Alarm apparatus

An alarm apparatus, in particular an alarm apparatus having at least two separate parts, includes an alarm unit and a user portion for generating a localized alert. The user portion has an attachment means for attaching the user portion about or onto a part of the user's body. The user portion includes a lock which in use is adapted to lock the user portion about or onto a part of the user's body. The alarm unit and user portion in use are located apart one from another and the lock is adapted to unlock upon presentation of the user portion to the alarm unit.

FIELD OF THE INVENTION

The present invention relates to alarm apparatus, in particular an alarm apparatus having at least two separate parts comprising a first alarm unit and a second user portion that are capable of communication one with another.

BACKGROUND

Increasing pressures of modern life tend to make it difficult for many to wake up promptly in the morning in response to an alarm.

This particularly leads many users to repeatedly press snooze buttons or ignore an alarm they have set for themselves. This may mean a user wakes up later than intended and can risk potentially disastrous consequences by not waking at the desired time.

PRIOR ART

U.S. Pat. No. 4,144,706 (Willis) discloses an alarm device comprising a wrist watch with timing and alarm setting elements with separate alarm box containing a sensor and sonic generator alarm.

U.S. Pat. No. 7,173,881 (Fehringer et al) discloses an alarm system comprising: a multiple alarm devices including an alarm clock, a telephone, and a door bell. Each alarm device includes means for generating an alarm signal, and a transmitter connected to each said generating means for transmitting an alarm signal at a frequency different for each of said alarm devices and selected users, so that each alarm device issues a different frequency signal for each selected user. A silent notification device comprises a vibration module for each of said users including a receiver for receiving an alarm signal at a selected frequency unique to a specific user and to a specific alarm device. A means is provided in each notification device for alerting a user that said notification device has received an alarm signal from a particular alarm device. Each notification device receives alarm signals from more than one alarm device so that each user receives alarm signals from different alarm devices. Each vibration module is selectively programmable by a user to change individually the intensity of either a light pulse or a strong pulse and a pattern of vibrations which comprise one of a continuous pulse short intermittent pulses, long intermittent pulses, or long/short intermittent pulses to indicate to a user which alarm device is issuing the alarm signal. Each vibration module is mounted on a wrist band worn by a user.

Chinese utility model CN 202 421 775 (Ziyu) discloses an electric shock alarm clock, which comprises an alarm clock, an alarm clock switch, a wire, a plurality of electric shock points, a tourniquet and a magic tape.

U.S. Pat. No. 4,144,706A (Willis) discloses an alarm device comprising a wrist watch with timing and alarm setting elements with separate alarm box containing a sensor and sonic generator alarm.

Chinese Utility Model CN203965815U (UXT) discloses a vibration ring alarm clock which comprises a base and a ring.

The present invention provides an alarm apparatus that serves to ensure a user arises from bed when prompted rather than ignoring or delaying an alarm.

SUMMARY OF THE INVENTION

According to the present invention there is provided alarm apparatus comprising: an alarm unit and a user portion for generating a localised alert, the user portion has an attachment means for attaching the user portion about or onto a part of the user's body, the user portion includes a lock which in use is adapted to lock the user portion about or onto a part of the user's body, the alarm unit and user portion in use are located apart one from another and the lock is adapted to unlock and/or disable the alert upon presentation of the user portion to the alarm unit.

In this way the user portion is attached to the user, typically around a user's wrist, whilst the user is sleeping. The user portion is programmed to provide a localised alert at a pre-selected time so as to wake the user. As the user portion is locked it cannot be removed (or switched off) without being presented to the alarm unit. Therefore a user must physically get up and travel to the alarm unit, which is ideally located at a distance from the user's sleeping location, so that the user is forced to get up and walk some distance in order to unlock and/or disable the localised alert.

In use the alarm unit and user portion are separate and configured for co-location in close proximity in order to unlock the user portion from a user and/or in order to disable the localised alert emitted by the user portion.

In some embodiments the alarm unit is also capable of generating an alert independent of the localised alert.

The connection between the alarm unit and user portion may be a temporary physical connection or a wireless connection made within a pre-determined range or proximity. The proximity in which the connection between the alarm unit and user portion can be activated is defined as a pre-set distance relative to the alarm unit, thereby defining a zone in which the user portion can be unlocked and/or the alert disabled. For example the user portion may be unlocked and/or the user portion alert may be disabled when with within 300 mm or less of the alarm unit.

It is appreciated that the size of the zone is dependent on the means used to unlock and/or disable the user portion.

In some embodiments more than one zone may be defined, for example so that a first zone is provided for unlocking the user portion and disabling the alert and a second zone is provided for example to receive data from a remote device such as a mobile phone.

The connection between the alarm unit and user portion(s) permits communication between the alarm unit and with the user portion so as to permit alert data to be transferred between the user portion and alarm unit. The alert data may include but is not limited to: time, type of alert, duration of alert, combination of alerts, snooze periods, volume and/or intensity of alert. Other data may be transmitted relating to, for example, the user's sleep activity or other biometric data, such as breathing and/or pulse and/or perspiration that has occurred during sleep. This data may be stored or used as part of a healthy lifestyle or exercise regime enabling a user to monitor and analyse their health.

Typically the alarm unit is programmed by a user with a time at which the user is required to wake.

The alarm unit includes controls such as buttons or sensors as well as a display to enable a user to program or set the parameters.

Preferably the display shows the time and alert parameters. In some embodiments the display may comprise a capacitance screen so as to enable touch screen use.

Data is relayed to the user portion from the alarm unit so that a corresponding localised alert can be generated by the user portion at the pre-programmed time. The data may be relayed whilst the user portion is in close proximity or in physical connection with the alarm unit so that the data is stored on the user portion or it may be relayed via wireless router, short message service (SMS), or any other wireless air protocol (WAP).

Alternatively a wireless signal may be transmitted to the user portion to trigger the alert or a wireless signal may be relayed through a third party device such as a mobile communication device such as a cellphone.

In a preferred embodiment the user portion includes a timer that is set by the alarm unit. The timer serves to trigger a means for generating the localised alert. For example an electrical impulse may be provided to activate a vibrating module which is powered by one or more batteries housed in the user portion.

Alternatively or additionally the alarm unit may emit an alarm signal at the desired time that is detected by the user portion so as to trigger the localised alert.

The alarm unit ideally communicates with the user portion wirelessly, for example by Bluetooth® or Radio Frequency (RF) or by means of a physical connection such as a wired connection or docking means, or by any combination of the before mentioned means.

The alarm apparatus typically include a wireless transmitter that transmits a signal which activates a means to trigger the localised alert at the user portion. The user portion typically also has a wireless receiver to receive the transmitted signals. In these ways the alarm unit can provide an alarm signals to the user portion.

In some embodiments the alarm unit and user portion may each include transmitters and receivers so as to transmit and receive signals to enable two-way communication.

The signals sent between the alarm unit and user portion may include but are not limited to: setting one or more alert parameters in the timer, selecting the type of alert emitted, snooze periods, volume, increasing intensity mode and duration.

In this way for example a user is able to pre-set one or more alarm types, for example setting daily alarms over a period of time such a working week or seven days. Typically the alarm unit includes a menu from which alert parameters can be set so as to alter alarm regime, set volumes, record location of user portions and/or the alarm unit.

The alarm unit includes a memory means so as to be capable of storing data relating to one or more of the aforementioned parameters of the alert.

It is appreciated that in some embodiments the alarm unit may be configured for communication with two or more user portions. Thereby enabling a plurality of alerts to be controlled by means of a single alarm unit. Each user portion may be set independently or jointly depending on requirements, thus ensuring that all members of a team are awoken on campus say at the same time in order to arrive promptly at an early morning training event. Alternatively the memory means may therefore store different user details so that different alarms can be provided for a household.

The memory means is typically part of a printed circuit board assembly which includes random access memory (RAM) as well as microprocessor and clock.

In some embodiments a third party device such as a mobile phone may be arranged to synchronise with the alarm apparatus so as to be capable of communication with the alarm unit and/or user portion. For example, an application (or APP) on a mobile communication device or cellphone (smart phone) may be provided that can be used to set alert parameters on the alarm apparatus whereby a signal is sent from the mobile communication device to the alarm unit and/or user portion, rather than a user setting an alarm time on the alarm unit.

The APP typically includes at least one menu so as to enable a user to select the parameters of the alarm apparatus such as alarm regime, snooze periods, volumes, location of user portions and/or alarm unit.

It is appreciated that once the alert times have been set and accepted they cannot be altered without connection between the user portion and alarm unit, thereby preventing a user overriding the alarm using any other mobile device or cellphone.

In preferred embodiments the attachment means of the user portion comprises a lock, typically comprising a mechanical locking closure mechanism. The lock may include but is not limited to interlocking portions such as a clasp, a buckle, a magnetic means, a ratchet or a detent mechanism.

In other embodiments the ends comprise a hook and eye mechanism, a hook and loop mechanism such as Velcro®, a, catch or clip mechanism or ball and socket arrangement.

Advantageously the attachment mechanism is secure and maintains the user portion partly or wholly against the user's skin. In this way the user portion is less liable to suffer damage or dislocate during wear, for example during sleeping movements at night time.

In still further embodiments the user portion may include an elasticated section wherein the user portion is held against the user by the elasticity of the elastic section so as to permit flexibility, for example to allow for swelling of the user's arm.

In other embodiments a tightening or striction mechanism may be provided to ensure that the portion is held tightly against the user at all times, in this way the user portion can be fitted and then adjusted in-situ. In some embodiments the mechanism for tightening is analogous to the user attachment mechanism, wherein the user portion is tight to the user when attached and/or not capable of being un-tightened, for example a ratchet strap attachment similar to a cable tie mechanism.

The attachment means of the user portion typically provides a means by which the user portion may be attached about a limb such as arm, wrist, leg or ankle, passing around and attaching itself, for example in the form of a wristband or bracelet.

Advantageously therefore the user portion or portion in use is carried by or worn on the user at relevant times and any alert generated by the user portion is local to the user's body being set according to user preference or manufacturer configuration.

The user portion has a lock, so as to lock the attachment means, thereby preventing removal from a user. In preferred embodiments the lock may be released only by connection with the alarm unit (physical or proximity connection); wherein the user is compelled to visit the alarm unit in order to unlock and consequently remove the user portion.

In some embodiments a cease notification control may be located on an inner face of the user portion, which is only accessible by unlocking the user portion so that this region can be accessed. In other embodiments unlocking and thereby opening the user attachment mechanism may cause the localised alert notification to cease.

In some embodiments the user attachment mechanism comprises a mechanical connection, wherein for example magnetic forces are passed between the alarm unit and user portion, so as to activate or deactivate elements within the user portion. In another embodiment a key may be provided on the unit to release the mechanism.

In yet further embodiments a proximity signal may be utilised to unlock the attachment mechanism wherein, when the user portion is positioned within a pre-set distance of the alarm unit for a predetermined period of time the user portion is unlocked from the user. For example the user portion may be located within 50 mm of the alarm unit for at least 3 seconds.

In preferred embodiments the user portion is a wristband having a locking closure mechanism comprising a channel at a first end of the wristband that receives the second end of the wristband. Once the wristband is arranged at the desired circumference the second end is locked into position. Typically the second end of the wristband includes a plurality of grooves and the channel includes at least one corresponding projection that can be clamped into the corresponding grooves so as to be locked in position.

Preferably the user portion is formed at least in part of a flexible material, so as to enable wrapping around a part of the user's body in use. For example the wristband may be formed from a resiliently deformable, durable material such as rubber.

The user portion thereby typically comprises a band or elongate portion such that the user portion has ends that include the user attachment mechanism. For example in some embodiments the ends comprise mating parts so as to interlock both ends of the user portion together forming a locked loop.

In some embodiments a central section of the user portion between the first and second ends may comprise the electrical workings of the user portion such as the means to provide the localised alert, the battery etc. Said section may be configured to be in contact with a particular area of the user's body part, for example the wrist.

In some preferred embodiments the section containing the workings is configured with a substantially planar inner profile, for contact with an inner or outer wrist, wherein peripheral sections comprise elasticity or flexibility, so as to accommodate curvature.

Preferably the localised alert generated by the user portion or alarm signal notification emitted by the alarm unit can only be deactivated by unlocking the lock. In this way the user cannot override the alert on the user portion without connecting the user portion with the alarm unit so as to unlock the closure. Therefore the user is compelled to travel to the unit to turn off the local signal notification.

The localised alert generated by the user portion may be an audible, visual and/or haptic, therefore providing different forms of stimulus to a user.

In preferred embodiments the localised alert of the user portion comprises a haptic alert means which provide a sensation to the user's body part locally. In some embodiments this haptic sensation comprises a vibration module.

The localised alert of the user portion may preferably comprise an electric shock means, wherein the portion comprises at least two contact points so as to transmit a mild electric shock to a user. These contact points are configured to provide electrical contacts with the user's skin.

In some further embodiments the inner section of the wristband may use exposed electrode pads to issue a shock or unpleasant vibration to the user, or in other embodiments a rigid section could itself vibrate vigorously in addition or alternative.

These electrical contact points may comprise metallic domes, or tapered metallic points, configured to ensure multidirectional contact possibilities, and arranged so as to ensure there is minimal chance of the contact being non-continuous. The portion is configured to hold the points against the skin.

The points comprise negative and positive terminals of an open circuit within the portion wherein in use the alarm means comprises opening of an electric impulse through this internal circuit, wherein the points allow use of the user's body to close the circuit. The electrical impulse is provided by a plurality of pins, which pins in use are ideally in contact with the user's inner wrist.

In preferred embodiments the pins are used to charge the portion when the portion is united on the unit.

In some embodiments an alert may be triggered at the user portion, at the alarm unit and/or an independent device, therefore making it harder for a user to ignore these multiple alarm signals. Each alert may be different.

If the user ignores the alarm signal for a period that is not in line with parameters, the alert generated may change so as to be more invasive or annoying to a user so forcing them to get up.

For example a first alert may be a user's standard mobile phone alarm. A second alert may be the alarm unit generating an audible alert and the third alert may be the user portion generating a vibrating alert.

In some embodiments the user portion may include a snooze function or control, for example having a button arranged to cease the alert and/or transmit a signal to the alarm unit to cease alert signals being transmitted to the user portion. For example in some embodiments the apparatus may be configured to allow for a limited number of snoozes of the alert before volume or intensity of the alert(s) is/are increased.

For example a standard audible alert may be generated on the time for which the alarm has been set. If the user portion is not connected with the alarm unit within a pre-selected period of time, such as one minute, the localised alert may increase in volume and/or an additional alert such as a vibration alert may be triggered. Thus forcing a user to get up and travel to the alarm unit in order to unlock the user portion from them and disable the alert(s).

In some embodiments the initial alarm may be generated by the remote alarm unit so that a less invasive alarm signal may be first generated at a distance from the user, so as to draw initial attention; and a second more invasive and local alarm signal notification may be generated locally on the user portion, to ensure that the alarm signal is acted upon. Therefore the alarm apparatus on this setting has two alerts, a first alert triggered on the alarm unit and a second alert triggered on the user portion.

In some embodiments the apparatus is configured to measure the distance between the alarm unit and user portion to ensure the parts are arranged sufficiently far apart that a user must travel to the alarm unit. That is the alarm unit cannot be reached without getting up. In such embodiments an alert may be triggered by the apparatus to advise that the parts are located too closely together.

In some embodiments the battery in the user portion is rechargeable. In such embodiments the user portion may include an electrical connection by means of a charging port. For example the battery is recharged when the user portion is connected to a power supply, and consequently the user portion and alarm units preferably each include a port to permit electrical connection. In some other embodiments the user portion may be charged through inductive charging.

In some embodiments the alarm apparatus may include a second port that permits data transfer between the alarm unit and user portion. In some embodiments a port may permit charging and data transfer.

Advantageously therefore the alarm unit may be used to set time periods for the user portion wherein this data is transferred to the user portion from the alarm unit by means of connection between the data ports on each part. For example a wire may be connected between the user portion and alarm unit or the user portion may be received by a port on the alarm unit in the form of a docking station. In this way wireless signals may be avoided or minimised, so as to reassure users with concerns over being exposed to wireless signals.

Advantageously the ports may be provided on the user portion and alarm unit so that connection of the user portion can be made into or onto the alarm unit. Advantageously therefore the user portion may be plugged into the alarm unit when not in use, with the battery for example remaining charged during the day, and ready for use in the night.

The alarm unit may be connected to a mains electrical supply so as to have a constant power supply and may in some embodiments include a mains electrical connection.

The alarm unit may include a safety mechanism that ensures that the alarm unit has sufficient charge to unlock the lock so as to ensure the user portion can always be removed.

An override button or system may be provided so that the user portion can be removed from the user even if power of the alarm unit was depleted. For example the alarm unit may include a second battery that activates only on power failure from the mains or primary battery(ies).

In some preferred embodiments the alarm unit is adapted to receive the user portion, for example having a recess in which the user portion can be located when not in use or a ledge on which the user portion can be placed. Advantageously the alarm unit may be adapted in such a way that the user portion is charged whilst arranged on the alarm unit.

Preferably the alarm unit and/or user portion includes a means to prevent the user portion locking whilst located on the alarm unit (and not on the user). For example a mechanism is provided to prevent the lock activating when position on the alarm unit whilst not in use. In this way the user portion can be readily removed from the alarm unit and positioned on the user.

In some embodiments the alarm unit may include a highlighted area against which the user portion is presented for unlocking and disabling of alerts. For example a section of the alarm unit may be shaped or coloured in such a way that it is readily identified by a user.

Preferred embodiments of the invention will now be described with reference to the Figures in which:

DETAILED DESCRIPTION OF FIGURES

The alarm apparatus shown inFIGS. 1 to 6shows one embodiment of the apparatus300wherein there is provided an alarm unit100and a user portion200.

The user portion200as shown specifically inFIGS. 3A, 3B, 3C and 3Dis comprised of a flexible strap7, with an inflexible housing6,8that comprises the user attachment mechanism1. The user portion200is stored and charged on the alarm unit200as shown inFIGS. 4A and 4Band the alert can be set for the user portion and alarm unit using the control buttons10on the alarm unit.

The flexible strap7is inelastic so that once attached it cannot be pulled away from contact with the user. The user portion200is therefore able to be sold in different sizes to ensure it is fitted tightly to the desired user, so preventing removal unless the user portion is unlocked to the open configuration. For example the user portion may be provided in small, medium, large and extra-large sizes.

In other embodiments the flexible strap7may include a ratchet strap type attachment mechanism to ensure a tight fit such as a cable tie.

The housing6,8, includes a flexible or curved PCB17that has a timer (not shown) which can be set at the alarm unit100. The desired time is set on the alarm unit100and this data is transferred to the user portion200so as to generate the localised alert at the pre-set time.

Two ends of the flexible strap7are joined by a locking mechanism1so as to form a locked loop, thereby locking the user portion200to the user. The flexible strap7is formed from a non-elastic silicone band.

The locking mechanism1is in the form of a clasp which is unlocked by swiping or locating the housing6,8in the indentation11of the alarm unit100, above the display screen15.

The alarm unit100includes a magnetic mechanism (not shown) within the housing6,8to unlock the clasp locking mechanism1that is operated by internally displacing catch5and loop4(seeFIG. 6A).

Typically a sprung pin (not shown) locks the catch5and loop4together, which a magnetic force from the alarm unit100pulls open so as to unlock the mechanism.

Such magnetic force may only be operated by the alarm unit100upon recognition of a variable, such as a time variable or digital signal; wherein the magnet comprises an electromagnet. In some further embodiments Radio Frequency Identification (RFID) may be utilised so as to recognise the user portion200.

Referring toFIG. 4A, charging pins12,9locate and connect with points on the user portion200for when in non-use so as to permit charging and data transfer. A central recess11locates the user portion200for unlocking during use. The housing6,8is formed from a rigid polymer and houses electronic components such as the PCB17, battery18and the locking mechanism1.

Electrode points2issue an electric shock and/or targeted vibration points. The alarm unit100includes an on/off button14so that they alarm unit can be turned off when not in use or when the apparatus is fully charged.

Housing for the alarm unit100electrical components is made from a synthetic plastics polymer. In some embodiments the alarm unit100has a metallic finish, for example brushed stainless steel.

The alarm unit100includes the recess11that has a user attachment mechanism override section, comprising an electromagnet (not shown) so as to permit unlocking of the user portion.

FIGS. 2 and 6Cshow an inner face of the user portion200wherein a port3is provided for connecting the user portion200to the alarm unit100for charging.

The alarm unit100includes a stand13in the form of two legs that permit the alarm unit100to be positioned on a surface wherein the display15can be easily viewed and the user portion200readily located on the alarm unit100. A front face of the alarm unit100includes controls10(SeeFIG. 4A) providing a user interface by which the alarm apparatus300can be operated, for example wherein parameter settings can be changed.

Screen15displays time and functions of the alarm apparatus, so that for example a user can see the current time and the time at which the alert will be triggers. The screen15may also indicate the selection of alerts that are set to be triggered, for example audible, visual and/or haptic.

FIGS. 7 to 17show a second embodiment of the alarm apparatus300.FIG. 7shows the alarm unit100and user portion (wristband)200separately.FIGS. 8 to 12show different views of the user portion200mounted on the alarm unit100. The alarm unit100is frusto-conical, having a base110that is wider than the top120. The alarm unit100has a recess130that is adapted to receive the user portion200. In this way the user portion can be housed on the alarm unit100when not in use. Advantageously this permits the alarm apparatus300to be readily packaged for sale and transport.

The recess130also includes a depression135for receiving the contact plate of the user portion200. The top120of the alarm unit100includes a display in the form of a screen that can display alarm information and the time. An outer face of the alarm unit100includes a plurality of control buttons10to allow a user to manually set and adjust the alerts. The alarm unit includes a charging port140.

FIGS. 13 to 15show different views of the alarm unit100with the user portion removed.FIG. 14shows a plug150that is received by a socket240on the user portion. The plug150serves to locate the user portion200into the recess and prevents the lock from locking whilst on the alarm unit100, even when the first and second ends210A and201B are engaged with one another. The plug150prevents the locking plate202from engaging with the second end210B of the user portion.

FIG. 15shows an exploded view of the alarm unit100. The alarm unit has: an upper casing121, a mask122, baffles123, a display and a Printed Circuit Board Assembly (PCBA)124. Middle casing125has four pogo pins126for the PCBA. Lower casing116includes a weight115; a power PCBA114; a port surround113; a base casing112; and a base pad111. The weight115ensures the alarm unit is stable when positioned on a surface. The pogo pins126connect with a terminal on the user portion200to permit charging and/or data transfer.

FIGS. 16 and 17show the second embodiment of the user portion200. The user portion200has a first end210A and a second end210B. The ends201A,210B are joined in use so as to form a band around the user's wrist. The user portion200comprises: an upper casing201A and a lower casing201B; a locking plate202; a magnet203; a partition204; a transformer205; a transformer platform206; connecting screws207; a PCBA; a casing for the contacts221; a battery208(typically a lithium battery) and two contacts220.

The first end210A includes a channel240(seeFIG. 17) into which the second end210B is received. The second end210B has a plurality of grooves211.

The channel includes displaceable, sprung locking plate202that is released to engage with and clamp the second end210B in position wherein the locking plate202is in contact with the second end210B. In this way the wristband is locked and cannot be removed. Typically the locking plate includes projections (not shown) that correspond with the grooves211so as to provide a more secure lock.

The locking plate202is mounted within the channel240. The locking plate202is mounted on a spring202A. The locking plate202includes a magnet203that enables the locking plate to be displaced from the second end210B and spring202A compressed when the user portion is presented to a second magnet (not shown) located within or on the alarm unit that serves to elevate the locking plate202from the second end210B so that the second end210B can be pull out of the channel240.

The size and proportions of the user portion will be dependent on the required internal components. Unit materials could be a combination of synthetic plastic and metal, for example a high gloss plastic and brushed metal. The user portion200is ergonomically designed so as to allow for a comfortable sleep.

In use the alarm unit100may be placed in a different room, forcing the user to get out of bed to the location of the alarm unit so that the alert(s) can be deactivated. Therefore the use must move to the location of the alarm unit100so that the magnetic clasp can be opened by unlocking the attachment mechanism through interaction with the alarm unit100. The user portion200must be placed in close proximity, if not touching, the alarm unit100so that the magnetic clasp is opened. Typically the user portion200is presented within 50 mm and preferably within 30 mm of the second magnet in or on the alarm unit100. This system ensures the user gets out of bed promptly and avoids continued alerts such as vibrations or electric shocks.

The user portion200is typically stored on the alarm unit100when not in use. When the alarm apparatus is in use the user will put on the user portion. The magnetic clasp1locks in place and can only be removed by the alarm unit100.

A user will set parameters on the alarm unit. Typically a user may also set their standard alarm on their mobile phone, the alarm apparatus300is set for the same time and programmed to activate the alerts at a preselected time after the initial alarm time. For example if the phone alarm and alarm apparatus are set for 07.00 the phone alarm sounds at 07.00 and the alerts are triggered to activate from 07.01 allowing a user one minute to make their way to the alarm unit and deactivate the alerts before they start. This delay period can be set by a user. In this way the mobile phone is considered a primary alarm and the alarm apparatus is a secondary alarm.

Once the input data from the alarm unit has been synced with the user portion the timer is activated, counting down to the alert time.

The primary alarm signal sounds, giving the user a pre-determined time period to get to the alarm unit and remove the user portion (wristband). The user may choose to ignore the alarm but will then be subject to the local alerts generated by the user portion, or they can get out of bed and unlock/deactivate the user portion by presenting it to the alarm unit100. Once the user is up the user portion200can be located on the alarm unit and commence their day.

The invention has been described by way of examples only and it will be appreciated that variation may be made to the above-mentioned embodiments without departing from the scope of invention as defined by the claims.