DE1130506B - Installation self-switch in screw or socket form - Google Patents

Description

Self-contained installation switches in screw or base form In switch technology endeavors are aimed at switching devices that are as powerful as possible with small ones To create dimensions. When designing such switches is therefore both the design and arrangement of the arc chamber and the design of the mechanism and the arrangement of the mechanism, contacts, coil and arc chamber to one another very essential. A wide variety of designs have become known which, represent more or less favorable solutions. From the multitude of known switches only a few are mentioned here on which the present invention is based.

In this group of switches is the trip coil and mechanism room Arranged in the middle of the switch and two arcing chambers are located on both sides of mechanism room and trip coil. The arc chimneys extend entirely or almost completely over the entire height of the counter and are completely separated from each other. A pair of contacts is arranged in each arc chamber. Each contact pair stands thus a relatively large arc space is available, so that for the arc extinguishing particularly favorable conditions prevail.

The known switches of this type are also still proportionate unfavorable because the switching mechanism used as a result of expensive lever ratios is far too complicated and therefore prone to failure. Additionally, that because of the inexpedient coil arrangement transversely to the switch's longitudinal axis, the switch components cannot be used equally for screw and socket machines.

Although there are already known switches in which the trip coil in Switch base is housed, so that in this regard a good use of space is achieved, but the design of the mechanism is too complicated.

The invention relates to an installation self-scaler in screw or base shape, with a central arrangement of switching mechanism and trip coil and laterally located arc chambers, in which the switching mechanism above that arranged in the base with the coil axis in the longitudinal direction of the switch Trip coil is located and its purpose is to avoid the disadvantages that occur here.

According to the invention this is achieved in that the switching mechanism essentially only from a lever system that can be locked by a release pawl consists, with a pivot lever on which directly via an approximately centrally arranged An operating element and a locking hook are articulated and the axis on the one hand interacts with the release pawl and on the other hand via a push rod a pivotable contact arrangement controls and that a plunger of the trip coil as a per se known drop anchor directly on the release pawl and subsequently hits the moving contacts. The pivot lever engages over the push rod to an operating lever for the movable contacts and is with the help of the The locking hook can be locked in the switch-on position. The locking hook is on one Housing stop od. The like. Latched and with the help of an approach on the swivel arm the pivoting movement of the arm can be disengaged from the latching. For thermal release a thermal release element is provided which acts on the release pawl.

The invention will be explained in more detail using the example of a self-locking screw switch with reference to the drawing. In Fig. 1, the switch is partially cut in side view, while Fig. La shows a cross section along line AB of FIG. 1 reproduces in accordance.

Fig. 2 and 3 show sections along line CD of FIG. 1, and Fig. 2 a and a sections taken along the line EF in FIG. 1 a reflect 3.

Fig. 4 shows an individual part of the switch.

The switch consists of the housing 1 (Fig. 1 and 1 a), which tapers downwards to a screw base 2 and has a contact pin 3 at the foot of the screw base. The switch housing is covered by a cover 4 which, together with the housing and an insert consisting of two shell halves 5 , forms arc chambers 6 and 7. Each arc chamber is divided by a wall 8 or 9 into two sub-spaces, of which the inner sub-spaces contain a contact arrangement 10 to 13 . Between the insert there is a space 14 in which the switching mechanism is accommodated. The switching mechanism is illustrated schematically in Fig. 2 and 3. It consists of a pivot lever 15 which is pivotably arranged on an operating push button 16. At the pivot point 17 of the pivot lever, a locking hook 18 is also articulated with respect to the operating push button and the pivot lever. The axis 17 is displaceable in housing guides 30 (FIG. 4). Immediately in the vicinity of the pivot point, the pivot lever has a shoulder 19 which acts on the locking hook 18 when the lever is pivoted. At one end of the pivot lever, a push rod 20 is articulated, which engages an actuating lever 21 which is pivotable about the axis 22, which also carries the movable contacts 10, 11 (Fig. 1, 1a). The other end of the pivot lever interacts with a release pawl 23 which can pivot about an axis 24. The release pawl consists of an angle lever, on the long lever arm of which a thermal release element 25 also acts. It has a latching point 26 for the pivot lever at the end of the long lever arm. The short lever arm, which is arranged approximately parallel to the actuating lever 21, transversely to the longitudinal axis of the switch, is located just above a magnetic trip coil 27, which contains a plunger 28 which cooperates with the short lever arm, the pawl 23 and the actuating lever 21. An adjusting device is provided for the release pawl, which is not shown for the sake of clarity. Mention should also be made of a Gehätiseansatz 29, which serves as a latching point for the locking hook 18 . The representations according to FIGS. 2 a and 3 a show the one contact pair which consists of the contact 11 , which is pivotable about the axis 22, and the stationary contact 12. In Figs. 2, 2a, the switch is shown in the open position immediately after switching off, while Figs. 3, 3a show the switch in the closed state. For the sake of simplicity, return springs and the like are not shown.

The entire switching mechanism is located between the two shell halves. 5 (Fig. 4) of the insert, which is inserted into the switch housing after pre-assembly.

In the switched-on state (Fig. 3, 3a), the pivot lever 15 is located with its free end at the latching point 26 of the release pawl, and it is locked with the hook 18 on the extension 19 of the housing. The contacts 11, 12 and 10, 13 are closed. The contact pressure is generated by the spring-loaded stationary contacts. The armature 28 is due to the action of a spring, not shown, in its lowest position. During construction of a short circuit occur, the coil is energized 27, and the armature is attracted (Fig. 2, 2a). It strikes with its upper end against the short lever arm of the release pawl and thereby pivots the pawl through a certain angle, so that the locking of the pivot lever is canceled. The pivot lever moves under the action of an opening spring, not shown, about the pivot point 17 and, with its extension 19, lifts the hook 18 out of its locking position. The actuating lever 21 for the contacts 10, 11 is pivoted by the push rod 20, so that they stand out from the stationary counter- contacts 12, 13 . Under the action of a return spring, also not shown, the push button 16 moves out of its position and takes the pivot lever with it. During this movement, the moving contacts are opened even further. The contact opening movement is supported by the plunger 28 which, after unlatching, strikes the actuating lever 121 via the short lever arm of the release lever and thus accelerates the contact opening. It is switched on again by pressing the pushbutton, which then moves the swivel lever downwards . The swing lever lies on the latching point of the tripping pawl, which has now been brought by an unillustrated return spring in the position according to Fig. 3 and at the same time guides the locking hook 18 at the lateral edge of the projection 29 down. The hook snaps back into place behind the shoulder when the contacts of the switch are closed. The thermal release takes place in that the thermal release element 25 engages the end of the long lever arm of the release pawl.

Claims (2)

PATENT CLAIMS: 1. Installation self-switch in screw or base form, with a central arrangement of switching mechanism and trip coil and arc chambers located to the side, in which the switching mechanism is located above the trip coil arranged in the base with the coil axis in the longitudinal direction of the switch, characterized in that the switching mechanism consists essentially of only one lever system that can be locked by a release pawl, with a pivot lever (15) on which an operating element (16) and a locking hook (18) are articulated directly via an approximately centrally arranged axis (17) and the on the one hand cooperates with the release pawl (23) and on the other hand controls a pivotable contact arrangement (10, 11) via a push rod (20) and that a plunger (28) of the release coil (27) as a per se known impact armature directly on the release pawl and subsequently on the moving contacts suggests. 2. Automatic installation switch according to spoke 1, characterized in that the axis (17) is guided in housing grooves (30). 3. Installation auto switch according to claim 1 and 2, characterized in that the pivot lever (15 ) engages via the push rod (20) on an actuating lever (21) for the movable contacts (10, 11) and with the help of the locking hook (18) in the Switch-on position is locked. 4. Self-installation switch according to claim 1 to 3, characterized in that the locking hook (18) can be latched on a housing stop (29) and can be disengaged from the latching with the aid of a projection (19) on the pivot arm when unlatched by pivoting the pivot arm. 5. Installation self-switch according to claim 1 to 4, characterized in that the release pawl (23) consists of a non-equal angle lever which forms the latch for the pivot lever with its long arm arranged in the longitudinal axis of the switch, while the short arm with the armature (28) of the Trip coil (27) cooperates. 6. Automatic installation switch according to claim 1 to 5, characterized in that the actuating lever (21) for the movable contacts (10, 11), which is attached to the axis (22) of the contacts attached on both sides of the mechanism space, parallel to the short lever axis of the angle lever is arranged and is located just above the same. 7. Installation switch according to claim 1 to 6, characterized in that a thermal release member (25) acts on the long lever arm of the angle lever (23). 8. Installation self-switch according to spoke 1 to 7, characterized in that the mechanism space consists of two shell halves (5) , between which the mechanism parts are loosely inserted or plugged in, so that the pre-assembled unit in the provided with the corresponding recesses for holding this unit Switch housing is used. 9. Installation auto switch according to claim 1 to 8, characterized in that the switch housing consists of a pressed part which forms with the switch cover and the shell insert arcing spaces which are completely sealed against the mechanism and coil space. Considered publications: German Patent Nos. 937 835, 928 184, 923 926, 836 965, 825 574; German Auslegeschriften No. 1057 211; B 31362 VIII b / 21 c (published January 21, 1956); S 40969 VIII b / 21 c (published May 9 , 1956).