EP3258812B2 - Hair styling appliance - Google Patents

Hair styling appliance Download PDF

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Publication number
EP3258812B2
EP3258812B2 EP16709493.7A EP16709493A EP3258812B2 EP 3258812 B2 EP3258812 B2 EP 3258812B2 EP 16709493 A EP16709493 A EP 16709493A EP 3258812 B2 EP3258812 B2 EP 3258812B2
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EP
European Patent Office
Prior art keywords
hair styling
heater
controller
styling apparatus
subsets
Prior art date
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Active
Application number
EP16709493.7A
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German (de)
English (en)
French (fr)
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EP3258812A1 (en
EP3258812B1 (en
Inventor
Robert Alexander Weatherly
Mark Andrew Gagiano
Timothy David Moore
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Jemella Ltd
Original Assignee
Jemella Ltd
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    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45DHAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
    • A45D1/00Curling-tongs, i.e. tongs for use when hot; Curling-irons, i.e. irons for use when hot; Accessories therefor
    • A45D1/06Curling-tongs, i.e. tongs for use when hot; Curling-irons, i.e. irons for use when hot; Accessories therefor with two or more jaws
    • A45D1/14Curling-tongs, i.e. tongs for use when hot; Curling-irons, i.e. irons for use when hot; Accessories therefor with two or more jaws the jaws being separable from each other
    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45DHAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
    • A45D2/00Hair-curling or hair-waving appliances ; Appliances for hair dressing treatment not otherwise provided for
    • A45D2/001Hair straightening appliances
    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45DHAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
    • A45D1/00Curling-tongs, i.e. tongs for use when hot; Curling-irons, i.e. irons for use when hot; Accessories therefor
    • A45D1/06Curling-tongs, i.e. tongs for use when hot; Curling-irons, i.e. irons for use when hot; Accessories therefor with two or more jaws
    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45DHAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
    • A45D1/00Curling-tongs, i.e. tongs for use when hot; Curling-irons, i.e. irons for use when hot; Accessories therefor
    • A45D1/02Curling-tongs, i.e. tongs for use when hot; Curling-irons, i.e. irons for use when hot; Accessories therefor with means for internal heating, e.g. by liquid fuel
    • A45D1/04Curling-tongs, i.e. tongs for use when hot; Curling-irons, i.e. irons for use when hot; Accessories therefor with means for internal heating, e.g. by liquid fuel by electricity
    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45DHAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
    • A45D1/00Curling-tongs, i.e. tongs for use when hot; Curling-irons, i.e. irons for use when hot; Accessories therefor
    • A45D1/28Curling-tongs, i.e. tongs for use when hot; Curling-irons, i.e. irons for use when hot; Accessories therefor with means for controlling or indicating the temperature

Definitions

  • This invention relates to hair styling appliances, in particular low voltage, for example battery operated devices.
  • a straightener which employs plates that are heatable.
  • a transition temperature where it becomes mouldable.
  • the transition temperature may be in the range of 160-200°C.
  • a hair styling appliance can be employed to straighten, curl and/or crimp hair.
  • the temperature range required, user expectations with regard to the time to heat-up, thermal control, and other factors combine to drive existing hair styling appliances to employ mains power for the heater(s).
  • a hair styling appliance including a battery power source for at least one heater is taught.
  • the inventors have realised that further improvement in the use of a battery power source is possible.
  • a hair styling apparatus comprising: a plurality of heater electrodes which heat one or more hair styling heaters, the plurality of heaters comprising a first subset and a second subset; a power source for powering the plurality of heater electrodes and a controller configured to control powering of the plurality of heater electrodes from the power source, wherein, in a first mode of operation, the controller is configured to control the power source so that the first and second subsets of the plurality of heaters are not simultaneously powered.
  • the power source may be a battery source. Alternatively, the power source may be mains power.
  • the controller controls power delivery so that power is delivered to the first and second subsets in a time interleaved manner, multiple times per second. Interleaving the power delivery in this way offers a number of advantages. For example, if the first subset of heater electrodes is associated with a first hair styling heater and the second subset of heater electrodes is associated with a second hair styling heater, then the controller can control the heating of the first and second hair styling heaters so that they are both heated, at the same time, to respective desired operating temperatures (which may be the same).
  • the controller can control the heating of the different parts of the heater so that they are both heated, at the same time, to a desired operating temperature.
  • This is possible as such hair styling heaters (and other kinds of heaters) normally have a relatively high thermal inertia so that they do not cool down quickly once power is removed from the heater electrodes. Interleaving of the driving of the electrodes in this manner also reduces the current drawn from the power source.
  • the power source is a battery
  • the controller may be configured to select the first and second subsets so that a total current drawn by each of the first and second subsets is below a predetermined current threshold.
  • the predetermined current threshold may be equivalent to a multiple (e.g. 1.5) of the current draw for a single heater electrode.
  • the controller is configured to control powering of the heater electrodes from the power source.
  • the first mode of operation of the controller comprises limiting the total number of heater electrodes that may be simultaneously powered such that a predetermined current limit is not exceeded.
  • a current limit is imposed means that the controller is configured to prevent all the heater electrodes being powered at the same time. This current limit may be deemed a nominal current draw.
  • the plurality of heater electrodes may be divided into discrete subsets. Thus no heater electrodes are in both the first and second subsets. Alternatively, the first and second subsets may have some (but not all) heater electrodes in common. It will be appreciated that there may be more than two subsets of electrodes, e.g. three or even four, depending on the overall number of heater electrodes within the apparatus. Each subset may comprise one or more electrodes.
  • the controller may be configured to switch the power source between the first and second subsets, for example multiple times per second. This may be done, for example, to maintain the heater at a desired operating temperature.
  • the controller may comprise a heating cycle in which it cycles through all of the subsets of powerable heater electrodes, determining if power may need to be applied. If not, the controller may opt to retain power to the currently powered subset, switch to another, or opt to power none of the heater electrodes if heater plates (or zones on a heater plate) are at a preferred operating temperature.
  • the switching frequency between each subset may be in the order of tens, hundreds or thousands of cycles per second.
  • the heating cycle will have a period of between 100 ⁇ s and 500ms.
  • the first and second subsets may be powered in anti-phase, i.e. one subset is off when the other subset is on. In such anti-phase operation there may however be periods in which none of the electrodes are powered.
  • the controller may be configured to alternate between the first mode of operation and a second mode of operation in which the first and second subsets of the plurality of heater electrodes are simultaneously powered. For example, simultaneous heating may take place during the initial heat up from power on. In this second mode of operation, the nominal current draw is exceeded temporarily.
  • the controller may switch the power to both subsets of heater electrodes such that there are: 1) overlapping periods in which power is simultaneously supplied to heater electrodes in the first and second subsets; 2) periods in which power is supplied to heater electrodes of just one of the first and second subsets; and 3) periods in which no power is supplied to heater electrodes of the first and second subsets.
  • the controller may control the duration of the overlapping periods so that they reduce with time from, for example, an initial switching on time.
  • the controller may reduce the duration of the overlap either in response to a sensed condition or based on pre-stored data defining the switching sequence.
  • the controller may be configured to switch from the second mode of operation to the first mode of operation in response to a control signal.
  • the control signal may be that a predetermined amount of time in the second mode of operation has elapsed.
  • the predetermined amount of time may be based on predetermined characteristics of the battery power source and may be a few seconds.
  • the controller may then continue to operate in the first mode of operation for a further period of time (for example 30 seconds or more) after which periods of operating in the second mode may be possible.
  • the hair styling apparatus may further comprise a battery temperature sensor which senses the temperature of the battery source and which sends a battery temperature sense signal to the controller.
  • a battery temperature sensor may be integrated into the hair styling apparatus, however in other embodiments the battery power source may comprise an integrated temperature sensor having a connection coupleable to the battery temperature sense input.
  • the battery temperature sense signal may be compared to a battery temperature threshold and the control signal may be generated by the controller or at the sensor when the battery temperature sense signal is greater than the battery temperature threshold. Alternatively, the control signal may be generated when the battery temperature is increasing at a rate such that a threshold value is predicted to be exceeded.
  • the battery temperature threshold may be in the range of 60 to 80 degrees C, more preferably 70 degrees C.
  • the ambient temperature threshold may be in the range of 25-35 degrees C, more preferably 25 or 33 degrees C.
  • the controller may be configured to limit a duration in which the subsets of heater electrodes are simultaneously powerable by the power source. This may also be dependent on the battery temperature or ambient temperature.
  • the hair styling apparatus may comprise a first arm having a first contacting surface and a second arm having a second contacting surface, wherein the arms are moveable between a closed position in which the first and second contacting surfaces are adjacent and an open position in which the first and second contacting surfaces are spaced apart.
  • the first arm may comprise a first hair styling heater having a plurality of heater electrodes.
  • the first arm comprises a first hair styling heater and the second arm comprises a second hair styling heater and each hair styling heater comprises at least one heater electrode.
  • the plurality of electrodes comprises at least one on each arm.
  • a plurality of electrodes includes two electrodes. Where there are only two electrodes, e.g. one on each arm or a single heater with two electrodes, the first subset may comprise the first electrode and the second subset may comprise the second electrode.
  • the hair styling apparatus may further comprise a touch sensitive switch configured to enable or disable the hair styling apparatus. It will be appreciated that the touch sensitive switch can be used on its own as a separate invention as well as in conjunction with the different powering modes of operation.
  • the touch sensitive switch may be located on the first or second contacting surface. When the arms are in the closed position, the touch sensitive switch may be deactivated to prevent unintended activation of the switch.
  • a user may activate the touch sensitive switch by pressing on or otherwise contacting said touch sensitive switch for at least a predetermined duration of time. This activation may be determined by the switch or the controller and the controller may enable or disable the hair styling apparatus responsive to said determining.
  • the or each heater may comprise a heater plate which is mounted on a thermally insulating support structure.
  • a thermally insulating support structure can be used on its own as a separate invention as well as in conjunction with the different powering modes of operation and/or touch sensitive switch.
  • the heater plate may comprise at least one recess which cooperates with a corresponding projection on the thermally insulating support structure.
  • the recess and projection may be L-shaped.
  • Other mechanisms for mounting the heater plate on the support may be used.
  • the thermally insulating support structure may be resiliently mounted within an arm of the hair styling apparatus. For example, a spring mechanism may be used. Such a resilient mounting allows the heater plate to move relative to the casing of the arm during styling, allowing the plates to retain contact with varying thicknesses and changes in the profile of hair clamped between opposing pairs of styling surfaces on the heater plates.
  • Also described is a method of controlling a hair styling apparatus comprising a plurality of heater electrodes which heat one or more hair styling heaters, the plurality of heaters comprising a first subset and a second subset; the method comprising: controlling powering of the heater electrodes so that the first and second subsets of the plurality of heaters are not simultaneously powered.
  • controller for a hair styling appliance, wherein the controller configured is configured to implement the method described above.
  • Figure 1 depicts an example of a typical hair straightener 1.
  • the hair straightener 1 includes first and second arms each comprising an arm member 4a, 4b and heatable plates 6a, 6b coupled to heaters (not shown) in thermal contact with the heatable plates.
  • the heatable plates are substantially flat and are arranged on the inside surfaces of the arms in an opposing formation.
  • hair straightener may also be used to curl hair by rotating the hair straightener 180° towards the head prior to pulling the hair through the hot heatable plates.
  • touch sensitive switch 5070 which is used to power the hair styling appliance on and off.
  • the switch may be implemented as a capacitive touch switch comprising an electrode placed behind the plastic casing of the hair styling appliance. This obviates the need for a mechanical switch in variants a resistive touch sensitive switch may also be used, or a piezo touch switch.
  • the touch sensitive switch 5070 is positioned on the inside of an arm facing the other arm. This means that the switch can only be pressed when the arms are spaced apart to prevent a user accidentally touching the switch and unintentionally turning the hair styling appliance on.
  • the hair styling appliance may also prevents any accidental pressing of the switch.
  • the switch may also be deactivated (or the power supply configured to prevent activation of the appliance) when the arms of the hair styling appliance are closed together.
  • a hair straightener is just one example of a hair styling appliance and a skilled person would implement the various embodiments of the invention without difficult into other hair styling appliances such as a "crimping iron" for crimping hair or a hair styling appliance for curling hair.
  • FIG. 2 shows a block diagram of a power/control system 500 for a hair styling appliance incorporating a heater 300.
  • the system comprises a low voltage power supply 504 deriving power from a 12v lithium ion battery 505 and/or a mains power supply input 502, which is used to charge the battery 505 via an AC to DC converter 503 which may be external or internal to the appliance.
  • Power supply 504 may be configured to provide approximately 100 watts per heater; the heater resistance when hot may be selected accordingly - for example at 12v a current in the range 5-10 amps may be delivered to a heater with a resistance in the range 1-2 ohms.
  • the resistance may be scaled accordingly as the design voltage increases or decreases (changing as the inverse square of the voltage).
  • Power from power supply 504 is provided to a power control module 514, which in turn powers the one or more heaters 516.
  • Power control module 514 may employ one or more power semiconductor switching devices to provide pulse width modulation control of the (DC) voltage from power supply 504 to heaters 516.
  • DC pulse width modulation control
  • a high percentage on-time duty cycle may be employed during the initial, heating phase and afterwards the on-time duty cycle may be reduced and controlled to control the temperature(s) of the heaters 516.
  • Power from power supply 504 is also provided to a microcontroller/control means 506 coupled to non-volatile memory 508 storing processor control code for a temperature control algorithm, and to RAM 510.
  • control loop may include a feed-forward element responsive to a further input parameter relating to the hair styling appliance, for example to use the operation of the apparatus to improve the temperature control.
  • An optional user interface 512 is also coupled to microcontroller 506, for example to provide one or more user controls and/or output indications such as a light or audible alert. The output(s) may be employed to indicate, for example, when the temperature of the heating plate has reached an operating temperature, for example in a region 140°C - 185°C.
  • Microcontroller 506 is also coupled to one or more optional temperature sensors such as thermistors 340.
  • the temperature of a heating element may be sensed from its resistance and thus embodiments of the system include a current sense input 515 to microcontroller 506 sensing the current provided to a heater, for example via a current-sense resistor connected in series with the electrode.
  • a predetermined calibration of resistance against temperature for an electrode may be stored in non-volatile memory 504 and in this way the printed track may be employed as a temperature sensor.
  • the touch sensitive switch 5070 is shown coupled to the low voltage PSU 504 to remove the need for the microcontroller to be permanently powered up.
  • the low voltage PSU 504 monitors for a change in capacitance of the touch sensitive switch indicating that a user has pressed the switch.
  • the low voltage PSU then powers up the hair styling appliance.
  • the low voltage PSU 504 again monitors for a change in capacitance of the switch, then powering down the hair styling appliance.
  • a user may, for example, be required to press the touch sensitive switch for two, three, four or five seconds, or longer.
  • two touch sensitive switches may be used: one for turning the styling appliance on, another for turning the styling appliance off.
  • Providing such a touch sensitive switch on a hair styling appliance provides several advantages. Firstly, for battery powered products, if the hair styling appliance is carried around in luggage, it prevents the appliance being accidentally knocked on by other items in the luggage. Further, it also improves the aesthetic appearance of the product, eliminating the need for additional components on the surface of the hair styling appliance.
  • the touch sensitive switch is shown coupled to the low voltage PSU.
  • a switch may be coupled to the microcontroller, although in such variants it will then be appreciated that the microcontroller may then need to be permanently powered to permit detection of a press of the touch sensitive switch.
  • a dedicated circuit may also be used.
  • This touch sensitive power switch may be applied to any of the embodiments described herein and also as an adaption to otherwise standard devices.
  • Each heater plate may be powered by a heater electrode. Depending upon the thickness of the heater plate, lateral conductivity within the plate may not be sufficient to give the desired results with a single heater electrode. Accordingly, an example of a heater plate is illustrated in Figure 3 which may form the heatable plates 6a, 6b of the hair straightener of Figure 1 .
  • the heater plate 300 may be provided with a plurality of separately controllable heating zones 300a, b, each with a respective electrode 330a, b and thermistor 340a, b. Connections to these are brought out, for convenience, to one edge of the heater plate; a broadened track region 332 is provided for the electrode further from the connection point to reduce heating in the connection path.
  • Each of the electrodes is provided with a separate control loop controlled by the temperature sensed by the respective thermistor. In embodiments more than 3 zones may be provided.
  • the heater used in the various embodiments described herein may be formed as described in WO2014/001769 and GB2503521 which are incorporated by reference.
  • the heater may comprise an aluminium heater plate of thickness of order 1mm, bearing a plasma electrolytic oxide (PEO) coating of aluminium oxide of thickness less than 100 ⁇ m, for example in the range 5-15 ⁇ m.
  • PEO plasma electrolytic oxide
  • the hair styling appliance comprises a plurality of electrodes. As shown in Figure 1 , there may two heater plates, each with their own electrode and thus there are two electrodes. Alternatively, only one arm of the appliance shown in Figure 1 may comprise a heater plate but this heater plate comprises at least two, possibly more electrodes. There may also be multiple heater plates each having multiple electrodes.
  • the power to the plurality of heater electrodes may be independently controlled.
  • Figures 4a and 4b show the Voltage against Time for each heater electrode.
  • the microcontroller 506 uses pulse width modulation (PWM) power control to control the supply of power to the two heater electrodes using the power control block 514.
  • PWM pulse width modulation
  • the "on time" of the power signal within a sequence of PWM periods (here labelled 'd' and also referred to in other parts of this document as heater cycles) is varied in order to vary the amount of power delivered to each heater electrode.
  • the PWM period / heater cycle may be between 100 ⁇ s and 500ms.
  • Figure 5 shows a variant of the schematic block diagram of Figure 2 with modified microcontroller/control means and power control module 514b.
  • the reference numbers in common are used in both systems and thus any description applies equally to both.
  • the microcontroller switching control signal 708, labelled 'temp/power control' in Figure 5 may comprise multiple outputs, one for each heater power switch to be controlled.
  • the embodiment shown in Figure 5 comprises two heater electrodes, one on each of the two heater plates. Two outputs, one to activate the first heater electrode via the first power switch 702 and the second to activate the second heater electrode via the second power switch 704 are present on the power control module.
  • further heater electrodes may also be driven. These may be present, for example, in a multizoned heater variant. Dotted arrow lines to the heaters 516 show optional connections to such additional heater elements.
  • the switching control signal may be a serial data connection or encoded such that the control system can scale to independently control multiple heater elements. This may be particularly useful in embodiments having multiple heating zones (two or three per heater for example) and where the number of outputs from the microcontroller may be limited. Alternatively the microcontroller may have multiple outputs, one for each power switch.
  • the optional decode block 706 in the power control module 514b decodes the signal received from the microcontroller and splits this out into separate drive signals to activate the power switches 702 and 704. In variants incorporating multiple heating zones on each heater plate the signal may be decoded into more outputs, one for each zone.
  • Battery power source 505 in Figure 5 may further incorporate a battery temperature sensor 5050, such as a thermistor.
  • the battery temperature sensor 5050 provides a battery temperature sense signal 5051 coupled to the microcontroller 506.
  • the battery temperature sense signal may be factored into the temperature control algorithm and powering of the heater plates. It will be appreciated however that such a feature is optional.
  • the battery temperature sensor many also be used as part of the safety shutdown 520.
  • the styling appliance may incorporate one or more safety shut down circuits 520 coupled to the one or more heater electrodes and/or temperature sensors 340 to monitor the heater temperature and electronically shut down the power supply to the heater should overheating be detected. In embodiments, this may be extended to also prevent overheating of the battery.
  • safety shut down circuit 520 controls a guard transistor 522, as illustrated a power MOSFET, which removes power from the power control block on detection of a potential fault. Guard transistor 522 may be provided either before or after power control block 514a.
  • the battery temperature sensor 5050 (or another battery temperature sensor) may additionally or alternatively be used to control power on/off of the hair styling appliance.
  • the generated signal B Tsense 5051 is fed into the microcontroller 506 and may be used to provide battery temperature information for use in a safety mechanism to shut down the styling appliance, or stop power delivery to one or more heater elements/plates if the battery temperature exceeds a battery threshold temperature.
  • the microcontroller/control means may be arranged such that power is only supplied to the heating elements/plates when the temperature sensed by the battery temperature sensor is below a battery threshold temperature.
  • this threshold temperature may be a value in the range of 60-100°C, for example 70°C.
  • the operational threshold temperature may be dependent on the particular construction (packaging, chemical formulation for example) of the particular battery used. Techniques such as active cooling of the battery pack, or heat transfer means such as a heat sink, may often be insufficient to retain the battery pack within its preferred safe operating range.
  • control system may prevent the hair styling appliance from being used again until the battery temperature has fallen below either the battery threshold temperature at which power down was previously initiated, or below a lower 'reactivation' temperature which would be set to a temperature below the battery threshold temperature.
  • Another technique that may be used to prevent heat build-up in the battery power source is to slow the rate of heating by throttling the maximum current delivered or using higher resistance heating elements.
  • adopting such a technique may mean that the temperature of a heater plate cannot be changed very rapidly, which may lead to a poor transient response.
  • an ambient temperature sensor such as temperature sensor 5060 in Figure 5 may be used to monitor the ambient temperature (i.e. the temperature surrounding the hair styling appliance) and prevent power delivery to the heater plates if an ambient temperature threshold is exceeded.
  • An ambient temperature sense signal A Tsense 5061 is then generated and fed into the microcontroller 5061.
  • this ambient threshold temperature may be a value in the range of 25-35 degrees C, for example 25 degrees C or 33 degrees C.
  • Such ambient temperature sensing may be used as a further safety mechanism to protect against overheating of the hair styling appliance. This is particularly useful in warmer environments in which the battery which may heat up too fast (such as outside in hot climates, or in a hot indoor environment). A user may then be preventing from turning on the hair styling appliance until the ambient temperature has reduced.
  • the microcontroller/control means may be arranged such that power is only supplied to the heating elements/plates when the sensed ambient temperature is below an ambient threshold temperature.
  • the microcontroller/control means in Figure 5 is configured to lower the maximum current draw by operating the heaters in anti-phase. This means that in an embodiment having two heater electrodes (one for each heater), only one heater element may be powered at a time in the embodiment in Figure 5 . Operating in anti-phase, there may also be periods where both heaters electrodes are off, such as when both heater plates are at a desired operating temperature. Given a current draw of 'I' for one heater arranged to heat an entire heater plate, when two heaters are powered simultaneously to heat two heater plates, the current draw may be approximately '2I'. Using this convention, the maximum current draw is limited to the current draw for driving one heater (i.e. 'I', the current draw for one heater arranged to heat an entire heater plate). This means that the controller may be configured to prevent all (both in the embodiment of Figure 5 ) heater electrodes being powered at the same time.
  • FIGS 6a and 6b show a graph for each heater in an appliance having two heaters and operating according to the preceding paragraph.
  • the microcontroller 506 uses pulse width modulation power control to control power delivery to the two heaters. It will be observed from Figure 6a and 6b that both heater electrodes are now not powered at the same time within each heating cycle (here labelled 'c'). The dotted lines between the Figures show instances of one heater starting or stopping - note there is no overlap.
  • a heating cycle ('c') each of the heaters below temperature are powered in a sequence which may be fixed or determined by the microcontroller, but only one at a time. As before, the heating cycle may be between 100 ⁇ s and 500ms and thus the controller rapidly switches the delivery of the power between the two heaters such that, as far as the user is concerned, both heaters appear to be heating up simultaneously.
  • the controller 506 controls this delivery of power to the first and second heaters by generating control signals 708 that cause the decode/drive enable unit 706 to open and close the switches 702 and 704.
  • the control signals 708 may be directly used to control the switching of the switches 702 and 704.
  • the microcontroller may implement a control algorithm configured to allocate equal percentages of a heating cycle 'c' to each heater, for example 50% of the time. Typically this may be the case when a user powers on the appliance to heat both heater plates to the desired operating temperature evenly and as fast as possible. However, in the event that one heater plate heats up slower than the other, a higher portion of time in any given period / heating cycle 'c' may be allocated to the cooler heater plate. Furthermore, in the event one heater plate cools faster than the other when placed about a quantity of hair, the microcontroller, in response to a temperature dependent sense signal, may act accordingly to allocate a higher portion of heating time in any one heating cycle to power the heater in the cooler heating plate.
  • each heating zone may comprise a separate heater electrode arranged to heat a portion of the heater plate.
  • the controller may therefore be configured to prevent all the heater electrodes distributed across one or more plates being powered at the same time (or for only short periods of time).
  • a current draw 'I' to correspond to the current draw necessary to power a heater electrode heating an entire heater plate.
  • one electrode in each zone may be considered to draw (for the purposes of comparison only), a portion of current draw 'I'
  • each zone may be considered to draw a current of 0.51 (presuming the resistances are generally the same).
  • a maximum preferred current draw 'I' may therefore correspond to powering two zones simultaneously. Any two zones: both on the same plate, or one on each plate may be simultaneously powered.
  • the maximum preferred current draw to prevent the battery source overheating may not be 'I', it may instead be higher or lower than this, Therefore, in some embodiments it may then be possible to power different combinations and numbers of heating zones simultaneously without the battery source overheating.
  • 'I' the maximum preferred current draw to prevent the battery source overheating
  • Table 1 below shows exemplary combinations of the maximum zones that may be powered at any one time.
  • the 'nominal current draw' column provides examples of the nominal current draw limit, defined in multiples of the current draw of one heater arranged to heat an entire heater plate. Accordingly, for the purposes of this illustrative example, the current draw of two heater electrodes, each heating half of a heater plate, is deemed the same as one heater element powering an entire heater plate. It will however be appreciated that in practice the current draw may be different.
  • Zones per plate Number of plates in appliance Nominal draw 'I' Zones powered at any one time 1 2 1 1 2 2 1 2 3 2 1 3 1 2 1.5 1 2 2 1.5 3 3 2 1.5 3
  • the microcontroller may allow periods of overlap in which both heaters are powered simultaneously to heat up both heater plates at the same time.
  • the duration of overlap may be limited by the microcontroller/control means.
  • the microcontroller/control means may be configured to limit this overlap to a predetermined duration within a fixed period of time based on predetermined characteristics of the battery.
  • the microcontroller may permit, for example, simultaneous heating to only take place during the initial heat up from power on, then revert to the first mode of operation.
  • the controller may be configured to limit a duration in which the two heater electrodes are simultaneously powerable by the power source. This may also be dependent on the battery temperature or ambient temperature.
  • the overlap control may be variable, being controlled, for example, in response to feedback from a battery temperature sense signal 5051 as depicted in Figure 5 .
  • the microcontroller may then actively monitor the temperature of the battery source, controlling the permissible overlap in which the nominal preferred current draw may be exceeded in response to the temperature of the battery source. This may be useful to allow both heaters (based on an embodiment have one heater element in each heater plate) to be driven simultaneously from cold at power on, with the microcontroller then disabling any overlap in heating once the heaters are first up to temperature.
  • Figures 6c and 6d show a graph for each heater in an appliance having two heaters where overlap is permitted.
  • the battery temperature is within the preferred operating range and so the microcontroller is configured to operate in the second control mode with periods in which both heaters are heated simultaneously.
  • the battery temperature sensor may sense the temperature approaching (or exceeding) a threshold temperature which results in the microcontroller changing to the first control of operation in which the heaters are powered in anti-phase. The microcontroller may then optionally return to the second control mode when the temperature of the battery source drops.
  • the dotted lines between the Figures show regions of overlap in heaters being powered in the first phase.
  • the second technique may also be implemented for embodiments having multiple heating zones on one or more of the heater plates. Incorporating the second technique, the microcontroller may then permit various combinations of zones to be heated simultaneously as previously described, with periods in which the nominal preferred current draw is exceeded by powering further heating zones for a limited period of time. This means that the controller may be configured to limit a duration in which at least two or more of the heater electrodes are simultaneously powerable by the battery power source.
  • Figure 7 shows a cross-sectional view of an illustrative embodiment of an arm 700 of a hair styling appliance.
  • the arm 700 comprises an outer casing 712 to which other components of the hair styling appliance are secured.
  • a heater element 704 is positioned on heater plate 702 to form a hair styling heater assembly.
  • the hair styling heater assembly is then retained on the arm by the use of a thermally insulating support structure 714.
  • the heater plate 702 comprises a styling surface 715 on one side that contacts the hair to be styled during use.
  • two L-shaped recesses 709a, 709b provide sockets for securely fixing the hair styling heater assembly to the thermally insulating support structure 714.
  • the thermally insulating support structure 714 is formed from insulating material and may, for example, be constructed from a similar material to the casing.
  • the support structure 714 comprises a pair of L-shaped projections 708a, 708b arranged to fit into the 709a, 709b recesses in the heater plate 702 and couple the heater plate and support structure together.
  • they may have a small degree of flex such that then can snap-fit into the recesses, thereby securely fixing the heater plate and support structure together. It will be appreciated however that other means for coupling the hair styling heater assembly and the support structure are possible, and the example shown in Figure 15 is purely illustrative of one way of doing so.
  • sprinted members 710a and 710b are used to secure the support structure 714 to the casing. These are secured at one end to the casing and at the other end to the support structure.
  • compression springs are used which bias the heater assembly and support structure away from the arm. These allow the heater plate to move relative to the casing during styling, allowing the plates to retain contact with varying thicknesses and changes in the profile of hair clamped between opposing pairs of styling surfaces on the heater plates. It will be appreciated that various other arrangements may be used that provide allow for movement of the heater plates.

Landscapes

  • Control Of Resistance Heating (AREA)
  • Massaging Devices (AREA)
EP16709493.7A 2015-02-19 2016-02-16 Hair styling appliance Active EP3258812B2 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
GB1502763.4A GB2535504B (en) 2015-02-19 2015-02-19 Hair styling appliance
PCT/GB2016/050382 WO2016132116A1 (en) 2015-02-19 2016-02-16 Hair styling appliance

Publications (3)

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EP3258812A1 EP3258812A1 (en) 2017-12-27
EP3258812B1 EP3258812B1 (en) 2019-01-09
EP3258812B2 true EP3258812B2 (en) 2023-11-22

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US (1) US20180035776A1 (zh)
EP (1) EP3258812B2 (zh)
CN (1) CN107249381B (zh)
AU (1) AU2016221472B2 (zh)
ES (1) ES2711729T5 (zh)
GB (1) GB2535504B (zh)
HK (1) HK1223799A1 (zh)
WO (1) WO2016132116A1 (zh)

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WO2016132116A1 (en) 2016-08-25
US20180035776A1 (en) 2018-02-08
EP3258812A1 (en) 2017-12-27
GB201502763D0 (en) 2015-04-08
AU2016221472A1 (en) 2017-08-17
ES2711729T5 (es) 2024-04-26
AU2016221472B2 (en) 2020-10-08
CN107249381B (zh) 2021-09-21
EP3258812B1 (en) 2019-01-09
GB2535504A (en) 2016-08-24
HK1223799A1 (zh) 2017-08-11
GB2535504B (en) 2021-01-06
ES2711729T3 (es) 2019-05-07
CN107249381A (zh) 2017-10-13

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