Related Art There are a number of different portable rechargeable lanterns available. Conventional rechargeable lanterns, however, usually require a special power cord containing a built-in AC-to-DC adapter in order to recharge a battery housed in the lantern. If the user loses the specialized cord, or confuses the cord with another similar cord for another rechargeable appliance, the conventional lantern becomes useless.

Additionally, conventional lanterns are typically one integral unit, requiring the user to position the entire lantern, or to hold it in awkward or unstable positions in order focus the light where it is needed.

Some lanterns have swiveling lamps, but this requires the user to handle the lamp itself to position the light. Lamps used for illumination can get hot or the user may otherwise damage the lamp while handling it.

Further, other lanterns are provided with a foldable stand. However, when the stand is deployed, the entire weight of the lantern, including the battery, rests on the stand, which renders the configuration top-heavy and unstable.

Therefore, there is a need for a portable rechargeable lantern that is both easy to recharge and easy to position for optimum light placement.

SUMMARY OF THE INVENTION In an exemplary embodiment, a portable rechargeable electric lantern is provided, which

comprises: a head lamp; a handle coupled to the head lamp; a base coupled to the handle by a pivot coupling; a cavity housing an AC connector in the base; an AC-to- DC adapter housed in the base and coupled to the AC connector; and a rechargeable battery housed in the base and coupled to the AC-to-DC adapter, where the battery is recharged when the AC connector is coupled to an AC power source.

In another embodiment of the invention, a portable rechargeable electric lantern comprises a housing defining a cavity. An AC connector is disposed on the housing. A head lamp includes a lamp, reflector and lens and is coupled to the housing. An AC-to-DC adapter is disposed within the housing and is coupled to the AC connector. A rechargeable battery is disposed in the housing and is coupled to the AC-to-DC adapter and to the lamp, wherein the battery is recharged when the AC connector is coupled to an AC power source.

In another embodiment of the invention, a lantern comprises a base defining a cavity therein. A handle has a first end and a second end, the second end is pivotally coupled to the base. A lamp head includes a lamp and is disposed at the first end of the handle. A rechargeable DC power supply is disposed in the cavity and is couplable to the lamp. An AC to DC adapter is disposed in the base and is coupled to the power supply to recharge the power supply when provided with AC power, wherein the handle and the lamp head are moveable between a lowered position in which the handle is substantially parallel to a bottom of the base and the lamp head is received by the base and a raised position in which the lamp head and the handle are inclined at an angle with respect to the base.

Further features and advantages of the invention, as well as the structure and operation of various embodiments of the invention, are described in detail below with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 illustrates a perspective view of a portable lantern with a swivel handle in a closed position according to an embodiment of the invention; FIG. 2 illustrates a side view of the portable lantern of FIG. 1 with the swivel handle in an closed position; FIG. 3 illustrates a perspective view of a portable lantern with a swivel handle in an open position according to an embodiment of the invention; FIG. 4 illustrates a bottom view of a portable lantern according to an embodiment of the invention; and FIG. 5 illustrates a rear view of a portable lantern according to an embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION An embodiment of the invention is discussed in detail below wherein like reference numbers generally indicate identical, functionally similar, and/or structurally similar elements. While specific exemplary embodiments are discussed, it should be understood that this is done for illustration purposes only. A person skilled in the relevant art will recognize that other components and configurations can be used without departing from the spirit and scope of the invention.

FIGS. 1 and 2 illustrate a perspective and a side view of an exemplary portable rechargeable electric lantern 102 according to the present invention. The lantern 102 has a handle 106 coupled to a base 108. The handle 106 may be provided with grooves on its

underside. The grooves are sized and shaped to receive the fingers of a user and form finger grips 110 on the bottom side of the handle 106. The handle 106 may also be at least partially covered with a shock absorbent material or other material to improve the gripability of the handle 106.

A lamp head 112 is disposed at a first end 114 on the handle 106. The lamp head may include a lamp, reflector, lens, bezel, and other typical flashlight components (not shown). The lamp may be an incandescent lamp, a halogen lamp, a fluorescent lamp, a light emitting diode or any other type of lighting element.

The lamp head 112 is releasably associated with the base 108. A second end 116 of the handle 106 opposite the lamp head 112 is coupled to the base 108 of the lantern 102 with a pivot coupling 118. The lamp head 112 may be pivoted about pivot coupling 1'18 between two positions, a raised position and a lowered position.

FIGS. 1 and 2 illustrate the lamp head 112 in a lowered position. In the lowered position, the lamp head 112 is received by base 108. Handle 106 is spaced from base 108 to allow a user to grasp handle 106. The base 108 includes a recess 120 configured to receive the lamp head 112. (See Fig. 3) A tab (not shown) may be provided on a bottom surface of lamp head 112. A corresponding slot 124 is provided on the base 108 to receive the tab. The lamp head may rest on the base 108 in the lowered position.

Fig. 3 illustrates the lamp head 112 in a raised position. Here, the lamp head 112 is moved from the lowered position in the direction of arrow 126 to the raised position. The lamp head 112 and first end 114 of the handle 106 move away from base 108 about pivot coupling 118. Second end 116 of handle 106 remains

coupled to the base 108. The lamp head is moved until it reaches the raised position, at which point it may be automatically locked into place. In the raised position, the lamp head 112 and handle 106 form an angle of about 45-degrees with respect to the base 108.

Of course, the lamp head can be positioned at other angles in the raised position.

The lamp head 112 may be locked into either of the lowered position or the raised position. When the lamp head 112 reaches one of these extreme positions, pivot coupling 118 may be automatically locked into place.

Pivot coupling 118 may include a spring pressure mechanism. The spring pressure mechanism is configured to lock the handle 106 into place when the handle 106 reaches selected positions, here the lowered and raised positions. The pivot coupling 118 includes buttons 128,129 disposed on either side. Button 128 pops out when the lamp head 112 reaches an extreme position and the lamp head 112 is locked into place. This indicates that the lamp head 112 is secured into position. The lamp head 112 can be unlocked and moved again by depressing button 128. This deactivates the locking mechanism allowing the lamp head 112 and handle106 to be moved. When the lamp head 112 reaches one of the lowered or raised positions, spring pressure lock mechanism is activated and the lamp head 112 is locked into place.

Pivot coupling 118 allows the lamp head 112 and handle 106 to be secured in the lowered position as shown in FIGS. 1 and 2. In the lowered position, handle 106 is substantially parallel to a bottom surface of the base 108. When in the lowered position, the handle 106 can be used to transport the lantern.

The pivot coupling 118 secures the handle 106 in place

so that the handle 106 does not accidentally slip and move to the raised position while the lantern is being carried or handled by a user.

Referring now to FIG. 4, a power supply 130 may be housed in a cavity in the base 108. The power supply 130 is preferably rechargeable, such as a rechargeable battery. The battery is preferably arranged with the battery's length perpendicular to the length of the base 108. Base 108 is provided with vents 132 that allow any gas generated during the battery recharging process to escape from the interior of the base 108.

Circuitry coupling the power supply 130 to the lamp in lamp head 112 may be provided in the base 108 and handle 106. For example, a power switch 134 may be provided on the handle 106. In the embodiment illustrated, switch 134 is provided on a bottom side of handle 106. Switch 134 is coupled to the battery in the base 108 and to a lamp in the lamp head 112.

Switch 134 is provided for a user to actuate the lamp.

Switch 134 may be a so-called"dead man's switch", that is, the switch must be held in the actuated position in order to illuminate the lamp. Switch 134 may include a biasing means, such as a spring. Once a user's finger is removed from the switch, the biasing means opens the switch.

In an embodiment of the invention, a means for securing the switch in the on position, allowing hands free operation of the lantern, is provided. Button 138 is provided on the handle 106 for this purpose. Switch 134 is depressed to illuminate lamp. Button 138 extends through the handle 106 perpendicular to a longitudinal axis of the handle 106. Button 138 is pressed while switch 134 is in the depressed position.

A hook or some other mechanism engages the switch 134

and holds switch 134 in the depressed position. When button 138 is moved in the opposite direction, switch 134 is released and the biasing means is able to return the switch 134 its normally-off position.

As mentioned above, the power supply is preferably rechargeable. Therefore, a recharging circuit is coupled to the power supply 130. Power to recharge the power supply is provided through the recharging circuit. The recharging circuit may be coupled to a recharging power source in order to recharge the power supply 130. Preferably, the recharging circuit is configured to receive both of an AC and a DC input.

For example, an AC input device may be provided on base 108. As shown in FIG. 5, a rear of the base 108 defines a cavity 140 containing an AC connector, for example, AC prongs 142. The AC connector 142 is coupled to an internal AC-to-DC adapter 144 (FIG. 4). The battery 130 is also coupled to the AC to DC adapter 144. The adapter 144 may be of a known type. Prongs 142 are adapted to be plugged into one end of a typical household extension cord. An opposite end of the extension cord with a plug is plugged into a typical wall outlet. When an AC power cable is connected between an AC power source, for example, a wall outlet, and to the AC connector, the battery 130 within the base 108 is recharged. Accordingly, the user may advantageously use a standard household extension cord to plug in the lantern, rather than having to use a custom-made power cord having a connected AC-to-DC adapter.

The lantern may also accommodate a DC recharging power supply. Thus, a DC input may also be provided.

The DC input can receive power input from a standard wall cube or other DC power source. A port 146 is

provided on the rear of base 108 to receive the DC input.

A second light source 148 may also be provided.

The second light source 148 may provide a lower intensity light compared with the lamp in lamp head 112. The second light source 148 may be a light emitting diode (LED). The second light source 148 may be arranged at any location, for example either in the lamp head 112 or in the base 108. Preferably, the LED is disposed in the base 108. In the embodiment illustrated, the base 108 is provided with a recess 150 to receive the LED. The recess 150 is arranged in the base 108 under the lamp head 112 when the lamp head 112 is in the lowered position. Accordingly, the recess 150 is spaced a distance from recess 120 receiving the lamp head 112. Thus, when the lamp head 112 is moved between it raised and lowered positions, the secondary light source does not move. Also, the lamp and the second light source 148 project a beam of light in the same general direction when the lamp head is in the lowered position. The lamp head 112 and second light source should be arranged so as not to interfere with each other.

The second light source 148 is coupled to the power supply 130 disposed in the base 108. A switch 154 on a rear surface of the base 108 is used to illuminate the second light source 148. The switch 154 is preferably separate from switch 134. However, a single switch can be provided to actuate both the lamp and second light source.

FIG. 3 illustrates the portable lantern 102 in an opened position according to a preferred embodiment of the invention. The lantern 102 remains steady regardless of the position of the head lamp 112 by

resting on the base 108. The user can use the handle 106 to position the head lamp 112 without having to handle 106 the lamp 112 directly.

A bottom portion of the base 108 may be provided with a shock absorbent material, such as a rubber-like material. The shock absorbent material may be arranged in a pattern along the bottom of the base 108. The pattern may include polygon-shaped protrusions separated by channels. The material may also be provided around the bezel of lamp head 112. The material protects the lantern from damage due to rough treatment.

Although an embodiment of the invention is described above as a lantern having a base, other embodiments also possible within the scope of the invention. For example, the portable light may be a flashlight having a housing with a tubular construction, as is typical of many handheld flashlights. The portable light may take essentially any form such as a spotlight, table lamp, among many others. The housing for the portable light should be able to contain an AC to DC adapter. Also, as mentioned above, the lighting element can take many various forms.

While various embodiments of the present invention have been described above, it should be understood that they have been presented by way of example only, and not limitation. Thus, the breadth and scope of the present invention should not be limited by any of the above-described exemplary embodiments, but should instead be defined only in accordance with the following claims and their equivalents.