DEV0002840MA - Switches, in particular for installation in electrical switching and control devices - Google Patents

Description

Switches that are actuated by rotating their axis are known in particular from radio equipment manufacturing. In these known designs, however, the closing and opening of contacts is not caused directly by rotating the axis, rather eccentric disks or levers are connected to the solid axes, which serve to actuate the contacts.

Hollow axes were also used in such switches, in particular for operating two switches arranged axially one behind the other. One of the switches was actuated by the hollow axle, the other by a solid axle penetrating it. These known switching means are, moreover, hardly suitable in terms of their structure and mechanical design to cope with greater powers.

The invention is based on the idea of actuating one or more switches directly through one or other axes and also using the latter at the same time to hold the switches within a housing.

According to the invention, in switches with fixed and movable contacts that are opened or closed by a rotary movement of their axis, the axis in the area of the movable contacts itself is designed as a cam which directly actuates the contact.

The new switch essentially consists of two contact carriers which are rotatably mounted at a distance from one another and which are non-positively connected by an energy storage device. The axis designed as a cam is positioned between these two contact carriers. arranges, which presses the movable contact carrier alternately or both at the same time against their arranged fixed contacts. The contact carriers themselves are mounted in a hollow insulating body which is provided with a metal reinforcement that contains two adjusting screws. The adjustment of the switch within a housing is thus considerably simplified. All that is needed is a single hole corresponding to the axis diameter of the switch in order to mount it properly within a housing. This type of fastening is particularly important when the surfaces of the housing used are not completely flat, as is the case with cast housings, for example. The switch, the axis of which is clearly guided in the bore, can still be held in the desired position by tightening the adjusting screws without special precautions, e.g. by creating mating surfaces.

According to the further invention, however, it is also entirely possible to arrange several switches axially one behind the other. All switches then penetrate a correspondingly longer shaft, which is designed as a cam in the area of the movable contacts of each switch. Here, the shaft can be designed in such a way that the cams all have the same angular position or angular positions that differ from one another for an assumed zero position. This type of execution offers the possibility of initiating switching commands in a prescribed sequence by rotating the axis.

However, after a slight modification of the individual switch, several switches arranged one behind the other on the same axis can also be used to influence the switches at random and at randomly selectable time intervals. For this purpose it is now necessary to design the axis of each switch as a hollow axis. If several such switches are then lined up by means of their hollow axes on a solid shaft mounted on both sides, it is possible to control the switches individually or in groups. You are then completely free in the choice of the switching cycle, while in the first-mentioned case, when using a common solid axis that penetrates all switches, the switching sequence is a function of the rotation of this axis.

The new switch will be explained in more detail with reference to the drawing. Figure 1 shows a partial section. The fixed contacts 2, the movable contact carriers 3 and the axis 4 controlling them are arranged within a hollow insulating body 1 with a preferably square cross-section. The fixed contacts 2 are expediently attached to two opposite surfaces of the insulating body 1, while the axis 4 penetrates the surfaces of the insulating body which are perpendicular thereto. The pivot points of the movable contact carrier 3 are also located in the latter surfaces of the housing. They each consist of an insulating part 5, one end of which is held in a metal holder 6 which, together with the axes 7, forms the pivot point of the contact carrier. The movable contact 8 protrudes beyond the insulating part 5 and when it is swiveled to the right it will rest against the fixed contact 2. The second movable contact carrier pivotable about the pivot point 9 is not shown in the drawing. This contact carrier and the one recognizable from the drawing are connected to one another in a force-locking manner by a spring 10. If the shaft 4 designed as a cam is rotated, one or the other contact carrier will come into contact with its arranged fixed contacts, depending on the position of the cams. However, if the axis 4 is rotated so that the ground cam surface is facing upwards, the diameter of the axis is effective, with the result that the two contact carriers are pressed against their fixed contacts at the same time. Depending on the choice of the grinding of the cam, there are several switching states, as can be seen in Figure 2-5. In this schematic illustration, 4 again denotes the axis, the fixed contacts with 2 and the movable contacts with 8. 10 is the energy storage device connecting the two movable contact carriers 5.

Figure 6 shows how the new switch can be easily attached within a housing. The housing 11, for example a cast housing, has only one bore 12 corresponding to the diameter of the axis 4. The switch within the housing is adjusted using the two adjusting screws 13, which can also be seen in Figure 1. You through- lateral projections of a metal reinforcement 14 of the insulating body 1 penetrate.

As a result of the non-positive connection of the movable contact carriers with one another by means of an energy store using an axis with ground cam surfaces, there is always a guarantee that contact is made in the respective selected switch positions.

Claims (7)

1.Switch with fixed and movable contacts, which are opened or closed by the rotary movement of an axis, characterized in that the axis itself is designed as a cam in the area of the movable contacts, which directly actuates the contacts. 2. Switch according to claim 1, characterized in that two contact carriers rotatably mounted at a distance from one another are non-positively connected by an energy storage device and, depending on the position of the axis acting as a cam, the movable contact carriers are pressed alternately or both simultaneously against their associated fixed contacts. 3. Switch according to claim 1 and 2, characterized in that the fixed contacts are arranged on two opposing walls of a hollow insulating body, preferably square cross-section and that between the pivotable contact carrier in the clear space of the insulating body, the axis acting as a cam is carried out, which as well as the Axes of rotation of the movable contact carriers penetrate the surfaces of the insulating body which are perpendicular to the surfaces carrying the fixed contacts. 4. Switch according to claim 1 to 3, characterized in that the insulating body has a metal reinforcement with laterally bent projections, which enforce two adjusting screws which, in conjunction with the switch axis mounted in only one bore, the switch in housings with uneven walls, e.g. cast housings , hold securely in place. 5. A switching arrangement composed of several switches according to patent claims 1 to 4, characterized in that several switches penetrating axes are controlled, each of which is designed as a cam in the area of the movable contacts of each switch, these cams having the same or different angular positions for a zero position be able. 6. Switch according to claim 1 to 4 and arrangement according to claim 5, characterized in that the switch axis acting as a cam is a hollow axis. 7. Switching arrangement composed of several switches according to claim 6, characterized in that several switches with hollow axles are arranged one behind the other on a common support shaft mounted on both sides and that the individual hollow axles of the switches can be rotated independently of one another or in groups by individual drives in the on and off directions.