WO2010078363A1 - Fluid application device and method - Google Patents
Fluid application device and method Download PDFInfo
- Publication number
- WO2010078363A1 WO2010078363A1 PCT/US2009/069733 US2009069733W WO2010078363A1 WO 2010078363 A1 WO2010078363 A1 WO 2010078363A1 US 2009069733 W US2009069733 W US 2009069733W WO 2010078363 A1 WO2010078363 A1 WO 2010078363A1
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- WO
- WIPO (PCT)
- Prior art keywords
- container
- hollow body
- actuator sleeve
- fluid
- applicator device
- Prior art date
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Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M35/00—Devices for applying media, e.g. remedies, on the human body
- A61M35/003—Portable hand-held applicators having means for dispensing or spreading integral media
- A61M35/006—Portable hand-held applicators having means for dispensing or spreading integral media using sponges, foams, absorbent pads or swabs as spreading means
-
- A—HUMAN NECESSITIES
- A45—HAND OR TRAVELLING ARTICLES
- A45D—HAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
- A45D34/00—Containers or accessories specially adapted for handling liquid toiletry or cosmetic substances, e.g. perfumes
- A45D34/04—Appliances specially adapted for applying liquid, e.g. using roller or ball
- A45D34/041—Appliances specially adapted for applying liquid, e.g. using roller or ball using a roller, a disc or a ball
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47K—SANITARY EQUIPMENT NOT OTHERWISE PROVIDED FOR; TOILET ACCESSORIES
- A47K5/00—Holders or dispensers for soap, toothpaste, or the like
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L13/00—Implements for cleaning floors, carpets, furniture, walls, or wall coverings
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
- A61F13/00—Bandages or dressings; Absorbent pads
- A61F13/15—Absorbent pads, e.g. sanitary towels, swabs or tampons for external or internal application to the body; Supporting or fastening means therefor; Tampon applicators
- A61F13/53—Absorbent pads, e.g. sanitary towels, swabs or tampons for external or internal application to the body; Supporting or fastening means therefor; Tampon applicators characterised by the absorbing medium
- A61F13/531—Absorbent pads, e.g. sanitary towels, swabs or tampons for external or internal application to the body; Supporting or fastening means therefor; Tampon applicators characterised by the absorbing medium having a homogeneous composition through the thickness of the pad
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05C—APPARATUS FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05C1/00—Apparatus in which liquid or other fluent material is applied to the surface of the work by contact with a member carrying the liquid or other fluent material, e.g. a porous member loaded with a liquid to be applied as a coating
- B05C1/04—Apparatus in which liquid or other fluent material is applied to the surface of the work by contact with a member carrying the liquid or other fluent material, e.g. a porous member loaded with a liquid to be applied as a coating for applying liquid or other fluent material to work of indefinite length
- B05C1/16—Apparatus in which liquid or other fluent material is applied to the surface of the work by contact with a member carrying the liquid or other fluent material, e.g. a porous member loaded with a liquid to be applied as a coating for applying liquid or other fluent material to work of indefinite length only at particular parts of the work
- B05C1/165—Apparatus in which liquid or other fluent material is applied to the surface of the work by contact with a member carrying the liquid or other fluent material, e.g. a porous member loaded with a liquid to be applied as a coating for applying liquid or other fluent material to work of indefinite length only at particular parts of the work using a roller or other rotating member which contacts the work along a generating line
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D17/00—Rigid or semi-rigid containers specially constructed to be opened by cutting or piercing, or by tearing of frangible members or portions
-
- A—HUMAN NECESSITIES
- A45—HAND OR TRAVELLING ARTICLES
- A45D—HAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
- A45D2200/00—Details not otherwise provided for in A45D
- A45D2200/10—Details of applicators
- A45D2200/1009—Applicators comprising a pad, tissue, sponge, or the like
- A45D2200/1018—Applicators comprising a pad, tissue, sponge, or the like comprising a pad, i.e. a cushion-like mass of soft material, with or without gripping means
Definitions
- the present application relates to an apparatus and method for fluid application.
- Preparation of patients for various medical procedures typically includes application of a topical solution (or fluid), e.g., an antiseptic solution, to sanitize the area targeted for medical procedures.
- Topical solutions may be applied to the targeted area by saturating a sponge- like material with the solution and using a handheld device, for example a pair of forceps or a hemostat, to direct the saturated sponge to the targeted area.
- the sponges or foam materials are typically soaked in a fluid contained within an open pan or other container.
- Another example of a disadvantage involves the difficulty of dispensing a desired dose of fluid at the targeted area.
- fluid application in certain instances, it may be desirable to control the amount of fluid, e.g., antiseptic solution, that is dispensed from the applicator.
- the precise amount of solution delivered to the targeted area may be difficult to determine. This may result in either more or less solution applied to the targeted area than is desired.
- typical applicators utilize foams and/or fluid delivery systems that fail to timely dispense a precise amount of fluid. For example, certain applicators with internal ampoules that store fluid take time for the fluid to saturate the sponge and thus be available for application to the patient. This can result in unpredictable and imprecise dispensing of the desired solution.
- the present disclosure is directed to an applicator device for applying a fluid.
- the applicator device may include a handle.
- the handle may comprise an elongate hollow body having a proximal end and a distal end and at least one longitudinal, interior rib disposed on an inner surface of an outer wall of the hollow body, wherein the at least one interior rib is configured to orient and guide a container for containing the fluid when the container is disposed within the hollow body.
- the applicator device may include a base at the distal end of the hollow body. Further, the applicator device may include an applicator pad coupled to the base.
- the present disclosure is directed to an applicator device for applying a fluid.
- the applicator device may include a handle.
- the handle may include an elongate hollow body having a proximal end and a distal end.
- the applicator device may further include a base at the distal end of the hollow body, and an applicator pad coupled to the base.
- the applicator device may include an actuator sleeve having a proximal end, a distal end, and an outer wall having an outer surface, the actuator sleeve being configured to be inserted within the hollow body so that the outer surface of the outer wall of the actuator sleeve is disposed within the inner surface of the outer wall of the hollow body.
- the actuator sleeve may be configured to be actuated to release the fluid to the applicator pad from a container configured to be inserted into the hollow body.
- the actuator sleeve may include at least one notch extending from the distal end of the actuator sleeve toward the proximal end of the actuator sleeve.
- the notch may be configured to interact with a corresponding outward protrusion on the container.
- the present disclosure is directed to a system for applying a fluid.
- the system may include a container configured to contain the fluid.
- the system may include an applicator device for applying the fluid.
- the applicator device may comprise an elongate hollow body having a proximal end and a distal end, the hollow body being configured to have the container inserted therein.
- the applicator device may further comprise a base at the distal end of the elongate hollow body and an applicator pad configured to be coupled to the base.
- the applicator device may include an annular actuator sleeve having a proximal end and a distal end configured to be installed within the hollow body between an inner surface of an outer wall of the hollow body and an outer wall of the container so that longitudinal translation of the actuator sleeve releases the fluid from the container, allowing the fluid to flow to the applicator pad.
- the actuator sleeve may include one or more longitudinal projections projecting distally and configured to interact with a cap portion on a distal end of the container to remove the cap portion from the container to release the fluid from the container.
- the present disclosure is directed to a method for applying a fluid to a surface.
- the method may include releasing fluid from a container disposed within a hollow body to an applicator pad coupled to a base of the hollow body at a distal end of the hollow body, by longitudinally translating, within the hollow body, an actuator sleeve having a proximal end, a distal end, and an outer wall having an outer surface.
- the outer surface of the outer wall of the actuator sleeve may be disposed within an inner surface of an outer wall of the hollow body, and the actuator sleeve may interact with a cap portion on a distal end of the container to remove the cap portion from the container to release the fluid from the container.
- the present disclosure is directed to a system for applying a fluid, comprising a container configured to contain the fluid and an applicator device for applying the fluid.
- the applicator device may comprise an elongate hollow body having a proximal end and a distal end, the hollow body being configured to have the container inserted therein.
- the applicator device may also include a base at the distal end of the elongate hollow body.
- the applicator device may include an annular actuator sleeve having a proximal end and a distal end configured to be installed within the hollow body between an inner surface of an outer wall of the hollow body and an outer wall of the container such that longitudinal translation of the actuator sleeve within the hollow body releases the fluid from the container, allowing the fluid to flow to the applicator pad.
- the container may include a flat side and the actuator sleeve may include a thicker, reinforced portion, which corresponds with the inset side of the container.
- the present disclosure is directed to a system for applying a fluid, comprising a container configured to contain the fluid and an applicator device for applying the fluid.
- the applicator device may comprise an elongate hollow body having a proximal end and a distal end, the hollow body being configured to have the container inserted therein.
- the applicator device may also include a base at the distal end of the elongate hollow body and an annular actuator sleeve.
- the actuator sleeve may have a proximal end and a distal end configured to be installed within the hollow body between an inner surface of an outer wall of the hollow body and an outer wall of the container such that longitudinal translation of the actuator sleeve within the hollow body causes the actuator sleeve to act upon the container to release the fluid from the container, allowing the fluid to flow to the applicator pad.
- the container may include a main body portion, a cap portion, and a neck portion between the main body portion and the cap portion.
- the neck portion may comprise a frangible portion and a hinge element disposed opposite the frangible portion.
- the hinge element may be configured to maintain a connection between the main body portion and the cap portion after the frangible portion fractures, thus allowing the cap portion to flip open.
- FIGs. 1A-1 C illustrate perspective views of an exemplary embodiment of an applicator system for applying a fluid in various stages of assembly
- FIG. 2A illustrates a cross-sectional side view of an applicator system according to an exemplary disclosed embodiment
- FIG. 2B illustrates a close-up view of a portion of the applicator system shown in Fig. 2A;
- FIG. 3A illustrates a front view of a handle and base of a fluid applicator device, according an exemplary disclosed embodiment
- Fig. 3B illustrates a cross-sectional side view of the handle and base shown in Fig. 3A;
- Fig. 3C illustrates a cross-sectional side view of an assembled applicator system including the handle and base shown in Fig. 3B wherein the actuator sleeve has been actuated;
- FIG. 3D illustrates a close-up view of a portion of Fig. 2A showing a sealing feature of the applicator device, according to an exemplary disclosed embodiment
- FIGs. 4A-4H illustrate several exemplary disclosed embodiments of a base of an applicator device
- FIGS. 5A-5D illustrate several exemplary disclosed embodiments of applicator pads
- Figs. 6A-6D illustrate several exemplary disclosed embodiments of actuator sleeves
- FIG. 7 illustrates a cross-sectional front view of a system for applying a fluid, according to an exemplary disclosed embodiment
- FIGs. 8A-8C illustrate cross-sectional side views of a system for applying a fluid, assembled with differently sized fluid containers.
- FIG. 9 is a cross-sectional view of an alternative embodiment of a system for applying a fluid
- Fig. 10 is a container configured for use in the system shown in Fig. 9.
- FIGS. 11 A-11 C illustrate perspective views of an another exemplary embodiment of an applicator system for applying a fluid in various stages of assembly
- Fig. 12A illustrates a cross-sectional side view of an applicator system according to an exemplary disclosed embodiment
- FIG. 12B illustrates a close-up view of a portion of the applicator system shown in Fig. 12A;
- FIG. 13A illustrates a front view of a handle and base of a fluid applicator device, according an exemplary disclosed embodiment
- Fig. 13B illustrates a cross-sectional side view of the handle and base shown in Fig. 13A;
- Fig. 13C illustrates a rear view of the handle and base shown in Fig. 13A;
- Fig. 14A illustrates a cross-sectional side view of an exemplary assembled applicator system in a pre-activated state
- Fig. 14B illustrates a close-up view of a portion of the applicator system shown in Fig. 14A in the pre-activated state
- Fig. 15A illustrates a cross-sectional side view of an exemplary assembled applicator system in an activated state
- Fig. 15B illustrates a close-up view of a portion of the applicator system shown in Fig. 15B, showing sealing and retention features;
- Figs. 16A-16D illustrate several exemplary disclosed embodiments of actuator sleeves
- FIG. 17A illustrates a cross-sectional front view of a system for applying a fluid, according to an exemplary disclosed embodiment
- Fig. 17B illustrates a cross-sectional front view of a fluid container for use in the system shown in Fig. 17A.
- the disclosed applicator may be configured to dispense/apply any liquid with a viscosity suitable to allow passage through, and dispensing by, the disclosed device.
- the disclosed applicator may be utilized to dispense/apply an antiseptic fluid.
- antiseptic fluid refers to a liquid that, in certain embodiments, may be used to sanitize a region in preparation for various medical procedures.
- Figs. 1A-1 C illustrate, in various stages of assembly, a system 10 for applying a fluid.
- Fig. 1A shows system 10 fully assembled.
- system 10 may include a container 12 configured to contain a fluid.
- system 10 may include an applicator device 14 configured to apply a fluid to a surface.
- Applicator device 14 may include a handle comprising an elongate hollow body 16.
- Hollow body 16 may also include a proximal end 18 and a distal end 20. Hollow body 16 may be configured to have container 12 inserted therein. (See, e.g., Fig.
- Applicator device 14 may include a base 22 at distal end 20 of hollow body 16 and an applicator pad 24 coupled to base 22.
- applicator device 14 may include an annular actuator sleeve 26 having a proximal end 28 and a distal end 30 and may be configured to be installed within hollow body 16 between an inner surface 32 (see, e.g., Fig. 2A) of an outer wall 34 of hollow body 16 and an outer wall 36 of container 12 such that actuation of actuator sleeve 26 may release the fluid from container 12, allowing the fluid to flow to applicator pad 24.
- container 12 may include a main body portion 38 and cap portion 40 at a distal end 42 of main body portion 38.
- Container 12 may be configured to be inserted into hollow body 16 with distal end 42 of container 12 oriented toward distal end 20 of hollow body 16, as shown in Fig. 2A.
- cap portion 40 may be removable from main body portion 38.
- cap portion 40 may be press-fit, snap-fit, threaded, etc. onto, or into, main body portion 38.
- cap portion 40 may be integrally formed with main body portion 38.
- container 12 may include a frangible portion 46, as shown in Fig.
- frangible portion 46 is configured to break upon displacement of cap portion 40 by actuator sleeve 26. That is, in some embodiments, pushing cap portion 40 off of container 12, involves breaking container 12 at frangible portion 46.
- the opening created at distal end 42 of container 12 may be of a size and shape that allows container 12 to self-vent and drain.
- container 12 may be pierced at its distal end to allow fluid to drain.
- cap portion 40 may be configured to be pushed off container 12 in a longitudinal direction within hollow body 16 upon the longitudinal translation of actuator sleeve 26. In some embodiments, cap portion 40 may be configured to be twisted to remove cap portion 40 from container 12. In certain embodiments, cap portion 40 may be configured to be removed from container 12 using both a pushing and a twisting motion. In some alternative embodiments, cap portion 40 may be pulled off. In such embodiments, actuator sleeve 26 may include a ring element, not shown, configured to pull on a portion of container 12.
- Container 12 may be formed of any type of material that is suitable for forming a fluid-holding container with a frangible or removable cap portion.
- container 12 may be a blow-fill-seal container.
- Exemplary materials from which container 12 may be made include polyethylene, polypropylene, nylon, and blends of such materials.
- the liquid contained in container 12 may be an antiseptic solution containing an active ingredient.
- antiseptic solution active ingredients are known in the art, including, but not limited to, ethanol, isopropyl alcohol, other alcohols, and combinations thereof; benzalkonium chloride; benzethonium chloride; chlorhexidine gluconate; chlorhexidine gluconate with alcohol; chloroxylenol; cloflucarban; fluorosalan; hexachlorophene; hexylresorcinols; iodine-containing compounds; povidone iodine; povidone iodine with alcohol, and combinations thereof.
- the antiseptic solution may include a biguanide derivative and/or salts thereof, e.g., olanexidine [1- (3,4- dichlorobenzyl)-5-octylbiguanide] and salts thereof, as the active ingredient, as disclosed, for example in U.S. Patent No. 5,376,686.
- the antiseptic solution may also incorporate certain surfactants, for example, polyoxyethylene-based nonionic surfactants, and/or alcohols, for example, ethanol, isopropyl alcohol, and other alcohols, and/or water, in varying amounts.
- Poloxamer 124 (a/k/a Polyoxypropylene-polyoxyethylene Block Copolymer 124), which is available as Polyoxyethylene(20) polyoxypropylene(20) glycol from Asahi Denka Co., Ltd., Japan
- POE (9) lauryl ether (available as 'BL- 9EX' from Nikko Chemicals Co., Ltd., Tokyo, Japan)
- POE (10) lauryl ether also known as nonoxynol-10, or NP-10, (available as ⁇ mulin NL-100' from Sanyo Chemical Industries, Ltd., Kyoto Japan).
- the antiseptic solution may include an active ingredient and a polyoxyethylene-based nonionic surfactant in various concentrations.
- the polyoxyethylene-based nonionic surfactant may be present at a concentration of about 0.05 to about 16 % (w/v).
- the topical antiseptic may include a biguanide derivative and/or salts thereof, which may be present at a concentration of about 0.05 to about 5.0 % (w/v of biguanide base).
- the biguanide derivative or salt thereof may be olanexidine [1- (3,4-dichlorobenzyl)-5-octylbiguanide] or a salt thereof.
- the salt may be a gluconate.
- applicator device 14 may be provided in ready to use form.
- applicator device 14 may be stored, packaged, and/or shipped, etc. with applicator pad 24 attached to base 22 and with container 12 and actuator sleeve 26 inserted within hollow body 16, as shown in Fig. 2A.
- container 12 may be pre-filled with a fluid, such as an antiseptic fluid, for example.
- hollow body 16 may include various shaping, sizing, and/or one or more exterior gripping features to facilitate manipulation of applicator device 10 by a user.
- hollow body 16 may include indentations, protrusions, texture, rubberized material, etc., to promote secure gripping of hollow body 16.
- hollow body 16 may include one or more protruding gripping members 48 and/or a textured gripping strip 50. In some embodiments more than one textured gripping strip 50 may be provided.
- hollow body 16 may include an ergonomic bend (not shown) and/or a widened exterior portion configured to conform with contours of a hand palm.
- Hollow body 16 and/or base 22 may be made of any suitable material including, but not limited to, metals, metal-alloys, plastics and other polymers, including, for example, polycarbonate, nylon, modified acrylics, Methylmethacrylate-Acrylonitrile-Butadiene-Styrene (MABS), thermoplastic alloys, various composite materials, or combinations thereof.
- Hollow body 16 may be made by various manufacturing processes known in the art including, but not limited to, molding, injection molding, machining, casting, extruding, and/or combinations thereof.
- one or more components of applicator 12 may be formed of a transparent or translucent material.
- one or more portions of hollow body 16 and/or actuator sleeve 26 may be formed of a transparent or translucent material. Transparency and/or translucency of certain components may enable observation of the quantity of fluid remaining in container 12 and/or facilitate monitoring the flow of the fluid through applicator device 14 while being dispensed.
- Hollow body 16 may include one or more interior guiding elements configured to orient and guide container 12 when container 12 is disposed within hollow body 16.
- hollow body 16 may include one or more longitudinal, interior guiding ribs 52 disposed on inner surface 32 of hollow body 16.
- Interior guiding ribs 52 may be configured to restrict rotation of container 12 within hollow body 16.
- hollow body 16 may include two substantially parallel guiding ribs 52 spaced apart from one another.
- container 12 may include a corresponding outward protrusion 54, as shown in Fig. 3C, having a size and shape to fit within, and be guided by, guiding ribs 52.
- hollow body 16 may include one or more grooves (not shown) for orienting and guiding container 12.
- ribs 52 may, instead, be grooves in inner surface 32 of hollow body 16.
- hollow body 16 may include one or more longitudinal stopping ribs 56, substantially parallel to, and disposed between, guiding ribs 52.
- Each of guiding ribs 52 may include a proximal end 58 and a distal end 60 and each of stopping ribs 56 may have a proximal end 62 and a distal end 64.
- proximal end 62 of each of stopping ribs 56 may be located distal to the proximal ends 58 of guiding ribs 52 and may be configured to interact with a distal end 65 (see Fig. 3C) of outward protrusion 54 on container 12 in order to stop longitudinal translation of container 12 in a distal direction within hollow body 16.
- Applicator device 14 may be configured so that, when longitudinal translation of container 12 in a distal direction is prevented by stopping ribs 56 and rotational translation is prevented by guiding ribs 52, longitudinal translation of actuator sleeve 26 pushes and/or twists container cap portion 40 to remove cap portion 40 from container 12, as shown in Fig. 3C.
- Hollow body 16 may also include an one or more inwardly projecting protrusion 66.
- inwardly projecting protrusion 66 may be further configured to reorient cap portion 40 of container 12 after being broken off of container 12 by actuation of actuator sleeve 26, for example, by tilting cap portion 40 to prevent cap portion 40 from becoming lodged within hollow body 16, which could result in a blockage or reduction in flow of the fluid down to applicator pad 24.
- inwardly projecting protrusion 66 may be configured to stop longitudinal translation of actuator sleeve 26. That is, inwardly projecting protrusion 66 may serve as a stop to define the limit of longitudinal translation of actuator sleeve 26.
- Hollow body 16 may also include one or more interior restraining and/or sealing features at proximal end 18 of hollow body 16.
- hollow body 16 may include a circumferential restraining rib 68 configured to secure actuator sleeve 26 within hollow body 16.
- Restraining rib 68 may be configured to interact with corresponding features on actuator sleeve 26.
- actuator sleeve 26 may include a circumferential sealing rib 69 configured to not only seal the interface between actuator sleeve 26 and hollow body 16 to prevent leakage, but also interact with restraining rib 68, whereby restraining rib 68 serves as a stop preventing actuator sleeve 26 from being moved proximally beyond a point at which sealing rib 69 contacts restraining rib 68. See Fig. 3D. .
- Restraining rib 68 and sealing rib 69 may have the same or different profile.
- the accompanying figures show a restraining rib 68 on hollow body 16 and a sealing rib on actuator sleeve 26, in certain embodiments, the restraining rib and sealing rib could be reversed so that the sealing rib could be located on hollow body 16 and the restraining rib could be located on actuator sleeve 26.
- the figures illustrate restraining and sealing features that include ribs, in some embodiments, the restraining and sealing features may include bosses, debosses, detents, etc. (Not shown.)
- hollow body 16 and base 22 may define an angle 70, as shown, for example, in Fig. 3C. Although the accompanying figures illustrate embodiments wherein angle 70 is approximately 45 degrees, hollow body 16 and base 22 may define any angle within the range of 0 to 180 degrees.
- base 22 may include an inner surface 72 and an outer surface 74 to which applicator pad 24 is configured to be affixed.
- base 22 may include one or more perforations 76.
- Applicator pad 24 may be configured to be attached to base 22 over perforations 76.
- Perforations 76 may allow flow of the fluid from hollow body 16 to applicator pad 24.
- outer surface 74 may include one or more channels 78, as shown in Fig. 4G. Channels 78 may be configured to distribute the fluid to different portions of applicator pad 24. Also, in some embodiments, outer surface 74 of base 22 may be textured, as shown in Fig. 4H. Texture may not only promote attachment of applicator pad 24 to base 22, but also may facilitate distribution of fluid to different parts of applicator pad 24. In addition, texture and/or other surface treatments may be added to outer surface 74 of base 22 in order to reduce surface energy and/or promote fluid distribution. For example, other possible surface treatments may include a hydrophilic coating, or plasma or flame treatment, as well as other surface treatments known in the art.
- base 22 may couple to hollow body 16.
- Base 22 may couple to hollow body 16 in a variety of ways known in the mechanical arts, including, but not limited to, attachments by hinges, adhesives, mechanical interlocks, threaded portions, press-fits, friction-fits, interference fits, slide-fits, and/or combinations thereof.
- base 22 may be integrally formed with hollow body 16.
- An integral base/handle combination may be manufactured by various processes known in the art, including, but not limited to, molding, injection molding, casting, machining, or combinations thereof.
- applicator device 10 may include an interchangeable attachment between hollow body 16 and base 22.
- An interchangeable attachment may, for example, facilitate the use of variously sized bases on the same hollow body 16, and vice versa. This may facilitate, e.g., the use of differently-sized applicator pads with the same hollow body 16.
- Base 22 may be formed in a variety of shapes and sizes.
- the shape and/or size of base 22 may generally correspond to that of applicator pad 24.
- base 22 and applicator pad 24 may have different shapes and/or sizes.
- base 22 and/or applicator pad 24 may be substantially triangular with rounded edges, as shown in the accompanying figures. This substantially triangular shape may approximate a teardrop shape, as shown.
- Other exemplary shapes for base 22 may include, without limitation, rectangular, circular, oval, various polygonal shapes, and/or complex shapes comprising combinations thereof.
- the sides of the polygonal shapes may be curved, including embodiments wherein base 22 has a substantially triangular shape.
- Applicator pad 24 may couple to base 22 using any of a variety of attachment mechanisms.
- applicator pad 24 may be attached to base 22 using any suitable method, including, for example, adhesive bonding using, for example, medical grade cyanoacrylate, UV cure adhesive, PSA films, and the like.
- applicator pad 24 may be attached to base 22 using RF welding, heat staking, ultrasonic welding, laser welding, mechanical interlocks, hook-and-loop mechanisms (e.g., Velcro®), threaded pieces, etc., as well as combinations of these mechanisms.
- base 22 and applicator pad 24 may each be configured for attachment to one another using any of these mechanisms and, therefore, may include the appropriate features (e.g., texture, adhesive, mechanical latching/clamping elements, etc.) to enable such attachment.
- applicator pad 24 may have any suitable shape and/or size.
- applicator pad 22 may have a substantially triangular shape with rounded edges (e.g., a teardrop type shape), as shown in the accompanying figures.
- This substantially triangular shape may enable applicator device 14 to be used on surfaces having a variety of contours.
- the smaller tips at the rounded corners of the triangle, particularly the distal-most tip 80 may enable access to crevices and smaller features of a surface, while the broad, proximal end of applicator pad 24 may provide a large pad surface to enable application of fluid to larger, more gently contoured surfaces.
- applicator pad 24 may include a substantially hydrophobic foam. In other embodiments, Applicator pad 24 may include substantially hydrophilic foam.
- the disclosed applicator device may include a substantially hydrophobic or substantially hydrophilic foam.
- substantially hydrophobic foam refers to a polymer-based foam that does not absorb a substantial amount of water. In contrast, a definition of a substantially hydrophilic foam is provided below. For purposes of this disclosure, a substantially hydrophobic foam shall refer to any foam that is not substantially hydrophilic, as defined below.
- substantially hydrophilic foam refers to a polymer-based foam that has an affinity for water.
- certain embodiments of the invention can utilize a polyurethane foam with an open-cell pore structure.
- the substantially hydrophilic foam can be designed for a high rate of fluid absorption such as, for example, absorption of around 20 times the weight of the foam.
- a substantially hydrophilic foam can demonstrate an affinity for water through one or more mechanisms including, but not limited to, the presence of polar groups in the polymer chains that can form hydrogen bonds with water or liquids containing active protons and/or hydroxyl groups, a fine open-cell pore structure that channels liquid into the body of the foam structure by capillary forces, and/or the addition of absorbing materials, such as super absorbers and/or surfactants, to the foam matrix.
- Substantially hydrophilic foams that can be utilized in certain embodiments of the invention are available from organizations including the following: Foamex Innovations (Media, PA, a.k.a. FXI), Crest Foam Industries, Inc.
- Applicator pad 24 may include felting or may be non-felted. In addition, applicator pad 24 may include reticulation or may be non-reticulated. In some embodiments, applicator pad 24 may include multiple pad materials. In such embodiments, combinations of any of the above characteristics may be employed. For instance, in one exemplary, multi-material pad, one pad material may be hydrophobic and a second pad material may be hydrophilic.
- Applicator pad 24 may be formed of a single material or of multiple materials, may include a single layer or multiple layers, and/or may or may not include slits to facilitate distribution and flow of fluid through applicator pad.
- Figs. 5A-5D illustrate several exemplary embodiments of applicator pad 24 having various combinations of the above-listed features.
- applicator pad 24 may comprise a single layer and no slits, as shown in Fig. 5A.
- applicator pad 24 may comprise a single layer, which may include slits 82, as shown in Fig. 5B.
- applicator pad 24 may include multiple slits.
- slits 82 may be provided in a pattern.
- Fig. 5B shows a pattern of substantially parallel slits 82 oriented at an angle.
- applicator pad 24 may include multiple layers. As shown in Figs. 5C and 5D, applicator pad 24 may comprise a base layer 84 and a laminate layer 86. Slits 82 may be provided in base layer 84 and/or in laminate layer 86. Figs. 5C and 5D illustrate embodiments wherein slits 82 are provided in at least laminate layer 86. Fig. 5C shows a pattern of substantially parallel slits 82 similar to those in Fig. 5B. Fig. 5C illustrates a pattern wherein slits 82 are oriented in a generally lateral direction, as opposed to those in Fig. 5B, which are oriented at an angle.
- Slits 82 may be disposed at any angle. Slits 82 may be provided in any of a number of shapes, such as slit 82 in Fig. 5D, which is generally circular. Slits 82 may also be formed in other various shapes including, but not limited to, circles, ovals, polygons, etc. Slits 82 may be formed in any suitable process, for example, by die/kiss cutting.
- each layer may be formed of a different pad material.
- applicator pad 24 may include at least one abrasion layer.
- an abrasion layer may be used to abrade an area targeted for treatment, for example the epidermis. Abrasion may be performed before, during, and/or after dispensing the fluid.
- abrasion may cause a loosening of certain biologic materials, for example body oils, body soils, and/or bacteria, to facilitate treatment of the targeted area.
- a user may abrade the epidermis of a patient to loosen bacteria in order to improve the efficacy of the antiseptic application process.
- an abrasion layer may comprise more than one layer of material, which may facilitate a greater amount of abrasion and/or abrasion of harder to clean areas.
- an abrasion layer may comprise various textures and/or weaves, for example, a gauze-like or foam material.
- an exemplary gauze-like material may be made from various materials that facilitate abrasion, including, but not limited to, cotton, rayon, nylon, and/or combinations thereof.
- Abrasion layer material may be chosen from a number of materials that exhibit varying degrees of abrasiveness. For foam materials, the level of abrasiveness may differ depending on, among other things, the size of the cells/pores. The skin of a premature baby can be thin and fragile, thus an applicator device that comprises an abrasion layer made from nylon or rayon may be preferable to an abrasion layer made from cotton.
- an abrasion layer may comprise a plurality of layers of different materials. In some embodiments, for example foam abrasion layers, the abrasion layer may be flame laminated to base 22 and/or applicator pad 24.
- laminate layer 86 (which may comprise an abrasion layer) may have a shape that generally corresponds to the shape of base layer 84 of applicator pad 24.
- laminate layer 86 may have various other shapes including, but not limited to, circular, oval, rectangular, triangular, polygonal, and the like, or complex shapes including one or more of the same.
- Layers of applicator pad 24 may be attached to one another by various attachment mechanisms including, but not limited to, adhesive bonding (e.g., using pressure sensitive adhesives), fusion bonding, flame lamination, heat staking, ultrasonic welding, etc.
- Actuator sleeve 26 may be configured to be actuated to release the fluid to applicator pad 24 from container 12.
- Figs. 6A-6D illustrate various exemplary embodiments of actuator sleeve 26.
- Actuator sleeve 26 may have an outer wall 88 having an outer surface 90.
- Actuator sleeve 26 may be configured to be inserted within hollow body 16 so that outer surface 90 of outer wall 88 of actuator sleeve 26 is disposed within inner surface 32 of outer wall 34 of hollow body 16.
- Actuator sleeve 26 may be configured to be actuated to release the fluid to applicator pad 24 from container 12.
- Actuator sleeve 26 may be configured to be longitudinally translated within hollow body 16 in order to release the fluid from container 12.
- Actuator sleeve 26 may be longitudinally translated within hollow body 16 by applying force to proximal end 28 of actuator sleeve 26.
- proximal end 28 of actuator sleeve 26 may be contoured to provide substantially even force distribution across proximal end 28.
- proximal end 28 of actuator sleeve 26 may have a rounded, convex surface, as shown in Fig. 6D.
- Such a convex surface may distribute force across proximal end 28, thereby reducing the pressure felt by a user.
- a rounded convex surface may distribute the force across the palm of a user.
- proximal end 28 of actuator sleeve 26 may have a concave surface (see corresponding actuator sleeve 1026 in Fig. 16D) to evenly distribute the force across, for example, the thumb or finger of a user.
- actuator sleeve 26 may include one or more notches 92 extending from distal end 30 of actuator sleeve 26 toward proximal end 28 of actuator sleeve 26.
- container 12 may include a restraining feature, such as outward protrusion 54, to orient and position container 12 within hollow body 16. Such a restraining feature may be configured to fit within notch 92 in actuator sleeve 26.
- actuator sleeve 26 may include one or more longitudinal projections 94 projecting distally and configured to interact with cap portion 40 of container 12 to remove cap portion 40 from container 12 to release the fluid from container 12.
- actuator sleeve 26 may include two longitudinal projections 94, which may define two notches 92.
- An actuator sleeve having two notches 92 may be compatible with a container 12 having two outward protrusions 54. (See Fig. 7.)
- one or more of longitudinal projections 94 may include an angled surface 96 (some embodiments may include multi-angle surfaces 98) configured to rotate cap portion 40 of container 12 upon longitudinal translation of actuator sleeve 26.
- actuation of actuator sleeve 26 by longitudinal translation may cause cap portion 40 to rotate as a result of interaction between angled surfaces 96 and cap portion 40.
- cap portion 40 may include protruding elements 100 (see Fig. 1 C), which may interact with angled surfaces 96 of actuator sleeve 26 to rotate cap portion 40 to remove cap portion 40 from container 12, thereby releasing the fluid from container 12.
- longitudinal projections 94 may include substantially non-angled distal ends 101 , as shown in Fig. 6B. Non-angled distal ends 101 may be configured to push protruding elements 100 distally when actuator sleeve 26 is longitudinally translated in the distal direction. As also shown in Fig. 6B, in some embodiments, longitudinal projections 94 may include inwardly projecting, longitudinal ribs 102, which terminate at distal end 30 of longitudinal projections 94. In such embodiments, ribs 102 may interact with protruding elements 100 or a similar feature of cap portion 40 to push cap portion 40 off container 12.
- one or more longitudinal projections 94 may include a tooth 103 configured to interact with cap portion 40 (e.g., with protruding element 100; see Fig. 1 B) to prevent counter-rotation of cap portion 40 on at least one side of container 12 during longitudinal translation of actuator sleeve 26, while allowing rotation of cap portion 40 at another side of container 12 by angled surface 96 of actuator sleeve 26, in order to release the fluid from container 12.
- a tooth 103 configured to interact with cap portion 40 (e.g., with protruding element 100; see Fig. 1 B) to prevent counter-rotation of cap portion 40 on at least one side of container 12 during longitudinal translation of actuator sleeve 26, while allowing rotation of cap portion 40 at another side of container 12 by angled surface 96 of actuator sleeve 26, in order to release the fluid from container 12.
- actuator sleeve 26 may include a venting feature configured to permit air to enter hollow body 16 to replace the fluid as the fluid flows out of hollow body 16 into applicator pad 24, thereby maintaining atmospheric pressure within applicator device 14.
- actuator sleeve 26 may include holes 106 (or channels) at a location conducive to allowing air to easily enter applicator device 14, while limiting the possibility that fluid can leak out by means of a tortuous pathway and/or small orifice sizes.
- holes 106 may be located at proximal end 28 of actuator sleeve 26, as shown in Fig 6D.
- Components of applicator system 10, including applicator device 14 and/or container 12, may be configured to be sterilized in various ways known in the art including, but not limited to, exposure to ethylene oxide ("(Et) 2 ⁇ "), gamma radiation, electron beam, and/or steam.
- system 10 may be configured for use with aseptic fluids.
- the fluid may be sterilized prior to filling container 1012.
- the fluid may be sterilized while contained within container 1012.
- the fluid and container 1012 may be sterilized while assembled with hollow body 1016 or with applicator device 1014 as a whole.
- the fluid may be sterilized in various ways known in the art, including, but not limited to, filtration, exposure to gamma radiation, electron beam, and/or steam.
- U.S. Patent No. 6,682,695 discloses a method for sterilizing a fluid that may be consistent with certain embodiments of the invention.
- system 10 may be configured to apply fluid from differently sized fluid containers. For example, as shown in Figs. 8A-8C, because actuator sleeve 26 exerts force on container 12 at distal end 42 of container 12, applicator device 14 may be used with containers having a variety of lengths.
- Fig. 9 is a cross-sectional view of a system 110 for applying a fluid, shown assembled and in a pre-actuated state.
- system 110 may comprise a container 112 that may have a flat side 115.
- System 110 may include an actuator sleeve 126, having a thicker, and thus reinforced, portion 117, which corresponds with flat side 115 of container 112.
- thicker portion 117 of actuator sleeve 126 may abut flat side 1 15 of container 112 when system 110 is assembled.
- container 12 and hollow body 16 in a similar but alternative way, for example, with corresponding tongue and groove, an inset protrusion, etc.
- container 112 may include a main body portion 138 and a cap portion 140.
- Container 112 may include a neck portion 119 between main body portion 138 and cap portion 140.
- Neck portion 119 may include a frangible portion 146.
- Frangible portion 146 may be configured to fracture as actuator sleeve 126 is longitudinally translated in a distal direction to act upon container 112 by forcing a distal end 130 of actuator sleeve 126 against cap portion 140 of container 112.
- Cap portion 140 may include a protruding element 121 , which may be acted upon by distal end 130 of actuator sleeve 126.
- container 112 may include a hinge element 123 between main body portion 138 and cap portion 140.
- container 112 may include frangible portion 146 on the side of container 112 where actuator sleeve 126 comes into contact with cap portion 140.
- Hinge element 123 may be disposed opposite frangible portion 146 so that upon longitudinal translation of actuator sleeve 126, frangible portion 146 fractures, separating cap portion 140 from main body portion 138, except at hinge element 119, which may maintain a connection between main body portion 138 and cap portion 140 of container 112, thus allowing cap portion 140 to flip open.
- Figs. 11A-17B illustrate various alternative embodiments of the hollow body, container, and actuator sleeve, which may be combined as shown or with other embodiments, including those disclosed above, as will be understood by one skilled in the art.
- Figs. 11A-11 C illustrate a system 1010 in various stages of assembly.
- Fig. 11 A shows system 1010 fully assembled.
- system 1010 may include a container 1012 configured to contain a fluid.
- system 1010 may include an applicator device 1014 configured to apply a fluid to a surface.
- Applicator device 1014 may include a handle comprising an elongate hollow body 1016. Hollow body 1016 may also include a proximal end 1018 and a distal end 1020.
- Hollow body 1016 may be configured to have container 1012 inserted therein.
- Applicator device 1014 may include a base 1022 at distal end 1020 of hollow body 1016 and an applicator pad 1024 coupled to base 1022.
- applicator device 1014 may include an annular actuator sleeve 1026 having a proximal end 1028 and a distal end 1030 and may be configured to be installed within hollow body 1016 between an inner surface 1032 (see, e.g., Fig. 12A) of an outer wall 1034 of hollow body 1016 and an outer wall 1036 of container 1012 such that actuation of actuator sleeve 1026 may release the fluid from container 1012, allowing the fluid to flow to applicator pad 1024.
- container 1012 may include a main body portion 1038 and cap portion 1040 at a distal end 1042 of main body portion 1038.
- Container 1012 may be configured to be inserted into hollow body 1016 with distal end 1042 of container 1012 oriented toward distal end 1020 of hollow body 1016, as shown in Fig. 12A.
- cap portion 1040 may be removable from main body portion 1038.
- cap portion 1040 may be press-fit, snap-fit, threaded, etc. onto, or into, main body portion 1038.
- cap portion 1040 may be integrally formed with main body portion 1038.
- container 1012 may include a frangible portion 1046, as shown in Fig. 12B, between main body portion 1038 and cap portion 1040, wherein frangible portion 1046 is configured to break upon displacement of cap portion 1040 by actuator sleeve 1026. That is, in some embodiments, pushing cap portion 1040 off of container 1012, involves breaking container 1012 at frangible portion 1046.
- the opening created at distal end 1042 of container 1012 may be of a size and shape that allows container 1012 to self- vent and drain.
- cap portion 1040 may be configured to be pushed off container 1012 in a longitudinal direction within hollow body 1016 upon the longitudinal translation of actuator sleeve 1026.
- container 1012 may be opened by puncturing a distal end of container 1012.
- container 1012 may include a vent feature 1096, as shown in Figs. 17A and 17B.
- Vent feature 1096 may be located at a proximal end of container 1012 and may include, for example, a thinner portion of material, readily puncturable by a corresponding puncturing element, such as a spike 1098, on actuator sleeve 1026, as shown in Figs. 16D and 17A.
- a corresponding puncturing element such as a spike 1098
- spike 1098 may puncture container 1012, allowing air to enter container 1012 to replace fluid as it drains from container 1012 once cap portion 1040 has been removed from container 1012.
- Such venting of container 1012 may facilitate more rapid and/or predictable flow of fluid out of container 1012.
- Container 1012 may be formed of any type of material that is suitable for forming a fluid-holding container with a frangible or removable cap portion. Exemplary such materials are discussed above with respect to container 12.
- the liquid contained in container 1012 may be an antiseptic solution containing an active ingredient. Exemplary such antiseptic solution active ingredients are discussed above.
- applicator device 1014 may be provided in ready to use form.
- applicator device 1014 may be stored, packaged, and/or shipped, etc. with applicator pad 1024 attached to base 1022 and with container 1012 and actuator sleeve 1026 inserted within hollow body 1016, as shown in Fig. 12A.
- container 1012 may be pre-filled with a fluid, such as an antiseptic fluid, for example.
- Container 1012 may include a neck portion 2014 as in Fig. 17B.
- neck portion 2014 may be configured to facilitate metering of fluid flow.
- neck portion 2014 may have a somewhat narrower size, thus restricting the flow rate of fluid out of container 1012.
- system 1010 may be configured to apply fluid from differently sized fluid containers. (See Figs. 8A-8C.)
- system 1010 may also be configured to include a container having at least one flat side, similar to that shown in Figs. 9 and 10.
- hollow body 1016 may include various shaping, sizing, and/or one or more exterior gripping features to facilitate manipulation of applicator device 1014 by a user.
- hollow body 1016 may include indentations, protrusions, texture, rubberized material, etc., to promote secure gripping of hollow body 1016.
- hollow body 1016 may include one or more protruding gripping members 1048 and/or a textured gripping strip 1050. In some embodiments more than one textured gripping strip 1050 may be provided.
- hollow body 1016 may include an ergonomic bend (not shown) and/or a widened exterior portion configured to conform to contours of a hand palm.
- Hollow body 1016 and/or base 1022 may be made of any suitable material. Exemplary materials are discussed above with respect to hollow body 16 and base 22. Hollow body 1016 may be made by various manufacturing processes known in the art including, but not limited to, molding, injection molding, machining, casting, extruding, and/or combinations thereof.
- one or more components of applicator 1012 may be formed of a transparent or translucent material.
- one or more portions of hollow body 1016 and/or actuator sleeve 1026 may be formed of a transparent or translucent material. Transparency and/or translucency of certain components may enable observation of the quantity of fluid remaining in container 1012 and/or facilitate monitoring the flow of the fluid through applicator device 1014 while being dispensed.
- Hollow body 1016 may include one or more interior guiding elements configured to orient and guide container 1012 when container 1012 is disposed within hollow body 1016. For example, as shown in Fig.
- hollow body 1016 may include one or more longitudinal, interior guiding ribs 1052 disposed on inner surface 1032 of hollow body 1016. Interior guiding ribs 1052 may be configured to restrict rotation of container 1012 within hollow body 1016.
- hollow body 1016 may include two substantially parallel guiding ribs 1052 spaced apart from one another.
- container 1012 may include a corresponding outward protrusion 1054, as shown, for example, in Figs. 12A, having a size and shape to fit within, and be guided by, guiding ribs 1052.
- hollow body 1016 may include one or more grooves (not shown) for orienting and guiding container 1012.
- guiding ribs 1052 may, instead, be grooves in inner surface 1032 of hollow body 1016.
- hollow body 1016 may include one or more longitudinal stopping ribs 1056, substantially parallel to, and disposed between, guiding ribs 1052.
- Each of guiding ribs 1052 may include a proximal end 1058 and a distal end 1060 and each of stopping ribs 1056 may have a proximal end 1062 and a distal end 1064.
- proximal end 1062 of each of stopping ribs 1056 may be located distal to the proximal ends 1058 of guiding ribs 1052 and may be configured to interact with a distal end 1065 (see Fig.
- Applicator device 1014 may be configured so that, when longitudinal translation of container 1012 in a distal direction is prevented by stopping ribs 1056 and rotational translation is prevented by guiding ribs 1052, longitudinal translation of actuator sleeve 1026 pushes container cap portion 1040 to remove cap portion 1040 from container 1012, as shown in Fig. 14A.
- Hollow body 1016 may also include one or more inwardly projecting protrusion 1066.
- inwardly projecting protrusion 1066 may be further configured to reorient cap portion 1040 of container 1012 after being broken off of container 1012 by actuation of actuator sleeve 1026, for example, by tilting cap portion 1040 to prevent cap portion 1040 from becoming lodged within hollow body 1016, which could result in a blockage or reduction in flow of the fluid down to applicator pad 1024.
- inwardly projecting protrusion 1066 may be configured to stop longitudinal translation of actuator sleeve 1026. That is, inwardly projecting protrusion 1066 may serve as a stop to define the limit of longitudinal translation of actuator sleeve 1026.
- Hollow body 1016 may also include one or more interior restraining and/or sealing features at proximal end 1018 of hollow body 1016.
- hollow body 1016 may include a circumferential restraining rib 1068 configured to secure actuator sleeve 1026 within hollow body 1016.
- Restraining rib 1068 may be configured to interact with corresponding features on actuator sleeve 1026.
- Figs. 13B and 15B in some embodiments, hollow body 1016 may include a circumferential restraining rib 1068 configured to secure actuator sleeve 1026 within hollow body 1016.
- Restraining rib 1068 may be configured to interact with corresponding features on actuator sleeve 1026.
- actuator sleeve 1026 may include a circumferential sealing rib 1069 configured to not only seal the interface between actuator sleeve 1026 and hollow body 1016 to prevent leakage, but also interact with restraining rib 1068, whereby restraining rib 1068 serves as a stop preventing actuator sleeve 1026 from being moved proximally beyond a point at which sealing rib 1069 contacts restraining rib 1068.
- Restraining rib 1068 and sealing rib 1069 may have the same or different profile.
- the accompanying figures show a restraining rib 1068 on hollow body 1016 and a sealing rib on actuator sleeve 1026, in certain embodiments, the restraining rib and sealing rib could be reversed so that the sealing rib could be located on hollow body 1016 and the restraining rib could be located on actuator sleeve 1026.
- the figures illustrate restraining and sealing features that include ribs, in some embodiments, the restraining and sealing features may include bosses, debosses, detents, etc.
- Applicator device 1014 may include a label 2002 configured to be affixed to outer wall 1034 of hollow body 1016, as shown, for example, in Figs. 11A-C.
- label 2002 may interact with one or more features of hollow body 1016.
- label may be removable.
- hollow body 1016 may include one or more venting channels 2004 in communication with one or more holes 2006 and one or more apertures 2007, each of which perforate outer wall 1034 of hollow body 1016.
- venting channels 2004 may form tortuous passages through which air may vent between one area inside hollow body 1016 to another when in an upright ("in-use") position (e.g., with the proximal end of applicator device 1014 held higher than the distal end of applicator device 1014), and inhibit outflow of fluid when applicator device 1014 is laid on a flat surface (i.e., with hollow body 1016 oriented substantially parallel to the ground) or held inverted (i.e., with applicator pad 2024 held higher than the proximal end of applicator device 1014).
- channels 2004, holes 2006, and apertures 2007 may allow air to flow between a proximal area (in communication with holes 2006) and a more distal area (in communication with apertures 2007), when applicator device 1014 is held upright. This may promote self-draining of container 1012.
- the tortuous passages formed by channels 2004 may prevent leakage of fluid when applicator device is oriented horizontally or inverted.
- one or more apertures 2007 may be located distally of the highest fluid level that would occur within hollow body 1016 once the fluid is released from container 1012.
- channels 2004 may include a distally projecting loop 2009 that extends distal to the highest fluid level that could occur within hollow body 1016.
- Label 2002 may be affixed to outer wall 1034 of hollow body 1016 via any suitable method.
- label 2002 may be affixed to outer wall 1034 of hollow body 1016 via pressure sensitive adhesives, RF welding, heat staking, etc.
- hollow body 1016 may include one or more container retention tabs 2008. Apertures 2007 may include a U- shaped opening about retention tabs 2008, as shown in Figs. 11C and 13A.
- retention tabs 2008 may be locked into place when label 2002 is affixed to outer wall 1034 of hollow body 1016 over retention tabs 2008. (See Figs. 1 1C, 12B, and 17A.) As shown in Fig.
- retention tabs 2008 may protrude inwardly above the proximal end of outward protrusion 1054 of container 1012 once container 1012 is pushed far enough distally into hollow body 1016 in order to prevent container 1012 from translating proximally.
- retention tabs 2008 may be flexible so that container 1012 may be removed from hollow body 1016.
- Application of label 2002 to outer wall 1034 of hollow body 1016, however, may lock retention tabs 2008 in an inwardly protruding position, thus preventing removal of container 1012 from hollow body 1016.
- retention tabs 2008 may be substantially inflexible.
- a container could be locked into position by rotating the container, thereby positioning lateral protrusions of the container under retention tabs 2008.
- the rotation of the container upon insertion into hollow body 1016 could be performed automatically, for example, upon insertion of an actuator sleeve into hollow body 1016.
- retention tabs 2008 are shown as tabs, other container retention features may be utilized, such as rings, embosses, or debosses that may be able to flex outwardly and/or inwardly to permit assembly (i.e., insertion of container 1012 into hollow body 1016).
- hollow body 1016 and base 1022 may define an angle 1070, as shown, for example, in Fig. 15A. Although the accompanying figures illustrate embodiments wherein angle 1070 is approximately 45 degrees, hollow body 1016 and base 1022 may define any angle within the range of 0 to 180 degrees.
- base 1022 may include an inner surface 1072 and an outer surface 1074 to which applicator pad 1024 is configured to be affixed. Similar to base 22 discussed above, and shown in Figs. 4A through 4H, base 1022 may include one or more perforations 1076. (See also Fig. 13C) Applicator pad 1024 may be configured to be attached to base 1022 over perforations 1076. Perforations 1076 may allow flow of the fluid from hollow body 1016 to applicator pad 1024.
- outer surface 1074 may include one or more channels, such as channels 78 shown in Fig. 4G. Also, in some embodiments, outer surface 1074 of base 1022 may be textured and/or may have other surface treatments, as is shown in the appended figures and discussed above with respect to outer surface 74 of base 22 in Fig. 4H.
- base 1022 may couple to hollow body 1016.
- Base 1022 may couple to hollow body 1016 in a variety of ways known in the mechanical arts, including, but not limited to, attachments by hinges, adhesives, mechanical interlocks, threaded portions, press-fits, friction-fits, interference fits, slide-fits, and/or combinations thereof.
- base 1022 may be integrally formed with hollow body 1016.
- An integral base/handle combination may be manufactured by various processes known in the art, including, but not limited to, molding, injection molding, casting, machining, or combinations thereof.
- applicator device 1040 may include an interchangeable attachment between hollow body 1016 and base 1022.
- Base 1022 may be formed in a variety of shapes and sizes.
- the discussion above (and corresponding figures) regarding the shapes and sizes of base 22 and applicator pad 24 also apply to the shapes and sizes of base 1022 and applicator pad 1024.
- Actuator sleeve 1026 may be configured to be actuated to release the fluid to applicator pad 1024 from container 1012.
- Figs. 16A-16D illustrate various exemplary embodiments of actuator sleeve 1026.
- Actuator sleeve 1026 may have an outer wall 1088 having an outer surface 1090.
- Actuator sleeve 1026 may be configured to be inserted within hollow body 1016 so that outer surface 1090 of outer wall 1088 of actuator sleeve 1026 is disposed within inner surface 1032 of outer wall 1034 of hollow body 1016.
- Actuator sleeve 1026 may be configured to be actuated to release the fluid to applicator pad 1024 from container 1012.
- Actuator sleeve 1026 may be configured to be longitudinally translated within hollow body 1016 in order to release the fluid from container 1012. Actuator sleeve 1026 may be longitudinally translated within hollow body 1016 by applying force to proximal end 1028 of actuator sleeve 1026. In some embodiments, proximal end 1028 of actuator sleeve 1026 may be contoured to provide substantially even force distribution across proximal end 1028. For example, in certain embodiments, proximal end 1028 of actuator sleeve 1026 may have a rounded, convex surface. (See proximal end 28 of actuator sleeve 26 shown in Fig.
- Such a convex surface may distribute force across proximal end 1028, thereby reducing the pressure felt by a user.
- a rounded convex surface may distribute the force across the palm of a user.
- proximal end 1028 of actuator sleeve 1026 may have a concave surface, as shown in Fig. 1 1A and 14A, to evenly distribute the force across, for example, the thumb or finger of a user.
- actuator sleeve 1026 may include one or more notches 1092 extending from distal end 1030 of actuator sleeve 1026 toward proximal end 1028 of actuator sleeve 1026.
- container 1012 may include a restraining feature, such as outward protrusion 1054, to orient and position container 1012 within hollow body 1016.
- a restraining feature may be configured to fit within notch 1092 in actuator sleeve 1026.
- actuator sleeve 1026 may include one or more longitudinal projections 1094 projecting distally and configured to interact with cap portion 1040 of container 1012 to remove cap portion 1040 from container 1012 to release the fluid from container 1012.
- actuator sleeve 1026 may include two longitudinal projections 1094, which may define two notches 1092.
- An actuator sleeve having two notches 1092 may be compatible with a container 1012 having two outward protrusions 1054. (See Fig. 17A.)
- longitudinal projections 1094 may be of unequal length in some embodiments. (See length differential 2010 in Fig. 16B.)
- actuation of actuator sleeve 1026 by longitudinal translation, may cause cap portion 1040 to be pushed off of container 1012 one side at a time.
- cap portion 1040 may include protruding elements 1100 (see Fig. 11C), which may interact with longitudinal projections 1094 of actuator sleeve 1026 to remove cap portion 1040 from container 1012, thereby releasing the fluid from container 1012.
- longitudinal projections 1094 may include distal ends 1101 that may be configured to push protruding elements 1100 distally when actuator sleeve 1026 is longitudinally translated in the distal direction.
- distal end 1101 of one or more longitudinal projections 1094 may include a recess 1103, which may be configured to interact with cap portion 1040 (e.g., with protruding element 1100; see Fig. 11B) to prevent rotation of cap portion 1040 during longitudinal translation of actuator sleeve 1026.
- each recess 1103 may function as a cradle to retain a corresponding protruding element 1100 of cap portion 1040 while distal end 1101 of longitudinal projections 1094 pushes cap portion 1040 off of container 1012 longitudinally.
- actuator sleeve 1026 may also include a restraining feature, such as a rib or partial rib 2000. Partial rib 2000 may provide restraint of actuator sleeve 1026 to prevent unintended longitudinal translation of actuator sleeve 1026, e.g., during shipping/transport.
- restraining rib 1068 of hollow body 1016 may reside between sealing rib 1069 and partial rib 2000 of actuator sleeve 1026.
- restraining and sealing features e.g., partial rib 2000
- the restraining and sealing features may include bosses, debosses, detents, etc. (Not shown.)
- actuator sleeve 1026 may also include one or more flow features, such as cutouts 2012, as shown in Figs. 16A and 16C. Cutouts 2012 may allow fluid to flow freely around the exterior of container 1012 to reduce the potential for fluid becoming trapped between container 1012 and the proximal interior of actuator sleeve 1026 following device actuation.
- longitudinal projections 1094 may include one or more knobs 2016 at the distal end. Knobs 2016 may prevent radially outward deflection of the distal ends of longitudinal projections 1094 during actuation. This ensures that longitudinal projections 1094 do not miss cap portion 1040 of container 1012. In addition, knobs 2016 may provide reinforcement to the distal tips of longitudinal projections 1094.
- spike 1098 may be included on actuator sleeve 1026 for puncturing a proximal end of container 1012.
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- Health & Medical Sciences (AREA)
- Engineering & Computer Science (AREA)
- Public Health (AREA)
- General Health & Medical Sciences (AREA)
- Veterinary Medicine (AREA)
- Heart & Thoracic Surgery (AREA)
- Life Sciences & Earth Sciences (AREA)
- Animal Behavior & Ethology (AREA)
- Biomedical Technology (AREA)
- Anesthesiology (AREA)
- Hematology (AREA)
- Epidemiology (AREA)
- Vascular Medicine (AREA)
- Mechanical Engineering (AREA)
- Media Introduction/Drainage Providing Device (AREA)
- Coating Apparatus (AREA)
- Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)
- Materials For Medical Uses (AREA)
Abstract
Description
Claims
Priority Applications (17)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
ES09804222.9T ES2525375T3 (en) | 2008-12-30 | 2009-12-29 | Fluid application device |
SG2011047180A SG172794A1 (en) | 2008-12-30 | 2009-12-29 | Fluid application device and method |
CN200980157623.7A CN102333563B (en) | 2008-12-30 | 2009-12-29 | Fluid application device and method |
JP2011544596A JP5091357B2 (en) | 2008-12-30 | 2009-12-29 | Liquid application device and method |
KR1020167022331A KR101662481B1 (en) | 2008-12-30 | 2009-12-29 | Fluid application device and method |
EP09804222.9A EP2379159B1 (en) | 2008-12-30 | 2009-12-29 | Fluid application device |
KR1020117017566A KR101695041B1 (en) | 2008-12-30 | 2009-12-29 | Fluid application unit and fluid application device |
AU2009335042A AU2009335042B2 (en) | 2008-12-30 | 2009-12-29 | Fluid application device and method |
CA2748489A CA2748489C (en) | 2008-12-30 | 2009-12-29 | Fluid application device and method |
MX2011006968A MX2011006968A (en) | 2008-12-30 | 2009-12-29 | Fluid application device and method. |
SI200931114T SI2379159T1 (en) | 2008-12-30 | 2009-12-29 | Fluid application device |
DK09804222.9T DK2379159T3 (en) | 2008-12-30 | 2009-12-29 | Device for applying fluid and procedure |
BRPI0923605A BRPI0923605B8 (en) | 2008-12-30 | 2009-12-29 | applicator system for applying a fluid, applicator device for an applicator system and container containing fluid for an applicator system |
PL09804222T PL2379159T3 (en) | 2008-12-30 | 2009-12-29 | Fluid application device |
RU2011130842/14A RU2533584C9 (en) | 2008-12-30 | 2009-12-29 | Fluid application device and method |
HK12107241.8A HK1166617A1 (en) | 2008-12-30 | 2012-07-24 | Fluid application device and method |
PH12015500188A PH12015500188A1 (en) | 2008-12-30 | 2015-01-28 | Fluid application device and method |
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