DE102017219041A1 - Control system for an electrified infrastructure of a room - Google Patents

Abstract

The invention is based on a control system for an electrified infrastructure of a room, with at least one switching unit (10a, 10c) for changing at least one operating parameter of the electrified infrastructure of the room, with at least one mobile operating unit (12a, 12b, 12c) for controlling the switching unit (10a, 10c) and a loading unit (14a, 14b, 14c) for loading the mobile operating unit (12a, 12b, 12c).
It is proposed that the charging unit (14a, 14b, 14c) is coupled directly to the switching unit (10a, 10c) in at least one intended operating state.

Description

State of the art

A control system for an electrified infrastructure of a room has already been proposed, with at least one switching unit for changing at least one operating parameter of the electrified infrastructure of the room, with at least one mobile operating unit for controlling the switching unit and a loading unit for loading the mobile operating unit.

Disclosure of the invention

The invention is based on a control system for an electrified infrastructure of a room, with at least one switching unit for changing at least one operating parameter of the electrified infrastructure of the room, with at least one mobile operating unit for controlling the switching unit and a charging unit for a, in particular contactless, charging the mobile operating unit.

It is proposed that the charging unit is coupled directly to the switching unit in at least one intended operating state.

A "room" is to be understood in particular as an arbitrarily shaped three-dimensional area, in particular an area in a building which is bounded by walls of the building. A space may be substantially closed, in particular bounded by physical objects. Alternatively, a space may be open on at least one side. A room is defined on an open side by a functional boundary. In particular, a room is defined by a room of a building. Preferably, a space is defined by a substructure of a room, for example a workstation. Particularly preferably, a room is designed as an open subarea of a room. Alternatively, a room may describe an outside area connected to a building, such as a patio or a company car park.

An "infrastructure of a space" is to be understood as the entirety of all systems, devices, devices and / or devices which serve to make the space serve a purpose. By a unit of infrastructure is meant in the following a single system, device, a single device and / or device of the infrastructure. Preferably, a unit of infrastructure is located at least partially within the room. Alternatively, the unit of infrastructure is connected at least to the room. For example, the infrastructure of a room comprises at least one power supply unit, in particular a socket. For example, the infrastructure of a room comprises at least one lighting unit, in particular a lamp. For example, the infrastructure of a room comprises at least one blackout unit, in particular a blind. In particular, devices that are detachably connected to a room, for example a television, can also be understood as a unit of the infrastructure. In particular, implements that are not explicitly bound to space, in particular autonomous, such as cleaning robots, are to be understood as a unit of the infrastructure of a room.

"Electrified" is an infrastructure, in particular if at least one operating parameter of the infrastructure can be changed, at least with an electrical variable, preferably a voltage and / or a current. Preferably, the switching unit changes an operating parameter of the infrastructure, in particular via an electrical variable. Preferably, a value range of the operating parameter that can be set by the switching unit is discrete and / or continuous. There are various, a professional appear appropriate, changeable operating parameters of the infrastructure conceivable. For example, an operating parameter may be a supply of a unit of infrastructure with an electric current and / or a voltage. For example, an operating parameter may be the brightness of a lighting unit, in particular a dimming parameter. For example, an operating parameter may be the relative location of a blackout unit to the room. It is also conceivable that the operating parameter is a water pressure and / or temperature of a water connection of the room. The switching unit preferably comprises an electrical control and / or regulating unit for adapting at least one operating parameter. In particular, the switching unit comprises at least one switching element, in particular for producing and interrupting a power supply and / or for generating a switching pulse. The switching unit preferably comprises an electromechanical control and / or regulating unit, in particular an electric motor and / or a servo system. Preferably, the switching unit controls by means of the electromechanical control and / or regulating unit, in particular directly, a mechanical unit of the infrastructure, such as a blind and / or a water valve. The switching unit preferably has at least one communication unit for operation by means of the mobile operating unit. Each controllable unit of the infrastructure preferably has a communication unit for communication with the mobile operating unit. Alternatively, the switching unit has a central communication unit for communication with the mobile operating unit. The switching unit preferably communicates wirelessly, in particular with the mobile operating unit. For example the switching unit communicates with the mobile operating unit via RFID, WLAN, Bluetooth, by means of induction and / or another type of communication that appears expedient to the person skilled in the art. Alternatively, the switching unit, in particular with the mobile operating unit, communicates with the line.

The term "mobile" is to be understood in particular as meaning that an element and / or a unit, in particular the mobile operating unit, can be hand-carried in a provided operating state, in particular can be operated in a location-independent manner. The mobile operating unit is provided in particular for controlling the switching unit by an operator. The mobile operating unit preferably has an energy store, in particular an accumulator. In particular, the energy store of the mobile operating unit is rechargeable. In particular, the mobile control unit has a charging element. The loading element preferably serves to load the mobile operating unit by means of the loading unit. Preferably, the loading of the mobile operating unit takes place without contact. In particular, contactless charging is inductive. Alternatively, contactless charging is capacitive. Preferably, the loading unit is mobile. Alternatively, the loading unit is stationary.

By "coupled" is to be understood in particular that the charging unit and the switching unit are positively and / or non-positively connected to each other. In particular, the coupled charging unit and the switching unit can indirectly, in particular by a common assembly unit, be connected to each other with force and / or positive fit. Preferably, a minimum distance between the coupled charging unit and the switching unit is less than a maximum range of a charging process and / or a maximum range of the communication unit. In particular, in a coupled operating state, the charging unit and the switching unit have a common area, in particular a common coupling area with the mobile operating unit, which is provided for charging the mobile operating unit and at the same time for communication of the mobile operating unit with the switching unit. In particular, the coupled charging unit is connected to a power supply. Preferably, in a mobile charging unit, the coupling and decoupling to the switching unit, in particular without tools, reversible. The mobile charging unit preferably has a contact element for establishing a contact with a standardized power supply, in particular a socket.

By "provided" is intended to be understood in particular specially programmed, designed and / or equipped. The fact that an object is intended for a specific function should in particular mean that the object fulfills and / or executes this specific function in at least one application and / or operating state.

The inventive design of the control system for an electrified infrastructure of a room can be advantageously achieved that the mobile control unit in a temporary storage of the mobile control unit in the switching unit, in particular automatically loaded. By a regular attachment of the mobile control unit to the switching unit, a low-cost energy storage can be used with low storage capacity. An accumulation of various chargers for various devices can be avoided. An additional storage location for the charger can be saved. A frequent battery change can be avoided. Advantageously, functional losses due to weak batteries can be avoided.

It is also proposed that the loading unit is integrated in the switching unit. The charging unit and the switching unit preferably form a single switching and charging unit. Alternatively, the charging unit and the switching unit have at least one common housing and / or another common assembly unit. It can be used advantageously a space-saving and / or component-saving design.

Furthermore, it is proposed that the loading unit has a memory unit to a charging of the mobile operating unit separate from a power supply. Preferably, in a mobile embodiment of the loading unit, the loading unit has a storage unit. The storage capacity comprises at least the storage capacity of the storage unit of the mobile operating unit. The storage unit of the charging unit is charged to the switching unit when the charging unit is coupled. Alternatively, the storage unit can be charged via the contact element of the charging unit. Advantageously, the mobile control unit can be loaded with the mobile charging unit at any location. Advantageously, the mobile control unit can also be used when the energy storage of the mobile control unit is exhausted.

Furthermore, it is proposed that the charging unit and the switching unit together form a flush-mounted module, which is intended for flush-mounting. The flush-mounted module preferably ends flush with a boundary of the room after a flush-mounted installation. "Flushing" is intended in particular to mean that the flush-mounted module protrudes into the room by less than 1 cm in an assembled state and / or is set back by less than 1 cm from a boundary of the room. Preferably, the flush module protrudes in one mounted state less than 0.5 cm into the room. Preferably, the flush module is intended to be mounted in a wall bounding the space. In particular, a flush installation in an expanded sense should be understood to mean a flush entry into a structure, in particular a plasterless one. In particular, the flush-mounted module can also be embedded in the floor, the ceiling and / or substructures of a room, in particular room dividers, kitchen islands and / or furniture. Preferably, the flush-mounted module can be mounted invisibly. Alternatively, at least the side of the flush-mounted module facing the room can at least partially remain visible in an assembled state, in particular in order to identify a loading area of the loading unit. Alternatively, markings could be placed on a panel, especially on a plaster or wallpaper, to hide the flush-mounted module. In an alternative embodiment, the flush module could have a display unit, which remains visible. The display unit is intended to display a current value of at least one operating parameter that can be changed by the switching unit. The inventive design of the control system allows the switching unit and the charging unit to save space in and / or attach to a room. The switching unit and the charging unit are advantageously substantially invisible in a mounted state. In particular, power supply lines for the switching unit and the charging unit can be accommodated in the space-limiting structures, in particular room walls. Advantageously, an accident risk for an operator can be reduced.

It is also proposed that the loading unit has at least one non-positive fastening unit for the at least temporary attachment of the mobile operating unit to the loading unit. The non-positive fastening unit preferably comprises at least one magnetic fastening element, in particular a permanent magnet. Alternatively, the non-positive fastening unit has at least one vacuum-fastening element, for example a suction cup. Alternatively, the non-positive fastening unit has at least one friction fastening element, in particular a pair of clamping hooks. Alternatively, the non-positive fastening unit has at least one electro-adhesion fastening element. In particular, the mobile operating unit has at least one counterpart to the fastening unit of the charging unit. Preferably, the counterpart of the mobile operating unit to the fixing unit of the charging unit is formed as part of a mounting unit, in particular a housing, the mobile operating unit. Alternatively, the counterpart to the fastening unit of the mobile control unit is positively and / or non-positively connected to a mounting unit of the mobile control unit. Alternatively, the mobile operating unit has the fastening unit and, in particular, the charging unit has the counterpart to the fastening unit. Alternatively, the loading unit could have a form-locking fastening unit, in particular a holding element and / or a hook-and-loop fastener element. It is also conceivable that several different fasteners are combined. It can be advantageously made by an operator easy solvable and recoverable attachment of the mobile control unit to the charging unit. Slippage of the mobile operating unit with respect to the loading unit when loading the mobile operating unit can be avoided.

In a further embodiment of the invention, it is proposed that the loading unit has at least two loading areas for loading the mobile operating unit, in particular at different locations. A charging unit preferably comprises at least one energy transfer unit. A power transmission unit in particular comprises a coil. The energy transfer unit is preferably provided to transfer electrical energy, in particular contactless, from the charger to the mobile operating unit, in particular via the charging element of the mobile operating unit. The energy transmission unit preferably has a maximum range for loading the mobile operating unit. The maximum range of the energy transfer unit defines a charging area arranged on the charging unit. The charging unit preferably has two spatially separate energy transmission units. In particular, the loading unit has two spatially separate loading areas. Preferably, the loading areas may overlap. In particular, a charging area can be created with a plurality of energy transmission units, which essentially completely encompasses the space in at least one cross section. Essentially complete in this context means, with the exception of room openings, in particular door and window areas. In particular, the loading unit has a sensor unit in order to detect an attachment of a mobile operating unit to a specific loading area. The charging unit preferably has a control unit for a selective activation of at least one energy transmission element, which is closest to the mobile control unit. This results in a high level of user comfort by providing an extended, in particular contiguous, loading area. Advantageously, the mobile operating device can be stored and loaded at different, in particular arbitrary, locations in the same room and / or in different rooms. Advantageously, several mobile control units can be charged at the same time.

It is further proposed that the mobile operating unit has a charging element for charging the mobile operating unit via the charging unit, which is provided simultaneously for data transmission. The charging element is preferably provided for charging the mobile operating unit. Preferably, the charging element is provided for receiving electrical energy. Preferably, the charging element is intended to receive and / or send data. Preferably, loading of the mobile control unit and transmission and / or reception of data may take place at the same time. Alternatively, an operator can manually select at least between two operating modes, in particular a loading and an input mode, of the mobile operating unit. Alternatively, the loading unit automatically interrupts loading upon input by the operator. In particular, the loading unit automatically resumes loading of the mobile operating unit, in particular after a fixed time after the entry. Preferably, the loading unit produces a, in particular bidirectional, communication between the switching unit and the mobile operating unit. In particular, an approach of the mobile operating unit to the charging unit can be detected. In particular, a distance between the charging unit and the mobile operating unit can be determined on the basis of the signal strength. The charging unit preferably acts as a relay station between the mobile operating unit and the switching unit. Alternatively, the switching unit has a transmitting and / or receiving unit for direct communication with the mobile operating unit. Additionally or alternatively, a communication between the switching unit and the mobile operating unit can be established by means of further wireless methods, for example RFID, WLAN and / or Bluetooth. Advantageously, a component-saving and space-saving design of the system can be achieved. Advantageously, functions of the switching unit and / or charging unit with short range can be switched on automatically when approaching the mobile control unit and switched off at a distance of the mobile control unit.

Furthermore, an identification unit for detecting a circumstance-specific parameter is proposed. A "circumstance-specific parameter" is to be understood in particular to mean a characteristic variable and / or a characteristic feature, by means of which different circumstances and / or situations can be distinguished in which the mobile operating unit is located in particular. For example, a circumstance may be a specific operator, a spatial position of the mobile operating unit, a time and / or an environmental condition. In particular, the circumstance-specific parameter is designed as a user-specific and / or room-specific parameter. A "room-specific parameter" is to be understood in particular to mean a characteristic variable and / or a characteristic feature by means of which the electrified infrastructure of a room can be distinguished from the electrified infrastructure of at least one further room. In particular, the identification unit is intended to evaluate the space-specific parameter with respect to variable operating parameters. Preferably, the mobile control unit uses the room-specific parameter to provide an operator with room-specific control and / or switching options, for example via a touchscreen. The mobile operating unit preferably receives a room-specific parameter from the switching unit, for example via RFID, WLAN and / or another wireless method. Alternatively, the mobile operating unit can autonomously detect a room-specific parameter, for example on the basis of previously learned markings, on the basis of previously learned objects / patterns within the room and / or on the basis of coordinates of the mobile operating unit. As a result, in particular the number of different mobile operating units can be reduced. By a specific provision of a control and / or switching option, the number of different operating elements of the mobile operating unit can be reduced. An intuitive handling can be achieved. It can be achieved a high operator comfort. An "operator-specific parameter" should be understood to mean, in particular, a characteristic variable and / or a characteristic feature, by means of which an operator can be distinguished from at least one further operator. Preferably, an assignment of at least one operator-specific parameter and at least one operator is unambiguous. Alternatively and / or additionally, specific parameters for user groups can be detected. Group-specific parameters can in particular be used to provide different groups of persons, for example minors and / or maintenance workers, with different rights. Preferably, an operator-specific parameter is detected indirectly via a specific parameter of a user-specific mobile operating unit. An operator-specific mobile operating unit is preferably at least temporarily in the possession of a single operator. Alternatively, a mobile operating unit can be assigned to an operator by an identification method of the mobile operating unit. An identification method may include entering a password, voice recognition, fingerprint scanning, face recognition, and / or acquiring other biometric data. The specific characteristic variable of a mobile operating unit can be embodied, in particular, as a characteristic feature associated with the mobile operating unit, such as an RFID tag and / or the International Mobile Subscriber Identity (IMSI). Alternatively, the mobile operating unit can be assigned a static and / or dynamic identification number when using a communication protocol and / or software technology. The inventive design of the control system, various operators can be identified. As a result, different operators in particular can be provided with different rights.

Furthermore, a flush-mounted module with a charging unit and a switching unit for a, in particular inventive, control system for an electrified infrastructure of a room is proposed. Preferably, a flush module is designed as a prefabricated unit. Preferably, the flush module is intended to be installed in one piece. For example, a simple mounting could be made possible by means of a previously mounted mounting frame with guide rails. The flush-mounted module preferably ends flush with a boundary of the room after a flush-mounted installation. Preferably, the flush module is intended to be mounted in a wall bounding the space. In particular, the flush-mounted module can also be embedded in the floor, the ceiling and / or substructures of a room, in particular room dividers, kitchen islands and / or furniture. Preferably, the flush-mounted module can be mounted invisibly. Alternatively, at least the side of the flush-mounted module facing the room can remain at least partially visible, in particular in order to identify a loading area of the loading unit. Alternatively, markings could be placed on a panel, especially on a plaster or wallpaper, to hide the flush-mounted module. In an alternative embodiment, the flush module could have a display unit, which remains visible. The display unit is provided to display a current value of at least one operating parameter, which can be changed by the switching unit. The inventive design of the control system allows the switching unit and the charging unit to save space in and / or attach to a room. The switching unit and the charging unit are advantageously substantially invisible in a mounted state. In particular, power supply lines for the switching unit and the charging unit can be accommodated in the space-limiting structures, in particular room walls. Advantageously, an accident risk for an operator can be reduced.

Furthermore, the invention proceeds from a method for operating a control system of an electrified infrastructure of a room, wherein the control system has at least one switching unit for changing at least one operating parameter of the electrified infrastructure of the room and at least one mobile operating unit for controlling the switching unit. It is proposed that, in at least one method step, the mobile operating unit is loaded when it is attached to the switching unit, in particular without a contact. Due to the inventive design of the method for an electrified infrastructure of a room can be advantageously achieved that the mobile control unit in a temporary storage of the mobile control unit in the switching unit, in particular automatically loaded. By a regular attachment of the mobile control unit to the switching unit, a low-cost energy storage can be used with low storage capacity. An accumulation of various chargers for various devices can be avoided. An additional storage location for the charger can be saved. A frequent battery change can be avoided. Advantageously, functional losses due to weak batteries can be avoided.

The control system according to the invention, the flush-mounted module according to the invention and / or the method according to the invention should / should not be limited to the application and embodiment described above. In particular, the control system according to the invention, the flush-mounted module according to the invention and / or the method according to the invention for performing a function described herein can have a number deviating from a number of individual elements, components and units and method steps mentioned herein. In addition, in the value ranges indicated in this disclosure, values lying within the stated limits are also to be disclosed as disclosed and used as desired.

list of figures

Further advantages emerge from the following description of the drawing. In the drawing, three embodiments of the invention are shown. The drawing, the description and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into meaningful further combinations.

• 1 eine schematische Darstellung des erfindungsgemäßen Steuersystems mit einem Unterputzmodul,
• 2 eine schematische Darstellung des Ladeverfahrens,
• 3 eine schematische Darstellung einer mobilen Ladeeinheit und einer mobilen Bedieneinheit und
• 4 eine schematische Darstellung des Systems in einer Ausgestaltung mit mehreren Ladebereichen.

Show it:

• 1 a schematic representation of the control system according to the invention with a flush-mounted module,
• 2 a schematic representation of the charging process,
• 3 a schematic representation of a mobile charging unit and a mobile control unit and
• 4 a schematic representation of the system in an embodiment with multiple loading areas.

Description of the embodiments

The 1 shows a control system for an electrified infrastructure of a room. The control system has at least one switching unit 10a for changing at least one operating parameter of the electrified infrastructure of the room. In particular, the switching unit 10a designed as an electronic switch. The switching unit is preferred 10a to a supply line 28a connected. Preferably, the switching unit 10a a connection 30a a unit of infrastructure to a supply line 28a interrupt and / or restore. The control system has at least one mobile operating unit 12a for controlling the switching unit 10a on. In particular, the mobile control unit 12a at least one operating element 32a to a control of the switching unit 10a on. In particular, the control comprises the switching unit 10a a change of a defined operating parameter of the electrified infrastructure. The operating element 32a may in particular be a knob and / or a continuous controller. In particular, the operating element 32a also be a voice recognition element. Preferably, the operating element 32a at least one output element 34a on. The output element 34a is particularly intended to provide a current status of the switching unit 10a , in particular the currently set operating parameters. The dispensing element is preferred 34a formed as a screen. Alternatively, the output element 34a as a luminous element, for example a photodiode. Preferably, the operating element 32a and / or the output element 34a designed as a touch screen. Preferably, the mobile control unit comprises 12a a housing 36a ,

The control system has a loading unit 14a to a, in particular contactless, loading the mobile control unit 12a on. In particular, the loading unit 14a an energy transfer unit 38a on. The energy transfer unit 38a is intended to provide electromagnetic energy from the charging unit 14a to the mobile control unit 12a transferred to. The mobile control unit 12a has a charging element for receiving the electromagnetic energy 26a on. Preferably, there is no direct contact between the power transmission unit 38a and the charging element 26a , Preferably, the energy transfer unit 38a and the charging element 26a inductively coupled. Preferably, the loading element 26a designed as a coil. Preferably, the energy transmission unit 38a at least one coil element. The energy transfer unit preferably has 38a a current and / or voltage converter, in particular for adjusting a current and / or a voltage of the supply line 28a ,

The loading unit 14a is in at least one intended operating condition directly with the switching unit 10a coupled. In particular, the loading unit 14a and the switching unit 10a connected by wire. The loading unit 14a is in the switching unit 10a integrated. In particular, the loading unit 14a and the switching unit 10a a common assembly unit 29a on. The loading unit 14a and the switching unit 10a together form a flush-mounted module 18a out, which is intended for flush mounting. Preferably, the flush-mounted module 18a after mounting in a wall 40a with plaster 42a admitted. Preferably, the flush module 18a for example, from a wallpaper 44a to be covered.

The loading unit 14a has at least one non-positive fastening unit 20a for at least temporary attachment of the mobile operating unit 12a at the loading unit 14a on. Preferably, the fastening unit comprises 20a at least one magnetic fastener 46a , Preferably, the magnetic fastener is 46a formed of a magnetic material. Preferably, the fastener 46a designed as a metal frame. Preferably, the mobile control unit 12a at least one counterpart 48a to the mounting unit 20a on. Preferably, the counterpart 48a designed as a permanent magnet.

The mobile control unit 12a has the loading element 26a for loading the mobile operating unit 12a over the loading unit 14a which is simultaneously intended for data transmission. Preferably, the mobile control unit 12a an arithmetic unit 50a on. The arithmetic unit is preferred 50a provided signals from the control 32a and / or the loading element 26a to process. In particular, the arithmetic unit 50a between a reception of energy and a reception of information, for example by means of a protocol and / or based on a signal strength, different. Preferably, the arithmetic unit 50a by means of the output element 34a received information. Preferably, the switching unit 10a a communication unit 52a for communication with the mobile control unit 12a on. Preferably, the communication unit receives 52a a signal from the mobile control unit 12a immediate. Preferably, the communication unit transmits 52a a signal to the mobile control unit 12a immediate. Alternatively, the communication unit 52a process a signal via the charging unit 14a is directed. Preferably, the communication unit comprises 52a at least one further communication means, for example an RFID reader and / or a WLAN antenna. In particular, the communication unit comprises 52a a connection element to an installation and / or radio bus.

The control system has an identification unit for acquiring a circumstance-specific parameter. Preferably, the switching unit 10a a computing and / or storage unit 56a for processing a circumstance-specific parameter. Alternatively, the mobile control unit 12a a computing and / or storage unit for processing a circumstance-specific characteristic. Preferably, the communication unit 52a the switching unit 10a an RFID reading unit, in particular for identification on. Preferably, the mobile control unit 12a an RFID tag 54a , in particular for identification on.

The 2 shows a method for operating a control system of an electrified infrastructure of a room, wherein the control system at least one switching unit 10a for changing at least one operating parameter of the electrified infrastructure of the room and at least one mobile operating unit 12a for controlling the switching unit 10a in which, in at least one method step, the mobile operating unit 12a when attached to the switching unit 10a , in particular contactless, is charged. In particular, the charging unit sends 14a in at least one process step 62a periodically a probe signal. Preferably, the loading unit waits in a further method step 64a to a response signal of the mobile control unit 12a , Receives the charging unit 14a no response signal within a specified time, in particular during the production period, preferably sends it again in the method step 62a another test signal. In particular, the loading unit evaluates 14a the response signal, for example based on the signal strength, in a further method step 66a regarding removal of the mobile control unit 12a from the loading unit 14a out. Preferably, the charging unit starts 14a the charging process 60a when the mobile control unit 12a within a loading area (cf. 4 . 22c . 24c) located. It is also conceivable that the mobile control unit 12a performs a distance evaluation based on the probe signal. In particular, the mobile control unit sends 12a a start signal for the charging process 60a to the charging unit as soon as the mobile charging unit 14a in a loading area (cf. 4 . 22c . 24c) is. Preferably, the start signal is from a current state of charge of the mobile operating unit 12a depending on a threshold, for example.

In the 3 and 4 is ever another embodiment of the invention shown. The following descriptions and the drawings are essentially limited to the differences between the exemplary embodiments, with reference in principle to the same reference components, in particular with respect to components with the same reference numerals, to the drawings and / or the description of the other embodiments, in particular 1 , can be referenced. To distinguish the embodiments of the letter a is the reference numerals of the embodiment in the 1 readjusted. In the embodiments of the 3 and 4 the letter a is replaced by the letters b and c.

3 shows a mobile charging unit 14b with a mobile control unit 12b , Preferably, the loading unit 14b to a coupling to the switching unit, a connecting element 58b on. Preferably, the connecting element 58b designed as a plug connection. Preferably, the control system comprises a common assembly unit for the loading unit 14b and the switching unit, in particular in the form of a backplane with at least one slot for receiving the connecting element 58b , Alternatively, the switching unit has a slot for receiving the connecting element 58b on. Alternatively, the loading unit 14b a receiving element for receiving a connector. The loading unit 14b has a storage unit 16b to a charging of the mobile control unit separate from a power supply 12b on. Alternatively, the loading unit has 14b via a supply line 28b which in the 3 is hinted at. Preferably, a common mounting unit has a storage space for the supply line 28b especially in a rolled up state. Alternatively, the supply line 28b detachable with the loading unit 14b connected.

The 4 shows a flush-mounted module 18c with a charging unit 14c and a switching unit 10c for a control system for an electrified infrastructure of a room. The loading unit 14c has at least two loading areas 22c . 24c to a loading of the mobile control unit 12c especially in different places. Preferably, the switching system has a central switching unit 10c on. Preferably, the loading unit 14c at least for each loading area 22c . 24c a local power transmission unit 38c on. Preferably, the switching unit 10c at least for each loading area 22c . 24c a local communication unit 52c on. Preferably, the mobile control unit 12c at least in every loading area 22c . 24c the switching unit 10c control.

Claims (10)

Control system for an electrified infrastructure of a room, comprising at least one switching unit (10a, 10c) for changing at least one operating parameter of the electrified infrastructure of the room, with at least one mobile operating unit (12a, 12b, 12c) for controlling the switching unit (10a, 10c) and a loading unit (14a, 14b, 14c) for loading the mobile operating unit (12a, 12b, 12c), characterized in that the loading unit (14a, 14b, 14c) in at least one intended operating condition directly with the switching unit (10a, 10c) is coupled. Control system after Claim 1 , characterized in that the loading unit (14a, 14b, 14c) is integrated in the switching unit (10a, 10c). Control system after Claim 1 , characterized in that the loading unit (14a, 14b, 14c) has a memory unit (16b) to a separate from a power supply charging the mobile operating unit (12a, 12b, 12c). Control system according to one of the preceding claims, characterized in that the charging unit (14a, 14b, 14c) and the switching unit (10a, 10c) together form a flush-mounted module (18a, 18c) which is provided for flush-mounting. Control system according to one of the preceding claims, characterized in that the loading unit (14a, 14b, 14c) at least one non-positive fastening unit (20a, 20b, 20c) for at least temporary attachment of the mobile operating unit (12a, 12b, 12c) to the loading unit (14a , 14b, 14c). Control system according to one of the preceding claims, characterized in that the loading unit (14a, 14b, 14c) has at least two loading areas (22c, 24c) for loading the operating unit (12a, 12b, 12c). Control system according to one of the preceding claims, characterized in that the mobile operating unit (12a, 12b, 12c) has a loading element (26a, 26b, 26c) for loading the mobile operating unit (12a, 12b, 12c) via the loading unit (14a, 14b, 14c), which is provided simultaneously for data transmission. Control system according to one of the preceding claims, characterized by an identification unit for detecting a circumstance-specific parameter. Flush-mounted module with a charging unit (14a, 14b, 14c) and a switching unit (10a, 10c) for a control system for an electrified infrastructure of a room, in particular for a control system according to one of the preceding claims. Method for operating a control system of an electrified infrastructure of a room, wherein the control system has at least one switching unit (10a, 10c) for changing at least one operating parameter of the electrified infrastructure of the room and at least one mobile operating unit (12a, 12b, 12c) for controlling the switching unit ( 10a, 10c), characterized in that in at least one method step, the mobile operating unit (12a, 12b, 12c) is loaded when attached to the switching unit (10a, 10c).

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