Claims
- 1. In a terry weaving loom system including a first thread supply arrangement, a plurality of ground warp threads supplied from said first thread supply arrangement and forming a ground warp thread sheet, a second thread supply arrangement, a plurality of pile warp threads supplied from said second thread supply arrangement and forming a pile warp thread sheet, a shed forming device which receives said ground warp threads and said pile warp threads extending therethrough and is adapted to form a respective open shed of said ground warp threads and said pile warp threads including a back shed on an upstream side of said shed forming device toward said first and second thread supply arrangements and a front shed on a downstream side of said shed forming device opposite said upstream side, a weft insertion device adapted to insert a weft thread into said front shed of said open shed, and a weft beating device adapted to beat-up the weft thread while forming terry pile loops of said pile warp threads,an improvement comprising a first thread deflecting element arranged on a pile warp thread path that is followed by said pile warp threads between said second thread supply arrangement and shed forming device, in such a position so that said pile warp thread sheet intersects with and crosses through said ground warp thread sheet at a thread crossing location and is deflected on said first thread deflecting element to said shed forming device, so that a first back shed vertex of said back shed of said pile warp threads is located on said first thread deflecting element.
- 2. The improvement in the terry weaving loom system according to claim 1, wherein said position of said first thread deflecting element is further located on a ground warp thread path that is followed by said ground warp threads between said first thread supply arrangement and said shed forming device so that said ground warp thread sheet at least intermittently contacts said first thread deflecting element and passes from said first thread deflecting element to said shed forming device, so that a second back shed vertex of said back shed of said ground warp threads is located on said first thread deflecting element.
- 3. The improvement in the terry weaving loom system according to claim 2, wherein said first back shed vertex of said back shed of said pile warp threads and said second back shed vertex of said back shed of said ground warp threads are respectively located on opposite sides of said first thread deflecting element.
- 4. The improvement in the terry weaving loom system according to claim 3, wherein said first back shed vertex is located on a bottom side of said first thread deflecting element, and said second back shed vertex is located on a top side of said first thread deflecting element.
- 5. The improvement in the terry weaving loom system according to claim 1, wherein said first thread deflecting element is located on a side of said ground warp thread sheet opposite said second thread supply arrangement supplying said pile warp threads.
- 6. The improvement in the terry weaving loom system according to claim 1, wherein said thread crossing location is on said ground warp thread sheet directly upstream from said first thread deflecting element toward said first thread supply arrangement supplying said ground warp threads.
- 7. The improvement in the terry weaving loom system according to claim 1, wherein said thread crossing location is on said ground warp thread sheet directly upstream from said back shed toward said first thread supply arrangement supplying said ground warp threads.
- 8. The improvement in the terry weaving loom system according to claim 1, wherein said pile warp thread sheet intersects with and crosses through said ground warp thread sheet at a crossing angle in a range from 45° to 135° measured as the angle that is formed upstream from said first thread deflecting element between said pile warp thread sheet and said ground warp thread sheet about said thread crossing location.
- 9. The improvement in the terry weaving loom system according to claim 8, wherein said crossing angle is in a range from 70° to 130°.
- 10. The improvement in the terry weaving loom system according to claim 8, wherein said crossing angle is in a range from 80° to 100°.
- 11. The improvement in the terry weaving loom system according to claim 1, wherein said first thread deflecting element is a deflecting rod extending entirely along a weaving width of said loom system.
- 12. The improvement in the terry weaving loom system according to claim 11, wherein said deflecting rod is rotatably supported.
- 13. The improvement in the terry weaving loom system according to claim 11, further comprising two pivotable levers to which respective opposite ends of said deflecting rod are connected, and biasing springs connected to said pivotable levers so as to bias said levers to pivot in a direction away from said shed forming device.
- 14. The improvement in the terry weaving loom system according to claim 1, further comprising a first warp stop motion arranged with said ground warp threads extending therethrough, and a second warp stop motion that is separate from said first warp stop motion and is arranged with said pile warp threads extending therethrough, wherein said first and second warp stop motions are each respectively freely accessible from at least one respective side of said loom system.
- 15. The improvement in the terry weaving loom system according to claim 14, wherein said first and second warp stop motions are respectively separately arranged on two different planes that are vertically spaced apart from one another.
- 16. The improvement in the terry weaving loom system according to claim 14, wherein said pile warp thread sheet extends through said second warp stop motion along a substantially horizontal plane.
- 17. The improvement in the terry weaving loom system according to claim 14, further comprising a second thread deflecting element arranged on said pile warp thread path between said second thread supply arrangement and said second warp stop motion, and wherein said pile warp thread sheet is deflected by at least 120° about said second thread deflecting element.
- 18. The improvement in the terry weaving loom system according to claim 17, wherein said pile warp thread sheet is deflected by at least 150° about said second thread deflecting element.
- 19. The improvement in the terry weaving loom system according to claim 14, wherein said first warp stop motion is arranged between said first thread supply arrangement and said thread crossing location.
- 20. The improvement in the terry weaving loom system according to claim 14, further comprising an elastically yielding thread length compensating element arranged between said second warp stop motion and said thread crossing location, wherein said pile warp thread sheet is deflected at least partially around said thread length compensating element.
- 21. The improvement in the terry weaving loom system according to claim 20, wherein said thread length compensating element comprises a spring-elastically supported thread deflecting shaft.
- 22. The improvement in the terry weaving loom system according to claim 20, wherein said thread length compensating element comprises a thread deflecting metal sheet or plate that is elastically flexible or is elastically supported.
Priority Claims (1)
Number |
Date |
Country |
Kind |
100 23 445 |
May 2000 |
DE |
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CROSS-REFERENCE TO RELATED APPLICATION
This application is related to copending U.S. application Ser. No. 09/855,187, filed on May 14, 2001.
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Non-Patent Literature Citations (1)
Entry |
Dipl.-Ing. J. Schneider, “WEBEREI Verfahren und Maschinen fuer die Gewebeherstellung” (Weaving Methods and Machines for Woven Cloth Production), published by Springer-Verlag Berlin/Göttingen/Heidelberg, 1961, pp. 17-19 and 277-279. |