EP2107539A2 - Wirelessly controllable distribution bar - Google Patents

Abstract

The wirelessly controllable distribution bar (1) has a number of functional units, particularly multiple power outlet bars with multiple power outlets (1a,1b,1c). An integrated transmission and receiving device (3) is provided for a bidirectional radio operation of the individual functional units. A signal transducer (4) is a bidirectional remote control with a status display (18) for displaying the operating condition of each functional unit which is provided with an address for individual control and status request.

Description

The invention relates to a wireless controllable distribution strip, in particular a radio remote controlled power strip with a number (n) of individual sockets.

In sockets, a singular or block-by-block switching of relay units assigned to the individual sockets is known using wired service, such as EIB, Ethernet or USB. It is also conceivable to switch individual relay units by means of infrared (IR) or radio.

So is out of the DE 299 15 524 U1 a remote switching device with a trained as a receiver radio remote switch, wherein a correspondingly formed switching unit can be incorporated into a power strip. For switching the current flow of sockets of a power distribution strip using a radio frequency, it is out of WO 2005/125170 A1 It is known to integrate mobile radio components in a socket and to turn on and / or off the flow of current through a signal emitted by a mobile radio transmitter.

In these solutions, a mechanical switching of the individual relay units is either not possible or only as a complete set by means of a main switch on the unit. The disadvantages of these technologies are, in particular, that the solutions limited to the relay-based switching of loads do not provide a success or failure message with respect to a sent switching command, so that corresponding socket strips or distributors are only limitedly reliable.

The invention is therefore based on the object, a particularly reliable distribution strip, in particular a power strip with a number of individual sockets indicate.

This object is achieved by the features of claim 1. Advantageous embodiments, developments and variants are the subject of the dependent claims.

According to the invention, a distribution strip with a number of functional units and with integrated transmitting and receiving device for bidirectional radio control of the individual functional units by means of a signal transmitter and for indicating the status of the or each functional unit on the signal transmitter is provided. In this case, functional unit is to be understood as meaning, in particular, a combination of a relay (controllable switching relay) and a protective contact socket of a power strip with a plurality of individual sockets. However, a functional unit may also be a dimmer, a sensor or an actuator.

In contrast to radio conversions of unidirectional systems, it is therefore possible to obtain feedback about the status of the relay or about the success of a switching operation. Thus, a current, voltage, energy or power distribution strip is provided with n bidirectionally controllable functional units, wherein expediently a single transmitting and receiving unit is used for all n functional units.

By a transparent design of the radio unit, d. H. the transmitting and receiving unit in which suitably incoming signals are forwarded directly to a downstream drive unit, it is preferably possible to integrate any functional units (relay, dimmer, sensor, actuator) in the distribution or power strip. In this case, the individual functional units suitably have, in addition to the radio-based circuit, the possibility of a separate mechanical selection.

The advantages achieved by the invention are, in particular, that using a bidirectional radio technology, a distribution strip with n wirelessly controllable functional units including status message is provided, the bidirectionality of the n functional units ensures that the signal (remote control) displays the status or the success of a Command acknowledged can be. Status can also be energy measurements for determining, for example, the power or current consumption or a dimming level-ie, a current energy or power consumption, a temperature or a dimming value-of individual functional units, in particular individual socket outlets of the power strip.

In addition, the ease of use is increased by the individual functional units can be manually operated mechanically. The possibility of using various functional units, such. As relays, dimmers, sensors or actuators given. Furthermore, there is the possibility of combining the radio-controlled functional units with one or more non-switchable units for the permanent supply of mains-dependent consumers, such as, for example, Modems or continuous power jacks. Furthermore, a cost-effective and space-saving implementation by using a single radio unit (transmitting and receiving unit) and the allocation of unique addresses within the distribution bar is given, which can also be addressed directly from the outside.

According to the invention, a number of functional units of the distributor power can thus be controlled by means of a bidirectional radio system, in particular in conjunction with a manual mechanical push-button operation.

The invention is based on the idea of providing a radio-operated distribution strip with bidirectional communication and unambiguous addressing of the individual functional units. This provides a transparent implementation of the radio unit, whereby any consumers, preferably relay units, but also dimmers, sensors, actuators, etc. can be controlled. Any causal connection of the individual functional units with one another within the distributor strip, for example the connection of a relay when a sensor unit is triggered, can be established.

By incorporating a state memory, state values of individual functional units can be queried without changing the state. Also, an acoustic, tactile or preferably visual visualization of the status display be realized at the individual status units. In addition, an extension of the remote-controlled functional units can be provided by any number of non-switchable functional units for the uninterrupted supply of connected consumers.

The remote control as a signal generator is a bidirectional, mobile radio remote control for switching the or each individual functional unit with at least one status key to query the current operating state of the functional unit (relay, socket, etc.). The remote control is set up and suitable for querying the current operating state of the functional units of the distributor strip, which are operated or reached with the remote control. As a result, the status can be determined, for. B. whether the controlled relay and thus a connected via the associated socket light source or other consumer is switched on or off.

With regard to an embodiment of the remote control, an extension of the user interface via the possibility of mechanical local operation, preferably by means of a push-button or toggle switch, particularly advantageous. The differentiation of different status states can be done by means of several LEDs (LEDs) or preferably with a multi-color LED.

Fig. 1

schematisch eine Verteilerleiste in Form einer mittels einer bidirektionalen Funkfernbedienung drahtlos steuerbaren Steckdosenleiste mit mehreren Steckdosen,

Fig. 2

schematisch in einem Blockschaltbild die Verteilerleiste mit drei als Schutzkontaktbuchsen realisierten schaltbaren Funktionseinheiten und einer weitere Schutzkontaktbuchse als nicht schaltbare Funktionseinheit, und

Fig. 3

schematisch in einem Blockschaltbild die bidirektionale Fernbedienung als Signalgeber der Verteilerleiste.

Embodiments of the invention will be explained in more detail with reference to a drawing. Show:

Fig. 1

schematically a distribution strip in the form of a means of a bidirectional wireless remote control wirelessly controllable power strip with multiple sockets,

Fig. 2

schematically in a block diagram, the distribution strip with three realized as protective contact switchable functional units and another protective contact socket as a non-switchable functional unit, and

Fig. 3

schematically in a block diagram, the bidirectional remote control as a signal generator of the distribution strip.

Corresponding parts are provided in all figures with the same reference numerals.

Fig. 1 shows a power strip 1 in the embodiment four sockets (sockets) 1a, 1b, 1c, 1d. An integrated into the housing 2 of the socket strip 1 transmitting and receiving device 3 is used to receive control commands B of a signal generator in the form of a bidirectional radio remote control 4 and for sending status signals S as status feedback to the remote control 4. The wireless transmitting and receiving device 3 radio-based, for example using the so-called Z-wave radio bus standard.

The remote control 4 thus also operates by radio, d. H. as a radio signal transmitter and radio receiver. The remote control 4 has a number of keys 10a, 10c, 10b (on, status, off). The button 10a, 10c, 10b of the remote control 4 are assigned, for example, the socket 1 a. Analogously, further keys or key rows 10 (on, status, off) of the remote control 4 are assigned to the further outlets 1 b, 1 c and 1 d, respectively. The keys 10a, 10c, 10b or key rows 10 are designed as printing elements, in particular as pushbuttons or sensor surface.

According to Fig. 2 after touching a sensor surface or pressing a button 10a, 10c, 10b (on, status, off) of the remote control 4 this touch / key press by means of evaluation logic 11 for key request and a command converter 13 of a microprocessor (μC) 12 in the associated command interpreted. For this purpose, the required addresses for the selected group are queried from a storage medium 14. The packet of address and command is encoded by means of a coding / decoding 15 and sent via an antenna 16 of the remote control 4. An incoming packet is transferred to a driver 17 of an associated LED 18 after decoding 15 by means of the command converter 13 and with the aid of the address memory, which knows the group assignment.

To query a status, the remote control 4 is according to Fig. 1 extended by an additional set of function keys, in particular for individual groups. For this purpose, another key or key row 10c for "status" is provided in the middle of the keys or key rows 10a for "on" and 10b for "off". Depending on the actuated button 10 of the respective switching command (status query) is implemented by the microcontroller 12, addressed to the associated devices and transmitted coded for the radio system used. As a status, the result of energy measurements, such as the power or current consumption or a dimming level of individual socket pots of the power strip can be queried.

The diagram shows the use of a group and an associated multicolor LED 18. Additional groups of buttons must be added for other groups. The visualization can be done via this single LED 18 for the complete system.

The circuit required for the implementation of the distribution or power strip 1 is in Fig. 3 shown as a block diagram. Upon receipt of a packet via the antenna 20, this packet containing the address, command, etc. is decoded by means of a coding / decoding 21 of a microprocessor (μC) 22. The associated command is implemented by means of a command converter 23 and forwarded to an (optionally integrated or external) control unit 24 for individual relays 25a, 25b, 25c. The valid after the executed command state is sent back to the signal transmitter (remote control) 4 and stored in a state memory 26. From there, the command can be read in a status query without changing the relay control.

The relay control selects the belonging to the desired functional unit relay 25a, 25b and 25c. As a result, the respective functional unit is supplied with voltage via a common supply line (cable) 27 of the distribution or power strip 1. The respective functional unit are associated with the corresponding socket (socket) 1 a, 1 b or 1 c and the associated relay 25a, 25b and 25c. Simultaneously by means of the command converter 23 and an LED driver 28, the control of the selected functional unit 1 a, 1 b, 1 c associated LED 18 a, 18 b or 18 c with the selected status.

Alternatively, it is possible to control the respective functional unit mechanically by means of push-buttons or sensor surfaces 29a, 29b or 29c belonging to the functional unit. An embodiment according to Fig. 3 Permanently powered functional unit 1 d can supply connected devices independent of radio signals of the remote control 4 with voltage.

Also, the relays 25a, 25b and 25c can be replaced by semiconductor switches (TRIAC, MOSFET) or dimmer functionalities for driving the associated socket 1 a, 1 b or 1 c. It is also possible to replace one or more of the relay 25a, 25b and 25c and the socket 1 a, 1 b, 1 c existing functional units by a sensor or by an actuator. The at least one sensor system is preferably equipment for energy and / or power measurement. The at least one actuator unit is preferably a relay or a control circuit (dimmer).

In the two alternatives, it is advantageous that then the respective functional unit is no longer operated via the relay control, but optionally directly via the command converter 23 or an autonomous control unit.

LIST OF REFERENCE NUMBERS

1

Power strip

2

casing

3

Transmitting / receiving device

4

remote control

10a, b, c

button

11

evaluation logic

12

microprocessor

13

command converter

14

storage medium

15

Encoding / decoding

16

antenna

17

control

18

LED

20

antenna

21

Encoding / decoding

22

microprocessor

23

command converter

24

control unit

25a, b, c

relay

26

state memory

27

Power line / cables

28

LED control

29a, b, c

pressure element

B

command

Claims (8)

Wireless controllable distributor strip (1) with a number of functional units, in particular socket strip with a plurality of sockets (1 a to 1 c), and with an integrated transmitting and receiving device (3) for bidirectional radio control of the individual functional units by means of a signal generator (4) and Status display of the or each functional unit on the signal transmitter (4). Distribution strip (1) according to claim 1,
characterized,
in that the signal generator (4) is a bidirectional remote control with a status display (18) for indicating the operating state of the or each functional unit. Distributor strip (1) according to claim 1 or 2,
characterized,
that each functional unit is assigned an address for individual activation and status inquiry. A distributor strip (1) according to one of claims 1 to 3,
characterized,
that each functional unit is associated with a relay (25a to 25c). Distributor strip (1) according to one of claims 1 to 4,
characterized,
that each functional unit has an associated optical indicator (18a to 18c) and / or a pressure element (29a to 29c). Distributor strip (1) according to one of claims 1 to 5,
characterized,
that the or each functional unit is associated with a sensor. A distributor strip (1) according to one of claims 1 to 6,
characterized,
that the or each functional unit is associated with an actuator unit. A distributor strip (1) according to one of claims 1 to 7,
marked by
a state memory (26) for retrieving a state value (status) of the or each functional unit.

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