air is branched into the pressurized air inlet port 31e of the support cylinder 31 through a flexible pipe 40. Then, as shown in Fig. 11, the pressurized air thus introduced in stored in the concave portion 32b of the restriction cylinder 32, passes through the plural vent holes 32d and is jetted to the divergent, jet hole 31c. In this case, the inclination of the jet hole 31c causes the jet to form a rotating air current, which is jetted from the jet hole 31c of the support cylinder.
  • This rotating air current rotates in an untwisting direction for the sucked residual yarn to disintegrate the yarn immediately.
  • a suction air current is formed in the through hole 10c of the nozzle 10.
  • the suction nozzle used in the present invention utilizes this suction air current to search for and such in a residual yarn end and at the same time suck in and remove the residual yarn. It is necessary that the nozzles provided in the nozzle holding box 11 be held unrotatable.
  • a plane portion 31f (Fig.
  • each nozzle 10 projected in a biased state from the nozzle holding box 11 is moved forward to the lowest position of the residual yarn winding as indicated by an arrow with respect to the corresponding roving bobbin 3 which has been conveyed into the apparatus and stopped.
  • searching for and sucking in residual yarn end as shown in Fig.
  • the corresponding bobbin pulley 27 of the driving device 6 is raised and fitted in the bobbin 3, then the bobbin 3 is rotated at a low speed (30 r.p.m. or so) and at the same time the nose portion of the nozzle 10 is raised in the arrowed direction while maintaining a spacing f of about 5 to 10 mm from the residual yarn winding surface to suck in a residual yarn end.
  • the nozzle 10 is retreated and positioned nearly centrally of the bobbin winding length, then the bobbin 3 is rotated in a residual yarn unwinding direction at a high speed (1,000 r.p.m. or so), and in this state the residual yarn is removed by suction.
  • a retaining means for holding the position of each nozzle 10 which was pushed in upon abutment thereof with residual yarn. This retaining means is constructed so that it is released automatically when the nozzle holding box reaches its retreated position.
  • grooved teeth 42 are formed on the underside of the large-diameter portion 31a of the support cylinder 31 along the axis of the same cylinder, while a lever 43 having an edge pawl 43a for engagement with the grooved teeth 42 is supported pivotably by a bracket 44 mounted to the inside bottom of the nozzle holding box 11. Further, a coil spring 45 is mounted on the pivot shaft of the lever 43 to press the edge pawl 43a for engagement with the grooved teeth 42. The lower side of the lever 43 is projected from a slit formed in the bottom of the nozzle holding box 11.
  • the operating rods 47 are each mounted so as to contact the lever 44 and rotate the lever in a counterclockwise direction upon retreat of the nozzle holding box 11.
  • the grooved teeth 42 and the pawl are disengaged from each other, so that the nozzle 10 is projected by the biasing force of the coil spring 35 on the support cylinder.
  • the lever 44 amy be constituted so that the lower side thereof is heavy to omit the coil spring 45.
  • the apparatus for removing residual yarn by suction thus constructed according to the present invention operates as follows.
  • a reduced pressure is applied to the residual yarn storage box 4.
  • the motor 28 of the bobbin driving device 6 is rotated at low speed to rotate the bobbin pulley 27 at about 30 r.p.m. This rotation is for winding round the bobbin 3 the residual yarn end which is hanging down from the bobbin.
  • the bobbin pulley 27 is rotated in a direction of rotating the bobbin 3 in the yarn winding direction.
  • pressurized air is introduced into the pushing-up devices 30 to push up the bobbin deriving device 6, whereby the roving bobbins 3 are rotated.
  • the upper-­limit position of the pushing-up device 30 is restricted by detection pieces provided in portions of the frames 29 and limit switches erected on the pushing devices and the base.
  • the motor 28 of the bobbin driving device 6 is driven to rotate the bobbins 3 in a direction of unwinding the residual yarns thereon. This rotation is made at a low speed (20 r.p.m. or so).
  • the motor 23 of the lift drives 13 is operated to raise the duct 8 (nozzle holding box 11).
  • the motor 23 Upon operation of the detecting switch 24d, the motor 23 once stops, then in one second it rotates in the reverse direction to bring down the nozzle holding box 11, and upon operation of the detecting switch 24c the motor 23 stops.
  • This stopped position corresponds to the height position in Fig. 16, and in this state each nozzle 10 continues the search and suction of a residual yarn end.
  • the motor 15 of the nozzle device 5 is rotated in the reverse direction to restore the holding box 11 to its retreated position and the rotating speed of the motor 28 of the bobbin driving device 6 is increased to rotate the roving bobbins 3 in the unwinding direction (about 1,000 r.p.m.), so that the yarns remaining on the bobbins are removed by suction.
  • This unwinding rotation is continued until when the residual yarn passing sensors 4b (Fig. 4) provided on the outlet side of the residual yarn storage box 4 do not detect the passage of yarn for five seconds.
  • the passage of yarn is not detected for five seconds or more, it is judged that the suction and removal of residual yarn have been completed, whereupon the supply of compressed air to the nozzles is stopped.
  • each nozzle 10 is opposed to the auxiliary winding member 3b provided on the opposed bobbin 3a.
  • pressurized air is again introduced into the nozzle 10 to form a suction air current at a nozzle end, and the motor 28 is reverse-­rotated at a low speed (about 30 r.p.m.) for a short time (about 1 second), whereby the winding start end of the residual yarn on the auxiliary winding member 3b can be removed by suction.
  • these operations may be omitted.
  • the nozzle holding box 11 is restored to its retreated position and the motor 23 of the lift drives 13 is rotated to bring down the holding box 11 to the position opposed to the detecting switch 24a, now ready for processing of roving bobbins to be fed next, empty bobbins are taken out by operation of the conveyance line 2 to be introduced next roving bobbins.
  • the explanation described above indicates the case that the nozzle holding box 11 (corresponding to detecting switch 24a) retreats and is in lowest position at waiting position.
  • the position which the nozzle holding box 11 is switch 24b (a height position of suxiliary winding member) can be restoring position, a height position that the holding box 11 is advanced to connect to residual yarns can also restoring position.
  • An apparatus for removing residual yarn by suction of the present invention is structured such as above-­mentiond soyarns remaining on a large number of roving bobbins can be removed by suction simultaneously along the conveyance line of the roving bobbin, automatically and that quickly.
  • the suction nozzles disposed in the nozzle holding box are each projected in a biased state and a suitable projection length of the front end of each nozzle can be held according to the amount of yarn remaining on the bobbin opposed to the nozzle, it is possible to surely effect the search and suction of a residual yarn end.
  • the suction nozzles each utilize a suction air current formed by rotative jetting of compressed air, the sucked residual yarn is disintegrated immediately and can be taken out as raw fibers.

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  • Spinning Or Twisting Of Yarns (AREA)
  • Manufacture Of Motors, Generators (AREA)
EP19900110816 1989-06-09 1990-06-07 Dispositif pour enlever des résidus de mèches de bobines de mèche par aspiration Expired - Lifetime EP0401827B1 (fr)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
JP147514/89 1989-06-09
JP1147514A JP2766673B2 (ja) 1989-06-09 1989-06-09 粗糸木管の残糸除去装置
JP1990000312U JPH0748690Y2 (ja) 1990-01-06 1990-01-06 粗糸ボビンの残糸吸引除去装置
JP312/90U 1990-01-06

Publications (2)

Publication Number Publication Date
EP0401827A1 true EP0401827A1 (fr) 1990-12-12
EP0401827B1 EP0401827B1 (fr) 1994-03-02

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
EP19900110816 Expired - Lifetime EP0401827B1 (fr) 1989-06-09 1990-06-07 Dispositif pour enlever des résidus de mèches de bobines de mèche par aspiration

Country Status (3)

Country Link
EP (1) EP0401827B1 (fr)
DE (1) DE69006919T2 (fr)
ES (1) ES2052100T3 (fr)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0504468A1 (fr) * 1991-03-22 1992-09-23 Kabushiki Kaisha Murao And Company Dispositif d'élimination de restes de mèches d'une bobine de mèche
EP0548572A1 (fr) * 1991-12-26 1993-06-30 Murao And Company Limited Dispositif d'élimination de restes de mèches pour les bobines de mèche de types différents
WO2005115897A1 (fr) * 2004-05-17 2005-12-08 Saurer Gmbh & Co. Kg Elimination de restes de meches de bandes auto-aggripantes sur des bobines de preparation
CN109759293A (zh) * 2019-02-21 2019-05-17 嘉兴海发家具有限公司 一种椅架表面喷塑系统

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3910021A (en) * 1974-04-29 1975-10-07 Brunswick Corp Strand stripper and reclaimer
DE2947808A1 (de) * 1978-12-07 1980-06-12 Brouwer & Co Machine Vorrichtung zum entfernen eines um eine huelse gewickelten materials
EP0219129A2 (fr) * 1985-10-16 1987-04-22 Kabushiki Kaisha Murao and Company Procédé et dispositif d'élimination de restes de mèches de bobines de mèches
EP0259880A2 (fr) * 1986-09-12 1988-03-16 Kabushiki Kaisha Murao and Company Dispositif pour enlever les déchets de mèches des bobines de mèche
EP0318435A1 (fr) * 1987-11-27 1989-05-31 Baltec Maschinenbau Ag Procédé et dispositif d'élimination de reste de fil sur une bobine pour les machines textiles

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3910021A (en) * 1974-04-29 1975-10-07 Brunswick Corp Strand stripper and reclaimer
DE2947808A1 (de) * 1978-12-07 1980-06-12 Brouwer & Co Machine Vorrichtung zum entfernen eines um eine huelse gewickelten materials
EP0219129A2 (fr) * 1985-10-16 1987-04-22 Kabushiki Kaisha Murao and Company Procédé et dispositif d'élimination de restes de mèches de bobines de mèches
EP0259880A2 (fr) * 1986-09-12 1988-03-16 Kabushiki Kaisha Murao and Company Dispositif pour enlever les déchets de mèches des bobines de mèche
EP0318435A1 (fr) * 1987-11-27 1989-05-31 Baltec Maschinenbau Ag Procédé et dispositif d'élimination de reste de fil sur une bobine pour les machines textiles

Non-Patent Citations (3)

* Cited by examiner, † Cited by third party
Title
PATENT ABSTRACTS OF JAPAN vol. 12, no. 333 (C-526)(3180) 08 September 1988, & JP-A-63 092735 (MURAO BOKI K.K.) *
PATENT ABSTRACTS OF JAPAN vol. 13, no. 151 (C-584)(3449) 12 April 1989, & JP-A-63 309632 (MURAO BOKI K.K.) *
PATENT ABSTRACTS OF JAPAN vol. 9, no. 237 (C-305)(1960) 24 September 1985, & JP-A-60 094628 (MURAO BOUKI K.K.) *

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0504468A1 (fr) * 1991-03-22 1992-09-23 Kabushiki Kaisha Murao And Company Dispositif d'élimination de restes de mèches d'une bobine de mèche
US5220714A (en) * 1991-03-22 1993-06-22 Kabushiki Kaisha Murao And Company Apparatus for removing residual roving from roving bobbin
EP0548572A1 (fr) * 1991-12-26 1993-06-30 Murao And Company Limited Dispositif d'élimination de restes de mèches pour les bobines de mèche de types différents
WO2005115897A1 (fr) * 2004-05-17 2005-12-08 Saurer Gmbh & Co. Kg Elimination de restes de meches de bandes auto-aggripantes sur des bobines de preparation
CN109759293A (zh) * 2019-02-21 2019-05-17 嘉兴海发家具有限公司 一种椅架表面喷塑系统

Also Published As

Publication number Publication date
EP0401827B1 (fr) 1994-03-02
ES2052100T3 (es) 1994-07-01
DE69006919D1 (de) 1994-04-07
DE69006919T2 (de) 1994-08-18

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