DE19635826A1 - Intermediate plug with incorporated fault-current circuit-breaker e.g. for video and Hi=Fi - Google Patents

Abstract

The plug is used for connecting an electrical device (1) to a mains supply socket (3), with a current measuring circuit (5) detecting the load current of the electrical device for operation of a load breaker (4) for disconnecting the latter. An electronic evaluation circuit (6) differentiates between the load current provided by the measuring circuit and a standby current, to allow the current circuit to be interrupted by the load switch when the device is switched into the standby mode, or when the standby current drops below a threshold value.

Description

The invention relates to an adapter plug according to the preamble of claim 1 to connect a power consumer with the plug connector of an electrical Voltage source, in particular a power outlet, is used, and that with a load switch is provided, through which the current consumer ge from the voltage source can be separated.

It is known to plug this type of z. B. in connection with a fault current use circuit breakers. The fault current is measured with the help of a measuring circuit and are in the load circuit if a permissible limit value is exceeded the circuit breaker is switched off. So it is a normal protection switch function, which is also in another form, e.g. B. to protect against line crossover loads, is applied.

The invention deals with a completely different problem. That too solving problem is not to provide any protective function, but electrical energy is to be saved. Almost all commercially available today Devices in the video and hi-fi industry are equipped with IR remote controls as standard Control of the various operating functions. When you turn off the Devices via the IR remote control are not completely disconnected from the supply current  switches, but the devices go into stand-by mode. This offers the comfort that the device can be switched on again at any time using the remote control.

The power consumption required for stand-by operation is on many devices eighth high, so the convenience of turning the device on and off by remote control to be able to switch off, must be paid relatively expensive. The only way out is single Lich the operation of the power switch integrated in the device or another scarf ters to interrupt the supply current coming from the network, z. B. means a timer or a separate IR switch receiver. But that would make one essential part of the comfort gained by remote control is lost again hen, because even the use of a separate IR switch receiver enables no significant improvement of the situation, since an additional remote control be is necessary and switching off can easily be forgotten.

The object of the invention is therefore an adapter plug according to the preamble of claim 1 to create with which it is possible to operate in a stand-by mode from a distance avoid controllable devices, and the resulting waiver to keep it as low as possible for convenience.

This object is achieved by the features characterized in claim 1. Appropriate refinements and developments of the subject matter of the invention are mentioned in the subclaims.

The main advantage that the adapter plug according to the invention offers is in that it enables an automatic termination of the standby mode and a problem-free restart of the device with all conventional variants of a Switch operation allowed. This is achieved in that evaluation electronics are provided is seen that between a load current detected by the measuring circuit and a Hal detected during a standby operation of the connected consumer can distinguish test current. The evaluation electronics make the distinction by they change the current flowing through the consumer from the load current to Holding current, or falling below a lower representing the holding current  Limit value detected. As soon as one of these two criteria is met, it causes an Un Circuit breakage by the load switch. So that the load switch at Be suitable reversing means are provided.

The lower limit value of the load current that can be used as a switch-off criterion is from the indi vidual current in standby mode of the connected to the adapter Device dependent. It is therefore an advantage if the evaluation electronics are specified of the lower limit value representing the holding current is a potentiometer or has an automatic control unit, with the help of which the limit is set as required is adjustable. With such individual adjustability, there is also the possibility to connect several devices at the same time to an adapter plug, whereby then the current in stand-by mode and thus also the limit to be set elevated.

As a reversing device for switching on an automatically switched off load switch are in principle all known actuators. It's that simple Most possible also that the reversing means manually operable adjusting elements are with the help of the load switch from its open position to its on position is traceable. Another variant provides that the load switch via a electronic switch initiator can be brought into its switched-on position. The switch initiator can be a button or scarf accessible on the housing of the adapter own and can be activated by hand. But he can also with one Be equipped and then enable remote-controlled activation.

In turn, all commonly used systems are suitable as receivers. Of the Receiver can thus be used to receive wire-bound, in particular network-bound Control signals and / or wireless control signals, especially ultrasound and infra red signals, be suitable. With a wireless receiver, it is important that it is himself or his receiving sensor with the adapter plug via a flexible cable connected and at an appropriate distance from the adapter plug in a cheap Receiving position can be brought. It is preferable to become a wireless receiver select that can be controlled using conventional video and / or HiFi remote controls.

An embodiment of the invention is shown in the drawing as a block diagram represents and is described in more detail below.

An adapter plug Z, the mechanical structure of which essentially corresponds to the structure of known adapter plugs, makes contact on the input side with its plug pins, not shown here, to mains plug connections 3 a, 3 b of a mains voltage source 3 . On the output side, the adapter plug Z itself has plug connections 2 a, 2 b for plugging in a current consumer 1 , which is any device which, after switching off, goes into a standby mode by means of a remote control.

The mains voltage coming from the voltage source ( 3 ) is led to the plug connections ( 3 a, 3 b) via a load switch ( 4 ). The load switch (4) allows in the example, only a single-pole interruption of the circuit b to the male terminal 3, but also the voltage source (3) could separate the two poles of the power consumers (1). Its task is to interrupt the load current IL as soon as it reaches a value that corresponds to the stand-by mode.

For this purpose, the adapter plug Z has a measuring circuit ( 5 ) which measures the current IL in each case with the aid of the voltage drop at the current consumer 1 and compares it with a lower limit which can be set with the aid of a limit transmitter ( 11 ), preferably a potentiometer. Means connected to the measuring circuit (5) Auswer telektronik (6) can now evaluate the result of this measurement and open the nachgeschal ended load switch (4) as soon as the set lower limit is fallen below. Of course, reaching stand-by mode can also be detected in another way. One of these options provides for the changeover from the load state to the standby mode to be recorded and evaluated accordingly. For these and other tasks, it can be expedient if the evaluation electronics ( 6 ) are assigned a microprocessor ( 10 ).

The automatically switched off load switch 4 must of course be able to be switched on again, if necessary, in order to be able to supply the connected device with the required load current IL. For this purpose, so-called reversing means 7 are provided, which in the simplest case are designed as mechanical actuating means and enable the load switch to be actuated directly by hand. In the example shown, however, the actuation is carried out with the aid of an IR remote control, the receiver 8 of which receives the control signal for switching on again via a receiving probe 9 . This is connected by a flexible connecting line to the receiver 8 and can thus be arranged in a favorable receiving position, while the receiver integrated in the adapter plug Z corresponds with respect to its location to the socket used, which is often somewhat covered.

The switch-on signal emitted by a conventional IR remote control transmitter thus reaches the receiver 8 via the receiving probe 9 and passes from there to the revering means 7 , which in this case are designed as a switching initiator and bring about a controlled switching on of the load switch 4 . The same IR remote control transmitter (conventional remote control) can also be used to switch the remote-controllable device 1 on and off, so that the full ease of use is available without having to use the energy-wasting standby status.

It should not be overlooked that the connector for performing its function requires a power supply part 11 to supply its functional units 4 to 10 and thus also consumes energy. The losses to be accepted as a result, however, are far lower than in stand-by operation of conventional devices.

Reference list

1 electricity consumer
2 a, 2 b load plug connections
3 voltage source
3 a, 3 b plug connections
4 load switches
5 measuring circuit
6 evaluation electronics
7 reversing agent
8 receivers
9 receiving probe
10 microprocessor
11 limit switches
Z adapter plug

Claims (10)

1. adapter plug, which is used to connect a power consumer ( 1 ) to the plug connections ( 3 a, 3 b) of an electrical voltage source ( 3 ), in particular a mains socket, and which is provided with a load switch ( 4 ) through which the power consumer ( 1 ) can be separated from the voltage source ( 3 ), and with a measuring circuit ( 5 ) which measures the current of the current consumer ( 1 ) and switches off the load switch ( 4 ) when a predetermined criterion is reached, characterized in that evaluation electronics ( 6 ) is provided, which distinguishes between a load current measured by the measuring circuit ( 5 ) and a holding current detected during a standby operation of the connected current consumer ( 6 ) in such a way that it flows through after a change in the current consumer ( 1 ) Current (IL) from the load current to the holding current, or if the value falls below a lower limit representing the holding current, an interruption of the S Tromkreises caused by the load switch ( 4 ), and that reversing means ( 7 ) are provided, via which the load switch ( 4 ) can be switched on again if necessary. 2. Adapter according to claim 1, characterized in that the value electronics ( 6 ) has a potentiometer ( 8 ) or an automatic actuating unit for specifying the lower limit value representing the holding current, with the aid of which the limit value can be adjusted as required. 3. Adapter according to one of claims 1 and 2, characterized in that the reversing means ( 7 ) are manually actuated actuating elements, with the aid of which the load switch ( 4 ) can be returned from its switched-off position to its switched-on position. 4. Adapter according to one of the preceding claims, characterized in that as a reversing means ( 7 ) build-up of electronic components serves switch initiator with which the load switch ( 4 ) can be brought into its switched-on position. 5. adapter according to claim 4, characterized in that the scarf tinitiator ( 7 ) has an accessible on the housing of the adapter plug or scarf ter, via which it can be activated by hand. 6. Adapter according to one of the preceding claims 4 and 5, characterized in that the switch initiator ( 7 ) can be controlled via a receiver ( 8 ) which activates it by remote control. 7. Adapter according to claim 6, characterized in that the receiver ( 8 ) is suitable for receiving wired, in particular network-bound control signals and / or wireless control signals, in particular ultrasound or infrared signals. 8. Adapter according to one of the preceding claims 6 and 7, characterized in that the wireless receiver ( 8 ) itself or only one Emp catch probe ( 9 ) connected to the adapter via a flexible line and at a corresponding distance from the adapter into a favorable receiving position is feasible. 9. Adapter according to one of the preceding claims 6 to 8, characterized in that the wireless receiver ( 8 ) can be controlled by means of conventional video and / or hi-fi remote controls. 10. Plug one of the preceding claims, characterized in that the evaluation electronics ( 6 ) is equipped with a microprocessor ( 10 ).