EP0504666A1 - Catch and hold magnet - Google Patents

Abstract

For the magnet core of a catch and hold magnet, which interacts with a blade-like, flat armature part, in each case pole pairs being provided on the longitudinal sides of the magnet system, it is proposed to increase the size of the pole surfaces of the pole pairs by means of extensions extending outwards in the direction of the longitudinal axis of the magnet core. In this arrangement, U-shaped recesses in which connecting means for the energising winding can be arranged are constructed in the ends of the magnet core. <IMAGE>

Description

The invention relates to a catching and holding magnet with a double-T-shaped, soft magnetic core, which is provided on its central part with a coil body with an excitation winding, and wherein the legs of the T-shaped core ends as poles of the magnet in each case to the long sides of the Show magnets and form a pair of poles or pole faces on each long side of the magnet, and the pairs of poles each act on a flat, knife-like armature part.

Such catch and hold magnets are used, for example, to control the knitting devices in textile machines. In this case, a flat, knife-like part is generally provided as the magnetic armature, which interacts with a knitting device of the textile machine. Depending on whether the knife-like part (the knife-like anchor part) is attracted to the magnet and held in a certain position, or just not attracted and held, the function, readiness or unwillingness for knitting, weaving or knitting is selected. Since the textile machines should work as quickly as possible, the magnet systems must be able to operate at a high clock frequency. In addition, a large number of knitting devices are usually to be controlled in a textile machine by individual magnet systems, so that it is also necessary that the magnet systems are of extremely small volume.

From the application DE-P 40 28 194.9 of the applicant, an electromagnet is known which has an essentially double-T-shaped core, on the middle leg of which an excitation coil is provided. In this magnet system, a pair of poles is formed on both long sides, which can act, for example, on a knife-shaped armature part.
The use of this magnet as a holding magnet, the armature parts being moved directly along the pole faces and being held here when the magnet is activated, ie prevented from moving further longitudinally or downward, is generally satisfactory.
When using this magnet as a catching and holding magnet, in which the knife-like armature parts are first drawn to this from a certain distance from the respective pole pair and only then held there, it has been found that the magnet / by the pulling forces exerted on the armature parts are not sufficiently large to ensure the required operational safety in all cases.

The invention is based on the object of developing a magnet system of the type mentioned in such a way that the achievable tightening force which is exerted on a knife-like, spaced-apart anchor part is increased without increasing the overall volume of the magnet system. The magnet system should consist of just a few individual parts and be suitable for efficient, inexpensive large-scale production.

This object is achieved in that the poles or pole faces have an extension extending outwards in the direction of the longitudinal axis of the magnetic core, an approximately U-shaped recess being formed in the end faces of the magnetic core.

Advantageous embodiments of the invention are specified in claims 2 to 10.

Fig. 1

die Ansicht eines Magnetkernes,

Fig. 2

die Ansicht eines Magnetsystemes,

Fig. 3

die Ansicht des Magnetsystemes im Schnitt,

Fig. 4, 5 und 6

die Ansichten von modifizierten Magnetsystemen im Schnitt, und

Fig. 7

die Anordnung eines Fang- und Haltemagneten im Schnitt.

The advantages achieved by the invention consist in particular in that the lengthening on the pole pieces results in an enlargement of the active pole faces and thus a substantial increase in the force acting on the respective anchor part, without the volume of the complete magnet would have to be increased. The extensions extend into an area of the bobbin flanges that are present anyway. The electrical winding connection means can advantageously be accommodated in the recesses formed by the extensions in the end faces of the magnetic core and thus do not require any additional space.
An embodiment of the invention is shown in the drawing and is explained in more detail below. Show it

Fig. 1

the view of a magnetic core,

Fig. 2

the view of a magnet system,

Fig. 3

the view of the magnet system in section,

4, 5 and 6

the views of modified magnet systems in section, and

Fig. 7

the arrangement of a catch and holding magnet on average.

The magnetic core 1 shown in FIG. 1 is essentially double T-shaped, an elongated central part 2 being provided, to which the pole pieces 3, 3 '; 4, 4 'are formed. The upward and downward pole pieces 3, 4 and 3 ', 4' each form a pair of poles (A and B). At the ends of the pole pieces, flat projections 5 are provided, each pointing in the direction of the longitudinal axis X of the central part. As a result of these formations, the pole faces 6 of the pole pieces are enlarged, and an approximately U-shaped recess 7 is further formed in the end faces of the magnetic core ends.

2, the magnetic core is provided with a coil body 8, on which an excitation winding 9 is wound. The coil former is either assembled from two half-shells that encompass the magnetic core, or the coil former is molded around the magnetic core as a molded part - leaving the ends of the pole pieces free.
In the area of the left end of the coil body, contact pieces 10 are provided, the winding-side ends of which are connected to the winding connections of the excitation winding. The contact pieces extend through the U-shaped recess 7 of the magnetic core.

In the area of the right end of the coil body, a contact piece 11 is provided, which is arranged essentially within the U-shaped recess 7 of the magnetic core and is connected there in an electrically conductive manner to the magnetic core material.

In Fig. 3 the magnet system is inserted into a holder 12, and knife-like armature parts 13, 13 'are shown, on which the pole pairs A, B act when the excitation winding 9 is energized. The anchor parts are provided with a recess 14, which cooperates with a retaining lug 15 on the cooler. If appropriate, this retaining lug can also be formed directly on one of the poles or on one of the pole faces.
During operation of the magnet system, the armature parts, which are connected to the knitting, knitting or weaving devices of a textile machine, are mechanically moved at a certain distance in front of the pole pairs A or B and are energized by the pole pairs when the excitation winding is energized until they are direct lie on the pole faces. The respective retaining lug 15 comes into the recess 14 in the anchor part and holds it so firmly by means of hooking that the anchor part cannot execute any axial movement. Only when the energization of the excitation winding is switched off does the armature part drop, the hooking is released and the armature part can be moved in the axial direction Y.

4 shows a magnet system with a modified magnetic core. Here, the magnetic core is assembled along the longitudinal axis X into two partial cores 1 ', 1' 'and while maintaining a gap 16. It may be provided that an intermediate layer 17 made of non-magnetic material is inserted into the gap.

This embodiment is preferably provided for an arrangement in which a knife-like armature part 13, 13 'is provided on both sides of the magnet system, which is controlled by energizing the common excitation winding 9, with the separation of the magnetic core causing a reaction on one side of the magnet system the other side is significantly reduced.
Is z. B. at pole pair B the knife-shaped armature part 13 'is offered to the pole pair at a certain distance, pulls the armature part 13' when the magnet coil pole pair B is energized and closes the magnetic circuit of this side. The other side with pole pair A is virtually unaffected in this state and is able to attract anchor part 13 if it is offered at a certain distance thereafter. (The field lines of pole pair A are not weakened if pole pair B has already tightened the armature part at the same time.)

In the magnet system shown in FIG. 5 it is provided that the magnetic core 1 is provided with an additional central pole piece 18, 18 '. The coil former is then designed to accommodate two partial coils (excitation windings 19, 19 ').
The sub-coils are preferably electrically connected in opposite rows, or each sub-coil is controlled separately.

FIG. 6 shows a magnet system similar to that in FIG. 5, the pole pieces (3, 4 ') being only half formed at the ends of the magnetic core 1. The transition 20 from the respective pole piece to the respective projection 5 is rounded for better flow introduction. This last measure may also be provided for the magnetic cores of the above-described embodiments.

Finally, a magnet system is shown in FIG. 7, which acts on the knife-shaped armature parts 13, 13 '. To concentrate the magnetic flux and increase the force acting on the respective anchor part, there is a fixed flow guide behind it 21, 21 'made of magnetically conductive soft magnetic material. In this case, anti-adhesive agents are provided on the surface of the flow guide piece in order to prevent magnetic "sticking". The flux guide is used on the one hand to increase the tightening force and on the other hand to decouple neighboring magnets in order to prevent their mutual influence.

The distance between the pole faces of one core end is preferably less than the distance between the pole faces of the other core end, so that the magnet system as a whole has a conical shape.
To increase the wear resistance, it can further be provided that the pole faces and possibly also the retaining lugs are surface-hardened or provided with a wear-resistant coating.

Claims (10)

Catch and hold magnet with a double-T-shaped soft magnetic core, which is provided on its central part with a coil body with an excitation winding, and the legs of the T-shaped core ends as poles of the magnet each point to the long sides of the magnet and on each Form a pair of poles on the long side of the magnet, and the pairs of poles each act on a flat, knife-like armature part, characterized in that
that the poles or pole faces (6) have an extension (5) (extension) extending outwards in the direction of the longitudinal axis (X) of the magnetic core (1), with an approximately U-shaped recess (7) in the end faces of the Magnetic core is formed. Catch and holding magnet according to claim 1, characterized in that
that in at least one of the recesses (7) of the end faces of the magnetic core connecting means (10) such. B. contact springs are provided for the electrical connection of the excitation winding, the connecting means being pressed or extrusion-coated into the coil body material. Catch and holding magnet according to claim 2, characterized in
that in at least one of the recesses (7) of the end faces of the magnetic core, a ground contact (11) is provided, which is electrically conductively connected to the magnetic core. Catch and holding magnet according to one of the preceding claims, characterized in that
that the distance between the pole faces of one core end is less than that of the other core end, a correspondingly adapted coil former being provided, so that the catching and holding magnet has a conical shape when viewed in the direction of the longitudinal axis. Catch and holding magnet according to one of the preceding claims, characterized in that
that the core (1) of the magnet is formed from two half core parts (1 ', 1''), the separation being provided along the longitudinal axis (X) of the core, and
that the two partial cores are put together with an intermediate layer (17) of a non-magnetic medium. Catch and holding magnet according to one of the preceding claims, characterized in that
that the magnetic core (1) is provided with additional poles (18, 18 ') which extend between the two outer poles, and
that excitation coils (19, 19 ') are arranged in each of the winding spaces formed, which are energized in opposite directions during operation of the magnet. Catch and holding magnet according to one of the preceding claims, characterized in that
that the magnetic core (1) is provided with a central pole piece (18, 18 '), which has pole faces facing the long sides of the magnet,
that only one half of the T-shaped end is formed as an outer pole on the end faces of the magnetic core, the outer pole faces pointing in opposite directions, so that the pole face of the central pole piece and the respective outer pole each have a pole pair on each long side of the Form magnets, and
that an excitation winding assigned to this is provided for each pole pair. Catch and holding magnet according to one of the preceding claims, characterized in that
that a holding lug (15) is formed on at least one longitudinal side of the catching and holding magnet, and
that the pole face and the retaining lug are surface-hardened and / or provided with a wear-resistant coating. Catch and holding magnet according to one of the preceding claims, characterized in that
that behind the longitudinally and transversely movable armature part (13, 13 ') a fixed, soft magnetic yoke part (21, 21') is provided, and
that non-magnetic adhesive protection agents are provided between the yoke part and the armature part. Catch and holding magnet according to one of the preceding claims, characterized in that
that the coil body consists of two identical half or partial shells which are placed around the magnetic core, and
that locking elements are provided on the partial shells, which lock together when the two parts are joined together.

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