The instant invention relates to a water-activated device that is adapted to salvage a user's smartphone or any device of value should the device fall into a body of water.
Specialized, hand-held devices such as smartphones can be water-resistant or water-proof, or separate accessory cases can be purchased to make them more water resistant in the event a user's device should fall into a body of water or otherwise get wet. However, if a smartphone is accidentally dropped into a dark, deep body of water such as a lake, the device will fall to the bottom of the lake and likely never be recovered. The water-proofing accessory serves no purpose in this instance since, although the phone may be usable, it is lost.
In addition, even if a smartphone is ruined after having been submerged in a body of water, the damaged device still has trade-in value or other value potentially under a user's phone plan. Moreover, although the smartphone may not function, the content on the phone such as contacts and pictures may still be retrievable.
Devices for salvaging personal items from water are known. U.S. Pat. No. 7,540,796 to Spears et al. is directed toward a device which provides buoyancy to objects. The invention comprises a water-sensitive trigger which, when activated, causes a balloon to inflate, causing the object to float upon the surface where the user can then easily and safely retrieve it, through one of two mechanisms: first, a compressed gas is allowed to exit a canister and enter a balloon, second, one or more substances which, when mixed with water will produce bubbles are exposed to water and the balloon is filled with bubbles from the chemical reaction.
U.S. Pat. No. 6,036,559 to Arnold et al. teaches a flotation device for causing an article to float if accidently dropped into water. The flotation device includes a casing, a compressed gas cartridge, a pierce head biased by compression of a firing spring, at least one trigger, a dissolvable ring, and a balloon. Escaping compressed gas fills the balloon and results in a positive buoyancy which floats an attached article.
U.S. Pat. No. 8,430,704 describes a device which will act efficiently as a float for any article (e.g. keys, mobile telephone, wallet) attached thereto when dropped into water comprising an inflatable bag of substantially waterproof and air impervious material, a container of compressed gas, and trigger means associated with the container and operable upon immersion of the device in water to open the container and allow gas from the container to inflate the bag.
U.S. Pat. No. 8,961,250 to Meyer teaches a self-inflating device which can include a container configured to receive a chemical compound, a one-way valve covering an opening leading to an inner volume of the container, and an inflatable portion fluidly connected to the inner volume of the container and configured to inflate with gas produced when the chemical compound is exposed to water. The inflatable portion can be configured to inflate when a gas pressure inside the self-inflating device exceeds a water pressure outside the self-inflating device.
However, today's modern, sleek mobile devices are aethestically pleasing and ergonomic to the extent the accessories also demand that they be un-intrusive and functional. For example, components which aid in the phone's hand-holding ability or small camera attachments are but a few attachable accessories for mobile phones which increase their functionality or add to their ease of use without taking away from their everyday need and look and feel. The instant accessory for salvaging the device in the instant the phone is dropped into a body of water is in line with modern demands and is not cost-prohibitive. Accordingly, it is desirable to have a means for recovering a phone or preventing the loss of the phone, or any device, within a body of water, as follows.
Comprehended is a water rescue device for a hand-held device, including a housing, the housing having defined therein a water inlet, an inflatable bladder within the housing, an air cartridge for inflating the bladder, a trigger for releasing the air, the trigger actuated by an environmental influence of water, wherein in response to the environmental influence the bladder inflates, resulting in positive buoyancy such that the hand-held device can float to the surface of any body of water.
More particularly, comprehended is a salvaging device, comprising a housing. The housing has an opening and a gas cartridge. A triggering mechanism is further packed within the housing, which includes: a lever arm having a plunger end and an arm end; a main spring within the housing above the lever arm cocking the lever arm in a downward position; a plunger over the plunger end, the plunger aligned with the gas cartridge; a retainer over the arm end, the retainer being water soluble and abutting the lever, wherein upon the retainer dissolving in a water environment, the main spring recoils to thereby unload the plunger into the gas cartridge such that gas can exit the opening. A plunger spring encircles the plunger, thereby maintaining the plunger above the gas cartridge, and a pin is disposed through the lever arm at the plunger end to retain the lever arm. A balloon is connected at the opening inflatable by the gas to thereby provide a buoyancy force to the handheld device upon inflation as the: retainer dissolves; the main spring recoils; the plunger unloads into and pierces the gas cartridge to fill the balloon.
Referencing
The salvaging device 1 includes a housing 2. Housing 2 is preferably made of a lightweight composite or any rigid or semi-rigid material. A pass-through 34 can be defined at any location at housing 2 so that the salvaging device 1 can have attached thereto a tether or similar. In a further embodiment, an LED can be attached to or fill the pass-through 34 to aid in visibility. Generally, housing 2 is the unitary containment element which contains the triggering mechanism 4 and other components, as follows.
Housing has an opening 3 defined as a hole on the exterior side 8 as shown. A housing slot 5 is defined transaxially at a housing top 6. Transaxially means across the axis if the axis is defined vertically through the housing. Housing slot 5 is expanded radially along its length at two locations to form a pair of cylindrical pockets 7 within housing 2. Housing slot 5 is sized to contain the lever arm 10 of triggering mechanism 4 and other components, as further described.
A gas cartridge 12 is contained within the housing 2 near the exterior side 8 in one of the pockets 7. Gas cartridge 12 is a gas-containing cylinder. For example, but not limiting by any means, the gas cartridge 12 can be a small-volume carbon dioxide chamber having an internal volume of 1.0 ml and a gas weight of 0.75 grams at a 75% fill density. Such a cylinder is approximately 25 mm in length and is adapted to have a minimum burst force of 7250 psi and pressure 850 psi (at 70° F.). Gas cartridge 12 could include a zinc-finished body, an opening (not shown) and a puncture cap (not shown) for sealing the opening. In the exemplar embodiment the puncture cap requires a puncture force of 160 Nf to release the gas from gas cartridge 12. Gas cartridge 12 is retained internally using gas cylinder screw 13, allowing the gas cartridge 12 to be removable and replaceable from housing 2. In other words, gas cylinder screw 13 abuts and contains the gas cartridge 12 in alignment with the plunger 11 within said housing, as further described.
A triggering mechanism 4 is further packed within the housing 2. The triggering mechanism 4 is the subassembly for releasing the gas from gas cartridge 12. The triggering mechanism 4 punctures the gas cartridge 12. Although various triggering mechanisms might be contemplated, in the exemplar embodiment as shown, a lever arm 10 has a plunger end 10a and an arm end 10b. Plunger end 10a is nearest to exterior side 8 of housing 2. The lever arm 10 is situated within the housing slot 5 as shown at the housing top 6. A pin hole 24a is defined at the plunger end 10a. Accordingly, a pin 24 can be inserted through pin hole 24a to retain the lever arm 10 at this location with the plunger end 10a under but aligned with the gas cartridge 12.
Lever arm 10 is retained in a cocked position by provided a main spring 2 within one of the pockets 7. More particularly, a spring piston 17 is seated within one of the pockets 7 as shown. A set screw 19 packs the spring piston 17 against the main spring 2 within the housing 2. Spring piston 17 has a piston slit 17a at its upward end 17b. Lever arm 10 is allowed to pass through piston slit 17. Spring piston 17 includes a piston flange 18, the piston flange 18 having a greater diameter than both the main spring 2 and the spring piston 17 (t-shaped cross section) so that the piston flange 18 can grab the main spring 2 when the spring piston 17 is engaged to the main spring 2. In other words, the main spring 2 encircles the spring piston 17 and engages the piston flange 18. As such, main spring 2 can be pulled to be an uncoiled, stretched, or hereinafter “cocked” position which is also defined as a downward position with reference to
A plunger 11 is disposed over the plunger end 10a, the plunger 11 aligned with the gas cartridge 12. The plunger 11 is seated within one of the pockets 7 and sealed using plunger seal 15, which is an o-ring. Plunger 11 can take any form so long as it has some pointed end or means to puncture the puncture cap of gas cartridge 12. In this embodiment a plunger spring 25 encircles plunger 11 so that when the plunger spring 25 is in a relaxed state the plunger 11 is over the gas cartridge 12 and urged to remain at that location until a forced is exerted thereon.
A retainer 16 is disposed over the arm end 10b of lever arm 10. Herein, the retainer 16 is water soluble, taking the form, for example, as a salt pill. Because the retainer 16 abuts lever arm 10 when in an undissolved, solid form, it holds the lever arm 10 in place, wherein upon the retainer 16 dissolving in a water environment, the main spring 20 recoils to thereby release the retained lever arm 10 upward and, as a result, unload the plunger 11 into the gas cartridge 12. A pill cover 27 maintains the retainer 16 within the housing 2 when retainer 16 is undissolved such that the pill cover 27 also aids to maintain the triggering mechanism 4 in a cocked form. More particularly, a lip 34 is formed within pill cover 27 to specifically abut and temporarily secure the retainer 16. The pill cover 27 is removable and re-attachable, wherein the retainer 16 can be replaced upon dissolution, and the retainer 16 and triggering mechanism 4 can be reset. Additionally, the pill cover 27 does not entirely seal the housing 2 at this location, resulting in defined entryway 27a which allows for the passage of water.
A balloon 23 is connected at the opening 3 of housing 2 (see exterior side 8). In the exemplar embodiment balloon 23 is foldable mylar balloon. Balloon 23 is connected to exterior side 8 using balloon fastener 21, which is a screw, rivet, pin or similar shaped to tie into opening 3 but also includes a concentric faster hole 22 which serves as the outlet for the gas. Accordingly, balloon fastener 21 secures the balloon but does not plug the opening 3. Balloon 23 can include a donut or ring (not shown) at its end forming a circular handle to aid in retrieval from the water.
A balloon cover 28 is adapted to snap onto housing 2 and cover exterior side 8 and thus all elements at this location including the balloon fastener 21. A balloon rail 29 can be provided to “tie down” the balloon cover 28 on the opposite side, only with the force necessary to temporary maintain the balloon cover 28 before the balloon cover 28 is partially dislodged by the force of the inflated balloon 23. Rail fasteners 32 are used to secure the balloon rail 29 onto housing 2.
The entire salvaging device 1 is mounted to a hand-held device (smartphone 26) by providing the following. A mount 31 is removably attachable to the smartphone 26. The mount 31 for example can be a T-shaped tacky mount. The housing 2 includes at least one engagement tab 35 for mating with the mount 31, wherein the salvaging device 1 can slidably engage the mount 31. Of note and with reference to
In use, when an object such as a smartphone 26 having the salvaging device 1 attached thereto falls and is thereby submerged in a body of water, water enters the triggering mechanism 4 through entryway 27a. Water dissolves the retainer 16, whereupon lever arm 10 is pulled upward (in relation to
The instant application claims benefit of provisional application Ser. No. 62/522,132, filed Jun. 20, 2017, the contents of which are incorporated herein by reference.
Number | Date | Country | |
---|---|---|---|
62522132 | Jun 2017 | US |