DE102008016799A1 - Switchgear for switching electrical load mechanism i.e. alternating current consumer, in e.g. household, has switching unit provided for electrically connecting primary connection unit with secondary connection unit - Google Patents

Abstract

The switchgear (100) has a primary connection unit (102) for connecting the switchgear to an electrical power supply mechanism (104). A secondary connection unit (103) connects a switching device to an electrical load mechanism (105) i.e. alternating current (AC) consumer. A switching unit (101) is provided for electrically connecting the primary connection unit with the secondary connection unit. A detection mechanism (106) e.g. voltage detection unit, detects an operating condition of the electrical load mechanism. The switching unit is controlled depending on the detected condition.

Description

TECHNICAL AREA

The The present invention relates to a device for intelligent Switching AC consumers depending on the Operating condition. For this purpose, it is detected by means of a current measuring unit whether the device is in standby mode and the current lead if necessary switched off.

STATE OF THE ART

AC loads in the household or industry are usually on wall outlets operated. These sockets are usually designed so that a permanent connection to the supply network is established. There are also switchable sockets for temporary disconnection the consumer from the supply network. This can be especially for Purposes of energy saving in electronic devices be useful with higher standby power.

In DE 20 2005 007901 U1 discloses a socket with a manually operable switch, consisting of an insulating socket, electrical contact terminals and a switch for disconnecting / connecting at least one contact terminal. A socket designed in this way, for example, offers a higher degree of security, but has the principle that there is the disadvantage that the user must operate the switch by hand. This means on the one hand a disadvantage of comfort and on the other hand the risk that Bergessen will operate the switch and thus the higher degree of security depends on possible human error.

In EP 1279077 B1 discloses an energy saving remote control. The invention is based on the fact that especially in business and public buildings devices such as vending machines and the like are only used during the presence of people. The device relates to a remote control of such consumers in the form that by means of suitable sensors, the closed state of the doors is monitored and depending on the above devices are switched on or off. Problem of this device is that wherever a building is not only used to "normal office hours", ie where there are mostly people in the building - as is the case for example in the private sector - the energy saving effect not or only very slightly effective.

In DE 3919070 C1 discloses a connection device for the connection of electrical loads, wherein the control of the consumer takes place by means of control lines. To control the connection device thus an additional installation of control lines is necessary.

DE 19831443 A discloses a device for temporary voltage release. As a result, unintentional operating times can be avoided, resulting in an energy saving on the one hand and on the other to a reduction in the risk potential (fires). A disadvantage of the device, however, is that rigid times must be set and operation of the device outside of the specified times is not readily possible.

PRESENTATION OF THE INVENTION

The invention is based on the object of a switching device ( 100 ) according to the type specified in claim 1, which is provided by suitable detection means ( 106 ), which includes a control unit, can independently distinguish between normal operation and standby mode by measuring current and voltage, and in the case of standby operation, the connected load device ( 105 ) from the power supply device ( 104 ) and in the event of restarting the load device ( 105 ) the connection to the power supply device ( 104 ) restores. The solution of this object is achieved according to the invention with the features stated in the characterizing part of patent claim 1. The dependent claims are advantageous developments of the invention can be seen.

According to the invention, the device includes a detection device ( 106 ) for operating an integrated circuit breaker ( 101 ), which is designed such that it can supply both the voltage and the current flowing through one at the secondary connection unit ( 103 ) connected load device ( 105 ) flows can determine. The detection unit according to the invention compares the current flow at suitable time intervals ( 202 ) with a reference value and can thus decide whether a standby mode is present or not. Detects the capture unit ( 106 ) switching the load device from the operating to the standby state, there is a separation of the secondary connection unit ( 103 ) and thus the load device ( 105 ) from the primary connection unit ( 102 ) connected to the power supply device ( 104 ) connected is. This can be done immediately or after an adjustable period of time. In order to switch on the load device ( 105 ) detects the detection device according to the invention ( 106 ) in a suitable duty cycle for a short period the load device ( 105 ) to the power supply device ( 104 ) and determines the current flow ( 202 ). If this is higher than the standby current during the switch-on time, a permanent connection will be established between primary ( 102 ) and secondary ( 103 ) Connection unit produced.

BRIEF DESCRIPTION OF THE DRAWINGS

1 shows the switching device ( 100 ), consisting of switching unit ( 101 ) detected by the detection device ( 106 ) and for connecting the primary connection unit ( 102 ) with the secondary connection unit ( 103 ). In addition, the energy supply device ( 104 ), as well as the load device ( 105 ).

2 shows power ( 202 ) and voltage curve ( 201 ) over time by the detection device ( 106 ) controlled switching unit ( 101 ).

3 shows an advantageous embodiment in the form of a module ( 212 ) for combination with any flush-mounted plug-in mode ( 211 ).

4 shows a further advantageous embodiment in the form of an intermediate connector ( 213 ) with connection devices ( 214 ) and ( 216 ).

5 shows a further advantageous embodiment in the form of a device connector ( 217 ) with primary connection unit ( 219 ) and connection cable ( 218 ).

WAYS FOR CARRYING OUT THE INVENTION

In 6 is an advantageous embodiment of the detection device according to the invention ( 106 ). The processor ( 304 ) represents the central processing unit, with the help of the current or voltage values are detected and processed. Advantageously, as a processor ( 304 ) used a power-saving microcontroller, so on the one hand the lowest possible self-consumption of the switching device ( 100 ) and the power supply unit ( 303 ) can be designed as small and inexpensive as possible. In order to capture the current and voltage values very accurately, the processor ( 304 ) with a converter ( 302 ) via an interface ( 307 ) connected. The converter ( 302 ) is in turn for voltage measurement directly with the secondary terminal unit ( 301 ) connected. For current measurement, the converter ( 302 ) additionally with a sensor ( 301 ) connected. This sensor ( 301 ) may for example be designed in the form of a shunt resistor. This has significant advantages in terms of weight and dimensions compared to a solution with a transformer. In the converter ( 302 ) is advantageously already a digitization of the measured values. These are sent to the interface unit ( 309 ) for further processing in the processor ( 304 ) made available.

The power supply unit ( 303 ) is advantageously designed as a switching regulator. This has the advantage over the power supplies that are otherwise used for such applications that, on the one hand, the space requirement is very low and, on the other hand, a very high level of efficiency is achieved.

In 2 is an example of the temporal voltage curve ( 201 ), as well as the temporal course of the stream ( 202 ) at the secondary connection unit ( 103 ). First, the load device ( 105 ) in standby mode, recognizable by the low load current ( 202 ). During this standby operation, the switching unit ( 101 ) in a suitable duty cycle periodically closed for a short time and the current ( 202 ). As in 2 to recognize increases at the time T1, the load current ( 202 ) when closing the switching unit ( 101 ), whereby the detection device ( 106 ) detects that the load device ( 105 ). As a result, the switching unit establishes a permanent connection between the primary connection unit ( 102 ) and secondary connection unit ( 103 ) produced. The load device ( 105 ) goes into normal operating mode.

In 3 is an advantageous embodiment of the switching device according to the invention ( 100 ) in the form of a module ( 212 ). The particular advantage of this embodiment is that the inventive switching device ( 100 ) in the form of a module ( 212 ) behind a standard flush-mounted Schuko socket ( 211 ) Is mounted and therefore existing Do not sen must be replaced. This has the particular advantage that any design lines with the switching device according to the invention ( 100 ) can be combined.

In 4 is an advantageous embodiment of the switching device according to the invention ( 100 ) in the form of an intermediate plug ( 213 ). This consists of an insulating housing ( 215 ), a primary connection unit ( 102 ) in the form of a Schuko plug ( 214 ) for connecting the switching device ( 100 ) with the power supply device ( 104 ), as well as a secondary connection unit ( 103 ) in the form of a Schuko socket ( 216 ) for inserting a load device ( 105 ).

In 5 is an advantageous embodiment of the switching device according to the invention ( 100 ) in the form of a device plug ( 217 ) for mounting to a cable ( 218 ). The insulating housing ( 219 ) contains the entire switching device ( 100 ).

Even though the present invention above based on preferred embodiments is described, it is not limited thereto, but modifiable in a variety of ways.

Also the invention is not limited to the aforementioned applications limited.

In the same reference numerals designate the same or functionally identical Components or steps.

100

switching device

101

switching unit

102

primary connection unit

103

secondary connection unit

104

Power supply means

105

load means

106

detector

201

voltage curve

202

current profile

210

Concealed switching device

211

Concealed outlet

212

switching device

213

adapter

214

plug

216

Rifle

217

connectors

218

connection cable

219

plug

301

sensor

302

converter

303

power supply

304

processor

305

connection unit

306

connection unit

307

Interface unit

308

connection unit

309

Interface unit

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 202005007901 U1 [0003]
• - EP 1279077 B1 [0004]
• - DE 3919070 C1 [0005]
• - DE 19831443 A [0006]

Claims (6)

Switching device ( 100 ) for switching an electrical load device ( 105 ), comprising: a) a primary connection unit ( 102 ) for connecting the switching device ( 101 ) to an electrical power supply device ( 104 ); b) a secondary connection unit ( 103 ) for connecting the switching device ( 100 ) to the electrical load device ( 105 ); and c) a switching unit ( 101 ) for electrically connecting the primary connection unit ( 102 ) with the secondary connection unit ( 103 ); characterized in that the switching device ( 100 ) further comprises: c) a detection device ( 106 ) for detecting at least one operating state of the load device ( 105 ), wherein the switching unit ( 101 ) is controlled in dependence on the detected operating state. Switching device ( 100 ) according to claim 1, characterized in that the detection device ( 106 ) is a voltage detection unit. Switching device according to Claim 1, characterized in that the detection device ( 106 ) is a current detection unit. Switching device according to claim 1, characterized in that after a means of the detection device ( 106 ) carried out detection of the at least one operating state of the load device ( 105 ) by the switching unit ( 101 ) is changed between a normal mode and a standby mode depending on the detected operating state. Switching device ( 100 ) according to claim 1, characterized in that the primary connection unit ( 102 ) for connecting the switching device ( 101 ) to the electrical power supply device ( 104 ), the secondary connection unit ( 103 ) for connecting the switching device ( 101 ) to the electrical load device ( 105 ), the switching unit ( 101 ) for electrically connecting the primary connection unit ( 102 ) with the secondary connection unit ( 103 ) and the detection device ( 106 ) for detecting at least one operating state of the load device ( 105 ), wherein the switching unit ( 101 ) is driven in dependence on the detected operating state, are housed in a common housing. Switching device according to Claim 5, characterized that the common housing than at least one of a UP socket, an adapter plug and a device plug is trained.