Title of Invention | WARPING MACHINE STRUCTURE |
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Abstract | A warping machine structure 6 contains a beam 62 on which is sheathed with a yarn guide 63 being on a rail 611 below the warping machine 6, and connected with a driving device to move forward, backward. The warping machine 6 is pivoted with a winding ring 64 connected with the driving device to rotate on the body 61, and move forward, backward, along with the yarn guide 63. Upon warping, several kinds of yarns are drawn out from spools on a rotating creel by the yarn guide 63, with the chosen yarns being drawn out by yarn hooks of the winding ring 64, and wound on the beam 62 of the warping machine 6 one by one. By front and rear swing of a hook of each leasing rod 65, the wound yarns are divided into several bolts of warps, forming the compact warps. |
Full Text | WARPING MACHINE STRUCTURE BACKGROUND OF THE INVENTION (a) Field of the Invention The present invention relates to a warping machine structure, and more particularly to a warping machine structure which can automatically wind yarns of plural spools on a beam to form warps required for weaving. (b) Description of the Prior Art Conventional warping machine are disclosed in the Taiwanese Patent Published Serial No. 452611, "Process for Producing Pattern Warps and Warping Machine," and the Taiwanese Patent Published Serial No. 481692, "Electronic Controlled Sample Warper, Rotating Type Creel Assembly and Method for Warping." Referring to FIG. 1, a side of a conventional warping machine 1 is provided with a rotating creel 2 which is installed simultaneously with plural spools of yarns. Different yarns are dragged down together from the spools by a yarn guide 3, and moved onto plural transport bands 5 which are extended parallel to an axis of a non-rotating wing roll 4, so as to form warps required for weaving, on the wing roll 4. 1 However, this method of driving the yarns with the plural transport bands to distribute the yarns all over the non-rotating wing roll 4, will not induce sufficient tension force to the yarns, such that no matter how sophisticated a transmitting servo motor, or computer controlled software is, number of winding times of the yams cannot be increased. In other words, as the conventional warping machine 1 which uses the transport bands 5 to carry the yarns is restricted to the structural design itself, the yarns cannot be effectively and compactly wound on the wing roll 1 at all. Therefore, quality of warping and mass of the warps are subjected to substantial limitation. SUMMARY OF THE INVENTION The primary object of the present invention is to provide a warping machine structure to automatically wind yarns of plural rolls of spools on a beam, thereby forming compact and high quality warps. Accordingly, a warping machine of the present invention is provided with a body including a beam which is loosely sheathed with a yarn guide. A lower part of the yarn guide is located on a rail below the body, and the yarn guide is connected with a driving device of the warping machine, such that the yarn guide can be driven by the driving device to linearly move forward and backward. The body is pivoted with a 2 winding ring which is connected with the driving device, such that the winding ring can be driven by the driving device to rotate on the body, and to linearly move forward and backward, along with the yarn guide. Pluralities of leasing rods are located close to two sides of the winding ring, with hooks at front ends of the leasing rods being exactly at sides of yarn hooks of the winding ring. When warping, different kinds or same kinds of warns are drawn from plural spools on a rotating creel by a yarn selector of the yarn guide, and linearly move forward and backward by rotation of the winding ring, such that the chosen yarns will be drawn out by the yarn hooks of the winding ring, and wound on the beam of the warping machine one by one. Following that, by front and rear swing of the hook of each leasing rod, the wound yarns will be divided into several bolts of warps which can be separated in a subsequent cutting process. Therefore, the yarns of each spool can be automatically wound on the beam, to form the compact and high quality warps. To enable a further understanding of the said objectives and the technological methods of the invention herein, the brief description of the drawings below is followed by the detailed description of the preferred embodiments. BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS 3 FIG. 1 shows a perspective view of a conventional warping machine. FIG. 2 shows a perspective view of a warping machine of the present invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring to FIG. 2, a warping machine 6 of the present invention is provided with a body 61 including a beam 62 which is loosely sheathed with a yarn guide 63. Two inner sides at a lower part of the yarn guide 63 are located on a rail 611 below the body 61, and the yarn guide 63 is connected with a driving device (not shown in the drawing) of the warping machine 6, such that the yarn guide 63 can be driven by the driving device to move forward and backward on the rail 611 linearly. The body 61 is pivoted with a winding ring 64 which is connected with the driving device, such that the winding ring 64 can be driven by the driving device to rotate on the body 61, and to linearly move forward and backward, along with the yarn guide 63. Pluralities of leasing rods 65 are located close to two sides of the winding ring 64, and hooks at front ends of the leasing rods 65 are exactly located at sides of yarn hooks (not shown in the drawing) of the winding ring 64, to lease the wound yarns. By assembling the aforementioned components, when warping, 4 different kinds or same kinds of yams are drawn out from the plural spools on a rotating creel (not shown in the drawing) by a yarn selector 631 of the yarn guide 63, and then linearly move forward and backward by rotation of the winding ring 64, such that the chosen yarns can be drawn out by the yarn hooks of the winding ring 64, and wound on the beam 62 of the warping machine 6 one by one. Following that, by front and rear swing of the hook of each leasing rod 65, the wound warns are divided into several bolts of warps which can be separated in a subsequent cutting process. Therefore, the yarns of each spool can be automatically wound on the beam 62, to form the compact and high quality warps. In the present invention, the driving device is connected with a computer 66 of the warping machine 6, and the computer 66 is provided with programmable control software, such that upon warping, the computer 66 can control an operation of the driving device according to the programmable control software, allowing the yarn guide 63 and the winding ring 64 to proceed with warping according to a predetermined procedure. On the other hand, the body 61 is provided with a positioning transversal rod 67 which is located below the yarn guide 63 and is 5 transfixed at a lower part of the yarn guide 63, such that the yarn guide 63 can be guided by the positioning transversal rod 67 to move forward and backward on the rail 611 linearly. It is of course to be understood that the embodiments described herein is merely illustrative of the principles of the invention and that a wide variety of modifications thereto may be effected by persons skilled in the art without departing from the spirit and scope of the invention as set forth in the following claims. 6 What is claimed is: 1. A warping machine structure 6 comprising a body 61 which is provided with a beam 62; a yarn guide 63 which is loosely sheathed on the beam 62, two inner sides at a lower part of which are located on a rail 611 below the body 61, and which is connected with a driving device of the warping machine 6, such that the yarn guide 63 is driven by the driving device to move forward and backward on the rail 611 linearly; a winding ring 64 which is pivoted on the body 61 and is connected with the driving device, such that the winding ring 64 is driven by the driving device to rotate on the body 61 and linearly move forward and backward along with the yarn guide 63; and plural leasing rods 65 which are located close to two sides of the winding ring 64, with hooks at front ends of the leasing rods 65 being exactly located at sides of yarn hooks of the winding ring 64 to lease the wound yarns; upon warping, different kinds or same kinds of yarns being drawn out from plural spools on a rotating creel by a yarn selector 631 of the yarn guide 63, and then linearly moving forward and backward by rotation of the winding ring 64, such that the chosen yarns are drawn out by yarn hooks of the winding 7 ring 64, and are wound on the beam 62 of the warping machine 6 one by one; following that, by front and rear swing of the hook of each leasing rod 65, the wound yarns being divided into several bolts of warps which are separated in a subsequent cutting process. 2. The warping machine structure 6 according to claim 1, wherein the driving device is connected with a computer 66 of the warping machine 6, and the computer 66 is provided with programmable control software, such that when warping, the computer 66 controls an operation of the driving device according to the programmable control software, enabling the yarn guide 63 and the winding ring 64 to proceed with warping according to a predetermined procedure. 3. The warping machine structure 6 according to claim 1, wherein the body 61 is provided with a positioning transversal rod 67 which is located below the yarn guide 63, and is transfixed at a lower part of the yarn guide 63, such that the yarn guide 63 is guided by the positioning transversal rod 67 to move forward and backward on the rail 611 linearly. A warping machine structure 6 contains a beam 62 on which is sheathed with a yarn guide 63 being on a rail 611 below the warping machine 6, and connected with a driving device to move forward, backward. The warping machine 6 is pivoted with a winding ring 64 connected with the driving device to rotate on the body 61, and move forward, backward, along with the yarn guide 63. Upon warping, several kinds of yarns are drawn out from spools on a rotating creel by the yarn guide 63, with the chosen yarns being drawn out by yarn hooks of the winding ring 64, and wound on the beam 62 of the warping machine 6 one by one. By front and rear swing of a hook of each leasing rod 65, the wound yarns are divided into several bolts of warps, forming the compact warps. |
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01064-kol-2007-correspondence others.pdf
01064-kol-2007-description complete.pdf
01064-kol-2007-priority document.pdf
1064-KOL-2007-(13-12-2011)-ABSTRACT.pdf
1064-KOL-2007-(13-12-2011)-AMANDED CLAIMS.pdf
1064-KOL-2007-(13-12-2011)-DESCRIPTION (COMPLETE).pdf
1064-KOL-2007-(13-12-2011)-DRAWINGS.pdf
1064-KOL-2007-(13-12-2011)-EXAMINATION REPORT REPLY RECEIVED.pdf
1064-KOL-2007-(13-12-2011)-FORM-1.pdf
1064-KOL-2007-(13-12-2011)-FORM-2.pdf
1064-KOL-2007-(13-12-2011)-FORM-3.pdf
1064-KOL-2007-(13-12-2011)-OTHERS.pdf
1064-KOL-2007-(13-12-2011)-POWER OF ATTORNEY.pdf
1064-KOL-2007-(15-02-2012)-CORRESPONDENCE.pdf
1064-KOL-2007-(15-02-2012)-PETITION UNDER RULE 137.pdf
1064-KOL-2007-CORRESPONDENCE 1.1.pdf
1064-KOL-2007-CORRESPONDENCE-1.2.pdf
1064-KOL-2007-CORRESPONDENCE-1.3.pdf
1064-KOL-2007-CORRESPONDENCE.pdf
1064-KOL-2007-ENGLISH TRANSLATION.pdf
Patent Number | 252235 | |||||||||||||||||||||
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Indian Patent Application Number | 1064/KOL/2007 | |||||||||||||||||||||
PG Journal Number | 18/2012 | |||||||||||||||||||||
Publication Date | 04-May-2012 | |||||||||||||||||||||
Grant Date | 02-May-2012 | |||||||||||||||||||||
Date of Filing | 31-Jul-2007 | |||||||||||||||||||||
Name of Patentee | CCI TECH INC. | |||||||||||||||||||||
Applicant Address | NO. 88-3, CHENG TIEN ROAD, TUCHENG CITY, TAIPEI 236, TAIWAN | |||||||||||||||||||||
Inventors:
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PCT International Classification Number | A63F7/02 | |||||||||||||||||||||
PCT International Application Number | N/A | |||||||||||||||||||||
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