PORTABLE DIFFUSER

专利摘要:
the complete system for a portable diffusion device, including diffusion motor, housing, distribution of active materials, active material reservoir container, power source, user interface with the device, as well as a box surrounding the device, is described in this invention. The device incorporates a piezoelectric dispersion mechanism with an active material distribution mechanism in stage, allowing for easy removal and / or replacement of the active material reservoir container by means of a simple means of fixation or separation. the invention may comprise a complete system housed in a device, or a plurality of systems housed in a device. the device of the invention also incorporates an onboard power source allowing portability of the device, as well as a direct interface mechanism and / or a wireless mechanism for user control of the device. the invention also includes a box for housing, charging and communicating with the device.
公开号:BR112019015378A2
申请号:R112019015378-0
申请日:2017-05-31
公开日:2020-03-10
发明作者:Kalim Lucas David；Rasekhy Paymom；Davissen Virasawmy；Riaz Lucas Andrew
申请人:Lynxemi Pte. Ltd.；
IPC主号:

专利说明:

“PORTABLE DIFFUSER”
TECHNICAL FIELD [001] This disclosure relates to a portable diffusion technology for use with liquid active materials, with particular attention to essential oils, fragrance oils, water-based fragrances, and the like. The technology can also be used for applications involving portable aerosolization, for example, as a portable humidifier, for medication administration, as an insect repellent, and so on.
BACKGROUND [002] The dispersant of active materials (with particular attention to fluid-based active materials) as aerosols is important for a number of applications, including, but not limited to, air purifiers, drug delivery systems, fuel systems, analytical instrumentation, insect repellents, hygiene maintenance systems, and so on. There is a wide variety of active material diffusion devices available on the market, all of which use different media for dispersion. For example, some diffusion devices include a heating element for heating an active material in order to evaporate the material. Other diffusion devices use an air stream through a fan or an air pump to evaporate and / or transmit evaporated active material from the diffusion device in the environment. Other active material diffusion devices dispense active material using an ultrasonic disperser. Many of these devices are passive, while those that use active mechanisms are powered by battery or receive external energy, for example, through a cord that extends from the device connected to an external socket.
[003] An example of a common type of active material used in dispersion devices is essential oil. Essential oils are used for a variety of purposes including applications of air purifiers and medications.
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2/39
These oils are often mixed with water and diffused, or heated with a candle and evaporated. Many diffuser devices for essential oils are known and commercially available, including, but not limited to, cane diffusers, water based aroma humidifiers, wax based diffusers, air pump devices, and relevant to this invention, diffusers that use a piezoelectrically driven motor for ultrasonically dispersed and diffuse active materials. Also relevant to this invention is that the components of many such devices are generally composed of materials that are compatible with essential oils (for example, metal and / or glass), while cheaper materials such as plastic are generally considered incompatible, where the components swell, degrade, crack or dissolve when in contact with active materials such as essential oils.
[004] Piezoelectric powered liquid atomization devices are described in several prior art examples, including but not limited to, US Patent Numbers 6293474, 6341732, 6382522, 6450419, 68434130, 7469844, 20070012718, 20140191063, 20140263722, and 20150117056. These patents describe each piezoelectrically driven fluid atomization apparatus, generally comprising a piezoelectric driving motor composed of ceramic piezoelectric material attached or connected to an atomization mechanism (for example, plate, mesh, perforated metal film, and so on). Activate the piezoelectric motor by means of an alternating current electric voltage that causes the atomization mechanism to atomize and disperse the fluid in a controlled and well-defined manner. In terms of fluid distribution to the piezoelectric engine, the fluid can be distributed using a variety of mechanisms, including but not limited to drainage, pumping, air pumping, capillary tubing, mesh capillary drainage, and so on. Although it is not necessary to include complex electronic circuits in addition to those needed to drive
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3/39 the piezoelectric motor, these are often linked with these inventions to provide greater control by the user of these devices as well as the electric current required for the various elements of the respective devices.
[005] Several air purification diffusers are capable of diffusing multiple smells, for example, using a cartridge containing a variety of encapsulated scent elements (composed of encapsulated or wax-based essential oils, or derivatives thereof). In an example of this type of air purifier, an air flow generator (for example, fan, pump, air jet, and so on) is used to generate air flow through the receiver cartridge, and then flow out opening in the device housing. This type of device can diffuse a perfume, and then, depending on the design of the cartridge, dispense a second perfume when the position of the cartridge is changed. However, this type of device is generally limited to active materials that are solid, such as fragrance waxes. In terms of liquid active materials, there are other examples of diffuser devices that are capable of dispensing multiple liquid active materials from the same device, generally from different dispersant ports. In an example of this type of device, there are three reservoirs of liquid active material, and the liquid active material in each reservoir is transmitted to a piezoelectric motor through a wick and dispersed in the environment by ultrasonic vibration. However, in this example, replacing the active material reservoir in these devices is not straightforward, and it is generally preferred when using these devices that the active material is completely consumed before the reservoir is replaced. As such, there is a need for a device that allows users to disperse active materials while allowing greater flexibility and greater choice as to which material to disperse and how to replace each material, without necessarily consuming all active material in the reservoirs of the devices prior to replacement. .
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4/39 [006] Importantly, any of the types of diffuser devices such as the examples given above require a significant amount of energy to operate, and thus require an external power source to function; therefore, in addition to some exceptions (for example, U.S. Patent Number 6802460), these diffusers generally do not have a power source on board such as a replaceable or rechargeable battery. In addition, while some of the aforementioned diffusers can disperse multiple smells (for example, US Patent Number 7469844), replacing or refilling the active material reservoir or reservoirs on many commercially available devices is generally difficult to do if possible, and generally requires disassembly. and cleaning the necessary components. While some commercially available essential oil dispersers allow the user to change the dispersion fluid, these devices generally require that all the fluid previously loaded in the device be consumed before refilling the reservoir, which reduces the device's flexibility for the device operator . In addition, several commercially available devices are designed so that the user cannot easily disassemble the device and access or refill the fluid reservoir, thus taking the device completely and increasing the cost and waste. The materials used in the mechanisms needed to power these devices are often incompatible with the dispersed active materials, and these components must be adequately protected from the active materials while they are still housed in the diffusion device. As such, and as mentioned above, there are several problems related to the compatibility of some active materials, for example, essential oils, with the housing components of the diffusion device especially if the diffusion device comprises components made with plastic, rubber, or others synthetic materials. Active materials that are composed of, or contain essential oils are
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5/39 highly volatile, and can behave like organic solvents when interacting with other materials such as plastic. However, plastic materials are the preferred choice for consumer devices, as these materials are inexpensive and malleable enough to allow for significant customization of the device's shape and function. As such, when developing and assembling an essential oil diffuser, it is necessary to identify materials compatible with the essential oils to be used in the device and ensure that the essential oils do not react with the components used for and within the housing, provide sufficient shielding of the source power supply and related driving circuits, and not cause structural problems to the device in general.
[007] The invention described here represents material and significant improvements for, and benefits from, previous orders for a portable diffuser made in Singapore (IPOS Order number 10201600315X) and the United States (USPTO Order numbers 62 / 291.501 and 15 / 417.200), all of which are attributed to Lynxemi Pte. Ltd. The portable diffuser described in those previous orders was functional and incorporated a number of innovations; however, significant iterations have already been made for the functioning of the device that incorporate new concepts, and this application addresses not only the general function of the invention, but describes the improvements that have been made, with respect to material selection, component interfaces, interface better delivery efficiency of active materials.
SUMMARY OF THE INVENTION [008] In accordance with an aspect of the present invention, an apparatus for dispersing active materials comprises a housing that includes the dispersion motor, active material transfer mechanism, replaceable active material reservoir container (containers) ) and associated transfer mechanisms, power source, and programmable driving circuitry. The housing and materials associated with the active transfer mechanism of the
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6/39 present invention are compatible with a wide range of active materials, including essential oils. The circuitry of the invention includes a programmable microprocessor that can be interfaced either by means of a direct mechanism (for example, a simple switch, a button interface, touch screen, motion sensor, USB cable connected to a computer or phone smart, and so on) or through a wireless mechanism (for example, from an external controller such as a computer or smart phone connected to the device via Bluetooth standards, IEEE 802.11, and so on). The circuitry and microprocessor set provide a mode of operation that can be controlled by the user, in which the user device can determine how the active material is distributed via the direct interface and / or the wireless interface. The device can be powered externally or powered via an on-board power source, which can be replaced (if the power source is not rechargeable) or recharged (if the power source is rechargeable) via a direct mechanism, for example, USB cable, power cable, or through an indirect mechanism, for example, wireless charging.
[009] According to another aspect of the present invention, the active material can be connected to or disconnected from the dispersion apparatus by means of a simple step of adding or removing the active material reservoir container. The active material reservoir container is designed so that the active material can be easily transported to the piezoelectric dispersion motor using a multi-stage transfer mechanism. In a preferred embodiment, the active material is transferred using a two-stage mechanism. The way of fixing the reservoir to the dispersion apparatus can be through the use of magnets, clips, adhesives, screws, bands, and so on. In a preferred embodiment, the method of attachment is by means of magnets or by means of a screw mechanism. Importantly, the method of fixing this invention
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7/39 minimizes the exposure of components in the device to the corrosive active materials, thus mitigating problems identified in the prior art. As such, in a more preferred embodiment, the attachment method incorporates a mechanism by which the active materials make minimal contact with other components of the invention.
BRIEF DESCRIPTION OF THE DRAWINGS [010] Figure 1 is an oblique elevation view of the modality of the unique system of the present invention, comprising a diffusion system;
[011] Figure 2 is a cross-sectional view cut from the modality shown in Figure 1, with a container of active material attached inside and incorporating a fixation mode through which the active materials are distributed;
[012] Figure 3 is an exploded elevation view of the top section of the modality shown in Figure 1;
[013] Figure 4 is an exploded view in lower elevation of the upper section of the modality shown in Figure 1;
[014] Figure 5 is an exploded view of the lower section of the modality shown in Figure 1, with an active material reservoir container not shown;
[015] Figure 6 is an oblique elevation view of the active material reservoir container;
[016] Figure 7 is an exploded view of the active material reservoir container shown in Figure 6;
[017] Figure 8 is an oblique elevation view of a multi-system modality of the present invention, comprising three diffusion systems, as mounted in a housing;
[018] Figure 9 is an exploded elevation view of the top section of the modality shown in Figure 8, showing important features of this section;
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8/39 [019] Figure 10 is an exploded view in lower elevation of the top section of the modality shown in Figure 8, showing important features of this section;
[020] Figure 11 is an exploded view of the lower section of the modality shown in Figure 8, with active material reservoir container not shown;
[021] Figure 12 is an oblique elevation view of an embodiment of the box that can include the embodiment of the unique system of the present invention shown in Figure 1;
[022] Figure 13 is an exploded view of the box in Figure 12, showing the single system in Figure 1 housed inside and the USB charging and communication cable open;
[023] Figure 14 is an exploded view in lower elevation of the box shown in Figure 12, with charging cable and closed USB communication;
[024] Figure 15 is an exploded top elevation view of the box shown in Figure 12, with charging cable and USB communication open.
[025] Figure 16 is an oblique elevation view of another form of the unique system of the present invention, comprising a diffusion system with a modified upper section, a built-in monitor and a single button;
[026] Figure 17 is an exploded elevation view of the top section of the modality shown in Figure 16;
[027] Figure 18 is an exploded view in lower elevation of the upper section of the modality shown in Figure 16;
[028] Figure 19 is an oblique elevation view of the active material reservoir container, with a modified active material interface;
[029] Figure 20 is an exploded view of the active material reservoir container shown in Figure 19, showing the orifice reducer and washer
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Optional 9/39;
[030] Figure 21 is a bottom elevation view of the orifice reducer;
[031] Figure 22 is a cross section in section of the orifice reducer of Figure 21.
DETAILED DESCRIPTION [032] With reference to the following detailed description, the invention can be better understood when considered in conjunction with the accompanying drawings of that application. In addition, other aspects and advantages of the device of the present invention are given in the following detailed description.
[033] With reference to Figures 1 to 5, the present invention relates to the use of an ultrasonic piezoelectric diffusion motor (30) to disperse finely distributed fluid by means of a multistage distribution mechanism (41 and 42), along with electronic controls (220), power source (223), and design features of the device housing and integrated components (Figures 3 to 5). The device of the present invention can be used to disperse an active material over a period of time determined by the user, for which the user can adjust the dispersion frequency and mode of operation. In addition, any active material reservoir containers (40, and Figures 6 and 7) placed on the device can be easily removed and replaced by the user.
[034] With reference to Figures 2, 3 and 4, the invention relates to the assembly of a piezoelectric diffusion motor (30) in contact with or very close to a fluid distribution component of active material (41 for example , wick, capillary, flow tube, dish, and the like). In a preferred embodiment, the piezoelectric diffusion motor (30) comprises a ceramic ring surrounding a perforated metal plate, film, or mesh, so that fluid of active material can be captured by the metal plate, film or mesh, and dispersed in aerosol form in the environment from one or both sides of the metal plate, film or mesh.
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10/39 [035] The piezoelectric diffusion motor (30) is mounted in contact with or near a component of the fluid distribution system of active material (41 and 42) in the housing of the invention (10, 20, and 23) . The piezoelectric diffusion motor can be mounted using fixed brackets, clips, gaskets, O-rings (O-shaped rings), glue, pivots, and so on. In one embodiment, assemblies of the types mentioned above may have an ASTM D2240 type A hardness, also known as Shore hardness A, between 10 to 90, preferably between 30 to 70, more preferably between 45 to 55.
[036] In a preferred embodiment shown in Figures 2, 3, 4, and 5, the piezoelectric diffusion motor is assembled using upper and lower O-rings, also known as O-shaped rings (31a and 31b). In this modality, the O-rings and piezoelectric motor are mounted between an upper plate (11) of the upper section (10) of the housing, which is also the uppermost part of the device, and the lower plate (12) of the upper section. (10) of the accommodation. The O-rings and piezoelectric motor fit in an upper cavity (111) and a lower cavity (112) in each of the plates. In a preferred embodiment, the plates are joined together with the intermediate housing section (20) by the posts (110a and 110b) that fit into the doors (125a and 125b) on the lower plate (12), and are fixed to the housing section intermediate by screws (113a and 113b) that are fitted through posts (213a and 213a) in the intermediate housing section (20). With respect to the O-shaped rings of this modality (31 a and 31 b), the O-shaped rings may be composed of a synthetic rubber material, examples of which include, but are not limited to, silicone, nitrile butadiene rubber (Nitrile), ethylene vinyl acetate (EVM) copolymers, a fluoroelastomer comprising hexafluoropropylene (HFP) copolymers, vinylidene fluoride (VF2), polyvinylidene fluoride, tetrafluoroethylene (TFE), hexafluorylene (TFE) fluoride (EFF) ), pentapolymers of TFE, HFP, ethylene, PMVE and VF2,
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11/39 some combinations of which are commercially available as Viton A, Viton B, Viton F, and generally known as FKM, or, where perfluoroelastomeric compounds contain an even greater amount of fluoride than the aforementioned combinations, FFKM. In a preferred embodiment, the O-shaped rings are composed of combinations of the compounds mentioned above together with perfluoro ether (alkylvinyl) (PAVE) and without the addition of sensitive copolymers based on HFP and / or VF2 or with lower added concentrations of HFP and / or VF2, combinations of which are commercially available as Viton Extreme TBR -S, Viton Extreme ETP-600S and Viton Extreme ETP-900.
[037] The fluid distribution component of active material (41) must be in contact with or very close to the piezoelectric diffusion motor, and comprises the last stage of the fluid distribution system. The distribution of fluid to the piezoelectric engine can be through a multiplicity of mechanisms, including, but not limited to, drainage, pumping, capillary action, air pumping, hydraulic action, and so on. In a preferred embodiment, this last stage material comprises a porous hydrophilic, oleophilic, or both hydro and oleophilic wick made of natural fibers (for example, cotton, silk, wood pulp, and the like) or synthetic fibers (for example, polyethylene , polypropylene, polycarbonate, and the like). In a preferred embodiment, this stage of the fluid delivery material is a rigid porous wick made of polyethylene. In a more preferred embodiment, this stage of the fluid distribution material is both hydrophilic and oleophilic, in which both water-based and oil-based active materials can be transmitted through the material, for which duplicate properties of fluid can be obtained by modifying the surfactant of the polyethylene material when the wick is manufactured. In this embodiment, the rigid, porous, hydrophilic and oleophilic wick (41) is inserted into a cavity (120) of the lower plate (12) of the upper section (10) of the device.
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12/39 [038] Regarding the stage distribution mechanism for the active material, specifically an active material fluid, there are several methods for inserting or removing active material reservoir containers in or out of the invention, and such containers can be easily removed and replaced by the user. With reference to Figures 3, 4, 5, 6, and 7, in one embodiment, the active material reservoir container (40, and Figures 6 and 7) is a container of specific volume from 1 mL to 10 L, preferably 1 ml to 1 L, more preferably 1 ml to 100 ml, and even more preferably 1 ml to 50 ml. In a preferred embodiment, the active material reservoir container has a volume between 15 ml to 30 ml. The base (43) of the active material reservoir container (40) can be made of any compatible storage material such as plastic, for example, polypropylene (PP), polyethylene terephthalate (PET), polybutylene terephthalate (PBT), polycarbonate (PC), and so on; or the storage material can be made of glass, for example, silica, borosilicate, Pyrex, aluminum silicate, and so on; or the storage material can be made of metal, for example, stainless steel, aluminum, and so on. In a preferred embodiment, the base of the active material reservoir container is made of polypropylene (PP), polybutylene terephthalate (PBT), glass, or aluminum, or a combination of these materials such as fiberglass PBT. The connection of the base of the active material reservoir container (43) to the housing of the device can be by means of screws, clips, magnets, glue, neck seal, adhesives, and so on.
[039] In a preferred embodiment, the base of the active material reservoir container (43) has a cap (44) that is screwed onto the reservoir container that can be magnetically coupled with the last stage of the active material distribution mechanism by by means of a ferromagnetic washer (124) embedded in the cover, such that a tight seal is formed. The lid of the active material reservoir container (44) can then engage
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13/39 directly with a ring-shaped magnet (123) which is housed in a cavity (121) located on the lower plate (12) of the upper section (10) of the device. In relation to the cap of the reservoir container (44), an airway is formed (45) in order to ensure the capture of active material by the device is not prevented by pressure differences between the active material storage container (40) and the external environment, resulting from circumstances such as changes in the volume of active material in the container or changes in altitude. In relation to the washer (124) embedded in the cover (44), in a preferred embodiment, this washer (124) is composed of two parts, which is a metal washer (127) coated with a substance (126) in order to reduce leakage from the active material management interface, better seal the active material reservoir container (40) up to the last stage of the fluid distribution mechanism (41 and 123), and extend the life of interface components. In a more preferred embodiment, the metal washer coating substance (126) is a synthetic rubber compound, and can be composed of material similar to the materials used in the aforementioned O-shaped rings, such as, but not limited to , silicone, nitrile butadiene rubber (Nitrile), ethylene vinyl acetate (EVM) copolymers, or a fluoroelastomer product such as those commercially known as Viton A, Viton B, Viton F, and generally known as FKM, or, where perfluoroelastomeric compounds contain an even greater amount of fluoride than the previously mentioned combinations, FFKM, as well as commercially available perfluoroelastomers such as Viton Extreme TBR-S, Viton Extreme ETP-600S, and Viton Extreme ETP-900.
[040] The distribution of the active material to the last stage of the fluid delivery mechanism can be a single stage or can involve multiple stages. With reference to Figures 2, 3, 4, 6, and 7, the distribution of fluid to the last stage (41) can be through a multiplicity of mechanisms, including, but not limited to,
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14/39 limited to, drainage, pumping, capillary action, air pumping, hydraulic action, and so on. In one embodiment, this delivery mechanism (42) uses a single porous hydrophilic, oleophilic, or both hydro and oleophilic wick made of natural fibers (for example, cotton, silk, wood pulp, and the like) or synthetic fibers (for example , polyethylene, polypropylene, polycarbonate, borosilicate composite, and the like), to provide fluid for the last stage. In a preferred embodiment, the wick (42) used for the distribution of active material is a soft porous wick made of polyethylene that is both hydrophilic and oleophilic, for which the properties of are obtained by modifying the surfactant of the polyethylene fibers during fabrication. wick.
[041] The active material reservoir container (Figures 6 and 7) can contain one of or a combination of a range of active materials, including, but not limited to, a water based fragrance, an oil based fragrance , an essential oil, a mixture of essential oils, an insecticide, an insect repellent / attractant, a disinfectant, an air purifying agent, an aromatherapy perfume comprising oil-based and / or water-based aromas, a odor eliminator, an air purifier, and so on, or combinations thereof. Although many combinations of types of liquid active materials can be used in the active material reservoir container, all of which can be used with any of the modalities disclosed in this application, it is important to ensure that appropriate materials are used that can be housed by the reservoir. When volatile or reactive active materials are used, the reservoir should only be made of material such as metal, glass, or highly resistant plastic as previously described (for example, PBT with fiberglass).
[042] With reference to Figures 3, 4, and 5, the operation of the piezoelectric diffusion motor can be performed through a connection to a printed circuit board (PCI, 220) and associated electronics, including microprocessor. PCI
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15/39 can be located in several places, including adjacent to the piezoelectric diffusion motor, or in a different part of the device housing. In a preferred embodiment, the PCI is mounted vertically along the rear face of the intermediate section (20) of the device, and is supported by a placeholder (115) on the lower plate (12) of the upper section (10) of the device. The PCI can be connected to the piezoelectric motor (30) by means of wires that run along a channel (114) in the lower plate (12) of the upper section of the device (10). The piezoelectric motor is controlled by the microprocessor, which is in turn controlled by the user through a direct mechanism (for example, button interface, touch screen, motion sensor, USB cable connected to a computer or smart phone, and so on) onwards) or through a wireless mechanism (for example, from an external controller such as a computer or smart phone connected to the device via Bluetooth, IEEE 802.11, and so on). Information regarding the status of the device can be transmitted to the user through a multitude of mechanisms, including, but not limited to, a segmented light-emitting diode (LED) monitor, a segmented liquid crystal display (LCD), a LCD, an LCD touchscreen, and / or via wired or wireless communication to an external device such as a computer or smart phone. In a preferred embodiment, the status of the device is displayed on a segmented electronic paper screen as provided by Eon Displays Pte. Ltd (Singapore) (91). Regarding the wireless mechanism, the device's electronics will include a transmitter to allow it to send and receive wireless signals. A preferred embodiment of the invention is capable of sending and receiving signals using Bluetooth and IEEE 802.11 standards in the 2.4, 3.6, 5 and 60 GHz (Wi-Fi) frequency bands. This can allow the device to be controlled wirelessly, remotely and securely, for example, via the Internet via a mobile smart phone communications network. In a preferred embodiment, the device can be controlled from a
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16/39 mobile smart phone via Bluetooth or Wi-Fi using a software application downloaded or purchased from an online application store. In another preferred embodiment, the device can also be turned off remotely using a wireless mechanism when operation of the device is not necessary, for example, if the device is located in a hotel room when the room is unoccupied.
[043] With reference to Figures 3, 4 and 5, the microprocessor and electronic drivers in the PCI (220) can obtain feedback in relation to the electric current consumed by the piezoelectric diffusion motor (30) when in use. Variations in the electrical current consumed can be challenged by the microprocessor and electronic actuators in order to determine phenomena such as whether the piezoelectric motor is damaged, the viscosity of the fluid being dispersed, or how such fluid is dispersed or is available to be dispersed by the motor when it is in operation. This feedback can be used to inform the user about specific problems of the invention. For example, in one embodiment of the invention, the current drawn by the piezoelectric motor indicates that there is no fluid present in the vicinity of the motor, thus indicating that the active material reserve may be empty. In another embodiment of the invention, the current consumed by the piezoelectric motor indicates that the viscosity of the active material is high, so the device automatically adjusts the driving parameters of the piezoelectric motor in order to disperse the active material.
[044] With reference to Figure 5, the microprocessor is controlled by means of a direct mechanism that uses buttons (215a and 215b) fitted to the ports (210a and 210b) in the middle section (20) to interface with switches (222a and 222b) on the PCI (220), along with a display interface (211 and 221). The device also has a receptacle (212) accessible through a port (212a) for the purpose of charging and / or communicating with the device, which can be of any technology
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17/39 charging and / or appropriate communication, for example, a USB standard (TypeA, Type-B, Mini-A, Mini-B, Micro-A, Micro-B, Type-C and so on), a DC connector (coaxial power connector, JSPB connector, mini-DIN connector, and so on), an Ethernet port (Cat 5, Cat 5se, Cat 6, and so on), a serial interface (RS232, IEEE 1394 , and so on), a lightning connector, and any other means of charging and / or communicating. In a preferred embodiment, the receptacle is a micro-USB (Micro-B) receptacle (212) accessible through the port (212a) in the middle section (20) of the device. Regarding the direct interface, in a preferred mode, two buttons (215a and 215b) are used in conjunction with a 7-segment light-emitting diode (LED) monitor (221) and a light tube (211) fitted in a slot (210) in the intermediate section (20) to instruct the microprocessor to drive the invention according to the user's preference. When the device is in operation, two LEDs (224a and 224b) will be activated. A ring-shaped light diffuser (24) transmits the light emitted by these LEDs (224a and 224b) as a bright strip around the perimeter of the device. The ring-shaped light diffuser (24) can be of any color and can be clear, partially opaque, matte or opaque. In a preferred embodiment, the ring-shaped light diffuser (24) is made of frosted glass or frosted transparent plastic, such as frosted polyethylene, frosted polycarbonate and the like.
[045] An example of the operation of a preferred mode is given here; note that this example is for illustrative purposes only, and in no way limits the functionality of the device in any way. It is important to note that the use of the device and the interface parameters can be customized, altered, changed, updated, and modified at any time, by changing or updating the microprocessor program. In this illustrative example of a preferred embodiment, the user is able to turn on the device by holding the first button (215a, which activates switch 222a) firmly for 3 seconds. The device is turned on
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18/39 when the 7-segment display (221, transmitted from the device by means of a light tube, 211, for the user to see) shows the characters “o” and “n” successively. When the device is on, the device can also be turned off by holding the first button (215a) firmly for 3 seconds, and the device is turned off after the 7-segment display (221) shows “o”, “F”, and “F ”Successively. Once the device has been turned on, the user can define the duration of the driving time of the piezoelectric motor and the frequency of repeated driving time operations over a pre-configured time period, as defined by the microprocessor program. The user enters the device configuration mode by holding the second button (215b, which activates switch 222b) for 2 seconds, after which the 7-segment display (221) shows “C”. The user is then able to define the operation of the piezoelectric motor by pressing the first button (215a), which cycles through three pre-set parameters, as shown in the 7-segment display: “t” for oil type, “L” for force level, and “d” for duration, all of which are configurations that modify the driving time duration of the piezoelectric motor and time intervals between operations of the piezoelectric motor. When the 7-segment display (221) shows “t” for oil type, the user can press the second button (215b) to select a type of pre-adjusted liquid active material based on viscosity, numbered “1” to “ 4 ”as shown on the 7-segment display (221). This configuration configures the driving time duration of the piezoelectric motor, for example, with a setting of “1”, the piezoelectric motor operates for 2 seconds, which is enough time to draw in a fluid of active material of lower viscosity (for example, viscosity between 0.5 to 1 centipoise), while a setting of "4" operates the piezoelectric motor for 5 seconds, which is sufficient time to draw in a fluid of active material of higher viscosity (for example, viscosity between 3 to 4 centipoise) . The user can move to the next setting, “L” for strength, by pressing the first button
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19/39 (215a). When the 7-segment display (221) shows “L” for oil type, the user can then press the second button (215b) to select a preset odor intensity of the liquid active material, indicated by down odor, “=” for a stronger odor, and “Ξ” for the stronger odor, as shown on the 7-segment display (221). This configuration configures the number of pulses that the piezoelectric motor will operate using the previous configuration “t”, or type of oil, for example, with a configuration of the piezoelectric motor operating at level “t” every 20 seconds during a period of 60 seconds, while a setting of “configuração” operates the piezoelectric motor at the “t” level every 10 seconds for a period of 60 seconds. The user can move to the next setting, "d" for duration, by pressing the first button (215a). When the 7-segment display (221) shows “d” for duration, the user can then press the second button (215b) to select a preset duration for device operation, indicated by “1”, “ 2 "," 3 "," 4 ", and" 8 "on the 7-segment display (221) for the number of hours the device will operate using the programmed configuration, or the figure shown on the 7-segment display (221) for continuous operation. Once the user has defined these configuration parameters, the user can press the first button (215a) for 3 seconds, at which point the 7-segment display (221) will show Έ ”, indicating that the device has left the configuration mode and will now be executed, as defined by the parameters entered by the user, when the second button (215b) is compressed. Additionally, to confirm that the device is in operation when the second button (215b) is compressed, the 7-segment display (221) will show three ascending lines, then “Ξ” - on the 7-segment display (221) one time, and then a red dot on the 7-segment display (221) will pulse every 5 seconds until the user interacts with the second button (215b) to change the device settings as described above, or the device is turned off using the first button
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20/39 (215a) as previously described.
[046] Again note that the example above is illustrative only, and no limitations are imposed on the customization of the device and the interface with the device on this information. In another mode, the user can interface with the device through the micro-USB (Micro-B) receptacle (212) accessible through a port (212a) in the middle section (20) of the device, and can instruct the device to function similar to that described in the illustrative example using an external controller such as a computer, smart phone, and other such control device. In yet another modality, the microprocessor and / or the PCI are capable of wireless communication through Bluetooth, Wi-Fi, and / or other such means. As such, similar functions as described in the illustrative example can be performed in the invention wirelessly.
[047] With reference to Figures 2 and 5, the invention includes a source of electrical energy to allow it to function. This can be contained within the device or can comprise an external plug that can be connected to an external electrical source such as a household electrical outlet via a plug that extends from the device. Alternatively, the power source can be through the micro-USB (Micro-B) connector (212), accessible through a port (212a) in the middle section (20) of the device, which interfaces with the PCI (220) ). In a preferred embodiment, the power source is internal, and comprises one or more batteries, for example, dry cell batteries such as "AA" batteries, "AAA" batteries, "d" batteries, watch batteries, or rechargeable batteries such as lithium ion batteries, lithium polymer batteries, and so on. In a more preferred embodiment, the power source is composed of one, two, or three “AA” batteries, or a single lithium polymer battery (223), which can be fitted between the PCI (220) and the outer sleeve (214) of the intermediate section (20) of the housing.
[048] With reference to Figures 1 to 5, the invention comprises the housing
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21/39 (10, 20, and 23) that contains all components, including piezoelectric engine, electronics, active material reservoir container, and assembly components. In various embodiments, the housing is made up of separate component layers. In a preferred embodiment, the housing consists of three sections, including an upper section (10) that houses the piezoelectric motor and mounts, an intermediate section (20) that houses the electronics, power source, and active material reservoir container when connected, and a lower housing section (23), or lower cover, closing the device from the bottom and supporting the active material reservoir container. In a preferred embodiment, the intermediate section (20) also has a sleeve (214) for the active material reservoir container, which is accommodated by and grooves in a cavity characteristic (122) of the lower plate (12) of the upper section (10). The housing and / or various housing components may be made of a thermoplastic material such as polypropylene (PP), polyethylene terephthalate (PET), polybutylene terephthalate (PBT), polycarbonate (PC), polybutylene terephthalate (PBT) combined with fiberglass, and be injection molded; or the storage material can be made of glass, for example, silica, borosilicate, Pyrex, aluminum silicate, and so on; or the storage material can be made of metal, for example, stainless steel, aluminum, and so on; or the storage material can be made from a combination of the materials mentioned above. In various embodiments, a combination of thermoplastic materials, glass materials, and metal materials can be used to build the housings, to which various components of the housing are connected. In other embodiments, the housings may be lined with casing materials that are designed to fit over the housings of the assembled devices. In a preferred embodiment, the device comprises an injection molded housing made of polybutylene terephthalate (PBT) which is homogeneously mixed with 30% fiber
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22/39 glass, and injection molded.
[049] With reference to Figures 1 to 5, any connection means can be used to connect the different housing components together, including, but not limited to, screws, magnets, adhesives, rivets, clips, welding, and so on , along with combinations thereof. In a preferred embodiment, the upper section of the housing is connected to the intermediate section of the housing (20) using screws (113a and 113b). The screws are attached to the posts (110a and 110b) that derive from the upper section of the housing (10) to the doors (213a and 213a) from the intermediate section of the housing (20). In the same embodiment, the lower section (23) is connected to the intermediate section of the housing (20) by means of magnets (231a, 231b, 232a, and 232b), two of which (232a and 232b) are glued to posts (230a and 230b) in the lower section (23), and two of which (231a and 231b) are glued to the bottom of the intermediate section of the housing (20).
[050] With reference to Figures 8 to 11, a modality comprising multiple diffusion systems, specifically three diffusion systems, is given in one device, hereinafter referred to as the multi-system or multi-system device. There are design and systemic similarities between the only diffusion system modality in Figures 1 to 7 and the multi-system modality in Figures 8 to 11, that is, that the diffusion device (Figure 8) incorporates an upper section (50 ) that houses the diffusion motor and associated components, an intermediate section (60) that houses the active material reservoir containers, control circuitry, and power source, and a lower section (61) that supports the containers of active material active material reservoir and includes the device. The multi-system mode can use the same active material reservoir containers (40) as the single-system mode.
[051] In the multi-system mode shown in Figures 8 to 11, the top section (50, and Figures 9 and 10) of the invention houses three piezoelectric diffusion motors
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23/39 (53a, 53b and 53c), and includes the last stage of active material distribution components (70a, 70b and 70c) together with magnetic ring-shaped components (54a, 54b and 54c). The bottom section of the device (60, 61, and Figure 11) can accommodate up to three active material reservoir containers (Figure 6, containers not shown in Figure 11) in glove ports (601 a, 601 b and 601 c). The middle section of the device (60, 61, and Figure 11) also houses components to power the device using external power through the receptacle (623) which is accessible through a port (604) in the middle section (60) of the device , and / or using an internal battery (63), as well as components to control the device using a microprocessor on a PCI (62), through a direct mechanism using buttons (626a to 626d) and 7-segment display (621, transmitted to the user through a light tube, 625) or through an indirect mechanism such as Bluetooth, WiFi, and so on.
[052] With reference to Figure 9.10, and 11, the upper section (50) of the multi-system mode comprises an upper plate (51) and a lower plate (52). The upper plate (51) includes three piezoelectric motors (53a, 53b and 53c), each of which is assembled using upper O-rings (531b, 531 of 531 e) placed in cavities (552a, 552b and 552c) in the upper plate, and with lower O-shaped rings (531a, 531c and 531 f) placed in cavities (551a, 551b and 551c) in the lower plate (52) of the upper section (50). The O-shaped rings can be composed of the same materials as described for the single system modality shown in Figures 1 to 5 and described previously. The piezoelectric motors are connected via wires (not shown) to the PCI (62), which is mounted in the middle section (60), through a rectangular gap (591) on the bottom plate (52). The wires (not shown) are conducted along a channel of the bottom plate (52) and are attached by wire clips to the channel (58a to 58d). With reference to Figures 9, 10, and 11, the upper and lower plates are joined by the posts (541a and 541b) that fit together
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24/39 on the doors (572a and 572b) on the lower plate (52), and are connected to the intermediate section of the housing (60) by screws (613a and 613b) that are fitted through posts (605a and 605b) in the intermediate section of the accommodation. In addition, the lower plate (52) of the upper section (50) of the multi-system mode also includes clips (571a to 571 f) that connect the upper section and the intermediate section of the housing more securely. These clips (571a to 571 f) are connected to the slots (606a to 606f; note that 606a, 606d, 606e, and 606f are represented with dashed lines as they are obscured by the oblique view of Figure 11) in the middle section to ensure a tight fit between the upper and middle sections.
[053] With reference to Figure 10, the last stages of the active material distribution mechanisms of the multi-system modality comprise three rigid, porous, hydrophilic, and oleophilic (70a, 70b and 70c) wicks that fit into doors (56a, 56b and 56c) on the lower plate (52) of the upper section (50). The rigid, porous, oleophilic, and hydrophilic wicks are designed in the same way and are composed of the same materials as described for the single system modality shown in Figures 1 to 5. The distribution mechanisms of the last stages also comprise magnetic fitting mechanisms for active material reservoir containers (40) to interface with the distribution components of the last stage, and use ring-shaped magnets (54a, 54b and 54c) that enter cavities (55a, 55b and 55c) on the bottom plate (52 ) of the top section (50) of the device. This magnetic locking mechanism is similar to the locking mechanism of the single system modality shown in Figures 1 to 5.
[054] With reference to Figures 8, 10 and 11, the middle section of the multi-system mode (60) houses the electronics, power source, and active material reservoir containers when connected, and a lower section (61) , or bottom cover, wrapping the device from the bottom and supporting the active material reservoir containers. The middle section (60) also has three gloves
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25/39 (601a, 601b and 601c) for three active material reservoir containers, which are accommodated by and enter cavities (551 a, 551 b and 551 c) in the lower plate (52) of the upper section (50). With reference to Figures 10 and 11, the PCI is mounted vertically along the rear face of the intermediate section (60) of the device, and is supported by a placeholder (592) on the lower plate (52) of the upper section (50) of the device. The PCI (62) has a microprocessor that can be controlled by means of a direct mechanism using buttons (626a to 626d), fitted in ports (603a to 603d) in the middle section (60), which interfaces with the PCI (62) by switching means (622a to 622d), together with a display interface composed of a 7-segment display (621) and a light tube (625), both of which fit into a groove (602) of the middle section (60) . The PCI also has a receptacle (623) that is accessible through a port (604) in the middle section (60) of the device for the purpose of charging and / or communicating with the device, which can be of any charging technology and / or appropriate communication as previously described in the single system mode. In a preferred embodiment, the receptacle is a micro-USB (Micro-B) receptacle (623) accessible through the port (604) in the middle section (60) of the device. As with the single system mode, when the device is in operation, two LEDs (624a and 624b) will be activated. A triangular light diffuser (610) transmits the light emitted by these LEDs (624a and 624b) as a bright strip around the perimeter of the device. As with the single system mode, the ring light diffuser (610) can be made of frosted glass or frosted transparent plastic such as frosted polyethylene, frosted polycarbonate, and the like. Referring to Figure 11, the multi-system mode includes an electrical power source to allow it to function, which can be formed through the receptacle (623) that interfaces with the PCI (62) and is accessible through a port (604) in the middle section (60) of the device, or by means of a rechargeable battery of
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26/39 lithium polymer (63). With additional reference to Figure 11, the lower section (61), or lower cover, is connected to the intermediate section (60) by means of magnets (611a and 611b), one of which (611b) is glued to a pole (612) in the lower section (61), and the other of which (611a) is glued to the bottom of the intermediate housing (60).
[055] Regarding the operation of the multi-system mode, the device can be operated in a similar way to that described in the example given for the single system mode. With reference to Figures 9, 10, and 11, an example of the operation of the multi-system modality is given here; note that this example is for illustrative purposes only, and in no way limits the functionality of the device in any way. It is important to note that the use of the device and the interface parameters can be customized, altered, changed, updated, and modified at any time, by altering or updating the microprocessor program. In this illustrative example of a preferred mode, the user is able to turn on the device by holding the bottom button (626d, which activates switch 622d) firmly for 3 seconds. The device is switched on when the 7-segment display (621, transmitted out of the device by means of a light tube, 625, for the user to see) shows the characters “o” and “n” successively. When the device is turned on, the device can also be turned off by holding the bottom button (626a) firmly for 3 seconds, and the device is turned off after the 7-segment display (621) shows “o”, “F”, and “F ”Successively. Once the device has been turned on, the user can define the duration of driving time for each of the three piezoelectric motors and the frequency of repeated driving time operations for each motor during a pre-configured period of time, as defined by microprocessor program. The configuration of each piezoelectric motor can be addressed by one of the three upper buttons (626a, 626b and 626c), with each button corresponding to an individual piezoelectric motor, that is, button 626a corresponds to the piezoelectric motor 53c, button 626b corresponds to the motor
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27/39 piezoelectric 53a, and 626c corresponds to the piezoelectric engine 53b. The user enters the configuration mode for each piezoelectric motor by holding the respective button, after which the 7-segment display (621) shows “C” for the corresponding motor. The user is then able to define the operation of the selected piezoelectric motor as described in the illustrative example given for the single system modality, the details of which were previously given. Once the user has defined the configuration parameters for the selected piezoelectric motor, the user can press the corresponding button for 3 seconds, at which point the 7-segment display (621) will show Έ ”, indicating that the device has exited the configuration for this piezoelectric motor, which will now be executed, as defined by the parameters entered by the user, when the corresponding button is pressed. Additionally, to confirm the device is executed when the lower button (626d) is compressed, the 7-segment display (621) will show three ascending lines, then “Ξ” in the 7-segment display (621) since, and then a red dot on the 7-segment display (621) will pulse every 5 seconds until the user interacts with the button corresponding to the active piezoelectric motor to change the device settings as described above, or the device is turned off using the bottom button (626d) as previously described.
[056] As with the single system mode, note that the example above is illustrative only, and no limitations are imposed on the customization of the multi-system mode and the interface with the device in this information. In alternative modalities, the user can interface with the device through the receptacle (623), and can instruct the device to work similar to that described in the illustrative example using an external controller such as a computer, smart phone, and other such device of control. In yet another modality, the microprocessor and / or the PCI are capable of wireless communication
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28/39 via Bluetooth, Wi-Fi, and / or other such means. As such, similar functions as described in the illustrative example can be performed in the invention wirelessly.
[057] As with the single system modality of Figures 1 to 5, the housing and / or various housing components of the multisystem modality (Figure 8) can be made of materials as described for the single system modality for example , a thermoplastic material such as polypropylene, polycarbonate, polyethylene terephthalate, polybutylene terephthalate mixed with glass fiber, and so on, or a metal such as stainless steel or aluminum or the like. As with the single system modality, a combination of thermoplastic materials and metal materials can be used to build the housings, to which various components of the housing are connected. In addition, the housings may be lined with casing materials that are designed to fit over the housings of the assembled devices, for example, the device may comprise an inner housing made of a thermoplastic material which is that it encloses a metal housing that covers the inner housing of thermoplastic material.
[058] With reference to Figures 1, 2, 5, and 12 to 15, the invention also comprises a box (80), shown assembled and closed in Figure 12, which can fully accommodate the single complete diffusion system shown in Figure 1. The box (80) comprises three separate components that are shown in Figure 13, with the components being an upper cover (81), a charging and communication cable that surrounds the middle of the box (82) and a lower cover ( 83) which supports the only modality of the diffusion system of the present invention. Regarding the charging and communication cable (82), the first end of the cable (821) has a plug (821a) that can be placed in the single system mode receptacle (212 of Figures 2 and 5), while the second end cable (822) has a plug (822b) that can fit into a
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29/39 compatible receptacle on an external device, for example, a computer, a charging station, a cell phone, and so on. In a preferred embodiment, the first end of the cable (821) has a micro-USB (Micro-B) plug (821a), while the second end of the cable (822) has a USB standard plug (Type-A) ( 822b). The second end of the cable (822) also has a groove (822a) which can accommodate the plug feature (821a) of the first end of the cable (821); as such, the cable can form a band around the box (80) when the cable (822) is wrapped around the box (80) and the first (821) and second (822) ends are joined. The housing components, specifically the upper (81) and lower (83) sections, can be made of a thermoplastic material such as polypropylene, polycarbonate, polyethylene terephthalate, poly (methyl) methacrylate, and so on, and be shaped by injection. Alternatively, the housing components, specifically the upper (81) and lower (83) sections, can be made of metal such as stainless steel or aluminum or the like. In a preferred embodiment, the upper (81) and lower (83) sections of the box are made of clear and transparent poly (methyl) methacrylate, such that when the single system mode is housed inside the box, it can still be seen by user through the box. Regarding the charging and communication cable (82), this cable can be made of a flexible plastic material (for example, polyethylene, polypropylene, and so on), terminating the necessary wiring for the communication between the first (821) and the second (822) cable ends. The charging and communication cable can be between 10 cm and 80 cm in length, more preferably between 20 cm and 60 cm, and colored. In a preferred embodiment, the length of the charging and communication cable is 25 cm, which ensures that the cable fits securely around the middle of the box when mounted (80), and is white in color.
[059] With reference to Figures 13,14, and 15, the upper (81) and lower sections
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30/39 (83) box sections (80) can be connected together using a multitude of mechanisms, including, but not limited to, screws, magnets, clips, posts, bands, catches, and so on. In a preferred embodiment shown in Figures 14 and 15, the method of fixing the upper (81) and lower (83) sections of the box (80) is magnets. In this modality, the upper section (81) of the box houses eight magnets (811 to 811 h) that are fitted to doors (812 to 812 h) on the lower edge of the upper section (81). In turn, the lower section (83) of the box houses eight magnets (831a to 831h) that are fitted in doors (832a to 832h) on the upper edge of the lower section, which are aligned opposite to the eight magnets (811a to 811h) which are housed at the bottom edge of the upper section (81). As such, the upper section (81) and the lower section (83) of the box can be magnetically connected together, while the charging and / or communication cable (82) can be fitted around the outside of the box by wrapping the cable around the box and connecting the two ends (821 and 822) together.
[060] With reference to Figures 16, 17, and 18, another example of the modality of the unique system of the invention is shown, with modifications mainly in the design of, and the user interface for, the device. In this example of the single system modality, the upper section (90) is composed of two plates (92 and 93), of which the upper plate (92) completely covers the lower plate (93) to provide a more perfect appearance in the top of the device. Referring to Figure 16, this example of the single system mode also has a monitor (91) that provides user information such as battery status, Bluetooth or Wi-Fi connectivity, duration, time, or other data such as type of oil, duration of dispersion, and so on. In a preferred embodiment, this monitor is LCD, OLED, LED and activated by means of a segmented driving scheme, a passive matrix driving scheme, or an active matrix driving scheme. In a more preferred embodiment, the monitor is a
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31/39 segmented monitor from Eon Displays Pte. Ltd. (Singapore) (91). With additional reference to Figure 16, this example of the single system modality also has a single button (97), with which the user can interact with the device, for example, pair the device with Bluetooth, turn the device on or off, lock the device, interact with the monitor, and other such functions.
[061] With reference to Figures 16, 17, and 18, the upper section (90) can be mounted in a shape similar to the modality of the single system of the device given previously (Figures 1 to 5). In this example, the upper plate (92) is joined to the lower plate (93) by means of posts (921a and 921b) that fit into the doors on the lower plate (935a and 935b). As with the embodiment of the invention previously shown in Figures 1 to 5, the piezoelectric diffusion motor (923) of this embodiment is assembled using lower and upper O-shaped rings (922a and 922b). The O-rings and piezoelectric motor fit in an upper cavity (922) and a lower cavity (934) in each of the plates. In this embodiment, the upper plate (92) is fitted in and the lower plate (93) completely overlaps, considering a more perfect appearance of the device. The mounted upper plate (90) can be connected to the intermediate section of the device as previously described. With reference to Figure 18, this modality also incorporates a threaded port (931) that facilitates the attachment of a reservoir of active material through the threaded neck of the reservoir container. As in the previous modality, the last stage of the active material distribution mechanism is a rigid, porous, hydrophilic and oleophilic wick (937) which is fitted in a cavity (932) of the lower plate (93) of the upper section (90) of this modality .
[062] Referring to Figures 19 to 22, another embodiment of the active material reservoir container (94) is shown, incorporating an orifice reducer (95) which is shown in Figures 21 and 22. In this embodiment, the orifice (95) maintains the first stage of the active material distribution system, that is, a
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32/39 soft, hydrophilic and oleophilic wick (942). The orifice reducer (95) is inserted into a ferromagnetic washer (941) that fits firmly between the base of the reservoir container (943) and the orifice reducer (95), for the purpose of magnetically fitting the active material reservoir for modalities of the current invention (specifically the upper sections) that incorporates a magnetic interface to the last stage of the active material distribution mechanism (10 and 50, Figures 1 to 5 and Figures 8 to 11). In relation to the metal washer (941) which is sealed between the orifice reducer and the reservoir container, this washer is composed of any non-reactive ferromagnetic metal such as galvanized steel, which can be connected to a magnet. However, and most importantly, this active material reservoir container modality (94) can also be screwed into the threaded port (931) of the top section of the modality of this invention that does not incorporate a magnetic interface (90), thus providing greater flexibility for users of different modalities of this invention. If the preferred fixing mechanism is through the threaded door, the ferromagnetic washer is not necessarily necessary in this mode.
[063] In relation to the orifice reducer (95) of Figure 20, greater detail of this component is given in Figures 21 and 22. The first stage of the active material mechanism, that is, the soft, oleophilic, and hydrophilic wick (942 ), is inserted in a door (952) in the orifice reducer, for which the wick is supported by walls (953) inside the orifice reducer. These walls (953) ensure that the wick (942) remains upright and thus makes good contact with the last stage of the active material distribution system (41, 70a, 70b, 70c and 937, from Figures 2 to 4, 9 , 10, 17, and 18, respectively). In this embodiment, the orifice reducer (95) is composed of a material compatible with the active material contained within the reservoir. In a more preferred embodiment, the orifice reducer is made of low density polyethylene, with a molecular weight between 1,000 to 1,000,000. An airway gap (951) is formed in the orifice reducer (95) in order to ensure the capture of active material by the
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33/39 device is not prevented by pressure differences between the active material storage container (943) and the external environment, resulting from circumstances such as changes in the volume of active material in the container or changes in altitude.
[064] In conclusion, the portable diffusion device of the present invention allows the diffusion and aspiration of active materials, with particular attention to liquid active materials, such as aerosols using a piezoelectric engine, or, in the case of a multi-system device, multiple piezoelectric motors. The invention incorporates a method for easily adding or removing reservoir containers of active material, and also using a new staged method for distributing the active material to the piezoelectric motor, or respective piezoelectric motors in the case of a multi-system device, for dispersion . In addition, the invention incorporates a direct interface mechanism and / or an improved method to ensure that the reservoir of active material can be properly managed in the device by implementing a lid with a built-in washer attached to it, or an orifice reducer with washer placed in the reservoir, along with a suitable wick. In addition, the invention can also incorporate a monitor for the user to observe the status of the device, along with a wireless interface mechanism, allowing the user to control the device through a multitude of mechanisms, including but not limited to, an interface of a button, a display interface, a Bluetooth interface by means of an external wireless device such as a smart phone or computer, or a Wi-Fi interface by means of an external device such as a smart phone or computer. The invention also incorporates a box that can be used to safely host the modality of the unique system of the current invention. Note that, although particular embodiments of the invention have been described in detail in this application for the purpose of providing illustrative examples, any modifications and improvements that
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34/39 can or can be made in the invention are considered to remain within the spirit and scope of the invention. In addition, in view of this description in its entirety, it will be evident to those skilled in the art that numerous modifications can be made; consequently, this illustrative description is presented for the purpose of allowing the person skilled in the art to construct and use the invention as necessary. Exclusive rights to all modifications included in the scope of the attached claims are reserved.
[065] The present invention provides an active material dispersion device including a) an upper section, housing an active material dispersion motor and an active material distribution mechanism to the dispersion motor; b) an intermediate section, presenting a sleeve to accommodate a reservoir of active material and electronic conduction components for the active material dispersing motor, as well as phases of distribution of active material, on which the upper part can be placed and made interface with the intermediate portion; c) a reservoir of active material that contains the active material, as well as the necessary components of the distribution stages of the active material necessary for the distribution of the active material to the dispersion engine, so that the active material does not potentially affect the external components, including the device housing and associated electronic components; d) a lower section that surrounds the intermediate section and, thus, the device, and supports the containers of the active material reservoir when they are connected to the device; e) a box device for accommodating the active material dispersion device, consisting of an upper and lower section that completely surrounds the active material dispersion device.
[066] Preferably, the components of the dispersion device housing are made of materials such as glass (for example, borosilicate), metal (for example, stainless steel or aluminum), solvent-resistant plastic (for example, polybutylene terephthalate glass fiber), or a combination of these
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35/39 materials, such that the device is compatible with a range of active materials, including volatile or reactive active materials such as essential oils.
[067] Preferably, a dispersion motor is mounted between the two plates of the upper section and on the upper part of the last stage of the distribution mechanism of the active material, for which the supports are O-rings, or O-rings, composed of fluoroelastomer copolymer materials that have a Shore A hardness between 45 and 55, and are mounted in thin cavities that ensure that the O-shaped rings are correctly positioned for optimum performance of the mounted dispersion engine.
[068] Preferably, the dispersion motor is a piezoelectric motor composed of a porous metal mesh closed by a piezoelectric ceramic material, in which a voltage can be applied to the piezoelectric ceramic material and causes the ceramic to vibrate at ultrasonic frequencies, and disperse any active material that is in contact with or close to contact with the porous metal mesh.
[069] Preferably, the dispersion engine is in contact with or very close to the last stage of the active material distribution mechanism, comprising a rigid, porous, oleophilic and hydrophilic wick made of surfactant modified polyethylene.
[070] Preferably, the lower plate of the upper section contains a magnetic ring or a threaded door, both of which allow fitting with other stages of the active material distribution mechanism.
[071] Preferably, the middle section of the housing contains a printed circuit board, or PCB, which has a set of circuits, including a microprocessor, which has components that allow the user to interact with the device through an indirect mechanism such as Bluetooth and Wi-Fi, a rechargeable lithium polymer battery to supply power to the circuitry and the
Petition 870190071284, of 25/07/2019, p. 102/164
36/39 piezoelectric motor for driving the piezoelectric motor housed in the upper section of the device, as described above, and a direct mechanism for the user interface with the device, comprising a monitor and one or two buttons, where the user can program the dispersion device following the settings provided by the microprocessor on the PCB, as well as a USB interface for programming the device and charging the rechargeable lithium polymer battery.
[072] Preferably, the microprocessor and associated electronics obtain feedback in relation to the operation of the piezoelectric motor, in such a way that adjustments to the operation of the device can be made, including automatically detecting when the active material reservoir is empty, automatically detecting whether the motor piezoelectric is damaged, and automatically adjust the conduction parameters based on the viscosity of the active material.
[073] Preferably, the active material reservoir is a container with a volume between 1 mL and 10 L that is made of a compatible material for active materials, such as glass, aluminum, solvent-resistant plastic, such as polybutylene terephthalate with fiberglass , or a combination of these materials, and can be fitted into the box via the sleeve as described above.
[074] Preferably, the active material reservoir container also has a soft, hydrophilic and oleophilic wick made of surfactant-modified polyethylene, which is mounted on the bottle to supply active material to the last stage of the active material distribution mechanism described above.
[075] Preferably, the container cap component of the active material reservoir also has a rubber or polymer coated washer that interacts with and magnetically fits into the upper section of the dispersion device as described above, providing good contact with the latter stage of the dispensing mechanism and sealing the interface between the container
Petition 870190071284, of 25/07/2019, p. 103/164
37/39 of the active material reservoir and the fitting portion of the device.
[076] Preferably, the lower section of the device has two magnets mounted on posts that fit with two magnets attached to the lower part of the intermediate section of the device, thus supporting the active material reservoir container and completely surrounding the device.
[077] The present invention further provides an active material dispersion device including a) an upper section that houses multiple (more than one) active material dispersion motor, each with its own components for their respective material distribution mechanisms active; b) an intermediate section with multiple (more than one) sleeves for housing active material reservoir containers, allowing multiple active material reservoir containers to be placed inside and used by the device, as well as to conduct electronics for the material dispersion motors active and active material distribution stages, on which the upper part can be placed and interacted with; c) a lower section that includes the intermediate portion and thus the device, together with any active material reservoir containers when connected to the device.
[078] Preferably, the components of the dispersion device housing are made of materials such as glass (for example, borosilicate), metal (for example, stainless steel or aluminum), solvent-resistant plastic (for example, polybutylene terephthalate) with fiberglass), or a combination of these materials, such that the device is compatible with a range of active materials, including volatile or reactive active materials such as essential oils.
[079] Preferably, the upper section is composed of two plates that are connected by posts fitted through doors on the lower plate, as well as clips that extend from the side of the upper plate and connected to the intermediate section by means of screws that are fitted to the posts in the section
Petition 870190071284, of 25/07/2019, p. 104/164
38/39 intermediate and grooves for the clips.
[080] Preferably, multiple (more than one) dispersion motors are mounted between the two plates of the upper section and at the top of the last stage of the distribution mechanism of the active material, so the assemblies for each of the dispersion motors are O-rings or O-rings, composed of fluoroelastomer copolymer material that has a Shore A hardness between 45 and 55.
[081] Preferably, the dispersion motors are identical to the dispersion motor described above.
[082] Preferably, the dispersion engines are in contact with or very close to the last stage of the active material distribution mechanism for each dispersion engine, comprising rigid, porous, oleophilic and hydrophilic wicks made of polyethylene fiber.
[083] Preferably, the lower plate of the upper section contains a magnetic ring in each of the last stages of distribution mechanisms, to fit with other stages of the distribution mechanisms of active material.
[084] Preferably, the middle section of the housing contains a printed circuit board, or PCB, which has a set of circuits, including a microprocessor, which has components that allow the user to interact with the device through an indirect mechanism, such as Bluetooth and Wi-Fi, a rechargeable lithium polymer battery to supply power to the circuitry and the piezoelectric motor for driving the piezoelectric motors housed in the upper section of the device, as described above, a direct mechanism for user interface with the device, comprising a monitor and one to four buttons, where the user can program the dispersion device following the settings provided by the microprocessor on the PCB, as well as a USB interface for programming the device and charging the lithium polymer battery
Petition 870190071284, of 25/07/2019, p. 105/164
39/39 rechargeable.
[085] Preferably, the bottom section of the device has a magnet mounted on a pole that fits with a magnet attached to the bottom of the middle section of the device, thus supporting the active material reservoir containers placed inside the device and completely enveloping the device.
[086] Preferably, the upper and lower sections of the box can completely include the active dispersion device above and can be connected using magnets, and include a USB cable that coils around the center of the box device, thus completely wrapping the box device and the active dispersion device described above.
[087] Preferably, the active material reservoir container has an orifice reducer through which the first stage of the active material distribution mechanism can be fitted in and, thus, interact directly through contact with the last stage of the delivery mechanism. distribution of active material described above.
[088] Preferably, the orifice-reducing component of the active material reservoir container still has a ferromagnetic washer that can be optionally coupled to the active material reservoir optionally to the upper section of the dispersion device as described above, sealing the interface between the active material reservoir container.

权利要求:
Claims (42)
[1]
1. Active material dispersion device to dispense an active material CHARACTERIZED by the fact that it comprises:
a housing comprising an upper section having an upper plate and a lower plate under the upper plate, and an intermediate section;
an active dispersion motor adapted to disperse the active material, the active dispersion motor being mounted on the upper plate and the lower plate by means of an upper O-ring and a lower O-ring respectively, in which the upper O-ring and the O-ring bottom are made from a material that has a Shore A hardness between 10 and 90; and an active material distribution mechanism adapted to deliver the active material to the active dispersion motor, the active material distribution mechanism comprising a last stage of the active material distribution mechanism, wherein the last stage is rigid and porous, where the last stage is being housed by the upper section of the housing, and where the active dispersion motor is mounted on the last stage of the active material distribution mechanism;
wherein the intermediate section of the housing is adapted to house an active material reservoir container to contain the active material, where the active material reservoir container is adapted to contain the active material distribution mechanism adapted to supply the active material inside the active material reservoir container for the last stage of the active material distribution mechanism in the upper section, where the active material reservoir container is adapted to be fixed to the lower plate of the upper section.
[2]
2. Dispersion device, according to claim 1, CHARACTERIZED by the fact that the active dispersion motor is being mounted between the upper plate and the lower plate.
[3]
Dispersion device according to claim 1 or 2,
Petition 870190071284, of 25/07/2019, p. 107/164
2/8
CHARACTERIZED by the fact that the active material reservoir container is adapted to be fixed in a magnetic manner to the lower plate of the upper section.
[4]
Dispersion device according to any one of claims 1 to 3, CHARACTERIZED by the fact that the lower plate of the upper section comprises a magnet housed therein.
[5]
5. Dispersion device, according to claim 4, CHARACTERIZED by the fact that the magnet is a ring-shaped magnet.
[6]
6. Dispersion device according to claim 4 or 5, characterized by the fact that it further comprises a lid adapted to be connected to the container of active material reservoir, in which the lid is adapted to allow the material distribution mechanism the active part fits in it, and the cover comprises a metal washer coated in it, where the washer is adapted to be magnetically insertable to the magnet on the bottom plate.
[7]
7. Dispersion device according to claim 6, CHARACTERIZED by the fact that the washer is coated with a rubber compound or is a polymer-coated washer.
[8]
8. Dispersion device according to claim 6 or 7, CHARACTERIZED by the fact that the cover comprises an airway to avoid a pressure difference between the active material reservoir container and its external environment.
[9]
Dispersion device according to any one of claims 1 to 8, CHARACTERIZED by the fact that the active dispersion motor is in contact with or very close to the last stage of the active material distribution mechanism.
[10]
Dispersion device according to any one of claims 1 to 9, CHARACTERIZED by the fact that the last stage of the active material distribution mechanism comprises a porous, oleophilic and / or hydrophilic wick made of
Petition 870190071284, of 25/07/2019, p. 108/164
3/8 surfactant modified polyethylene.
[11]
Dispersion device according to any one of claims 1 to 10, CHARACTERIZED by the fact that the active material reservoir container is made of a material compatible for the active material, wherein the compatible material comprises glass, metal, plastic solvent resistant or a combination thereof.
[12]
Dispersion device according to any one of claims 1 to 11, CHARACTERIZED by the fact that the dispersion motor comprises a piezoelectric motor comprising a porous metal mesh closed by a piezoelectric ceramic material, wherein a tension is applied to the material piezoelectric ceramic to cause it to vibrate at ultrasonic frequencies in order to disperse any active material that is in contact with or in close contact with the porous metal mesh.
[13]
13. Dispersion device, according to claim 12, CHARACTERIZED by the fact that it still comprises a microprocessor connected to the piezoelectric motor, in which the microprocessor is configured to obtain feedback in relation to the operation of the piezoelectric motor.
[14]
Dispersion device according to any one of claims 1 to 13, CHARACTERIZED by the fact that the mechanism for distributing active material in the active material reservoir container comprises a hydrophilic, and / or oleophilic wick made of surfactant-modified polyethylene .
[15]
Dispersion device according to any one of claims 1 to 14, CHARACTERIZED by the fact that the housing is made of glass, metal, solvent-resistant plastic, or a combination thereof.
[16]
Dispersion device according to any one of claims 1 to 15, CHARACTERIZED by the fact that the last stage is made of synthetic fiber.
[17]
17. Multi-system material dispersing device to dispense at least
Petition 870190071284, of 25/07/2019, p. 109/164
4/8 minus an active material, the multi-system material CHARACTERIZED by the fact that it comprises:
a housing comprising an upper section having an upper plate and a lower plate under the upper plate and an intermediate section;
at least one active dispersion motor adapted to disperse the at least one active material, the at least one active dispersion motor being mounted on the upper plate and the lower plate by means of an upper O-ring and a lower O-ring respectively, where the upper o-ring and the lower o-ring are made from a material that has a Shore A hardness between 10 and 90; and at least one active material distribution mechanism adapted to provide the at least one active material to the at least one active dispersion motor respectively, each of the at least one active material distribution mechanism comprising a last stage of the distribution mechanism of active material, where the last stage is rigid and porous, where the last stage is being housed by the upper section of the housing, and where each of the at least one active dispersion motor is mounted on the last stage of the at least an active material distribution mechanism;
wherein the intermediate section of the housing is adapted to house at least one active material reservoir container to contain at least one active material respectively, each of the at least one active material reservoir container comprising at least one locking mechanism. active material distribution adapted to supply the at least one active material within the at least one active material reservoir container for the respective last stage of the at least one active material distribution mechanism in the upper section, each of which at least an active material reservoir container comprises a lid adapted to be attached to the active material reservoir container, wherein the lid is adapted to allow at least one
Petition 870190071284, of 25/07/2019, p. 110/164
5/8 active material distribution mechanism fits into it, and the cover is adapted to be fixed to the bottom plate of the upper section.
[18]
18. Dispersion device according to claim 17, CHARACTERIZED by the fact that at least one active dispersion motor is mounted between the upper plate and the lower plate.
[19]
19. Dispersion device according to claim 17 or 18, CHARACTERIZED by the fact that each of the at least one container of active material is adapted to be fixed in a magnetic manner to the lower plate of the upper section.
[20]
20. Dispersion device according to claim 19,
CHARACTERIZED by the fact that the last stage is made of synthetic fiber.
[21]
21. Dispersion device according to claim 20,
FEATURED by the fact that the bottom plate of the upper section comprises at least one magnet housed in it.
[22]
22. Dispersion device according to claim 21, CHARACTERIZED by the fact that the at least one magnet is a ring-shaped magnet.
[23]
23. Dispersion device according to claim 21 or 22, CHARACTERIZED in that it further comprises a lid adapted to be connected to at least one container of active material reservoir, in which the lid is adapted to allow at least one active material distribution mechanism fits there, and the cover comprises a metal washer coated thereon, where the washer is adapted to be magnetically insertable to the magnet on the bottom plate.
[24]
24. Dispersion device according to claim 23, CHARACTERIZED by the fact that the washer is coated with a rubber compound or is a polymer-coated washer.
[25]
25. Dispersion device according to claim 23 or 24,
Petition 870190071284, of 25/07/2019, p. 111/164
6/8
CHARACTERIZED by the fact that the cover comprises an airway to avoid a pressure difference between the active material reservoir container and its external environment.
[26]
26. Dispersion device according to any one of claims 17 to 25, CHARACTERIZED by the fact that the at least one active dispersion motor is in contact with or very close to the respective last stage of the at least one active material distribution mechanism .
[27]
27. Dispersion device according to any of claims 17 to 26, CHARACTERIZED by the fact that the last stage of each of the at least one active material distribution mechanism comprises a porous, oleophilic and / or hydrophilic wick made of polyethylene modified by surfactant.
[28]
28. Dispersion device according to any one of claims 17 to 27, CHARACTERIZED by the fact that the at least one container of active material is made of a material compatible for the active material, wherein the compatible material comprises glass, metal, solvent-resistant plastic or a combination thereof.
[29]
29. Dispersion device according to any one of claims 17 to 28, CHARACTERIZED by the fact that the dispersion motor comprises a piezoelectric motor comprising a porous metal mesh closed by a piezoelectric ceramic material, in which a tension is applied to the material piezoelectric ceramic to cause it to vibrate at ultrasonic frequencies in order to disperse any active material that is in contact with or in close contact with the porous metal mesh.
[30]
30. Dispersion device, according to claim 29, CHARACTERIZED by the fact that it still comprises a microprocessor connected to the piezoelectric motor, in which the microprocessor is configured to obtain feedback in relation to the operation of the piezoelectric motor.
Petition 870190071284, of 25/07/2019, p. 112/164
7/8
[31]
31. Dispersion device according to any one of claims 17 to 30, CHARACTERIZED by the fact that the at least one active material distribution mechanism in the respective at least one active material reservoir container comprises a hydrophilic and / or oleophilic wick made of surfactant modified polyethylene.
[32]
32. Dispersion device according to any one of claims 17 to 31, CHARACTERIZED by the fact that the housing is made of glass, metal, solvent-resistant plastic, or a combination thereof.
[33]
33. Dispersion device according to any of claims 17 to 32, CHARACTERIZED by the fact that the dispersion device comprises three active material dispersion motors, three active material distribution mechanisms, and three active material reservoir containers .
[34]
34. Dispersion device according to any one of claims 17 to 33, CHARACTERIZED in that each of the at least one container of active material is adapted to be screwed into the upper section.
[35]
35. Dispersion device according to any one of claims 1 to 34, CHARACTERIZED by the fact that it further comprises a box for housing the dispersion device, wherein the box comprises an upper cover, a lower cover connectable to the upper cover and a cable adapted to wrap around the box.
[36]
36. Dispersion device according to any one of claims 1 to 35, CHARACTERIZED by the fact that the upper and lower O-rings are made from a material that has a Shore A hardness between 30 and 70.
[37]
37. Dispersion device according to any one of claims 1 to 35, CHARACTERIZED by the fact that the upper and lower O-rings are made from a material that has a Shore A hardness between 45 and 55.
Petition 870190071284, of 25/07/2019, p. 113/164
8/8
[38]
38. Dispersion device according to any one of claims 1 to 37, CHARACTERIZED by the fact that the upper O-ring and the lower O-ring include O-shaped rings.
[39]
39. Dispersion device according to any one of claims 1 to 38, CHARACTERIZED by the fact that it also comprises an orifice reducer adapted to keep the material distribution mechanism active and adapted to fix magnetically to the upper section.
[40]
40. Dispersion device according to claim 39, CHARACTERIZED by the fact that the orifice reducer is adapted to retain a metal washer between itself and the active material reservoir container.
[41]
41. Dispersion device according to claim 39 or 40, CHARACTERIZED by the fact that the orifice reducer comprises an airway to avoid a pressure difference between the active material reservoir container and its external environment.
[42]
42. Dispersion device according to any one of claims 1 to 16, CHARACTERIZED by the fact that the container of active material is adapted to be fixed to the lower plate of the upper section by means of a screw mechanism.

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JP2020506042A|2020-02-27|

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MX2019008805A|2019-12-16|

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法律状态:
2020-09-15| B11A| Dismissal acc. art.33 of ipl - examination not requested within 36 months of filing|

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2020-12-01| B11Y| Definitive dismissal - extension of time limit for request of examination expired [chapter 11.1.1 patent gazette]|

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2021-10-13| B350| Update of information on the portal [chapter 15.35 patent gazette]|

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US201662291501P| true| 2016-02-04|2016-02-04|

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US15/417.200|2017-01-26|

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US15/417,200|US20170274405A1|2016-02-04|2017-01-26|Portable Diffuser|

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