JPH0582332A - Stopper and holding magnet - Google Patents

Abstract

PURPOSE: To substantially improve a force action acting on respective movable element parts, without enlarging the volume of the entire magnet by providing an extension part or a formed part extended along the axis of a magnet core to a pole or a pole surface and forming a generally U-shaped notches on the end face sides of the magnet core. CONSTITUTION: A pole or a pole surface 6 is provided with the extension part or a formed part 5, extended along the axis X of a magnet core 1. Then, generally U-shaped notches 7 are formed on the end face sides of the magnet core 1. Thus, this holding magnet provided with the two kinds of T-shaped feeble- magnetic magnet cores is improved, and the attracting force acting on the movable element parts of knife-shape, arranged at intervals is improved, without enlarging the structure volume of a magnet system.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a stop and hold magnet having a double T-shaped weak magnetic magnet core, which has a winding frame having a field winding at the center thereof. And each leg of the T-shaped core end is oriented as a pole of the magnet towards the longitudinal side of the magnet, forming a pole pair at each longitudinal side of the magnet, each of these pole pairs being , Of a type adapted to act on a flat knife-shaped mover part.

[0002]

2. Description of the Prior Art Stopping and holding magnets of this type are
Used, for example, to control the knitting equipment of textile machines. In this case, the magnet core is generally provided with a flat knife-shaped member which cooperates with the knitting machine of the textile machine. Actuation, preparation for knitting or weaving depending on whether this knife-shaped member (knife-shaped mover part) is attracted to a magnet and held in a predetermined position or is not attracted and held. Alternatively, non-preparation is selected. Since the textile machine must work as quickly as possible, the magnet system will be driven with a high cycle frequency. Also, in textile machines, a large number of knitting devices are generally controlled by individual magnet systems, so that the magnet system must be very small.

German Patent Application No. 402819
According to the specification of No. 4.9, there is disclosed an electromagnet having a substantially double T-shaped magnet core, and an exciting coil is provided on the central axis of the magnet core. In this magnet system, one pole pair is formed on the two longitudinal sides, and the pole pair acts on, for example, a knife-shaped mover portion.

If such a magnet is used as a holding magnet (in this case the mover part is moved directly along the pole face and is held and held here when the magnet is activated, ie the mover part is It is prevented from moving further in the longitudinal direction or falling down) and is largely satisfied.

However, such magnets are stopped and held in such a way that the knife-shaped armature part is first drawn from these pole pairs at a certain distance and then held by these pole pairs. When used as a magnet,
The problem is that the attractive force exerted by the pole pairs on the armature part is not great enough to guarantee the required operational certainty in all cases.

[0006]

SUMMARY OF THE INVENTION The object of the present invention is therefore to improve a magnet system of the type mentioned at the outset, so that it is a knife-like device arranged at intervals without increasing the structural volume of the magnet system. It is to be able to increase the pulling force acting on the mover part of. In this case, the magnet system must consist of a small number of individual parts and be suitable for inexpensive and economical mass production.

[0007]

According to the structure of the present invention which has solved this problem, the pole or the pole surface has an extension portion or a molding portion extending in the direction of the longitudinal axis of the magnet core. A substantially U-shaped notch is formed on the end surface side of the core.

Another advantageous feature of the present invention is defined in claims 2 to 5.
10 are described.

[0009]

According to the present invention, by extending the pole piece, the operating pole surface becomes large without increasing the volume of the magnet as a whole, and the force acting on each mover portion is remarkably high. I got the advantage of becoming. In this case, the extension extends in the region of the reel flange provided in any case. Moreover, in this case, the electrical coil connecting member is preferably housed in a cutout formed on the end face side of the magnet core by the extension, so that additional space is required for this purpose. There is no.

[0010]

EXAMPLE A magnet core 1 shown in FIG.
It has a letter-like shape and is provided with an elongated central portion 2, and pole pieces 3, 3 ′; 4, 4 ′ extending upward or downward are integrally formed at both ends of the central portion 2. These upwardly or downwardly directed pole pieces 3, 4 or 3 ′, 4 ′ respectively form a pole pair (A or B). At the end of the pole piece, the central longitudinal axis X
Flat moldings 5 extending in the respective directions are provided. By these moldings, the pole face 6 of the pole piece is enlarged, and by these moldings, a substantially U-shaped notch 7 is formed on the end face of the end of the magnet core.

As shown in FIG. 2, a winding frame 8 is provided on the magnet core, and a field winding 9 is provided on the winding frame 8.
Is wrapped around. In this case, the bobbin 8 is assembled from two half shells surrounding the magnet core, or the bobbin 8 is formed as an injection molding part enclosing the magnet core (both ends of the pole piece are left open). ..

A contact piece 10 is provided in the range of the left end of the winding frame, and the end of the contact piece 10 on the winding side is connected to the winding connection portion of the field winding. The contact piece extends through the U-shaped cutout 7 in the magnet core.

A contact piece 11 is provided in the end region on the right side of the magnet core, which contact piece 11 is arranged in a U-shaped cutout 7 of the magnet core, in which the magnet core material is electrically connected. Conductively connected.

As shown in FIG. 3, the magnet system is inserted into holder 12. See also FIG.
As shown in FIG.
3, 13 'are shown, these mover parts 13,
When a current is supplied to the field winding 9 at 13 ', the pole pieces A, B
Is designed to work. These mover parts are provided with a notch 14, which cooperates with a retaining projection provided on the holder. This retaining projection is in some cases directly molded on one of the poles or is integrally molded on one of the pole pieces.

When this magnet system is activated,
When the movable element part connected to the knitting device or the weaving device of the textile machine is mechanically moved at a predetermined distance in front of the pole pair A and B, and current is applied to the field winding, The mover portion is attracted by the pole pieces until it rests directly on the pole face. In this case, each holding projection 15 reaches into the notch 14 of the mover portion and strongly holds the mover portion such that it cannot move in the axial direction. Only after the supply of the current to the field winding is interrupted, the mover portion falls, the hold of the mover portion is released, and the mover portion becomes movable in the axial direction Y.

FIG. 4 shows a magnet system having a magnet core according to a modified embodiment. The magnet core according to this modification has two partial cores 1 ', which are divided along the longitudinal axis X with a gap 16 therebetween.
1 ″. In these gaps 16, an insert 17 made of a non-magnetic material is inserted in the gaps 16 in some cases.

In the embodiment shown in FIG. 4, one knife-shaped mover part 13, 13 'is provided on each side of the magnet system, and the mover part 1 is provided.
3 and 13 are used for such a configuration that they are controlled by passing a current through the common field winding 9. In this case, because the magnet core is separated,
The effect of one magnet system side flowing back to the other magnet system side is significantly reduced.

For example, if the knife-shaped mover portion 13 'in the pole pair B is kept at a predetermined interval, the pole pair B pulls the mover portion 13' when a current is applied to the field winding, and this side. Close the magnetic circuit of. In this state, the other side having the pole pair A is not affected and the mover part 13
Are attracted in the same manner if a certain time delay is maintained and a predetermined interval is maintained. (The magnetic field line of the pole pair A is not weakened if the pole pair B has already been attracted to the mover portion at the same time.) In the magnet system shown in FIG. 5, the magnet core 1 additionally has a central pole. It has pieces 18, 18 '. The bobbin is configured to accommodate two partial windings (field windings 19, 19 ').

The partial windings are preferably connected in reverse rows, or each partial winding is controlled separately.

FIG. 6 shows a magnet system similar to that shown in FIG. In the embodiment of FIG. 6, the pole pieces (3, 4 ') are magnet cores 1.
Half of each is formed at both ends. in this case,
The transition portion 20 from each pole piece to each molding portion 5 is formed with a rounded shape in order to guide the magnetic flux flow well. Such rounding of the transition portion 20 can be provided in the magnet core of the above-described embodiment in some cases.

FIG. 7 shows a magnet system according to a further embodiment, which magnet system is adapted to act on knife-shaped armature parts 13, 13 '. In the embodiment shown in FIG. 7, in order to concentrate the magnetic flux and to enhance the force acting on each mover part, one stationary, magnetically conductive and weakly magnetic behind each mover part. A member made of material is arranged.
In this case, a sticking protection material is provided on the surface of the magnetic flux guide member in order to avoid magnetic "sticking". The flux guide members are used to prevent mutual influence, on the one hand to increase the pulling force and on the other hand to decouple the adjacent magnets.

Since the distance between the pole faces of one core end is greater than the distance between the pole faces of the other core end, the magnet system is generally conical in shape.

Furthermore, in order to increase the wear resistance, the surface of the pole surface and, in some cases, the holding projections are hardened or have a wear resistant coating.

[Brief description of drawings]

FIG. 1 is a perspective view of a magnet core.

FIG. 2 is a perspective view of a magnet system according to an exemplary embodiment of the present invention.

3 is a cross-sectional view of the magnet system shown in FIG.

FIG. 4 is a sectional view of a magnet system according to a second embodiment of the present invention.

FIG. 5 is a sectional view of a magnet system according to a third embodiment of the present invention.

FIG. 6 is a sectional view of a magnet system according to a fourth embodiment of the present invention.

FIG. 7 is a sectional view of a magnet system according to a fifth embodiment of the present invention.

[Explanation of symbols]

1 magnet core, 2 central part, 3, 3 '; 4,
4'pole piece, 5 molded part, 6 pole face, 7 U-shaped notch, 8 winding frame, 9 field winding, 10, 11
Contact piece, 12 Holder, 13, 13 'Knife-shaped mover part, 14 Notch, 15 Holding protrusion, 16 Gap, 17 Insert, 18, 18' Pole piece, 1
9,19 'field winding, 20 transition section, 21,2
1'flux guide part, A, B pole pair

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Ernst-Heinrich Harting, Federal Republic of Germany Hessische-Oldendorf 2 Waldhoff Schyutraße 9 (72) Inventor Weilhelm Gozeweer, Federal Republic of Germany Riewbetke Miyurenkamp 8 (72) Inventor Wolfgang Neuhaus Germany Minden Vuartesi Utraße 25

Claims (10)

[Claims] 1. A stop and hold magnet having a double T-shaped weak magnetic magnet core, the magnet core having a winding frame having a field winding at the center thereof.
The legs at the ends of the V-shaped core are oriented in the longitudinal direction of the magnet as poles of the magnet, respectively, forming a pair of poles on each longitudinal side of the magnet, each pair of poles having a flat knife shape. Extension or molding (5) in which the poles or pole faces (6) extend in the direction of the longitudinal axis (X) of the magnet core (1) in a type adapted to act on a mover part. And a holding and holding magnet having a substantially U-shaped notch (7) formed on the end face side of the magnet core. 2. A contact piece (10) for electrically connecting a field winding is provided in at least one notch (7) on the end face side of the magnet core, and the contact piece (10). A stop and hold magnet according to claim 1, wherein the is pressed into the bobbin material or is embedded by injection molding. 3. At least one of the end faces of the magnet core
3. The stop and holding magnet according to claim 2, wherein a grounding contact piece (11) electrically connected to the magnet core is provided in each of the notches (7). 4. A gap between the pole faces of one core end is smaller than a gap between the pole faces of the other core end, and a corresponding bobbin is provided, whereby a stopper and 4. The stop and holding magnet according to claim 1, wherein the holding magnet has a conical shape when viewed in the longitudinal axis. 5. A magnet core (1) comprises two partial cores (1 ', 1', each forming a half of the magnet core).
1 ") half, and a separation point is formed along the longitudinal axis (X) of the magnet core (1). And holding magnet. 6. The magnet core (1) has an additional pole (1).
8, 18 '), which pole extends between two outer poles, in which the field windings (19, 19') are arranged in the winding space formed. 6. The field winding according to claim 1, wherein a reverse current flows when the magnet operates.
The stop and holding magnet according to the item. 7. A central pole piece (1) is attached to a magnet core (1).
8, 18 '), the central pole pieces each having a pole face oriented in the longitudinal direction of the magnet, and only half each of the T-shaped ends on the end face side of the magnet core. Configured as outer poles, the outer pole faces of the outer poles facing each other, the pole faces of the central pole piece and the pole faces of the outer poles respectively being 1 on each longitudinal side of the magnet. 7. A stop and hold magnet according to any one of claims 1 to 6, which forms two pole pairs, one field winding being assigned to each pole pair. 8. A retaining projection (15) is formed on at least one longitudinal side of the stop and retaining magnet, the pole surface and the retaining projection being provided with a surface-hardened and / or wear-resistant coating. The stop and hold magnet according to any one of claims 1 to 7. 9. A stationary weak magnetic flux guide member (21, 21 ') is provided behind a movable element part (13, 13') movable in the longitudinal direction and the lateral direction, and the magnetic flux guide member (21, 21 ') is provided. 9. The stop and hold magnet according to any one of claims 1 to 8, wherein a non-magnetic sticking protection material is provided between the 21, 21 ') and the mover part. 10. The stop and hold magnet according to claim 1, wherein the bobbin consists of two half shells or partial shells of the same shape provided around the magnet core.