DE971646C - Electromagnetic contactor, especially for series installation - Google Patents

Description

(WiGBl. P. 175)

ISSUED MARCH 19, 1959

B 18368 VIIIb J2i c

has been named as the inventor

Electromagnetic contactor,

especially for row construction,

according to patent 971

Addition to additional patent 971

The main patent 970 166 started on November 1st, 1949

Patent application published April 29, 1954

Patent issued February 19, 1959

In the additional patent 971 048 is an electromagnetic Contactor, especially for row installation in vehicles, on control panels or the like. placed under protection with a with its coil axis transversely in the housing and parallel to the effective magnetic blown field flux of the arc extinguishing device arranged magnets, in which preferably a drop flap anchor arranged on a lever arm below the contact device is and is in engagement connection with this via levers or cams.

It has also been proposed to avoid the leakage of magnetic flux on the To arrange ends of the magnetic core two pole plates of such a diameter that two are semicircular curved armature can encompass the coil and the pole plates like tongs.

Another version of such a contactor of narrow design, in which the occurrence of Stray fields is practically completely avoided, ao according to the invention is that the two pole plates themselves are designed as a movable armature, the core of the solenoid in two Immersion cores is divided, which can be firmly connected to the pole plates. The pole plates themselves as are either designed like a cap, so that the cap edges when the magnet coil is excited and the diving cores approach each other at will

809 752/36

can, or the solenoid is surrounded by a tubular jacket.

The pole plates serving as armatures can be rotatably mounted or can also be guided in parallel. The plane of movement of the armature is offset in both cases with respect to the plane of movement of the contact elements of the contactor 90 to ^0, because otherwise the magnetic coil axis would not be parallel to the Blasfeldfluß Lichtbogenlösdheinrichtung. At least one pair of universal joints is therefore required to transfer movement from the anchors to the movable contact elements.

For the embedding of this contactor in two insulating half-shells, the training according to the invention has nor the particular advantage that the two half-shells are designed symmetrically can. Even if the contactor is to be used to switch greater power, it can you use the molded shells unchanged and only the drive parts and the live ones Reinforce parts accordingly.

Further details of the invention are explained with reference to the drawings. Fig. Ι shows the basic structure of the magnet system in a perspective view; Fig. 2 shows a contactor according to the invention, Fig. 3 is a section along the line AB, Fig. 4 is a section along the line CD, Fig. 5 is a side view of the contactor with the connection points.

Inside the fixed or movable casing 1 is the one on the frame of the contactor solenoid coil 2 fixed in a suitable manner, not shown in the drawing. half of which are not visible in the perspective illustration on the anchor plates 3. The anchor plates are attached to two levers 7 mounted in the pivot points 6. The movement carried out by the anchor plates is carried out via the two coupling members 8 transferred to the shift lever 9 against the spring force of the spring 10. The two coupling links 8 are mounted in the joints 11 and move in two planes of direction. The levers 7 form with the coupling links 8 knee joints.

All current-carrying ones as well as the electromagnet and those through it in motion offset parts can be embedded within two molded plastic shells, so that a simple Allows manufacturing. In the construction shown in FIGS. 2 to 5, it is important made sure that the two molded plastic shells are symmetrical so that they can be operated with only one tool can be produced.

Between the two shells 12 is the electromagnet, which consists of the tubular Sheath 1, the coil 2 and the armature halves 3 consists. The anchor plates are stored in the hinge points 6. At the ends of the anchor plates that perform the greatest movement four coupling members 8 are mounted in points 11. The coupling links are supported in the shift levers 9. Of course, joints can also be provided at this point. The two shift levers 9 are identical to one another for manufacturing reasons, however is one as a carrier for the movable heavy current contact 4, the other as a carrier for a cam lever 13 of an auxiliary cam switch 14 is used. The heavy current runs from the connector 15 via the blowing coil 16 to the fixed contact 5, from here via the movable one Contact 4 and the strand 17 to the connector 18. The blower core 19 and the blower plates 20 and the spark chimney 21 complete the equipment of the contactor part. The line connections to the coil and to the auxiliary cam switches are made on terminal block 22.

The shells 12 have depressions and projections, so that all movement-generating and mediating parts are embedded or attached can be. There are z. B. the lever 9 attached to the pressed eyes 23. The attachment of the contactor on a pad is made on the tabs 24.

The function of the contactor when the electromagnet is switched on is based on the schematic diagram emerged. The rolling movement necessary for the contacts 4, 5 is carried out by the one mounted on the lever 9 Contact carrier 25 and the associated spring 26 are generated. The provision of both the The lever for the contactor contact as well as for the auxiliary contacts is taken care of by the springs 27. Due to the symmetry of the molded plastic shells, it is easily possible to replace the auxiliary cam switches or the associated cam lever 13 to use a further main contact. In order to the switching capacity of the contactor is increased, especially at higher voltages.

Claims (9)

PATENT CLAIMS: 1. Electromagnetic contactor, especially for series installation, according to patent 971048, characterized in that the hinged armature magnet with a single coil and with two mutually movable hinged armatures (pole plates) is equipped (Fig. 1). 2. Electromagnetic contactor according to claim i, characterized in that the Magnetic core of the hinged armature magnet is replaced by two movable plunger cores that are attached to attached to the movable pole plates (Fig. 3). 3. Electromagnetic contactor according to claim ι or 2 with a tubular from magnetic material existing jacket placed around the magnet coil, characterized in that, that the tubular jacket is divided along its circumference and each of the two Partial jackets are each connected to the associated pole plate (Fig. 3). 4. Electromagnetic contactor according to one of claims 1 to 3, characterized in that that the immersion cores and / or the parts of the tubular jacket with the pole plates consist of one piece (Fig. 3 to 5, cap-like pole plates). 5. Electromagnetic contactor according to claim ι to 3, characterized in that the The plane of movement of the switching elements is perpendicular to the plane of movement of the anchor plates and at least one pair of universal joints is provided for the transmission of motion is. 6. Electromagnetic contactor according to claim ι to 4, characterized in that all live and moving parts are inserted between two insulating shells are. 7. Electromagnetic contactor according to claim 5, characterized in that the Main contacts and any auxiliary contacts that may be present outside of the insulating material shells are arranged. 8. Electromagnetic contactor according to claim ι to 6, characterized in that the Insulating shells are designed symmetrically so that both the formation of a Single contactor with a contact pair and a cam auxiliary switch is possible as a second pair of contacts even after removing the drive parts for the auxiliary cam switch can be used for the main circuit. 9. Electromagnetic contactor according to claim ι to 7 for switching larger powers, characterized in that while maintaining the unchanged insulating shells the live and moving parts can be reinforced. Considered publications:
German Patent Nos. 681 282, 722 244, 166; British Patent Nos. 281,926, 578,134. 1 sheet of drawings Ö «09752/36 3.59