Patent Description:
In the past, sophisticated electronic control over complex systems has been limited primarily to industrial applications, and occasionally commercial applications. Such electronic control systems usually required extensive and costly equipment, as well as technically trained operators. However, with the increasing interest in so called Internet of Things (IoT), untrained people in home environments have been increasingly desirous of obtaining a sophisticated wirelessly controllable home automation system for enabling an easy to use control over such home products and systems.

Presently, such a home automation system may comprise a mix of fixed and removable units, connected to a central hub or individually controllable. Lighting is an area, at present, specifically suitable for home automation. For example, luminaries may be controlled to emit light at different levels (dimming), possibly in combination with different colors or different color temperatures.

The mentioned removable units may for example include so called wall plugs that may be removably connectable to an electrical outlet, i.e. the mains. Such wall plugs may for example be arranged in between the electrical outlet and a luminaire for turning on or off the luminaire or for dimming of the same. The end user must however ensure that the correct type of equipment is connected to the wall plug. That is, in case the wall plug is configured to allow dimming of a luminaire, connecting other equipment's such as a fan, a TV set or similar may have unpleasant consequences, possibly destroying the wall plug and/or the connected equipment.

With this in mind, it would be desirable to introduce a novel methodology for assist e.g. home users in general operation of wall plugs, for example adapted for use in relation to the above mentioned home automation system, focusing on a reduction in risk for connecting the "wrong type of equipment" to the discussed wall plugs.

Further attention is drawn to <CIT>, presenting an adaptor device for the connection of an electrical load to a power socket of a distribution network comprises a set of contacts for the connection to the socket, a set of contacts for the connection to a plug of the electrical load and, between the said contacts for the connection to the socket and the said contacts for the connection to a plug, a control circuit to control the power supplied to the said electrical load.

According to an aspect of the invention, the above is at least partly met by a wall plug being removably connectable to an electrical outlet, wherein the wall plug comprises a device body comprising a housing with a front side and a back side, with protruding electrodes for insertion into a wall outlet, with said device body further comprising electrode receiving wells equivalent to a wall outlet, for electrical plug-in of an electrical appliance, detecting means for determining if the electrical appliance is plugged-in to the electrode receiving wells, switching means adapted to control power delivery to the electrical appliance at the electrode receiving wells, interface means, and a control unit connected to the detecting means, the switching means and the interface means, wherein the control unit is adapted to receive, using the detecting means, an indication that the electrical appliance is plugged-in to electrode receiving wells, receive, using the interface means, a first instruction defining if the electrical appliance is dimmable or non-dimmable, setting the switching means to be dimmable or non-dimmable based on the received instruction, setting the switching means to be non-dimmable if receiving an indication from the detecting means that the electrical appliance is unplugged from the electrode receiving wells.

By means of the present disclosure it may be possible to reduce the erroneous connection of a non-dimmable electrical appliance to a dimmer wall plug. That is, before the wall plug is arranged in the "dimmer mode", e.g. a user must (using the interface) indicate that the connected electrical appliance in fact is dimmable. In case the user indicates that the connected electrical appliance is non-dimmable, then the wall plug will function as a general "on-off" device, allowing regular control of the on-off state of the connected electrical appliance.

Within the concept of the present disclosure, it should be understood that the expression "dimmable" or "dimmer" should be interpreted broadly. That is, in line with the present disclosure a dimmable electrical appliance may for example be a luminaire comprising at least one of an incandescent/halogen light source, an LED light source or a fluorescent light source. That said, it may not necessarily be that the same type of dimmer technology may be used in relation to each and all of the listed types of light sources. Accordingly, in some embodiments it may be desirable to allow for the user to also input, using the interface, information relating to the type of electrical appliance connected to the wall plug. In addition, the present disclosure is not necessarily limited to dimming of light sources. That is, also some electrical motors may be "dimmed", i.e. where the speed (rpm) may be controlled. However, it should be understood that "normal" dimmer technology adapted for luminaires not necessarily may be used for speed control of the electric motor.

In addition to the above, by means of the present disclosure it is also possible to ensure that the dimmable/non-dimmable setting is only active as long as the electrical appliance is connected to the wall plug. That is, in case the electrical appliance is disconnected from the wall plug the user must once again provide an indication of the type of the electrical appliance subsequently connected to the wall plug. Thereby, unwanted errors are reduced in case not the same electrical appliance that was disconnected is reconnected.

In a possible embodiment of the present disclosure the detecting means may for example be implemented by means of a sensor adapted to detect when protruding electrodes of electrical appliance are inserted in the electrode receiving wells equivalent of the wall plug. Such a sensor may for example be adapted to detect the protruding electrodes of electrical appliance using mechanical, resistive or magnetic means.

Preferably, the switching means are arranged to comprise a solid state circuit arrangement. The solid state circuit arrangement may in turn comprise a solid state circuit and driver circuitry connected to the solid state circuit, wherein the control unit is adapted to control the driver circuitry to operate in one of a dimming mode and an on-off mode.

In an embodiment of the present disclosure the interface means comprises a user interface for allowing a user to provide the first instruction, for example implemented using a button, possibly provided at the device body of the wall plug.

In a preferred embodiment of the present disclosure, the interface means comprises a communication module arranged within the housing and adapted to communicate wirelessly using a first communications protocol with a first remote electronic device, wherein the first remote electronic device is adapted for providing the first instruction. Accordingly, e.g. the user may operate the first remote electronic device to wirelessly transmit a control signal to the wall plug, where the control signal comprises information indicative of if the electrical appliance is dimmable or non-dimmable. Thus, using a wireless interface it will not be needed to interact with e.g. the control button at the device body, simplifying user operation. However, it should be understood that the wireless communication in some embodiment of the present disclosure may be combined with inclusion of the button. The first communications protocol may for example be one of z-wave, Zigbee, Wi-Fi, Bluetooth and Bluetooth Low Energy. Any further presently or future communication protocols are possible and within the scope of the present disclosure.

In line with the present disclosure, the first remote electronic device may be at least one of a gateway and a user controllable electronic device, the user controllable electronic device being at least one of a mobile phone, a tablet, a desktop and a laptop. Accordingly, e.g. the user must not communicate directly with the wall plug using e.g. hos mobile phone, but the first instruction may for example be relayed from the mobile phone (and possibly processed) by e.g. a gateway to the wall plug.

In an alternative or additional embodiment, the communication module may be adapted to communicate wired or wirelessly using a second communications protocol with the electrical appliance, wherein the electrical appliance is adapted for providing the first instruction. That is, the electrical appliance may "itself' be arranged to communicate with the wall plug, for providing the wall plug with information about if the connected electrical appliance is dimmable or non-dimmable. For example, the electrical appliance connected to the wall plug may provide such information using the available electrical connection (i.e. mains wires) or wirelessly, such as for example using near field communication (NFC) once the electrical appliance is connected and close to the wall plug. Such NFC means of the electrical appliance could possibly be comprised with the electrical "plug" of the electrical appliance, thereby presenting it close to the wall plug.

In addition to the above, it may also and in line with the present disclosure be possible to further adapt the control unit to receive, using the communication module, a second instruction from the first electronic device, the second instruction a dimming level for the electrical appliance. Accordingly, e.g. the user may use his mobile phone or using the gateway (directly or e.g. by means of a predetermined schedule) control the dimming level of the electrical appliance.

Furthermore, in some embodiment of the present disclosure the wall plug may also comprise means for detecting if the wall plug is removed from the electrical outlet or if the electrical outlet is powerless, wherein the control unit if further adapted to maintain the setting of the switching means for a predetermined time period if the wall plug is detected to be removed from the electrical outlet or if the electrical outlet is detected to be powerless Accordingly, by means of such an implementation it is possible to ensure that the setting of the switching means is kept even in case of a short power failure, etc. Thus, in such an embodiment the wall plug may for example comprise energy storage means (such as a battery) for maintaining the setting for the predetermined time period. The predetermined time period may in turn be dependent on the implementation at hand, but may in some embodiments be e.g. at least <NUM> minutes to e.g. <NUM> hours. In case the predetermined time period is expired it is preferred that the switching means to be to be non-dimmable.

The wall plug as discussed above is preferably provided as a component of a wall plug assembly, further comprising an electrical appliance connected to the wall plug, and at least one of a gateway and a user controllable electronic device. As indicated above, the electrical appliance may advantageously comprise a light source.

According to another aspect of the present invention there is provided a method for operating a wall plug, the wall plug comprising a device body comprising a housing with a front side and a back side, with protruding electrodes for insertion into a wall outlet, with said device body further comprising electrode receiving wells equivalent to a wall outlet, for electrical plug-in of an electrical appliance, detecting means for determining if the electrical appliance is plugged-in to the electrode receiving wells, switching means adapted to control power delivery to the electrical appliance at the electrode receiving wells, interface means, and a control unit connected to the detecting means, the switching means and the interface means, wherein the method comprises the steps of receiving, using the detecting means, an indication that the electrical appliance is plugged-in to electrode receiving wells, receiving, using the interface means, an instruction defining if the electrical appliance is dimmable or non-dimmable, setting, using the control unit, the switching means to be dimmable or non-dimmable based on the received instruction, setting, using the control unit, the switching means to be non-dimmable if receiving an indication from the detecting means that the electrical appliance is unplugged from the electrode receiving wells. This aspect of the invention provides similar advantages as discussed above in relation to the previous aspect of the invention.

According to a still further aspect of the present invention there is provided a computer program product comprising a computer program product comprising a non-transitory computer readable medium having stored thereon computer program means for controlling a wall plug, the wall plug comprising a device body comprising a housing with a front side and a back side, with protruding electrodes for insertion into a wall outlet, with said device body further comprising electrode receiving wells equivalent to a wall outlet, for electrical plug-in of an electrical appliance, detecting means for determining if the electrical appliance is plugged-in to the electrode receiving wells, switching means adapted to control power delivery to the electrical appliance at the electrode receiving wells, interface means; and a control unit connected to the detecting means, the switching means and the interface means, wherein the computer program product comprises code for receiving, using the detecting means, an indication that the electrical appliance is plugged-in to electrode receiving wells, code for receiving, using the interface means, an instruction defining if the electrical appliance is dimmable or non-dimmable, code for setting, using the control unit, the switching means to be dimmable or non-dimmable based on the received instruction, code for setting, using the control unit, the switching means to be non-dimmable if receiving an indication from the detecting means that the electrical appliance is unplugged from the electrode receiving wells. Also this aspect of the invention provides similar advantages as discussed above in relation to the previous aspects of the invention.

A software executed by the server for operation in accordance to the invention may be stored on a computer readable medium, being any type of memory device, including one of a removable nonvolatile random access memory, a hard disk drive, a floppy disk, a CD-ROM, a DVD-ROM, a USB memory, an SD memory card, or a similar computer readable medium known in the art.

The skilled addressee realize that different features of the present invention may be combined to create embodiments other than those described in the following, without departing from the scope of the present invention which is defined by the appended claims.

This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for thoroughness and completeness, and fully convey the scope of the invention to the skilled addressee.

Referring now to the drawings and to <FIG> in particular, there is conceptually depicted a wall plug <NUM>. In the illustration provided, the wall plug <NUM> comprises a device body in turn including a housing <NUM> with a front side <NUM> and a back side <NUM>. The wall plug <NUM> additionally comprises protruding electrodes <NUM> for insertion into a wall outlet (as shown in <FIG>). The wall plug <NUM> further comprises electrode receiving wells <NUM> being equivalent to a wall outlet, where the electrode receiving wells <NUM> are adapted for receiving an electrical plug-in of an electrical appliance.

Furthermore, the wall plug <NUM> comprises detecting means for determining if the electrical appliance is plugged-in to the electrode receiving wells <NUM>. In the exemplified embodiment as illustrated in <FIG>, the detecting means is implemented using a micro-switch <NUM> that is arranged to be activated only once the plug-in of the electrical appliance is completely inserted in the electrode receiving wells <NUM>. It should however be understood that other detecting means may be possible, including different mechanical means or sensors implementing magnetic or resistive detection of the plug-in of the electrical appliance.

The wall plug <NUM> also comprises switching means <NUM> adapted to control power delivery to the electrical appliance at the electrode receiving wells. The switching means <NUM> may in some embodiments be arranged at a printed circuit board (PCB) <NUM> arranged inside of the housing <NUM>, where also the micro-switch <NUM> is arranged at the PCB <NUM>. The switching means <NUM> may in some embodiment be implemented solid state circuit and driver circuitry connected to the solid state circuit.

The wall plug <NUM> further comprises an interface means, such as a button <NUM>. However, in the illustrated embodiment the interface means also includes a communication module <NUM> arranged at the PCB <NUM>. The communication module <NUM> is in the illustration presented in <FIG> adapted for wireless communication using a first communications protocol, such as for example one of z-wave, Zigbee, Wi-Fi, Bluetooth and Bluetooth Low Energy. The communication module <NUM> in turn comprises an antenna (not shown) for transmitting/receiving wireless communication signals.

Furthermore, the wall plug <NUM> comprises a control unit <NUM> arranged at the PCB <NUM> and connected to the micro-switch <NUM>, the switching means <NUM> and the interface means <NUM>, <NUM>. With further reference to <FIG>, the control unit <NUM> is in turned programmed or adapted to receive, S <NUM>, using the detecting means, an indication that the electrical appliance is plugged-in to electrode receiving wells <NUM>. The control unit <NUM> is also arranged to receive, S2, using the interface means <NUM>, <NUM>, a first instruction defining if the electrical appliance is dimmable or non-dimmable. That is, a user may for example toggle the button <NUM> as an indication of the electrical appliance is dimmable or non-dimmable, or alternatively or also use a first remote device, as will be further discussed in relation to <FIG>, to provide a corresponding indication wirelessly to the wall plug <NUM>.

Based on an analysis of the indication received from the interface means <NUM>, <NUM>, the control unit <NUM> will set, S3, control the switching means <NUM> to provide a dimming function or a non-dimming function. That is, in case the electrical appliance is non-dimmable then the switching means <NUM> will typically only provide an on-off functionality, i.e. the electrical appliance may only be turned on or off, without any dimming possible. However, in case the switching means <NUM> is arranged to provide the dimming function, then the electrical appliance for example comprising a dimmable light source.

In addition, the control unit <NUM> is also arranged to set, S4, the switching means <NUM> to be non-dimmable if an indication is received from the micro-switch <NUM> that the electrical appliance is unplugged from the electrode receiving wells <NUM>. Accordingly, in case the electrical appliance is unplugged from the electrode receiving wells <NUM> then the wall plug <NUM> will "go back" to its default setting, where the switching means <NUM> are arranged to only provide the on-off functionality as discussed above.

The control unit <NUM> may include a microprocessor, microcontroller, programmable digital signal processor or another programmable device. The control unit <NUM> may also, or instead, each include an application specific integrated circuit, a programmable gate array or programmable array logic, a programmable logic device, or a digital signal processor. Where the control unit <NUM> includes a programmable device such as the microprocessor, microcontroller or programmable digital signal processor mentioned above, the processor may further include computer executable code that controls operation of the programmable device.

Turning now to <FIG> presenting different a wall plug assemblies <NUM>, <NUM> and <NUM> according to the present disclosure. The wall plug assemblies <NUM>, <NUM> and <NUM> are similar but the electrical appliances connected to the respective wall plug assemblies <NUM>, <NUM> and <NUM> are different.

The illustrated wall plug assembly <NUM> as shown in <FIG> comprises the wall plug <NUM>, where the wall plug <NUM> has been inserted in a wall outlet <NUM>. The wall outlet <NUM> may typically provide an alternating voltage at <NUM> - <NUM> volts and a frequency between <NUM> - <NUM>. Other ranges are of course possible and within the scope of the present disclosure.

In <FIG>, an electrical appliance in the form of a dimmable luminaire <NUM> has been electrically connected using an electrical cord <NUM> and an electrical plug <NUM> to the wall plug <NUM>. In line with the discussion provided above, the button <NUM> and/or a gateway <NUM>, a laptop <NUM>, or a mobile phone <NUM> in conjunction with the communication module <NUM> may be used for provide an instruction to the wall plug <NUM> stating if the connected electrical appliance is dimmable or non-dimmable. In the present embodiment as shown in <FIG>, the luminaire <NUM> is dimmable and thus the information provided states that the connected electrical appliance is dimmable.

The gateway <NUM>, the laptop <NUM>, and/or the mobile phone <NUM> may in this case also be arranged to wirelessly transmit a second instruction to the wall plug <NUM>, where the second instruction includes a dimming level, such as <NUM> - <NUM>% emission of light, for the luminaire <NUM>. The second instruction may also include information instructing the luminaire <NUM> to be turned off or completely turned on. The wall plug <NUM> may possibly comprise further manual interface means (not shown) at the housing for adjusting the dimming level for the luminaire <NUM>.

It should be understood that the gateway <NUM> in turn may be connected to a separate network, such as the Internet <NUM>. By means of such an implementation it may for example be possible to control e.g. the dimming level remotely, i.e. outside of the building where the wall plug <NUM> is arranged.

In an alternative embodiment as shown in <FIG>, showing wall plug assembly <NUM>, the electrical appliance connected to the wall plug <NUM> is a television set <NUM>. A TV set is generally not suitable for dimming. Rather, in case the TV <NUM> would be connected to a dimmer it is likely that the dimmer and/or the TV set <NUM> would be finally destroyed. However, in connecting the TV set <NUM> to the wall plug <NUM> e.g. the user will provide an instruction to the wall plug <NUM> that the connected electrical appliance is in fact a non-dimmable electrical appliance. As a result, the wall plug <NUM> may only be used for turning on or off the TV set <NUM>.

In a possible embodiment of the present disclosure it may be possible to adapt a graphical user interface (GUI) of the mobile phone <NUM> to present questions to the user once an electrical appliance has been connected to the wall plug <NUM>. That is, rather relying on if the user knows id the connected electrical appliance is dimmable or non-dimmable, the questions presented to the user using the GUI of the mobile phone <NUM> may be arranged to extract information such that the wall plug <NUM> is set to the correct setting corresponding to the connected electrical appliance. It could also or alternatively be possible to take a photo of the connected electrical appliance using the mobile phone <NUM> and apply image processing technology for determining the type of electrical appliance.

Turning now to <FIG>, presenting a still further example of a wall plug assembly <NUM>. In this case the electrical appliance connected to the wall plug <NUM> is a power strip <NUM>, allowing multiple electrical devices to be powered from a single electrical socket. Since the power strip <NUM> allows for the possibility of "bypassing" the functionality of the wall plug <NUM>, where the switching means <NUM> are set to be non-dimmable if an indication is received from the micro-switch <NUM> is the electrical appliance is unplugged from the electrode receiving wells <NUM>, then it is not suitable to arrange the wall plug <NUM> to allow for dimming to take place.

Specifically, the power strip <NUM> may for example allow for the luminaire <NUM>, the non-dimmable TV set <NUM> and e.g. a non-dimmable fan <NUM> to be simultaneously connected. Thus, there is always a risk that non-dimmable electrical appliances are connected to the wall plug <NUM> through the power strip <NUM>, possibly mixed with dimmable electrical appliances. Thus, in case a power strip <NUM> is connected to the wall plug <NUM> it is suitable to provide an instruction to the wall plug <NUM> to set the wall plug <NUM> to only provide the above discussed on-off functionality.

In summary, the present invention relates to a wall plug being removably connectable to an electrical outlet, wherein the wall plug comprises a device body comprising a housing with a front side and a back side, with protruding electrodes for insertion into a wall outlet, with said device body further comprising electrode receiving wells equivalent to a wall outlet, for electrical plug-in of an electrical appliance, detecting means for determining if the electrical appliance is plugged-in to the electrode receiving wells, switching means adapted to control power delivery to the electrical appliance at the electrode receiving wells, interface means, and a control unit connected to the detecting means, the switching means and the interface means, wherein the control unit is adapted to receive, using the detecting means, an indication that the electrical appliance is plugged-in to electrode receiving wells, receive, using the interface means, a first instruction defining if the electrical appliance is dimmable or non-dimmable, setting the switching means to be dimmable or non-dimmable based on the received instruction, setting the switching means to be non-dimmable if receiving an indication from the detecting means that the electrical appliance is unplugged from the electrode receiving wells.

The control functionality of the present disclosure may be implemented using existing computer processors, or by a special purpose computer processor for an appropriate system, incorporated for this or another purpose, or by a hardwired system. Embodiments within the scope of the present disclosure include program products comprising machine-readable media for carrying or having machine-executable instructions or data structures stored thereon. Such machine-readable media can be any available media that can be accessed by a general purpose or special purpose computer or other machine with a processor By way of example, such machine-readable media can comprise RAM, ROM, EPROM, EEPROM, CD-ROM or other optical disk storage, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to carry or store desired program code in the form of machine-executable instructions or data structures and which can be accessed by a general purpose or special purpose computer or other machine with a processor. When information is transferred or provided over a network or another communications connection (either hardwired, wireless, or a combination of hardwired or wireless) to a machine, the machine properly views the connection as a machine-readable medium. Thus, any such connection is properly termed a machine-readable medium. Combinations of the above are also included within the scope of machine-readable media. Machine-executable instructions include, for example, instructions and data which cause a general purpose computer, special purpose computer, or special purpose processing machines to perform a certain function or group of functions.

Although the figures may show a sequence the order of the steps may differ from what is depicted. Also two or more steps may be performed concurrently or with partial concurrence. Such variation will depend on the software and hardware systems chosen and on designer choice. All such variations are within the scope of the disclosure. Likewise, software implementations could be accomplished with standard programming techniques with rule based logic and other logic to accomplish the various connection steps, processing steps, comparison steps and decision steps. Additionally, even though the present disclosure has been described with reference to specific exemplifying embodiments thereof, many different alterations, modifications and the like will become apparent for those skilled in the art.

Claim 1:
A wall plug (<NUM>) being removably connectable to an electrical outlet, wherein the wall plug comprises:
- a device body comprising a housing (<NUM>) with a front side (<NUM>) and a back side (<NUM>), with protruding electrodes (<NUM>) for insertion into a wall outlet (<NUM>), with said device body further comprising electrode receiving wells (<NUM>) equivalent to the wall outlet, for electrical plug-in of an electrical appliance (<NUM>, <NUM>, <NUM>);
- switching means (<NUM>) adapted to control power delivery to the electrical appliance at the electrode receiving wells;
- interface means (<NUM>); and
- a control unit (<NUM>) connected to the switching means and the interface means, characterized in that the wall plug further comprises detecting means (<NUM>) connected to the control unit and adapted for determining if the electrical appliance is plugged-in to the electrode receiving wells, and that the control unit is adapted to:
- receive, using the detecting means, an indication that the electrical appliance is plugged-in to electrode receiving wells;
- receive, using the interface means, a first instruction defining if the electrical appliance is dimmable or non-dimmable;
- setting the switching means to be dimmable or non-dimmable based on the received instruction; and
- setting the switching means to be non-dimmable if receiving an indication from the detecting means that the electrical appliance is unplugged from the electrode receiving wells.