US20150245703A1 - Apparatus with elliptical movement for microdermabrasion and topical delivery of treatments - Google Patents
Apparatus with elliptical movement for microdermabrasion and topical delivery of treatments Download PDFInfo
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- US20150245703A1 US20150245703A1 US14/714,727 US201514714727A US2015245703A1 US 20150245703 A1 US20150245703 A1 US 20150245703A1 US 201514714727 A US201514714727 A US 201514714727A US 2015245703 A1 US2015245703 A1 US 2015245703A1
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Abstract
Description
- This application is a continuation of co-pending U.S. patent application Ser. No. 13/964,099, filed Aug. 11, 2013, entitled “Apparatus with Elliptical Movement for Microdermabrasion and Topical Delivery of Treatments,” which claims the benefit of U.S. Provisional Patent Application No. 61/739,453, filed Dec. 19, 2012, entitled “Microdermabrasion Brush, Fluid Dispersion System and Rejuvenating Red and Infrared Light” and commonly assigned to the assignee of the present application, the disclosures of which are incorporated by reference in their entirety herein.
- The present disclosure relates, in exemplary embodiments, to mechanical apparatus for cleaning, stimulating or applying a treatment to skin or other surfaces.
- The skin is the largest organ of the body and as such can lead to multiple types of medical and cosmetic conditions that at times need maintenance and or treatments. These include cleansing of the skin, protecting the skin from environmental elements such as ultraviolet rays to help prevent photo-aging and sunburns, preventing the skin from developing conditions such as inflammatory conditions such as eczema or infections, and enhancing the cosmetic appearance of the skin by increasing or decreasing the amount of hair on certain areas of the skin.
- To date there are multiple ways to address the variety of these conditions which include either topical applications such as skin lotions, foams, gels or serums which can cleanse, protect, prevent or repair the skin. There are devices which produce either mechanical energy such as cleansers, shavers, optical energy such as lights or lasers, heat in the form of ultrasound or microwave energy to address the many issues of the skin.
- It would be desirable to have a device that could deliver stimulation, energy or treatments, including delivery of fluids, to skin or other surface.
- The following presents a simplified summary in order to provide a basic understanding of some aspects of various invention embodiments. The summary is not an extensive overview of the invention. It is neither intended to identify key or critical elements of the invention nor to delineate the scope of the invention. The following summary merely presents some concepts of the invention in a simplified form as a prelude to the more detailed description below.
- In exemplary embodiments, an apparatus is disclosed for providing elliptical motion. The apparatus may comprise a motor; a drive shaft having an axis of rotation and extending from the motor, the shaft having a distal end; a motor housing associated with the motor; an elliptical motion creating mechanism associated with the shaft, the mechanism including an offset motion means for imparting rotational movement in a direction offset from the axis of the shaft. The apparatus may further comprise a mounting bracket including a base plate operatively associated with the offset motion means, the base plate having a first side defining an X-axis movement direction and a second side generally perpendicular to the first side, the second side defining a Y-axis movement direction, a first side arm extending from the base plate and associated with the motor housing, the first side arm having a distal end terminating in a connection portion, the first side arm defining a Z-axis movement direction, a second side arm extending from the base plate and associated with the motor housing, the second side arm having a distal end terminating in a connection portion. Rotation of the shaft causes the offset motion means for imparting movement to rotate and impart elliptical motion to the mounting bracket such that the base plate moves in an elliptical path in both the X-axis and Y-axis directions.
- An apparatus for providing elliptical motion to a structure, comprising: a motor; a drive shaft having an axis of rotation and extending from the motor; means for generating at least one rotational motion having an axis offset from the shaft axis; and, means for providing oscillating elliptical motion associated with the means for generating rotational motion.
- In exemplary embodiments, a device for skin cleansing or delivery of skin treatment, comprises a main housing; a motor; a drive shaft having an axis of rotation and extending from the motor; and, at least one attachment member associated with the motor. The apparatus further comprises an elliptical motion creating mechanism associated with the shaft, the mechanism including a first axially offset member for imparting movement in a first elliptical direction offset from the axis of the shaft and a second axially offset member for imparting movement in a second elliptical direction offset from the axis of the shaft. The apparatus further comprises a mounting bracket assembly comprising an inner mounting bracket having an inner base plate operatively associated with the first offset member, a first side arm extending from the inner base plate and associated with an attachment member, a second side arm extending from the inner base plate and associated with an attachment member, a first pin extending from the inner mounting bracket base plate. The mounting bracket assembly further includes an outer mounting bracket comprising an outer base plate operatively associated with the second offset member, a first side leg extending from the outer mounting bracket base plate, a second side leg extending from the outer mounting bracket base plate, and a second pin extending from the outer mounting bracket base plate, whereby rotation of the shaft causes the first offset member to rotate and impart oscillating elliptical motion to the inner mounting bracket and the first pin, and impart oscillating elliptical motion to the outer mounting bracket and the second pin. The device further may include a brush head assembly attachable to the main housing, the brush head assembly comprising a first oscillating plate having a first face including a connecting portion adapted to connect to the first connecting member, the first oscillating plate having a second face including a plurality of protrusions; a second oscillating plate having a first face including a connecting portion adapted to connect to the second connecting member, the first oscillating plate having a second face including a plurality of protrusions, wherein the first and second oscillating plates are in separate generally parallel planes and adapted for oscillating elliptical; a brush head assembly housing adapted to attach to the main housing; a first suspension ring associated with the first oscillating plate and the brush head assembly housing such that the first suspension ring permits movement of the first oscillating plate in the X- and Y-axes; and, a second suspension ring associated with the second oscillating plate and the brush head assembly housing such that the second suspension ring permits movement of the second oscillating plate in the X- and Y-axes.
- Other features will become apparent upon reading the following detailed description of certain exemplary embodiments, when taken in conjunction with the appended claims.
- The drawings disclose exemplary embodiments in which like reference characters designate the same or similar parts throughout the figures of which:
-
FIG. 1 is an exploded perspective view of the motor assembly, mounting plate assembly and fluid delivery system of a device according to one exemplary embodiment. -
FIG. 2A is an exploded perspective view of the motor assembly and mounting bracket assembly according to the exemplary embodiment ofFIG. 1 in which the mounting bracket arms are connected to the motor housing. -
FIG. 2B is an exploded perspective view of a motor and mounting bracket assembly according to another exemplary embodiment in which the mounting bracket arms are connected to the motor. -
FIG. 3 is a side cutaway view of an assembled motor assembly and mounting bracket assembly according to the exemplary embodiment ofFIG. 1 . -
FIG. 4 is a side perspective view of an assembled motor assembly and mounting bracket assembly according to the exemplary embodiment ofFIG. 1 . -
FIG. 5 is a side view of an offset cam according to one exemplary embodiment. -
FIG. 6 is a top plan view of the offset cam showing the axes of movement according to the exemplary embodiment ofFIG. 5 . -
FIG. 7 is a schematic view of a motor and offset shaft mechanism according to a first alternative exemplary embodiment. -
FIG. 8 is a schematic view of a motor and offset shaft mechanism according to a second alternative exemplary embodiment. -
FIG. 9 is a perspective schematic view of a portion of a first inner mounting bracket and a second outer mounting bracket according to an alternative exemplary embodiment in which each mounting bracket has a single arm. -
FIG. 10 is a perspective schematic view of a portion of a first inner mounting bracket and a second outer mounting bracket according to an alternative exemplary embodiment in which each bracket has two arms and a crossbar. -
FIG. 11 is an exploded perspective view of a motor assembly and a mounting bracket assembly according to an alternative exemplary embodiment including three mounting plates. -
FIG. 12 is an exploded side elevation view of the motor assembly and a mounting bracket assembly according to the exemplary embodiment ofFIG. 11 . -
FIG. 13 is a side cutaway view of the motor assembly and a mounting bracket assembly according to the exemplary embodiment ofFIG. 11 . -
FIG. 14 is a side elevation view of the motor assembly and a mounting bracket assembly according to the exemplary embodiment ofFIG. 11 . -
FIG. 15 is a side elevation view of the motor assembly and a mounting bracket assembly according to the exemplary embodiment ofFIG. 14 , showing (exaggerated) the pins offset. -
FIG. 16 is a perspective view of a grommet according to one exemplary embodiment. -
FIG. 17 is a perspective view of a brush head assembly according to one exemplary embodiment. -
FIG. 18 is a schematic exploded top perspective view of a first oscillating plate and a second oscillating plate comprising two sections according the exemplary embodiment ofFIG. 17 . -
FIG. 19 is a schematic exploded bottom perspective view of a first oscillating plate and a second oscillating plate comprising two sections according to the exemplary embodiment ofFIG. 17 . -
FIG. 20 is a schematic exploded top perspective view of a brush head assembly according to the exemplary embodiment ofFIG. 17 . -
FIG. 21 is a schematic exploded bottom perspective view of a brush head assembly according to the exemplary embodiment ofFIG. 17 . -
FIG. 22 is a side elevation view of a brush head assembly according to the exemplary embodiment ofFIG. 17 . -
FIG. 23 is a side cutaway view of a brush head assembly according to the exemplary embodiment ofFIG. 17 . -
FIG. 24 is a side cutaway perspective view of a brush head assembly according to the exemplary embodiment ofFIG. 17 . -
FIG. 25 is a top view of a brush head assembly according to the exemplary embodiment ofFIG. 17 . -
FIG. 26 is an exploded perspective view of first and second oscillating plates according to an alternative exemplary embodiment. -
FIG. 27A is a side schematic view of a device resting in a recharging cradle according to one exemplary embodiment. -
FIG. 27B is a side view of a device and a detachable handle according to one exemplary embodiment. -
FIG. 27C is a front view of a device and a detachable handle according to the exemplary embodiment ofFIG. 27B . -
FIG. 28 is a schematic perspective view of a fluid delivery system according to one exemplary embodiment. -
FIG. 29 is a schematic view of a detail of the delivery port according to a second exemplary embodiment showing a manifold and a single nozzle. -
FIG. 30 is a schematic view of a detail of the delivery port according to one exemplary embodiment showing a manifold and two nozzles. -
FIG. 31 is a schematic view of a detail of the delivery port according to one exemplary embodiment showing a plate-like manifold with a plurality of nozzles. -
FIG. 32A-E are bottom schematic views of a detail showing the relative oscillating movement of two mounting plates at different positions in an elliptical path, and also shows a grommet and offset axis cam lobe, according to one exemplary embodiment. -
FIG. 33 is a set of three rows of schematic views of the movement through a cam rotation cycle of 0, 90, 180 and 270 degrees and showing the movement of the mounting plate (bottom views, Row A), right side views of the mounting bracket (Row B), and front views of the mounting plate and motor (Row C). -
FIG. 34 is an exploded perspective view of a light head assembly according to one exemplary embodiment. -
FIG. 35 is a side elevational cross-section view of an exemplary embodiment of a device incorporating a single mounting bracket and a single-lobed cam. -
FIG. 36 is a top schematic view of a single-lobed offset axis cam. -
FIG. 37 is a top schematic view of a traditional cam. -
FIG. 38 is a side elevational cross-section view of an exemplary embodiment of a device to which is attached an oscillating plate with protrusions. -
FIG. 39 is a perspective cutaway view of an exemplary embodiment of a device including motor, housing, mounting bracket and offset axis cam in which the mounting bracket arms are pivotably connected with a pair of rods associated with the motor housing. -
FIG. 40 is a front elevation view of the device of the exemplary embodiment ofFIG. 49 . -
FIG. 41 is a perspective view in partial cutaway of an oscillating plate and brush head assembly housing according to an alternative exemplary embodiment showing the pins associated with the oscillating plate. -
FIG. 42 is a perspective view in partial cutaway of an oscillating plate and brush head assembly housing according to the exemplary embodiment ofFIG. 41 and showing the curved tracks for the pins and the offset cam. -
FIG. 43 is a side cutaway view of an oscillating plate and brush head assembly housing according to the exemplary embodiment ofFIG. 41 . -
FIG. 44 is a side view in partial cutaway of an oscillating plate and brush head assembly housing according to the exemplary embodiment ofFIG. 41 . -
FIG. 45 is a perspective view of a device showing a brush head assembly attached to the main housing in an exemplary embodiment. - Exemplary embodiments presented herein provide in one broad aspect a device for providing a structure moving in an elliptical path motion that can contact skin 5 or other surface to provide stimulation or treatment. In exemplary embodiments, a device is presented for providing motion having an elliptical path in the X-axis and Y-axis and further may have Z-axis movement, as well. In exemplary embodiments, a device is described for providing a brush formed of a plurality of protrusions, such as solid nibs or tufts of bristles, which protrusions can be driven in a multi-axis elliptical path to stimulate, abrade or otherwise affect a surface.
- In exemplary embodiments, the surface may be skin, scalp, nail, tooth, gum, or other exposed area on a person or animal. The present disclosure also contemplates other surfaces being applicable, such as, but not limited to, floor, carpet, wood, metal, glass, fabric, hide, or any other material. In various exemplary embodiments skin is discussed as an example of a surface to be treated, but it is to be understood that any surface appropriate for the application can be used.
- The term “treat” (including “treating,” “treatment,” “treated” and other forms thereof) as used herein is intended to broadly include, without limitation, one or more of contact, stimulate, massage, abrade, microdermabrade, cleanse, scrub, treat, apply or remove a substance, and other interactions or effects on a surface, but is not necessarily indicative of medical treatment.
-
FIGS. 1-4 show one exemplary embodiment of adevice 10 having main components of amain housing 12, amotor assembly 14, a mountingassembly 16 and anoscillating plate assembly 18. Themain housing 12 contains the basic components of thedevice 10. In exemplary embodiments, thedevice 10 may also include one or more detachable head assemblies 20. -
FIGS. 2A and 3 show one exemplary embodiment of amotor assembly 14 which includes amotor 22. The motor may be an AC, DC, brushless or other type of motor. In exemplary embodiments, themotor 22 is a DC brush motor. Extending from and driven by themotor 22 is arotatable shaft 24, having anaxis 25. In exemplary embodiments, themotor 22 may be at least partially housed in amotor housing 26. In exemplary embodiments, themotor housing 26 may comprise twomating portions motor housing portion bosses FIG. 2B shows an alternative exemplary embodiment of amotor assembly 40 in which nomotor housing 26 is used, and where themotor 22 itself may include a pair of connecting members 42, 44, such as, but not limited to, bosses, tubes, rings, pins, rods, screws, bolts, or the like, that are associated with opposing sides of themotor 22. In exemplary embodiments, as shown inFIG. 2B , the connecting members 42, 44 are associated with aplate 45. There also is a set of the connecting members 42A, 44A and optional plate 45A on a side of the motor opposite that of the connecting members 42, 44 andplate 45.FIG. 4 shows an exemplary embodiment of amotor assembly 14 as incorporated in one exemplary embodiment of amain housing 12. - The
motor 22 may have anactuation mechanism 50 operatively associated therewith. In exemplary embodiments, theactuation mechanism 50 may be an on/offswitch 52. In exemplary embodiments, theactivation mechanism 50 can be at least one multi-position knob or switch that has different speed settings. Alternatively the activation mechanism may comprise an on/off switch, a speed controller, a pulse controller that can control pulsing on and off of the motor, or other feature. - In exemplary embodiments, an actuation microcontroller 54 (not shown) is in operable communication with the
motor 22 and theactivation mechanism 50. Themicrocontroller 50 can control speed, pulse, charging and other features. Themicrocontroller 50 can detect the presence and type of head assembly 20 that is connected and can control features that are part of that assembly. In exemplary embodiments, themicrocontroller 50 may incorporate a timer function that can be programmed to turn off the device after a preset amount of time. This may be useful in an application where a limited duration of exposure is needed, such as in the case where a light emitting head assembly (as described further hereinbelow) is used. - The
device 10 may also include an audible tone generator or visual indicator, such as, but not limited to, a buzzer or other tone generator, or a light or other visual indicator to provide an indication of on/off, charge or other status or condition. - The
shaft 24 is associated with an offsetmotion mechanism 60 for creating a dual offset elliptical motion. In exemplary embodiments, as shown inFIGS. 5-6 and also inFIGS. 2A , 2B, 3, and 4, the offsetmotion mechanism 60 may be adual lobe cam 62. Thecam 62 rotates about a central axis 64 which is aligned with theshaft axis 25. In exemplary embodiments, thecam 62 may comprise afirst cam lobe 66 having an offsetcentral axis 68 and having asecond cam lobe 70 with an offsetcentral axis 72. As illustrated inFIGS. 5-6 and 32-33, thecentral axis 68 of thefirst cam lobe 66 is offset from theshaft axis 25 so that thefirst cam lobe 66 rotates off axis from theshaft axis 25. Similarly, thecentral axis 72 of thesecond cam lobe 70 is offset from theshaft axis 25 so that thesecond cam lobe 70 rotates off axis from theshaft axis 25. The two cam lobe axes 68, 72 are offset from each other by, for example, but not by way of limitation, 90 degrees. Other offset amounts can be used. In exemplary embodiments, the first andsecond cam lobes shaft 25. This distance creates the amount of offset motion, as described in greater detail hereinbelow. - Optionally, in exemplary embodiments, at least one
bearing 76 fits over eachcam lobe bearing 76 may reduce friction, heat buildup, wear and/or noise. -
FIG. 7 shows an alternative exemplary embodiment of an offsetmotion mechanism 80 comprising amotor 82 and a shaft 84 having a central axis 86. The shaft 84 has afirst portion 88 co-axial with the shaft axis 86, asecond portion 90 having a length “L1” extending at an angle (such as, but not limited to, perpendicular) from thefirst portion 88, athird portion 92 extending from thesecond portion 90 and generally parallel to the shaft axis 86, afourth portion 94 having a length “L2” and extending at an angle (such as, but not limited to, perpendicular) from thethird portion 92 and optionally generally parallel to thesecond portion 90, and afifth portion 96 extending from thefourth portion 94 and generally parallel to thefirst portion 88. L1 is either greater than or less than L2 so as to create the offset of thethird portion 92 axis and thefourth portion 94 axis from the shaft central axis 86. A 90 degree offset may enhance motor efficiency and minimize and make more regular the load (torque) on themotor 82 exerted by the motion of the offsetmotion mechanism 80 and associated components, as described in greater detail hereinbelow. - In another exemplary embodiment, shown in
FIG. 8 , offsetmotion mechanism 100 may adrive shaft 102 that is associated with an elongatedfirst plate 104 having oneend 106 associated with theshaft 102 and theother end 108 associated with apivot pin 110. Thepivot pin 110 is also associated with one end of a second plate 112. The angles of the twoplates 104, 112 are offset with respect to each other. -
FIGS. 1-3 show an exemplary embodiment of a mountingbracket assembly 16 comprising an inner first mountingbracket 120 and an outersecond mounting bracket 122. The inner first mountingbracket 120 has abase plate 124 having atop surface 126, abottom surface 128, afirst edge 130 and a second edge 132, as well as a centralfirst aperture 134 and asecond aperture 136 proximate to thefirst edge 130. Afirst side arm 138 extends generally perpendicularly from thefirst edge 130 of thebase plate 124. Asecond side arm 140 extends generally perpendicularly from the opposing second edge 132 of thebase plate 124 and generally parallel to thefirst side arm 138. In exemplary embodiments, at least one of the mountingbrackets - In exemplary embodiments, as shown in
FIGS. 1-4 , theinner mounting bracket 120first side arm 138 may have first andsecond leg portions 142, 144 and across beam 146 and thesecond side arm 140 may have first andsecond leg portions 148, 150, and across beam 152. Each of the fourleg portions aperture 154 defined therein. The inner first mountingbracket 120 has apin 156 extending generally perpendicularly from the base platebottom surface 128 and proximate to the base plate second edge 132. The distal end of thepin 156 may terminate in a ball 158. - The outer
second mounting bracket 122 has abase plate 160 having a top surface 162, abottom surface 164, afirst edge 166 and a second edge 168, as well as a central first aperture 170 and a second aperture 172 proximate to the second edge 168. Afirst side arm 174 extends generally perpendicularly from thefirst edge 166 of thebase plate 160. Asecond side arm 176 extends generally perpendicularly from the opposing second edge 168 of thebase plate 160 and generally parallel to thefirst side arm 174. In exemplary embodiments, thefirst side arm 174 may have first and second leg portions 178, 180 and thesecond side arm 176 may have first andsecond leg portions 182, 184. Each of the fourleg portions 178, 180, 182, 184 may have a distal end having asetoff boss 186 associated therewith. The outersecond mounting bracket 122 has apin 188 extending generally perpendicularly from the base platebottom face 164 and proximate to the base plate second edge 168. The distal end of thepin 188 may terminate in aball 190. - A grommet 191 (described in detail hereinbelow) may be fitted in each of the
central apertures 134, 170. - In assembling the mounting
brackets FIG. 2A ), the inner first mountingbracket 120 is placed between the first andsecond side arms second mounting bracket 122 such that thepin 156 fits in the outer second mounting bracket second aperture 172 and theapertures 154 are aligned with thesetoff bosses 186 of the legs of the outersecond mounting bracket 122. The alignedapertures 154 andsetoff bosses 186 are fitted over thebosses screw 192 or other fastener passes through theapertures 154 andsetoff bosses 186 holds each onto themotor housing 26. In the exemplary embodiment shown inFIG. 2B , theapertures 154 andsetoff bosses 186 from thefirst side arms apertures 154 andsetoff bosses 186 from thesecond side arms -
FIG. 9 shows an alternative exemplary embodiment of a mountingbracket assembly 200, an inner first mountingbracket 202 may have first andsecond side arms 204, 206 that may each include asingle leg portion single aperture 212 defined in the distal end. An outersecond mounting bracket 214 may have first andsecond side arms 216, 218 that may each include a single leg portion 220, 222 having asingle setoff boss 224 associated with the distal end. Each mountingbracket pin 216, 218 extending downward, similar to thepins leg aperture 212 andleg boss 224 of eacharm 204, 206 are connected to a motor housing setoff connecting member located on opposing sides of the housing by a single screw orother fastener 192, which may serve as a pivot point for the arms. Alternatively, where a motor housing is not used and the motor connecting members are associated with the motor or a plate (not shown, but generally similar in structure to the connecting members 42, 42A andplates 45 and 45A), thearms 204, 206apertures 212 andboss 224 are associated with those connecting members. -
FIG. 10 shows another alternative exemplary embodiment of a mountingbracket assembly 240 having an inner first mountingbracket 242 having afirst arm 244 comprising afirst leg 246 and a second leg 248 that each have their distal end connected by a crossbar 250 having anaperture 252 formed therein. Asecond arm 254 is similarly constructed with first andsecond legs crossbar 260 andaperture 262. The inner first mounting bracket has a central aperture 264, second aperture 266 andpin 268, similar to exemplary embodiments described hereinabove. An outersecond mounting bracket 270 hasfirst arm 272 having a pair of first andsecond legs crossbar 278 having a boss 280. Asecond arm 282 has first andsecond legs 284, 286 connected by acrossbar 288 having aboss 290. Apin 291 extends from the base plate. The crossbar aperture and crossbar boss are connected to the motor housing or motor connecting member similar to the mountingbracket assembly 200 as described hereinabove. -
FIGS. 11-15 show one alternative exemplary embodiment of mountingbracket assembly 300 having three mountingbrackets arms arms aperture 311. Thearm 312 may have acutout portion 313 proximate to its base. Thefirst mounting bracket 302 also has a central aperture 314, second aperture 316 proximate to afirst edge 318, and apin 320 extending downward proximate to a second edge 321. Thesecond mounting bracket 304 has abase plate 324 having a central aperture 326,second aperture 328 proximate to asecond edge 330 and apin 332 extending downward from proximate to afirst edge 334. In exemplary embodiments, the second mounting bracket may havearms arms aperture 339 and aboss 340. Thethird mounting bracket 306 has abase plate 341 having acentral aperture 342, asecond aperture 344 proximate to a first edge 346, athird aperture 348 proximate to asecond edge 350 and apin 352 extending downward from proximate to the first edge 346. Thethird mounting bracket 306 hasarms setoff boss 358. - A
motor 22 is associated with amotor housing 26 or, alternatively, a motor housing may not be used. Themotor 22 has ashaft 24 extending therefrom. An offset motion creating mechanism may comprise an offsetaxis cam 360 having acentral axis 362 and including afirst cam lobe 364 having a first offset axis 366, asecond cam lobe 368 having a second offset axis 370 and athird cam lobe 372 having a third offset axis 374. Each cam lobe has an offset axis offset from thecentral axis 362 of the offsetaxis cam 360. In exemplary embodiments, abearing 76 may be fitted over a least a portion of each cam lobe. Each of the cam lobes may be fitted in the aperture of agrommet 191. - The mounting
bracket assembly 300 is assembled as follows. Thefirst mounting bracket 302 is placed inside the arms of thesecond mounting bracket 304, with thepin 320 passing through the central aperture 326. Thearm apertures 311 are aligned with thebosses 340. The first and second mountingbrackets pin 332 passing through theaperture 344 and thepin 320 passing through thethird aperture 348. Thearm apertures 311 andbosses 340 are aligned with thebosses 358 of the thirdmounting bracket arms fastener 359 or other pivot member such that each of the three mountingbrackets fastener 359. - The
first cam lobe 364 fits in thegrommet 191 in the third mounting bracket base platecentral aperture 342. Thesecond cam lobe 368 fits in thegrommet 191 in the second mounting bracket base plate central aperture 326. Thethird cam lobe 372 fits in thegrommet 191 in the first mounting bracket base plate central aperture 314. -
FIG. 15 shows in an exaggerated fashion the motion of the mountingbrackets cam lobes pins - Changing the length or configuration of any of the pairs of side arms in the above-described mounting bracket assembly embodiments may result different elliptical movement, as discussed in greater detail hereinbelow.
- In exemplary embodiments, the
grommet 191 fits into the central aperture in each of the base plate as described herein in various exemplary embodiments. One exemplary embodiment of agrommet 191 is shown inFIG. 16 . In exemplary embodiments, each central aperture in the mounting plates described hereinabove is oval or elliptical in shape. In an alternative exemplary embodiment, the base plate central aperture may be circular in shape. Thegrommet 191 may have an oval, elliptical, circular or other cross-section shape. In exemplary embodiments, thegrommet 191 has acentral bore 380 and may have an upper and alower flange groove 386 that may fit and be retained in the bracket central aperture. In exemplary embodiments, thebore 380 extends all the way through thegrommet 191. In other exemplary embodiments, thebore 380 extends only partially through the grommet. In exemplary embodiments, thegrommet 191 is made of a material having some degree of elasticity or deformability, such as, but not limited to, silicone elastomer. Thegrommet 191 may have portions that have greater elasticity or deformability than other portions. For example, in one exemplary embodiment, thegrommet 191 may have higher elasticity portions on opposing sides that are more elastic or deformable than less elastic portions on other opposing sides. In exemplary embodiments, shown inFIG. 16 , thegrommet 191 may include a pair ofcutout portions grommet 191 may be made of more than one material, each material having different elasticity or deformability properties. It is to be understood that the elasticity or deformability of thegrommet 191 could be altered by other means known to those of ordinary skill in the art. In exemplary embodiments, rather than thegrommet 191 havingflanges - In exemplary embodiments, the first grommet fits within the central aperture in the mounting plate, for example, such as is shown in
FIG. 9 . In exemplary embodiments, the less elastic or deformable portion at opposing sides of the grommet are oriented to be aligned with the first and second sides of the base plate. In exemplary embodiments, a cam lobe fits at least partially within the grommet bore 380. In exemplary embodiments, the bearing 76 fits at least partially within the grommet bore 380. - In exemplary embodiments, the
device 10 is constructed to accommodate one or more different types detachable head assemblies 20, each head having a distinct set of functions or features. Each head may have distinct applications or uses. Applications include, but are not limited to, cleaning, microdermabrasion, light therapy, topical delivery of fluids, hair removal, pigment reduction, sweat reduction, pain management, and the like. Alternatively, thedevice 10 may include a head that is permanently connected to the main housing. -
FIGS. 17-25 show exemplary embodiments of abrush head assembly 400 incorporating a suspension ring and oscillating plate attachment mechanism. In exemplary embodiments, thebrush head assembly 400 includes ahead assembly housing 402, a firstoscillating plate 404, afirst suspension ring 406, a secondoscillating plate 408, and asecond suspension ring 410. Thebrush head assembly 400 may be manufactured separate from thedevice 10. - In exemplary embodiments, the
head assembly housing 402 may be ring-shaped, or may be oval, square, rectangular or of another shape. For purposes of illustration, but not by way of limitation, a circular shaped housing will be described. Thehead assembly housing 402 has aninterior wall 412 and anexterior wall 414. In exemplary embodiments, anattachment portion 416 is associated with theinterior wall 412 and extends at least partially around the circumference of theinterior wall 412. In exemplary embodiments, theattachment portion 416 may be a lip or flange that protrudes from the interior wall. The lip may have a groove formed therein. Alternatively, in other exemplary embodiments, theattachment portion 416 can be a groove or channel formed in theinterior wall 412. - In exemplary embodiments, the
head assembly housing 402 may also have a first connectingmember 420 extending from at least a portion of the bottom of thehead assembly housing 402. The first connectingmember 420 is adapted to connect to a mating second connectingmember 422 associated with the devicemain housing 12. In exemplary embodiments, thehead assembly housing 402 has atop rim 424 having aring attachment portion 426, such as a groove or tongue, formed therein. In exemplary embodiments, the head assemblyhousing exterior wall 414 may have one or more ribs, channels, notches, protuberances or other grippingmembers 428 formed therein to facilitate gripping of the housing by a user. - In exemplary embodiments, such as is shown in
FIG. 17 , thehead assembly housing 402 may includeopenings 430 to facilitate drainage when cleaning and to permit venting of heat. - In exemplary embodiments, such as is shown in
FIGS. 18-19 , the firstoscillating plate 404 comprises a generally flat plate having atop face 440 and abottom face 442 and further having acentral aperture 444 defined therein. In exemplary embodiments, the firstoscillating plate 404 is generally circular, though other shapes are possible. In exemplary embodiments, the surface of each oscillating plate may be configured in other shapes, such as, but not limited to, convex curved, square, rectangular, oval, elliptical, or other regular or irregular shape. The firstoscillating plate 404 also has afirst boss 446 projecting from thebottom face 442 and proximate to one side. Thefirst boss 446 may have a recessedarea 448 defined therein. Thefirst boss 446 can removably receive a pin, such as, for example, thepin 156 from the inner first mountingbracket 120 whereby the ball 158 at the end of thepin 156 is received in the recessedarea 448 in thefirst boss 446. - A second
oscillating plate 408 comprises a generally flat plate 450 having atop face 452 and abottom face 454 and further having acentral aperture 456 defined therein. In exemplary embodiments, the secondoscillating plate 404 is generally circular, though other shapes are possible. The secondoscillating plate 404 also has aboss 458 projecting from thebottom face 454 and proximate to the first side. Theboss 458 may have a recessedarea 460 defined therein. Theboss 458 can removably receive a pin, such as, for example, thepin 188 from the outer second mounting bracket whereby theball 190 at the end of the pin is received in the recessedarea 460 in theboss 458. - In exemplary embodiments, as shown in
FIGS. 18-19 , the secondoscillating plate 404 may be constructed to have afirst plate segment 462 and asecond plate segment 464 that may be connected. Thefirst plate segment 462 may include at least one, and in exemplary embodiments, a plurality offingers 466 which are generally parallel to the face of the first oscillating plate. Thesecond plate segment 464 may comprise at least one, and in exemplary embodiments, a plurality offingers 468. In exemplary embodiments, the firstplate segment fingers 466 can interlace with the secondplate segment fingers 468 when the two plates are joined together. The first andsecond plate segments members 470. In one exemplary embodiment, shown inFIG. 26 , thefastening member 470 comprises a pair of tabs orbarbs 472 formed in one of the plate segments, and a pair ofnotches 474 formed in the other plate segments, whereby each tab can matingly snap fit into a notch. In exemplary embodiments, the tabs are on opposing sides of the secondoscillating plate 404. Alternatively, the first andsecond plate segments plate segments - As shown in exemplary embodiments in
FIGS. 20-21 , the first and second oscillating plates may each have aside edge plate side edge 480 may have aring attachment portion 484, which may be a tongue or other protrusion or protrusions extending at least partially around the circumference of the oscillating plate. Alternatively, the ring attachment portion may be a groove or at least one recess. The second oscillatingplate side edge 482 may have aring attachment portion 486 similar in construction to that of the first oscillatingplate side edge 480. - The
first suspension ring 406 may be formed from a material having a degree of flexibility or elasticity, such as, but not limited to, an elastomeric material. In exemplary embodiments, thefirst suspension ring 406 may comprise or contain a silicone elastomer, such as Silastic® elastomer. Thefirst suspension ring 406 has aninterior side 490 and an exterior side 492. In exemplary embodiments, thefirst suspension ring 406 may have a generally curved or U-shaped cross-section. In exemplary embodiments, the first suspension ring may be constructed to have a cross-section that includes pleats, folds (such as accordion folds), waves, undulations, curves or involutions to increase the cross-sectional length and the flexibility or movement of the ring structure. - The
interior side 490 may have an attachment portion 494 formed therein. In exemplary embodiments, the attachment portion 494 may be a protrusion (or protrusions spaced around the periphery), such as a tongue, extending at least partially around the interior side, or, alternatively, the attachment portion 494 may be a recess, such as a groove or channel (or several) extending at least partially around the interior side. Thefirst suspension ring 406 is attached to theinner wall 412 of thehead assembly housing 402. In exemplary embodiments, thefirst suspension ring 406 is co-formed, co-molded with, welded, glued or snap-fitted to, or otherwise associated with thehead assembly housing 402. - The
second suspension ring 410 may be formed of aninner ring 500 and anouter ring 502. Theinner ring 500 may be formed from a material having a degree of flexibility or elasticity, such as, but not limited to, an elastomeric material. In exemplary embodiments, the inner ring may comprise or contain a silicone elastomer, such as Silastic® elastomer. Theinner ring 500 may be formed of the same or a different material from that of thefirst suspension ring 406. Theouter ring 502 may be formed of a material having a higher durometer than theinner ring 500. In exemplary embodiments, theouter ring 502 is formed from a relatively rigid material, such as polymer plastic. In exemplary embodiments, the inner andouter rings outer rings - In exemplary embodiments, the
second suspension ring 410 may have a generally curved or inverted U-shaped cross-section. In exemplary embodiments, thesecond suspension ring 410 may be constructed to have a cross-section that has pleats, folds (such as accordion folds) or involutions to increase the flexibility or movement of the ring structure. - The
second suspension ring 410 has aninterior side 504 and anexterior side 506. Theinterior side 504 of thesecond suspension ring 410 has a plate attachment portion 508 formed therein. In exemplary embodiments, the plate attachment portion 508 may be a protrusion (or protrusions spaced around the periphery), such as a tongue, extending at least partially around the interior side, or, alternatively, the attachment portion 508 may be a recess, such as a groove or channel (or several) extending at least partially around theinterior side 504. - The bottom edge of the
outer ring 502 may have ahousing attachment portion 510 comprising a tongue or set of protrusions that can mate with the groove or recesses of thering attachment portion 426 of the top edge of the head assembly housing. - The
second suspension ring 410 can be attached to the secondoscillating plate 408 in a manner similar to how thefirst suspension ring 404 is attached to the firstoscillating plate 404, namely, by snap-fitting the oscillating plate in the ring. - In exemplary embodiments, one or both of the suspension rings 406, 410 may have one or
more drainage openings 520 formed therein, as shown inFIG. 25 . Theopenings 520 may be holes, slots or the like. - The
brush head assembly 400 is assembled by first snap-fitting the first oscillating plate edge into thefirst suspension ring 406. The second oscillating plate edge is snap-fitted into thesecond suspension ring 410. Thesecond suspension ring 410 with the secondoscillating plate 408 can then be joined to thehousing 402 by connecting thehousing attachment portion 510 to thering attachment portion 484. The joint can be sonically welded, glued or otherwise made a permanent joint. - Optionally, in exemplary embodiments, a retaining
band 530 may be used to cover any joint gap between the top edge of the brush head assembly housing and the second suspension ring be stretched slightly and force-fitted over thesecond suspension ring 410 and thefirst suspension ring 406. The retainingband 530 may have anannular tongue 532 that fits in the joint gap. The retainingband 530 may be formed of a material having some degree of elasticity.FIGS. 22-25 show exemplary embodiments of an assembledbrush head assembly 400. - In exemplary embodiments, the
brush head assembly 400 can be attached to themain housing 12 by snap-fitting or otherwise connecting the housing connecting member to themain housing 12. The firstmounting bracket pin 156 fits in the boss of the firstoscillating plate 404. Similarly, the mountingbracket pin 188 fits in the boss of the secondoscillating plate 408. An exemplary embodiment of an assembleddevice 10 and brush head assembly 400 (resting in a cradle, as is described in greater detail hereinbelow). - The suspension rings permit movement of the oscillating plates in the X-, Y- and Z-axes due to the elasticity or flexibility of the ring structures, as will be discussed in greater detail hereinbelow.
-
FIG. 26 shows an alternative exemplary embodiment of abrush head assembly 600 and having a firstoscillating plate 602 may have a flattenedfirst side 604 proximate to the slot and an opposing flattenedsecond side 606. Afirst pin 608 is connected to a first side of the firstoscillating plate 602 by afirst hinge 610. Similarly, asecond pin 612 is connected to a second, opposing, side by asecond hinge 614. Eachhinge oscillating plate 602 relative to the hinges. The each end of eachhinge mating boss 616 formed in thehead assembly housing 618. In exemplary embodiments, the firstoscillating plate 602 may have aslot 620 extending from the first side toward acentral aperture 622. - A second
oscillating plate 630 may have a flattenedfirst side 632 and an opposing flattenedsecond side 634. Afirst pin 636 is connected to the first side of the second oscillating plate by afirst hinge 638. Similarly, asecond pin 640 is connected to the opposing second side of the secondoscillating plate 630 by asecond hinge 642. Each hinge is able to flex slightly to permit a degree of movement of the secondoscillating plate 630 relative to the hinges. The each end of each hinge can be received within amating boss 616 formed in thehead assembly housing 618. In exemplary embodiments, thehinges oscillating plate 602 and thehinges oscillating plate 630 may be generally parallel. - In exemplary embodiments of the
brush head assembly 400 that include first and second oscillating plates, such asplates oscillating plate 404 has a plurality ofprotrusions 700 extending from the bottom face. In exemplary embodiments, the base of eachprotrusion 700 may be fitted within a recess formed in the bottom face of the oscillating plate. - In exemplary embodiments, the
protrusion 700 can be a tuft. In exemplary embodiments, the tuft may be formed of a plurality of bristles, the bristles being either all the same length or may have bristles of various lengths. The bristles may be made of natural or synthetic materials and the stiffness can be adjusted by the selection of the material, flexibility, thickness, length, and other properties. In exemplary embodiments, the bristles may be arranged in a uniform density or one or more tufts may have a distinct bristle density such that the overall density across the plate varies. The bristles may be straight, curled, spiral, twisted or have other shapes. - In exemplary embodiments, the
protrusion 700 may have a solid structure. In exemplary embodiments, a solid protrusion can be formed of a material having a degree of flexibility, such as, but not limited to, silicone elastomer, or other elastomer, metal wire, plastic rods or the like. In exemplary embodiments, asolid protrusion 700 may be molded into recesses in thebottom face 442 of the first oscillating plate, or can be inserted into the recesses after formation of the plate. In exemplary embodiments, theprotrusions 700 can be co-formed or co-molded as part of the surface of one or both of the oscillating plates. In exemplary embodiments, the distal end of thesolid protrusion 700 may be flat, beveled, rounded, conical, tapered, pointed, ball-ended, convex curved or the like. Alternatively, the protrusion may have a concave cup at the distal end. The distal end (and/or portions of the sides) of theprotrusion 700 may be smooth or textured or may have ridges, bumps, fingers, divots, recesses, or other extensions or involutions. In exemplary embodiments, the distal end of theprotrusion 700 may have a concave recess. In exemplary embodiments, the solid protrusion may have a recessed well formed therein, the well capable of receiving and temporarily retaining or delivering fluid. In exemplary embodiments, theprotrusions 700 can be of a single type or can be of two or more different types. For example, someprotrusions 700 may be tufts of bristles while others can be solid protrusions. Different materials may be used, such as, but not limited to, materials with different durometer. In exemplary embodiments, theprotrusions 700 are arranged in rows. - The second
oscillating plate 408 may haveprotrusions 700 selected from the group ofprotrusions 700 described hereinabove with respect to the firstoscillating plate 404. Similarly, theprotrusions 700 extend from thebottom face 454 of the secondoscillating plate 408 and may be fitted within recesses in the bottom face or formed with the plate similar to as described hereinabove. Theprotrusions 700 in the secondoscillating plate 408 may be the same as those used in the firstoscillating plate 404, or may be different. Theprotrusions 700 in the secondoscillating plate 408 may have the same length as theprotrusions 700 in the firstoscillating plate 404, or may be of a different length. In exemplary embodiments, theprotrusions 700 in the firstoscillating plate 404 are longer than those in the secondoscillating plate 408 so that when the two plates are aligned all the distal ends of theprotrusions 700 in both oscillating plates are generally co-planar. In exemplary embodiments, theprotrusions 700 in the secondoscillating plate 408 can be arranged in rows. In exemplary embodiments, there may be elongated openings or slots 702 between the rows of protrusions. In exemplary embodiments, the rows ofprotrusions 700 in the firstoscillating plate 404 can be fitted in and at least partially through the elongated openings 702, resulting in the rows of protrusions from both first and second oscillating plates being interspaced to form a brush head. - In exemplary embodiments, a wear indicator material may be associated with the protrusions, such as by being impregnated, co-formed or coated. In exemplary embodiments, the protrusions may have medicinal, therapeutic, cosmetic, lubricant or other material coated on or impregnated in the protrusion composition, which material can be gradually released onto the skin or other surface being treated during contact by the protrusions.
- In exemplary embodiments, rather than the oscillating plates having protrusions, the second oscillating plate 408 (such as an exemplary embodiment where just one oscillating plate is employed, as described in greater detail herein) may have a soft cover or surface, such as, but not limited to, felt or other fabric, foam, synthetic material, or the like. Such material may be attached to the oscillating plate bottom face as a cover. In exemplary embodiments, the oscillating plate may have a hard surface or cover, such as but not limited to, ceramic, sandpaper-like material (i.e., a granular or particulate material, such as, but not limited to minerals, silica, sintered metal, textured metal or plastic (e.g., sandblasted or bead blasted or the like) adhered to or formed as part of a substrate), wire bristles, buffing material, or the like. In exemplary embodiments, the
protrusions 700 may comprise or incorporate optical fibers that can transmit light energy. - In exemplary embodiments, the
device 10 further includes a power supply 800. In exemplary embodiments, as shown inFIGS. 1 and 27A , the power supply 800 may be a rechargeable ordisposable battery 802 contained in themain housing 12. In exemplary embodiments, the power supply 800 may be provided by an electrical connection between the motor and an external power source, such as an AC outlet. In exemplary embodiments, the power supply may be provided by a USB or similar connection to a device (such as, but not limited to, a personal computer or other computing device) or a battery, solar, capacitor, fuel cell or other power source. - In exemplary embodiments, an induction charging system may be used in which one
induction coil 804 is disposed inside themain housing 12 and a second induction coil (not shown) is external to the device and connected with a power supply.FIGS. 4 and 27A illustrates a portion of a charging system showing aninduction coil 804 andbattery 802 incorporated in a main housing. In exemplary embodiments, the charging system may include a cord that plugs into the device at a charging port and is also connected to a power supply. - In exemplary embodiments, a cradle 810 is provided that may house the external induction coil and a connection to an AC power source, an onboard battery, or connection to another type of power source. In exemplary embodiments, as shown in
FIG. 27A , the cradle 810 is shaped to hold thedevice 10. In exemplary embodiments, the cradle 810 may be used to store or transport the device. - In exemplary embodiments, as shown in
FIGS. 27B , C, thedevice 10 may at least partially fit within ahandle 820 to extend the reach of a user. Thehandle 820 may include a recessedarea 822 or pocket in which the device may be removably inserted. - In exemplary embodiments, the
device 10 also includes afluid delivery system 900 incorporating at least onefluid delivery module 902 that can convey a measured amount of a fluid from areservoir 904 through the oscillating plates and to a surface, such as skin. In exemplary embodiments, thefluid delivery system 900 can be used in conjunction with thebrush head assembly 400 or other head assemblies (as further described hereinbelow). The fluid can be a fluid, gel, semi-fluid, suspension, colloidal mixture or other flowable material. For the purposes of illustration only, the term “fluid” will be used, but is intended to include any of the foregoing material. In certain exemplary embodiments, a gas or aerosolized fluid may be deliverable. - In exemplary embodiments, the
fluid delivery system 900 includes firstfluid delivery module 902 having afluid reservoir 904, afluid delivery mechanism 906, such as, but not limited to, a pump or other means (for example, but not as a limitation, by pushing or pulling) for urging fluid from thereservoir 904, and at least one tube 908 or conduit, channel, path or the like for conveying a fluid from thereservoir 904 to a dispensingport 910. One exemplary embodiment of a fluid delivery system is shown inFIG. 28 , which comprises a pair offluid delivery modules main housing 12 in generally mirrored configurations. Thereservoir 904 can be refillable, or it can be replaceable. A user can access thereservoir 904 by opening a panel, door, flap or other access area 912 in the main housing, as shown inFIG. 1 . In exemplary embodiments, thefluid delivery reservoir 902 may be a self-contained assembly, such as a cartridge, that can be removably attached to or otherwise associated with themain housing 12 such that the reservoir can be replaced when empty. - One or
more tubes 914 or other conduits is associated with thereservoir 904. Thetube 914 may be flexible. In exemplary embodiments, anadapter 916 connects the fluid reservoir and the tube. Thedelivery mechanism 906 is connected by atube 914 to the reservoir and to the dispensingport 910. - In exemplary embodiments, a second
fluid delivery module 902A is contained inside themain housing 12. The secondfluid delivery module 902A may have the same components and arrangement as the firstfluid delivery module 902. Similar components are labeled to correspond to the components of the first fluid delivery module, but followed by the letter “A” for differentiation. In exemplary embodiments, asingle dispensing port 910, such as that shown inFIG. 28 , can be used with both first and secondfluid delivery modules outlet tubes 914, 914A being connected to a manifold 920 which in turn is connected to the dispensingport 910. Asecond delivery mechanism 906A may be incorporated, or, alternatively, fluid may be delivered from thereservoirs delivery mechanisms port 910. - In exemplary embodiments, a dispensing
port 930, such as one shown inFIG. 29 , may have twoopenings 932, 934, a first opening conducting fluid from the first fluid delivery module, and a second opening conducting fluid from the second fluid delivery module. The fluids are kept separate until they exit the dispensingport 930. Alternatively, as shown inFIG. 30 , a dispensingport 936 having two dispensingnozzles 940, 942 can be utilized, each port conducting fluid from one of thefluid delivery modules - In exemplary embodiments, as shown in
FIG. 4 , the dispensingport 910 is positioned to have anozzle portion 946 passing through thecentral aperture 444 in the firstoscillating plate 404 and thecentral aperture 456 of the secondoscillating plate 408 so as to dispense fluid between theprotrusions 700. In exemplary embodiments, thenozzle portion 946 can be configured to be shorter than the protrusions so that the nozzle is not felt by a user should the protrusions be bent during use. -
FIG. 31 shows an exemplary embodiment of a manifold 950 (shown with a top removed) having aplate 952 plurality ofopenings 954 and a plurality ofnozzles 956 to deliver fluid simultaneously at different places at least partially across the overall surface formed by the protrusions. The manifold 950 may be associated with one of the oscillating plates. - In exemplary embodiments, fluid can be delivered before, during or after application of the
device 10 to the surface. In exemplary embodiments, the fluid may have a component that is activatable upon exposure to light, movement, friction, heat or other activation stimulus. - A feature of exemplary embodiments of the present device is the unique mechanical motion of the oscillating plates. For illustrative purposes only, the exemplary embodiments in which the oscillating plate assembly comprises first and second oscillating plates (for example, as shown in
FIG. 20 ) will be described. In exemplary embodiments where the first and second oscillating plates are generally flat disk-shaped plates, when the motor is activated, the shaft rotates, causing the cam lobes to rotate. As the cam lobes rotate, the eccentric motion is transmitted to the inner and outer mounting brackets. In exemplary embodiments, the motion of the cam lobes may be transmitted to the mounting brackets via thegrommet 191 in the central aperture of each base plate. -
FIGS. 32A-E shows views of various relative positions of the first and second mounting bracket base plates and a grommet and cam as the base plates progress around one 360 degree elliptical path.FIG. 32A shows both the second mounting bracket base plate (noted in the drawings and referred to in the present discussion of the relative plate motion as “top plate” 970 in solid line in the various views) and the first mounting bracket base plate (noted in the drawings and referred to in the present discussion of the relative plate motion as “bottom plate” 972 in dashed line in the various views), as well as thetop plate 970cam lobe 974 and thebottom plate 972 cam lobe 976 at the 0° initial position.FIG. 32B shows the top plate (in solid line) at 90° and the bottom plate still at 0°.FIG. 32C shows the top plate at 180° and the bottom plate now at 90°. The bottom plate essentially follows the top plate through the elliptical path, lagging by 90°.FIG. 32D shows the top plate at 270° and the bottom plate at 180°.FIG. 32E shows the top plate back at 0° and the bottom plate at 270°. The figures also show the movement of the cam lobe of the top and bottom base plates at each rotates. - Movement of the mounting bracket base plates is in the direction indicated in
FIG. 32B as the X-axis and also in the Y-axis, thereby defining an elliptical movement path. The elliptical movement of the mounting brackets is transmitted to the pins. The inner mounting plate pin (which has its distal end associated with the boss on the first oscillating plate) transmits elliptical movement to the first oscillating plate. The outer mounting plate pin (which has its distal end associated with the boss on the second oscillating plate) transmits elliptical movement to the second oscillating plate. The elliptical movement of the first oscillating plate is offset from the elliptical movement of the second oscillating plate. In exemplary embodiments, each oscillating plate moves in only one direction, such as counterclockwise, and does not move in the reverse direction. Alternatively, each oscillating plate may move in just the clockwise direction. -
FIG. 33 shows various aspects of a single representative mounting bracket 980 (in this embodiment shown associated with amotor housing 26 that contains amotor 22 and showing a shaft 24) havingbase plate 982, a first arm 984 and second arm 986 in various stages of movement. Row A shows the movement of the base plate 982 (as shown in a bottom view) in each of 0, 90, 180 and 270 degrees positions of a counterclockwise rotation of a cam 988 (shown in this embodiment for purposes of simplification of the explanation of movement as having just a single offset cam lobe, and which is shown only partially fitted in the base plate central aperture). The off-axis rotation of the cam 988 (or other elliptical motion creating mechanism) causes thegrommet 191 and the mountingbracket base plate 982 to move in an elliptical path with X- and Y-axis movement of thebase plate 982. The 90 degree position shows movement in the X- and Y-axes down and to the right (relative to the 0 degree initial position). The 180 degree position shows movement in the X-axis to the left. The 270 degree position shows movement in the X- and Y-axes up and to the right. - The arms 984, 986 may flex in the Y-axis direction as shown in Row B. The arms 984, 986 may flex in the X-axis direction, as shown in Row C. In exemplary embodiments, the arms 984, 986 may pivot about the connecting
members base plate 982. - In exemplary embodiments, the mounting
bracket base plate 982 also may move in the Z-axis due to the pivoting aspect of the movement of the mounting bracket arms 984, 986 which pivot at the point of association with the motor or the motor housing. The Z-axis may be generally defined as an axis orthogonal to both the X-axis and Y-axis. In one aspect, as shown inFIG. 33 (the left-most figure in row C) the structure of the mountingbracket 980 and the connectingmembers edges 994, 996 of the base plate (by flexion) as the other pair. The pivoting motion of an arm about a pair of fixed points (the points of attachment to the motor housing) creates the arc of movement the arms, thereby causing thebase plate 982 to rise and fall (with respect to the (stationary) motor) and providing the Z-axis movement component. - In exemplary embodiments, the path of the elliptical movement may be 0.010 inches (0.254 millimeters) in the X-axis and 0.005 inches (0.127 millimeters) in the Y-axis. It is to be understood that amount of axial movement may be changed by changing aspects of various components of the device, such as, but not limited to, the length, diameter, stiffness or other aspect of the protrusions, the diameter of the cam lobes, the amount of offset of the cam lobes, or the like. In exemplary embodiments, the amount of Z-axis movement may be 0.0002 inches (0.00508 millimeters).
- The eccentricity and size of the elliptical movement can be adjusted by adjusting, for example, the dimensions of the cam lobes, the amount of axial offset of the cam lobes, the stiffness of the grommet, the axial stiffness of the mounting brackets plate arms, motor speed or other aspects. The amount of Z-axis movement can be adjusted by changing the length of the mounting bracket arms. Shorter arms will create more Z-axis movement.
- A feature of the construction of exemplary embodiments of the present device is that the elliptical path movement of the oscillating plates and the ability to control the amount of X- and Y-axis movement independently, can provide more even, controllable movement of the protrusions. Additionally, the movement of each protrusion in each oscillating plate is the same. In contrast, conventional mechanisms that use rotation have an arc, the protrusions near the axial center of the plate or other rotating surface have a different circumscribed path than the protrusions near the edge of the plate since the latter are farther away from the axis of rotation. The farther the protrusion is from the axial center of rotation, the greater the arc.
- Another feature of exemplary embodiments of the presently disclosed device is that biplanar elliptical movement is provided, namely, the first oscillating plate is in one plane and the second oscillating plate is in a second, different, plane. A further feature of exemplary embodiments of the presently disclosed device is that the brush head assembly construction and movement allows for each individual tuft to elliptically oscillate (X- and Y-axis) and rise/fall (Z-axis), so that the skin is massaged and cleansed twice with each pass of the brush plate protrusions.
- In exemplary embodiments, the motion of the oscillating plates provides vibrational movement to the device, which can be transmitted to the skin or other surface. Vibration of the skin may be useful in enhancing certain treatments, such as, but not limited to, increasing light penetration in light treatment, as described further hereinbelow.
- In exemplary embodiments, the presently disclosed device provides a handheld apparatus for delivering mechanical energy to a surface, such as, but not limited to, skin, scalp, nails and the like. The brush head assembly can be used to clean skin, scalp or otherwise treat a surface. It can also be used to increase blood circulation to the dermis layer where age-related components such as collagen reside. The brush head assembly may be useful as an aid in diminishing the appearance of roughness scaling or hyperkeratosis of the skin, superficial hyperpigmentation and photo-damage. It also may be useful as an aid in diminishing fine lines, wrinkles, acne, and shallow scars.
-
FIG. 34 shows an exemplary embodiment of a light-emittinghead assembly 1000. For the purposes of the present disclosure, “light” is intended to include visible, ultraviolet, infrared and other portions of the electromagnetic spectrum, as appropriate for the given use, and also includes laser-generated energy, as well as fluorescent, dichroic and other types of light. In exemplary embodiments, the light-emittinghead assembly 1000 includes ahousing 1002 which may include at least onefastening member 1004, such as a clip or the like, for detachable connecting to the main housing of the device. In exemplary embodiments, the light-emittinghead assembly housing 1002 may comprise twoportions head assembly 1000 may further include a connection plate 1010 having afirst opening 1012 that can accommodate thepin 156 from the inner first mountingbracket 120. In exemplary embodiments, the light-emittinghead assembly 1000 may further include acircuit board 1014 having abottom face 1016 andtop face 1018. The circuit board may include a microcontroller ormicroprocessor 1020 that is in electrical communication with one or more light emittingdevices 1030. Thelight emitting device 1030 may be an LED, incandescent lamp, infrared light-emitting device, optical fiber or bundle of fibers that can convey laser or other light, or the like. In exemplary embodiments, different types of light emitting devices can be utilized on thecircuit board 1014. The light-emittinghead assembly 1000 may have a firstelectrical connection member 1032 to electrically connect the head with the microcontroller 54 in the main housing. In exemplary embodiments, the connection member may be one or more electrical contacts that are disposed in the connecting plate 1010 and a set of complementary contact or contacts disposed in themain housing 1032. In exemplary embodiments, themicrocontroller 1020 can be controlled by the microcontroller 54 and the actuation device can include controls for activating and controlling the various light emitting devices. Alternatively, the light-emitting head assembly housing may include anactuation mechanism 50 in communication with the light-emittinghead microcontroller 1020. In exemplary embodiments, the controls may be on the light-emitting head assembly housing. Thecircuit board 1014 may be attached to the connection plate 1010 by one ormore fastening member 1034. - In exemplary embodiments, the light-emitting
head assembly 1000 may further include alens 1036. In exemplary embodiments, thelens 1036 may have atongue 1038 or groove extending at least partially around the perimeter of thelens 1036, and thehousing 1002 may have amating groove 1040 or tongue formed in at least a portion of thehousing 1002 so that thetongue 1038 fits in thegroove 1040 to maintain thelens 1036 in position. Alternatively, thelens 1036 may be attached to thehousing 1002 by welding, gluing, snap fitting or other fastening means. Thelens 1036 can be clear or translucent. Thelens 1036 may have a diffraction pattern formed therein or thereon, to focus or diffuse the light. Thelens 1036 may be sintered or textured to provide diffusion to the light emitted. - In exemplary embodiments, a
heat sink 1042 may be incorporated to dissipate heat that can build up from the light source, such as where ultraviolet light is used. In exemplary embodiments, theheat sink 1042 may be incorporated in, on or associated with the top side of the circuit board. - In exemplary embodiments, one light emitting head may incorporate blue lights and a separate head may incorporate red and/or infrared lights. In exemplary embodiments, it may be advantageous to separate the colors since more energy from the power source may be needed to energize a blue light source than may be required for a red and/or infrared light source. In other exemplary embodiments, the light emitting head may incorporate a combination of at least two of the following: red, blue, infrared, and/or ultraviolet lights or may incorporate other types or wavelengths.
- In exemplary embodiments using light-emitting diodes, the light-emitting
head assembly 1000 can be configured to deliver 63.333 mW/cm2 total power at 3 mm from the LED plane, which equals 7.6J per the two-minute exposure time; two thirds comes from the red LED matrix which delivers 42.222 mW/cm2 and one third comes from the infrared LED matrix which delivers 21.111 mW/cm2.LEDs 1030 are positioned so that concurrent spots of red and infrared light fill the area of the circuit board, generating a uniform intensity over the surface except at the fringes of the outline where some of the additive effect of neighbor LEDs is lost. The infrared LED may operate at 4 mW/Sr milliwatts per steradian) and the red LED may operate at 900mcd (“mcd” being the abbreviation for millicandela). In exemplary embodiments, the red LED may have a minimum intensity of 900mcd to increase total power. In one exemplary embodiment, the range may be 900-1125mcd. Both the infrared and red LEDs may have the same half angle, and therefore the same spot size. It is to be understood that blue, white, yellow or other colors can be used. - In exemplary embodiments, the light-emitting
head assembly 1000 may use blue light. In exemplary embodiments, the blue light may have nominal intensity of 40 mW/cm2, with a wavelength in a range of about 400-460 nm and a total power of 1 W. In 5 minutes of application the light may delivery about 300 J of energy. Over 12 cm2, the energy delivered may therefore be 25 J/cm2 and may be scaled for other treatments. - In exemplary embodiments, the light-emitting
head assembly 1000 may be configured to accommodate a dispensingport 910 from thefluid delivery system 900, such as by an opening in each of the connection plate 1010,circuit board 1014 andlens 1036 through which the nozzle can be fitted. In this manner fluid and light can be delivered to the skin or other surface. - The light-emitting
head assembly 1000 may be useful in light therapy. Light therapy consists of intentional exposure to light using lasers, light-emitting diodes, fluorescent lamps, dichroic lamps or very bright, full-spectrum light, usually controlled with various devices, and administered for a prescribed amount of time. Light therapy can be used to treat various skin conditions, including psoriasis, acne, and eczema. Additionally, light treatment may help to reduce pore size, increase the skin's moisture retention and elasticity, and smooth the texture of aged and sun-damaged skin. In exemplary embodiments for use such in treating acne, blue light may be advantageous, whereas red and/or infrared light may be advantageous for anti-aging, skin rejuvenation and similar applications. - In exemplary embodiments, the present device may include a hair removal head assembly which may be useful in removing unwanted hair. A hair removal head assembly may include, in exemplary embodiments, a head construction similar to that of exemplary brush head assemblies as described herein, but each protrusion may be or include a portion that is a coil, the coil being made of metal, plastic or other material. Alternatively, each protrusion may be or include a portion that is a spring, such as a twisted metal spring. Alternatively, the protrusion may be or include a portion that is a thread or threadlike material, such as, but not limited to, cotton, such as that used with eyebrow or other facial hair threading. In use, as the protrusions move one or more hairs will be caught in the coil, spring, or the like and removed at the roots.
- The present device can also have head assemblies combining two or more features of the aforementioned heads. For example, but not by way of limitation, an oscillating plate can incorporate both protrusions (such as bristled tufts) and a microcontroller connected to at least one light source to permit skin stimulation by tactile stimulation as well as by light stimulation. In exemplary embodiments, the fluid delivery system described hereinabove can be incorporated, as well.
-
FIG. 35 shows an alternative exemplary embodiment of adevice 1100 for producing elliptical movement incorporating asingle mounting bracket 1102 and an offsetcam 1104 having a single offset lobe. In exemplary embodiments, thedevice 1100 includes amotor 1106, optionally amotor housing 1108, and ashaft 1110 extending from themotor 1106, similar to those described hereinabove. The shaft has acentral axis 1112. - The
cam 1104, as shown inFIG. 36 has a circularoutside circumference 1114 and has a central axis 1116. The cam 1116 also has abore 1118 having anaxis 1120 that is offset from the camcentral axis 1112. In comparison to the offsetaxis cam 1104, atraditional cam 1130 known to those skilled in the art, shown inFIG. 37 , has acircumference 1132 that is not a circle, but has a portion 1134 (shown on the right side) that protrudes beyond the geometric circle. - In alternative exemplary embodiments, rather than an offset axis cam, elliptical motion may be created by other structures, such as, but not limited to, those as described hereinabove (see, for example, the description with respect to
FIGS. 7-8 ). - The mounting
bracket 1102 has abase plate 1136 having abottom surface 1138, atop surface 1140, a central aperture or recess 1142, and first andsecond arms portion male connecting member 1152. In exemplary embodiments, eacharm motor housing 1108 via themale connecting member 1152. Themale connecting member 1152 may be a screw, bolt or other fastener, or may be a pin, rod, or the like. In exemplary embodiments, themale connecting member 1152 may be a boss that receives a connecting portion boss. In an alternative exemplary embodiment, eacharm aperture 1154 at the distal end, the aperture having an insert (not shown) made of a low friction material. - A
grommet 191 fits in the mounting bracket central aperture or recess 1142. In exemplary embodiments, thegrommet 191 is constructed as described hereinabove. Thecam 1104 fits at least partially in the grommet central aperture. Optionally, abearing 76 may be fitted over at least a portion of thecam 1104 and thebearing 76 fitted at least partially in thegrommet 191. - In exemplary embodiments, the mounting
bracket base plate 1136 may have a circular, curved or other regular or irregular shape. In exemplary embodiments, aseparate interface member 1154 may be associated with the base plate and forms an interface between thebase plate 1136 and the skin or other surface to be stimulated, abraded or the like. Theinterface member 1154 may be permanently or removably attached to or co-formed with thebase plate 1136. Theinterface member 1154 may be flat, curved or other regular or irregular shape. In exemplary embodiments, theinterface member 1154 may have an elongated portion and may have a distal end having a rounded, flat, pointed or other shaped end. Theinterface member 1154 may haveprotrusions 700 extending from the exposed side, theprotrusions 700 being similar to those described herein with respect to theoscillating plate protrusions 700. Alternatively, theinterface member 1154 may have an exposed surface that has an abrasive finish or coating. Alternatively, theinterface member 1154 may have a surface either bonded or removably attached thereto, such as, but not limited to, an abrasion surface. Alternatively, a removable cover may be associated with theinterface member 1154 that can be replaced periodically when worn out. - In exemplary embodiments, shown in
FIG. 38 , a connectingpin 1156 or other connecting member may permanently or detachably connect thebase plate 1136 with theinterface member 1154, such as, but not limited to, anoscillating plate 1158 as described hereinabove, or other structure. -
FIGS. 39-40 show an alternative exemplary embodiment of portion of adevice 1200, which includes a motor 1202,motor housing 1204 andbracket assembly 1206. Abase plate 1208 includes an innermounting bracket arm 1210 and an outermounting bracket arm 1212 each have a distal end that terminates in afemale connecting portion 1214, such as, but not limited to, a loop, aperture, bore, sleeve or the like. At least onemale connecting portion 1216 such as a rod, pin, boss, tube, or the like, is associated with opposing sides of themotor housing 1204. In an alternative exemplary embodiment, themale connecting portion 1216 may protrude from or be associated with the motor itself, such as where no motor housing is included. Thefemale connecting portion 1214 is fitted over themale connecting portion 1216 such that thefemale connecting portion 1214 can pivot about themale connecting portion 1216, thereby creating pivoting movement of thearms arms portion 1216, thereby providing Y-axis movement. The combination of the X-axis pivoting and Y-axis sliding provides the elliptical movement path of thebase plate 1208. -
FIGS. 41-44 show an exemplary embodiment of a brushhead attachment assembly 1300. A dual-lobe offset axis cam 1302 (driven by amotor 22 andshaft 24, not shown) has a first offset axis cam lobe 1304 and a second offsetaxis cam lobe 1306, similar to the cam described 62 hereinabove. Theassembly 1300 also includes anassembly housing 1308. Theassembly 1300 also includes a firstoscillating plate 1310 having a pair offirst pins 1312 extending from one area of the plate edge and a pair of second pins 1314 extending from an area of the plate edge opposite from the area of the pair offirst pins 1312. The firstoscillating plate 1310 may have acentral aperture 1316 having a grommet 191 (as described hereinabove) associated therewith. Asecond oscillating plate 1318 similarly has a pair offirst pins 1320 extending from one area of the plate edge and a pair of second pins 1322 extending from an area of the plate edge opposite from the area of the pair offirst pins 1320. The secondoscillating plate 1318 may have acentral aperture 1324 extending at least partially through the plate. Thecentral aperture 1324 may have a grommet 191 (as described hereinabove) associated therewith. The assembly housing 1308 (a portion of which is shown in the figures) includes atrack 1326 for each pin. In exemplary embodiments, thetrack 1326 may be curved. In exemplary embodiments, thetrack 1326 may be a slot or a groove in thehousing 1308 and may extend through or partially through the housing. In exemplary embodiments, thetrack 1326 may be a raised lip extending from the housing wall. Each pin is disposed in a track. Each pin may slide along thetrack 1326. Each pin may slide at least partially in or out of the track 1326 (in the direction of the axis of the pin). The pins sliding along thetrack 1326 and in and out of the track permit X-axis and Y-axis elliptical movement of theoscillating plates - The
assembly housing 1308 includes anaperture 1328 into which at least a portion of theshaft 24 and the offset axis cam 1302 fits. Theassembly housing 1308 is attached to the device housing, such as, but not limited to, by pressure fit, a snap fit, screwing via mating threads in both the attachable assembly housing and the device housing, or other attachment means. Alternatively, theassembly housing 1308 may be permanently attached to the device housing, such as by gluing, welding, or the like. The cam 1302 fits in thecentral aperture 1328 in theassembly housing 1308. The first cam lobe 1304 fits in thecentral aperture 1316 in the firstoscillating plate 1310 and thesecond cam lobe 1306 fits in thecentral aperture 1324 in the secondoscillating plate 1318. - In exemplary embodiments, each oscillating plate has a plurality of
protrusions 700 protruding from one surface of the plate that may be constructed as described hereinabove. The secondoscillating plate 1318 may have rows ofprotrusions 700. Between adjacent rows ofprotrusions 700 may be rows ofslots 1330.Protrusions 700 from the firstoscillating plate 1310 may be disposed in theslots 1330. In exemplary embodiments, the length of theprotrusions 700 of the firstoscillating plate 1310 is such that the distal ends of theprotrusions 700 are generally co-planar with the distal ends of theprotrusions 700 of the secondoscillating plate 1318. In exemplary embodiments, theprotrusions 700 from both plates generally form a brush-like surface. - In exemplary embodiments, the device operates as follows. When the
shaft 24 rotates and causes thecam lobes 1304, 1306 to rotate, the first cam lobe 1304 causes the firstoscillating plate 1310 to move in a first elliptical path, with thepins 1320, 1314, sliding and moving within thetracks 1326. Thesecond cam lobe 1306 causes the secondoscillating plate 1318 to move in a second elliptical path, with thepins 1320, 1322 sliding and moving within thetracks 1326. The first and second elliptical paths are offset from each other. In exemplary embodiments, the offset of the paths may be 90 degrees or may be offset by other amounts. -
FIG. 45 is a perspective view of an exemplary embodiment of adevice 1350 showing a brush head assembly 1360 attached to themain housing 1370 of the device. - Exemplary embodiments of the presently disclosed device can be adapted for use in a variety of different applications. In exemplary embodiments, the device or components thereof can be enlarged for use in cleaning carpets, floors or other surfaces where scrubbing, buffing, abrading, or other vigorous application of a moving brush, cloth or other material is typically used. In exemplary embodiments, the oscillating brush head can be enlarged to accommodate a large piece of sandpaper, buffing or other material and the device used as a sander capable of delivering elliptical movement. In other exemplary embodiments, the device can have the oscillating plate assembly miniaturized for use as, for example, a toothbrush head. In exemplary embodiments of one or more of the foregoing uses, fluid may be delivered during application of the device by a fluid delivery system incorporated in the device.
- The fluid delivery system can be modified to have an external pressurized fluid source whereby the device has an actuation switch, button or other control that actuates an external pump that can force fluid through the delivery tube(s) to the oscillating plates. Such an embodiment would permit delivery of larger amounts and higher pressures of fluids.
- The present disclosure also provides exemplary embodiments of methods for treating skin or other surface. In one exemplary embodiment, a method for treating skin is provided in which a device as described hereinabove is applied to the skin whereby portions of the skin are contacted by the oscillating plate or plates (or material associated therewith) as described herein in various exemplary embodiments. Alternatively, the skin may be subjected to treatment or application by one of the other head assemblies as described hereinabove.
- Exemplary embodiments of the present device may be configured to provide parallel or in-series combination therapies. For example, the brush head assembly may contain protrusions for stimulation/abrasion and also contain at least one light-emitting device as described hereinabove, thereby providing stimulation, abrasion, cleansing, massage or other treatment, as well as light therapy at the same time.
- Although only a number of exemplary embodiments have been described in detail above, those skilled in the art will readily appreciate that many modifications are possible in the exemplary embodiments without materially departing from the novel teachings and advantages. Accordingly, all such modifications are intended to be included within the scope of this disclosure as defined in the following claims.
- While the methods, equipment and systems have been described in connection with specific embodiments, it is not intended that the scope be limited to the particular embodiments set forth, as the embodiments herein are intended in all respects to be illustrative rather than restrictive.
- Unless otherwise expressly stated, it is in no way intended that any method set forth herein be construed as requiring that its steps be performed in a specific order. Accordingly, where a method claim does not actually recite an order to be followed by its steps or it is not otherwise specifically stated in the claims or descriptions that the steps are to be limited to a specific order, it is no way intended that an order be inferred, in any respect.
- This holds for any possible non-expressed basis for interpretation, including: matters of logic with respect to arrangement of steps or operational flow; plain meaning derived from grammatical organization or punctuation; or the number or type of embodiments described in the specification.
- As used in the specification and the appended claims, the singular forms “a,” “an” and “the” include plural referents unless the context clearly dictates otherwise.
- Ranges may be expressed herein as from “about” one particular value, and/or to “about” another particular value. When such a range is expressed, another embodiment includes from the one particular value and/or to the other particular value. Similarly, when values are expressed as approximations, by use of the antecedent “about,” it will be understood that the particular value forms another embodiment. It will be further understood that the endpoints of each of the ranges are significant both in relation to the other endpoint, and independently of the other endpoint.
- “Optional” or “optionally” means that the subsequently described event or circumstance may or may not occur, and that the description includes instances where said event or circumstance occurs and instances where it does not.
- Throughout the description and claims of this specification, the word “comprise” and variations of the word, such as “comprising” and “comprises,” means “including but not limited to,” and is not intended to exclude, for example, other additives, components, integers or steps. “Exemplary” means “an example of” and is not intended to convey an indication of a preferred or ideal embodiment. “Such as” is not used in a restrictive sense, but for explanatory purposes.
- Disclosed are components that can be used to perform the disclosed methods, equipment and systems. These and other components are disclosed herein, and it is understood that when combinations, subsets, interactions, groups, etc. of these components are disclosed that while specific reference of each various individual and collective combinations and permutation of these may not be explicitly disclosed, each is specifically contemplated and described herein, for all methods, equipment and systems. This applies to all aspects of this application including, but not limited to, steps in disclosed methods. Thus, if there are a variety of additional steps that can be performed it is understood that each of these additional steps can be performed with any specific embodiment or combination of embodiments of the disclosed methods.
- Any patents, applications and publications referred to herein are incorporated by reference in their entirety.
Claims (17)
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-
2013
- 2013-08-11 US US13/964,099 patent/US9032576B2/en active Active
- 2013-12-18 KR KR1020157019424A patent/KR20150103066A/en not_active Application Discontinuation
- 2013-12-18 JP JP2015549622A patent/JP2016501111A/en active Pending
- 2013-12-18 WO PCT/US2013/076110 patent/WO2014100169A1/en active Application Filing
- 2013-12-18 EP EP13865889.3A patent/EP2934418A4/en not_active Withdrawn
- 2013-12-18 SG SG11201504895TA patent/SG11201504895TA/en unknown
- 2013-12-18 BR BR112015015977A patent/BR112015015977A2/en not_active IP Right Cessation
- 2013-12-18 CA CA2896011A patent/CA2896011A1/en not_active Abandoned
-
2015
- 2015-05-18 US US14/714,727 patent/US20150245703A1/en not_active Abandoned
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
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US2367668A (en) * | 1942-12-11 | 1945-01-23 | Roy J Champayne | Rubbing machine |
US5626510A (en) * | 1993-02-04 | 1997-05-06 | Robert Bosch Gmbh | Power tool for surface treatment |
US20040103490A1 (en) * | 2002-12-03 | 2004-06-03 | Long David C. | Powered cleaner/polisher |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
USD805787S1 (en) | 2017-02-21 | 2017-12-26 | Andrea Forrest | Nail brush base |
US9968183B1 (en) | 2017-02-22 | 2018-05-15 | Andrea Forrest | Fingernail brush having angularly adjustable bristles |
US10278486B2 (en) | 2017-02-22 | 2019-05-07 | Andrea Forrest | Fingernail brush having angularly adjustable bristles |
US20230113103A1 (en) * | 2021-10-12 | 2023-04-13 | RDP Services, LLC | Makeup blender and applicator |
US11882912B2 (en) * | 2021-10-12 | 2024-01-30 | RDP Services, LLC | Makeup blender and applicator |
Also Published As
Publication number | Publication date |
---|---|
EP2934418A1 (en) | 2015-10-28 |
KR20150103066A (en) | 2015-09-09 |
BR112015015977A2 (en) | 2018-05-15 |
EP2934418A4 (en) | 2016-10-19 |
WO2014100169A1 (en) | 2014-06-26 |
JP2016501111A (en) | 2016-01-18 |
CA2896011A1 (en) | 2014-06-26 |
SG11201504895TA (en) | 2015-07-30 |
US20140202493A1 (en) | 2014-07-24 |
US9032576B2 (en) | 2015-05-19 |
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Legal Events
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AS | Assignment |
Owner name: NEWTON MEDICAL, LLC, MINNESOTA Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:NORTH POLE ENGINEERING, INC.;REEL/FRAME:035660/0301 Effective date: 20130711 Owner name: NEWTON MEDICAL, LLC, MINNESOTA Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:FREEMAN, NATHANIEL HAYES;REEL/FRAME:035660/0043 Effective date: 20130711 Owner name: NEWTON MEDICAL, LLC, MINNESOTA Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:FREEMAN, LLC;REEL/FRAME:035660/0367 Effective date: 20130711 Owner name: NEWTON MEDICAL, LLC, MINNESOTA Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:DREW MEDICAL, LLC;REEL/FRAME:035660/0192 Effective date: 20130711 Owner name: NEWTON MEDICAL, LLC, MINNESOTA Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:ZELICKSON, BRIAN DAVID;REEL/FRAME:035659/0880 Effective date: 20130711 Owner name: NEWTON MEDICAL, LLC, MINNESOTA Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:FILIPEK, SHAWN MICHAEL;THOMPSON, KEVIN JOHN;WAYMAN, MICHAEL JOSEPH;AND OTHERS;REEL/FRAME:035659/0806 Effective date: 20130710 Owner name: NEWTON MEDICAL, LLC, MINNESOTA Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:ZELICKSON, ALVIN SHELDON;REEL/FRAME:035660/0127 Effective date: 20130822 |
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STCB | Information on status: application discontinuation |
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