GB2396626A - Automatic sample warper and warping method - Google Patents

Abstract

An sample warper for winding selected yarns B on a drum 22 comprises a first wheel 26 with a hook 50 for engaging the yarn and guides 48 for layering the yarns onto the drum under tension. The wheel is driven in rotation by means 40, 42 carried in an internal supporting frame and in axial displacement by means 36, 38. The guides 48 may be mounted on the first wheel or may be provided on a second wheel 28 with an independent drive means 37, 39 for axial reciprocation independently of the first wheel 26. A method is disclosed.

Description

Automatic Sample Warper and a Warping Method Thereof BACKGROUND OF THE

INVENTION

1) FIELD OF THE INVENTION

5 The present invention relates to a sample warper, more particularly to an automatic sample warper and a warping method thereof.

2) DESCRIPTION OF THE PRIOR ART

Examples of a conventional warper are "Equipping a Sample Warping Method and a Warper" of Republic of China Patent No. 452611 and 10 "Electronic Controlled Sample Warper, Swivel Warping Shaft Bracket Main Bearing and Warping Method" of Republic of China Patent No. 481692. FIG. 1 shows a pictorial and schematic drawing of a part of a warper machine. The conventional sample yarn warper (1) uses a rotary yarn introduction means to

draw different yarns from a synchronously operating yarn creel (2) onto a 15 conveyor belt extending horizontally and axially on a non-rotary wing roll (3) for achieving the objective of warping yarns on the wing roll (3) .

The method of using a plurality of conveyor belts (4) to drive the yarn to cover the whole non-rotary wing roll (3) causes the yarn to have less tension.

No matter how precise the driving servo motor or computer controlling 20 software is, it fails to increase the number of yarn winding. In other words,

limited by its own structural design, the conventional warper using the conveyor belt for delivering the yarn is unable to effectively and compactly wind the warped yarn onto the wing roll such that the warping quality and quantity are limited tremendously.

5 SUMMARY OF THE INVENTION

In order to solve the abovementioned problems and achieve the other effects and objectives, the inventor of the present invention researched and developed an automatic sample warper and a warping method thereof for enhancing the effectiveness.

10 The present invention of an automatic sample warper and a warping method thereof using a plurality of yarn selection means to warp different or same kind of yarn on a drum comprises a transverse wheel with a yarn hook disposed on a peripheral plane thereof for hooking different yarn drawn by the yarn introduction frame; a first set of supporting frames is mounted in the

15 transverse wheel and has a plurality of auxiliary frames and a driving mechanism; the driving mechanism rotates the transverse wheel; a micro moving wheel is disposed with a plurality of extended seats with slanted planes to sequentially wind the yarn onto a non-rotary drum through the extended seats with a proper tension; a second set of supporting frames is mounted in the 20 micro-moving wheel; wherein, the second set of supporting frame connects

with the first set of supporting frame respectively via a bearing and a plurality of sliding pins; the bearing and the sliding pins enable the micro-moving wheel to make reciprocating motions among the abovementioned elements; a plurality of auxiliary rods extend and enable the auxiliary frames to mount and move on 5 the auxiliary rods; a first servo motor drives a transverse rod which connects with the first set of supporting frames to drive the transverse wheel to move back and forth; a second servo motor drives a micro-moving rod which connects with the second set of supporting frames to enable the micro-moving wheel to make reciprocation back and forth.

10 The primary objective of the present invention is provide a driving mechanism - the transverse wheel and the transverse rod - on the drum to cooperate with the yarn introduction frame moving synchronously; the

transverse driving of the transverse rod and the rotation of the transverse wheel hook the same or different kind of yarn on the yarn introduction frame; a

15 plurality of extended seats disposed on the transverse wheel distribute the yarn onto the drum with a certain tension so as to achieve the objective of automatically warping the yarn compactly and effectively onto the drum in layers. Another objective of the present invention is to particularly provide the 20 micro-moving wheel for cooperating with the transverse wheel to further

respectively wind and warp the hooked yarn onto the drum by strings, colors and in layers. Therefore, the present invention not only solves the problems of winding limited layers of yarns and having undesired winding quality of a conventional warper, but also uses computer program to select the colors and 5 layers in a more precise way; it also simplifies the procedure of pouring the yarn on a beam; through the computer, the operator easily cuts the targeted warped yarn.

To enable a further understanding of achieving the abovementioned and other objectives as well as the features and advantages of the present invention, 10 the brief description of the drawings is followed by the detailed description of a

preferred embodiment.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 is a pictorial and schematic drawing of a conventional warper machine. 15 Figure 2 is a schematic drawing of a warper machine of the present invention. Figure 3 is a perspective drawing of Figure 2 and a skeleton drawing of the present invention.

Figure 4 is a drawing of an exemplary embodiment of the present 20 invention and an exploded drawing of a connection between a transverse wheel

and a micro-moving wheel of the present invention.

Figure 5 is a combined pictorial drawing of Figure 4.

Figure 6 is a status drawing of winding a yarn onto a drum via an extended seat of the present invention.

5 Figure 7 is a drawing of another exemplary embodiment of the present invention and a schematic drawing of merely using a driving structure of the transverse wheel.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

FIGS. 2 and 3 show the schematic and perspective drawings of the 10 warper machine of the present invention. Different or same yarn is drawn from a warping shaft bearing (not shown) onto each yarn selection means (27) of a yarn introduction means (30); wherein, a transverse wheel (26) and a micro

moving wheel (28) move in parallel on four auxiliary rods (23) mounted on a drum (22).

FIGS. 4 and 5 show the drawings of an embodiment of the present invention; they are also the exploded and combined drawings of the connection between the transverse wheel (26) and the micro-moving wheel (28). The present invention of an automatic sample warper and a warping method thereof using a plurality of yarn selection means (27) on the yarn introduction means

20 (30), as shown in FIG. 3, to warp the different or same kind of yarn onto the

drum (22) comprises at least the transverse wheel (26) with a yarn hook (50) disposed on the surface of the wheel for hooking the yarn drawn by the yarn selection means (27); a first set of supporting frames (32) mounted in the transverse wheel (26) has a plurality of auxiliary frames (45) and a driving 5 mechanism which makes the transverse wheel (26) rotate; the surface of the micro-moving wheel (28) is disposed with an extended seat (48) with a plurality of slanted planes to wind the yarn sequentially on a non-rotary drum (22) with a proper tension; a second set of supporting frames (31) mounted in the micro-moving wheel (28); wherein each second supporting frame (31) 10 respectively connects with each first supporting frame (28) via a shaft bearing (A) and a plurality of sliding pins (52) to enable the micro-moving wheel (28) to make reciprocating movement among the abovementioned elements; four auxiliary rods (23) extend to make the auxiliary frames (45) move horizontally thereon; a first servo-motor (38) drives a transverse rod (36) connected with 15 the first set of supporting frames (32) to drive the transverse wheel (26) to move back and forth; a second servo-motor (39) drives a micro-moving rod (37) connected with the second set of supporting frames (31) to drive the micro moving wheel (28) to make reciprocation back and forth.

The driving mechanism includes a motor (40), a plurality of gears (42) 20 and a guiding plate (4l) which is mounted on the first set of support frames (32)

and the transverse wheel (26). The transverse wheel (26) comprises an inner gear (43) and a plurality of ball bearings (49) shown in FIG. 7; the gears (42) fit with the inner gear (43). The motor (40) transmits a dynamic force through the gears (42) and the inner gear (43) thereby making the transverse wheel (26) 5 rotate via the ball bearings (49). Another function of having certain number of the gears (42) is to distribute the weight to make the transverse wheel (26) rotate more smoothly.

Particularly, a plurality of rollers (46) are respectively disposed on the auxiliary frames (45) and the extended seats (48). The rollers (46) on the 10 auxiliary frames (45) make the transverse wheel (26) move smoothly on the four auxiliary rods (23). The rollers (46) on the extended seats (48) make the yarn smoothly wind onto the drum (22). A programmable computer controls the motor (40) in the driving mechanism, the first servo-motor (38), the second servo-motor (39) and a plurality of yarn selection means (27) on the yarn 15 introduction means (30).

Referring to FIGS. 1 to 5, according to the abovementioned mechanism, the present invention of an automatic sample warper and a warping method thereof comprises at least the following steps: (a) the driving mechanism makes the transverse whee] (26) rotate; 20 (b) the transverse wheel (26) hooks the targeted different or same kind

of yarn drawn by the yarn selection means (27); (c) the first set of supporting frames (32) disposed on the transverse wheel (26) move horizontally on a plurality of auxiliary rods (23); the first servo-motor (38) drives the transverse rod (36) to move; 5 (d) the micro-moving wheel (28) connects with the second set of supporting frames (31) via the micromoving rod (37) to make reciprocation back and forth; (e) with a proper tension, a plurality of extended seats (48) disposed on the surface of the micro-moving wheel (28) sequentially wind the 10 yarn onto a non- rotary drum (22) in layers.

What needs to be indicated specifically is that the transverse rod (36) of the present invention mainly uses a ball guiding screw rod to cooperate with a fastening joint (35) to drive the transverse wheel (26) to move; a hexagonal shaft connector drives the micro-moving rod (37) to move; wherein, two belts 15 in a screw rod fastening disk (54) of two motors (38, 39) disposed at the ends of the transverse rod (36) and the micro-moving rod (37) drives the two rods (36,37) to move.

In the preferred embodiment of the present invention, the transverse wheel (26) mainly rotates unceasingly and moves to the right or left; generally, 20 it moves toward the direction of the machine (24); that means it moves toward

the same direction. At this time, the yarn introduction means (30) also moves

synchronously. Oppositely, the micro-moving wheel (28) mounted on one side moves on the shaft bearing (A) and the four sliding pins (52) at a proper reciprocating distance. Accordingly, the transverse wheel (26) uses the yarn 5 hook (50) to hook the different or same kind of yarn on the yarn introduction

means (30); a plurality of extended seats (48) on the micro-moving wheel (28) distribute the yarn onto the drum (22) with a certain tension. Therefore, the present invention automatically, compactly and effectively warps the yarn in layers onto the drum (22) by the strings, colors and layers. That is the feature of 10 the present invention.

The present invention not only solves the problems of winding limited layers of yarns and having undesired winding quality of a conventional warper, but also uses computer program to select the colors and layers in a more precise way; it also simplifies the yarn pouring procedure; through the computer, the 15 operator easily cuts the targeted warped yarn.

As indicated in FIG. 6, when the transverse wheel (26) moves toward the left in a certain speed, the yarn hook (50) hooks a yarn (B) to wind onto the extended seat (48) of the micro-moving wheel (28). The extended seat (48) with slanted planes winds the yarn (B) onto the drum (22) with a certain 20 tension. Obviously, the reciprocating effect of the micromoving wheel (28)

compactly winds the yarn (B) onto the drum (22) by colors and in layers.

FIG. 7 shows another preferred embodiment of the present invention. As indicated, the transverse wheel (26) is directly disposed with a plurality of extended seats (48) on the wheel surface thereof; that means, the present 5 invention can use merely the transverse wheel (36) to drive the yarn to wind onto the drum (22) with a certain tension. Therefore, the required mechanical design and the cost of the present invention are tremendously reduced.

It is of course to be understood that the embodiment described herein is merely illustrative of the principles of the invention and that a wide variety of 10 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.

Claims (1)

1. l. An automatic sample warper using a plurality of yarn selection means on a yarn introduction frame to warp different or the same kind of yarn onto a drum

   comprlsmg: 5 a transverse wheel with a yarn hook and a plurality of extended seats with slanted planes disposed on the surface of the wheel for hooking the yarn drawn by the yarn selection means; the extended seats sequentially wind the yarn onto a non-rotary drum with a proper tension; a first set of supporting frames mounted in the transverse wheel has a lO plurality of auxiliary frames and a driving mechanism which makes the transverse wheel rotate; a plurality of auxiliary rods extend to make the auxiliary frames move horizontally thereon; a transverse rod driven by a first servo-motor drives and connected 15 with the first set of supporting frames drives the transverse wheel to move back and forth.

   2. The automatic sample warper according to Claim 1, wherein the driving

   mechanism includes a motor, a plurality of gears and a guiding plate which is 20 mounted on the first set of support frames and the transverse wheel; the transverse wheel comprises an inner gear and a plurality of ball bearings; the gears fit with the inner gear; the motor transmits a dynamic force through the gears al1d the inner gear thereby making the transverse wheel rotate via the ball bearings.

   3. The automatic sample warper according to Claim 1, wherein the number of the auxiliary frames is four and they are mounted with a plurality of rollers to move the transverse wheel.

   5 4. The automatic sample warper according to Claim 1, wherein the first servo motor, the motor and the yarn selection means are controlled by a programmable computer.

   10 5. A warping method of an automatic warper using a plurality of yarn selection means on a synchronously moving yarn introduction frame to warp the yarn

   on a drum comprises the following steps: (a) the driving mechanism makes the transverse wheel rotate; (b) the transverse wheel hooks the targeted different or same kind of yarn 15 drawn by the yarn selection means; (c) the first set of supporting frames disposed on the transverse wheel move horizontally on a plurality of auxiliary rods; the first servo-motor drives the transverse rod to move; (d) with a proper tension, a plurality of extended seats disposed on the 20 surface of the micro-moving wheel sequentially wind the yarn in layers onto a non-rotary drum.

   6. The warping method of an automatic warper according to Claim S. wherein the driving mechanism includes a motor, a plurality of gears and a guiding plate which is mounted on the first set of support frames and the transverse 5 wheel; the transverse wheel comprises an inner gear and a plurality of ball bearings; the gears fit with the inner gear; the motor transmits a dynamic force through the gears and the inner gear thereby making the transverse wheel rotate via the ball bearings.

   10 7. The warping method of an automatic warper according to Claim 5, wherein the number of the auxiliary frames is four and they are mounted with a plurality of rollers to move the transverse wheel.

   15 8. The warping method of an automatic warper according to Claim 5, wherein the first servo motor, the mortor and the yarn selection means are controlled by a programmable computer.

   9. An automatic sample warper using a plurality of yarn selection means on a yarn introduction frame to warp different or the same kind of yarn onto a drum

   comprising: a transverse wheel with a yarn hook disposed on the surface of 5 the wheel for hooking the yarn drawn by the yarn selection means; a first set of supporting frames mounted in the transverse wheel has a plurality of auxiliary frames and a driving mechanism which makes the transverse wheel rotate; a micro-moving wheel disposed with a plurality of extended seats with 10 slanted planes winds the yarn sequentially onto a non-rotary drum with a proper tension; a second set of supporting frames mounted in the micro-moving wheel; wherein each second supporting frame respectively connects with each first supporting frame via a shaft bearing and a plurality of sliding pins to enable 15 the micro-moving wheel to make reciprocating movement among the abovementioned elements; a plurality of auxiliary rods extend to make the auxiliary frames move horizontally thereon; a transverse rod driven by a first servo motor and connected with the 20 first set of supporting frames drives the transverse wheel to move back and forth; a micro-moving rod driven by a second servo-motor and connected with the second set of supporting frames drives the micro-moving wheel to make reciprocation back and forth.

   ]O.The automatic sample warper according to Claim 9, wherein the driving mechanism includes a motor, a plurality of gears and a guiding plate which is mounted on the first set of support frames and the transverse wheel; the transverse wheel comprises an inner gear and a plurality of ball bearings; the 5 gears fit with the isomer gear; the motor transmits a dynamic force through the gears and the inner gear thereby making the transverse wheel rotate via the ball bearings.

   11. The automatic sample warper according to Claim 9, wherein the number of the ]O auxiliary frames is four and they are mounted with a plurality of rollers to move the transverse wheel.

   12. The automatic sample warper according to Claim 9, wherein the first servo motor, the second servo motor, the motor and the yarn selection means are 15 controlled by a programmable computer.

   13. A warping method of an automatic warper comprises the following steps: I (a) the driving mechanism makes the transverse wheel rotate; 5 (b) the transverse wheel hooks the targeted different or same kind of yarn drawn by the yarn selection means; (c) the first set of supporting frames disposed on the transverse wheel move horizontally on a plurality of auxiliary rods; the first servo-motor drives the transverse rod to move; 10 (d) the micro-moving wheel connects with the second set of supporting frames via the micro-moving rod to make reciprocation back and forth; (e) with a proper tension, a plurality of extended seats disposed on the I surface of the micro-moving wheel sequentially wind the yarn in layers 15 onto a non-rotary drum.

   14. The automatic sample warper according to Claim 13, wherein the driving mechanism includes a motor, a plurality of gears and a guiding plate which is mounted on the first set of support frames and the transverse wheel; the 20 transverse wheel comprises an inner gear and a plurality of ball bearings; the gears fit with the inner gear; the motor transmits a dynamic force through the gears and the inner gear thereby making the transverse wheel rotate via the ball bearings.

   15. The automatic sample warper according to Claim 13, wherein the second set of supporting frames mounted in the micro-moving wheel; each second supporting frame respectively connects with each first supporting frame via a shaft bearing and a plurality of sliding pins to enable the micromoving wheel 5 to make reciprocating movement among the abovementioned elements; a plurality of auxiliary rods extend to make the auxiliary frames move horizontally thereon.

   16. The automatic sample warper according to Claim 13, wherein the number of the auxiliary frames is four and they are mounted with a l O plurality of rollers to move the transverse wheel.

   17. The automatic sample warper according to Claim 13, wherein the transverse rod includes a ball guiding screw rod.

   15 18. The automatic sample warper according to Claim 13, wherein the micro moving rod includes a hexagonal shaft connector.

   l9. The automatic sample warper according to Claim 13, wherein the first servo motor, the second servo motor, the motor and the yarn selection means are 20 controlled by a programmable computer.

   20. An automatic sample warper substantially as described herein with reference to the drawings.

   s 21. A warping method of an automatic warper substantially as described herein reference to the drawings.

   Amendments to the claims have been filed as follows 1. An automatic sample warper using a plurality of yarn selection means on a yarn introduction frame to warp different or the same kind of yarn onto a drum

   . comprlsmg: a transverse wheel with a yarn hook disposed on the surface of the wheel for hooking the yarn drawn by the yarn selection means; a first set of supporting frames mounted in the transverse wheel and having a plurality of auxiliary frames and a driving mechanism for causing the transverse wheel to rotate; 10 a plurality of auxiliary rods on which the auxiliary frames are movable horizontally and; a transverse rod driven by a first servo-motor drive and connected with the first set of supporting frames to drive the transverse wheel to move back and forth.

   2. An automatic sample warper according to claim 1, wherein a plurality of extended seats with slanted planes are disposed on the surface of the transverse wheel for hooking the yarn, the extended seats being arranged to wind sequentially the yarn onto a non-rotary drum with a proper tension.

   Iq

   3. An automatic sample warper according to claim 1 or claim 2, wherein said warper further includes a micro-moving wheel disposed with a plurality of extended seats with slanted planes to wind the yarn sequentially onto the non rotary drum with a proper tension; 5 a second set of supporting frames mounted in the micro-moving wheel; wherein each second supporting frame respectively connects with each first supporting frame via a shaft bearing and a plurality of sliding pins to enable the micro-moving wheel to make reciprocating movement among the abovementioned elements; and 10 a micro-moving rod driven by a second servo-motor and connected with the second set of supporting frames to drive the micro-moving wheel to make reciprocation back and forth.

   4. An automatic sample warper according to claim 3, wherein the micromoving 15 rod includes a hexagonal shaft connector.

   5. An automatic sample warper according to any one of the preceding claims, wherein the first servo motor, the motor and the yarn selection means are controlled by a programmable computer.

   6. An automatic sample warper according to claim 3 or claim 4, wherein the first servo motor, the second servo motor, the motor and the yarn selection means are controlled by a programmable computer.

   NAG

   7. An automatic sample warper according to any one of the preceding claims, wherein the driving mechanism includes a motor, a plurality of gears and a guiding plate which is mounted on the first set of support frames and the transverse wheel; the transverse wheel comprising an inner gear and a 5 plurality of ball bearings; the said plurality of gears meshing with the inner gear and the motor transmitting a dynamic force through the gears and the inner gear thereby making the transverse wheel rotate via the ball bearings.

   8. An automatic sample warper according to any one of the preceding claims, 10 wherein there are four auxiliary frames and they are mounted with a plurality of rollers to move the transverse wheel.

   9. An automatic sample warper according to any one of the preceding claims, wherein the transverse rod includes a ball guiding screw rod.

   10. A warping method utilising the automatic sample warper claimed in any one of the preceding claims, said method comprising the following steps: (a) the driving mechanism makes the transverse wheel rotate; (b) the transverse wheel hooks the targeted different or same kind of yarn 20 drawn by the yarn selection means; (c) the first set of supporting frames disposed on the transverse wheel move horizontally on a plurality of auxiliary rods; the first servo-motor drives the transverse rod to move; and (

   (d) with a proper tension, a plurality of extended seats disposed on the surface of the micro-moving wheel sequentially wind the yarn in layers onto a non-rotary drum.

   5 11. A warping method according to claim 10 and utilising the automatic sample warper claimed in claim 2, wherein a plurality of yarn selection means on a synchronously moving yarn introduction frame are used to warp the yarn on

   the drum and the transverse wheel hooks the targeted different or same kind of yarn drawn by the yarn selection means.

   12. A warping method according to claim 10 and utilising the automatic sample warper claimed in claim 3, wherein the micro-moving wheel connects with the second set of supporting frames via the micro-moving rod to make reciprocation back and forth.

   13. An automatic sample warper substantially as described herein with reference to Figs. 2 to 7 of the drawings.

   14. A warping method of an automatic sample warper substantially as described 20 herein with reference to Figs. 2 to 7 of the drawings.

   FEZ