DE676654C - Device to avoid no-load losses in a DC converter system working with a current chopper and transformer - Google Patents

Description

Device to avoid no-load losses when using a power chopper and transformer working direct current converter system There are direct current converter systems known which with a current chopper for the direct current and a transformer work and the such a galvanic separation between direct current network and consumer enable. In the secondary network. the transformed alternating current can be used directly use it or convert it back into direct current. Is now the electricity in the secondary network only occasionally used, the difficulty arises to prevent .the reshaping device must remain in operation continuously. Now it is known in transformer equipment to avoid idling losses, the transformer only as required, d. i.e. if a power consumer is switched on on the secondary side, to put into action. For this purpose, the coil of the power switch is connected to the primary network: via a Auxiliary transformer constantly in tension, so that when a power consumer is switched on a weak current is generated, which is sufficient to insert the switch while at Interruption of the secondary circuit by switching off all consumers The coil of the mains switch is de-energized, this house-switched and thus the primary winding the transformer is disconnected from the network. When using this procedure on with a Current chopper and a transformer working direct current conversion devices However, difficulties arise insofar as only direct current on the primary side is available.

The invention eliminates these difficulties in that as an auxiliary circuit, which in a known manner when switching on a power consumer in the galvanic separated secondary network by induction on a switch on the primary side actuating Relay acts, however, when all consumers in the secondary part are switched off becomes ineffective and brings the power switch to off, one to the direct current network connected alternating current generating device, for example on off one Glow lamp, a capacitor and a resistor break-over oscillation circuit, is used.

This makes it possible to achieve what was previously achieved with transformer devices Avoidance of no-load losses now also with direct current conversion devices to reach. This increases the service life of the converting device, in particular that of the chopper with its sensitive contacts is significantly increased. The relaxation circuit has a practically barely noticeable power requirement, so that electricity costs are also saved.

The drawing shows an exemplary embodiment of the subject matter of the invention a DC converter for operating a bell system.

To the direct current network a b is a primary circuit Ia, which one Chopper i and a power converter 2 is connected. This circuit 1a, however, is initially interrupted by the open switch 7. This is what makes this one Part of the converting device put out of action when not in use.

In parallel with the primary circuit. I, an auxiliary circuit Ib is connected to the direct current network a b, which contains an alternating current generating device. As such, one comes from a glow lamp 3, a capacitor q. and a resistor 5 consisting of means for generating tilting vibrations for use. The tilting vibrations can be transmitted to the secondary circuit II by the transformer 6.

In the secondary circuit II is the relay coil of the switch 7, which causes the interruption of the primary circuit I "containing the chopper z and the transformer 2 when the whole thing is idle. Furthermore, in the secondary circuit II is the electrical working device to be fed by the conversion device, in the example shown a bell 8 which can be actuated by the switch 9.

The mode of operation of the device is as follows: If the switch 9 is closed, the relay 7 is actuated by the current pulses continuously generated by the breakover oscillation circuit 3 to 5 and transmitted to the secondary circuit II by the transformer 6 and thus the chopper z and the power inverter 2 containing primary circuit Ia closed. The chopper thus comes into operation and splits the direct current flowing through the primary circuit into current pulses that are fed to the transformer 2. an alternating current: to be composed. This can be used directly to operate an electrical working device to be operated with alternating current, for example a bell 8. However, it is also possible to convert the alternating current obtained into direct current by means of a rectifier and thus to operate an electrical working device operating with direct current.

If the switch 9 is opened, the secondary circuit II is interrupted, whereby the relay 7 opens, the primary circuit IQ interrupts and thereby the Zer-Kacker i and the Umspanner 2 put out of operation. The Zerh: acker i with his sensitive contacts is only in operation as long as the electrical working device (Bell 8 or the like) itself is switched on, and is therefore extremely spared. On the other hand, the relaxation circuit provided for generating the current pulses requires a practically imperceptible power requirement, so that apart from the gain in service life of the device such an operating cost is achieved.

Instead of the relaxation circuit, another alternating current generating circuit can also be used Device, for example a feedback circuit or a Dynatron circuit, use Find.

Claims (1)

PATRNTA NSPRU CH: facility -to avoid idle-running losses in the case of a DC converter system working with a current chopper and transformer Use of an auxiliary circuit fed by the primary part, which when switched on of a power consumer in the galvanically isolated secondary part. Induction on a relay that actuates the switch on the primary side acts, on the other hand when it is switched off all consumers in the secondary part is ineffective and so the switch of the Brings primary side to the switch-off, characterized in that as an auxiliary circuit an alternating current generating device connected to the direct current network; preferably a relaxation circuit consisting of a glow lamp, a capacitor and a resistor, is used.