DE594283C - Impulse remote switch with double magnet - Google Patents

Description

The invention is directed to a remote power surge switch with double magnet, especially for lift systems, for example after Patent 569,312.

With such switches, one of the two armature positions corresponds to the switch closure, the other opening the switch, and it depends on closing one bring about intimate contact with the contact surfaces. For this purpose are resilient Contact pieces are desirable because they cause a frictional displacement of the contact surfaces against one another allow so that the contact is electrically more favorable. It is known to use an in to use resilient contact piece. But such has the disadvantage that it If it is not to lose its suspension, it can only be produced with insufficient strength leaves so that durability suffers.

Therefore, the invention makes use of a distribution of the functions over several in each case the most suitable parts by making the piece used for contact contact and current conduction a relatively strong one The body is, while the suspension, a light, self-contained steel spring is assigned. In this sense, the invention is essentially characterized by that due to the rolling movement occurring when switching on a rigid, under counter pressure a spring standing contact lever on a likewise rigid intermediate bracket, which by responding to the armature a roller attached to this is pressed against the contact lever, an intimate contact closure is brought about between contact lever and mating contact.

Further features of the invention relate to a special design of the contact lever and the intermediate bracket and the arrangement of the spring.

In the drawing, in which

Fig. Ι the side view,

Fig. 2 the partially cut top SIcM ₁ and

Fig. 3 shows the switch in the on state, the invention is illustrated.

The switch has two pairs of contacts 72, 73 and 74, 75, of which 72 and 74 are fixed, while 73 and 75 are movable, not are resilient contact levers. The fixed contacts are built in the same way; each includes one Contact piece 517 in a contact holder 518. The contact holder shaft 520 penetrates the Shaft plate and behind it has nuts 521, which are used for its attachment to the board and for electrical connection. Also the Contact levers are of the same structure, from

contact lever 73 is described here. A holder 522 is attached by means of the screw 523 attached to the board; it has outwardly projecting side parts 524 between which a non-resilient intermediate bracket 525 is attached. The lower end of this intermediate bracket is bent around a pin 526 in the side parts of the holder. In the holder sits at 527 a bolt 528, for the head of which the panel 516 has a recess 530. The bolt passes through an opening 531 of the intermediate bracket 525 and has at the outer end a cotter pin 532 to limit the outward movement of the arm about its pivot. Above bolt 528, the arm points an inclined part 533, above which it ends in a hook 534. The catch is from a vertical section 535 and a horizontal 536; the horizontal part is considerably narrower. A contact blade 537 is also seated on bolt 528 and has an opening 538 through which the bolt passes, and also a slot 539 through that of the horizontal part 536 of the intermediate bracket goes. The contact piece of the fixed contact 72 lies in the path of the contact blade 537. A spring 540 on bolt 528 urges the contact blade out of engagement. The nuts 541 on screw 523 on the The rear of the control panel also serves as the electrical connection for the contact lever.

To bring the contact levers 73, 75 into engagement, two rollers 542 are provided. The rollers sit on the end of an anchor 543 facing the panel and act on the intermediate bracket 525. The anchor 543 is U-shaped and receives the roller axle 544 in its legs 545. The anchor is mounted on a column 54G with a bolt 547 penetrating its legs, with a somewhat elongated opening 550 in the web 548 of the anchor U-iron providing space for the column 546. The column stands on the magnetic frame 551, which is fastened to panel 516, for example by screws 552, which projects from panel 516 and, in addition to column 546, carries magnetic cores 553 and 554, one on each side of the column. The outer core 553 carries a magnetic coil 70, the inner 554 a coil 190. Coil 70 is used to close the contacts and is called the closing coil; Coil 190 is used to open the contacts and is referred to as the reset coil. The outer end of the armature 543 carries between the legs a preferably non-magnetic weight 555 fastened approximately by pins 556. In the outer end of the armature, the web 548 is perforated at 557, and the opening continues into a recess 558 in the weight 555 so that one of the non-magnetic pins is partially exposed. This arrangement is made so that in the switch closed position of the armature, the core 553 can protrude upward into the armature. Similarly, the armature inner end has an opening 560 so that the core 554 can also penetrate upwards into the armature when it is in the reset position. A non-magnetic pin 561 sits between the armature legs 545 above the opening 560.

Assume that the various parts of the switch have the position shown in the company. When closing the circuit, for the coil 70, for example by pressing a Push button, coil 70 receives power. As a result, the armature outer end is tightened and the armature pivoted clockwise around its hinge. There they go Rolls 542 up and rotate along the inclined parts 533 of the associated intermediate bracket these around their pegs counterclockwise, with the weight 555 supporting works. The contact blades 537 go with it because the resilient springs 540 allow this. The contact blades therefore come into contact with the contact pieces of the fixed contacts. If the counter-clockwise movement between the bars continues, they roll over the contacts on it under the pressure of the springs 540, so that a contact arises under frictional pressure. While the roles on the vertical parts 535 of the intermediate bracket rise, the anchor comes to a stop by pulling the exposed pin 556 Core 553 touched above. Since the parts are built and arranged in such a way that the anchor at the dead center of the intermediate bracket with respect to the anchor pivot point, or even beyond of which stands still, the contacts are blocked in the closed position. If the ioq If the push button is released, the closing coil 70 is de-energized, the contacts remain in engagement.

If the reset coil 190 receives current, the inner end of the armature is attracted, and the The anchor swings counterclockwise around its joint. The exposed pin 556 prevents since it is non-magnetic, the armature will stick in the switch closed position due to residual magnetism. With the new movement, the springs 540 separate the contact blades from the contact pieces of the fixed contacts and support the return of the armature to the reset position. The contact blades come to rest by placing the intermediate bracket on the split pins 532, the anchor itself by the fact that the pin 561 rests on top of the core 554. This pin prevents it from being non-magnetic is, when tightening by energizing the coil 70, the armature sticking in the reset position due to residual magnetism.

Claims (3)

Fig. 3 shows that position of the armature 543, the intermediate bracket 525 and the contact lever 73 with its spring 540, which corresponds to the switched-on state. In comparison with FIG. 1 it can be seen that the roller 542 on the anchor has pivoted the intermediate bracket 525 to the left about its pivot joint below; the contact lever 73, which was previously pressed against the lower part of the intermediate bracket 525 by the spring 540, rolled on the bend X of the intermediate bracket'525, the lower end having compressed the spring 540, while the upper end of the moment from, in which it has first detected the stationary contact 517, has still experienced a small frictional displacement with respect to this contact piece. PATIiNTANSI ¹ KUCMJi: i. Impulse remote switch with double magnet, characterized in that the rolling movement of a rigid contact lever (73) under counterpressure from a spring (540) on a likewise rigid intermediate bracket (525), which when the magnet armature (543) responds by a on this attached roller (542) is pressed against the contact lever (73), an intimate contact between the contact lever (73) and mating contact (517 ) is brought about. 2. Switch according to claim 1, characterized in that the contact lever (73) has an opening (539) into which the intermediate bracket (525) with a hook-shaped Part (536) engages. 3. Switch according to claim 1 and 2, characterized characterized in that the contact lever (73) and the intermediate bracket (525) with overlapping openings (531, 538) are provided for receiving a bolt (528) on which the contact lever (73) leading to the switch-off position spring (540) is attached. 1 sheet of drawings