BASE CHAMBER AND COVER WITH DIFFUSER FOR REPELLENT REFILL USE IN A FAN

Abstract

Embodiments described herein relate to a base chamber closed by a cover having a support that receives a liquid-repellent refill of any commercially available model, which separates the chamber at the bottom for accommodating the reservoir from the upper part for the wick which, duly heated by a PTC heating device, has the stream of air directed to the release windows where negative pressure conveys the repellent towards the blades of the fan. In further exemplary embodiments, the device aims to optimize steam releasing from the repellent contained in the refill into the chamber to the environment by way of a hose connected to a tube projecting from said chamber to an oblique support located at the front of the top finish of the column of the fan, where the negative pressure is more pronounced.

Description

FIELD

The present application relates to a base chamber incorporated into a fan that allows the use of any liquid repellent refill available on the market in a practical way, combining the comfort of a home fan with the protection of a mosquito-free environment in a single product easy to handle and use, where the vapor of the repellent is directed to the exhaust windows of the cover and thence to the blades.

BACKGROUND

With the increasing number of cases of diseases caused by mosquito solutions preventing their stings are most welcome. The use of different products simultaneously such as the fan and the electric insect repellent refill apparatus bring about some disturbances such as the need for two energy points and, mainly because the two products cannot be assembled together, the result is an inefficient distribution of the repellent which is concentrated in a short range of action, so that there is loss of efficiency and performance in both products.

The current state of the art anticipates some patent documents which combine the use of the fan with some type of insecticide, such as document MU 8101485-6 which basically reports the use of odorant and insecticide pads or elements to odorize or disperse an insecticide in the environment in a fan described in a generic manner whose element is located on the rear portion of the fan.

The use of repellent pads creates discomfort and work on the need for daily replacement. Another drawback to the use of pads is the need for hand contact with the repellent chemical substance, which can cause allergies, intoxications and other health problems.

PI0201058-5 relates to a fan intended to repel insects and odorize environments by way of pads and also containers for the insertion of odorizing or repellent liquids, using for such the heat of the motor itself. The document also details some specific mechanisms of action and dispersion of substances, the location of the repellent or odorizing pad on the rear portion of the fan, motor hood, and the location in the container pedestal for insertion of odorizing or repellent liquid.

The location of the heating insert on the rear portion of the fan has some drawbacks, such as making it difficult to handle when inserting or replacing the repellent, making it difficult to visualize the shelf-life of the pellet, and presenting losses by not using the entire ventilation flow to spread the generated repellent substance. The following can still be listed as disadvantages of this prior art:

• • The possible use of a non-standard container for liquid repellents and possibly different from those used in the market, that is, the user cannot simply buy any liquid repellent refill and insert it into the product, thus resulting in limitations of use and allowing the risk of producing dirt and contact during handling that can cause health problems.
  • The use of the very heat of the fan motor does not create the ideal temperature for the use of both pads and repellent liquids. The temperature in this configuration can vary greatly depending on the unique characteristics of each motor, the cooling generated by the airflow and the environment in which the product is used.
  • The location of the container on the fan pedestal does not allow the entire temperature of the motor to be transferred to the repellent liquid, thus resulting in an ineffectiveness of its application in repelling the insects.
  • The mechanism of action of the product with the pad on the rear portion of the fan exhibits loss by not using fully the ventilation flow to spread the generated repellent substance. The mechanism of action with the liquid container in the product pedestal also exhibits losses by allowing the inflow of a high air flow resulting in a greater dilution of the generated steam and consequently the loss of effectiveness of the product.

OM U8202433-2 basically relates to a fan intended to repel insects and odorize environments by means of repellent or odorizing pads very similar to the first mentioned above, but with the addition of a generic heating kit, an electric control mechanism and a steam steering mechanism which also allows for the handling (insertion and replacement) of the repellent or odorizing pad which is also located in the rear portion of the product.

In addition to the disadvantages inherent in the repellent insert and the location in the back, this prior art also presents as a limitation the container to house the insert which causes insertion and replacement of the insert.

Document MU 8700855-6 refers to a deodorizer and repellent fan which operates by way of an ozone generator located inside the pedestal which is provided with a specific electric control.

The disadvantage of the ozone generator is the high cost, complex assembly process, in addition to the fact that the technology does not have a proven efficiency to repel insects.

Document MU 9000506-6 substantially describes a fan with a support on the front grid that features a heated repellent kit that makes use of pads. The document further mentions the electrical power of the repellent kit.

In addition to the disadvantages mentioned on the repellent pad, this prior art exhibits as a limitation the disassembly and assembly of the support for a somewhat complicated repellent kit for cleaning by the domestic users. The fit between the support and the front grid can generate an imperfect assembly between the pieces.

SUMMARY

Exemplary embodiments described herein aim to offer a new insect repellent mechanism in a fan with easy acquisition, use and handling of any liquid repellent refill available on the market, based on a base chamber located at the front portion of the fan column, which optimizes the efficiency of the repellent refill. This chamber has a separate heating system to generate heat and maintains a stable temperature in the repellent refill to vaporize the substance contained therein. The shape of the chamber, associated with a hood-like constructional element, allows migration of the steam from the repellent liquid to the exhaust windows located on the cover, which optimally spreads it and distributes it in the environment compared to known apparatus. The chamber further creates a barrier that prevents the external airflow from diluting the steam of the repellent that becomes more concentrated toward the exhaust windows.

In short, the exemplary embodiments described herein provide at least the following advantages:

The combination of two products/applications (fan and repellent) in a single product/application in order to integrate, optimize and potentiate the action and efficiency of both;

By using liquid repellent refill, it is possible to reduce the need for refill handling in comparison with daily pad replacement, and especially to eliminate manual contact with the repellent substance and consequently health problems;

The location of the repellent refill mechanism—located on the front portion of the fan column—makes it much more practical for handling when inserting and replacing the liquid repellent refill, as well as for visualizing the remaining amount (shelf-life) of the substance inside the liquid repellent refill;

The location of the repellent refill mechanism located at the front of the product column also improves the dispersion and virtually eliminates losses in the generated steam from the liquid repellent as the gas outlet is directed directly to the fan blade;

The compatibility and consequently the use of any liquid repellent refill found on the market allows the user to choose and use their preferred repellent refill in a practical manner and without any limitation or risk due to the handling of the substance;

The use of a heating system of its own and fastened next to the liquid repellent refill, which guarantees the ideal temperature for the repellent refills in a totally autonomous way independent of the operation or characteristic of the motor;

The use of a chamber to house the liquid repellent refill system prevents too much air from flowing in, preventing the dilution of the steam generated by the repellent liquid and thereby increasing the efficiency of the product;

The structure of the chamber design with the coupling piece next to the front cover makes insertion and replacement of liquid repellent refills much more practical;

The use of liquid repellent refills available on the market guarantees the efficiency and safety approved by the responsible authorities;

The base chamber for use of the liquid repellent refill is user-friendly and easy to handle, since the system has only one movable piece with guides for fastening in the correct position.

In still further exemplary embodiments, it is envisioned that there could be an improvement in the distribution of the repellent within the chamber and the environment by lifting the outlet point in the column by bringing it closer to the fan motor, which also reduces the condensation of the liquid repellent inside said chamber.

This application further uses thermal convection to direct repellent steam to an outlet located in the rear region of the blade, given that at the highest point, the negative pressure is best utilized. This modification results in an increased distribution of the repellent steam in the environment, with results proven in laboratory.

BRIEF DESCRIPTION OF THE FIGURES

In order to better explain the innovation, the drawings which represent in an illustrative and non-limiting way are listed below.

FIG. 1: Frontal view of the base chamber for use of the repellent refill in a fan;

FIG. 2: Perspective view of the base chamber cover for use of repellent refill in a fan with a repellent refill;

FIG. 3: Inverted perspective view of base chamber cover for use of repellent refill in a fan with refill;

FIG. 4: Inverted perspective view of base chamber for use of repellent refill in a fan;

FIG. 5: Inverted perspective view of the base chamber for use of repellent refill in a fan detailing, at the top, the heating and dispersion system;

FIG. 6: Perspective view of base chamber for use of repellent refill in a fan mounted and ready for use in the product;

FIG. 7: Perspective view of the base chamber for use of repellent refill in a fan with cover mounted on the fan column;

FIG. 8: Front view of base chamber for use of repellent refill in a fan, mounted with the refill, with the refill support and without the visualization display;

FIG. 9: Side cross-sectional view of base, column, and base chamber for use of ventilator-repellent refill, showed in use.

FIG. 10: Another side sectional view of the base chamber and cover with diffuser for repellent refill use in a fan, with the steam outlet point extension hose.

FIG. 11: Another perspective view of the fan column with the base chamber and cover with diffuser for use of the repellent refill in a fan with the highest steam outlet point.

FIG. 12: Another inverted sectional view of the base chamber and cover with diffuser for repellent refill use in a fan, with the steam outlet point extension hose.

FIG. 13: Another side view of the base chamber and cover with diffuser for repellent refill use in a fan, with the steam outlet point extension hose.

FIG. 14: Another front view of the fan column with the base chamber and cover with diffuser for use of the repellent refill in a fan with the highest steam outlet point.

FIG. 15: Another inverted perspective view of the top finish of the fan column with the base chamber and cover with diffuser for use of the repellent refill in a fan with the highest steam outlet point.

FIG. 16: Another perspective view of the cover part of the chamber of the fan with the base chamber and cover with diffuser for use of the repellent refill in a fan with the highest steam outlet point.

DETAILED DESCRIPTION

Referring to exemplary FIGS. 1-9, the BASE CHAMBER AND COVER WITH DIFFUSER FOR REPELLENT REFILL USE IN A FAN described in exemplary embodiments herein, refers to a base chamber (1) closed by a cover (2) having a support (3) which houses a liquid repellent refill (4) of any model available on the marker, which separates the chamber at the bottom (11) for accommodating the reservoir (4R) and upper part (1S) for the wick (4P), which is suitably heated by a PTC heating device (5) has the airflow directed towards the release windows (6) where negative pressure takes the repellent toward the blades of the fan (7).

More particularly, the base chamber (1) is located in the lower front portion of the fan column. The fastening of the chamber to the fan is made by way of plastic locks and screws. Access to the interior of the base chamber occurs by removing the cover (2) which is then reinserted for closing. This system facilitates the insertion and replacement process of the repellent refill, which is attached to a support (3) fixed in the said cover (2), which is fitted to the product inside the chamber (1) by way of steering guides (8). In this way, the chamber (1) houses the cover (2) with the support (3) together with the repellent refill (4).

The reservoir (4R) of the liquid repellent refill is housed at the bottom (11) of the chamber which is similar in shape to the repellent refills available on the market to be compatible with all models. In turn, the wick (4P) is housed in the upper part (1S) of the chamber. In this region, the U-shaped heating and dispersion system is also set to receive, house the wick (4P) and allow heat transfer as necessary. Once the repellent refill (4) is connected, the heating system generates the heat needed to vaporize the liquid of the repellent refill. Due to the location of the repellent refill (4), this vapor is directed to the release windows (6) of the cover (2). Due to the movement of the blade a negative pressure is created in front of the column. This pressure draws the steam evaporating from the refill (4) and directs it to the blades of the fan (7) which spreads it into the environment in a well-distributed, optimized and efficient manner. The base chamber (1) for use with liquid repellent refill (4) in a fan is closed to restrain excessive air inflow, thus avoiding the dilution of the repellent steam, allowing the repellent steam to flow out only through the release windows (6) located on the cover (2) of the chamber (1).

The base chamber (1) for use of the liquid repellent refill (4) in a fan (7) is located inside the front portion of the fan column and is constituted by the chamber (1) itself, the cover (2) with a support (3), heating and dispersion system and electric heating system. As already discussed the chamber (1) at the bottom (11) housing the reservoir (4R) of the liquid repellent refill, while the upper part (1S) houses the heating wick (4P) and also the heating and dispersion system (4A). Guides (8) directing and housing the support (3) of the repellent refill (4) project between the two housings. At the bottom (11) of the chamber there is a base (9) which is used for fastening to the column of the fan (7). The cover (2) of the chamber (1) is movable and has release windows (6) allowing the passage and directing the outflow of the steam evaporating from the repellent refill (4). The cover (2) further has an embedded support (3) of the refill (4), allowing its fitting and fastening. This support (3) also separates the upper part (1S) from the bottom (11) of the base chamber (1), thus restricting the steam evaporating from the refill (4) to the upper part (1S) only, and consequently due to the little space in said housing, directing the flow towards the release windows (6).

The heating and dispersion system comprises the heating base (10) housing the electrical system and the upper cover (11) of the chamber, which covers and protects the electrical system and closes the chamber. These two elements are U-shaped to receive the repellent refill from the front of the chamber and are also hood-shaped to direct the evaporating steam directly to the release windows (6). The heating system of the repellent refill (4) is constituted by a PTC heating device (5) suitably attached to a U-shaped metal plate (12) which provides heat for heating the wick (4P). The plate (12) is U-shaped to allow and facilitate the insertion and replacement of the liquid repellent refill (4). The electrical connection is performed by way of a terminal connected to one side of the PTC heating device (5), while the other is connected to the metal plate (12), thus allowing the passage of electric current between said plate (12) and the PTC heating device (5). This configuration avoids the use of a second terminal in the PTC heating device (5), prevents loss of heat and optimizes the space of the heating system. The product control has a key that switches on the heating system only if the fan (7) is also switched on to promote optimization and greater efficiency of the liquid repellent.

In another exemplary embodment, and referring now to exemplary FIGS. 10-16, the “BASE CHAMBER AND COVER WITH DIFFUSER FOR USE OF REPELLENT REFILL IN A FAN”, may be provided to optimize steam exhausting from the repellent contained in refill (100) into chamber (200) to the environment by way of a hose (300) connected to a tube (400) projecting from said chamber (200) to an oblique support (500) located at the front of top finish (600) of column (700) of the fan, where negative pressure is more pronounced.

Further, this exemplary embodiment, addresses a lifting of outlet point (800) by an interposition of hose (300) connected to tube (400) projected from an upper part (200S) of the base chamber to oblique support (500) localized in the front part of the top finish (600) of the column (700) of the fan. The arrangement of the tube (400) and the oblique support (500) does not favor the folding of the hose (300), which would interrupt the flow of the repellent therein. In this context, the hose (300) between the heating and dispersion system, located in the upper part of the chamber (200S), and the upper outlet point (800) in the column of the fan, located behind the propeller, an area where negative pressure is more pronounced and therefore the efficiency of repellent distribution is optimized. The highest point (800) also reduced the condensation of the repellent within the chamber.

Claims

1. A base chamber and cover with a diffuser for repellent refill use in a fan, comprising: in a lower front portion of a column of the fan, localized access inside a base chamber is done by removing a cover disposed on the front portion of the fan;a repellent refill is fastened to a support fastened to a cover which is engaged with a product inside the chamber by way of steering guides;the support is coupled with the repellent refill;the support divides the chamber into a bottom where the reservoir of the repellent refill is located, and an upper part, a U-shaped heating and dispersion system being also fastened to this region to receive, house a wick and enable heat transfer when needed;due to the location of the repellent refill, generated steam is directed to a release windows of the cover;an electrical connection is made by way of a terminal connected to one side of a PTC heating device and another terminal is connected to a metal plate, thus allowing passage of electric current between said plate and the PTC heating device; andthe plate is U-shaped to permit and facilitate the insertion and replacement of the repellent refill.

2. A fan, comprising: a base chamber and a cover with a diffuser, the base chamber and cover disposed on the fan, wherein the base chamber accommodates a repellent refill;wherein a repellent outlet point engages a top finish of a ventilator column by connecting a hose to an oblique support in the top finish, and a tube that projects from an upper part of the base chamber.