Title of Invention

A WEAVING LOOM

Abstract A WEAVING LOOM HAS A TRANSMISSION, WHICH INCLUDES A DRIVING WHEEL, A DRIVEN WHEEL, AN ENDLESS DRIVING BELT THAT EXTENDS AROUND THE DRIVING WHEEL AND THE DRIVEN WHEEL, ANDAT LEAST ONE MAGNET UNIT, WHICH IS SECURED TO AN INSIDE SURFACE OF THE BELT FOR ATTRACTING AND DRIVING A SHUTTLE TO CIRCULATE ON A MACHINE FRAME INSIDE THE BELT.
Full Text WEAVING-LOOM-WITH MAGNETIC SHUTTLE-
This invention relates to a weaving loom, more particular to a weaving loom, which is provided with a circulating magnetic shuttle that circulates along an endless loop.
In a conventional weaving loom, a reciprocating shuttle reciprocates along a straight race rail. When in a picking motion, the flying speed of the reciprocating shuttle is accelerated from 0 to a high constant speed, and is then braked and decelerated to 0. Subsequently, the same picking motion is repeated in the opposite direction, thereby increasing largely the weft picking time.
To overcome the time-consuming problem, the applicant heretofore proposed an improved weaving loom, which is provided with a circulating magnetic shuttle. Referring to Fig. 1, the improved weaving loom 1 is shown to include a driving wheel 111 that drives a driving belt 113 to circulate. A series of magnets 114 is secured to the belt 113 for attracting and driving a magnetic shuttle 13 to circulate along an endless loop. The shuttle 13 picks a weft 160 with the assistance of a weft swinging rod 16, and then moves the weft 160 over a reed assembly 20, which is held on a swing arm 221 that is fixed on a rotating shaft 222. When the rotating shaft 222 rotates, the reed assembly 2 0 beats the weft 16. Two series of guiding rollers 12 are disposed respectively around a driving wheel 111 and a driven wheel 112 so that, when moving along two curved
portions of a race rail 101, the shuttle 13 does not take off and deviate from the race rail 101 because of the centrifugal force that is generated. The conventional weaving loom 1 suffers from the following disadvantages:
1. The structure of the weaving loom 1 is relatively complicated. For example, a relative long race rail 101 is needed to be disposed around the driving belt 113, thereby serving as a passage of the shuttle 13 . In addition, a large number of guiding rollers 12 are disposed around the driving wheel 111 and the driven wheel 112 so as to guide the shuttle 13 to move along a curved path, thereby preventing the deviation of the shuttle 13 from an endless loop. As a result, it is difficult to manufacture the weaving loom 1, thereby increasing the manufacturing costs .
2. The shuttle 13 cannot move smoothly on the race rail 101. Ideally, the portion of the belt 113 between the driving wheel 111 and the driven wheel 112 should be in a horizontal position. However, during the movement of the magnets 114 between the driving wheel 111 and the driven wheel 112, the portion of the belt 113, to which the magnets 114 are attached, is slightly lower than the remaining portion of the belt 113, which is located between the driving wheel 111 and the driven wheel 112 due to the weight of the magnets 114. The larger the distance between the wheels 111, 112, the more serious the deviation of the magnets 114 from their predetermined circulating path. It is unavoidable, when weaving wider fabrics, to increase the
distance between the wheels 111, 112. As a result, the belt 113 and magnets 114 cannot circulate smoothly at a high speed. Furthermore, because the shuttle 13 moves on the race rail 101, and contacts frequently the guiding rollers 12, it cannot fly smoothly along the endless loop, thereby reducing the weaving efficiency.
3. It is difficult to maintain and repair the weaving loom 1. To descend the gravity center of the weaving loom 1 and reduce the vibration of the same, the race rail 101 and the guiding rollers 12 are disposed on a lower portion of the weaving loom 1 along with the swinging arm 221 and the rotating shaft 222. Because they are disposed relatively close to each other, it is difficult to maintain and repair the weaving loom 1.
The object of this invention is to provide an improved weaving loom, which is provided with a circulating magnetic shuttle and which has a simple structure that can be easily maintained and repaired and that can be operated smoothly, thereby increasing the weaving efficiency.
According to this invention, a weaving loom includes a warp supplying mechanism for feeding warps, a shedding mechanism for forming a shed between the warps, a weft picking mechanism for picking a weft into the shed, and a weft beating mechanism for beating the weft into a fell in the shed. The picking mechanism includes a machine frame, a circulating transmission disposed on the machine frame, and a shuttle driven by the transmission. The transmission
includes a driving wheel disposed rotatably on the machine frame, a driven wheel disposed rotatably on the machine frame, an endless driving belt extending around the driving wheel and the driven wheel and driven by the driving wheel to circulate, and at least one magnet unit secured to the driving belt for attracting and driving the shuttle to circulate on the machine frame. Each of the driving wheel and the driven wheel has a rim that is formed with an annular groove. The driving belt has an outer side surface and an inside surface. The magnet unit is secured to the inside surface of the driving belt. The shuttle circulates on the machine frame inside the driving belt, and moves within the annular grooves in the driving wheel and the driven wheel. The shuttle is attracted onto the magnet unit during movement of the shuttle within the driving wheel and the driven wheel.
Other features and advantages of the invention will become apparent in the following detailed description of the preferred embodiments with reference to the accompanying drawing, in which:
Fig. 1 is a perspective view of a conventional weaving loom;
Fig. 2 is a schematic side view of a first preferred embodiment of a weaving loom according to this invention;
Fig. 3 is a schematic front view of the preferred embodiment;
Fig. 4 is a fragmentary perspective view of a driving
belt of the first preferred embodiment;
Fig. 5 is a schematic sectional view of a driving wheel of the first preferred embodiment;
Fig. 6 is a perspective view illustrating the connection between a driving belt and a driving wheel of a second preferred embodiment of a weaving loom according to this invention;
Fig. 7 is a schematic front view illustrating a modified shuttle depressing unit and a modified driving belt;
Fig. 8 is a schematic sectional view illustrating how an anti-wear plate is provided on the driving belt of Fig. 7, thereby preventing contact between the driving belt and two longitudinal plates; and
Fig. 9 is a schematic front view of another preferred embodiment, which is provided with two modified pressing roller units.
Referring to Fig. 2, a first preferred embodiment of a weaving loom according to this invention is shown to include a warp supplying mechanism 3 for feeding warps 31, a shedding mechanism 4 for forming a shed between the warps 31, a weft picking mechanism 5 for picking a weft into the shed, a weft beating mechanism 6 for beating the picked weft into a fell in the shed, and a fabric collecting mechanism 30.
Referring to Figs. 2 and 3, the picking mechanism 5 includes a machine frame 50, a circulating transmission 51 disposed on the machine frame 50, and two magnetic shuttles
52 driven by the transmission 51. The transmission 51 includes a driving wheel 511 disposed rotatably on the machine frame 50, a driven wheel 512 disposed rotatably on the machine frame 50, an endless driving belt 513 extending around the driving wheel 511 and the driven wheel 512 and driven by the driving wheel 511 to circulate, and two magnet units 514, which are secured to an inside surface of the driving belt 513 for attracting and driving the shuttle 52 to circulate on the machine frame 50.
The frame 50 includes a fixed upper race rail 501 and a fixed lower race rail 502. Each of a bottom surface of the upper race rail 501 and a top surface of the lower race rail 502 is formed with an open-ended longitudinal guide slot 503, and two fixed anti-wear longitudinal plates 504, which extend respectively into two side portions of the guide slot 503 to locate the shuttle 52 between one of the upper and lower race rails 501, 502 and the longitudinal plates 504, thereby confining the shuttle 52 within the guide slot 503 . The shuttle 52 is attracted onto the magnet unit 514 during the movement of the shuttle 52 within the upper and lower race rails 501, 502.
Each of the guide slots 503 of the upper and lower race rails 501, 502 has a shuttle inlet 503" , through which the shuttle 52 moves into the guide slot 503, and a shuttle outlet 503", from which the shuttle 52 leaves the longitudinal guide slot 503 . Two pressing roller units 505 are located respectively near the shuttle inlets 503" of
the guide slots 503 . Each of the pressing roller units 505 includes a row of pressing rollers 505" , which are arranged on a horizontal line and which abut against an outer side surface of the driving belt 513.
kef erring to Fig. 4, the inside surface of the driving
i belt 513 is formed with two longitudinal rows of teeth 515,
between which the magnet units 513 (only one is shown) are disposed. Each of the magnet units 514. includes an elongated and corrugated longitudinal plate 516, which is fixed on the driving belt 513 so as to define a plurality of magnet receiving spaces 516" between the longitudinal plate 516 and the driving belt 513, thereby receiving a plurality of magnets 516" fittingly therein.
The driving wheel 511 and the driven wheel 512 have the same structure. Referring to Fig. 5, the driving wheel 511 is constructed as a spur gear, which has an outer periphery that is formed with teeth for engaging the teeth 515 of the driving belt 513. The driving wheel 511 has a rim that is formed with an annular groove 517, within which the magnet unit 514 and the shuttle 52 move in such a manner that the shuttle 52 is attracted onto the magnet unit 514. The driving wheel 511 is sleeved fixedly on a rotating shaft 518.
Referring to Figs. 2 and 3, the beating mechanism 6 includes a reed assembly 60 consisting of a row of reed dents 61, and a swinging device 62 . The reed dents 61 are disposed on a sley 63 . The swinging device 62 is connected fixedly
to the reed assembly 60 for swinging the same, and includes a swinging arm 621 and a rotating shaft 622, which are interconnected fixedly. Each of the reed dents 61 has a horizontal portion so as to form a flat shuttle guide-way 601 thereon, thereby guiding the shuttle 52 into the shed. The machine frame 50 is provided with an elongated wedge-shaped divider 53 and an elongated wedge-shaped jointer 55, which are disposed fixedly on two sides of the reed assembly 60. The divider 53 is adjacent to and is located between the driving wheel 511 and the shuttle inlet 503" of the guide slot 503 in the lower race rail 502, and has an abutment end that is adjacent to the shuttle guide-way 601, a flat horizontal top surface 531 that is flush with the shuttle guide-way 601, and a wedge-shaped end 532. As such, the shuttle 52 moves from the driving wheel 511 along the driving belt 513 to the wedge-shaped end 532 of the divider 53, thereby separating the shuttle 52 and the magnet unit 514 at the wedge-shaped end 532. Subsequently, the shuttle 52 moves from the wedge-shaped end 532 to the top surface 531 of the divider 53 and the shuttle guide-way 601 on the reed assembly 60. A shuttle depressing unit 54 is located over the divider 53, and includes two rollers 541, 542 that are mounted rotatably on the machine frame 50, and a conveying belt 543 that extends around the rollers 541, 542 for transferring rotation therebetween. The conveying belt 543 has a horizontal bottom surface, which depresses the shuttle 52
to abut against the top surface 531 of the divider 53. The left roller 541 is provided with a belt pulley 544, which is connected coaxially and fixedly thereto, and a small belt 545 that extends around the belt pulley 544 and the rotating shaft 518 of the driving wheel 511, thereby transferring rotation of the driving wheel 511 to the rollers 541, 542. A left pressing roller 56 and a weft swinging rod 57 are mounted near the reed assembly 60 in a known manner. The jointer 55 is mounted between the reed assembly 60 and the driven wheel 512 in a manner similar to that of the divider 53, and has an abutment end 550, a flat horizontal top surface 551, and a wedge-shaped end 552 . A right pressing roller 56 is disposed over the jointer 55 in a manner similar to that of the left pressing roller 56. The shuttle 52 leaves from the wedge-shaped end 552 of the jointer 55 to be again attracted onto the magnet unit 514. Referring to Fig. 6, a modified transmission is shown to include a driving wheel 711, a driven wheel (not shown) that has the same structure as the driving wheel 711, and a driving belt 713 . A magnet unit 714 is secured to the belt 713 in a manner similar to that of the previous embodiment, and is similar to that of the previous embodiment in construction. Two longitudinal rows of guide holes 715 are formed through the belt 713 on two sides of the magnet unit 714. The driving wheel 711 has an outer periphery, which is formed with a plurality of fixed short tongues 716 that extend radially and outwardly therefrom
to engage the guide holes 715 in the belt 713.
Referring to Fig. 7, a modified depressing unit is also located over a divider 83, and includes a horizontal plate 84 that depresses the shuttle 52 to abut against a top surface of the divider 84 . 84.
Referring to Figs. 7 and 8, a modified transmission includes a driving wheel 811 that is constructed as a belt pulley with an outer periphery that is formed with a frictional surface for engaging a flat inside surface of a driving belt 813 . A magnet unit 814 includes an anti-wear plate unit 815, which can prevent frictional contact between the driving belt 813 and two longitudinal plates 804 during movement of a shuttle 82 in a lower race rail 802. The longitudinal plates 804 are attached to the lower race rail 802.
Fig. 9 illustrates two modified pressing roller units 95, each of which includes a row of pressing rollers 951 that are arranged on an inclined line.
WE CLAIM :
1. A weaving loom comprising a warp supplying mechanism (3) for feeding warps (31), a shedding mechanism (4) for forming a shed between the warps (-31) , a weft picking mechanism (5) for picking a weft into the shed, and a weft beating mechanism (6) for beating the weft into a fell in the shed, the picking mechanism (5) including a machine frame (50) , a circulating transmission (51) disposed on the machine frame (50), and a shuttle (52) driven by the transmission (51) , the transmission (51) comprising a driving wheel (511) disposed rotatably on the machine frame (50) , a driven wheel (512) disposed rotatably on the machine frame (50) , an endless driving belt (513) extending around the driving wheel (511) and the driven wheel (512) and driven by the driving wheel (511) to circulate, and at least one magnet unit (514) secured to the driving belt (513) for attracting and driving the shuttle (52) to circulate on the machine frame (50), characterized by:
each of the driving wheel (511) and the driven wheel (512) having a rim that is formed with an annular groove (517) , the driving belt (513) having an outer side surface and an inside surface, the magnet unit (514) being secured to the inside surface of the driving belt (513), the shuttle (52) circulating on the machine frame (50) inside the driving belt (513) and moving within the annular grooves (517) in the driving wheel (511) and the
driven wheel (512) , the shuttle (52) being attracted onto the magnet unit (514) during movement of the shuttle (52) within the driving wheel (511) and the driven wheel (512) .
2 . A weaving loom as claimed in Claim 1, wherein the machine frame (50) comprises a fixed upper race rail (501) with a bottom surface, and a fixed lower race rail (502) with a top surface, each of the bottom surface of the upper race rail (501) and the top surface of the lower race rail (502) being formed with an open-ended longitudinal guide slot (503) and being provided with two fixed longitudinal plates, which extend respectively into two side portions of the guide slot (503) to locate the shuttle (52) between one of the upper and lower race rails (501, 502) and the longitudinal plates, thereby confining the shuttle (52) within the guide slot (503), the shuttle (52) being attracted onto the magnet unit (514) during movement of the shuttle (52) within the upper and lower race rails (501, 502).
1. A weaving loom as claimed in Claim 2, wherein each of
the longitudinal guide slots (503) has a shuttle inlet
(503"), through which the shuttle (52) moves into the
longitudinal guide slot (503), and a shuttle outlet
(503"), from which the shuttle (52) leaves the
longitudinal guide slot (503), the machine frame (50)
comprising two pressing roller units (505, 95) ,
which are located respectively near the shuttle inlets
(503") of the longitudinal guide slots (503), each of the pressing roller units (505, 95) comprising. a row of pressing rollers (5051, 951) that abut against the outer side surface of the driving belt (513). 4 . A weaving loom as claimed in Claim 1, wherein the beating mechanism (6) comprising. a reed assembly (60) consisting of a row of reed dents (61) , and a swinging device (62) , which is connected to the reed dents (61) for swinging the reed assembly (60), each of the reed dents (61) having a horizontal portion so as to form a flat shuttle guide-way (601) on top surfaces of the horizontal portions of the reed dents (61) , thereby guiding the weft into the shed, the machine frame (50) being provided with an elongated wedge-shaped divider (53) , which is fixed thereon near the driving wheel (511) and which has an abutment end that is adjacent to the shuttle guide-way (601), and a wedge-shaped end (532) that is away from the shuttle guide-way (601) and that is adjacent to the driving wheel (511), the divider (53) having a flat horizontal top surface (531) that is flush with the shuttle guide-way (601) so that the shuttle (52) moves from the driving wheel (511) along the driving belt (513) to the wedge-shaped end (532) of the divider (53) , thereby separating the shuttle (52) and the magnet unit (514) at the wedge-shaped end (532), the shuttle (52) moving from the wedge-shaped end (532) to the top surface (531) of the divider (53) and the shuttle guide-way (601)on
the reed assembly (60).
5 . A weaving loom as claimed in Claim 4 , wherein the machine
frame (50) is provided with a shuttle depressing unit (54), which is located over the divider (53) and which comprising a horizontal plate (84) that depresses the shuttle (52) to abut against the top surface (531) of the divider (53).
6 . A weaving loom as claimed in Claim 4, wherein the machine
frame (50) is provided with a shuttle depressing unit (54), which is located over the divider (53) and which comprising two rollers (541, 542) that are mounted rotatably on the machine frame (50) , and a conveying belt
(543) that extends around the rollers (541, 542), the conveying belt (543) having a horizontal bottom surf ace, which depresses the shuttle (52) to abut against the top surface (531) of the divider (53).
7 . A weaving loom as claimed in Claim 6, wherein the driving
wheel (511) is provided with a fixed rotating shaft (518), about which the driving wheel (511) rotates, one of the rollers (541, 542) comprising a belt pulley (544) , which is connected coaxially and fixedly thereto, and a small belt (545) that extends around the belt pulley
(544) and the rotating shaft (518) of the driving wheel (511), thereby transferring rotation of the driving
wheel (511) to the rollers (541, 542).
8. A weaving loom as claimed in Claim 1, wherein the magnet unit (514) comprising a plurality of magnets (516") , and
an elongated and corrugated longitudinal plate (516), which is fixed on the driving belt (513) so as to define a plurality of magnet receiving spaces (516") between the corrugated plate (516) and the driving belt (513) , thereby receiving the magnets (516") fittingly within the magnet receiving spaces (516"), respectively.
9. A weaving loom as claimed in Claim 8, wherein the inside surface of the driving belt (513) is formed with two longitudinal rows of teeth (515) , between which the corrugated longitudinal plate (516) is fixed on the driving belt (513) , each of the driving wheel (511) and the driven wheel (512) being constructed as a spur gear, which has an outer periphery that is formed with teeth for engaging the teeth (515) of the driving belt (513) .
10. A weaving loom as claimed in Claim 8, wherein the driving belt (713) has at least one longitudinal row of guide holes (715) formed therethrough, each of the driving wheel (711) and the driven wheel having an outer periphery, which is formed with a plurality of fixed short tongues (716) that extend radially and outwardly therefrom to engage the guide holes (715) in the driving belt (713).
11. A weaving loom as claimed in Claim 1, wherein the inside surface and the outer side surface of the driving belt (813) are flat, each of the driving wheel (811) and the
driven wheel being constructed as a belt pulley, which has an outer periphery that is formed with a frictional
surface for engaging the inside surface of the driving belt (813).
A weaving loom has a transmission, which includes a driving wheel, a driven
wheel, an endless driving belt that extends around the driving wheel and the
driven wheel, and at least one magnet unit, which is secured to an inside surface
of the belt for attracting and driving a shuttle to circulate on a machine frame
inside the belt.

Documents:

00666-cal-1999-abstract.pdf

00666-cal-1999-claims.pdf

00666-cal-1999-correspondence.pdf

00666-cal-1999-description (complete).pdf

00666-cal-1999-drawings.pdf

00666-cal-1999-form 1.pdf

00666-cal-1999-form 18.pdf

00666-cal-1999-form 2.pdf

00666-cal-1999-form 26.pdf

00666-cal-1999-form 3.pdf

00666-cal-1999-letter patent.pdf


Patent Number 212104
Indian Patent Application Number 666/CAL/1999
PG Journal Number 46/2007
Publication Date 16-Nov-2007
Grant Date 15-Nov-2007
Date of Filing 28-Jul-1999
Name of Patentee CHENG CHENG-HSIUNG
Applicant Address 2F NO.25, SEC.2, HSIH-CHUANG RD., PAN-CHIAO CITY, TAIPEI HSIEN, TAIWAN
Inventors:
# Inventor's Name Inventor's Address
1 CHUANG WU-CHEN 2F-5, NO.102, YU-MIN ST., PEI DIST. TAINAN CITY, TAIWAN.
PCT International Classification Number D03D 49/44
PCT International Application Number N/A
PCT International Filing date
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 NA