The present invention relates to childproof ignition devices for hand-held lighters.
As used herein, the term “lighter” broadly refers to a manually operable device for igniting fuel to generate a flame, including but not limited to pocket lighters, utility lighters, torches, and the like.
It is known to provide lighters with a mechanism for resisting undesired operation of the lighter by young children. These mechanisms may include a safety switch that shuts off the fuel source or prevents movement of an operating trigger on the lighter. The safety switch may be depressible or slidable by a user to release the operating trigger for movement to operate the lighter, and is typically spring-biased to automatically return to a safety position when the user removes finger pressure from the safety switch.
In another type of safety mechanism, a piezoelectric igniter is normally located away from operative engagement with the operating trigger of the lighter, and a safety switch is operable by a user to reposition the piezoelectric igniter into operative engagement with the trigger so that operation of the trigger will cause ignition. The safety switch and/or the piezoelectric igniter may be spring-biased such that the igniter automatically returns to its original position away from operative engagement with the trigger when the user removes finger pressure from the safety switch.
A drawback of the mechanisms known to applicant is that operation of the safety switch just prior to activation of the operating trigger is a relatively conspicuous action that is readily observable by a curious child. In some cases, a user must use two different fingers, one to actuate the safety switch and another to operate the ignition trigger, making it very difficult to conceal how the lighter is operated. Consequently, the childproof nature of known lighters may endure only for a brief period of time in some households because the operating technique may be readily understood by an observant child who shares his or her knowledge with siblings and peers.
There is a need for a childproof ignition device having a manner of operation that is not readily apparent to observers, especially children, and is not easily discoverable by children experimenting with the lighter.
The present disclosure provides a lighter with a childproof ignition device having a safety button that is concealed during use from curious observers.
The lighter generally comprises a housing sized to be grasped in a hand of a user, a fuel reservoir for containing lighter fuel, a burner in communication with the fuel reservoir, and a fuel ignition system. The fuel ignition system has a safety configuration in which the fuel ignition system is inoperable to release and ignite lighter fuel from the fuel reservoir and an ignition configuration in which the fuel ignition system is operable to release and ignite lighter fuel from the fuel reservoir. The fuel ignition system is biased to normally assume the safety configuration, and includes an ignition trigger mounted on the housing for movement relative to the housing in an ignition direction to operate the fuel ignition system when the fuel ignition system is in the ignition configuration. The fuel ignition system may include a piezoelectric igniter compressible to generate a spark to ignite lighter fuel from the fuel reservoir, wherein movement of the ignition trigger in the ignition direction when the fuel ignition system is in the ignition configuration compresses the piezoelectric igniter and opens a fuel valve to ignite released fuel.
The lighter additionally comprises the aforementioned safety button, which is mounted on the housing for movement relative to the housing to an activate position to selectively reconfigure the fuel ignition system from the safety configuration to the ignition configuration. The safety button and the ignition trigger are arranged on the housing such that an activation force required to move the safety button to the activate position and an ignition force required to move the ignition trigger in the ignition direction are directed opposite to one another. The safety button may be arranged on the housing for contact by the purlicue of the user's hand and the trigger is arranged on the housing for contact by a finger of the hand. Consequently, operation of the safety button is concealed during use, and the lighter is operable using only one hand.
In a first embodiment, the fuel ignition system includes a displaceable detent member which is arranged in a lockout position to prevent movement of the ignition trigger in the ignition direction when the fuel ignition system is in the safety configuration. The detent member is coupled to the safety button such that movement of the safety button to its activate position displaces the detent member from its lockout position to a detent release position to allow movement of the ignition trigger in the ignition direction.
In a second embodiment, the ignition trigger is in operative engagement with a first end of the piezoelectric igniter, and the piezoelectric igniter travels in an uncompressed condition with the ignition trigger when the ignition trigger is moved in the ignition direction while the fuel ignition system is in the safety configuration. The safety button includes an abutment surface for engaging a second end of the piezoelectric igniter when the safety button is moved to its activate position, such that the piezoelectric igniter is compressed between the ignition trigger and the abutment surface of the safety button to generate a spark when the ignition trigger is moved in the ignition direction while the fuel ignition system is in the ignition configuration. The safety button may be movable linearly or rotatably to the activate position.
The nature and mode of operation of the present invention will now be more fully described in the following detailed description of the invention taken with the accompanying drawing figures, in which:
Reference is now made to
Lighter 10 further comprises a fuel ignition system generally identified by reference numeral 30. Fuel ignition system 30 has a safety configuration, illustrated in
Fuel ignition system 30 may include a displaceable detent member 34. When fuel ignition system 30 is in its safety configuration shown in
Detent member 34 may be directly or indirectly coupled to safety button 16 such that movement of the safety button by a user causes displacement of the detent member. As shown in
Fuel ignition system 30 may be biased to normally assume the safety configuration shown in
As will be understood from the foregoing description, safety button 16 and ignition trigger 14 are arranged on housing 12 such that an activation force required to move safety button 16 to the activate position and an ignition force required to move ignition trigger 14 in the ignition direction are directed opposite to one another. Lighter 10 can therefore be operated with one hand by drawing the index finger on ignition trigger 14 toward the purlicue region of the hand in contact with safety button 16. Initially, when opposing forces are first applied by the index finger and purlicue, ignition trigger will be prevented from movement in the ignition direction as distal end 14B of extension arm 14A abuts with detent member 34. As the opposing forces applied by the index finger and purlicue increase to a predetermined force level, safety button 16 will be displaced to its activate position to reconfigure fuel ignition system 30 from its safety configuration (
As may be understood, operation of safety button 16 is concealed by the user's hand, and the distance from the outer surface of safety button 16 to the outer surface of ignition trigger 14 may be made relatively large to fit an adult's hand but not a child's hand. A child observing operation of lighter 10 by an adult will see that ignition trigger 14 is actuated, but will not see actuation of safety button 16. When the child attempts to use lighter 10 by replicating the observed operating technique, the child will be frustrated because the ignition trigger will not move far enough to cause ignition. The child will not be inclined toward possible two-handed operation of lighter 10 because this would be a departure from the observed operating technique.
Lighter 50 is generally similar to lighter 10 of the first embodiment in that lighter 50 comprises a housing 52 sized to be grasped in a hand of a user, and an ignition trigger 54 and a safety button 56 each mounted on housing 52 for movement relative to the housing. Ignition trigger 54 and safety button 56 are arranged on housing 52 such that when the housing is grasped in the hand of a user as intended, the safety button 56 is contacted by the purlicue of the user's hand and the ignition trigger 14 is contacted by a finger of the user's hand, for example the index finger as illustrated in
Lighter 50 comprises a fuel reservoir 58 for containing lighter fuel, and a burner 60 in communication with fuel reservoir 58 by way of a fuel valve 62, a fuel conduit 64, and a burner tube 66. Lighter 50 further comprises a fuel ignition system 70.
Fuel ignition system 70 has a safety configuration, illustrated in
Ignition trigger 54 is in operative engagement with a first end 72A of piezoelectric igniter 72, and the piezoelectric igniter travels in an uncompressed condition with ignition trigger 54 when the ignition trigger is moved in the ignition direction while the fuel ignition system is in the safety configuration. Piezoelectric igniter 72 remains uncompressed because ignition trigger 54 has a limited range of travel in the ignition direction, and a second end 72B of the piezoelectric igniter is not held or abutted by opposing structure in this limited range of travel.
Safety button 56 is movable relative to housing 52 to an activate position, shown in
Safety button 56 may be mounted on housing 52 to move linearly to the activate position. Safety button 56 may be biased away from the activate position by one or more springs 74, 76. Spring 74 may be arranged to act between piezoelectric igniter 72 and an inwardly facing surface of safety button 56 to urge an upper portion of safety button 56 outward against a limit surface 78 of housing 52, and to urge piezoelectric igniter 72 and ignition trigger 54 in a reset direction opposite the ignition direction. Spring 76 may be arranged to act between housing 52 or structure fixed within housing 52 (e.g. fuel reservoir 58) and an inwardly facing surface of safety button 56 to urge a lower portion of safety button 56 in an outward direction. As will be understood, the action of springs 74, 76 biases fuel ignition system 70 to normally assume the safety configuration shown in
Similar to the first embodiment, safety button 56 and ignition trigger 54 are arranged on housing 52 such that an activation force required to move safety button 56 to the activate position and an ignition force required to move ignition trigger 54 in the ignition direction are directed opposite to one another. Operation of lighter 50 is therefore similar to operation of lighter 10 described above, and achieves the same childproofing benefits already mentioned.
Safety button 56 shown in
As may be appreciated from the foregoing description, the present disclosure provides a childproof ignition device for a lighter that is both simple to manufacture and effective for child safety. A further advantage is that the lighter may be operated with only one hand.
While the invention has been described in connection with exemplary embodiments, the detailed description is not intended to limit the scope of the invention to the particular forms set forth. The invention is intended to cover such alternatives, modifications and equivalents of the described embodiment as may be included within the scope of the claims.