Ventilator

BACKGROUND OF THE INVENTION

When my son turned six years old I started noticing that his hockey helmet was developing an odour. I discovered that once this odour started to appear, it was hard to get rid of. I looked for a remedy from sports shops and the internet, but found nothing that solved the problem. I tried freezing the helmet, spraying Lysol, and other bacteria removal methods, but the problem persisted. At this time I settled for mounting his helmet on a fan. Using the fan to dry and ventilate his helmet, so it could dry and be refreshed.

BACKGROUND OF THE INVENTION

Using a fan to quickly dry and ventilate the helmet proved to be the best solution. At the time, I had an idea to mount a fan onto a sports rack. Although it was effective, it was too much trouble because it only worked if you emptied the bag out after every game and practice and hung it all up every time. The first time you forgot, everything went south. The challenge was to keep the solution as simple, effortless and as practical as possible. At this time I thought of permanently mounting a fan to a wheeled hockey bag, this was effective however it was difficult to produce and made the hockey bag to heavy and bulky. It also only worked with a hard bottomed wheel bag and could not easily be mounted into carry bags, or special team bags that many teams require you use.

This proved to be the best solution. At the time, I had an idea to mount a fan onto a sports rack. Although it was effective, it was too much trouble because it only worked if you emptied the bag out after every game and practice and hung it all up every time. The first time you forgot, everything went south. The challenge was to keep the solution as simple, effortless and as practical as possible. At this time I thought of permanently mounting a fan to a wheeled hockey bag, this was effective however it was difficult to produce and made the hockey bag to heavy and bulky.

SUMMARY OF THE INVENTION

The invention is intended to simplify the process of drying the sports equipment. By simply mounting the invention into the zipper of the offending bag and plugging it into a power source, your sports gear will have fresh air circulating through the bag; effectively you are able to dry the contents of the sports bag without the need to remove anything from the bag. A power source is needed, which can include 110 AC standard plug, 12-volt DC plug, a car lighter plug or battery either regular or rechargeable.

The bacteria that left unchecked can become harmful, and dangerous to your health. Staff infections, mold, and bacteria are just a few of the problems that can result. Cardiovascular complications can result from breathing contaminated equipment. Having an open cut can exonerate the issues.

Many times when sports equipment is removed from its sports bag for drying, for one reason or another it fails to get put back into the bag. Often the result is needless trips back home to retrieve said equipment, thus wasting time, and transpiration related costs.

It is a goal of the invention to provide a unique and easy method to ventilate and quickly dry sports equipment, without removing the equipment from its storage bag.

Further features and advantages of the present invention will be set forth in, or apparent from, the detailed description of preferred embodiments thereof which follows.

Problems This Invention Overcomes

After a vigorous sports activity, sports equipment E.g. Hockey or Lacrosse safety gear, will be damp (from perspiration, hydration and rink or field conditions) and prone to bacteria build up when ventilation is not provided to speed the drying process. To avoid bacteria build up the traditional method is to empty the contents of the sports bag, and either hang or layout said equipment. This procedure must be preformed after every use, as soon as possible. The invention is intended to simplify this activity. By simply mounting the invention into the zipper of the offending bag and plugging it in you effectively are able to dry the contents of the sports bag without the need to remove anything from the bag. A power source is needed, which can include 110 AC standard plug, 12-volt DC plug, a car lighter plug or battery either regular or rechargeable.

The bacteria that left unchecked, can become harmful, and dangerous to your health. Staff infections, mold, and bacteria are just a few of the problems that can result. Having an open cut can exonerate the issues.

Many times when sports equipment form its sports bag for drying, for one reason or another it fails to get put back into the bag. Often the result is needless trips back home to retrieve said equipment, thus wasting time, and transpiration related costs.

Limitations of This Invention Could Include

1) It may not operate in sub zero climates.

2) Needs a power source of some kind.

3) Someone still has to plug it in.

DESCRIPTION OF INVENTION

The invention is designed to mount into a sports bag zipper. E.g. Hockey equipment bag, roller hockey equipment bag, Lacrosse equipment bag as well as some smaller sports bags. It will basically fit anywhere you have a zipper opening large enough to fit the invention, it could also be used for circulation in a tent, sleeping bag or other.

The structure of the invention is such that air will be drawn fresh air into the sports bag through the area normally occupied by the closed zipper. The operation of the invention is to dry sports equipment while it is still in the bag. It incorporates a fan, and a fan housing specially designed to temporally mount into any sports bag that has a zipper. It is designed to handle attachments that will allow it to:

Circulate fresh air into the sports bag thus mimicking removing all the equipment from the bag and hanging it up on a rack or clothesline to dry. (draw air into bag)

Draw air out of a zippered bag, or opening.

Dry some equipment out of the bag with special attachments (mainly gloves and helmets)

DESCRIPTION OF INVENTION

Provide exhaust ports in strategic positions to force air out to the extremities of the bag to force air through the contents of the bag. (Grommets put in the corners 4)

Refresh the equipment in the spots bag by airing it quickly with the air manifold system.

Filter the stale air through a carbon filter or such, so the air coming from the bag is basically odor free. (said filters will attach to the grommets this forcing air through carbon filter before it exits the bag.)

Focus UV light on to the desired equipment to eliminate current bacteria conditions. (see attachment fig. *** showing UV light and manifold)

Options or Future Add-Ons to This Invention Could Include

Internal channels could be added within the bag to force moving air into less obvious areas of the bag. E.g. separate pocket in the bag that could hold hockey skates, sports tape, or tools.

Additional exhaust ports could be added to these extra pockets as well as the bag in general.

Said exhaust ports also act as an air distribution method because the air under pressure will find the exhaust ports, thus acting like a flow channel.

The possibility of adding a UV light and air manifold system.

The possibility of using rechargeable batteries.

The possibility of a timer to control the fan motor.

The possibility of using some kind of moisture gauge to act as a shut off mechanism.

The possibility of adding some kind of fogging of anti-bacterial spray or simple freshener. This fogging action could be incorporated into a timer or manual push button.

The possibility of adding some equipment handling accessories such as a glove or helmet rack

BRIEF DESCRIPTION OF THE DRAWINGS
Description of The Preferred Embodiments

FIG. 1 illustrates the preferred design of the invention. Shows clearly how the flange is the critical instrument in mounting the invention into a spots bag.

FIG. 2 illustrates what the invention looks like while mounted into a sports bag. It shows air direction as going both ways, this is done by simply flipping the device over. It also shows exhaust ports on the end of the bag, this is an attachment that allows the damp air to exit the sports bag.

FIG. 2B shows a blowup drawing of a typical exhaust port. The carbon filter would be attached to the exhaust ports.

FIG. 3 illustrates a closer view of what the invention looks like while mounted into the sports bag.

FIG. 3B illustrates how the zipper is split along both sides of the invention. The open part of the zipper hugs the invention on all sides, thus creating a seal that resist air blow back.

FIG. 4 illustrates the opposite end of the invention and another view of how the zipper hugs the invention.

FIG. 5 illustrates what a multi fan configuration would look like. Settings could be set to blow both fans the same direction or opposite directions. Attachments could be mounted to either fan area or both fan areas. In the case of opposite settings, a divider may enhance the movement of air across the equipment contained in the sports bag. Also illustrated is an example of how the air could be exhausted through another exit port within the invention its self.

FIG. 6 illustrates an inverted view showing what an U.V. dome attachment would look like. The dome acts as a manifold as well as providing a U.V. Oblique possibly a clear violet color. The material for this attachment would be a clear acrylic and could have some prism type prescriptions for light distribution and enhancement.

FIG. 7 illustrates the short section of the device showing how the U.V. dome typically could mount to the main housing. The flanges are clearly shown but could be of a different shape in the production model.

FIG. 8 illustrates what the glove attachment will look like. The chimney like protrusions will act as a rack for specialty type equipment like hockey gloves. The mounting style and mounting holes are also illustrated.

FIG. 9 illustrates a very close look at how the zipper surrounds the invention when installed. Note that only the zipper and zipper web are shown for clarity. (The actual bag is hidden)

FIG. 10 illustrates only the zipper in the position it would be in with the invention installed. When the zipper handles are pulled together a seal is produced. This seal will allow air to be blown into or out of the sports bag with minimal leakage.

FIG. 11 illustrates the construction of the invention and how two similar or identical parts sandwich a purchased fan.

FIG. 12 illustrates the short section showing the fan, the grill, hub, sections of the zipper and zipper web and how they fit into the sports bag two headed zipper.

FIG. 12B illustrates a blowup section view of the zipper, zipper web, and sports bag.

FIG. 13 illustrates the long section, showing the zipper heads, the zipper handles, the electrical box, the fan, and approximately how the zipper heads approach the end of the invention and the end cut of the flange.

FIG. 13B illustrates a blowup section of how the zipper head is pulled up to the invention using its unique shape to house and hug the invention.

The invention has been described in connection with numerous embodiments, it is to be understood that the specific mechanisms and techniques that have been described are merely illustrative of the principles of the invention, and numerous modifications may be made to the methods and apparatus described without departing from the spirit and scope of the invention.

FIG. 1 Descriptions

101. Wire channel—an internal wire channel that attaches the fan cavity to the electrical box.

102. Small hole for power cord

103. Electrical box—a round cavity to facilitate wiring and possible on/off switch.

104. Center hub of product—common place for sticker or engraving.

105. Grill—provides protection for the fan blades, could be shaped to represent a certain sport. I.e.. It could look like a hockey stick, lacrosse stick, hockey player, country emblem, team emblem.

106. Hole in part—hole lines up with internal fan, provides attachment point for some attachments.

107. Flange—shows the flange that traps (hugs) the zipper and shows how the flange terminates to allow zipper handles to snug up close to invention.

FIG. 2-A and FIG. 2-B Descriptions

201. Zipper handle—part of zipper that controls the zipping and unzipping.

202. Sports bag handle—used to transport the equipment bag.

203. Shows the air direction—air may be forced into the bag or out of the bag. (in or out)

204. Shows what the invention looks like installed in typ. Sports bag.

205. Shows the closed part of a straight zipper. Other zippers may be shaped like a “C” or other.

206. Exhaust port—holes for the air to escape, this is where the carbon air filter would be attached. (4-6)

207. End of the sports bag—shows the end of the bag

208. Side of eh sports bag—shows the side of a typical sports bag of no particular size.

209. locking mechanism of the exhaust port—possible shape of exhaust port where there is an inside piece and any outside piece that lock together and provide an attachment feature for the carbon filter.

FIG. 3-A and FIG. 3-B Description

301. Zipper handle—used to open and close the zipper

302. Invention—shows closer view of an installed “Ventilator”

303. Zipper—shown in closed position

304. Flange—Illustrates the top side of the flange (flange shape or flange ending is not fixed.

305. Zipper mechanism—part of the zipper that facilitates opening and closing the zipper

306. Zipper split area—shows where the zipper opens and initially hugs the invention.

FIG. 4-A and FIG. 4-B Description

401. Zipper—shown closed

402. Zipper handle

403. Zipper mechanism

404. Zipper web—attached the zipper to the sports bag

FIG. 5 Description

501. Possible exhaust port using a carbon filter and extension pipe to teach the bottom of the bag.

502. Grill—shows grill or fan area of the double fan long product.

503. Minimum Radius—Minimum radius maintained to enhance hug type fit.

504. Electrical box—housed the wires and wire connectors or switches.

FIG. 6 Description

601. Air channel—design of this attachment is such that it will not only act as a UV magnifier but also an air manifold.

602. Helmet and UV attachment—shown in inverted position ready for helmet sanitation. It can also be used in the regular position thus protruding into the sports bag, evenly distributing sanitized air, and UV bacteria killing light.

603. attachment holding holes—used to mount attachments using screws, snaps, rivets etc.

FIG. 7 Description

701. Section of flange showing one possible shape for the zipper to hug around

702. Section of screw hole for construction of invention, can also be assembled using rivets, self tapping screws, etc.

703. Invention grill (fan guard)

704. Fan insulation area—this is where the fan (purchased) is encapsulated.

705. Possible attachment (round) area—some attachments can mount on tapered surface.

706. UV light socket

707. U.V. Light bulb or source of U.V. light source (bacteria killing) also provides heat.

708. Section of U.V. attachment-

709. Section showing web to hold the rings in place on U.V. attachment.

FIG. 8 Description

801. Upper lip of glove attachment—Illustrates where the gloves will mount for specialized drying.

802. Glove attachment—glove attachment showing glove cones for mounting gloves or specialty gear.

803. Attachment mounting holes.

FIG. 9 (page 27) is a close-up view of the end of the unit, showing both the end of The Ventilator and the zipper from the that surrounds the flange of the unit.

FIG. 10 (page 28) illustrates the shape of the zipper when The Ventilator is installed (Ventilator not shown)

FIG. 11 (page 29) illustrates the basic construction of the unit (shown are the ventilator assembly parts and the purchased fan.

FIG. 12-A (page 30) is a section view of The ventilator Unit cut the short way. (showing components, mount holes, zipper flange, and zipper)

FIG. 12-B (page 30) is a blow-up of a portion of FIG. 12

FIG. 13-A and 13-B (page 31) illustrates a section view of the unit cut the long way through the part along with a blow up of said part. (shown are the zipper handles (one or two handles, depending) the purchased fan, the electrical box, and the cord or plug opening)

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Abstract

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Provisional Applications (1)