DE102010017951B4 - circuit board - Google Patents

Abstract

A sinker (11) for a knitting needle (10), with the sinker (11) being able to lift a drive foot (16) of the knitting needle (10) lowered into the needle bed over the needle bed and to form a needle base (115) for the knitting needle (10) is, with which a lowering of the drive foot (16) of the knitting needle (10) into the needle bed can be prevented.

Description

The invention relates to a board for a knitting needle of a knitting machine, wherein the knitting needle is arranged in a needle channel of a needle bed and with the board a lowered into the needle bed drive foot of the knitting needle on the needle bed can be raised.

Such boards for the knitting needles of knitting machines, especially flat knitting machines, are already known. For example, describes the DE 687 608 A a selection board with which a sunk into the needle bed drive foot of a knitting needle can be raised over the needle bed, so that the drive foot of a lock curve of a knitting system is detected. The path taken by the drive foot through the knitting cam determines what function the knitting needle performs, that is, whether it forms stitches, takes a catch or remains in an inactive position.

The known selection boards are complex in structure. In addition, there is no way to prevent the unintentional lowering of the drive feet of the needles when the knitting needles are heavily loaded in the axial direction.

The DE 29 39 639 A1 describes a needle selection system with boards associated with each needle, with the boards pushing the needles forward but not lifting their feet above the needle bed. Also, an unintentional lowering of the needle butt can not be prevented by the board.

The present invention has for its object to provide a circuit board that allows both a reliable lifting of a drive foot of a knitting needle and can reliably prevent accidental lowering of the drive foot in the needle bed.

The object is achieved by a board for a knitting needle with the features of claim 1.

The board according to the invention is thus able to form a needle bottom over which the knitting needle can slide in particular in their withdrawal movement in the needle channel and prevents lowering of the needle butt under axial load of the knitting needle. At the same time, the board ensures a reliable lifting of the drive foot of the knitting needle, so that they can be reliably detected by lock parts of a knitting system and can perform the desired functions such as stitching, catching, holding in an inactive position, stitch transfer or stitch takeover. The needle can preferably have only a single drive foot.

Further advantages result if the drive foot can be raised against the spring force acting on it by the circuit board. The provision of the drive foot in his lowered position in the needle bed then does not have to be done by the board or another element. The provision is made rather passively by the spring force, which is preferably generated by the knitting needle itself.

For the design of the board various possibilities are conceivable.

One possibility is to arrange the board linearly displaceable in the needle channel. By moving the board to the knitting needle can be lifted by means of a board section of the drive and the bottom of the needle be formed. As long as the board remains in its advanced position, it thus forms the needle bottom, which prevents unwanted lowering of the drive foot of the needle. With a single movement of the board thus both functions, the lifting of the drive foot and the formation of the needle bottom, realize. It is further advantageous if the board can be moved back to its inactive starting position via a positioning foot. This retraction movement can be carried out at the end of a lock passage of the associated knitting needle. The drive foot of the knitting needle can thereby be sunk back into the needle bed.

However, the board can also be arranged pivotably in the needle channel, wherein the drive foot of the knitting needle by a pivoting movement of the board can be raised and at the same time the needle bottom is formed. A linear movement is not required here if the board engages under the knitting needle in the area of the drive foot even in its inactive starting position. Then a pivoting of the board is sufficient to raise both the drive foot and to form the needle bottom, which prevents unintentional lowering of the drive foot.

In this embodiment, the board can be moved back into its inactive starting position by the drive foot or a force acting on it. The board must then be actively driven only to lift the drive foot.

However, it is also possible to make the board pivotable in one direction against a spring force. Even then, an active drive is necessary only in a pivoting direction for the board. The provision of the board in its inactive starting position can be done in this embodiment by the spring force, ie passive.

The boards do not need to be in the needle bed. It is also possible to store them in a separate board bed, where they can be slidably or pivotally mounted in this bed.

Hereinafter, preferred embodiments of the invention boards are explained in detail with reference to the drawings.

Showing:

1a to 1d a section through a needle channel of a needle bed with a first board and a first needle;

2a to 2d one of the 1 appropriate cut with the board 1 and a second needle;

3a to 3d a section through a needle channel of a needle bed with a second board and a third needle;

4 one of the 3 corresponding sectional view with the board off 3 and a fourth needle;

5a . 5b one of the 3 corresponding sectional view with a third board and the needle off 3 ;

6a to 6c one of the 3 corresponding sectional view with the board off 5 and a fifth knitting needle.

1a to 1d show each cuts through a needle bed 100 in the area of a needle channel 110 in which a knitting needle 10 as well as a circuit board 11 are arranged. The knitting needle 10 becomes common with its adjacent knitting needles through a cover rail 120 and the board 11 together with their neighboring boards by a cover rail 130 against being lifted out of the needle channel 110 secured. The needle channel has a recess 19 in the needle ground 115 on.

In 1a There are both the knitting needles 10 as well as the board 11 in their inactive starting position. The board 11 is using a positioning foot 12 backwards to the stop of the positioning foot 12 to the cover rail bridge 130 have been moved to their original position. The needle hook 13 the knitting needle 10 is in the same position. In its rear area points the needle 10 a resilient section 14 at the needle shaft 15 on, at the rear end of a drive foot 16 is arranged for the knitting needle. The springy section 14 pushes the drive foot 16 down, so this on a slope 17 or a surface 17 ' in the recess 19 of the needle bottom of the needle bed 100 rests.

Now on the positioning foot 12 the board 11 a force in the direction of the arrow 18 exercised, as in 1b is shown, so pushes the board 11 the knitting needle 10 at her drive foot 16 forward. The drive foot slides 16 on the slope 17 upwards and gets out of the needle bed 100 raised. He can now over from the needle bed 100 moved, not shown here lock parts are detected. With the help of these lock parts, the needle can, for example, in the in 1c shown expelled position. During these needle movements, the board remains 11 in their driven position, in which they have a section 11a forms a needle bottom, the recess 19 Closes in the base of the needle and into the base of the needle 115 in the front area of the needle bed 100 passes completely. This can be done while retracting the needle 10 , as in 1d is shown, the drive foot 16 the needle 10 over the through the section 11a slide past the base of the needle without it being accidentally recessed into the needle bed. Only by actively moving the board back 11 at her positioning foot 12 in the in 1a shown starting position, the drive foot 16 through the resilient section 14 the needle 10 be lowered back into the needle bed. Due to the design of the board 11 So it can not be an unintentional lowering of the drive foot here 16 for example, by an axial load on the needle 10 come.

The 2a to 2d again show sectional views through the needle bed 100 in the area of a needle channel in which the board 11 out 1 as well as a second type of knitting needle 20 are inserted. The knitting needle 20 is constructed in two parts. The drive foot 26 this needle is on a pivoting element 25 arranged, hinged to the needle shaft 21 connected is. The needle shaft 21 has at its rear end a resilient portion 24 on, its free end in the drive foot 26 intervenes. The springy section 24 ensures that the drive foot 26 the knitting needle 20 in the inactive starting position of the knitting needle 20 in the needle bed 100 sunk. He rests in this position on the slope 17 or the area 17 ' of the needle bed 100 , This allows it again by a forward movement of the board 11 in the direction of the arrow 18 be lifted out of the needle bed, like 2 B shows. After lifting the drive foot 26 closes the section 11a the board 11 the recess 19 in the needle channel and forms a Nadelgrund, over which the knitting needle 20 can slip away, if this after their in 2c withdrawn expulsion is withdrawn to stitch formation, such as 2d shows. The section 11a thus prevents unintentional lowering of the drive foot 26 , Only when the board 11 at her positioning foot 12 back in the 2a moved back home position, also the drive foot 26 by the bias of the resilient portion 24 move back to its original position.

The 3a to 3d show a section through a needle bed 100 ' in the region of a needle channel, wherein in the needle channel a second embodiment of a circuit board 30 and a one-piece knitting needle 40 are arranged. The needle 40 again has a resilient section 44 on, at the rear end of a drive foot 46 is stored. The board 30 is about an axis 31 pivotally mounted in the needle channel. It also has a lift arm 32 on that the drive foot 46 the knitting needle 40 engages below. Next she is with an actuating rocker 33 provided, with the help of which they can be placed in a pivoting movement. In the inactive starting position of the board 30 is the lifting arm 32 at the bottom of a recess 19 ' in the needle bed 100 ' on, or the actuating rocker 33 is supported by the cover rail 130 from. The drive foot 46 the likewise inactive knitting needle 40 is through the resilient section 44 pressed down and is thus sunk in the needle bed.

By pressure in the direction of the arrow 34 on the swingarm 33 pivots the board 30 , as 3b shows, and lifts with her lifting arm 32 the drive foot 46 the knitting needle 40 over the needle bed so that it can be grasped by lock parts of a knitting system. Subsequently, the knitting needle 40 driven out, for example, for stitch formation, which is in 3c is shown. During this propulsion movement, the force in the direction of arrow 34 on the swingarm 33 Stay that way, so that the lift arm 33 the recess 19 ' in the needle bed 100 ' closes and a needle bottom 115 ' forms. During the advancing movement of the needle 40 is the formation of a Nadelgrundes by the Hebeschwinge 32 but not required because the drive foot 46 the knitting needle 40 here on the needle bottom 115 ' in the front area of the needle bed 100 ' supported and therefore can not be accidentally sunk into the needle bed. It is therefore also possible during the propulsion movement, the force on the drive rocker 33 to finish, so the lift arm 33 can swing down again, like 3d shows.

During the retraction movement of the needle becomes the lifting arm 32 however again raised what was in 4 is shown, wherein 4 this retraction movement of the needle using a two-piece needle 50 shows where the drive foot 56 on a pivoting element 55 is arranged. The pivoting element 55 is articulated at the needle shaft 51 arranged and is by a resilient section 54 of the needle shaft 51 similar to the needle 20 in the relaxed state of the resilient section 54 pressed down. Therefore, in the retraction movement of the needle 50 the lifting arm 32 the board 30 by applying force to the actuating rocker 33 be raised when the drive foot 56 should remain in the raised state.

The 5a . 5b show a further embodiment of a circuit board 60 , again around an axis 61 rotatable in the needle channel of a needle bed 100 ' is arranged. She works here with the needle 40 out 3 together. Unlike the board 30 Show her next to a lifting jib 62 and an actuating rocker 63 a spring element 64 on, that's the hilt 62 in the in 5a shown downwardly pivoted position forces. This is also the drive foot 46 the needle 40 lowered in the needle bed. Should the drive foot 46 be raised, so is in the direction of the arrow 66 a force on the actuating rocker 63 exercised, like 5b shows.

The 6a to 6c show the interaction of the board 60 with a two-piece needle 70 that in contrast to the knitting needles 10 . 20 . 40 and 50 no spring-mounted drive foot 76 having. The drive foot 76 is on a pivoting element 75 stored and becomes active by a force 77 kept sunk in the needle bed. The board 60 is located in through the spring element 64 caused initial situation with downwardly pivoted lifting arm 62 , To lift the drive foot 76 becomes the force in the direction of the arrow 77 finished and for the Betätigungsschwinge 63 the board 60 with a force in the direction of the arrow 66 applied. This leads to a lifting of the lifting arm 62 and thus also the drive foot 76 , as 6b shows. In this position also closes the lifting arm 62 the recess 19 ' and forms a Nadelgrund, the unintentional lowering of the drive foot 76 prevented in the needle bed.

During the advancing movement of the needle 70 , in the 6c shown is the position of the board 60 irrelevant. The board 60 can therefore return to their starting position 60 by the action of the spring 64 swivel back. In the front region of the needle bed, the drive foot 76 is formed by the needle base formed by the needle bed 115 ' supported.

Claims (10)

Board for a knitting needle ( 10 . 20 . 40 . 50 . 70 ) of a knitting machine, the knitting needle ( 10 . 20 . 40 . 50 . 70 ) in a needle channel ( 110 ) of a needle bed ( 100 . 100 ' ) and with the board ( 11 . 30 . 60 ) into the needle bed ( 100 . 100 ' ) lowered drive foot ( 16 . 26 . 46 . 56 . 76 ) of the knitting needle ( 10 . 20 . 40 . 50 . 70 ) over the needle bed ( 100 . 100 ' ) is liftable, characterized in that with the board ( 11 . 30 . 60 ) a needle ground ( 115 . 115 ' ) for the knitting needle ( 10 . 20 . 40 . 50 . 70 ) is formed over which the needle can slide and with the unintentional lowering of the drive foot ( 16 . 26 . 46 . 56 . 76 ) of the knitting needle ( 10 . 20 . 40 . 50 . 70 ) in the needle bed ( 100 . 100 ' ) is preventable. Board according to claim 1, characterized in that the drive foot ( 16 . 26 . 46 . 56 ) is liftable against a spring force acting on it. Board according to claim 1 or 2, characterized in that it is linear in the needle channel ( 110 ) is arranged displaceably. Circuit board according to claim 3, characterized in that it can be moved by moving the board ( 11 ) on the knitting needle ( 10 . 20 ) by means of a board section ( 11a ) the drive foot ( 16 . 26 ) and the needle bottom ( 115 ) is bildbar. Board according to claim 3 or 4, characterized in that it has a positioning foot ( 12 ) is moved back into its inactive starting position. Board according to claim 1 or 2, characterized in that it is pivotable in the needle channel ( 110 ) is arranged and the drive foot ( 46 . 56 . 76 ) by a pivoting movement of the board ( 30 . 60 ) liftable and the needle bottom 115 ' ) is bildbar. Board according to claim 6, characterized in that it is driven by the drive foot ( 76 ) of the knitting needle ( 70 ) is moved back into its inactive starting position. Board according to claim 6 or 7, characterized in that it is pivotable in one direction against a spring force. Board according to claim 8, characterized in that it is pivotable back by the spring force in its inactive starting position. Board according to claim 1 or 2, characterized in that it is mounted in a separate board bed.

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