KR20060069820A - Device for enabling vapour emanation - Google Patents

Abstract

A device for enabling a chemical formulation to be vapourized into an atmosphere having means (6) for storing the chemical formulation, wick means (4) in continuous contact with the chemical formulation, wick support means (1, 5) for supporting the wick means, wherein the wick means (4) is wet by the chemical formulation and either upon contact with heater means (10) or having heat applied to the wick means (4), the chemical formulation is vapourized.

Description

Device for enabling vapor emanation

The present invention relates to devices capable of diverting chemical formulations such as insecticides or fragrances into the surrounding atmosphere. The invention also relates to a device capable of diverging a chemical formulation and releasably insertable into an electrical heating apparatus used to vaporize the chemical formulation.

Many patent documents disclose portable devices that enable the application of herbicides or insecticides, in particular for killing weeds and the like. Such an example is disclosed in US Pat. No. 4,309,842, which comprises a tube 12 in which a portable small herbicide and insecticide applicator acts as a handle and a pair of hollow prong sections are connected to one end of the handle. The pointed portion together with the handle 12 forms a liquid reservoir conduit for pesticides or pesticides, and an absorbent rope mop saturated with the liquid pesticide or pesticide extends between the ends of the pointed portions. The user then drags the device over a weed or the like so that the saturated rope mob contacts the weeds and eventually kills the weeds.

Other devices include a spray system with a reservoir and use an electric motor such as that disclosed in US Pat. No. 6,109,548. This spray system reduces the need to manually generate pressure in a portable spray unit. The valve stem in the reservoir may be utilized by the user to connect to a conventional air tank to inject large amounts of air pressure directly into the reservoir without the need for manual or electric pumps. Where the power switch is closed, the electric motor activates the air compressor whenever the air pressure in the reservoir drops below a predetermined level. Hand pumps can be utilized when the electric pump fails or when the battery connected to the electric motor is discharged.

Another system relates to atomization of liquids, as disclosed in US Pat. No. 4,356,528. This patent discloses an invention utilizing electrostatic spraying of a liquid mixture, in particular on a leaf of a plant, by supplying liquid to a spray orifice, suitably capillary dimensions. Such spray orifices are suitably electrically conducting or semiconducting and have a charged surface adjacent to the field reinforcing the electrode, the arrangement of which the liquid is primarily driven by electrostatic forces, atomized into electrically charged particles, and Make it protrude past it. Thus, the particles wrap around the leaf of the plant and coat both the top and bottom surfaces of the leaf.

The prior art system provides a substantially lower cost for enabling the discharge of the chemical formulation, particularly to the surrounding atmosphere for personal insect protection, or to a place where a portable handheld device can be used in a room where the chemical formulation can diverge or vaporize periodically. It does not provide a device. The present invention provides a device, such as in the form of a cartridge, that secures in a recess of a portable device that enables such periodic discharge of a chemical formulation. It can be refilled or completely replaced when all chemical formulations are released. There is a need for such a device that is inexpensive to operate substantially and that the battery or mains power can continue to operate and that the actual length of time lasts without the need to replace the battery or provide a new or refill reservoir of chemical formulation. .

The present invention does not require the user to physically operate the device when left in an area such as a portable unit or a fixed unit as determined by the power supply to automatically enable chemical vapor evacuation to the above-described applicator, atomizer and ambient atmosphere. It has a substantial advantage over conventional aerosol nebulizers such as

Some patents disclose the use of a cartridge insertable into a heating unit incorporating a wick in continuous contact with a chemical formulation. Examples include US Pat. Nos. 5,903,710, 5,976,503, and 6,123,935. However, in all these patents the heater element is in direct contact with the wick and thus the entire unit, which has the disadvantage of excessive wear on the wick which requires replacement of the wick after a number of uses. Moreover, in US Pat. No. 6,123,935, there are no defined holes through which vaporized chemical formulations are directed to the atmosphere. One end strip of the wick is exposed to the atmosphere from which vapor escapes, causing excess formulation to be used.

In US Pat. No. 5,945,094, the wick in contact with the chemical formulation is not in direct contact with the heater but this has the disadvantage of a separate wick and a cartridge, which requires the removal of the impermeable material so that the wet wick area is exposed to the atmosphere before it is used. There is. Moreover, it is not designed to fix the range of existing heater devices in a release insertable manner.

In addition, problems to be overcome by the present invention can be fixed to the existing heater device, may remain for a long period of time in the heater temperature exceeding 130 ° C, remaining in long contact with the organic solvent, stretch, Providing a divergence device free of warps or creep.

In another embodiment, the present invention provides such an apparatus, with the exception of the flexible structure, wherein the rigid laminate is made of a material that is releasably fixable to a wide range of existing heater devices. In addition, the laminate structure portion for heat transfer to the wick provides the advantages of heat conduction. By fixing an existing heater device, the present invention offers users a cheaper option than purchasing a completely new device incorporating a heater unit.

According to a first concept of the invention, there is provided a device for vaporizing a chemical formulation into the atmosphere,

Means for storing a chemical formulation;

Wick means in continuous contact with the chemical formulation;

Wick support means for supporting said wick means and having a hole; And

Means for arranging the wick support means such that the hole of the wick support means is disposed with the heater means,

The wick means is disposed in the wick support means,

The wick means are wetted with the chemical formulation and a device is provided for vaporizing the chemical formulation through the aperture of the wick support means while in contact with the heater means.

Suitably the wick support means is formed of a first portion and a second portion attachable to the first portion. The wick means may be disposed between the first portion and the second portion of the wick support means. The hole may be disposed in the first portion of the wick support means. The arranging means is suitably arranged in each of the first part and the second part of the wick supporting means such that the hole of the first part of the wick supporting means is disposed together with the heater means. Suitably, said storage means is arranged in said second portion or said first portion of said wick support means.

Suitably the wicking means is substantially extensible with a first portion in continuous contact with the chemical formulation and a second portion in contact with the heater means. Suitably said heater means vaporize a chemical formulation near said second portion of said wick means through a hole in said first portion of said wick support means. Suitably the heater means is a micro heater element, in particular an impedance means such as a resistor.

Suitably the second portion of the wick support means has a hole disposed with the heater means which vaporizes the chemical formulation into the atmosphere through the hole of the second portion of the wick support means.

Suitably the heater means has one or more pulses applied thereto in a repeated manner to provide heat to vaporize the chemical formulation.

Suitably the wick means are dried by vaporization of the chemical formulation within a cycle of pulses or pulses applied to the heater means, and then the flow of chemical formulation from the chemical formulation storage means sufficient to wet the second portion of the wick means. Has resistance.

Suitably the device is adapted to be received by a portable device having heater means powered from a portable power supply such as a battery. Alternatively, the device may be adapted to be received by an apparatus having heater means powered from a fixed power supply, such as a main supply.

Suitably the positioning means are a pair of indentations, one on each side of the wick support means, which act as an interference fit with the corresponding projections of the device, which when combined Provide the user with an indication that the device is correctly positioned with respect to the device. Suitably, the tactile indicator suggests to the user whether the device is correctly positioned. Alternatively the positioning means are a pair of protrusions, one on each side of the wick support means, which act in interference fixation with the corresponding recesses of the device, which, when combined, gives the user precise positioning of the device relative to the device. Provide an indication of

According to a second concept of the invention, there is provided a device for vaporizing a chemical formulation into the atmosphere,

Means for storing a chemical formulation;

Wicking means in continuous contact with the chemical formulation; And

Wick support means for supporting the wick means, contacting the wick means, and having a hole;

The wick means are wetted with a chemical formulation and directly heat the wet wick means while applying heat from the heater means to the wick support means, thereby exposing the chemical formulation through the exposed portion of the wick means and the holes of the wick support means. Vaporizes into the atmosphere,

In addition a device is releasably insertable into a heater unit having said heater means.

Suitably the exposed portion of the wicking means is one end or one edge of the wicking means.

According to a third concept of the invention, there is provided a device which allows a chemical formulation to vaporize into the atmosphere and is releasably insertable into a heating unit,

The device includes means for storing a chemical formulation;

Wicking means for contacting the chemical formulation;

A housing surrounding a portion of the wicking means adapted to couple and hold the device into the heater unit having a heater means; And

Wick support means in contact with the wick means and close to the heater means when the device is inserted into the heater unit,

The wick means are provided with a device wetted by the chemical formulation and heated directly by the wick support means to vaporize the chemical formulation into the atmosphere through the opening in the housing.

According to a fourth concept of the invention, there is provided a device for vaporizing a chemical formulation into the atmosphere,

Board;

Means for storing a chemical formulation;

Wicking means for contacting the chemical formulation; And

A housing surrounding a portion of the wicking means,

The wicking means, the housing and the storage means are in contact with the substrate, the wicking means extending between the housing and the storage means,

The device is releasably insertable into a heater unit having a heater means, whereby the substrate is heated by the heater means, after which the wicking means wetted with the chemical formulation bring the chemical formulation into the atmosphere through a hole in the housing. A device is provided that is heated to vaporize.

According to a fifth concept of the present invention, there is provided a method of constructing a device for vaporizing a chemical formulation into the atmosphere,

The method includes forming a substrate comprising a first layer made of a first material;

Forming storage means for the chemical formulation and made of a second material;

Forming a housing made of a second material;

Disposing wicking means on the substrate; And

Bonding the storage means and the housing to the substrate such that the wick means are partially enclosed by the housing and extend into the storage means for contact with the chemical formulation.

According to a sixth concept of the invention, there is provided a device for vaporizing a chemical formulation into the atmosphere,

Means for storing a chemical formulation;

Wicking means in contact with the chemical formulation; And

Wick support means in contact with the wick means and proximate to the heater means,

The chemical formulation is directed along the side of the storage means by capillary action until the chemical formulation reaches the wicking means in contact with the storage means such that due to the direction of the heater means the chemical formulation is not in direct contact with the wicking means. Moving, thereby wetting the wicking means,

The wick means is provided with a device that is indirectly heated by the wick support means to vaporize the chemical formulation into the atmosphere.

According to a seventh concept of the invention, there is provided a device for vaporizing a chemical formulation into the atmosphere,

Means for storing a chemical formulation;

Wicking means for contacting the chemical formulation; And

Wick support means in contact with the wick means and proximate to the heater means,

The wick means extends along an edge joining the storage means and the wick support means, whereby the chemical formulation is indirectly heated by the wick support means to vaporize the chemical formulation into the air regardless of the orientation of the device. A device is provided in which the chemical formulation moves along the wicking means by capillary action until it reaches the region of the wicking means.

Suitable embodiments of the invention will be described below by way of example only with reference to the accompanying drawings.

1 is a schematic view of separated parts of a device according to a first embodiment of the invention;

2 is a top view of the device of FIG. 1 shown fixed in the engaged position.

3 is a side view taken through the device of FIG.

4 is a schematic representation of a second embodiment of the device.

5 is a schematic representation of a third embodiment of the device.

6 is a side view of a fourth embodiment of a device applied to secure a heater unit.

FIG. 7 is a perspective view from above of the embodiment of FIG. 6, shown separately from the heater unit to which the device is coupled;

8 is a perspective view from above of the device of FIG. 6, shown fixed to a heater unit; FIG.

9 is a side view of the device fixed to the heater unit of FIG. 8 with a portion of the heater unit removed for clarity.

10 is an enlarged view of bonding the shell of the chemical formulation storage means to the substrate.

Referring to FIG. 1, a device is shown that is divided into individual components that allow chemical formulations, such as insecticides or fragrances, to be reached at a particular location through a wicking arrangement. The device shown in FIG. 1 comprises a first part and a second part attachable to each other, but an alternative unitary structure (one piece) for wick support means such as a container made by an injection molding process can be used. It can be seen that there is. In particular, a first portion 1 is shown which is substantially planar and formed of a suitable material such as polyethylene terephthalate (PET). The first part 1 comprises a pair of recesses for positioning the device correctly, in particular for placing the hole 13 and the hole 7 over the heater means in the form of a microheater element 10 (see FIG. 3). (indentations) or notches (12). Each notch 12 has a corresponding pair of projections (or lugs) formed in a housing that the device holds therein in such a way that the interaction between the lugs and the notches is an interference fit. It is designed to interact with 15). This provides the user with an indicator that the device is accurately coupled to the corresponding housing in a contact manner.

The second or upper part 5 is similarly made of PET and suitably forms a blister or recess 6 in the second part which forms a reservoir for containing the chemical formulation. The portion 5 is a recess or notch designed to interact with the corresponding protrusions or lugs 17, similar to the interference fixation for the notches and lugs coupled to the base portion or the first portion 1. It has similarly the field 16 and the hole 7. Both parts 1, 5 are designed to be joined or sealed together by suitable joining means, such as in parts 8 shown in FIGS. 2 and 3. In addition, a portion disposed within the body of the reservoir 6 containing the chemical formulation, and a portion disposed together between the holes 13, 7 and the second portion 5 of the first portion 1, respectively. The wick 4 having is shown in FIG. 1. Thus, with reference to FIGS. 2 and 3, the wick 4 is specifically formulated such that the solid-liquid-gas contact angle to the formulation, wick, and air is 0 °, and the wick 4 is fully wetted by the formulation. It has one end 18 submerged in and a second end 19 in communication with the holes 13, 17 and the heater means 10. Suitably, the heater means 10 is a microheater element, such as a surface mount resistor. Suitably the wick is a thin, flat absorbent material capable of wicking the active ingredient solution from the reservoir 6 to the microheater element 10. This is low enough so that the dry area of the wick 4 near the portion 19 above the microheater element 10 is wetted back into the formulation for a shorter time than the pulse repetition cycle of delivering pulses to the microheater element 10. Provide lateral resistance to the fluid flow. Such pulse delivery arrangements are disclosed in co-pending British Patent Application No. 0316381.3 for the same applicant. The wick 4 moves through the wick according to the timing of the pulses applied to the microheater element 10 through which the active ingredient retained in the wick 4 moves from the upper surface of the wick 4 through the hole 7. It has suitably low transverse resistance to fluid flow so that it can diverge with steam. Thus, the portion 19 of the wick is easily wetted so that sufficient steam can be dispersed into the atmosphere by applying one pulse or a series of pulses to the microheater element 10, thereby supplying current to the microheater element 10. Must be replaceable within the time the next pulse arrives.

The wick 4 must also be thin enough so that the top surface of the wick 4 can be sufficiently heated by the microheater element 10 in contact with the wick 4 or against the bottom surface. It is generally made of a material that can withstand the high temperatures generated by the microheater element 10 without disintegrating or decomposing. Moreover, the wick 4 is made of a material having sufficient thermal insulation to heat the small portion of the wick 4 to a high temperature so that the thermal energy delivered from the microheater element 10 sufficiently vaporizes the chemical formulation. Suitable materials for making the wick can be meat packaging (80 micron thick), tobacco paper (30 micron thick), or fine silk or cotton cloth (100 micron) to achieve sufficient high efficiency (mg / J) for long battery life. Fine paper). The arrangement for supplying pulses to the microheater element 10 has a power source provided by a series of batteries.

The holes 13, 7 are first designed to be placed together on the microheater element 10, as clearly shown in FIG. 3, with the wick 4 in contact with the microheater element 10 being forced into the ambient atmosphere. Through (13, 7) it is possible to disperse the active ingredient of the chemical formulation. As shown in this figure, the sealing regions 8 of the top and bottom portions 1, 5 are directly joined to each other to form an impermeable seal. Alternatively the top and bottom surfaces of the wick 4 may be coupled to the surfaces of each of the first part 1 and the second part 5.

The container forming the reservoir 6 for the chemical formulation suitably maintains a volume of 1 to 2 milliliters of the chemical formulation active ingredient that can last for a suitable duration of time, suitably for weeks to a month. It will be appreciated that other volume sizes of active ingredients of the chemical formulation may be determined depending on the particular situation. For example, the lower limit of volume can be as low as 20 microliters as a result of the efficacy or concentration of the active ingredient used. The end 18 of the wick and the substantial part of the wick 4 are in actual contact with the chemical formulation of the reservoir 6 at all times and in all directions. At the other end 19 of the wick 4, it is exposed to the atmosphere through respective holes 13, 7, and a micro to allow divergence of the chemical formulation from one or both surfaces of the wick 4 into the ambient atmosphere. Contact with the heater element 10. It is noted that the first and second portions 1, 5 are joined in one portion 20 of the reservoir 6, but still allow the wick 4 to protrude in the atmosphere. The entire device comprising the first part 1 and the second part 5 holds the wick 4 with sufficient rigidity so that the exposed wick parts can be accurately positioned on the microheater element 10. The shape element of the device must engage the mounting points passing through the interference fixation between the lugs and notches so that the wick 4 is correctly positioned with respect to the microheater element 10. Tactile feedback is provided to the user when the device is accurately coupled within each housing, where there may be a bump, for example to indicate that it is correctly secured. The reservoir 6 is suitably transparent or translucent so that the user can know how much chemical formulation remains and can replace it when the reservoir 6 is empty. The particular reservoir 6 can be refilled or optionally an apparatus for receiving the microheater element 10 and the power management circuit according to British patent application 0416381.3, wherein the entire device with the new reservoir is co-pending for the same applicant. Can be used and fixed within.

Another embodiment of the invention is shown in FIG. 4, and as with the embodiments shown in FIGS. 1-3, the wick 4 is disposed between the portions 1, 5. The device of FIG. 4 has no recesses applied to interference fixation with corresponding protrusions, but can be inserted into a receptacle heated by a heating device. There is only a hole 7 extending from the second or upper part 5, which lies on the end 19 of the wick 4. However, the hole 7 may only be present in the first part in contact with the end 19 of the wick 4. The other end 18 of the wick 4 is in constant contact with the chemical formulation of the reservoir 6. The wick 4 is thereby wetted with the chemical formulation such that the chemical formulation moves along the wick 4 through the sealing region 21 between the reservoir 6 and the upper portion 5 towards the end 19. The area of the device surrounded by the dashed line 22 is heated so that the chemical formulation vaporizes and diverges through the aperture 7 into the surrounding atmosphere. Thus, the reservoir 6 containing the chemical formulation is not heated by the particular heating device.

Referring to FIG. 5, another embodiment is shown in which the wick 4 is mounted transversely across the longitudinal axis of the reservoir 6, the upper portion 5, and the bottom portion 1. The ends 23, 24 of the wick 4 are mounted flush with the corresponding ends 25, 26 of the upper part 5 (and the bottom part 1, respectively). However, the ends 23, 24 remain exposed to the atmosphere, while the remaining portions of the ends 25, 26 of the upper part 5 remain sealed to the corresponding lower part 1 of the device. Portions of the wick 4 outside the reservoir 6 away from the ends 23, 24 are also sealed such that no chemical formulation diverges in these areas except through the ends 23, 24. Thus, when heat is applied to the area enclosed by the dotted lines 27, the chemical formulation of the reservoir 6, which wets the wick 4 and is therefore moved to the ends 23, 24, has the ends 23 of the wick 4. Vaporize into the surrounding atmosphere via,.

In other embodiments, the wick 4 may be completely enclosed or surrounded by a chemical formulation within the reservoir, except for defining a boundary or partition between the reservoir and the wick 4. The wick 4 may suitably be supported by a wick support having such boundaries or compartments to keep the wick substantially rigid. Such supports and compartments may be made of a suitable material such as plastic or PET. In one or more positions along the compartment or boundary, the wick 4 is not sealed from the reservoir 6. Thus, at that particular location the wick 4 is wetted with the chemical formulation. The hole may be placed on one or both sides of the device in communication with the wick 4 such that the entire device is heated during heating (in the region of the wick 4 and the reservoir 6) so that the chemical formulation diverges through the hole and vaporizes into the surrounding atmosphere. Can be. In one particular arrangement of this embodiment the wick is a star shape where the vertices of the star are in contact with the chemical formulation and define a substantially circular boundary between the star wick and the reservoir of the chemical formulation. At the center of the star is a hole through which the chemical formulation vaporizes upon heat application.

Thus, the device according to the embodiment described with reference to FIGS. 1 to 3, having a reservoir filled with a chemical formulation such as an insecticide or a fragrance in use, has a user notch 12, 16 and lugs 15, 17. Is inserted into the opening of the corresponding device, which may be mobile or stationary, determined in accordance with the supply of power to the heater means to have tactile feedback through interference fixation. The user is then free to use for any particular application whether the device is a personal device or for example to be left in a room where the chemical formulation is vaporized.

In the use of the device according to the embodiment of FIGS. 4 to 5 or with respect to an embodiment using a star wick, the device can be inserted into a receptacle with heating means and the chemical formulation of the reservoir 6 is completely depleted. Heated frequently until

6-9, another embodiment of the present invention is shown. In particular, the device 30 comprises a reservoir 32 containing a chemical formulation to be vaporized, a housing 34 and a support means or substrate 36. The device 30 is adapted to be releasably detachable from the heater unit as shown 38 in FIG. 7. The wick 40 contacts the top layer 42 of the support 36, extends within the housing 34, and protrudes into the reservoir 32. A pair of depressions 44, 46 formed from the molding portion of the housing 34 are applied to maintain the pressure on the wick 40 such that the wick continues to contact the layer 42 of the support 36. . The hole 48 protrudes through the upper portion of the housing 34 so that steam from heating the chemical formulation of the wet wick 40 is dispersed into the surrounding atmosphere. The support 36 also includes an underlayer 50.

The heater unit 38 is installed in a suitable electrical socket via the terminals 52, 54. After or before the heater unit 38 is inserted into the electrical socket, the device or cartridge 30 is secured to the heater unit 38 to appear as shown in FIG. 8, whereby the layer 50 of the support 36 Small air so that it is in direct contact with an existing heater 56 in the heater unit 38, or the support 36 is heated by convection or in direct contact with the heater plate 56 when the heater unit 38 is switched on. The gap is separated from the heater plate 56. The wick 40 wetted by the chemical formulation of the reservoir 32 by capillary action is subsequently heated in contact with the support 36, whereby the first layer 50 is heated, after which the wick is heated. The layer 42 is heated before it becomes. Once the nominal temperature is reached, such as 130 ° C. to 140 ° C., the chemical formulation is vaporized and dispersed into the atmosphere through the holes 48 and through the many holes 58, 60, and 62 of the heater unit 38. . The flange 64, shown more clearly in FIG. 9, is designed to provide excess pressure to any portion of the housing 34 to keep the wick 40 in contact with the support 36. It protrudes downward from the scattering elements. In particular, the flange 64 may contact any portion of the upper surface of the housing 34 or may be installed in one of the depressions 44, 46. This is for applying pressure to any inserted cartridge 30 with variations in the number and location of depressions or holes. The flange also helps to provide additional inertia for the cartridge coming out of the heater unit 38.

The structure of the device 30 is selected from materials designed to withstand temperatures in excess of 130 ° C. and is strong enough to withstand contact with organic solvents, and to stretch, wrap, and creep. Tolerant In addition, the device should be elastic and flexible enough to be easily inserted into and removed from the heater unit. The particular material selected for making the bottom layer 50 of the support 36 is crystalline PET (CPET), which is usually not selected for efficient heat transfer properties. The thin layer 42 sealed or adhered to the layer 50 is made of amorphous PET (APET). Both the reservoir 32 and the housing 34 are preformed, including the depressions 44, 46 and the holes 48, and are placed on top of the wick already present at a position in contact with the layer 42. The reservoir 32 is then filled with a chemical formulation and both the housing 34 and AP 32 suitably made of APET are thermally welded to the layer 42 also made of APET. The fact that the layer 42, the reservoir 32, and the housing 34 are all made of the same material aid in the welding and joining process. An additional strip 66 of APET material may be heat welded between the reservoir 32 and the housing 34, as shown transversely across the device 30 of FIG. 7. The seals around the reservoir 34 and the housing 34 to be bonded to the support 36 increase the stiffness in the entire device 30 to allow the device to properly engage the heater unit 38, and the support 36. With physical support for the wick 40. A particular advantage of this structure is to provide a constant release rate of the active chemical formulation in the reservoir 32 through the aperture 48.

Many materials are tested for the base support 36 to withstand temperatures in excess of 130 ° C., to withstand contact with organic solvents, and to be resistant to stretching, lapping, and creeping. Additional requirements are inexpensive and commercially available materials weldable to other plastic parts. Most conventional thermoplastics, such as polyethylene, polypropylene, and polymethylmethacrylate, are very soft at heater temperatures and are completely unsuitable. Thermoplastics deform, melt, and / or adhere to the heater. Polycarbonates have been tested and found to be high temperature thermoformable materials, but thermoforming can weaken polycarbonates against solvent attack. The thermoformed parts showed severe stress due to the contact with the solvent.

Other known materials include the polyamide material KAPTON ^® (registered trademark under the name EI Du Pont De Nemours and Compony) and ULTEM ^® (general electric company) of polyetherimide material. (Registered trademark under the name General Electric Company). However, these materials are very expensive to manufacture.

A relatively inexpensive material is first biaxially orientated APET, which is an APET film that is drawn in one direction (e.g., x-axis) and then in another direction (e.g., y-axis) perpendicular to the first direction. (bioPET). This leads to higher polymer chain alignment and produces very strong hot materials. It is suitable for making oven bags. However, this is very useful only for thin film and these grades do not have structural strength. Lamination of bioPET with rigid cards has been attempted, but the final material is essentially cardboard coated plastic that is not sufficiently strong, although the required temperature, solvent resistance, and weldability are provided. The heated area is twisted and deformed, and the thermoformed upper part is stressed.

The most bonded material tested for layer 50 is CPET, which is essentially an APET in which fine powdered nucleating agents, such as crystalline polypropylene, are dispersed, along with a grade-determined pigment. . Layer 42 of APET is then laminated or bonded to one surface of layer 50. The reason for this particular structure is that while the volume of the plastic is amorphous it is easily thermoformed, but crystallization occurs rapidly due to the nature of the nucleating agent during thermoforming. Thus, the thermoformed part is CPET with good mechanical properties. The APET layer 42 is not deformed continuously and may be bonded or heat sealed to an additional APET layer, such as incorporating the housing 34 and the reservoir 32 into one. The grade of CPET material tested included 750 microns.

The first layer of APET thermoformed to manufacture the reservoir 32 and the housing 34 has less stringent requirements. The temperature used for thermoforming is much lower than the temperature used for the support 36 because the upper portion comprising the reservoir 32 and the housing 34 is not in direct contact with the heater plate 56.

The amount of chemical formulation remaining in the reservoir 32 is very low and when the device 30 is oriented along the direction of the electrical socket or heater unit 38, the upper shell 70 of the reservoir 32 is layer 42. Welding to is for the remaining amount of chemical formulation 68 to rise by capillary action. Thus, the gap 74 created by such a bond near the junction or edge 72 of the layer 42 and the shell 70 may result in a reservoir 32 in which the residual chemical formulation 68 is the actual specification on the page of FIG. 10. Move it over the side of the. This provides a substantial advantage in that the wick 30 does not need to protrude completely into the reservoir 32. This means that the residual chemical formulation 68 rising by contacting the upper surface 76 of the reservoir 32 adjacent to where the layers are joined can reach the end of the wick, thereby providing an additional chemical formulation that is vaporized. do.

Alternatively, the wick 40 may extend into the reservoir 32, in particular in contact with the edge or junction 72, or alternatively may be located in the gap 74 along the entire periphery of the junction 72. This allows capillary action through the wick 40 to occur when the amount of formulation of the reservoir 32 is low and independent of the direction of the device 30 or the heating unit 38 receiving the device 30.

With reference to FIG. 9, the support 36 is shown to be flexible enough to be secured within the heater unit 38 and thus bend to a location 80 to make a contact point or to be in the immediate vicinity of the heating mat 56. . Alternatively, a step may be provided in the support 36 between the reservoir 32 and the housing 34 to facilitate insertion and removal of the device 30 in the heater unit 38. Alternatively, there may be a falling end or a rising end provided inside the heater unit 38 cooperating with the stage in the support 36.

The housing 34 of the device 30 is in particular formed and shaped to be fixed to the heater unit 38 and to be held by the heater unit 38. In addition, the flange 64 additionally assists in holding the housing 34 and pressing the wick against the layer 42. The downstream end arrangement from the reservoir 32 in layer 36 provides a flexible strip that can be secured to an increased range of existing heating units.

The wick can be made of a very suitable material as mentioned above with respect to the first embodiment, and generally the chemical formulation of the refill or reservoir 32 will last between 7 and 14 nights in a single room. Once the cartridge or device 30 has discharged the chemical formulation, it may be a simple way to insert a refill or new cartridge into the heater unit 38 to begin a new 7-14 night night period. It should be noted that the reservoir 32 protrudes from the heater unit 38 so that the user can easily identify how much chemical formulation remains.

Claims (70)

A device for vaporizing a chemical formulation into the atmosphere, Means for storing a chemical formulation; Wick means in continuous contact with the chemical formulation; Wick support means for supporting said wick means and having a hole; And Means for arranging the wick support means such that the aperture of the wick support means is disposed with the heater means, The wick means is disposed in the wick support means, The wick means wetted with the chemical formulation and vaporize the chemical formulation through the aperture of the wick support means while in contact with the heater means. The device of claim 1, wherein the wick support means is formed from a first portion and a second portion attachable to the first portion. The device of claim 2, wherein the wicking means is disposed between the first portion and the second portion of the wick supporting means. 4. The device of claim 3, wherein the aperture is disposed in the first portion of the wick support means. 5. The device according to claim 4, wherein said arranging means is disposed in each of said first portion and said second portion of said wick supporting means such that a hole in said first portion of said wick supporting means is disposed with said heater means. 6. The device of claim 5, wherein said storage means is disposed in said second portion or said first portion of said wick support means. 7. The device of claim 6, wherein the wicking means is substantially extensible with a first portion in continuous contact with the chemical formulation and a second portion in contact with the heater means. 8. The device of claim 7, wherein said heater means vaporize a chemical formulation near said second portion of said wick means through a hole in said first portion of said wick support means. 9. The device of claim 8, wherein the second portion of the wick support means has an aperture disposed with the heater means for vaporizing a chemical formulation into the atmosphere through the aperture of the second portion of the wick support means. 10. The device of claim 9, wherein the heater means has one or more pulses applied thereto in a repeated manner providing heat to vaporize the chemical formulation. 11. The chemical formulation of claim 10, wherein the wicking means is dried by vaporization of the chemical formulation within a pulse or cycle of pulses applied to the heater means, and then the chemical formulation from the chemical formulation storage means sufficient to wet the second portion of the wicking means. Devices with resistance to the flow of. 12. The device of claim 11 adapted to be received by a portable apparatus having heater means powered from the portable power supply. 12. The device of claim 11 adapted to be received by an apparatus having heater means powered from a mains power supply. 14. A pair of recesses (1) according to claim 12 or 13, wherein said positioning means act on an interference fit with corresponding projections of the device. indentations) which, when combined, provide an indication to the user that the device has been correctly positioned with respect to the device. 14. The device according to claim 12 or 13, wherein the disposition means is a pair of protrusions, one on each side of the wick support means, which acts as interference fixation with corresponding recesses of the device, which, when coupled to the user, A device that provides an indication that the is correctly positioned with respect to the device. A device for vaporizing a chemical formulation into the atmosphere, Means for storing a chemical formulation; Wicking means in continuous contact with the chemical formulation; And Wick support means for supporting the wick means, contacting the wick means, and having a hole; The wick means are wetted with a chemical formulation and directly heat the wet wick means while applying heat from the heater means to the wick support means, thereby exposing the chemical formulation through the exposed portion of the wick means and the holes of the wick support means. Vaporizes into the atmosphere, And a device releasably insertable into a heater unit having said heater means. The device of claim 16, wherein the exposed portion of the wicking means is one end or one edge of the wicking means. 18. The device of claim 16 or 17, wherein the entire device has heat applied thereto for vaporizing the chemical formulation. 18. The device of claim 16 or 17, wherein the exposed portion of the wicking means has heat applied thereto to vaporize the chemical formulation. 20. The device of any one of claims 16 to 19, wherein the wick support means is formed from a first portion and a second portion attachable to the first portion. The device of claim 20, wherein the wicking means is disposed between the first portion and the second portion of the wick supporting means. The device of claim 21, wherein the storage means is disposed in the second portion of the wick support means. 23. The method of claim 22 wherein the wicking means is substantially elongate having a first portion in continuous contact with the chemical formulation and a second portion in communication with a hole disposed in the first portion or the second portion of the wick support means. device. The device of claim 22, wherein the wick means is disposed substantially transverse to the wick support means and the storage means. The wick of claim 24, wherein the wick means is substantially planar and has a first edge mounted flush with a first edge corresponding to each of the first and second portions of the wick support means. device. The device of claim 25, wherein the first edge of the wicking means is exposed to the atmosphere. 27. A device according to claim 25 or 26, wherein the wick means has a second edge mounted at the same height as a second edge corresponding to each of the first and second portions of the wick support means. 28. The device of claim 27, wherein the second edge of the wick means is exposed to the atmosphere. 19. A device according to any one of claims 16 to 18, wherein the wicking means is disposed in a chemical formulation storage means and separated by compartments from the storage means. 30. The device of claim 29, wherein at least one portion of the wicking means contacts the chemical formulation storage means across the compartment for the wicking means to wet the chemical formulation. A device for allowing a chemical formulation to vaporize into the atmosphere and be releasably insertable into a heating unit, The device includes means for storing a chemical formulation; Wicking means for contacting the chemical formulation; A housing surrounding a portion of the wicking means adapted to couple and hold the device into the heater unit having a heater means; And Wick support means in contact with the wick means and close to the heater means when the device is inserted into the heater unit, Said wick means being wetted with a chemical formulation and heated directly by said wick support means to vaporize the chemical formulation into the atmosphere through a hole in said housing. 32. The device of claim 31, wherein the wick support means comprises a first layer made of a first material and a second layer made of a second material, the second layer being bonded to the first layer. 33. The device of claim 32, wherein said housing and said storage means are made of a second material and bonded to said second layer of said wick support means. 34. The method of claim 33, wherein the wick means is disposed in the second layer of the wick support means, and the storage means is prior to bonding or sealing the storage means and the housing to the second layer of the wick support means. A device filled with a chemical formulation. 35. The device of claim 34, wherein the first material is crystalline PET. 36. The device of claim 34 or 35, wherein the second material is amorphous PET. 35. The device of claim 34, further comprising an additional layer made of a second material covering and any portion of the wicking means not covered by the housing or the storage means and bonded to the second layer. 38. The device of claim 37, wherein the housing has one or more depressions to hold the wick means in contact with the wick support means. 39. The device of claim 38, wherein the first layer is heated by the heater means, after which the second layer and wet wick means are heated when the device is inserted into the heater unit. 40. The device of claim 39, wherein the first layer is heated by convection and an air gap is defined between the first layer of the wick support means and the heater means when the device is inserted into the heater unit. 40. The device of claim 39, wherein the first layer is in direct contact with the heater means and heated when the device is inserted into the heater unit. 40. The device of claim 39, further comprising a step disposed between the storage means and the housing to provide an alternative coupling of the device with the heater unit. 32. The method of claim 31, wherein when the chemical formulation is not in direct contact with the wicking means due to the orientation of the heater unit or the device, the chemical formulation is by capillary action until it reaches the wicking means in contact with the storage means. A device moving along the side of the storage means, thereby wetting the wicking means. 44. The device of claim 43, wherein the capillary action occurs due to the form of bonding between the storage means and the wick support means. A device for vaporizing a chemical formulation into the atmosphere, Board; Means for storing a chemical formulation; Wicking means for contacting the chemical formulation; And A housing surrounding a portion of the wicking means, The wicking means, the housing and the storage means are in contact with the substrate, the wicking means extending between the housing and the storage means, The device is releasably insertable into a heater unit having a heater means, whereby the substrate is heated by the heater means, after which the wicking means wetted with the chemical formulation bring the chemical formulation into the atmosphere through a hole in the housing. A device that is heated to vaporize. 46. The device of claim 45, wherein the housing is adapted to couple and maintain the device within the heater unit. 47. The device of claim 46, wherein the substrate comprises a first layer made of a first material and a second layer made of a second material, wherein the second layer is bonded to the first layer. 48. A device according to claim 47, wherein said housing and said storage means are made of a second material and bonded to said second layer. 49. The device of claim 48, wherein the wicking means is disposed in the second layer and the storage means is filled with a chemical formulation prior to bonding the storage means and the housing to the second layer of the substrate. The device of claim 49, wherein the first material is crystalline PET. 51. The device of claim 49 or 50, wherein the second material is amorphous PET. 50. A device according to claim 49, comprising an additional layer made of a second material covering the housing or any portion of the wicking means not covered by the storage means and bonded to the second layer. 53. The device of claim 52, wherein the housing has one or more depressions to hold the wicking means in contact with the substrate. 54. The device of claim 53, wherein the first layer is heated by the heater means, and then the second layer and wet wick means are heated when the device is inserted into the heater unit. 55. The device of claim 54, wherein the first layer is heated by convection such that an air gap is defined between the first layer and the heater means when the device is inserted into the heater unit. 55. The device of claim 54, wherein the first layer is in direct contact with a heater means, whereby it is heated when the device is inserted into the heater unit. 59. The device of claim 55 or 56, further comprising a stage disposed between the storage means and the housing to provide an alternative coupling of the device with the heater unit. 46. The method of claim 45, wherein the chemical formulation does not directly contact the wicking means due to the orientation of the heater unit or the device until the chemical formulation reaches the wick in contact with the wicking means. A device moving along a side, thereby wetting the wicking means. 59. The device of claim 58, wherein the capillary action occurs due to the form of bonding between the storage means and the substrate. A method of constructing a device for vaporizing a chemical formulation into the atmosphere, The method includes forming a substrate comprising a first layer made of a first material; Forming storage means for the chemical formulation and made of a second material; Forming a housing made of a second material; Disposing wicking means on the substrate; And Bonding the storage means and the housing to the substrate such that the wick means is partially enclosed by the housing and extends into the storage means for contact with a chemical formulation. 61. The method of claim 60, further comprising: forming a second layer on the substrate made of a second material; Bonding the second layer to the first layer. 62. The method of claim 61, wherein the disposing step comprises disposing the wicking means on the second layer of the substrate. 63. The method of claim 62, wherein the bonding step comprises bonding the storage means and the housing to the second layer. 64. The method of claim 63, wherein the first material is crystalline PET. 65. The method of claim 63 or 64, wherein said second material is amorphous PET. 64. The method of claim 63, further comprising forming one or more depressions in the housing to hold the wicking means in contact with the substrate. 67. A device for vaporizing a chemical formulation formed by any one of the process steps of claims 60-66 into the atmosphere. A device for vaporizing a chemical formulation into the atmosphere, Means for storing a chemical formulation; Wicking means in contact with the chemical formulation; And Wick support means in contact with the wick means and proximate to the heater means, The chemical formulation is directed along the side of the storage means by capillary action until the chemical formulation reaches the wicking means in contact with the storage means such that due to the direction of the heater means the chemical formulation is not in direct contact with the wicking means. Moving, thereby wetting the wicking means, Said wick means being indirectly heated by said wick support means to vaporize a chemical formulation into the atmosphere. 69. The device of claim 68, wherein the capillary action occurs due to the form of bonding between the storage means and the wick support means. A device for vaporizing a chemical formulation into the atmosphere, Means for storing a chemical formulation; Wicking means for contacting the chemical formulation; And Wick support means in contact with the wick means and proximate to the heater means, The wick means extends along an edge joining the storage means and the wick support means, whereby the chemical formulation is indirectly heated by the wick support means to vaporize the chemical formulation into the air regardless of the orientation of the device. And the chemical formulation moves along the wicking means by capillary action until it reaches an area of the wicking means.

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