The present disclosure generally relates to oil delivery systems for positive airway pressure systems. Specifically, this disclosure describes a passive inline oil delivery system for delivering a controlled and variable amount of a chemical compound, such as an aromatic or essential oil, via a positive airway pressure system.
The written disclosure herein describes illustrative embodiments that are non-limiting and non-exhaustive. Reference is made to certain of such illustrative embodiments that are depicted in the figures described below.
According to one aspect of the present disclosure, an oil diffusing apparatus to expose oil contained in a holder to an airflow of a positive airway pressure system is provided. The oil diffusing apparatus may comprise a receptacle configured to secure a holder containing the oil, and a first housing portion and a second housing portion, the first and second portions coupled to each other to form a housing through which an airflow may pass. An aperture may be formed in the receptacle to expose the holder containing the oil to the airflow, the aperture being variable in size to change the amount of oil carried by the airflow.
The first portion and the second portion may be capable of entirely enclosing the holder in response to being joined, such that no part of the holder is exposed to the airflow. The oil diffusing apparatus may be configured to be inserted between a tube and a facemask or between a tube and a pump of the positive airway pressure system.
In some embodiments, a user may select a degree of exposure of the holder by adjusting the coupling of the first portion with the second portion. The holder may comprise an absorbent material, atomizing material, nebulizing material, felt pad, plant-based fiber pad, animal-based fiber pad, fabric, gel, porous substance, plastic, or sponge. An exterior of the second portion may comprise one or more detents that are configured to contact one or more protrusions located on an interior of the first portion. The second portion may comprise measurement indicators that correspond to an amount of exposure of the holder. The first portion and the second portion may be coupled via a threaded engagement.
In another aspect of the present disclosure, an oil diffusing apparatus to expose oil contained in a holder into an airflow of a positive airway pressure system is provided. The apparatus may comprise a receptacle configured to receive the holder containing the oil, and a cover coupled to the receptacle to form a housing for the holder, the cover being movable relative to the receptacle to provide an aperture to vary exposure of the holder to the airflow.
The size of the aperture may correspond to the exposure of the holder to the airflow. A user may select a degree of exposure of the holder by adjusting the size of the aperture. The receptacle may move relative to the cover to entirely close the aperture such that no part of the holder is exposed to the airflow.
The apparatus may be configured to be inserted between a tube and a facemask or between a tube and a pump of the positive airway pressure system. The holder may comprise an absorbent material, atomizing material, nebulizing material, felt pad, plant-based fiber pad, animal-based fiber pad, fabric, gel, porous substance, plastic, or sponge. The apparatus may comprise measurement indicators that correspond to an amount of exposure of the holder.
In another aspect of the present disclosure, a method for diffusing an adjustable amount of oil into a positive airway pressure system is set forth. The method may comprise inserting a passive oil delivery apparatus in-line with an airflow of the positive airway pressure system, the passive oil delivery apparatus comprising an oil-soaked material disposed in a receptacle and adjustably covered with a cover, and adjusting the cover such that a portion of the oil-soaked material is exposed to the airflow.
The above summary of the present invention is not intended to describe each embodiment or every implementation of the present invention. The Figures and the detailed description that follow more particularly exemplify a preferred embodiment.
Many people suffer from sleep apnea and other sleeping disorders and can benefit from the use of positive airway pressure systems. Positive airway pressure systems, such as continuous positive airway pressure (CPAP) systems, automatic positive airway pressure (APAP) systems, and bilevel positive airway pressure (BiPAP) systems deliver pressurized air to a user via a tube and a face mask. The face mask may deliver air to the nose and/or mouth of a user during, for example, sleep. The presently described systems and methods may be adapted for use with a wide variety of alternative types of air or other gas delivery systems.
Aromatic essential oils are used for aromatherapy, massage therapy, nutritional supplements, personal care, medicinal use, and the like. Some systems and devices have been devised to work with CPAP machines to deliver essential oils to users. For example, U.S. Patent Publication No. 2018/0008796 describes an inline scent delivery adaptor for CPAP that passively diffuses oil from a pad into air delivered to the CPAP user. However, the scent delivery adaptor of the above-referenced patent application does not offer a controlled delivery of the oil into the airflow nor does it allow for any adjustability. Instead, the existing scent delivery adaptor diffuses an uncontrollable, large amount of oil into the airflow until the oil reserves are exhausted.
Similarly, an apparatus for diffusing aromatic substances in ventilatory equipment is described in U.S. Patent Publication No. 2010/0022819. This system likewise lacks any ability to control or adjust the amount of oil diffused into the airflow. The presently described systems and apparatuses allow for controlled and/or adjustable diffusion (or infusion) of oils, such as essential or aromatic oils, into the pressurized delivery tube(s) of positive airway pressure systems. The presently-described system and apparatuses are passively connected inline to the tube(s) of the positive airway pressure system. It will be understood that the presently described system can operate with not only essential or aromatic oils, but with any chemical compounds that can evaporate into the air. Oil, as used herein, is intended to cover a broad spectrum of chemical compounds.
In some embodiments, an inline passive oil delivery system provides a controlled, time-release delivery of an oil into the airflow of a positive airway pressure system. For example, a saturated or partially saturated pad may store a reserve of oil. The inline passive oil delivery system may expose a portion of the pad to the airflow within the tube. The exposed portion of the pad may diffuse, or possibly infuse (e.g., via capillary action), essential oils into the airflow at a controlled rate. The pad type and the area of the pad exposed to the airflow may be selected to provide a target diffusion (or infusion) rate of an essential oil.
In one specific example, a pad is selected to hold approximately five hundred microliters (500 μl) of an essential oil corresponding to approximately 10 “drops” of an essential oil. The pad is contained within an apparatus connected inline with the tubes of a positive airway pressure system. A portion of the pad may be exposed to the airflow to deliver, for example, 5 μl of oil into the airflow per hour (approximately 0.1 “drops” per hour).
In another specific example, a larger portion of the pad may be exposed to the airflow and/or a pad having a higher release rate may be utilized. In such an example, the pad may deliver 10 μl of oil into the airflow per hour (approximately 0.2 “drops” per hour). The area of the pad exposed to the airflow and the type of pad utilized may be selected to attain a target delivery rate. Example target delivery rates may range from 1-100 μl per hour. Higher and lower rates are functionally possible by exposing more or less of the pad and/or by selecting different pad materials or pad saturation.
A pad (or other material) may be configured to store and provide a controlled release, such as a constant release over time (e.g., a zero-order release) of any of a wide variety of oils, including aromatic oils, scents, essential oils, and the like. Extracts and absolutes may also be used instead of true “essential oils” that are manufactured via steam distillation, expression, or cold-distillation. Such oils may provide pleasuring or calming scents, may open airways to improve breathing quality, and/or may provide other therapeutic or non-medical device medicinal benefits to a user. In some embodiments, a cannabis oil may be added to the pad for controlled and/or adjustable diffusion/infusion of cannabis oil into a breathing tube of a user.
In some embodiments, the pad may be replaced by any of a wide variety of materials and substances capable of storing a reserve of oil and delivering the oil into an airflow. Some materials may diffuse oil into the airflow via, for example, evaporation or atomization, and other materials may infuse oil into the airflow via, for example, capillary actions. Examples of possible materials include, but are not limited to, atomizing materials, nebulizing materials, felt pads, plant-based fiber pads, animal-based fiber pads, fabrics, gels, porous substances, plastics, sponges, and the like. In some embodiments, a container may be used that comprises a material that is impermeable to liquid while still allowing gas to pass through. In one specific embodiment, the pad may comprise compressed felt that is between approximately 0.0625 and 0.5 inches thick (1.5 mm to 13 mm), between approximately 0.2 and 0.75 inches wide (5 mm to 20 mm), and between approximately 0.2 and 1.125 inches long (5 mm to 30 mm).
In some embodiments, the inline apparatus that contains the pad is mechanically adjustable. Mechanical adjustment of the apparatus can adjust the total surface area of the pad (or other material) that is exposed to the airflow. In some embodiments, the inline apparatus may be adjusted between an “off” setting and a “fully open” setting. The inline apparatus may be infinitely adjustable between the “off” and “fully open” settings. Alternatively, the inline apparatus may have a preset number of stepped adjustment settings between the “off” and “fully open” settings.
In the “off” setting, no portion of the pad may be exposed to the airflow and the rate of release of the oil into the airflow may be approximately zero (0 μl). The “fully open” setting may correspond to a maximum number of drops or microliters per hour. For example, the “fully open” setting may correspond to 1, 2, or 3 “drops” per hour. Thus, in an example embodiment in which there are 4 discrete stepped settings between “off” and a “fully open” setting of 1 “drop” per hour, the discrete steps may correspond to release rates of 0.2, 0.4, 0.6, and 0.8 “drops” per hour.
Thus, in some embodiments, an inline oil delivery system may be configured to deliver a preset number of “drops” per hour of an oil into an airflow of a positive airway pressure system. In other embodiments, the inline oil delivery system may be mechanically adjustable to control the number of “drops” per hour of the oil into the airflow of the positive airway pressure system.
In various embodiments, the pad (or other oil storage and infuser/diffuser material) may be washable and/or replaceable. In some embodiments, the pads or other materials may come preloaded with specific oils. In other embodiments, the user may add oil to the bare pad prior to use. In some embodiments, the pad may be configured to change color when oil is added (e.g., via a chemical reaction). In some embodiments, the color of a pad may fade or change color over time to indicate that the pad should be replaced.
The material from which the pad or other release mechanism is selected may be configured to provide a zero-order release. That is, the amount of oil released per hour may be substantially the same from initial release until the stored oil supply within the pad is exhausted. In some embodiments, the pad may release a slightly greater amount of oil early on (to satisfy the expectations of the user early on) and then taper off slightly to a zero-order or near zero-order delivery rate for the remaining delivery time.
The embodiments of the disclosure can be further understood by reference to the drawings of some specific example embodiments, wherein like parts are designated by like numerals throughout. The components of the disclosed embodiments, as generally described and illustrated in the figures herein, could be arranged and designed in a wide variety of different configurations. Thus, the following description of the embodiments of the systems and methods of the disclosure is not intended to limit the scope of the disclosure, as claimed, but is merely representative of possible embodiments.
It is particularly appreciated that many of the components could be resized, reshaped, lengthened, shortened, etc. It is also appreciated that a wide variety of connections, couplings, and fasteners could be utilized in addition to, or as alternatives to, those shown in the figures. In fact, many possible options and variations are intentionally not illustrated to avoid obscuring other aspects of the illustrated embodiments.
The various components described herein may be manufactured using a wide variety of metals, plastics, glasses, woods, and other materials known to be useful in manufacturing. In some cases, well-known structures, materials, or operations may not be shown or described in detail in order to avoid obscuring aspects of the disclosure. Furthermore, the described features, structures, or characteristics may be combined in any suitable manner in one or more alternative embodiments.
It is appreciated that various mechanical interfaces may be substituted with alternative mechanical components that provide a similar function. For example, press-fit interference fittings may be replaced with screw fittings, glued fittings, clamps, and the like. Detents, protrusions, depressions, snap fittings, press-fittings, rubber seals, screw fittings, interference fits, and the like may be used interchangeably and/or in combination to accomplish the described functions.
The phrases “connected to,” “coupled to,” “engage with,” and “in communication with” refer to any form of interaction between two or more components, including mechanical, electrical, magnetic, and electromagnetic interaction, depending on the context. Two components may be connected to each other, even though they are not in direct contact with each other, and even though there may be intermediary devices between the two components.
In various embodiments, the pad holder 473 may be replaced with various other components to hold atomizing materials, nebulizing materials, felt pads, plant-based fiber pads, animal-based fiber pads, fabrics, gels, porous substances, plastics, sponges, and the like. The first portion 470 of the passive oil delivery system may include one or more protrusions 472 for interacting with detents on a second portion of the passive oil delivery system shown in
In some embodiments, the length of the pad selected to extend from the pad holder 473 dictates or at least partially dictates the delivery rate of the oil. Similarly, the shape of the pad holder 473 or the amount of surface area of the pad holder 473 may impact the delivery rate (e.g., holes in the walls of the pad holder 473 may increase the delivery rate).
In some embodiments, the second portion 580 of the passive inline oil delivery system may include a pad cover 583. In other embodiments, the pad cover 583 may not be present such that the configuration of the pad holder 473, the dimensions of the pad, and the pad material utilized may dictate the delivery rate of the oil. The pad cover 583 may selectively interact with the pad holder 473 of the first portion 470 to expose varying amounts of the secured pad to the airflow through the tube connector 590. The engagement between the pad holder 473 and the pad cover 583 may be capable of forming an airtight volume in which the pad is contained. In some embodiments, the pad holder 473 and the pad cover 583 may form a space that is smaller than the pad, such that the pad can be compressed as the first portion 470 and second portion 580 are brought together.
Apertures 585 may facilitate the passage of airflow through the second portion 580. The apertures 585 may be shaped and positioned to align with corresponding apertures 480 in the first portion 470. The joined first portion 470 and second portion 580 can form a conduit through which the airflow passes (e.g., through apertures 480, 585.
In the illustrated embodiment, the pad 600 is ready to be inserted within the pad holder 473 of the first portion 470 of the passive oil delivery system. As the second portion 580 of the passive oil delivery system is inserted within the first portion 470, the protrusions 472 may be fitted between one of a plurality of detents 582. Depending on how far the second portion 580 is inserted within the first portion 470, the pad 600 may be exposed to the airflow by varying degrees.
For example, in a fully closed or “off” position, the second portion 580 may be inserted within the first portion 470 until the pad cover 583 covers all of the portions of the pad 600 that would otherwise be exposed to the airflow by the pad holder 473. In a fully open position, the second portion 580 may only be inserted partway (e.g., until the protrusions 472 are between the first two detents 582 of the second portion 580) such that the pad holder 473 and pad cover 583 act to expose a portion of the pad 600 to the airflow through the passive oil delivery system. In the “fully open” configuration, the pad 600 may be entirely exposed to the airflow, with the exception of those portions of the pad 600 that are covered by the pad holder 473.
In an embodiment in which the pad can store 15 “drops” of, for example, a rosemary essential oil, the user may set the passive oil delivery system to deliver 0.25 “drops” of oil per hour while he or she sleeps for eight hours. Approximately 2 “drops” of oil may be infused (or diffused) into the airflow during the eight-hour sleep session. The remaining 13 “drops” may be conserved during the day by pushing the second portion 580 further into the first portion 470 to the “0 drops/hour” mark to prevent diffusion of any of the stored rosemary essential oil into the air in the tube of the positive airflow pressure system. When the user retires the following evening, he or she may separate the first 470 and second 580 portions to the desired delivery rate (infusion or diffusion rate). As depicted, the protrusions and detents may correspond to a given delivery rate.
In some embodiments, the system can include an automated delivery system. For instance, an electric motor can control the relative motion of the first portion 470 and the second portion 580 to vary the degree of exposure of the pad. A user may operate the electric motor via a remote or controls located on the system. In some embodiments, the automated system can implement a timer or schedule for automatically adjusting the exposure of the pad. In some embodiments, the system may be capable of detecting when a user falls asleep and in response may be programmed to close off the pad.
Specific embodiments and applications of the disclosure are described above and illustrated in the figures. It is, however, understood that many adaptations and modifications can be made to the precise configurations and components detailed above. Again, in some cases, well-known features, structures, or operations are not shown or described in detail. Furthermore, the described features, structures, or operations may be combined in any suitable manner in one or more embodiments. It is also appreciated that the components of the embodiments as generally described and illustrated in the figures herein could be arranged and designed in a wide variety of different configurations. That is, all feasible permutations and combinations of embodiments are contemplated.
In the description above, various features are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure.
It will be apparent to those having skill in the art that changes may be made to the details of the above-described embodiments without departing from the underlying principles of the invention.
This claims the benefit of U.S. Provisional App. No. 62/645,757 filed on 20 Mar. 2018, now pending, the disclosure of which is incorporated, in its entirety, by this reference.
Number | Date | Country | |
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62645757 | Mar 2018 | US |