Robert McCaIl White

Remote Child Locator

Claim of Priority

This application claims priority to Utility Application 11/123,908, filed on 5/6/2005 and entitled "Remote Child Locator", which is incorporated by reference herein in it's entirety.

Field of the Invention

The present invention is directed to the field of child protection. In particular, the present invention is directed to field of electronic child protection.

Background of the Invention

In the United States each year, thousands of children are abducted or lost at public venues. The safety and welfare of children takes the utmost priority in the lives of most people. The public have been turning to technology more and more to protect children and to prevent their abduction, injury and harm. Such technological means have included both audio and video monitors, alarm systems and the like.

The risk of abduction is one of the greatest risks to parents and/or child care providers. While technology exists for protection of automobiles against similar threats such as car jacking and theft, this technology has not been used to protect children against similar threats. Many children become lost and/or abducted while returning from school, playing at a friend's house, while engaged in extended outdoor activities such as hiking or camping or while at malls and the like.

The prior art includes security devices in which a lost or abducted child can be located by using a radio receiver that monitors the signal transmitted by a matching transmitter in possession of the lost or abducted child. U.S. Patent No. 6,593,851 discloses a two-way, parent-child communication system includes a parent unit and at least one child unit. The parent and child units are capable of both sending and receiving signals to and from the corresponding unit to cause any number of alerts or messages to be communicated to the parent, child and/or guardian. Each unit may include a number of different alert mechanisms, including an audible alert, a visual alert, a vibratory alert or voice messages.

U.S. Patent No. 6,243,039 discloses a system that tracks the current and historical locations of a GPS locator device carried by a person provides widely available access to data referencing these locations, so that a parent can easily and frequently monitor the location of a child. Monitoring of a child's location may be conducted via a Web site, which provides graphical maps of location data, or via calling into a call center. The present invention also provides a means for a parent to trigger the automatic transmission of the device's location, via a Web site or call placed to a call center agent or a VRU. The present invention also provides a process of auto-notification of a device's movement that exceeds a pre-specified threshold. The present invention also includes a capability to function as a proximity alert device.

U.S. Patent No. 6,127,931 discloses a device for monitoring the movement of a person including a homing unit and a base unit. The homing unit includes a device for generating a homing signal and a transmitter for transmitting the homing signal at predetermined intervals. The base unit includes a receiver for receiving the homing

signal, a processor for processing the homing signal to determine whether the homing unit is within a predetermined distance from the base unit and generating an alarm signal upon determining the homing unit is at a distance from the base unit greater than the predetermined distance. An alarm is provided on the base unit for alerting a user that the homing unit has moved a distance greater than the predetermined distance from the base unit upon receipt of the alarm signal from the processor. The alarm is at least one of an audible alarm, a visible alarm and a vibratory alarm. At least one of the base unit and homing unit includes a device for adjusting the predetermined distance. The processor determines a time between receipt of sequentially transmitted homing signals to determine the distance between the base unit and homing unit. The base unit further includes a display for displaying the distance between the base unit and homing unit and a direction to the homing unit from the base unit.

U.S. Patent No. 6,278,370 discloses a child locating and tracking apparatus which provides for the location of a child that is lost, abducted or in general danger to be quickly located is disclosed. The apparatus uses a small transmitter that is always carried by the child and as such, is always present when danger arises. The transmitter is easily disguised and hidden in the child's clothing or personal adornments such as shoes, coats, watches, earrings, bracelets, rings and the like. The apparatus uses a system of world wide receivers such as those provided by local cellular telephone towers or by low earth orbiting satellites used for low power communication. When a child is lost or in danger, the child simply activates the transmitter which sends a signal to a central reporting station or stations where trained personnel will contact the respective parents and/or care givers to determine if the child could possibly be in

danger. If an affirmative decision is reached, the monitoring station personnel will then assist the local law enforcement officials in the respective area anywhere in the world where the alarm was received in locating the child and removing the child from harm's path.

U.S. Patent No. 5,689,240 shows a system that transmits and receives signals comprising a master unit and a remote unit, wherein a separation distance between the master unit and remote unit is continuously monitored and an alarm is activated on the master unit when no signal is received from the remote unit for at least a time longer than a preset interval. If the separation distance between the master and remote unit is exceeded for a time longer than a preset time interval, the remote unit activates an alarm attached to the remote unit. The master unit may also be used to activate manually the remote unit's alarm. A pin or key arrangement is provided that ensures that the remote unit is not deactivated without interfacing with the master unit.

U.S. Patent No. 6,486,777 to Clark has an issue date of November 26, 2002. This invention is directed to an apparatus and method for an operator to monitor the whereabouts of a subject, the apparatus comprising a portable remote unit connected to the subject, the remote unit including a remote unit power supply, a radio transmitter for sending a substantially constant remote unit radio signal, a radio receiver for receiving a base unit radio signal, a remote unit alarm, and a dye pack for releasing dye substantially responsive to submersion of the remote unit in water. The apparatus also includes a base unit in radio communication with the remote unit for enabling the operator to monitor the whereabouts of the remote unit, the base unit including a base unit power supply, a radio transmitter for sending the base unit radio signal, a radio

receiver for receiving the substantially continuous remote unit radio signal, a distance estimator for substantially estimating the distance between the base unit and the remote unit, a base unit alarm responsive to the remote unit radio signal so that the base unit alarm is activated when the remote unit radio signal is altered, and a direction finding function for generally finding the direction from which the remote unit signal originates, relative to remote unit radio signal strength.

U.S. Patent No. 6,078,260 discloses a system for monitoring the proximity and location of a child by a parent includes two transceiver units which communicate wirelessly. The child unit will transmit a signal to the parent unit so that the parent unit can determined the proximity of the child unit and its direction. A safe zone may be set by controls on the parent unit. When the child unit moves beyond the safe zone, the parent unit will generate an alert.

U.S. Patent No. 6,326,891 shows compact warning device for preventing child from being lost comprises a high frequency distance-adjustable host transceiver and a plurality of slave transceivers wherein the high frequency host transceiver is carried by the parents and a high frequency slave transceiver is secured on a child, and the host and the slave transceivers can proceed bi-directional page or response with its counterpart. When one of the slave transceivers departs from the host transceiver beyond a preset security range, both the host and the slave transceiver will alarm to warn the child and the parents in order to prevent the child from being lost. Moreover, as this invention is capable of adjusting security range in multiple stages, it can fit various circumstantial conditions.

While the prior art discloses a number of systems directed to monitoring small children and the like, it is an object of the present invention to provide a system whereby a lost child or pet can be rapidly located by means of an electronic transmitter and receiver.

It is a further object of the present invention to provide a system whereby a transmitter can create an audible sound for the location of a lost child.

It is a further object of the present invention to provide a signal which can be heard by individuals proximate to the child.

It is a factor object of the invention to provide a device having a proximity sansor.

It is a further object of the invention to provide a modular receiver which can insert into the heel child's shoe.

These and other objects of the present invention will become apparent from the detailed description and claims which follow.

Summary of the Invention

In accordance with the invention, a child locator apparatus comprising: a receiver inserted with in an object held proximate to child and having a sound activator; a transmitter held by a parent and having an activating button to trigger an alert on the receiver which activates the sound activator.

In a further embodiment, the invention is a child locator apparatus comprising: a reciever inserted with in a child's toy affixed to the child's person; a transmitter held by a parent and having an activating button to trigger an alert on the receiver; and a proximity sensor which automatically activates the alert when the receiver is a predetermined distance from the transmitter.

In yet a further embodiment, the invention is a child locator apparatus comprising: a reciever inserted with in a child's toy affixed to the child's person; a transmitter held by a parent and having an activating button to trigger an alert on the receiver; and a proximity sensor with a distance setting ability which automatically activates the alert when the receiver is a predetermined distance from the transmitter.

In another embodiment, the invention is a child locator apparatus comprising: a reciever module inserted within a cavity of the heel of a child's shoe; a transmitter held by a parent and having an activating button to trigger an alert on the receiver; and a proximity sensor with a distance setting ability which automatically activates the alert when the receiver is a predetermined distance from the transmitter; and pin means to lock and release the receiver from the shoe.

In still a further embodiment, the invention is a child locator apparatus comprising: a reciever inserted with in a child's toy affixed to the child's person; a battery powered transmitter held by a parent and having an activating button to trigger an alert on the receiver; and a proximity sensor which automatically activates the alert when the receiver is a predetermined distance from the transmitter.

Brief Description of the Figures

Figure 1 is a perspective view of the child alert system of the present invention.

Figure 2 discloses the transmitter module of the present invention.

Figure 3 is a block diagram of the receiver module of the present invention.

Figures 4 and 5 are block diagrams of a further embodiment which includes a proximity sensor.

Figure 5 is an alternative abandonment of the invention which illustrate a module.

Figure 7 is a rear view of the second embodiment of the invention.

Figure 8 is a side view of the embodiment.

Figure 9 is an overhead view of the present invention.

Figure 10 is an alternative activator.

Detailed Description of the Invention

The present invention is a remote child locator device which will be sound audible device for locating lost or wandering children for distances up to two hundred feet and may further be adapted to include pets. A critical feature of the present invention is that the receiver can take the form of a baby toy, ball, doll, or tiny car. As such, the receiver is inconspicuous and does not attract attention. In one embodiment of the invention, comprises a pair of sunglasses in which the receiver/transmitter is being used in the head support or ear piece. While the invention is being described in the context of a system in which the receiver is attached to the child and the transmitter to the parent, it will be readilly apparent that this can be reversed.

The invention 10 comprises two basic components; a receiving/sound emitting device or module 12 and a transmitter module 14. The receiver/noise emitting device 12 will be contained within or on one of various common child associated items such as a small soccer ball, doll or toy. The device will be an effective, non-intrusive and low cost solution for helping parents find that wandering child that decides to play hide

and seek amongst clothing displays and helps to reduce a potential kidnapper preying on a lost child.

The invention is now more specifically described as follows. Referring now to Figure 1 , a perspective view of a child locating apparatus 10 is disclosed. As noted, the receiving/sound module 12 is shown within a child's adornment such as a toy, doll or trinket 20. The adornment 20 may be attached to the child by means of a retaining means 25, such as a chain or, alternatively, a zipper, fabric, buttons, snaps, clasps, lace or the like. It is important that the retaining means 25 holds the adornment 20 with the associated receiver module 12 in close contact with the child's body to prevent loss or removal. As noted, the adornment can be disguised as a pair of sunglasses.

The adult or parent typically holds the transmitter device 14 which may be associated with a small hand held device of the size and shape typically associated with automatic car door openers as shown in Figure 1. The overall size of the transmitting module 14 is preferably two to three inches in length by approximately one inch in width. The transmitting module 14 has an activating button 18 and an on/off switch 22. The shape of the receiver by contrast is primarily dictated by the physical shape of the ornament 20 (as shown in Figure. 1).

The module further includes a power supply 23 and voltage regulator 25. The overall enclosure of the transmitting module 14 may, in one embodiment, comprise injection molded plastic with appropriate seals to allow its use under wet or submerged conditions. As noted, the transmitting module may be part of a key chain. The system further includes a time delay module 32.

The transmitting module 14 further includes a battery level indication light 30. The battery level indication light 30 will illuminate when less than a day's usable energy remains in the internal battery. The battery level indication light 30 should be observed daily by examining the transmitting module 14.

In operation, the parent or adult holds and mantains the transmitter. By depressing the activation button for a length of time greater than the pre-set time delay, an HF signal is transmitted via HF transmitter 33 which provides an output signal via antenna 34. The antenna 34 is envisioned to be of a loop type that may be embedded in the perimeter of the transmitting module 14 (as shown in Figure 2), though it may be seen by those familiar in the art that other types such as microwave, dipole, multiple array and other type antennas will work equally as well and is not intended to be a limiting factor.

The activating button 18 provides an input to the radio frequency transmitter 33 through the form of a normally open activation switch. As noted, a time delay activation button 18 provides an input to a time delay module 32 through the form of a normally closed push-button switch. The time delay is intended to prevent inadvertent activation. The time delay module 32 is a simple, commonly known time delay circuit that accepts an input signal, and after a predetermined time delay, passes the input signal onto the HF transmitter. The time delay interval is envisioned to be on the order of five seconds.

The battery provides input power to a voltage regulator 25 as shown. In the event of low power output from the battery, an electrical signal is applied to the battery level indication light 30. The internal parameters of the voltage regulator module 25

are such that there is at least 24 hours of advance warning that the battery 23 is depleted of power before the battery ceases to function. Output power from the voltage regulator module is applied to the radio frequency transmitter 33 and to an identification module 37. The critical identification module 37 is set uniquely for every child locating and tracking apparatus 10 manufactured and posses a unique digital binary signature. This signature is applied to the radio frequency transmitter 33 through a digital signal path. All components envisioned to be of the microminiature nature and perhaps combined by use of Very Large Scale Integration or future electrical assembly method still under development.

The receiver module 12 includes an on/off switch 40, battery 42, and low battery light 44. The system also includes an HF receiver 46 and corresponding ID module 48 which matches the ID module 37 of the transmitter. An antenna is included as well. The receiver antenna 52 is similarly envisioned to be of a loop type that may also be embedded in the perimeter of the receiving module 12. Other types such as microwave, dipole, multiple array and other type antennas will work equally as well and is not intended to be a limiting factor.

In operation, activation of the transmitting module 14, sends a radio frequency signal as shown in Figure 1 to the receiver. Upon activation by the transmitter 14, a loud beep or horn element is activated via an audio generator 49 and speaker 50.

A further embodiment of the invention is now shown in Figures 4 and 5. In this embodiment the invention includes a proximity sensor 54. The proximity sensor 54 is designed to send an electronic signal when a child is beyond a certain distance from

the transmitter. The sensor can be set so as to trigger the signal at varying distances e.g., 25, 50, 100 feet.

Figures 6 to 9 illustrate yet another embodiment of the present invention. Figure 6 illustrates the intention as a shoe module insert which is inserted into the heel of a shoe. The embodiment receiver shows a view like insert which slips into the cavity of the shoe heel. The insert has a speaker 64 and on/off switch 62 and an activation light 66. The receiver of Figure 6 has the components shown in the receiver of Figures 3 and 5, all of which are contained within the module.

As shown in Figure 8, the insert slides into the cavity of the heel 73. Figure 9 illustrates a spring loaded release button 70 for allowing the insert to be locked and adjusted. The module has an extension 75 which latches onto the release button 70.

Figure 10 illustrates an alternative transmitter activator within the teachings of the invention. The transmitter contains the components of the transmitters discussed above

The present invention has been described with reference to the enclosed preferred emboidment. It is to be appreciated that the other emboidments fulfill the spirit and scope of the present invention and that the true nature and scope of the invention's do be determined with response to the claims appended hereto.