Fluent material handling – with receiver or receiver coacting mea – Processes – Gas or variation of gaseous condition in receiver
Reexamination Certificate
2001-05-22
2002-02-12
Maust, Timothy L. (Department: 3751)
Fluent material handling, with receiver or receiver coacting mea
Processes
Gas or variation of gaseous condition in receiver
C141S005000, C141S009000, C141S038000, C141S067000, C141S100000, C406S038000
Reexamination Certificate
active
06345650
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to portable and reusable tire inflator products and methods for inflating and sealing tires and other pneumatic systems.
BACKGROUND OF THE INVENTION
Various small portable devices are currently available for use by motorists to internally seal and inflate pneumatic tires that have lost air due to puncture or leak. These devices typically consist of canisters of pressurized propellant gas and tire sealant which are removably connected to an inflation valve of a tire. Such devices are subject to several well-known limitations and disadvantages.
Prior art devices sought to maximize the convenience of their use and storage by minimizing their size. This has resulted in devices which store their contents at extremely high pressure, and which presents a safety hazard. These high-pressure devices are susceptible to high temperatures, and therefore may burst and cause injury when left in extreme environments, such as a car on a hot summer day.
Other prior art devices sought to reduce the risk of injury by lowering the internal pressure and/or increasing the size of the canisters. This results in a less convenient device that is heavier and bulkier and/or one that carries less gas. Lower pressure canisters often are unable to fully inflate a flat tire. Other devices increase the gas content of canisters by removing sealing mixture to allow for more expanding gas. This results in reduced puncture or leak sealing effectiveness.
Another problem with prior art devices is their reliance on hazardous propellant gasses. Historically, ozone-depleting gasses were frequently used due to their high rate of expansion. Modernly, highly flammable propellants, such as methane and butane, are often used. Non-combustible propellant gasses may also be used, but yield lower expansion, and therefore often fail to provide enough gas to inflate a standard tire. Each of these propellant gasses have undesirable properties which make their use disadvantageous.
One prior art device, the Jaksa device (U.S. Pat. No. 5,908,145), teaches of an apparatus similar to the present invention. The Jaksa device, however, has numerous design flaws which limit its usefulness. First, the Jaksa device is simply a “tire sealant dispensing apparatus.” Thus, it is designed and useful only for the injection of tire sealant, and does not contemplate inflation of a flat tire. Second, the claimed purpose of the Jaksa device is to inject sealant into a tire to prevent future blowouts and punctures. The device is not intended to be used on a tire which has already experienced a blowout or puncture. The device does not provide or allow for air to inflate a flat tire.
Significantly, the Jaksa device is only usable at angles between horizontal and vertical; but not at angles which are purely horizontal and purely vertical. The present invention differs from the Jaksa device because it is specifically adapted to be used at a purely vertical angle.
Several prior art devices, the Crowley device (U.S. Pat. No. 4,653,550), the Vitack device (U.S. Pat. No. 3,934,622), and the Wells device (U.S. Pat. No. 5,765,601), contemplate storing compressed gas within the devices themselves. Inherent within these devices, is the danger of explosion which accompanies storing contents at high pressure. These devices operate in contrast to the present invention which does not store its contents at high pressure. Rather, the present invention merely operates as a conduit, conducting compressed gas directly from an air source to a deflated device.
One prior art device, the Boetger device (U.S. Pat. No. 4,489,885) similarly operate as a mere conduit between an air source and a deflated device. But the Boetger device differs from the present invention because it does not incorporate a tire sealing mixture. The Boetger device operates merely to inflate a deflated device, and not to inflate and repair it, as does the present invention.
In view of the forgoing it is evident a need exists for a new product and method for effecting repair of tires and providing for inflation of tires and other pneumatic systems.
SUMMARY OF THE INVENTION
The preferred embodiment of the disclosed invention comprises a bottle-shaped canister with a top, a base, and an internal cavity containing a sealing mixture. An inlet port is disposed at the top and an outlet port is disposed at the base. The base is adapted to support the bottle-shaped canister at a purely vertical angle when it is placed upon any surface. An input connecting valve is attached to said inlet port, and an output hose, having a first end and a second end, is attached by its first end to said outlet port. An output connecting valve is disposed at said second end of said output hose.
The invention repairs and inflates a deflated device by injecting the sealing mixture into the deflated device, and filling it with air. The bottle-shaped canister itself is not pressurized, but rather an external air source provides positive pressure to inject the sealing mixture and inflate the device. The external air source is removably attached to the input connecting valve, while the deflated device is removably attached to the output connecting device.
While a large-volume canister of compressed air or an air compressor are desirable air sources, such conveniences are not usually available in a typical roadside repair situation. An alternative solution, is to harvest air from other tires in order to inflate the deflated device. The present invention facilitates this technique. In a preferred embodiment, air sources such as other inflated tires may be used.
A preferred embodiment delivers a volume of sealing mixture sufficient to seal leaks in a standard automobile tire. The sealing mixture may be any sealing material or combinations of sealing materials, including rubber based sealant or acrylic latex materials, such as is commonly used in the relevant art.
The input and output connecting valves may be any type commonly used on relevant art pneumatic devices such as push on type valves, thumb-lock valves, or any other valve assembly including screw on, locking, or needle assemblies adapted for attachment to the valve stems commonly found on automobile tires and other pneumatic devices. The preferred embodiment output connecting valve is a lever-action thumb-lock valve assembly, while the preferred embodiment input connecting valve is a Schrader-type valve. Also, in a preferred embodiment the input connecting valve is removably attached to the canister by means of a threaded sleeve.
The preferred embodiment bottle-shaped canister has an internal cavity large enough to hold an amount of sealing mixture sufficient to seal a standard automobile tire. preferred embodiment canister may be constructed of either lightweight or heavyweight material, such as plastic or other suitable material, and it may be either substantially rigid or flexible. A preferred embodiment canister should be strong enough to withstand the pressure exerted by the external air source. High-pressure systems of 180 psi or greater may be built, however common uses for automobiles allow for lower pressure systems.
The preferred embodiment output hose is flexible, and able to withstand the pressure exerted by the external air source. Any plastic, vinyl multi-layer or rubber type hose with the capacity to hold sufficient pressures, usually greater than 26 psi may be used.
The present invention is reusable, in contrast to prior art devices which are strictly disposable. Although the device may be manufactured cheaply enough to be used in a disposable manner, the present invention contemplates multiple uses. After an initial use, the container may be re-filled with additional sealant mixture for future uses. This provides for minimal waste, thus benefiting the environment.
Numerous benefits are realized by the present invention. One benefit is safe storage. The sealing mixture may be stored at low pressure, and is not susceptible to explosion when heated. Another benefit is reusability. Once the sealing mixture has been expelled
Paasch Keith A.
Paasch Robert W.
Crowell Carl D.
Maust Timothy L.
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