DE833326C - Electrical switchgear, especially for pneumatic tube systems - Google Patents

Description

Electrical switchgear, especially for pneumatic tube systems. The invention refers to an electrical switching device specially designed for tripping suitable for switching operations under the influence of fast-moving objects is.

In pneumatic tube systems, for example, the bushing is used for switching operations for a number of purposes including operating the barrel mechanism Guide the can to the unloading point to initiate. The switchgear must work safely and quickly regardless of changes in the speed of the rifle.

Various switching devices are already hot to use moving objects have been proposed, but these devices adhere to provided they worked relatively reliably, various disadvantages, such as. B. their complexity or high cost or both.

The purpose of the invention is to provide a relatively simple, however to create reliably working switchgear.

According to the invention, the electrical switchgear has normal open switching contacts that are briefly affected by a fast moving object, for example a can, in a pneumatic tube system, can be closed to discharge of electrical energy storage means in shunt with the switching contacts mentioned to effect, with the control winding of a relay in series in a low inductance circuit is arranged, which rectified the electrical storage means with a power source Current connects, and shunted the control winding through an electrical line which has an impedance to electrical impulses which is in relation to the corresponding impedance of the control winding is medrig, thereby electrical Currents generated when the mentioned circuit is initially energized do not operate the relay.

The term rectified current is used in this specification used to denote both direct current and rectified alternating current, while the expression nedridger inductance circuit refers to a different circular inductance as the inductance of the relay winding.

The invention is based on the schematic drawing of a switching apparatus explained in more detail about the use of pneumatic tube systems.

Brush contacts A, A are arranged in the pneumatic tube system so that the passage of a moving beam or sleeve shorts these contacts. A capacitor C1 is connected to the contacts A, A, and shorting these contacts causes capacitor C1 to discharge. The capacitor C1 is arranged to be charged by a transformer T. is, of which one side of the secondary winding T1 directly with one pole of the Capacitor C1 and one of the contacts A, 4 is connected. The other side of the Secondary winding T1 is via a rectifier E and the control winding RW Relay R connected to the other of contacts A. Another capacitor C2 is in parallel with the capacitor cl on the rectifier side of the control winding RW connected. Contacts A, 4 are only short-circuited for a short period of time, which, however, is long enough to discharge the capacitor C1 to such an extent that that the subsequent recharging current is sufficient to excite the winding RPt and to close the contacts Ra and Rb of the relay.

Contacts Ra are arranged in series with a limit switch LS, which is normally closed and completes a self-holding circle for the winding RW. The limit switch LS is opened when the bushing which the contacts 4, 4 short-circuited has a predetermined point on its way beyond the contacts A. A achieved. It can be noted that, apart from that by the turn RW introduced inductance, the inductance of the circuit through which the charging current is sent to Capacitor (. Flows, is low and the highest occurring current is unlllittell) ar flows through the winding RW. When the relay R works, it also closes the Contacts Rh, which are arranged in the circle of a solenoid, not shown, that, when excited, results in a desired mechanical switching or other Apparatus operated. As shown, there is a bridge rectifier D with another Secondary winding T2 connected for power supply to the solenoid.

Should the above l> eschriel-iene circle receive power after he was cut off from the source of supply would probably be the relay R take action. LTm to avoid this, the relay winding RW is through a Capacitance C3 shunted, which is a low impedance secondary circuit for the initial current pulses that occur when the circle first creates is energized. 8 is a sufficient value for the capacitor C3, teF when capacitors C1 and C2 are both 2 uF.

It is clear that when the limit switch LS is opened, also the relay R was in action, the relay no longer remains energized and the conditions in the circuit to return to normal with the capacitors C1 under C in the state of charge.

Claims (2)

P A T E N T A N S P R Ü C H E: I. Electrical switchgear with normally open switching contacts which are briefly caused by a rapidly moving Object, for example a can, is closed in a pneumatic tube system, around electrical energy storage means in shunt with the switching contacts mentioned to discharge, characterized in that the control winding of a relay in series iii is placed in a low impedance circuit. which the electrical storage means connects to a source of current of uniform direction, and the aforementioned control winding is shunted by an electrical secondary line. which is an impedance for electrical impulses that are in proportion to the corresponding impedance of the winding mentioned is low, whereby electrical currents are never generated if the mentioned circuit is initially energized, do not operate the relay. 2. Electrical switching device according to claim I, characterized in that that the control winding of the relay is shunted by a capacitance is.