This invention relates to a mosquito repellent heater based fan and a method for
rapid delivery of mosquito repellant using a pedestal fan. More particularly, this invention relates to development of a mosquito repellent heater on the pedestal fan which when used with the mosquito repellent liquid vaporizer bottle works very rapidly to disperse the mosquito killing premix from the bottle and kill mosquitoes at a faster rate.
BACKGROUND OF INVENTION
In general, vapor-dispensing products typically include a fragrance-reservoir and a transport system from which fragrance is evaporated into the surrounding air. In such system the liquid to be evaporated is transportedfrom a reservoir via a wick material partially immersed in the liquid. In such a system, in general, the liquid is transported through the wick by capillary action.
Devices for dispensing thermally or otherwise volatilizable materials into the atmosphere are well known. Such volatilizable materials may be air scents (e.g. fragrances), pest control materials (e.g., insecticides), allergen control ingredients, disinfectants, etc. In one type of volatile material dispensing device, a heat source is used to promote the wicking action and release of a volatile material from a wick, one end of which is immersed in a volatile liquid contained in a reservoir. One version of this type of device is plugged into an electrical wall outlet to supply power to a heating coil within housing.
In another type of volatile material dispensing device, a stiff, porous mat (commonly made of a pressed, cellulosic, fibrous material) is impregnated with a volatile material, or a volatile material is placed in a pan-like metal structure. In yet another type of volatile material dispensing device, a stiff, porous mat is impregnated with a volatile material, and the mat is held within the device such that a flow of hot gases from a fuel burner passes over the mat and causes the volatile material to vaporize into the atmosphere. These volatile material

dispensing devices are also used for mosquito repellent as mosquito repellants are put inside the dispensing device which after volatization kills the mosquitoes.
Conventional mosquito repellant heaters are as follows:
WO2003086487 relates to an evaporator, for use with a bottle containing a substance to be evaporated and a wick that has its lower portion disposed within the bottle and its upper portion protruding from the bottle, includes (i) a housing for retaining the bottle, (ii) a fan, disposed within the housing, for creating an airstream, and (iii) a louver structure, disposed downstream of the fan, for directing the airstream created by the fan upwardly and away from the upper portion of the wick. Further, it also discloses that a fan, disposed within the housing, for creating an airstream that entrains the evaporated liquid formulation.
US2008/0056691 discloses devices and methods for indicating the level or amount of a vaporizable material in a dispenser, such as an air freshener device or insect control system. It specifically relates to a dispenser of vaporizable material, the dispenser comprising:
a housing, a reservoir coupled to the housing, the reservoir containing a vaporizable material and a wick partially disposed within the reservoir, a circuit configured to measure (a) a property in the wick or (b) the vaporizable material in the reservoir, and an indicator triggered by the circuit if a measurement is above or below a predetermined threshold, the indicator providing a visual or audible signal indicating the level of the vaporizable material in the reservoir. US'691 also discloses that the dispenser may also include a fan or heating element, and the reservoir and wick may be removable from the housing of the dispenser and the fan is configured to be powered by mains power from an electrical outlet.
EP1825748 relates to a dispensing device including
a reservoir, a liquid volatile material in a reservoir, a heater, a wick designed to deliver the volatile material from the reservoir to a heated location within the heater to remote release of vaporized volatile material from the wick, wherein the volatile material in the reservoir comprises an insect control active ingredient, and

the wick comprises a substrate of granular particles adhered together to form a body having a network of pores and passages, the interior surfaces of which are non-reactive and non-absorptive with respect to the volatile material to be dispensed, the body being formed to occupy the heated location within the heater, wherein activation of the volatile dispensing device releases the volatile material from the pores, which volatile material is then dispensed when the heater is activated;
characterized in that the insect control ingredient comprises natural pyrethrins and the granular particles are adhered together by a polymeric binder that reduces the contact angle of the liquid.
US6,889,003 relates to a method and apparatus for selective positioning of a wick material in a vapor-dispensing device that facilitates effective fragrance vapor delivery while offering significant advantages in manufacture, assembly, product performance, and product safety. It specifically discloses the wick is suitably selected and positioned such that sufficient surface area of the wick material is suitably exposed to the heating unit to enable effective evaporation of a vaporizable liquid, but the wick height relative to the heating element minimizes the amount of surface area of the wick in proximity to the heating element. Additionally, the positioning can reduce the need for protective overcaps and other apparatus for protecting the wick.
US6361752 relates to an air quality modification apparatus for dispensing a volatile material, such as for scenting the air, controlling pests, allergen control, or the like, includes an electric motor having a rotor and a coil. When electric current is applied, the coil produces both heat and an electromagnetic field that causes rotation of the rotor. A source of the volatile material is located adjacent to the coil so as to be volatilized by the coil's heat. An impeller, attached to the rotor, moves air across the volatile material and blows the vapors away from the apparatus. Energy efficiency is provided by employing the electric motor coil as the source of heat to vaporize the volatile material. Also disclosed is a refill

supply of a volatile material for use with such an air quality modification apparatus.
Further, various types of pedestal fans are also available which can be used for mosquito repellent. In one type of pedestal fans includes standing mosquito fan having pedestal fan which spreads the mosquito repellant liquid in the air and kills the mosquitoes.
In another type of pedestal fan include small portable fan with mosquito repellant tablets that have property to repel mosquitoes away. As soon as the fan will start, the tablet will start working and the insecticide will be spread in the room using the portable fan.
In yet another type of pedestal fan includes multi safety ultrasonic anti mosquito repellant fan having hassle free inbuilt ultrasonic mosquito repellent. It uses the ultrasonic technology which emits various sound waves to keep pest away. The ultrasonic sound is hardly audible to humans, but loud and clear to the mosquitoes. Further, the fan includes a strong clip of the multi safety fan that enables it to be easily clip on the pushchairs, carriers, baby cots, car seats. The flexible tube neck of the fan is easily adjustable to any direction.
In yet another type of pedestal fan includes Anti-Mosquito electric fan in which anti-mosquito mat under the anti-mosquito electric fan is present and having heater grill. When the switch of the heater is pressed ON, then the mosquito mat will start spreading the mosquito repellant in the room.
In yet another type of pedestal fan includes Bladeless fan with kill mosquito function. CN205884470relates to a bladeless fan with kill mosquito function, including base soft breeze chamber, be equipped with the fan in the base, wind chamber intercommunication the inner chamber of base, it flows the spun orifice to be equipped with the air feed on the wall in wind chamber, its characterized in that: the base is inherent the below of fan is equipped with electronic mosquito killer, be equipped with on the base and supply mosquito and

air current to get into through hole in the base. It provides a bladeless fan with kill mosquito function and it kills mosquito effectively.
Additionally different types of mosquito repellant are also present. Few of which are as follows:
US6662489 relates to an insect trapping apparatus and associated method attracts insects, such as mosquitoes, by emitting a carbon dioxide gas as an insect attractant and producing a heat signature from the insect trap characteristic of a warm blooded animal and a blue light of a wavelength that attracts insects into the insect trap. The carbon dioxide gas is exhausted together with moisture through a vertically extending exhaust tube to minimize cooling of the carbon dioxide gas and minimize condensation of moisture while attracting insects through an inflow channel of an insect trap to trap the insects therein.
JP2005528122 relates an apparatus and method for rapid flash vaporization of high and low vapor pressure components from a liquid or solid diffuser in contact with a point or localized heat source. Vaporization is facilitated by a variably activated geometrically small electrical resistance heating element for pulsed or cycle heating of the divergent surface containing volatile components. This device is mainly used to treat residential air for aromatization by gas or vapor volatilization, removal of off-flavors, insect or pest treatment, air disinfection, air and surface antibacterial or sterilization treatment, or other perimeter directed to air or surface modification.
Thus, at present mosquito repellant heaters are available which has a liquid vaporizer bottle and when the heater is kept on "ON" mode, the vapors disperse in the room and slowly kill the mosquitoes based on the dispersing rate or spreading rate. There are stand alone heaters. Further, all these mosquito repellant heaters are functional for mosquito killing action in a room size of 30 - 40 m3 area. These mosquito repellantsdoes not work properly in big rooms and open spaces such as garden, lawn etc.

So, there is a need for the following:
1. Mosquito repellant heater that can kill the mosquitoes at a faster rate as compared to the available mosquito repellant heaters.
2. Mosquito repellant heater that can kill the mosquitoes in a room which is much bigger in size and shape say around 70-100 m3 halls OR in an open area like garden/lawns.
3. Dispersion of fumes released by the mosquito repellant heater should be fast using a draft of the fan.
However, despite the aforesaid mosquito repellents, a need is felt for more effective, efficient, even working and fast working of mosquito repellent heater. Thus, there is a need for a mosquito repellent heater based fan which uses wind draft of the pedestal fan and is protected in a novel housing to rapidly spread the active/fumes which are released by the heater in the room of much bigger size and results even dispersion of fumes of mosquito repellant in the room.
It is therefore the object of the present invention to provide development of a mosquito repellent heater on the pedestal fan which when used with the mosquito repellent liquid vaporizer bottle which is placed in an outer novel housing to work very rapidly. The method of delivering the mosquito repellent from the mosquito repellent heater uses the pedestal fan for rapid release of mosquito repellant from mosquito repellent heater designed to deliver it.
SUMMARY OF THE INVENTION
The present invention relates to a mosquito repellent heater based fan which when used with the mosquito repellent liquid vaporizer bottle works very rapidly. The mosquito repellent heater on the pedestal fan which when used with the mosquito repellent liquid vaporizer bottle can kill the mosquitoes which are present up to a distance of 6-10 meters surrounding the fan in a large room or in outdoor area like garden/lawn etc. The mosquito repellent heater is placed safely in a novel housing which is attached to the pedestal fan for fast and even working.

The present invention provided the pedestal fan which has the wind draft to cover much larger area and it has the capability of swing in either direction. Further, using this wind draft the active/fumes which are released by the mosquito repellant heater would be easily dispersed in the room of much bigger size and due to even dispersion of fumes in the room the mosquito killing action is faster as compared to the conventional mosquito repellant heaters.
The present invention includes a pedestal fan would have a novel closed housing to safely place a mosquito repellent heater and a 2 pin or 3 pin plug for fitting the mosquito repellant heater. The mosquito repellant heater will be fitted with the mosquito repellent bottle to kill the mosquitoes. Once the pedestal fan and the mosquito repellant heater are "ON", the fumes from the mosquito repellant heater would be derived in the surrounding with the help of the pedestal fan wind draft. Thus, it would result into fast killing of the mosquitoes as the desperation of active in the room. As a result a quick mosquito control would be achieved using the mosquito repellant heater based fan. The mosquito killing action would be 2X to 3X higher than the conventional mosquito repellant heaters.
Thus, the present invention relates to a pedestal fan with the mosquito repellent heater which will disperse the fumes of mosquito repellant very actively and evenly in the room. Further, the pedestal fan also includes a housing on back side to safely place the mosquito repellant heater inside it and evenly spread the mosquito repellant fumes in the forward direction of the pedestal fan. With the use of the placement of housing attached to the pedestal fan, the mosquito repellent would cover larger area within seconds using the pedestal fan and can kill mosquitoes 2X to 3X faster as compared to the conventional mosquito repellant heaters.
This invention also relates to a method for rapid delivery using the mosquito repellent heater. The method of delivering the mosquito repellent from the mosquito repellent heater uses the pedestal fan for rapid release of mosquito repellant from mosquito repellent heater designed to deliver it. As a result, the

method will result into even distribution of mosquito repellant in big or small room and it also provides 2X to 3X faster distribution of the mosquito repellant in the room.
Further, the same system and method can be also used for fast spread of fragrance using room freshener or any fragrance or antifungal liquid to take care of fungus in the room or surrounding area or anti-microbial liquid to take care of bacteria surrounding the room or anti-sporicidal liquid to take care of spores or antiviral liquid to take care of envelop and non-envelope virus in the room.
The summary is provided to introduce the system and method of representative concepts in a simplified form that are further described below in the detailed description. This summary is not intended to limit the key essential features of the present invention nor its scope and application.
Other advantages and details about the system and method will become more apparent to a person skilled in the art from the below detailed description of the invention when taken in conjugation with the drawings.
BRIEF DESCRIPTION OF DRAWINGS
The following drawings are illustrative of particular embodiments for enabling system and method of the present invention and are not intended to limit the scope of the invention. The drawings are not to scale (unless so stated) and are intended for use in conjunction with the explanations in the following detailed description.
Figure 1. is a diagram of a conventional mosquito repellent heater.
Figure 2 is a diagram of a conventional fan based mosquito repellent heater.
Figure 3 is a diagram of a two pin plug with an ON-OFF switch for placement of
novel mosquito repellent heater.
Figure 4 is a diagram of a novel mosquito repellent heater based fan accordance
with the present invention when mosquito repellant heater is present inbuild inside
the fan.

Figure 5 is a diagram of exploded front view of a novel mosquito repellent heater
based fan including the novel housing for mosquito repellent at the back side in
accordance with the present invention.
Figure 6 is a diagram of exploded back view of a novel mosquito repellent heater
based fan including the novel housing for mosquito repellent at the back side in
accordance with the present invention.
Figure 7 is a diagram of novel and unique housing to place the mosquito repellent
heater and present on the back side of the pedestal fan.
Figure 8 is another view of novel and unique housing to place the mosquito
repellent heater and present on the back side of the pedestal fan.
Figure 9 is top view of novel and unique housing to place the mosquito repellent
heater and present on the back side of the pedestal fan.
Figure 10 is a heater that is placed inside the novel and unique housing to place
the mosquito repellent heater and present on the back side of the pedestal fan.
Persons skilled in the art will appreciate that elements in the figures are illustrated
for simplicity and clarity and may represent hardware components of the system.
Further, the dimensions of some of the elements in the figure may be exaggerated
relative to other elements to help to improve understanding of various exemplary
embodiments of the present disclosure.
Throughout the drawings, it should be noted that like reference numbers are used to depict the same or similar elements, features, and structures.
DETAILED DESCRIPTION OF DRAWINGS
The following description with reference to the accompanying drawings is provided to assist in a comprehensive understanding of exemplary embodiments of the invention in respect of which patent protection is being claimed. It includes various specific details to assist in that understanding but these are to be regarded as merely exemplary. Accordingly, persons skilled in the art will recognize that various changes and modifications to the embodiments described herein can be

made without departing from the scope and spirit of the invention. In addition, descriptions of well-known functions and constructions are omitted for clarity and conciseness.
It is to be understood that the singular forms "a," "an," and "the" include plural referents unless the context clearly dictates otherwise.
Various mosquito repellant heaters are present which are not very effective as they spread the mosquito repellant in the room very slowly. The conventional mosquito repellant heater spreads the fumes of the mosquito repellant based on the velocity of air present in the room. Further, they are not able to spread the fumes of mosquito repellant in the room evenly, effectively, efficiently and fast as they don't have any mechanism to spread the fumes of mosquito repellant very fast.
Figure 1. illustrate a diagram of a conventional mosquito repellent heater which is currently available. Figure 1 illustrates a mosquito repellent heater (10) which includes two housings: an upper housing having an arrangement (11) to spread the mosquito repellent fumes in the room. The upper housing (11) have a 2 pin arrangement to be connected with power supply to spread the fumes of the mosquito repellent;
a lower housing having a bottle (13) that includes the mosquito repellent liquid and a wick (15) that is inserted in the bottle (13).
The mosquito repellent liquid to be evaporated is transportedfrom the bottle (13) via the wick material (15) partially immersed in the mosquito repellant liquid. In such a system, in general, the mosquito repellant liquid is transported through the wick by capillary action. In such mosquito repellant heater, the heating element delivers kinetic energy to molecules of the mosquito repellant liquid as contained in the wick (15), thereby increasing the rate of evaporation to obtain higher active intensity and uniform delivery density over time.

Typically, in mosquito repellant heater, a plug unit is plugged onto a conventional electrical outlet, thereby causing the heating unit as present in the upper housing to heat the liquid and vaporized mosquito repellant liquid that has been drawn up into the wick (15). The wick (15) and/or bottle unit (13) containing the wick are suitably configured to such that the wick material is placed, when completely assembled, in proximity to the heating element. Such mosquito repellant heater (10) are not capable to spread the fumes of mosquito repellant fumes as present in the bottle (13) very fast and is not effective in big rooms and open areas such as garden, lawn etc.
Figure 2 illustrate another conventional mosquito repellant heater which is fan based. It includes an apparatus for dispersing a volatile active into air includes a replaceable refill assembly which includes a reservoir for containing the mosquito repellant having a volatile active and a wick are suitably configured to such that the wick material is placed, when completely assembled, in proximity to the heating element.
Figure 2 illustrate a fan based mosquito repellent heater (20) including two
housings:
an upper housing (21) includes a vapor dispensing device having an outer shell
(22); a one piece electric plug heater block (not shown in figure) having attached
electric plug pins, the block being attached to the outer shell (22) such that the
block can rotate a predetermined amount around an axis parallel to the plug pins.
The outer shell (22) has plurality of holes to fast spread the fumes of mosquito
repellent.
a lower housing (25) comprises a bottle (26) that includes the mosquito repellent
liquid and a wick (27) that is inserted in the bottle (26).
The upper housing (21) includes a fan, disposed within the housing, for creating an airstream that easily spread the evaporated liquid mosquito repellent. The air of fan will come outside the mosquito repellent heater (20) using vents/holes (23) which will spread the mosquito repellent in the room.

However, these fan based mosquito repellents are also not effective for big rooms and open areas such as gardens, lawns etc. So, there is a need for the following:
1. Mosquito repellant heaters that can kill the mosquitoes at a faster rate as compared to the available mosquito repellant heaters.
2. Mosquito repellant heater that can kill the mosquitoes in a room which is much bigger in size and shape say around 70-100 m3 halls OR in an open area like garden/lawns.
3. Dispersion of fumes released by the mosquito repellant heater should be fast using a draft of the fan.
Since the aforesaid mosquito repellents are present, a need is felt for more effective, efficient, even working and fast working of mosquito repellent heater. Thus, there is a need for a mosquito repellent heater based fan which uses wind draft of the pedestal fan which rapidly spread the active/fumes which are released by the heater in the room of much bigger size and results even dispersion of fumes of mosquito repellant in the room.
It is therefore the object of the present invention to provide development of a mosquito repellent heater on the pedestal fan which when used with the mosquito repellent liquid vaporizer bottle works very rapidly. The method of delivering the mosquito repellent from the mosquito repellent heater uses the pedestal fan for rapid release of mosquito repellant from mosquito repellent heater designed to deliver it.
The present invention relates to a mosquito repellent heater based fan which when used with the mosquito repellent liquid vaporizer bottle works very rapidly. Further, the pedestal fan also includes a housing on back side to safely place the mosquito repellant heater inside it and evenly spread the mosquito repellant fumes in the forward direction of the pedestal fan. The mosquito repellent heater on the pedestal fan which when used with the mosquito repellent liquid vaporizer bottle can kill the mosquitoes which are present up to a distance of 6-10 meters surrounding the fan in a large room or in outdoor area like garden/lawn etc.

The present invention provided the pedestal fan which has wind draft to cover much larger area and it has the capability of swing in either direction. Further, using this wind draft the active/fumes which are released by the mosquito repellant heater would be easily dispersed in the room of much bigger size and due to even dispersion of fumes in the room the mosquito killing action is faster as compared to the available mosquito repellant. Further, the pedestal fan also includes a housing on back side to safely place the mosquito repellant heater inside it and evenly spread the mosquito repellant fumes in the forward direction of the pedestal fan.
The present invention includesa pedestal fan would have inbuild a mosquito repellent heater and a 2 pin or 3 pin plug for fitting the mosquito repellant heater. The mosquito repellant heater will be fitted with the mosquito repellent bottle to kill the mosquitoes. Once the pedestal fan and the mosquito repellant heater are "ON", the fumes from the mosquito repellant heater would be derived in the surrounding with the help of the pedestal fan wind draft. Thus, it would result into fast killing of the mosquitoes as the desperation of active in the room is faster. As a result a quick mosquito control would be achieved using the mosquito repellant heater based fan. The mosquito killing action would be 2X to 3X higher than the conventional mosquito repellant heaters.
Figure 3 is a diagram of novel mosquito repellent heater based fan accordance with the present invention when mosquito repellant heater is not present. Figure 3 includes mosquito repellent heater based fan (51) which includes a pedestal fan (52). The pedestal fan device (52) comprises a base (53) with a first support component (54) (e.g., tubular) extending upwardly from the base (53). The base (53) and/or the first support component (54) may be generally hollow, each comprising an inner cavity. A fan housing (55) is mounted to the first support component (54). In some embodiments, the first end of the first support component (54) is attached to the base (53) and the fan housing (55) is attached to the second end of the first support component (54). The base (53) is fiuidly

connected to the first support component (54), and the first support component (54) is fluidly connected to the fan housing (55). For example, air can circulate from the base (53) (e.g., in the inner cavity of the base (53) through the support component (54) (e.g., through the inner cavity of the base (53) and through to the fan housing (55) (e.g., in the inner cavity of the fan housing (55).
The fan housing (55) is similar in appearance to a fan housing of a standard pedestal fan, which is well known to one of ordinary skill in the art. For example, the fan housing (55) has a generally hollow an inner cavity, a front surface, and a back surface. An open hole is disposed in the front surface, wherein a grate partially covers the open hole. A plurality of fan blades is rotatably attached to an axle, the axle being fixedly attached in the inner cavity of the fan housing (55). The fan blades axles are operatively connected to a motor that drives the rotation of the fan blades. The motor is operatively connected to a power source (e.g., a battery, an electrical outlet. The pedestal fan device (52) may further comprise a rotating motor for rotating the fan housing in a first direction and a second direction with respect to the first support component (54). Rotating motors of this kind are well known to one of ordinary skill in the art.
Further, the first support component (54) is inserted inside the second support component (56) which is thicker in width. The second support component (56) has inbuild 2 pin or 3 pin plug (57) for fitting the mosquito repellant heater. The wire of inbuild 2 pin or 3 pin plug (57) is connected with the wiring of the pedestal fan so, that it will get the power supply when the pedestal fan will get the power supply. The second support component (56) also includes a small switch (58) to control the power supply of the inbuild 2 pin or 3 pin plug (57).
Figure 4 is a diagram of novel mosquito repellent heater based fan accordance with the present invention when mosquito repellant heater is present. Figure 4 includes mosquito repellent heater based fan (51) which includes a pedestal fan (52) and having mosquito repellant heater (61) is fitted in inbuild 2 pin or 3 pin

plug (57). The power supply of the mosquito repellant heater (61) is controlled by the small switch (58) placed on the second support component (56).
Thus, the pedestal fan (52) with the mosquito repellent heater will disperse the fumes of mosquito repellant (61) very actively and evenly in the room. The mosquito repellent would cover larger area within seconds using the pedestal fan and can kill mosquitoes 10X faster as compared to the conventional mosquito repellant heaters.
The pedestal fan (52) has the wind draft to cover the much larger area and it has the capability of swing in either direction. The principal of pedestal fan is to move the back air draft in the front and it can be controlled by the pedestal fan draft.Using this wind draft the active/fumes which are released by the mosquito repellant heater would be easily dispersed in the room of much bigger size and due to even dispersion of fumes in the room the mosquito killing action is faster as compared to the convention mosquito repellant heater. The mosquito repellent heater (61) on the pedestal fan (52) which when used with the mosquito repellent liquid vaporizer bottle can kill the mosquitoes which are present up to a distance of 6-10 meters surrounding the fan in a large room or in outdoor area like garden/lawn etc.
When the mosquito repellant heater will be fitted with the mosquito repellent bottle in the pedestal fan and once the fan and the heater are "ON", then the fumes from the mosquito repellant heater would be derived in the surrounding with the help of the pedestal fan wind draft and would kill the mosquitoes as the desperation of active in the room is faster and quick mosquito control would be achieved. The mosquito killing action would be 10X higher than the conventional mosquito heaters. Thus, the pedestal fan with the mosquito repellent heater will disperse the fumes of active evenly in the room, would cover larger area within seconds and can kill mosquitoes 10X faster as compared to the conventional mosquito repellant heater.

Figures 5 and 6 illustrate exploded front view and back view of a novel mosquito repellent heater based fan including the novel housing for mosquito repellent at the back side in accordance with the present invention. Figure 5 and 6 illustrate an exploded front view and back view of the novel mosquito repellent heater based fan respectively. The mosquito repellent heater based fan (51) which includes a pedestal fan (52) and having mosquito repellant heater (61) is fitted in inbuild 2 pin or 3 pin plug (57). Further, the mosquito repellant heater (61) along with the 2 pin or 3 pin plug (57) are protected inside a novel housing (70) which is designed in such a way that the mosquito repellant heater (61) is fitted and placed inside the housing (70). The housing (70) includes a Bottle and Heater Holder (76) and its cover (71). The entire bottle and heater holder (76) is placed in the rear cover switch box in the projected part of the pedestal fan (52). Later the mosquito repellant or vapouriser/Refill Bottle will be screwed from the back side into the bottle and holder assembly (76). The bottle and holder assembly (76) also includes a heater (75) which is placed into the bottle and heater holder (76) and later Refill bottle will be screwed from the back side using a thread mechanism. Further, the entire bottle and heater holder (76) is covered using a cover (71). Also the power supply of the mosquito repellant heater (61) is controlled by the small switch (58) placed on the second support component (56).
The front cover of the pedestal fan (52) is a part of switch box from the front side where speed control switches are being given and fitted into the cover. It also gives an aesthetic look to the pedestal fan (52). The back cover of the pedestal fan (52) is designed specifically for the present invention to work where there is an additional rear cover flap along with heater to increase the rate of evaporation of the mosquito repellant to obtain higher active intensity and uniform delivery density over time.
Figures 7, 8 and 9 illustrate a novel and unique housing (70) to place the mosquito repellent heater (61) and present on the back side of the pedestal fan (52). The novel and unique housing (70) includes two portion- front cover (71) and the rear

side bottle and heater holder (76). The entire bottle and heater holder (76) is placed in the rear cover switch box in the projected part of the pedestal fan (52). Later the mosquito repellant or vapouriser/Refill Bottle will be screwed from the back side into the bottle and holder assembly (76). The bottle and holder assembly (76) also includes a heater (75) which is placed into the bottle and heater holder (76) and later Refill bottle will be screwed from the back side using a thread mechanism. Further, the entire bottle and heater holder (76) is covered using a cover (71). The cover (71) is given separately so that it gives an opening through which Refill bottle (61) can be fitted and then to close the rear cover so that the entire bottle should not be visible from outside. Only some portion has been given in a transparent material where customer can see the Refill bottle whether the liquid is available in the bottle or not.
Figure 10 illustrate a heater (75) that is placed inside the novel and unique housing (70) to place the mosquito repellent heater (61) and present on the back side of the pedestal fan (52). The heater (75) is made up of ceramic material with cavities inside for fitment of Aluminum connectors, pill, and washer and is covered from one side with a plastic plate. This is sandwiched with the help of Aluminum revert. The Aluminum revert is the center part of the heating device which holds the ceramic heat transfer unit with the plastic plate above the ceramic heat transfer unit. The heater (75) is used to increase the rate of evaporation of the mosquito repellant to obtain higher active intensity and uniform delivery density over time.
MECHANICS OF MOSQUITO REPELLENT HEATER BASED FAN Once the pedestal fan is on "ON" mode the mosquito repellant heater inside the pedestal fan would be on "ON" mode and the mosquito repellant heater would start releasing the fumes because the liquid vaporizer bottle has the Active premix which would pass through the capillary of the wick and on heating would release the fumes. These fumes would get dispersed in the room with the help of the pedestal fan draft and would then help killing the mosquitoes instantly and fast.

The area of creating most effectiveness of the mosquito repellant heater is up to 70 m3 area.
The workable ranges for all the parameters involved in the present invention are as follows:
1) The mosquito repellant heater concept can be used in all types of pedestal fans.
2) The mosquito repellent concept can be used at any mode of the fan
(slow/fast/medium).
3) The mosquito repellent heater based fan can be used in small size room and large size room and for outdoor mosquito protection in the gardens and lawns.
4) The mosquito repellent heater based fancan also be used to disperse the fragrance instead of mosquito protection.
This invention further relates to a method for rapid delivery using the mosquito repellent heater. The method of delivering the mosquito repellent from the mosquito repellent heater uses the pedestal fan for rapid release of mosquito repellant from mosquito repellent heater designed to deliver it. The method for rapid delivery using the mosquito repellent heater is described above in the description.
Further, the same system and method can be also used for fast spread of fragrance using room freshener or any fragrance or antifungal liquid to take care of fungus in the room or surrounding area or anti-microbial liquid to take care of bacteria surrounding the room or anti sporicidal liquid to take care of spores or antiviral liquid to take care of envelop and non-envelope virus in the room.
It should be understood that any of the embodiments of the present system can be implemented by using components of mosquito repellent heater and pedestal fan. Based on the disclosure and teaching provided herein, a person of ordinary skill in the art will know and appreciate other ways and/or methods to implement embodiments of the present invention.

Further, any of the methods describes herein may be totally or partially performed using any conventional pedestal fans, which is configured to perform the steps described herein above. Additionally, any of the steps of any of the methods can be performed using the pedestal fan and the mosquito repellent heater.
It would be obvious to those skilled in the art that, based on the concepts, ideas and issues described herein, several variations of the proposed method being considered as well as for the mosquito repellent heater based fan with distinctly different steps and process, are possible without deviating from the scope of this invention.
In conclusion, the present invention provides an improved solution for people who are sitting in big rooms and in open spaces such as garden, lawn and want to get rid of mosquitoes. The mosquitoes are killed using the present mosquito repellant heater based fan very fast and evenly and effectively. While detailed descriptions of one or more embodiments of the invention have been given above, various alternatives, modifications will be known to the person skilled in the art. Thus, the above description should not be taken as limiting the scope of the invention.

We Claim:

1. A mosquito repellent heater based fan comprising of
a mosquito repellent liquid vaporizer bottle;
a pedestal fan includes a novel closed housing to safely place a mosquito repellent heater;
a plurality of pin plug for fitting the mosquito repellant heater; and a housing to place the mosquito repellent liquid vaporizer bottle wherein the mosquito repellent heater is fitted on the pedestal fan on the pin plug which when used with the mosquito repellent liquid vaporizer bottle can kill the mosquitoes faster.
2. The mosquito repellent heater based fan as claimed in claim 1, wherein the housing is placed on back side to safely place the mosquito repellant heater.
3. The mosquito repellent heater based fan as claimed in claim 1, wherein the pin plug is 2 pin or 3 pin plug.
4. The mosquito repellent heater based fan as claimed in claim 1, wherein the mosquito repellent liquid vaporizer can kill the mosquitoes 2X to 3X faster.
5. The mosquito repellent heater based fan as claimed in claim 1, wherein the pedestal fan disperse the fumes of mosquito repellant very actively and evenly in the room.
6. A method for rapid delivery of mosquito repellent using a mosquito repellent heater based fan includes
placement of a mosquito repellent liquid vaporizer bottle on a housing as
present on a pedestal fan;
switch ON the pedestal fan;
switch ON the mosquito repellent liquid vaporizer bottle;
releasing fumes through the liquid vaporizer bottle has the Active premix
which would pass through a capillary of a wick and on heating would release
the fumes;
dispersing the fumes in the room with the pedestal fan; and
killing the mosquitoes instantly and fastly using the fumes.
7. The method for rapid delivery of mosquito repellent using a mosquito
repellent heater based fan as claimed in claim 6, wherein the mosquito
repellent liquid vaporizer can kill the mosquitoes 2X to 3X faster.

8. The method for rapid delivery of mosquito repellent using a mosquito repellent heater based fan as claimed in claim 6, wherein the pedestal fan can be placed in the outdoor.
9. The method for rapid delivery of mosquito repellent using a mosquito repellent heater based fan as claimed in claim 6, wherein the pedestal fan disperse the fumes of mosquito repellant very actively and evenly in the room.
10. The method for rapid delivery of mosquito repellent using a mosquito repellent heater based fan as claimed in claim 6, wherein the area of creating most effectiveness of the mosquito repellant heater is up to 70 m3 area.