CS266347B2 - Device for electromagnetic control, especially for knittting machines used in the production of stocking - Google Patents

Abstract

The present invention relates to a high speed electromagnetic actuator (1), particularly for selection devices in knitting machines for hosiery and the like. The actuator (1) comprises a frame (2) oscillably supporting a lever (3) having a portion pivotally connected to the frame (2) and at least one electromagnet (4,5) which acts on the lever (3), to cause oscillation thereof; the lever (3) has at least one ledge (12,13) made of ferromagnetic material which extends in the direction of the nucleus (7,8) of the electromagnet (4,5). A synthetic, anti-wear, anti-magnetic material (20) is moulded at least on the reciprocally facing portions of the cited ledge (12,13) and the nucleus (7,8) of the electromagnet (4,5).

Description

magnetic actuators, in particular for selectors for knitting machines for the manufacture of hosiery and the like. The actuator comprises a frame pivoting support lever having a section pivotally connected to the frame and at least one electromagnet acting on the lever to cause it to oscillate; the lever has at least one protrusion which consists of a ferromagnetic material and extends in the direction of the electromagnet core. The synthetic, antimagnetic and wear-resistant material is shaped or pressed on at least the mutually opposed portions of the protrusion and the electromagnet core.

CS 266 347

CS 266 347 B2

The invention relates to a fast-acting electromagnetic actuator, in particular for a selector switch ^. knitting machines for the production of hosiery and similar knitwear.

Electromagnetic actuators are known which, due to their low bulkiness and high control speed, are particularly suitable for controlling the selectors of knitting machines for the production of hosiery and the like.

Some types of electromagnetic actuators consist essentially of a frame that pivotally carries a lever, part of which is coupled to the frame, and an electromagnet that acts on the lever and causes it to swing in one direction, while the reverse swing is performed by a permanent magnet. '. 'i • i

There are also known electromagnetic actuators which use two electromagnets acting on the lever in opposite directions to cause it to swing in both directions.

In order to achieve control at a sufficiently high speed without overloading the solenoid or solenoid windings, the lever typically has protrusions that extend in the direction of the core of each solenoid.

Between the electromagnet core and the protrusion a member of antimagnetic material ^1, usually a phosphor bronze, which has a dual function, is to absorb the impact of the protrusion and prevent the protrusion from sticking to the electromagnets. ¹

By increasing the control speed, especially required by the selector devices in knitting machines for the manufacture of hosiery and the like, and in many working cycles, it has been found that there is excessive wear of the member interposed between the projection and the electromagnet core.

The main purpose of the invention is to solve the above-mentioned problem by providing an electromagnetic actuator which is more reliable in use and which has an increased working life and a higher actuating speed compared to known types.

Within the scope of this object, another object of the invention is to provide an actuator that can withstand very high actuation speeds without causing excessive heating.

Another object of the invention is to provide an actuator having a structure that is easy to manufacture and has a bulkiness that would allow introduction into knitting machines even though they have a small diameter and a large number of systems. ;

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These and other purposes below are achieved by a fast-acting electromagnetic actuator, in particular for a hosiery and knitwear selector comprising a pivotably supported frame, a part of which is pivotally connected to the frame, and at least one electromagnet acting on said lever to cause it to swivel, the lever having at least one protrusion made of ferromagnetic material and extending in the direction of the core of the electromagnets, wherein the actuator is pressed according to the invention at least on opposite sides of the edge and core with a wear resistant synthetic antimagnetic material .

Other features and advantages of the invention will be apparent from the following description of a preferred but not exclusive embodiment of the actuator of the invention in conjunction with the drawings.

Giant. 1 and 2, after some parts have been omitted, are elevational views of the electromagnetic actuator of the invention in two different operating positions and when used on a selector device, which is only partially shown.

Giant. 3 and 4 are oblique views of the lever according to the invention before and after the application of the antimagnetic material against wear.

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CS 266 347 B2

Giant. 5 is a perspective view of the lever.

Giant. 7 and 7 are oblique projections of the lever portion rotatably coupled to the frame prior to or after application of the wear-resistant synthetic material.

Giant. 8 is a perspective view of another portion of the lever according to the invention.

Giant. 9 is a cross-section taken along the line IX-IX in FIG. 4.

' Giant. 10 is a cross-section of FIG. 7 taken along line X-X.

*** According to the above figures, the electromagnetic actuator 2 of the invention, referred to in its entirety, includes a frame 2 supporting a pivoting lever 2 / pivotally connected to the frame and an electromagnet acting on the lever to cause its pivoting.

In order to allow the achievement of very high operating speeds, they are preferably two electromagnets 4 and 5 _of which reverse the lever 2 »to cause the fluctuations in both directions of oscillation the same speed. '

More specifically, the frame 2 is made of ferromagnetic material and has a base part 6 from which two projections 7 and 8 extend substantially in a direction perpendicular to each other, forming two cores of the electromagnets 2 ^and L * around which cores are provided the electrical windings 2 ^{and 10} *.

Between two projections 2 ^and 8, ^and parallel to them, a third projection 11 carries a lever 2 * attached thereto at its end facing away from the base part 2 * attached thereto in its middle section 3a.

In this way, the lever 2 ^is substantially parallel to the base part 2 of the frame 2 and preferably has two protrusions 12 and 21 'which extend from the same side of the lever 3 but from opposite parts with respect to its center of rotation, in the direction of the projections 7a. 2 electromagnets.

According to the invention, a wear-resistant synthetic antimagnetic material is pressed on at least one of the opposing parts of the lever 2 ^{and the} cores of the electromagnets 2 ^and A.

In the illustrated embodiment, the wear-resistant synthetic antimagnetic material 20 is applied to the free end of the protrusions 12 and 21 * but could also be pressed onto the electromagnet cores to effectively exert an anti-impact and anti-stick action between the protrusions 12 and 13 and the electromagnet cores.

In experimental operations, it has been found that the materials that best meet the requirements of shaping and wear resistance are glass fiber reinforced nylon, carbon fibers and nylon reinforced with a compound commercially known as Molikote 'having optimum self-lubricating properties.

The lever 2 preferably has a section 3a which is pivotally connected to the frame 2 and is formed of a molded, optionally shaped, synthetic, wear-resistant and antimagnetic material 20 in order to reduce wear at the pivot point between the lever and the frame.

Also, the end 3b of the length of the rod 2 'for connecting to the actuated device, which in the illustrated case consists of a selector lever 14 pivotable to or out of engagement with the knees 15a of the patterning sinkers 15 in the knitting machine, can advantageously be formed of shaped, synthetic, wear and antimagnetic material 20 and may have a forked configuration for coupling with a respective selector lever.

The above materials can also be used for the middle section За and for the longitudinal end 3b

CS 266 347 B2 of the lever 3, with the advantage that an optimum lubrication is achieved especially for the middle section 3a and an extremely low weight for the end 3b, which allows to achieve high control speeds.

In order to anchor the wear-resistant synthetic material to the lever 2, the other part of which is made of a single piece of ferromagnetic material, recesses or holes 16, generally designated by reference numerals, are provided to define undercut when forming the material.

The frame 2 and the lever 2 are, as mentioned above, made of ferromagnetic material and form two magnetic circuits, each driven by an electromagnet. In order to create preferred paths in the magnetic flux circuit, i.e., to distribute these ferromagnetic circuits as much as possible to prevent scattering, the base part of the frame 2 and the lever 2 ^{at the} third projection 11 of the frame have a thickness reduction 22. 3, the reduction in thickness can only apply to the ferromagnetic material. That is, we have one magnetic circuit consisting of a lever protrusion 12, a lever portion, a third protrusion 12 # of the base portion of the frame and a projection 2 of the frames, and a second magnetic circuit consisting of a lever protrusion 13 of the lever portion, the third protrusion _x 11 of the frame and the projection 2 of the frame.

The operation of the electromagnetic actuator according to the invention is obvious, i.e. the selective driven windings 9 and 10 cause the lever 2 to swing.

In practice, it has been found that the electromagnetic actuator of the invention fully satisfies the desired purposes by placing the wear-resistant synthetic antimagnetic material sections within a certain zone of the lever 2 to reduce wear, improve lubrication and reduce the total weight of the lever. extremely high oscillation or control response speeds.

Another advantage is that an optimum balance of the lever 2 with respect to the support point is achieved, so that the electromagnets are equally stressed.

Another advantage is the extremely low volume of the actuator, which makes it particularly suitable for use in selectors of knitting machines for the production of hosiery and the like.

Described electromagnetic actuator 2 ^e s fit to various modifications and adaptations, all within the framework of the invention, wherein all sub-parts may be replaced by their technical equivalents.

In practice, instead of the above materials, use materials technically equivalent to them in accordance with the requirements and the state of the art.

Claims (12)

OBJECT OF THE INVENTION 1. A fast-acting electromagnetic actuator, in particular for a knitting machine selector for manufacturing hosiery and the like, consisting of a frame, a pivotable carrying lever, part of which is pivotally connected to the frame, and at least one electromagnet acting on said lever to cause it to swing; wherein the lever has at least one protrusion made of ferromagnetic material and extending in the direction of the core of the electromagnet, characterized in that a synthetic, antimagnetic material (20) is pressed on at least opposite parts of the protrusions (12, 13) and the protrusions (7, 8). ) wear resistant. 2. The fast-acting electromagnetic actuator according to claim 1, characterized in that the two protrusions (12, 13) extend in the direction of the core (7, 8) of the two electromagnets (4, 5) opposing each other on the lever (3). and having a central section (3a) pivotally connected to the frame (2). CS 266 347 B2 3. The fast-acting electromagnetic actuator according to claim 1, characterized in that the protuberances 12, 13) extend from the same side of the lever (3) and from opposite parts thereof with respect to the point of support of the lever (3). 4. The electro-magnetic actuator according to one or more of the preceding claims, characterized in that the lever (3) has a forked end (3b) of its length for connecting the actuator (14) to the actuator, which end is made of synthetic material resistant to abrasion. wear and having a low specific gravity. , Fast-acting electromagnetic actuator according to one or more of the preceding claims, characterized in that the lever (3) has a central section (3a) made of a wear-resistant molded synthetic material. Fast-acting electromagnetic actuator according to one or more of the preceding claims, characterized in that the lever (3) is made of a ferromagnetic material, with the exception of the middle section (3a), which consists of a wear-resistant molded synthetic material. Fast-acting electromagnetic actuator according to one or more of the preceding claims, characterized in that the lever (3) is provided with recesses (16) with undercut for anchoring said shaped portion on the sections (3a) cooperating with the wear-resistant molded synthetic material. synthetic material. Fast-acting electromagnetic actuator according to one or more of the preceding claims, characterized in that the frame (2) is made of ferromagnetic material and has a base side (6) extending substantially parallel to the longitudinal course of the lever (3) and provided with two projections ( 7, 8) extending towards the lever (3) and forming the cores of the electromagnets (4, 5), a third projection (11) carrying a pivoting lever (3) is provided between the pair of projections (7, 8). The electromagnetic actuator according to one or more of the preceding claims, characterized in that the base side (6) of the frame (2) on the third projection (11) and the lever (3) on the middle section (3a) have a thickness reduction. ferromagnetic material for splitting the lever (3), frame (2) assembly into two magnetic circuits, each driven by one of the electromagnets (4, 5). 10. The fast-acting electromagnetic actuator according to one or more of the preceding claims, characterized in that the shaped synthetic antimagnetic material comprises carbon fibers. 11. The fast-acting electromagnetic actuator according to one or more of the preceding claims, characterized in that the shaped synthetic antimagnetic material consists of glass fiber reinforced nylon. 12. The fast-acting electromagnetic actuator of one or more of the preceding claims, wherein the shaped synthetic antimagnetic material comprises Molikote reinforced nylon. 2 drawings