DE580344C - Switchgear, especially for rotary printing series machines - Google Patents

Description

Switchgear, especially for rotary printing series machines For multi-part Multiple drives are often used, not just the individual ones Operate sub-machines together, but also different groups of them to use independently. It is therefore, for example, in rotary printing presses, that consists of a number of printing units and sheet outlets that can be mechanically coupled as required (Folders) exist, necessary to control the electrical operation Electric pushbuttons located on the individual printing units and sheet exits and push-button panels corresponding to the mechanical coupling with the relevant to connect electrical drive in parallel or in series. The making of this Switching connections for the push button control according to the respective coupling of the individual sub-machines takes place on the so-called line or motor selector device by plugs, two of which were connected to each other by means of a cord. These The arrangement has the following major disadvantages: First, those are not used To accommodate the plug especially on the control panel; furthermore is the operating personnel Not protected against earth faults, since one plug has been inserted into the socket at loading. contact of the second connector in the event of an existing earth fault Operating personnel can be harmed. The switching process itself is proportionate awkward, because first of all the plugs have to be of different designs to avoid incorrect switching to avoid, and secondly, the switching process itself requires two operations, namely the introduction of two plugs per unit.

The object of the invention is now to eliminate all these disadvantages, by making the switchgear so that the motor lines and the push button lines each with one end or pole on a plug and with the other end or pole are connected to a socket. It is then created for all control lines together only two rows of the same connections, namely a row of plug connectors and a number of sockets so that, compared to the known arrangements, instead of two rows of sockets only one row of socket connections is available. The row of sockets corresponds to the normal design. The connector row, on the other hand, is designed in such a way that as it is used, for example, in the switchboards of telephone exchanges, So plug that by means of a weight after disconnection in their Can be withdrawn from the rest position.

The figures show an exemplary embodiment of the invention. Fig. Z shows a single-pole push-button line selector device, which is drawn in perspective for better understanding. In the upper row of the selector plate c, the plugs marked a are attached, the lower row has the associated sockets b insulated with hard rubber; a connection between a and b is also illustrated.

Fig. 2 shows the wiring behind the selector plate c. From the plug a, the cord d goes over a guide pulley e with a pulling weight for attachment f and from there to the associated connection point. The socket b is a plug contact g, to which the cord 1a is connected.

As an example, Fig. 3 shows the circuit diagram of a push-button line and motor selector device. The respective holding pushbutton k of the pushbutton control is always located between the plug a and the plug socket b. The socket y of the motor selector device is directly connected to the mains, while the plug s has a fixed connection v to the socket t which is used for parallel connection and which is connected to the mains via the protective coil l and the advance push button m. Only after the circuit has been made on the selector plate are the advance pushbuttons indented. For example, the dotted lines indicate a specific circuit. It can be seen from the circuit diagram that the plugs a are de-energized when the buttons na are switched off and therefore no shocks can occur when they are operated in the event of earth faults.

The advantages of the new facility are as follows: Compared to the known arrangements a row of sockets is saved, and it is for production To connect only one plug per unit in a sleeve.

The operating personnel is protected from knocks because the plug are normally dead.

The invention thus represents a significant advance in the construction of the so-called lines or. Motor selector switching devices, as not only a cheaper one the manufacturing cost, but also a simplification of the switching operations and a Increased operational safety is achieved.

Claims (2)

PATENT CLAIMS: e.g. Switchgear, especially for rotary printing machines, characterized in that the motor lines and the push button lines each with the one end or pole to a plug and the other end or pole to a socket are connected. 2. Switchgear according to claim z, characterized in that the connector row in the manner of the connector arrangement already known for telephone systems is trained.