The invention is directed to a personal care system configured to allow an addition of a sensor functionality, a method for adding a sensor functionality to the system, and a computer program.
US 2019/001503 A1 discloses systems configured to couple with and identify encoded end effectors. Personal care appliances typically use end effectors to produce a desired effect on a portion of a body of a user. Examples of such appliances include power skin brushes, power toothbrushes, and shavers, among others.
US 2017/095070 A1 discloses a computerized makeup brush includes one or more sensors (e.g., pressure sensors, gyroscopes, accelerometers, etc.) within or on the motorized handle (e.g. can be eternally coupled to the motorized handle) and/or one or more of the replaceable brush heads that communicate with the makeup brush’s on-board computer system and/or an external computing device.
US 2002/129454 A1 discloses a handle section of an electric toothbrushing device, with a coupling section for coupling various cleaning tools thereto, a drive mechanism for driving the coupled cleaning tool, and a control device for controlling the drive mechanism. The handle section includes an electronic interlock device which is deactivated by an encoded interlock canceling element on the cleaning tool only when the cleaning tool is coupled to the handle section.
WO 2012/087595 A2 discloses a reconfigurable sensor front-end includes a logic block having a storage circuit to store hardware description information and a reconfigurable block including a plurality of circuits. The circuits are to be set in a first configuration based on the hardware description information and are to be set in a second configuration when the hardware description information changes. The first hardware description information corresponds to a first sensor and the changed hardware description information corresponding to a second sensor.
In the field of personal care devices, interconnected devices become more and more important. However, these connected ecosystems are often difficult to handle for a user of the personal care system without specific knowledge.
The inventors of the present invention have identified several useful situations where an extra sensor functionality can be provided in a toothbrush without changing the hardware of the brush. However, this might require a software update. They have also identified that it is currently impossible for consumers to do such an update and personalize and/or customize e.g. their brushing and flossing experience by using a toothbrush user interface (UI). Similar needs may arise in other personal care fields, for e.g. skin care, hair care, in which fields too sensors are increasingly important. The inventors thus identified the need for an improved personal care system.
With embodiments of the invention, an improved personal care system is provided, which is configured to allow an addition of a sensor functionality to the system.
The present invention is defined by the independent claims. Further embodiment and advantages of the present invention are incorporated in the dependent claims and the description.
Technical terms are used hereinafter in their common sense. If a specific meaning is conveyed to certain terms, a definition of terms will be given in the following in which the terms are used.
According to a first aspect of the invention, a personal care system is configured to allow an addition of a sensor functionality to the system. The system comprises a data reader for receiving a code. Furthermore, the system comprises a programmable controller. Moreover, the system is configured for triggering a software reconfiguration of a software associated with at least one hardware component of the system based on the code received by the data reader. In addition, the programmable controller is configured for changing a control of the hardware component of the system based on the triggered software reconfiguration. Moreover, the change of the control of the hardware component of the system causes an addition of a sensor functionality to the hardware component of the system.
The personal care system is for performing a personal care function or procedure. In other words, it comprises means for performing a personal care function or procedure, for example a mechanism or subsystem for performing a personal care function or procedure.
The advantage of this aspect is that with the system an additional sensor functionality can be added to the system or a hardware component of the system and thereby, the personal care procedure performed by the system can be improved which can lead to an improved personalized user experience, an increase of usability for a user of the system, and enhanced user engagement to the device. It should be noted that the present invention could enable a variety of business models and business schemes, which may generate additional revenue for producers of systems. This benefit of the present invention will be elucidated in the context of exemplary embodiments in the following disclosure.
Embodiments of the present invention relate to a personal care system having means for adapting a manner in which a hardware component of the system is controlled in order to derive new or different sensing information based on an output of the hardware component. In particular, this is achieved through the following main features:
The hardware component may or may not have previously provided an output to the programmable controller. In cases where it did previously provide an output, the software reconfiguration may trigger a change to a processing or analysis performed upon the output by the controller to thereby derive further measurement or sensing information not obtained previously.
The added sensor functionality means that the programmable controller obtains new sensing or measurement information. This could be based on changing the way an output from the hardware component is processed, to thereby obtain new information. It may be based on repurposing an actuator to act as a sensor, to thereby obtain a signal or data output from the hardware component, where previously only an input was provided to the hardware component. It may be based on activating sensing functionality of a previously dormant sensing component to thereby obtain an output. The output in each case carries or comprises sensing/measurement data or information. This may be sensing data pertaining to a functional operation performed by the personal care system, e.g. an operating parameter, or may pertain to an environment around the sensing system, e.g. an environment with which the personal care system interacts.
In some embodiments, the software reconfiguration may comprise an update of the software associated with the hardware component (i.e. update of the currently installed software), an extension of the software associated with the hardware component, and/or a replacement of the software associated with the hardware component.
In some embodiments, the programmable controller may comprise a processor and/or a storing unit for executing the software. The software reconfiguration may comprise a reconfiguration of software stored and/or executed by the programmable controller.
In some embodiments, the software may comprise computer program code stored on a memory with which the programmable controller is communicatively coupled, and wherein the code is configured to cause a processor of the programmable controller to perform control of the hardware component. The software update may comprise a change to the computer program code to thereby change the control of the hardware component.
In some embodiments, the at least one hardware component may be adapted to generate an output (e.g. a signal output or data output). The programmable controller is arranged to receive the output. The software may be executed by the programmable controller to cause the controller to perform analysis of the output. The software reconfiguration may change or alter or adapt the analysis performed upon the generated output to thereby obtain additional sensing or measurement information.
In some embodiments, the personal care system may comprise one or more actuators. The programmable controller may be linked to the one or more actuators.
In some embodiments, the software reconfiguration may adapt a performance of the one or more actuators of the personal care system to thereby add a sensor functionality.
In some embodiments, the hardware component may comprise one or more actuators.
Many different sensor functionalities and many different hardware components can be used for implementing the present invention as will be explained in more detail. A detailed non-limiting example is elucidated now.
For example, the personal care system may be an oral care system that comprises a flossing unit for flossing teeth and a sensor unit in a flossing conduit of the handle for measuring the pressure of the flossing fluid. Moreover, by adding the sensor functionality of measuring also the parameter of the flow of the flossing fluid by this sensor of the oral care system, an interproximal space between two teeth can be identified. The identified interproximal space can be used by the programmable controller of the oral care system for adapting the flossing procedure in a way that the flossing is directed more to the interdental space of the teeth and less to gum tissue of the user of the oral care system, thereby increasing the desired effectiveness of the device and usability.
It must be noted that there are at least three general embodiments how this caused addition of a sensor functionality can be embodied, as will become apparent form the following disclosure. In a first general embodiment, a sensor is already present in the system, but is not used before the reconfiguration as described herein. Thus, this sensor is activated in this embodiment. The simplest example is probably a passive responsive material based element (in e.g. a mouthpiece or a brush head) that is wired (but not used before the software update) and then activated and repurposed to a sensor, e.g. to perform brushing pressure/force measurements. In a second general embodiment, the caused addition of a sensor functionality is a transformation of existing hardware of the system into a sensor. For example, when one thinks about what kind of hardware would allow the addition of a sensor functionality, e.g. a piezo, an electroactive polymer, or a responsive material in general could be used. As is understood by the skilled reader a piezo, an electroactive polymer, or a responsive material can be driven, but can also be read out as a sensor. In other words, in this embodiment an actuator is now also used as a sensor due to the software reconfiguration. In a third general embodiment said caused addition of a sensor functionality is the addition of a second sensor functionality/mode to an existing sensor of the system. This will be described in more detail hereinafter.
As was described before, the change of the control of the hardware component of the system causes an addition of a sensor functionality to the hardware component of the system. In general, the additional sensor functionality can be used for enabling further data analysis on already generated data and/or on newly generated data that are produced by means of this new sensor functionality.
The system of the present invention can be configured to allow, trigger and/or initiate the addition of a sensor functionality of the system. An addition of the sensor functionality can be understood as an extension of one or more sensor functionalities of an already existing sensor and/or as an addition of a sensor functionality to one or more hardware components of the system, which had not a sensor functionality before. Moreover, the addition of a sensor functionality can be a change and/or widening of the measurement range of a sensor. The addition of one or more sensor functionalities to hardware components of the system will be explained in more detail hereinafter. The sensor functionality can be described in this context as the capability to monitor and/or supervise a (device) function, e.g. a flossing function of an oral care system by generating measuring data of said function. In addition, the sensor functionality shall be understood to comprise the capability of measuring a physiological condition, e.g. an inflamed or perfused gum, in the oral cavity and/or of a tooth of the user. Furthermore, the sensor functionality added by the present invention can be embodied as a measurement of a physical parameter associated with the oral cavity, a tooth and/or with the fluid mechanics of the oral care system, e.g. a fluid pressure in the jetting tube, of the oral care system. A physical parameter may be also associated with a spatial relation of a mouthpiece and a tooth, e.g. an angle between a cleaning element of the oral care system and a tooth of the user.
In the context of the present invention, the term “mouthpiece” shall be understood as a device that receives at least a part of or an entire dental arch. Moreover, the “support unit” of a mouthpiece is the reusable part of the mouthpiece typically comprising the drive mechanism. Unless the mouthpiece is to be replaced completely upon wear-out, the reusable part is to be coupled to a replaceable cleaning part, e.g. comprising bristles. Thus, a reusable mouthpiece is configured for being coupled to a replaceable cleaning part, e.g. comprising bristles. The “support unit” of a handheld oral care system is understood herein as a handle.
In the context of the present invention, the hardware component can be any element, which is capable of measuring a parameter associated with the personal care procedure performed by the personal care system and/or with the system. The hardware component can be especially a sensor device, a mechanical and/or fluid actuator and/or any component of a drive train for the system. In the embodiment explained herein before in detail, the oral care system comprises a flossing unit for flossing teeth and a sensor unit in a flossing conduit of the handle for measuring the fluid pressure or (flow rate) of the flossing fluid. By adding the sensor functionality of measuring also the parameter of the flow of the flossing fluid by this sensor of the oral care system, an interproximal space between two teeth can be identified or an occlusal surface (biting surface) if the characteristic pressure or flow signature does not change over a typical distance representative for the width of a tooth.
The data reader used in the context of the present invention shall be understood as an element, which is configured for reading out the code. The data reader can be specifically adapted for the code. In the case, the code is e.g. a QR-tag, the data reader can be embodied as a camera, which can scan the QR-tag. In a further example, the data reader can be an RFID reader, wherein this type of exemplary data reader can read out codes, which are stored on RFID transponders. Herein, RFID stands for radiofrequency identification. Many more implementations of the data reader are of course possible (e.g. bar code, scratch code on the packaging of the system or components thereof), without departing from the present invention.
The code shall be understood in the context of the present invention as a label or any other form of physical element, which stores or provides information for adding a sensor functionality to the system. In one exemplary embodiment a data storage located inside of a replaceable hardware component of the system can store or provide the code. In this embodiment the code comprises instructions and/or a certificate for adding a sensor functionality to the system.
In a further example, the code can comprise only a link to the instructions for adding a sensor functionality. In an example, the system comprises a smartphone besides a handle and a brushing head of an oral care, skin care or hair care system. The smartphone can be configured for receiving the code via Bluetooth, wherein the code comprises the instruction to download the information for adding a sensor functionality to the system from the internet or a web server onto the smartphone. The smartphone can then transfer the information for adding a sensor functionality to the programmable controller, which triggers the software reconfiguration based on the received information.
As mentioned before, the system comprises a programmable controller. The programmable controller may comprise a processor and/or a storing unit for executing the software and/or the software reconfiguration as described herein. The programmable controller can be linked to several actuators of the system, e.g. a mechanical or a fluid actuator. By linking the programmable controller to the several actuators, the programmable controller can be capable of adapting a performance of the actuators of the system. The adaption of the performance of the actuators can be based on data generated by the additional sensor functionality of the system. This will be explained in more detail in view of
Furthermore, the system is configured, based on the code received by the data reader, for triggering, starting and/or initiating a software reconfiguration, of a software associated with and/or running on at least one hardware component of the system. The software reconfiguration can be an update of the software associated with the hardware component, an extension of the software associated with the hardware component, and/or a replacement of the software associated with the hardware component. The term “associated” may be understood in the context of the present invention as storing the software on the hardware component or as storing the software on a remote computer data storage and establishing a connection between the remote computer data storage and the hardware component for controlling the hardware component of the system.
As mentioned before, the programmable controller is configured for changing, adapting and/or altering a control of the hardware component of the system based on the triggered software reconfiguration. The change of the control of the hardware component can be an activation and/or deactivation of a sensor functionality of the hardware component, an adaption of a parameter of the hardware component, e.g. an adaption of a flossing rate or cycle, and/or a change of a processing scheme of the hardware component, e.g. a switch from a brushing procedure to a flossing procedure.
Moreover, the change of the control of the hardware component of the system causes, generates and/or implies an addition of a sensor functionality to said hardware component of the system. The addition of the sensor functionality can be an unlocking of a sensor functionality, which was inactivated before and is activated due to the addition of the sensor functionality, what will be described in more detail herein after. The addition of the sensor functionality can be understood as a provision of a sensor functionality to a hardware component, which had not a sensor functionality before. This will be explained in more detail hereinafter.
In another concrete example, a user of the system buys a replacement brush head for the system. The replacement brush head comprises the code, e.g. a RFID transponder. The user can then attach the replacement brush head to the system. The data reader can read out the code contained in the replacement brush head. The code can be also located on a covering box of the replacement brush head.
In another example, the code comprises information, which triggers the system to establish a connection to an online database, which stores all information necessary for triggering and performing the software reconfiguration. Based on the received code and/or the downloaded information indicative for the code, the programmable controller triggers a software reconfiguration, e.g. a software update of the currently installed software, which is used to operate the system and/or a hardware component of the system, e.g. a fluid actuator. The software reconfiguration changes the control of the hardware component of the system or the system and thereby adds a sensor functionality to the system, for example, a further sensor function, e.g. measuring the flossing pressure, to the hardware component of the system.
It must be noted that in the context of the present invention the term “online database” shall be understood broadly and comprises an internet database. Alternatively, the term “online database” comprises a database stored in an accessory of the system, e.g. smartphone app to which a component of the system, like e.g. the handle connects. Said smartphone app then comprises the database. This is explicitly comprised when an “online database” is described in the context of the present invention.
Further examples of the addition of the sensor functionality are further explained in the context of exemplary embodiments hereinafter and in the context of
According to a further embodiment, the addition of the sensor functionality to the hardware component is an implementation of a sensor functionality that is added to an already existing sensor functionality of the hardware component of the system.
For example, this may mean that the hardware component generates an output (e.g. signal output or data output), and that: in advance of the software reconfiguration, the programmable controller is arranged to receive the output and adapted to derive a first set of sensing or measurement information based on the output; and after the software reconfiguration, the hardware component is adapted to receive the output from the hardware component, and is adapted to derive a second set of sensing or measurement information based on the output, the second set being different to the first set, but including the first set as a subset.
This embodiment can have the advantage that by adding a further sensor functionality to an already existing sensor functionality, the efficiency and cleaning result of the personal care procedure performed by the personal care system can be further improved.
Moreover, the addition of the sensor functionality to the hardware component shall be understood in the context of the present invention as an implementation of a sensor functionality that is added, enlarged and/or built up in addition to an already existing sensor functionality. An already existing sensor functionality shall be understood in this context as a sensor function, which already existed before the software reconfiguration of the hardware component of the personal care system has been performed. The added further sensor functionality can be a measurement of flow and/or pressure in a conduit of a flossing unit and/or a measurement of electrical resistance between electrodes, thereby identifying an occlusal surface of a tooth and of course, many further sensors without departing from the present invention.
A further example of adding a sensor functionality to an already existing sensor functionality can be that an already existing sensor measures a first parameter, e.g. a flow of a flossing fluid, of an oral care system and by adding a further sensor functionality to said sensor, a second measurement parameter, e.g. a pressure of the flossing fluid, can be measured with the help of the sensor.
According to a further embodiment, the hardware component of the system is a component without a sensor functionality before the software reconfiguration. Thus, the hardware component becomes a sensor due to the software reconfiguration.
For example, before the software reconfiguration, the hardware component is adapted to receive a data input, e.g. a control input, for controlling a functionality of the hardware component. This may be received from the programmable controller. After the software reconfiguration, the programmable controller is adapted to derive an output from the hardware controller. This may be based on detecting a signal parameter or electrical parameter of the control input in some examples. In further examples, it may be based on receiving a new signal or data output from the hardware component.
The advantage of this embodiment can be that by adding a sensor functionality to a component, which was not a sensor before the software reconfiguration, the overall functionality and usability of the system can be improved. This is achieved by acquiring more data about the personal care procedure performed by the system with the help of the added sensor functionality in order to improve the usability of the system. In addition, the number of components in the system can be reduced since not an additional element has to be provided, which consumes building space and additional resources, but an already existing hardware component can be used and/or recycled for measuring a parameter, e.g. a pressure of a flossing fluid.
As mentioned before, the hardware component of the system is in this embodiment a component and/or a part without a sensor functionality before the software reconfiguration. In other words, the hardware component has no sensor functionality and/or is not capable to measure parameters of the system before the software reconfiguration. After the programmable controller triggers the software reconfiguration and e.g. a software of the hardware component is updated, the hardware component becomes, turns into and/or converts into a sensor due to the software reconfiguration. The term “becomes” means in this embodiment that the hardware component is able to measure a parameter of the system after and/or due to the software reconfiguration triggered by the programmable controller. In addition, the hardware component may become a sensor due to the software reconfiguration and based on the added sensor functionality, as was described hereinbefore. The simplest example is probably a passive responsive material based element (in a mouthpiece or brush head) that is wired (but not used before software update) and then activated and repurposed to a sensor, e.g. to perform brushing pressure/force measurements.
For example, the system comprises a handle and a brush head attachable to the handle. The handle comprises an electric motor with a corresponding control device. The hardware component in this example is the corresponding control device. The control device is configured before the software reconfiguration of the programmable controller for switching the electric motor on and off based on a received signal. After the software reconfiguration, the hardware component, in this example the control device, is configured for measuring the revolutions per minute of the electric motor as well. The hardware component may be capable of transferring the measured revolutions per minute of the electric motor to the programmable controller for improving the personal care procedure performed by the system. In other words, the electric motor and the control device were not a sensor before the software reconfiguration and now, after the software reconfiguration, can be seen as and/or are treated as a sensor.
According to an embodiment, the addition of the sensor functionality to the hardware component is an extension of at least one sensor functionality, in particular an increase of a measuring accuracy and/or of a measuring range, of the hardware component of the system.
The advantage of this embodiment can be that with the help of the extension of the at least one sensor functionality, the cleaning effect of the system can be further improved since more measurement points indicative for the performance of the personal care procedure performed by the system may be available.
As mentioned before, the addition of the sensor functionality to the hardware component is an extension, unlocking and/or initiating of at least one sensor functionality, in particular an increase of a measuring accuracy and/or of a measuring range. Measuring accuracy can mean in this context that the data points per time unit of the sensing, i.e. the measurement, carried out by the hardware component of the system are increased. Alternatively, just a higher time resolution (sample rate) is achieved. The extension of the sensor functionality due to the addition of the sensor functionality can result in an improved detecting rate, since more parameters can be monitored by the system in order to improve the personal care procedure performed by the system. It should be noted that a measuring range can be in this context that an upper limit and/or a lower limit of the measurement range, e.g. 8 bit = 10 V versus 8 bit = 1 V, i.e. a higher sensor resolution (sensitivity) can be raised respectively lowered, thereby allowing one to optimize the sensor resolution or measurement sensitivity required for a specific application or user of the system.
According to an embodiment, the software reconfiguration is configured for triggering an addition of a further type of data analysis, which is performed on data generated by the hardware component of the system with the added sensor functionality.
The advantage of this embodiment can be that by triggering the further data analysis, the generated data can be evaluated more precisely. For example, the further type of data analysis can be an identification of peaks in a measured flow rate of a flossing unit. With the help of the identified peaks, an interproximal space between two teeth can be detected. As outlined above the more reliable detection of interdental space can improve the oral care procedure performed by the oral care system. In particular, the programmable controller can perform the further data analysis of the data generated with the added sensor functionality.
Moreover, the software reconfiguration is configured for triggering and/or starting an addition/ an extension of a further type of data analysis. It is understood in the context of the present invention that the data analysis can be an evaluation of measured data by the added sensor functionality, a sorting of measured data by the added sensor functionality, and/or a transformation of measured data by the added sensor functionality. The data analysis may be performed by the programmable controller, a handheld device, e.g. a smartphone, which may be interconnected to the system. The data analysis may be performed and/or executed on data sets or data elements, which were generated by the added sensor functionality of the hardware component of the system.
According to an embodiment, the personal care system is an oral care system that comprises a brush head or a flossing unit and a corresponding support unit, like e.g. a handle for receiving said brush head and/or flossing unit. The code is stored in the brush head or the flossing unit and all software needed to carry out the software reconfiguration is already stored in the support unit, i.e. the handle. Thus, when the brush head/flossing unit is connected to the handle, the code is transmitted to the handle and the software reconfiguration is started without the need for any further internet/data access or the like. The only thing needed for the handle to do the software reconfiguration is the code from the brush head/flossing unit. The latter can be easily purchased by the user depending on which sensor functionality he wishes to apply.
The advantage of this embodiment can be that the code can comprise all information necessary for the software reconfiguration, thereby, forming a self-sufficient object or system, which does not need to download further information, thereby increasing the usability of the system.
However, the code comprises all information and/or data elements necessary, which comprise or define the information relevant to the software reconfiguration for the system for triggering/starting the software reconfiguration.
In a non-limiting example, the code comprises only one data element, which instructs the programmable controller to trigger the software reconfiguration based on the data element, which results in an activation of a provided and so far inactive sensor functionality of the system.
According to an embodiment of the invention, the code comprises a pointer element, e.g. a link. Furthermore, the system is configured for reading out the pointer element. In addition, the system is configured for downloading at least one data element from an online database based on the read-out pointer element. Moreover, the system is configured for triggering the software reconfiguration based on the downloaded data element.
The advantage of this embodiment can be that the code comprises only the minimum amount of information necessary to trigger a downloading of the information necessary for the reconfiguration, thereby, the information can be held up to date on an online database for all systems leading to a reduction of maintenance work for the software reconfiguration.
Moreover, the code comprises and/or a contains a pointer element, e.g. a link and/or a hyperlink. It should be understood that in the context of this embodiment the code can be any element which is able to store or provide a pointer element and therefore the term “code” is understood broadly.
Furthermore, the system is configured for reading out and/or receiving the pointer element. Moreover, the system is configured for downloading and/or receiving at least one data element, respectively, an element containing information regarding the software reconfiguration from an online database, for example, a cloud computing storage based on the read-out pointer element. Furthermore, the system is configured for triggering, starting and/or initiating the software reconfiguration based on the downloaded data element and/or in combination with the downloaded data element.
For example, a user of the system, which comprises in this example a handle and a smartphone, can buy a replaceable brushing head for the handle, which contains a code comprising a pointer element, e.g. a hyperlink. The user can then use the smartphone to read out the code. The smartphone receives the pointer element by reading out the code, which can trigger a download of the information necessary for the software reconfiguration of the hardware component of the system from a web server or a cloud server onto the smartphone. The smartphone can then transfer the downloaded information to the programmable controller and subsequently the programmable controller triggers the software reconfiguration for adding the sensor functionality to the system or the hardware component of the system. This will be explained in more detail in view of
A further aspect of the invention is a support unit for a personal care system. The support unit comprises a data reader for receiving a code. In addition, the support unit comprises a programmable controller. The support unit is configured for triggering a software reconfiguration of a software associated with at least one hardware component of the support unit based on the code received by the data reader. Moreover, the programmable controller is configured for changing a control of the hardware component of the support unit based on the triggered software reconfiguration. In addition, the change of the control of the hardware component of the support unit causes an addition of a sensor functionality of the hardware component of the support unit.
For example, in the context of this disclosure, ‘support unit’ may be understood to mean a base unit adapted to releasably couple to an attachment, wherein the support unit comprises: the data reader, the programmable controller, and the software. The attachment may for example be a replaceable functional unit, for example a brush head or flossing unit or replaceable portion of a mouthpiece device.
In an example, the support unit can be embodied as a handle for receiving a toothbrush and/or a flossing unit, or can be embodied as a mouthpiece.
The advantage of this aspect is that a sensor functionality can be added, as has been described hereinbefore or will be described hereinafter, to the support unit or a hardware component of the support unit with limited extra hassle or effort for the user. The sensor function can be added to the support unit by only reading out the code. Therefore, the usability for the user of the support unit can be improved. In addition, the added sensor functionality can be used to further improve a personal care procedure based on the additional data, which can be generated by the additional sensor functionality. Thereby the usability of the support unit for a user may be improved. Moreover, the addition of further sensor functionalities to the support unit may enable further types of personal care procedures since it may be possible to acquire more sensor data with the additional sensor functionality, e.g. position-based personal care procedures. This can enable a variety of business models and business schemes, which may generate additional revenue for producers of personal care systems. For example, different types of re-attachable cleaning units or care elements such as a brush head can be sold by the producers of personal care systems, each type of brush head comprising a different code, indicative for a different sensor functionality to be added to the support unit.
According to an embodiment, the support unit is embodied as:
The advantage of this embodiment can be that the support unit can be used for oral cleaning procedure, thereby, with the help of the added sensor functionality, the usability and ergonomics of the support unit can be further improved, as outlined before.
As was explained before, the “support unit” of a mouthpiece is the reusable part of the mouthpiece typically comprising the drive mechanism. Unless the mouthpiece is to be replaced completely upon wear-out, the reusable part is to be coupled to a replaceable cleaning part, e.g. comprising bristles. Thus, a reusable mouthpiece is configured for being coupled to a replaceable cleaning part, e.g. comprising bristles. The “support unit” of a handheld oral care system is understood herein as a handle.
Moreover, the support unit is embodied, comprises and/or consists of a handle for a toothbrush/brush head and/or a flossing unit. The handle may comprise a power train and a power supply for tooth brushing and tooth flossing, e.g. an electric motor, a battery and/or a fluid reservoir and actuator.
According to an embodiment, a surface of the support unit comprises the code.
This embodiment has the advantage that a user of the support unit can easily recognize which type of code is associated with said support unit based on the code located on the surface of the support unit, e.g. the outer surface of the support unit, which faces to the user and hence can be read out by e.g. a QR code reader without dismantling the support unit.
Moreover, the code or an element indicative for the code is located on a surface, in particular an outer surface, of the support unit such that the data reader can read out the code and/or the user of the support unit can identify the type of support unit. The code can be in this context e.g. a bar code, a QR code, a color code and/or any other form of code suitable for said purpose.
For example, when the user of the support unit is about to select a brush head, which comprises the code, the user can, in this example, pick a brush head from a variety of different types of brush head. Each type of brush head may have a different color code on the outer surface of the brush head, wherein each color code is indicative for the sensor functionality, which is added to the support unit. Therefore, the user easily identifies which brush head he has to pick in order to add a specific sensor functionality to the support unit based on the color code on the outer surface of the support unit.
According to an embodiment, the support unit is accommodated in a covering box. The covering box comprises a marker element indicative for the type of sensor functionality, which is added to the support unit.
This embodiment may have the advantage that a user of the support unit can easily recognize based on the marker element located on the covering box, which sensor functionality is added to the support unit.
For example, the support unit, e.g. a brush head comprising the code, is located in a covering box when the support unit is still in a store. The user can then select the type of brush head he wants to buy based on the marker element on the covering box. The marker element on the covering box may indicative for the type of code that is comprised in the brush head located inside of the covering box. The marker element can be a color code, text or any other form of indicator, which is suitable for that purpose.
A further aspect of the invention is a method for adding a sensor functionality to a personal care system. The method comprises the steps of:
The advantage of this aspect is that a sensor functionality can be added to the system or a hardware component of the system by performing said steps of the method. This may increase the usability and functionality of the system for the user. In particular, additional data can be generated with the help of the added sensor functionality, which may be used for improving a personal care procedure. For example, with the additional data generated by the added sensor functionality an occlusal surface of teeth can be detected, and a flossing procedure can be improved based on the detected occlusal surface by adapting the amount of flossing fluid emitted. This can enable a variety of business models and business schemes, which may generate additional revenue for producers of personal care systems.
The method may be carried out by the system, a support unit, a handheld device, e.g. a smartphone, which may be interconnected with a personal care system and/or a support unit, as described before and hereinafter.
According to an embodiment, the method further comprises the step of
The advantage for this embodiment can be that by adding the additional sensor functionality to the hardware component, which already comprises a sensor functionality, the data generated by the already existing sensor functionality can be double-checked with the added sensor functionality and therefore the effectiveness of the personal care procedure performed by the system can be improved.
Moreover, the system comprises a hardware component, which has at least one sensor functionality and/or the capability to measure a parameter relevant for the personal care procedure, wherein a further sensor or additional sensor functionality can be added to said hardware component.
For example, the hardware component is a sensor for measuring pressure of a flossing fluid. By adding the additional sensor functionality to the hardware component not only the pressure of the flossing fluid but also the flow of the flossing fluid can be measured. Further examples of adding a sensor functionality to a hardware component, which already comprises a sensor functionality before the software reconfiguration are described before and hereinafter.
According to an embodiment, the method further comprises the step of:
The advantage of said embodiment can be that a total number of components in a personal care system and/or a support unit can be reduced, since the functionality of hardware components can be extended and therefore no further hardware component needs to be integrated into the system or the support unit for adding a sensor functionality.
Moreover, the system comprises a hardware component, which does not comprise a sensor functionality and/or has not the capability to generate data about a parameter of the system and/or the support unit before the software reconfiguration. After the software reconfiguration based on the received code, a sensor functionality of said hardware component of the system is unlocked and/or activated and, thereby, further measurement values, e.g. revolutions per minute of an electric motor as described before, can be acquired for improving the personal care procedure.
According to an embodiment, the method further comprises the step of:
The advantage of said embodiment can be that an additional result, e.g. the detection of occlusal surfaces, can be extracted from the data generated by the added sensor functionality with the further type of data analysis. With the help of the additional result, the personal care procedure can be further improved and the usability for the user can be increased.
Moreover, the software reconfiguration triggers and/or initiates an adaption and/or extension of the performance of the data analysis, which is run and/or performed on data generated by at least one hardware component of the system with the added sensor functionality.
For example, the added sensor functionality is a measurement of a flow of the flossing fluid in the conduit of an oral care system. The further type of data analysis may identify peaks in the flow of the flossing fluid over time and can detect interdental spaces based on the identified peaks. With the help of the detected interdental spaces, the flossing procedure can be adapted to be more gum friendly for example.
According to an embodiment, the method further comprises the steps of:
The advantage of said embodiment can be that the maintenance for the updating of software reconfiguration data can be reduced since all information relevant is stored in the online database and thereby, only one software package has to be adapted.
Moreover, the code comprises a link which directs the system towards an online database from which at least one data element can be downloaded, as described before and hereinafter. The system can perform the software reconfiguration based on the downloaded data element.
A further aspect of the invention is a computer program, which instructs a processing unit to perform the steps of the method explained before and hereinafter.
Another aspect of the invention is the use of a personal care system configured to allow an addition of a sensor functionality.
All disclosures as described here in relation to any aspect of the invention apply equally to all other aspects of the invention. In the following, the examples and embodiments of the invention are described with reference to the Figures.
The advantage of this system 100 as described before and hereinafter, is that an additional sensor functionality can be added to the system 100 or a hardware component 106 of the system 100 and thereby, the personal care procedure performed by the system 100 can be improved which will lead to an increase of usability for a user of the system 100.
For example, the hardware component 106 is the hardware component with the sensor functionality before the software reconfiguration 108. Said hardware component 108 is for example a fluid pressure sensor, which is capable of measuring the pressure of the flossing fluid in the flossing conduit. The data reader 102 is configured for receiving the code 200. The code 200 can be transferred from the data reader 102 to the programmable controller 104. The programmable controller 104, e.g. a processor unit interconnected with an actuator and a data storage, can trigger the software reconfiguration based on the received code 200. Furthermore, the programmable controller 104 can be configured for establishing the connection between the system 100 and the online database 300 for downloading required information for the software reconfiguration from the online database 300 based on the received code 200. The connection between the system 100 and the online database 300 can be established by the programmable controller 104 via a handheld device, e.g. a smartphone, which is connected via Bluetooth to the system 100 and is connected to the online database 300 via Wi-Fi. In this case, the code 200 can comprise the pointer element 202, e.g. a link, which gives the programmable controller 104 the instruction to download the required information, as described above. After the software reconfiguration, an additional sensor functionality is added to said hardware component 108 and thereby the hardware component 108 gains the sensor functionality, e.g. the capability to measure the flow of the flossing fluid in the flossing conduit of an oral care device.
In an embodiment of
Furthermore, the method 700 comprises the step of changing S3 the control of the hardware component 106 of the system 100 based on the triggered software reconfiguration. In addition, the change of the control of the hardware component 106 of the system 100 causes an addition of the sensor functionality to the hardware component 106 of the system 100.
For example, the data reader 102, e.g. a RFID reader, receives the code 200 from a RFID transponder. The data reader can be configured for transferring the code 200 to the programmable controller 104, as described before and herein after. The programmable controller 104, e.g. a processor unit, triggers the software reconfiguration, e.g. a software update, of the software associated with the hardware component 106, e.g. the fluid pressure sensor for measuring the pressure of the flossing fluid in the flossing conduit. Due to the software reconfiguration the sensor functionality, e.g. measuring the flow of the flossing fluid in the flossing conduit, is added to said hardware component 106.
For example, an interdental space detection sensor can be upgraded by software reconfiguration to enable also occlusal tooth surface sensing. Such an oral care system is configured for detecting whether during the displacement of the cleaning device in the user’s mouth over a critical, predefined length no interdental spaces are detected. In such a case the oral care system is configured to assume that the cleaning device is at an occlusal surface.
Furthermore, the further method 710 may comprise the step of adding S5 an additional sensor functionality to the hardware component 106 without the sensor functionality of the system 100 before the software reconfiguration based on the change of the control of the hardware component 106.
For example, the hardware component 106 is not capable of measuring the parameter of the hardware component 106 before the software reconfiguration. After the software reconfiguration the hardware component 106 is capable of measure the parameter, e.g. revolution per minute, of the hardware component 106, as described before and herein after.
Moreover, the further method 710 may comprise the step of triggering S6 an addition of the further type of data analysis, which is performed on data generated by the hardware component 106 of the system 100 with the added sensor functionality.
In a non-limiting example, the hardware component 106 is the flow sensor for measuring the flow of the flossing fluid in the flossing conduit. In this example, the further data analysis can identify peaks in the flow of the flossing fluid over time and based on the identified peaks the oral care procedure can be further improved as outline above.
The further method 710 may comprise the steps of reading out S7 the pointer element 202 from the code 200. Furthermore, the further method 710 may comprise the step of downloading S8 at least one data element from an online database 300 based on the read-out pointer element 202. In addition, the further method 710 may comprise the step of triggering S9 the software reconfiguration based on the downloaded data element.
For example, the code 200 is the QR-tag comprising the pointer element 202, which is the link stored in the QR-tag. The programmable controller 104 can establish the connection to an online database 300, e.g. directly or via a handheld device like a smartphone, as described before and herein after. The programmable controller 104 can download all information necessary for the software reconfiguration, e.g. a data element for a software update, from the online database 300 via the established connection between the programmable controller 104 and the online database 300. After the download is complete, the programmable controller 104 can trigger the software reconfiguration based on all the downloaded information for adding the sensor functionality to the hardware component 106.
Where an indefinite or definite article is used when referring to a singular noun, e.g. “a”, “an” or “the”, this includes a plurality of that noun unless something else is specifically stated. It is to be understood that terms used are interchangeable and under appropriate circumstances and that the embodiments of the invention described herein are capable of operation in other sequences than described or illustrated herein. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The word “comprising” does not exclude the presence of elements or steps other than those listed in a claim. The invention may be implemented by means of hardware comprising several distinct elements, and/or by means of a suitably programmed processor. In the device claim enumerating several means, several of these means may be embodied by one and the same item of hardware. Measures recited in mutually different dependent claims may advantageously be used in combination.
The reference symbols used in the Figures are listed in a summary form in the following list of reference symbols. In principle, identical parts are provided with the same reference symbols in the Figures.
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Number | Date | Country | Kind |
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20191347.2 | Aug 2020 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2021/072439 | 8/12/2021 | WO |