The present invention relates generally to the field of fluid containers, in which the bottle must be squeezed or tilted to release the flow of fluid to allow for ease of drinking, washing, and/or cleaning and is particularly applicable to sports bottles, or the like.
In recent years, the number of health-conscious individuals has grown tremendously. In addition, research into the importance of clean water for hydration and other uses during health-improving activities: walking, hiking, biking, camping, and other outdoor activities has led to an increased need for fluid delivery devices that can provide fluids through a secure and hygienic means. Conventional fluid delivery devices, such as water bottles, are useful for various purposes in activities such as athletic, outdoor, recreational, or other uses. Typically, such devices are designed for a user to carry water, electrolytic fluid replacement drinks, or any type of liquid or, in some cases, powders or other materials. In many cases, these devices are used to enable active people: walkers, hikers, riders, and campers to drink or replenish fluid loss without stopping their particular activity. Additionally such devices may be used by these individuals as a source of water to clean themselves, their utensils and tools.
Depending on the type of fluid dispensing system, constant or frequent use of fluid containing devices and bottles can lead to damage to, for example, the pull-valve, or loss of a screw-type cap or pop-on/pop-off lid. Furthermore, for squeeze-type containers, the frequent deformation of the container can lead to structural failure of the walls of the container. Additionally, the ability to control water flow to clean or wash can be difficult as the fluid dispensing device must be tilted at a particular angle and/or squeezed to initiate the flow of water.
Additionally, transmission of germs and the inclusion of foreign material into the fluid becomes an increased risk from the constant and repetitive touching of the mouth to the pull-valve or rim and/or the repetitive opening of the container, exposing the contents to the environment.
Furthermore, the mechanical stress of repetitive opening and, in some cases, squeezing the bottle, may result in damaged or lost parts and a shortened product life span.
As a result of the above-stated problems and desires, there is a need for a fluid container, without the limitations of conventional fluid containers.
In this respect, before explaining at least one embodiment of the invention in detail, it is to be understood that the invention is not limited in its application to the details of construction and to the arrangement of the components set forth in the following description or illustrated in the drawings. The invention is capable of other embodiments and of being practiced and carried out in various ways. In addition, it is to be understood that the phraseology and terminology employed herein are for the purpose of description and should not be regarded as limiting.
The present invention comprises a pressurizable fluid container which may be further comprised of a body, a cap, a means for pressurizing the contents of the body and a dispensing mechanism, such as a spray nozzle.
In one or more embodiments, the pressurizable fluid container comprises a fluid containing body. The body may have chamfered or straight edges and may have a threaded portion to connect to a cap or lid. The threads may be interior or exterior to the body. The cap or lid may also have a threaded surface to screw on to the body. The threads may be interior or exterior to the cap.
In one or more embodiments, a plunger mechanism may be used to pressurize the contents of the body. The pressurization may be accomplished through a number of ways, for example, a plunger mechanism may consist of a handle, a shaft and a stopper. The plunger mechanism may be a vertical push-pull plunger. The plunger mechanism may be a horizontal push-pull plunger. The stopper may also be activated by a hinged or “squeeze-type” mechanism. In one or more embodiments, the contents may be pressurized by an external pump or a compressed gas canister.
In one embodiment, a vertical push-pull plunger is pushed repeatedly into and pulled repeatedly out of the body in order to pressurize the contents. Once pressurized, the contents may be released by activating a valve which allows the contents to travel up a relief tube and out the spray nozzle of the device.
In one or more embodiments, the valve may be used to open a fluid pathway to allow fluid in the body to escape. The valve may be a teeter valve which pivots on a transverse axis. When one side of the teeter valve is depressed, the fluid pathway to the nozzle is open. When the teeter valve is released, the fluid pathway is closed.
When the fluid pathway is open, the fluid may be directed to a nozzle. The nozzle may allow for adjustment of the release amount or other characteristics. In one embodiment, the nozzle may be a spray nozzle. The spray nozzle may be adjustable to allow for a fine mist, a stream of fluid, or a dispersed pattern to be released from the device.
The fluid pathway may be simply on-off or it may be controllable, as a variable flow.
In one embodiment of the present invention, the device may be used for hydration.
In one embodiment of the present invention, the device may be used for cleaning and washing.
In one embodiment of the present invention, the device may be used for applying a fluid or fluid-like substance to a surface or substrate.
In one embodiment of the present invention, an uptake adapter may be inserted between the relief tube and the relief tube extension to improve the outflow of liquid and increase the structural integrity of the relief tube extension.
With respect to the above description then, it is to be realized that the optimum dimensional relationships for the parts of the invention, to include variations in size, materials, shape, form, function and manner of operation, assembly and use, are deemed readily apparent and obvious to one skilled in the art, and all equivalent relationships to those illustrated in the drawings and described in the specification are intended to be encompassed by the present invention. Therefore, the foregoing is considered as illustrative only of the principles of the invention.
Further, since numerous modifications and changes will readily occur to those skilled in the art, it is not desired to limit the invention to the exact construction and operation shown and described, and accordingly, all suitable modifications and equivalents may be resorted to, falling within the scope of the invention.
Other objectives, features and advantages of the invention will become apparent from the following description and drawings wherein.
Various embodiments or examples may be implemented in numerous ways, including as a system, a process, or an apparatus. A detailed description of one or more examples is provided below along with the accompanying figures. The detailed description is provided in connection with such examples, but is not limited to any particular example. The scope is limited only by the claims and numerous alternatives, modifications, and equivalents are encompassed. Numerous specific details are set forth in the following description in order to provide a thorough understanding. These details are provided for the purpose of example and the described techniques may be practiced according to the claims without some or all of these specific details. For clarity, technical material that is known in the technical fields related to the examples has not been described in detail to avoid unnecessarily obscuring the description.
Referring now to
In one or more embodiments, body 102 may have a threaded portion (not pictured here) upon which the cap 110 may be screwed onto. Plunger 112 is disposed through the cap 110 and is used to pressurize the body 102. Adjustable spray screw cap 118 is threaded onto nozzle base 116. By turning the adjustable spray screw cap 118, the position of spray nozzle 120 is modified within nozzle base 116 thus changing the characteristics of the spray. The spray is activated by depressing a teeter valve (not pictured here) which pivots on an axis transverse through the diameter of the cap 110 located at the teeter valve pivot 114.
Referring now to
The plunger shaft is disposed through an opening 306 in the teeter valve 204. The teeter valve 204 pivots on an axis through the cap 110 and located at the teeter valve pivot 114. This pivot is accomplished by a teeter valve flange 308 projecting down on the underside of the teeter valve 204. A pivot tab 310 is located at the lower tip of the teeter valve flange 308. This pivot tab 310 extends partially into the teeter valve pivot 114 in the cap 110.
In one embodiment, the cap 110 is removably connected to the body 102 by a threaded portion 320 of the body and a mirror threaded portion (not pictured here) on the interior of the cap 110. To further seal this connection, a washer 312 is disposed between the body 102 and the cap 110.
The stopper 304 is disposed within the pump shaft 316. The pump shaft 316 has two ends, an upper end which has a threaded portion 318 and a lower end (not pictured here). The threaded portion 318 of the pump shaft 316 is rotatably attached to the underside of the cap 110.
A relief tube 314 has both a first (“upper”) end and a second (“lower”) end. Relief tube 314 allows the pressurized fluid to escape the body 102. In one embodiment, the upper end of relief tube 314 may be press-fit into the underside of the cap 110 utilizing an o-ring (not pictured) to form a seal.
A flexible conduit 322 has both a first (“upper”) end and a second (“lower”) end. The lower end of flexible conduit 322 is connected to the relief tube 314. Pressurized fluid which rises through the relief tube 314, passes through the cap 110 and then, in one or more embodiments, the upper end of relief tube 314 may be barbed to connect to the flexible conduit 322. The upper end of the flexible conduit 322 passes through nozzle base 116 and is attached to the spray nozzle 120. In one or more embodiments, the spray nozzle may 120 may be barbed, and flexible conduit 322 is press-fit over the barbs to form a connection. The pressurized fluid, having entered the nozzle base 116, then attains the desired spray characteristics determined by the positioning of the adjustable spray screw cap 118 and the spray nozzle 120.
Referring now to
The plunger shaft 302 is disposed within a shaft guide 406 and when depressed and air is conducted through the pump shaft 316 and into the body 102 through a pump valve 410, creates a pressure is created within body 102. A relief tube extension 408 is connected to relief tube 314, which in turn is connected to the underside of the cap 110. In one embodiment, the relief tube extension 408 may be press-fit into the relief tube 314. A through hole 606 (not pictured here) in the cap 110 then connects the flexible conduit 322 to the relief tube 314. This relief extension 408, relief tube 314 and flexible conduit 322 then conduct the pressurized fluid to the nozzle base 116.
Housing 504 contains the through hole 606 (not pictured here) for the relief tube 314 and is disposed on the underside of the cap 110, as is the threaded connector 506 for the pump shaft 316.
Referring now to
A through hole 606 provides a connection point for the lower end of flexible conduit 322. Flexible conduit 322 is then routed across the upper interior surface of cap 110 by guides 608 and 610. The upper end of flexible conduit 322 is then connected to the barbed nozzle base 116 (not pictured here).
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Number | Date | Country | |
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20160016721 A1 | Jan 2016 | US |