EP0805885A1

EP0805885A1 - Device for vertical stretching of fabric in an automatic knitting machine, in particular a flat-bed knitting machine

Info

Publication number: EP0805885A1
Application number: EP96900153A
Authority: EP
Inventors: Benito Stoppazzini
Original assignee: EMM SRL
Current assignee: EMM SRL
Priority date: 1995-01-23
Filing date: 1996-01-18
Publication date: 1997-11-12
Anticipated expiration: 2016-01-18
Also published as: DE69603254T2; EP0805885B1; ITBO950016A0; JPH10512930A; DE69603254D1; IT1278165B1; BR9606775A; ITBO950016A1; ES2133923T3; WO1996023094A1; MX9705578A

Abstract

The device for vertical stretching of fabric in an automatic knitting machine, includes a series of members (22) for clamping the fabric (3) being formed, which are situated below longitudinal needle beds (1, 2). The clamping members (22) include oscillating claws (23) articulated to a supporting element (11) and aimed at cooperating with a stationary abutment plate (9), and presser plates (25) articulated to the claws (23) and designed to press elastically a longitudinal roller (10), arranged below the abutment plate (9) and rotated with a continuous motion. Slide elements (28), fixed to the supporting element (11), are reciprocated between a raised position, in which the fabric (3) is clamped, and a lowered position, in which the same fabric (3) is released. Cams (17) drive the claws (23) to close the clamping means (22), in a suitable phase relation with formation of the fabric (3) in the raised position of the slide element (28).

Description

DEVICE FOR VERTICAL STRETCHING OF FABRIC IN AN AUTOMATIC KNITTING MACHINE, IN PARTICULAR A FLAT-BED KNITTING MACHINE

TECHNICAL FIELD

The present invention relates to manufacturing of automatic knitting machines, in particular flat-bed or circular-bed knitting machines.

BACKGROUND ART

It is known that flat-bed knitting machines are usually equipped with a couple of needle beds, along which a carriage moves longitudinally with alternate motion. The carriage bears suitable actuator units that move selectively, according to a prefixed programme, needles which are introduced inside transversal slits made at regular distances along the needle beds. The above mentioned actuator units actuate the needles in succession, according to the commands provided by an electronic control unit, programmed with a suitable knitting programme, so as to achieve formation, in succession, of a series of so-called fabric rows.

There are known machines, so-called with multiple operation machines, in which more fabric rows are formed during a single carriage stroke.

Knitting machines need to stretch vertically the fabric being formed. The traditional devices used for this purpose generally include one or more rollers placed below the needle beds and parallel thereto. These rollers are designed to clamp and pull the fabric while being formed.

A known device of this type provides a couple of rollers tangent to each other and rotated in opposite directions, for a preset time interval, at the end of each carriage stroke.

These known devices generally produce an uneven stretching in the various machine working areas, giving unsatisfactory results in the fabric weave. Another problem that is encountered with the traditional knitting machines concerns the different tension in different parts of fabric, in particular of different length. The US Patent N. 5.271.250, belonging to the same applicant, describes a device that obtains a uniform vertical stretching of adjacent portions of fabric even in the presence of areas of different lengths. This device provides a series of clamping members for the fabric, situated below the needle beds, regularly spaced out, and including each one a couple of jaws articulated to supporting element integral with slides, operated vertically with reciprocating intermittent motion, from a raised position, in which the fabric is clamped, to a lowered position, in which the fabric is released.

Suitable cams are designed to close the clamping members in suitable phase relation with formation of the fabric rows, when the slide is in the raised position. Therefore, these clamping members cyclically clamp the fabric, perform a pulling stroke, and then release the fabric.

In the above mentioned device the stroke of the holding parts can be varied from a maximum to a minimum, relative to the desired stretching degree that depends on the knitting type and the number of fabric forming operation that can be obtained with a single stroke of the carriage. In particular, the possibility to increase the stretching is limited to the maximum stroke that can be imparted to the holding parts.

It is also to be specified that increase of the holding parts useful stroke beyond a certain value does not allow the fabric stretching to in¬ crease in the same proportion, since, due to the fabric elasticity, the stretching of the rows being formed becomes less and less effective in relation to increase of the distance between the rows and the point, in which the clamping members hold the fa¬ bric. In the mentioned solution, gripper elements, cooperating with the clamping members, hold the fabric when the clamping members are open and return to the raised position.

In spite of this fact, a part of stretching obtained by the clamping members is lost when the fabric is released by them.

Therefore, part of the subsequent stroke of the carriage is necessary for recovering the pre¬ viously lost stretching. In fact, the above men- tioned device performs an effective stretching action when the manufacturing is of the type includ¬ ing one or at most two fabric forming operations for each stroke of the carriage.

Beyond this limit, the amount of fabric produced during each carriage stroke is too big to allow good stretching.

DISCLOSURE OF THE INVENTION

The object of the present invention is to propose an improved device that performs a uniform vertical stretching of fabric in knitting machines, in particular that varies the stretching in accor¬ dance with the kind of manufacturing technique and the number of fabric forming operation per carriage stroke.

The above mentioned object is obtained in accordance with the invention, by means of a device for the vertical stretching of fabric in an auto¬ matic knitting machine, in particular a flat-bed knitting machine, which includes two longitudinal needle beds below which the fabric being formed exits, and that further includes a series of clamp¬ ing members for the fabric, arranged below the needle beds regularly spaced apart, and respectively consisting of oscillating claws, articulated to a supporting element along a longitudinal axis extend¬ ing parallel to the needle beds, a stationary abut¬ ment plate cooperating with the claws, and presser plates articulated to the claws along a longitudinal axis and designed to act elaεtically on a longitudi¬ nal roller arranged below the abutment plate and driven to rotate with a continuous motion according to a direction in agreement with the descent of the fabric being formed. A slide elements is connected to the support¬ ing element and is actuated so as to slide vertical¬ ly stepwise with a reciprocating motion, between a raised position, in which the fabric is clamped and a lowered position, in which the fabric iε released. Cam means are provided for rotation of the claws to close the clamping elements, in suitable phase relation with formation of the rows of the fabric, when the slides are located in the raised position.

BRIEF DESCRIPTION OF THE DRAWINGS The characteristic features of the present invention are pointed out in the following descrip¬ tion with reference to the enclosed drawings, in which: - Fig. 1 shows a cross-section view of the stretch¬ ing device being the subject of the present inven¬ tion,-

- Figs. 2, 3, 4, and 5 show cross-section views of the subject device in subsequent working steps; - Fig. 6 is a perspective detailed view of fabric gripping members of the subject device.

BEST MODE OF CARRYING OUT THE INVENTION

With reference to the above figures, the two needle beds of a flat-bed automatic knitting machine are indicated with 1 and 2, and a portion of a knitted fabric being formed is indicated with 3.

The needle beds 1 and 2 feature regularly spaced apart transverse slits, well known in the art, in which the needles 4 are inserted and actua¬ ted by respective operative systems.

The needle beds 1 and 2 are supported by a stationary frame that includes a couple of platforms 5 situated respectively below the needle beds l and 2; the platforms 5 are fixed to the needle beds 1,2 surfaces with interposition of a plurality of spacer elements 6. A cross-member 7, that defines a verti¬ cal surface extending lengthwise along the needle beds l, 2 , is fixed to a first of the platforms 5.

A connection plate 8 is fixed to the second platform 5, adjacent thereto, forms a vertical wall extending lengthwise along the machine, below the top of the first needle bed 1 , and supports a an abutment plate 9.

The connection plate 8 bears also a rotating knurled roller 10 (see also Fig. 6) , arranged below the abutment plate 9 and operated, by suitable motor means, with a continuous motion at low speed, ac¬ cording to a rotation direction in agreement with the descent of the fabric being formed.

A vertically sliding angular element 11 is fitted alongside the cross-member 7. Suitable pads 12 made of antifriction material, designed to reduce the sliding friction, are placed between the angular element 11 and the cross-member 7.

The pads 12 are inserted in corresponding openings made on the angular element 11 and are blocked by a plate 13 placed longitudinal to the same angular element 11. A series of prongs 15, suitably spaced out, are articulated to the angular element 11 by related hinges 14. The prongs 15 have an upper portion 15a, designed to face the cross-member 7, and a lower portion 15b facing downwards; the downward facing portion 15b is located below the angular element 11.

As described in detail in the mentioned US

Patent No. 5.271.250, for each prong 15 there is a lever 16 connected therewith and subjected to the action of a cam 17, so that the same prong 15 is made to oscillate; this cam 17 is made up of a cam shaft rotating about a horizontal axis longitudinal to the machine.

More precisely, the hinge 14 features two seats for receiving of respective pins 18 and 19 for the pivotal connection to the angular element 11 and the lever 16; the pins 18,19 have horizontal axes that are parallel to the machine.

The lever 16 protrudes over the cam shaft 17 in a kind of beak 16a. The lever 16 normally rests against the downward facing part 15b of the prong 15 being held in position by elastic action of a spring - 7 -

20 fitted in a housing made in the same lever 16.

The spring 20 is retained by a knob 21 inser¬ ted in the above mentioned housing of the lever 16; the head of this knob 21 rests against the lower surface of the downwards facing portion 15b of the prong 15.

At the top of the upper part 15a of each prong 15 there is situated a clamping member 22, aimed at cooperating with the stationary abutment plate 9 for holding the fabric 3 to be stretched.

As shown in Fig. 6, the clamping member 22 includes a claw 23 equipped with couples of teeth 23a arranged along the upper edge.

Presser plates 25, constituted by a kind of scoop, are articulated to the claws 23 by means of hinges 24 with a horizontal longitudinal axis.

The presser plates 25 push lightly the roller 10, due to the elastic action exerted by a spring 26, that urges the prong 15. On their surface turned toward the roller 10, the presser plates 25 feature a series of vertical grooves 27; these grooves 27 are designed to receive the threads that separate the rows of the fabric 3 being formed, extended in known way in direction parallel to the same fabric.

Moreover, along their lower edge, the presser plates 25 have a section 25a bent toward the prong 15. In correspondence with the ends of the needle beds 1,2, there is a pair of symmetrical slides 2S, only one of which can be seen in the drawing; the slides 28 are fitted in known way to the angular element 11.

Each slide 28 has a rack profile 29 that meshes with a pinion 30, supported rotatably by the stationary frame 31 of the machine and designed to be stepwise operated by related drive parts . _On t_he side opposite to the rack 40, the slide 28 is guided by a counter-roller 32, also supported rotatably by the stationary frame 31 of the machine. The action of the rack 29 is also balanced by a spring 33 suspended vertically on the frame ₃₁ and hooked to a pin 34 protruding trans- versally to the lower end of the slide 28.

The operation of the described device is now illustrated beginning from the step, in which the gripper members 22 are opened in a raised position with respect to the stationary abutment plate 9 (Fig. ₁) . In this position the aforementioned clamp^¬ ing members 22 are in their topmost position, there¬ fore very close to the area where the so-called rows of fabric 3 are formed, in the region of the needle beds 1,2.

In suitable phase relation with the formation of these rows, the rotation of the cam shaft 17, acting on the levers 16, determines the oscillation of the prongs 15. Therefore, the claws 23 carried by the prongs 15 approach the stationary abutment plate ₉, clamping the fabric 3 between the teeth 23a and the same abutment plate 9.

Further rotation of the cam shaft 17 deter- mines subsequently the oscillation of the levers 16 with respect to the relative prongs 15, loading the springs 20 (Fig. 2) .

In this manner an ideal fabric 3 holding tension is obtained, that can be appropriately adjusted by means of the knob 21 holding the same springs 20.

Once the fabric 3 hold has been established, the command is given for downward sliding of the slides 28, which are connected with the angular element 11 that act as support for the prongs 15, so as to cause the stretching of the same fabric (Fig. 3) . This sliding is obtained by stepwise rotation of the pinions 30 that are engaged with racks 29 of the slides 28.

It is to be noted that till this step the knurled roller 10 exerts only the friction action on the fabric 3, kept in touch with the roller 10 by the presser plates 25 that are subject to the elas¬ tic action of the springs 26.

Obviously, the presser plates 25 follow the downward movement imposed to the claws 23 by the slides 28. Due to reciprocal adaptations, the lower¬ ing of the claws 23 determines also rotation of the presser plates 25 with the roller 10 acting as a pin. This rotation carries the bent section 25a of the presser plates 25 to strike against the prongs 15, so as to form with the latters one rigid body capable of clamping with force the fabric to the rotating knurled roller 2 0 (Fig. 4) . The action of the presser plates 25 causes also a limited rotation of the prongs 15 that rotate with respect to the levers 16, kept in contact with the cam shaft 17.

This rotation determines the return of the claws 23 with the consequent separation of the teeth 23a from the abutment plate 9 and the release of the fabric 3 (see again Fig. 4) .

Thus the continuous rotation of the roller 10 provokes downward sliding of the fabric 3, clamped thereto by the presser plates 25.

In this manner, the knurled roller 10 can continue the stretching action of the fabric 3, if this is necessary.

It is clear that the device allows to vary operation in relation with the length of the rows and the number of the fabric forming operations per each carriage stroke.

In particular, the stretching steps performed by the claws 23, illustrated previously, are suffi¬ cient in the machines with one or two fabric forming operations, while further stretching performed by the knurled roller 10, during the descent stroke, is advantageously used in the machines with many fabric forming operations, such as three or four opera¬ tions . It is to be noted that the elastic clamping thrust exerted on the fabric 3 , during the descent step, is supplied by the springs 20 carried by the levers 16 and acting on the prongs 15.

The presser plates 25, in conjunction with the roller 10, can alsc maintain the fabric 3 taut during the subsequent 3tep, in which the slides 28 rise again (Fig. 5) . During this rising step, a further rotation of the cam shaft determines the disengagement of the levers 16, that return to form one body with prongs 15.

It is to be noted that the rise does not bring the teeth 23a of the claws 23 to touch the stationary abutment plate 9, since the springs 26 push elastically the presser plates 25 so as to touch a knurled roller 10, thus allowing a light return rotation of the prongs 15, that keeps the same prongs 15 suitably distanced from the abutment plate 9.

Obviously, this prevents the teeth 23a from acting on the fabric 3 during the rising step.

When the slides 28 have completed their rising, the rest condition initially described is restored for another fabric stretching step.

To summarise, therefore, the device in ques- tion involves the creation of a sequence of succes¬ sive clamping steps for the fabric 3 performed by - li ¬

the claws 23 in conjunction with the abutment plate 9, then descent of these claws 24 for the stretching of the fabric 3, and lastly return of the claws 23 to the raised inoperative position. The clamping members 22 are normally activa¬ ted when the carriage, that slides along the needle beds 1, 2, inverts its stroke.

When the so-called fabric take-up occurs, or rows of the fabric being formed have limited length, or as has already been said in machines with one or two fabric forming operation per carriage stroke, the stretching of the fabric is performed only by the above mentioned descent of the claws 23.

During the return stroke of the claws 23 to the raised inoperative position, the fabric 3 is kept taut by the presser plates 25 that clamp it elastically to the knurled roller 10, operated with a continuous motion at a low speed.

In fact, the roller 10 exerts a constant traction action, preventing the fabric from elastic returning. When the rows of fabric being formed are longer, in machine of multiple fabric forming opera¬ tions, the rotating knurled roller 10 allows to continue stretching of the fabric. Obviously, also in this case, during the return stroke of the claws 23 to the raised posi¬ tion, the fabric 3 is kept taut by the presser plates 25 and the rotating roller 10.

Therefore, the described device makes it possible to vary the stretching in relation to the number of fabric forming operations and the type of manufacturing.

In particular, in the machines with multiple fabric forming operations, it is possible to vary the stretching according to the number of needles selecting units which are set into operation, assuring that the fabric is constantly stretched in the desired way.

The device is also simple to build, thus reducing considerably the costs of production and maintenance.

In this description the device, subject of this invention, has been proposed associated with a flat-bed machine, for example for knit-wear.

This device can be usefully adopted with a circular type knitting machine, or with any kind of machine that produces fabric of whatever kind.

Claims

1. Device for the vertical stretching of fabric in an automatic knitting machine which includes two longitudinal needle beds (1,2), below which the fabric (3) being formed exits, said device being characterised in that it includes: a series of regularly spaced apart clamping members (22) for the fabric (3) , arranged below said needle beds (1,2), respectively consisting of oscillating claws (23) , articulated to a supporting element (11) along a longitudinal axis (18) extending parallel to said needle beds (1,2), a stationary abutment plate (9) cooperating with said claws (23) , and presser plates (25) articulated to said claws (23) along a longitudinal axis (24) for pressing on a longitudi¬ nal roller (10) , arranged below said abutment plate (9) and driven to rotate with a continuous motion in agreement with the descent of the fabric being formed; slide elements (28) connected to said supporting element (11) and actuated so as to slide vertically stepwise with a reciprocating motion, between a raised position, in which said fabric (3) is clamped and a lowered position, in which the fabric (3) is released; cam means (17) for providing angular rotation of said claws (23) to close said clamping elements (22), in suitable phase relation with formation of the rows of said fabric (3) , when the slides (28) are located in said raised position.

2. Device, according to claim 1, characterised in that said claws (23) are fixed to respective prongs (15) articulated to said supporting element (11) , with respective levers (16) also hinged to said prongs (15) , and subjected to elastic action of springs (20) held by the same supporting element (11) .

₃. Device, according to claim l, characterised in that along their upper edge, said claws (23) feature teeth (23a) for clamping said fabric (3) to the said stationary abutment plate (9) .

4. Device, according to claim l, characterised in that each one of said presser plates (25) is consti¬ tuted by a kind of scoop hinged in its upper part to the said claws (23) and subjected to the action of spring (26) pushing toward said roller (10) that is suitably knurled.

₅. _Device, according to claim 1, characterised in that along their lower edge each one of said presser plates (25) features a section (25a) that is bent towards the side opposite to said roller (10) and that rests, when located in an operative position, against a prong (15), fixed to said claws (23).

₆. Device, according to claim 1, characterised in that on their surface turned toward said roller (10) each one of the said presser plates (25) features a series of vertical grooves (27) which receive the threads that separate the rows of the fabric (3) being formed.

₇. Device, according to claim l, characterised in that said abutment plate (9) includes a vertical wall, that extends longitudinally below the top of a first needle bed (1) , in front of said claws (23) .