DE2359365B1 - Plunger magnet assembly - Google Patents

Description

The invention relates to a plunger magnet assembly with a magnet coil.

There are already known plunger magnet arrangements that are used to drive printing needles in mosaic printing units be used. A known arrangement (DT-OS 21 19 415) contains within one Magnetic coil a core tube made of magnetic material that is divided into two elements that are mutually into Are arranged longitudinally opposite. Inside the core tube is one with a printer needle connected anchor arranged displaceably in the longitudinal direction.

When a current flows through the magnet coil, the armature is moved from its rest position in the direction of the working gap between the elements and in a pulsed manner the printer needle connected to the anchor effects an imprint of a character element on a recording medium. After switching off the current through the solenoid, the armature is activated by a spring moved back to its original position and the printer needle returns to its rest position.

Since the printer needles are arranged very close to one another in the area of the printing point, requires the spatial extent of the plunger magnet arrangements that the individual printer needles in a print head from the print point in a fan shape to the mostly circularly arranged plunger magnet arrangements be guided. The known arrangement has the disadvantage that the solenoid has a has a relatively large diameter and thus a large cross-sectional area. Due to the relatively large Cross-sectional area, the printer needles must be guided with a strong curvature and the plunger magnet arrangements be arranged in a fanned-out manner. Furthermore, the leadership of the anchor in the magnet coil in the known arrangement a special design of the armature to prevent tilting to avoid the same.

From DT-PS 6 46 886 there is also a plunger magnet arrangement known, which is used to operate a lever with several switching positions. These Plunger magnet assembly includes three magnet coils and three armature parts. The first solenoid forms together with a first and a second armature part a first magnet system. The first and the second Magnetic coil or the first, second and third magnetic coils form with the first, second respectively and a third armature part, a second or third magnet system. Each magnet system is one Switch position assigned.

However, such a plunger magnet assembly is for use in driving printing wires Not suitable in mosaic printing works, as the cross-sectional area increases with the number of anchor parts.

The invention is based on the object of specifying a plunger magnet arrangement which has a low Has cross-sectional area.

According to the invention, the object is achieved with the plunger magnet arrangement of the type mentioned above achieved in that a plurality of anchors receiving Core tube divided in the axial direction into several tubular elements made of magnetic material is, between which working gaps are formed, and that the anchors, each of which is a working gap assigned is firmly connected to each other at the distance of the working column.

The plunger magnet assembly according to the invention has opposite a plunger magnet assembly with only one anchor the advantage that through the use of several anchors optionally the on the armature total acting magnetic force can be increased or that with the same magnetic force Force the cross-sectional area of the core tube and the anchor can be reduced. The diminution of Cross-sectional areas of the core tube and the armature have the consequence that the magnet coil has a small cross-sectional area owns. Due to the small cross-sectional area, a small winding diameter and thus a low ohmic resistance reached. In addition, the plunger magnet assembly has the advantage that the guidance of the same in the core tube is improved by the plurality of anchors and tilting the magnet armature is avoided.

A slight curvature of the printer needles and a slight fanning of the plunger magnet arrangement in a printhead is achieved through the use of the plunger magnet assembly for the Driving of printer needles in mosaic printing are, the anchors are attached to a pin, which Is part of a print wire.

An embodiment designed according to the features according to the invention is described below Hand outlined a drawing. The figure shows a longitudinal section of the plunger magnet arrangement.

The plunger magnet assembly contains a cylindrical magnet coil 1, which is of a ferromagnetic Coil jacket 2 is surrounded. The solenoid 1 sits on a ferromagnetic core tube, which is in is divided into four tubular elements 3 to 6 in the axial direction. Elements 3 and 6 at the ends of the Magnet coils 1 are each provided with a flange 7 and 8, respectively. About these flanges 7 and 8 is the magnetic Circuit between the coil jacket 2 and the elements 3 to 6 short-circuited.

The magnetic circuit is guided between elements 3 to 6 via working gaps. The working column are filled with short hollow cylindrical rings 9 to 11 made of non-magnetic material.

These rings, the inner diameter of which is slightly smaller than that of elements 3 to 6, serve as guides for anchors 12 to 14.
The armatures 12 to 14 are on a non-magnetic

see pin 15 attached, which is part of a printer needle. The pin 15 is with the anchors 12 to 14 arranged displaceably in the longitudinal direction of the core tube and the end opposite the anchors is fed to a print head in a mosaic printing unit as a printer needle. A coil spring 16 pushes the Pin 15 with anchors 12 to 14 in the rest position shown in the figure. The rest position is through a Damping disk 17 is determined. To a short circuit of the magnetic circuit between the element 6 and To avoid the armature 14, the spiral spring 16 is made of a non-magnetic material.

When a current flows through the solenoid 1, lines of magnetic force occur at the working gaps between them the elements 3 to 6 on and on the armature 12 to 14 act magnetic forces that the armature 12 to 14 against the restoring force of the spiral spring 16 in the longitudinal direction of the magnet coil 1 to the working gaps move there. With the anchors 12 to 14, the pin 15 is also in the direction of the not shown here Moving the recording medium for printing a drawing element. The anchors 12 to 14 are thereby through the rings 9 to 11 out. In addition, the pin 15 is mounted in the flange 8 of the element 6.

When the current through the magnetic coil 1 is switched off, the working gaps between the elements act 3 to 6 no more magnetic forces and the armature 12 to 14 and the pin 15 are through the The restoring force of the spiral spring 16 is returned to its rest position.

1 sheet of drawings

Claims (2)

Patent claims: 1. Plunger magnet assembly with a magnet coil, characterized in that a plurality of anchors (12, 13, 14) receiving core tube (3, 4, 5, 6) in the axial direction in several tubular elements made of magnetic material are divided, between which working gaps are formed, and that the armature (12, 13, 14), each of which is assigned to a working gap are firmly connected to each other at the distance of the working column. 2. plunger magnet assembly according to claim 1, characterized by the use for the Drive of printer needles in mosaic printing units, the anchors (12, 13, 14) on a pin (15) are attached, which is part of the printer needle.