CN115074897A - Knitting method of pile fabric knitted by flat knitting machine - Google Patents

Abstract

A method for knitting a pile fabric knitted by a flat knitting machine, capable of knitting a pile fabric by a pile yarn and a reinforcement yarn by a single cam system and efficiently knitting the pile fabric. Knitting a pile fabric by a flat knitting machine in the following manner: is configured to be selectively switched to a pull-down course (R2) and a pass-through course (R1), the pull-down course (R2) being such that the knitting needle (1) brought into the let-down position is subjected to the action of the top cam (17) to engage the knitting yarn by the needle hook of the knitting needle (1); the passing route (R1) allows the knitting needle (1) to pass through the top cam (17) without being affected by the top cam (13) and to be maintained at a stitch retreating position, and in a course for pile knitting, the knitting needle (1) forming a pile loop bites only the pile thread (33) of the pile thread (33) and the reinforcement thread (31), and the knitting needle (1) forming a base of the pile knitted fabric bites both the pile thread (33) and the reinforcement thread (31).

Description

Knitting method of pile fabric knitted by flat knitting machine

Technical Field

The present invention relates to a method of knitting a pile fabric knitted by a flat knitting machine.

Background

The pile knitted fabric is a knitted fabric in which knitting needles of one needle bed out of a front needle bed (FB) and a back needle bed (BB) form a base of the pile knitted fabric with stitches made of a pile yarn and a reinforcement yarn, and knitting needles of the other needle bed form pile stitches made of only the pile yarn on the back side of the base.

Patent document 1 discloses a method of knitting a pile fabric with a flat knitting machine provided with a sinker device, but the method of knitting a pile fabric described in patent document 1 cannot be formed with a flat knitting machine not provided with a sinker device for pulling out pile threads.

Fig. 3 shows a knitting method of a pile fabric knitted by a method different from patent document 1. This method is a pile fabric knitting method performed by a carriage on which two cam systems (SYS1, SYS2) are mounted. The base of the pile fabric is formed by the knitting needles of FB, and pile loops are formed by the knitting needles of BB. Two yarn feeding ports of a yarn feeding port P for a pile yarn and a yarn feeding port B for a reinforcement yarn are prepared, the pile yarn 33 is assigned to a preceding cam system (SYS1), and the reinforcement yarn 31 is assigned to a following cam system (SYS 2).

In SYS1, the knitting needles of FB and BB are advanced and retracted to pull in the pile thread 33. At this time, the knitting needle of the FB is pulled in to such an extent that the old stitch formed in the previous course does not slip from the tip of the knitting needle, and is guided to the SYS2 in the subsequent row while maintaining this state. In SYS2, the knitting needle of BB is not operated, and only the knitting needle of FB in the above state is moved back and forth again to bite the reinforcing wire 31. Thus, the knitting needle of the FB pulls in both the pile thread 33 and the reinforcing thread 31 to release the old stitch. Although not shown, the knitting yarn is advanced and retreated to and from the knitting needle of BB without being supplied, and the pile yarn 33 drawn in by SYS1 is removed from the knitting needle to form a pile loop. The pile fabric is woven by repeating such weaving.

Patent document 1: japanese examined patent publication No. 60-59333

Disclosure of Invention

Problems to be solved by the invention

In the method shown in fig. 3 described above, in SYS1, it is necessary to adjust the position of the stitch cam, to remove the stitch cam, or the like, so that the knitting needle of FB knocks off the old stitch formed in the previous course from the needle tip. Further, since two triangular systems are required, there is a problem that productivity is also lowered.

Means for solving the problems

The present invention is a method of knitting a pile fabric knitted by a flatbed knitting machine including a carriage, the carriage is provided with at least one front and rear cam system, the knitting method of the pile fabric knitted by the flat knitting machine supplies the pile thread and the reinforcement thread by using the flat knitting machine, the knitting needles of one needle bed form a base of the pile fabric with loops composed of the pile thread and the reinforcement thread, the knitting needles of the other needle bed form pile loops composed of only the pile thread appearing on the back side of the base to knit the pile fabric, the cam system comprises a needle raising cam having a raising cam face for moving a knitting needle in and out with respect to a stitch withdrawing position, a raising cam surface for raising a butt arranged on a knitting needle by a carriage reciprocating on a front needle bed and a rear needle bed on which a plurality of knitting needles are arranged; the method for knitting a pile fabric knitted by a flat knitting machine, the method comprising the steps of:

at least one side of the triangle system forming the pile loop is configured to be selectively switched to a pull-down route and a passing route,

the butt of the knitting needle entering the loop withdrawing position of the pull-down route can be acted by the top cam by the needle raising cam, and the knitting yarn is bitten by the needle hook of the knitting needle;

the passing route enables the butt of the knitting needle to pass through the top cam constantly at the stitch withdrawing position without being affected by the top cam; and the number of the first and second electrodes,

two yarn feeding ports for reinforcing yarn for feeding reinforcing yarn to the advancing side and for pile yarn for feeding pile yarn to the retreating side are allocated to the cam system with a phase difference in the advancing direction;

in the course of pile knitting, in the side cam system forming pile loop, switching to the above-mentioned route, supply the reinforcement thread to the lower side than the open latch tip of the knitting needle, supply the pile thread to the hook side than the latch tip, make the knitting needle bite the pile thread only among the pile thread and reinforcement thread;

in a cam system on one side of a base forming a pile knitted fabric, a knitting needle is guided to the pull-down route to bite both of a pile yarn and a reinforcement yarn.

It is preferable that each of the front and rear cam systems is configured to be selectively switched to a pull-down course and a passing course to form pile loops on the front and rear surfaces of the pile fabric.

Further, the present invention is a knitting method of a pile fabric knitted by a flat knitting machine, the flat knitting machine including a carriage provided with at least one cam system for supplying a pile yarn and a reinforcement yarn by using the flat knitting machine, the cam system including a raising cam having a raising cam surface for moving a knitting needle in and out with respect to a let-off position, the raising cam surface raising a butt provided on the knitting needle by the carriage reciprocating on a front needle bed and a rear needle bed on which a plurality of knitting needles are arranged; the method for knitting a pile fabric knitted by a flat knitting machine, the pile fabric having a descending cam surface for descending the butt and being guided to a descending path along which knitting yarns can be engaged by hooks of knitting needles, wherein a base of the pile fabric is formed by every 1 knitting needle of one needle bed with a stitch formed by a pile yarn and a reinforcement yarn, and a pile loop formed only by the pile yarn appearing on a back side of the base is formed by the remaining every 1 knitting needle adjacent to the every 1 knitting needle of the one needle bed, the method for knitting the pile fabric knitted by the flat knitting machine comprising the steps of:

the triangulation system is configured to be selectively switchable to the pull-down route and the pass-through route,

the pull-down route can enable the butt of the knitting needle entering the loop withdrawing position from the needle raising cam to be under the action of the top cam, and the needle hook of the knitting needle bites the knitting yarn;

the passing route enables the butt of the knitting needle to pass through the top cam in a way of keeping the butt of the knitting needle at the stitch withdrawing position without being affected by the action of the top cam; and the number of the first and second electrodes,

two yarn feeding ports for reinforcing yarn for feeding reinforcing yarn to the advancing side and for pile yarn for feeding pile yarn to the retreating side are allocated to the cam system with a phase difference in the advancing direction;

in the course of pile knitting, the knitting needle forming pile loop is guided to the passage, the reinforcing thread is supplied to the lower side of the open front end of the latch of the knitting needle, the pile thread is supplied to the hook side of the front end of the latch, and the knitting needle bites only the pile thread of the pile thread and the reinforcing thread;

the knitting needles forming the base of the pile fabric are guided to the pull-down route (R2) and the knitting needles bite both the pile threads and the reinforcing threads.

ADVANTAGEOUS EFFECTS OF INVENTION

In the present invention, in a stitch course for pile knitting, both of a pile yarn and a reinforcing yarn can be pulled in a cam system on the side of a base of a knitted fabric, and in a cam system on the side of a pile loop formed opposite to the cam system, both of the reinforcing yarn and the pile yarn are guided to a passing course. As a result, knitting of the pile yarn and the reinforcement yarn can be completed by a single cam system, and the pile fabric can be efficiently knitted.

In addition, if each of the front and rear cam systems can be selectively switched to the pull-down course and the passing course, pile loops can be formed on the front and rear sides of the pile fabric.

Since every 1 knitting needle of the same needle bed is guided to the pull-down route, the base of the pile knitted fabric is formed with the loops formed by the pile yarn and the reinforcement yarn, and the remaining every 1 knitting needle is guided to the pass-through route, and the pile loop is formed only by the pile yarn, the pile knitted fabric can be knitted by only one needle bed.

Drawings

Fig. 1 is a schematic explanatory diagram showing a correspondence relationship between knitting needles and a cam system for pile knitting in example 1.

Fig. 2 is a view showing a positional relationship of the reinforcing thread 31 and the pile thread 33 at the Y position with respect to the knitting needle 1 in fig. 1.

Fig. 3 is a diagram illustrating pile knitting performed by a conventional flatbed knitting machine.

Detailed Description

In order to implement the mode of the invention

An embodiment of the present invention will be described below with reference to fig. 1 and 2.

[ example 1]

Next, an example using a 2-bed flatbed knitting machine in the present embodiment will be described. The flat knitting machine includes needle beds (FB, BB) on which a plurality of knitting needles 1 are arranged, a carriage on which a cam system 3 for driving the knitting needles 1 is mounted, and a plurality of yarn feed ports for feeding knitting yarns to the needle beds. The cams, platen driving method, needle bed structure, knitting needle selection method, and the like mounted on the cam system 3 are the same as those of a known flat knitting machine disclosed in japanese patent No. 5057996 and the like, and therefore, description thereof is omitted. In the present embodiment, the following example of a triangle system is made: in this cam system, a top cam and a half presser for forming a pile loop to be described later are provided on one of the front and rear cam systems 3, and the pile loop is formed on the back side of the base of the pile fabric. Therefore, the known cam system is used for the cam system of one side of the base of the woven pile fabric.

Fig. 1 is a schematic explanatory diagram showing a correspondence relationship between a cam system 3 and a knitting needle 1. The knitting needle 1 includes a needle body 5, a needle jack 7, a selector jack 9, and a selector 11. The jack 7 is provided with a butt 7a for forward and backward operation of the knitting needle 1, and the selector jack 9 is provided with a butt 9a for A, H, B position selection. The figure shows a state where the selector jack 9 has selected the needle at the H position.

The cam system 3 is a cam system capable of performing knitting, tucking, and non-knitting, but may be a composite cam system capable of transferring stitches. The figure shows a state when the cam system 3 travels in the left direction to perform knitting. The cam system 3 includes a plurality of cams that act on the butt 7a and a plurality of pressing plates that act on the butt 9 a. The cam system 3 further includes a needle raising cam 13 located at the center; a top triangle 17 in a position above it; stitch cams 15, 15 provided on the left and right across the top cam 17; a tuck presser 19 located below the needle raising cam 13; a pair of left and right half pressing plates 21; a float press plate 23; a needle selecting mechanism 25 located at a lower position thereof.

The needle raising cam 13 is a raising cam that acts on the butt 7a to raise the knitting needle 1 to the knitting position. The top cam 17 is constituted by a full-height portion 17h and a half-height portion 17l, and a portion corresponding to the passing course R1 is divided into a pull-down course R2 and a passing course R1 as the half-height portion 17l in accordance with the amount of projection of the butt 7 a. That is, the top cam 17 is constituted by a portion (17h) having the same thickness as the stitch cam 15 and the set-up cam 13 and a portion (17l) having a thickness of about half, and the amount of pressing of the half presser 21 against the butt 9a to be described later is constituted by about half (half-height presser) of the float presser 23 and the tuck presser 19. The half presser 21 is driven by a driving unit such as a solenoid, and is configured to be movable between an operating position at which the presser butt 9a of the selector jack 9 is retracted and an inactive position at which the presser butt 9a is not pressed.

In the cam system 3 for forming pile loops, the butt 7a of the needle jack 7 is also lowered by half, since the butt 9a of the selector jack 9 is pushed in by half only by the half presser 21. As a result, the butt 7a is guided to the passing route R1 without being affected by the half-height portion 17l of the top cam 17, and is then pulled in by the stitch cam 15.

The float presser 23 is arranged at the B position which is the initial position of needle selection, and presses the selector jack 9 which has not been selected by the needle selecting mechanism 25 to prevent the knitting needle 1 from knitting. The tuck presser 19 is disposed at the a position, and the half presser 21 is disposed at the H position. The half presser 21 on the rear row side out of the pair of left and right half pressers 21 is guided to the passing route R1 not affected by the half-height portion 17l of the top cam 17 by acting on the knitting needle 1 raised by the needle raising cam 13, and acts so that the knitting needle 1 bites the pile thread 31 but does not bite the reinforcing thread 33.

In addition, instead of the above-described configuration: the half-height portion 17l of the top cam 17 can be switched between an active position and an inactive position by controlling the movement of the half-height portion 17l by a driving means such as a solenoid. However, in this case, knitting cannot be performed in which pile loops are formed in a mixed manner with normal knitting loop formation in knitting courses of pile loops. The yarn feeder is configured such that a reinforcing yarn feeder B arranged on the leading side to feed the reinforcing yarn 31 and a pile yarn feeder P arranged on the trailing side to feed the pile yarn 33 are kept at the positions shown in the figure with respect to the cam system 3 and run.

A method of knitting a pile fabric using the flat knitting machine including the cam system 3 described above will be described. In the following example, the base of the pile fabric is formed by the knitting needles of FB, and the pile loops are formed by the knitting needles of BB.

Fig. 1 shows a state of the cam system 3 forming the pile loop BB when the cam system 3 travels in the left direction. The knitting needle 1 is set at the H position, the half presser 21 on the forward side is set at the inactive position, and only the half presser 21 on the backward side is set at the active position. In the cam system 3 of FB forming the base of the pile fabric, the butt 7a of the selector jack of the knitting needle 1 is set at the H position, and the half presser 21 is set at the inactive position on both the preceding side and the following side.

At the X position, the butt 9a of the selector jack 9 selected at the H position of the FB, BB is lifted up to the retreated position by the needle raising cam 13 and then pulled down by the top cam 17 at the FB, so that both the reinforcing thread 31 and the pile thread 33 are engaged by the hook of the knitting needle 1 to form a stitch. On the other hand, in BB, the butt 9a is lowered by half by the action of the half presser 17 on the backward side, and is guided to the passing route R1.

Since the preceding reinforcement yarn feeder B and the succeeding pile yarn feeder P move with a phase difference set with respect to the direction of travel, the positional relationship between the reinforcement yarn 31 and the pile yarn 33 with respect to the knitting needle 1 at the Y position is as shown in fig. 2. That is, the reinforcing thread 31 is positioned below the opened latch tip 1a of the knitting needle 1, and the pile thread 33 is positioned on the hook side, which is the upper side than the latch tip 1 a. Therefore, the hook of the knitting needle 1 bites only the pile thread 33 by the drawing by the stitch cam 15 to form a pile loop. As a result, knitting by the pile yarn 33 and the reinforcement yarn 31 can be completed by a single cam system, and the pile fabric can be efficiently knitted. Then, the knitting yarn is advanced and retreated without being supplied to the knitting needle 1 of the BB to which the pile yarn loop is locked, and the pile yarn is removed from the knitting needle 1. By repeating such knitting, a pile fabric (single pile) having pile loops on the back side of the base of the knitted fabric can be knitted.

Further, if the cam system of FB is also provided with the top cam 17 and the half presser 21 having a half-height portion so that the knitting can be performed by selecting the cam system 3 in which pile loops are formed by switching back and forth for each course through the route R1 and the pull-down route R2, a pile fabric (double pile) having pile loops on both the front and back sides of the base of the knitted fabric can be knitted.

The reinforcing yarn as used herein refers to a yarn that is drawn in together with a pile yarn by a knitting needle to form a stitch, and may be a different type of yarn from the pile yarn or the same type of yarn.

[ example 2]

Next, an example of pile knitting using only one needle bed out of a pair of front and back needle beds will be described. In this case, the knitting method is a method of knitting a pile fabric by: for example, the base of the pile knitted fabric is formed by every 1 knitting needle, for example, knitting needles of odd numbers of the FB with loops composed of pile threads and reinforcement threads, and pile loops composed only of pile threads appearing on the back side of the base are formed by knitting needles of even numbers adjacent to the above needles.

The cam system for pile knitting is configured to be able to selectively switch between a pull-down course and a passing course, and to provide a phase difference in the traveling direction at the reinforcement yarn feeder and the pile yarn feeder, as in example 1. In the course of pile knitting, knitting needles of even number are guided to the passing course to bite only the pile yarn, and knitting needles of odd number are guided to the pull-down course to bite both the pile yarn and the reinforcing yarn, thereby forming a base of the pile knitted fabric.

The pile thread is removed from the knitting needles of even numbered FB to which the pile loops are locked. By repeating such knitting, a pile fabric having pile loops on the back side of the base of the knitted fabric can be knitted with only one needle bed. Further, if the pile knitting described above is performed while knitting the front knitted fabric and the back knitted fabric in a circular shape using the front and back needle beds, the base knitted fabric can be formed in a tubular shape and pile loops can be formed on the inner side of the tubular knitted fabric.

Description of the symbols:

1: knitting needle

3: triangular system

5: needle body

7: needle jack

7 a: heel piece

9: needle jack of selector

9 a: heel piece

11: selector device

13: needle raising cam

15: looping triangle

17: top triangle

19: tucking clamp plate

21: half pressing plate

23: floating line pressing plate

25: needle selection mechanism

31: reinforcing line

33: pile thread

R1: by route

R2: pull-down route

P: yarn supply opening for pile thread

G: the reinforcing thread is used as a yarn supply opening.

Claims (3)

1. A method of knitting a pile fabric knitted by a flat knitting machine, the flat knitting machine including a carriage provided with at least one front and rear cam system (3), the method of knitting the pile fabric knitted by the flat knitting machine supplying a pile thread (33) and a reinforcement thread (31) by using the flat knitting machine, a base of the pile fabric being formed by knitting needles (1) of one needle bed with stitches made of the pile thread (33) and the reinforcement thread (31), the pile fabric being knitted by forming pile loops made of only the pile thread (33) appearing on a back side of the base by knitting needles (1) of the other needle bed, the cam system (3) including a set-up cam (13) having a set-up cam surface for moving the knitting needles (1) in and out of a set-down position, and a top cam (17) provided with a carriage provided to reciprocate on a front needle bed and a rear needle bed on which a plurality of knitting needles (1) are arranged, the set-up cam surface moving on the knitting needles (1) The butt (7a) on the needle (1) rises; the top cam (17) has a descending cam surface for descending the butt (7a) and is guided to a descending route (R2) capable of being engaged with knitting yarns by hooks of knitting needles (1), and the knitting method of the pile fabric knitted by the flat knitting machine is characterized by comprising the following steps:

at least one side of the cam system (3) forming pile loops among the cam systems (3) is configured to be selectively switched to a pull-down route (R2) and a passing route (R1),

in the pull-down route (R2), the butt (7a) of the knitting needle (1) entering the loop withdrawing position is subjected to the action of the top cam (17) by the needle raising cam (13), and the knitting yarn is engaged by the needle hook of the knitting needle (1);

the passing route (R1) enables the butt (7a) of the knitting needle (1) to pass through the top cam (17) without being affected by the top cam (17) and maintaining the stitch withdrawing position; and also,

two yarn feeding ports (B, P) for distributing a reinforcing yarn feeding port (B) for feeding a reinforcing yarn (31) to a leading side and a pile yarn feeding port (P) for feeding a pile yarn (33) to a trailing side with a phase difference in a traveling direction of the cam system (3);

in a course row for pile knitting, in a cam system (3) on the side where pile loops are formed, switching is made to the passage route (R1) to supply a reinforcing thread (31) to the lower side of an opened latch tip (1a) of a knitting needle (1) and to supply a pile thread (33) to the hook side of the latch tip (1a) so that the knitting needle (1) bites only the pile thread (33) of the pile thread (33) and the reinforcing thread (31);

in a cam system (3) forming one side of a base of a pile fabric, a knitting needle (1) is guided to the pull-down route (R2) to bite both of a pile thread (33) and a reinforcing thread (33).

2. The knitting method of a pile fabric knitted by a flat knitting machine according to claim 1, characterized in that each of the front and rear cam systems (3) is configured to be selectively switched to a pull-down course (R2) and a passing course (R1) to form pile loops on the front and rear sides of the pile fabric.

3. A knitting method of a pile fabric knitted by a flat knitting machine, the flat knitting machine including a carriage provided with at least one cam system (3), the knitting method of the pile fabric knitted by the flat knitting machine supplying a pile thread (33) and a reinforcement thread (31) by using the flat knitting machine, the cam system (3) including a needle raising cam (13) and a top cam (17), the needle raising cam (13) having a raising cam surface for moving a knitting needle (1) in and out with respect to a loop returning position, the raising cam surface raising a butt (7a) provided on the knitting needle (1) by a carriage reciprocating on a front needle bed and a rear needle bed on which a plurality of knitting needles (1) are arranged; the top cam (17) has a descending cam surface for descending the butt (7a), and is guided to a downward pulling path (R2) capable of being engaged with knitting yarns by hooks of knitting needles (1), and the knitting method of the pile knitted fabric knitted by the flat knitting machine is characterized in that the method comprises the following steps:

the triangle system (3) is configured to be selectively switchable to a pull-down route (R2) and a pass-through route (R1),

the pull-down route (R2) enables the butt (7a) of the knitting needle (1) entering the loop withdrawing position from the needle raising cam (13) to be acted by the top cam (17) and the needle hook of the knitting needle (1) to bite the knitting yarn;

the passing route (R1) enables the butt (7a) of the knitting needle (1) to pass through the top cam (17) without being affected by the top cam (17) and maintaining the stitch withdrawing position; and the number of the first and second electrodes,

two yarn feeding ports (B, P) for distributing a reinforcing yarn feeding port (B) for feeding a reinforcing yarn (31) to a leading side and a pile yarn feeding port (P) for feeding a pile yarn (33) to a trailing side with a phase difference in a traveling direction of the cam system (3);

in a course for performing pile knitting, a knitting needle (1) forming a pile loop is guided to the passage route (R1), a reinforcing thread (31) is supplied to the lower side of the open front end of the knitting needle (1) and a pile thread (33) is supplied to the hook side of the front end (1a) of the latch, and the knitting needle (1) bites only the pile thread (33) of the pile thread (33) and the reinforcing thread (31);

a knitting needle (1) forming the base of the pile knitted fabric is guided to the pull-down route (R2), and the knitting needle (1) bites both the pile thread (33) and the reinforcing thread (31).

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