EP1234904A1 - Device for monitoring parts of a knitting machine - Google Patents

Abstract

An assembly monitors parts (10) in a knitting and hosiery machine. he assembly has a translucent block (12) with a U-shaped detent (22). A light sender (14) fibre optic cable enters one side of the block on one side of the detent and a light receiver (16) fibre optic cable leaves the other side. The detent upper edges are prisms (18, 20) form a light barrier (24) astride the part (10) being monitored. The light beam (24) is at right angles to the translucent block longitudinal axis. The sender and receiver fibre optic cables are parallel in the block to the block axis (26)

Description

The invention relates to a device for monitoring Parts of a circular knitting machine, in particular a hosiery machine, by means of a so-called light barrier.

PCT / EP00 / 04316 (EP 00 935 013) is a light scanning head known for knitting machines. The light scanning head is used there to monitor the needles in the knitting machine. The The light scanning head has optical fibers in order to emit radiation To steer the needle. Radiation reflected on the needle received and to another via another optical fiber led electronic evaluation unit. The measuring principle is based on the evaluation of radiation reflected on the needle.

The present invention also relates to knitting machines, especially circular knitting machines, such as hosiery machines. Next Such machines also have the needles mentioned above other mechanical elements involved in the knitting process and they rotate with the needle ring. In particular are these are the so-called sewing hooks and the closers of the needles. these are very fine components with a thickness of fractions of a Millimeter. In a circular knitting machine contains a needle ring typically a few hundred to a thousand of these fine components.

These components must also be monitored for breakage and included the present invention addresses this problem.

It has been shown that an optical reflection measurement, such as it is described in PCT / EP00 / 04316 above, not for Success leads. The surface of the sewing hook or the closer usually does not ensure reliable light reflection. The surfaces can vary from shiny to black.

Another serious problem is the extremely cramped space on the fine components mentioned, so that monitoring devices are difficult to position.

The invention seeks the above technical problems to overcome.

• einem Lichtführungskörper, und
• einem Sender-Lichtwellenleiter und einem Empfänger-Lichtwellenleiter, die Licht zu dem Lichtführungskörper führen, wobei
• der Lichtführungskörper eine oder mehrere reflektierende Flächen aufweist, die an oder bei einer im Lichtführungskörper ausgeformten Ausnehmung angeordnet sind, in der das zu überwachende Teil so positionierbar ist, daß es in den Strahlengang von an der Reflexionsfläche reflektiertem Licht ragt.

For this purpose, the invention provides a device for monitoring parts on a knitting machine, in particular a circular knitting machine such as a stocking machine

• a light guide body, and
• a transmitter optical fiber and a receiver optical fiber that guide light to the light guide body, wherein
• the light guide body has one or more reflective surfaces which are arranged on or in a recess formed in the light guide body, in which the part to be monitored can be positioned such that it projects into the beam path of light reflected on the reflection surface.

The inventive design of a light guide body with at least one reflection surface, it is possible to manufacture the light guide body with extremely small dimensions and so directly on the components to be monitored, such as. B. a sewing hook or a needle closer to position, the component in the provided in the light guide body Recess protrudes and so by means of the light barrier technology known as such be monitored for breakage ("presence") can.

According to a preferred embodiment of the invention extends the recess in the direction of the longitudinal axis of the light guide body and the beam path of the light barrier extends perpendicular to this longitudinal axis. This characteristic promotes particularly compact design of the device overall, enables So small dimensions of the device in particular Direction of the measuring beam path.

Another preferred embodiment of the invention provides that the light of the transmitter optical fiber and the receiver optical fiber parallel to the longitudinal axis in the light guide body is led to the mirror surfaces.

The reflection or mirror surfaces can preferably be used as prisms are formed, the bases of the prisms deflect the incident light beam by 90 °.

Figur 1

schematisch eine Vorrichtung zum Überwachen eines Teils einer Strickmaschine;

Figur 2, 3 und 4

unterschiedliche Ansichten eines Lichtführungskörpers, wie er bei einer Vorrichtung gemäß Figur 1 verwendet wird; und

Figur 5

ein weiteres Ausführungsbeispiel einer Vorrichtung zum Überwachen eines Teils einer Strickmaschine.

An exemplary embodiment of the invention is described in more detail below with reference to the drawing. It shows:

Figure 1

schematically an apparatus for monitoring part of a knitting machine;

Figure 2, 3 and 4

different views of a light guide body, as used in a device according to Figure 1; and

Figure 5

another embodiment of a device for monitoring part of a knitting machine.

Figures 1, 2, 3 and 4 show a device for monitoring from Z. B. a sewing hook and / or a needle part, such as a needle closer, in a circular knitting machine, specifically a hosiery.

In such machines, as is known to those skilled in the art, the Space in the immediate vicinity of the sewing hook or the needle closer is extremely cramped. The sewing hook serves z. B. to, when a stocking is ready, in the thread grab and pull it out.

It cannot be avoided that during high speed operation of circular knitting machines the parts mentioned now and then break again. After a break, the part is usually no longer available at the intended location. The following described monitoring device determines this and triggers an alarm as soon as possible. The alarm can be in different ways Way, z. B. in the simplest form an alarm display for the operating personnel, or also in Form of the machine operation being stopped as quickly as possible.

In Figure 1 is the part of the knitting machine to be monitored shown schematically in the form of part 10. The thing to be monitored Part 10 protrudes into a light guide body 12. The light guide body 12 has several functions: First, the Light guide body 12 serve that over optical fibers 14 and 16 received and returned light and record lead (to steer); on the other hand, the light guide body 12 enable a light barrier in a confined space with which to monitoring part 10 can be checked for breakage.

The light guide body 12 shown in the figures has, for. B. Dimensions of about 5 mm or less, especially one Diameter in this size.

Via a transmitter optical fiber 14 is electromagnetic Radiation (the term "light" is here in the sense of to understand and also detect electromagnetic radiation invisible wavelengths) in the light guide body 12 introduced and there on a reflection or mirror surface 18th reflected. There is no part 10 to be monitored on the 1, the reflected light follows the beam path 24 and is on a further mirror surface 20th reflected back down in Figure 1, so that it in the Receiver optical fiber 16 arrives and from there to a known as such evaluation electronics.

In the light guide body 12 there is a recess 22 according to FIG. 1 molded into which the part 10 to be monitored in the functional state protrudes or through which the part 10 is moved so that it interrupts the beam path 24, which is done by means of the evaluation electronics is noticeable.

The light guide body 12 has a longitudinal axis 26, its direction corresponds to the direction in which the part 10 in the Recess 22 protrudes. The beam path 24 is perpendicular to the longitudinal axis 26.

The two mirror surfaces 18, 20 can be prisms 28, 30 are formed (see in particular Figure 4). The prisms are thus with a very small size on the light guide body 12 put on and take in the particularly critical area near the part 10 to be monitored only a little space.

The bases (hypotenuses) of the prisms are for reflection mirrored.

In the light guide body 12 there are also bores 32, 34 formed through which the optical fibers 14, 16 to in immediate proximity of the mirror surfaces 18, 20 are pushed can. It is also possible to directly bore 32, 34 to design light-guiding channels.

FIG. 2 shows the side view of the light guide body 12 according to Figure 1; Figure 3 shows the light guide body 12 according to Figure 2 from below, so that the holes 32, 34 can be seen are; and FIG. 4 shows the light guide body 12 according to FIG 2 from the right side, so that the arrangement of the prisms too is recognizable.

The front surfaces of the prisms 28 facing the recess 22 30 can e.g. B. taped hole-like or slit-shaped, d. H. the beam path 24 is made to a narrow diameter limited, e.g. B. 0.5 to 3 mm.

With the miniaturized fork light barrier shown monitoring of parts possible, in their immediate Environment there is little space for the arrangement of measuring elements.

Figure 5 shows a further embodiment of a device for monitoring part of a knitting machine, whereby to the above embodiment functionally the same or functionally similar Components with the same reference numerals as above and at Modification are provided with a line. In the embodiment 5, the recess 22 'projects in one direction in the light guide body 12 ', which is perpendicular to the Direction in which the two optical fibers 14, 16 through the Light guide body 12 'run. With the arrangement according to Figure 5 requires only a single reflection surface 18 '. The from the transmitter optical fiber 14 in the recess 22 ' directed light is emitted at the reflection surface 18 ' reflected and, if no component 10 to be monitored in the Recess 22 'protrudes, that is reflected on the surface 18' Light directed into the receiver optical fiber 16 and forwarded. The light barrier arrangement according to FIG. 5 is characterized by a particularly compact (space-saving) Construction from.

Claims (6)

Device for monitoring a part (10) of a knitting machine, in particular for monitoring a sewing hook and / or a needle part, with a light guide body (12), and a transmitter optical waveguide (14) and a receiver optical waveguide (16) which lead light to the light guide body (12), wherein the light guide body (12) has at least one reflection surface (18, 20) which is arranged on or in a recess (22) formed in the light guide body (12), in which the part (10) to be monitored can be positioned so that it can be positioned in the Beam path (24) protrudes from light reflected on the reflecting surface (18, 20). Device according to claim 1, characterized in that the recess (22) extends in the direction of the longitudinal axis (26) of the light guide body (12) therein and that the beam path (24) extends perpendicular to the longitudinal axis (26). Device according to one of claims 1 or 2, characterized in that the light from the transmitter optical fiber (14) and the receiver optical fiber (16) is guided parallel to the longitudinal axis (26) in the light guide body (12). Device according to one of the preceding claims,
characterized in that the reflection surfaces (18, 20) are formed by prisms (28, 30). Device according to claim 1,
characterized in that the recess (22 ') extends in a direction into the light guide body (12') which is perpendicular to the direction in which the transmitter optical waveguide. and receiver optical waveguides (14, 16) run in the light guide body (12 '). Device according to one of the preceding claims,
characterized in that the light is reflected via a reflection surface from the transmitter optical waveguide (14) to the receiver optical waveguide (16), the part (10) to be monitored between the reflection surface (18 ') and the openings of the optical waveguides in the recess (22 ') is to be ordered.

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