WO2004100700A2 - Hair depilating device and method for improved depilating coverage - Google Patents

Hair depilating device and method for improved depilating coverage Download PDF

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Publication number
WO2004100700A2
WO2004100700A2 PCT/IL2004/000422 IL2004000422W WO2004100700A2 WO 2004100700 A2 WO2004100700 A2 WO 2004100700A2 IL 2004000422 W IL2004000422 W IL 2004000422W WO 2004100700 A2 WO2004100700 A2 WO 2004100700A2
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WO
WIPO (PCT)
Prior art keywords
hair
hub
disc
depilating
traps
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/IL2004/000422
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French (fr)
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WO2004100700A3 (en
Inventor
Moshe Dolev
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Individual
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Individual
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Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to CA002525063A priority Critical patent/CA2525063A1/en
Priority to JP2006530999A priority patent/JP2006528900A/en
Priority to EA200501832A priority patent/EA008216B1/en
Priority to BRPI0410438-2A priority patent/BRPI0410438A/en
Priority to AU2004238103A priority patent/AU2004238103A1/en
Priority to EP04733620A priority patent/EP1633196A2/en
Publication of WO2004100700A2 publication Critical patent/WO2004100700A2/en
Publication of WO2004100700A3 publication Critical patent/WO2004100700A3/en
Priority to EGNA2005000737 priority patent/EG23740A/en
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45DHAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
    • A45D26/00Hair-singeing apparatus; Apparatus for removing superfluous hair, e.g. tweezers
    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45DHAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
    • A45D26/00Hair-singeing apparatus; Apparatus for removing superfluous hair, e.g. tweezers
    • A45D26/0023Hair-singeing apparatus; Apparatus for removing superfluous hair, e.g. tweezers with rotating clamping elements
    • A45D26/0028Hair-singeing apparatus; Apparatus for removing superfluous hair, e.g. tweezers with rotating clamping elements with rotating discs or blades
    • AHUMAN NECESSITIES
    • A22BUTCHERING; MEAT TREATMENT; PROCESSING POULTRY OR FISH
    • A22BSLAUGHTERING
    • A22B5/00Accessories for use during or after slaughtering
    • A22B5/08Scalding; Scraping; Dehairing; Singeing

Definitions

  • the present invention relates to depilating devices, and more particularly, to a hand held, motorized depilating device for removing unwanted skin hair, utilizing a novel mechanical design to provide improved depilating coverage, to achieve the desired depilating effect per given skin area without requiring the user to pass the device over it numerous times, thereby increasing the hair plucking efficiency.
  • U.S.PatNo. 5,281,233 to Dolev discloses a novel hair removal device, which includes disc assemblies, which are designed to alternately close and open a large number of relatively large hair-traps.
  • the Dolev patent discloses a depilating device comprising a hair-plucking assembly being rotatable about a shaft and including one or more disc assemblies.
  • Each disc assembly comprises a pair of complementary discs, each of which has one or more radially extending arms, which terminate in a flattened peripheral portion.
  • the disc assemblies also include a hub, which accommodates said pair of discs, one on each of its axial faces.
  • the hub has shoulders for engaging the arms of each of the discs so as to impart rotational motion to the discs upon the rotation of the hub.
  • the hub also has pairs of protrusions, which extend axially beyond the plane of arms of each disc.
  • the hub further has an edge, which is perpendicular io its axis.
  • each of the arms of the pair of discs is pivotable about the edge so as to alternately bring two flattened peripheral portions into contact thus closing a hair-trap and then opening the trap to release the depilated hairs.
  • the edge of the hub includes a pinch plate, which projects radially outwardly from the edge. It is disposed in a plane opposite the plane of the flattened peripheral portion, so as to be flush with the flattened peripheral portion.
  • Each arm of the pair of discs is pivotable about the edge so as to alternately bring two flattened peripheral portion and the pinch plate into contact thus closing two hair-traps simultaneously and then opening the traps to
  • the hair-traps are lined up one after the other, i.e. in a tandem arrangement.
  • a single depilating pass over a given skin area a narrow band of skin area is treated by this tandem arrangement of hair- traps. strips of skin, between these bands, are not treated.
  • the device's efficiency is reduced and consequently, the user must pass the device over the same given skin area several times in order to achieve the depilating effect desired.
  • the present invention overcomes the above-mentioned disadvantages and provide a hand-held, motorized depilating device for removing unwanted skin hair, introducing a novel' mechanical design to provide improved depilating coverage, ensuring achieving the depilating effect desired per given skin area without requiring the user to pass the device over the same given skin area numerous times, and thereby increasing the hair plucking efficiency.
  • the present invention is based on U.S.Pat.No. 5,281,233 to Dolev and is essentially an improvement of the aforementioned patent. Instead of the hair-traps being lined up one after the other, i.e. in a tandem arrangement, the novel
  • a motor-powered depilating device comprising: a hair-plucking assembly, coupled to motor means, and being exposed through an opening in a manually-held housing, said hair-plucking assembly being rotatable about an axis of rotation and including a plurality of disc assemblies, each disc assembly comprising: a pair of complementary discs, each of said discs having at least two radial arms extending outwardly, each one of said complementary discs being mounted, respectively, on each of two.
  • a hub having a predetermined thiclcness
  • said hub haying at least two shoulders, each, shoulder engaging one of said radial arms so as to impart rotational motion to said pair of discs upon rotation of said hub about the axis of rotation
  • said hub further including engagement means, for engaging at least one adjoining hub such that rotational motion of one hub imparts rotational motion to said adjoining hub, each of said arms terminating in a flattened peripheral portion which, when pressed against a co ⁇ esponding portion of a complementary disc in a pivoting motion about an edge of said hub, forms a trap for the hair, each trap lying in a predetermined one of a plurality of virtual planes, said' virtual planes comprising three substantially parallel planes orthogonal to the axis of rotation, including: a centerplane bisecting said hub thickness, a first offset plane, spaced apart from said centerplane by a first offset dimension, and a second offset plane, spaced apart from said centerplane by a second
  • said three virtual planes defining a plurality of contiguous depilating coverage zones on the skin surface within said offset dimensions, said at least two shoulders of said hub each having a pair of protrusions which extend axially from each of said, shoulders towards adjoining disc assemblies, one on either side thereof, such that, at intervals, during the rotation of said plurality of said disc assemblies, said axial protrusions extend tlirough open spaces between adjacent radial arms of said discs to press a radial arm of an adjoining disc assembly, so as to alternately close and open said hair-traps in said plurality of disc assemblies, thereby plucking skin hair with improved coverage within said depilating coverage zones, and releasing it.
  • the . hair-plucking assembly is rotatable about a shaft and includes at least two disc assemblies!
  • Each disc assembly comprises a pair of complementary discs, each of which has two or more radially extending arms which terminate in a flattened peripheral portion, which when pressed against a corresponding portion forms a trap for the hair.
  • Each trap lies in a predetermined plane, constituting one of a plurality of virtual planes.
  • At least one of the radially extending arms and its opposing complementary disc arm are bent, so that the hair trap formed lies in a different predetermined virtual plane offset from the other hair-traps associated with the disc assembly, thus forming a staggered arrangement of hair-traps.
  • the disc assemblies also include a hub, which accommodates a pair of
  • Each hub has a predetermined thickness, upon which is mounted one of the complementary discs, on each of the two axial faces of the hub.
  • the hub has three shoulders for engaging the arms of each of the discs, so as to impart rotational motion to the discs upon the rotation of the hub.
  • the hub has an edge, substantially perpendicular to the axis of rotation, about which each pair of arms of the pair of discs is pivotable, so as to alternately bring two flattened peripheral portions into contact, thus closing a hair-trap, lying in .one of the predetermined planes, and then opening the trap to release the depilated hairs.
  • the virtual planes are three substantially parallel planes orthogonal to the axis of rotation, a centerplane bisecting the hub thickness, a first offset plane, spaced apart from the centerplane by a first offset dimension, and a second offset plane, spaced apart from the centerplane by a second offset dimension.
  • the virtual planes define depilating coverage zones within the offset dimensions.
  • Each shoulder of the hub has a pair of protrusions, each member of which extends axially from the shoulder towards an adjoining disc assembly. At intervals, during the rotation of the disc assemblies, the axial protrusions extend through the open spaces between adjacent radial arms of the discs to touch the nearer disc of an adjoining disc assembly, so as to alternately close and open the
  • the hub has extending from one of its shoulders at least one pan of axial protrusions, extending axially in opposite directions, offset from the other pairs of axial protrusions of the hub. This enables closing and opening of the staggered arrangement of hair-traps and thereby improves the depilating coverage afforded by the plurality of disc assemblies.
  • the hub includes engagement means, for engaging at least one adjoining hub, such that rotational motion of one hub imparts rotational motion to at least one adjoining hub.
  • the hub's edge has .formed thereon a pinch plate, which projects radially outwardly from the edge.
  • the pinch plate is disposed in between and equidistant from the arms of complementary discs, so as to be substantially flush with the flattened peripheral portions of these arms.
  • Each pair of arms of the pair of discs is pivotable about the edge so as to alternately bring two flattened peripheral portion and the pinch plate into contact thus closing two hair-traps simultaneously and then opening the traps to release the depilated hairs. This doubles the number of hair-traps closed simultaneously and thereby, greatly increases depilating efficiency.
  • the hubs are rotatably mounted on a fixed arcuate shaft and each hub includes engagement means for engaging at least one adjacent hub so that rotational motion of one hub imparts rotational motion to an adjacent hub. Trap opening and closing is accomplished by using a motion control means
  • the hubs are rotatably mounted on a 5 straight shaft, and trap opening and closing is accomplished by using a motion control means employing cams or inclined thrust bearings.
  • Fig. 1 is a cross-sectional view of a prior art depilating device as shown 15 and described in U.S. Pat. No. 5,281,233 to Dolev, featuring a number of disc assemblies;
  • Fig. 2 is a plan view of a disc assembly used in the device of Fig.1;
  • Fig. 3 is a perspective view of the disc assembly of Fig.2;
  • Fig. 4 shows another perspective view of the disc assembly of Fig. 2;
  • 0 Fig. 5 displays a cross sectional view of the disc assembly of Fig 4;
  • Fig. 6 is a perspective view of the disc assembly of Fig. 4, featuring a pinch plate feature, which doubles the number of hair-traps;
  • Fig. 7 displays a cross sectional view of the disc assembly of Fig 6;
  • Fig. 8 schematically illustrates the layout of the hair-traps located on the 5 circumference of the hair plucking assembly of a prior art depilating device
  • Fig. 9 schematically illustrates the width of the depilating coverage zone of a standard hair-trap, transported by the hair plucking assembly in the direction of
  • Fig. 10 schematically illustrates the width of the depilating coverage zone of a hair-trap, being transported by the fiair plucking assembly from side to side, while the hair plucking device moves in the dirction of arrow A (as suggested by Inoue);
  • Fig. 11 is an isometric view of a disc assembly, constructed and operated, in accordance with the principles of the present invention, not incorporating, the pinch plate feature, showing two of the radially extending arms offset from the centerplane of the disc assembly, one to each side;
  • Fig. 12 is a cross sectioi ⁇ al view of the.disc. assembly.ofFig.i l, along the the radially extending, arm that is centered on- thp. centerplane of the .disc assembly;
  • Fig. 13 is a cross' sectional view ⁇ .f.the disc, assembly of Fig.11, along the radially extending arm that is offset to the right of the centerplane of the disc assembly;
  • Fig. 14 is a cross sectional view of the disc assembly of Fig.11, along the radially extending arm that is offset to the left of the centerplane of the disc assembly;
  • Fig. 15 is an exploded .. isometric view : of the : - depilating device disc assembly of the present invention, sho-vra in . Fig, 11;,
  • Fig. 16 schematically illustrates the : layout . of the hair-traps of the disc assembly, as shown in Figures 11-15;
  • Fig. 17 is an isometric view of a disc assembly, constructed and operated, in accordance with the principles of the present invention, featuring a pinch plate, and showing two of the radially extending arms and their associated pinch plate offset from the centerplane of the disc assembly, one to each side;
  • Fig. 18 is a cross sectional view of the disc assembly of Fig.17, along the
  • Fig. 19 is a cross sectional view of the disc assembly of Fig.17, along the radially extending arm that is offset to the right of the centerplane of the disc assembly;
  • Fig. 20 is a cross sectional view of the disc assembly of Fig.17, along the radially extending arm that is offset to the left of the centeiplane of the disc assembly;
  • Fig. 21 is an exploded isometric view of the depilating device disc assembly of the present invention, highlighting the pinch plates, shown in Fig. 17;
  • Fig. 22 is a cross-sectional view . of, the hair. plucking assembly of the present invention, incorporating pinch plates, featuring a number of disc assemblies, showing radially extending arms that are offset to the right of the centerplane of the disc assemblies;
  • Fig. 23 is a cross-sectional view of the hair plucking assembly of the present invention, incorporating pinch plates, featuring a number of disc assemblies, showing radially extending arms that are offset to the left of the centerplane of the disc assemblies;
  • Fig. 24 is a cross-sectional view of the hair, plucking assembly of the present invention, incorporating pinch plates, featuring , a number of disc assemblies, showing radially extending arms that are centered on the centerplane of the disc assemblies;
  • Fig. 25 schematically illustrates the staggered layout of the hair-traps, without pinch plates, located on the circumference of the hair plucking assembly of the present invention;
  • Fig. 26 schematically illustrates the staggered layout of the hair-traps, featuring pinch plates, located on the circumference of the hair plucking assembly of the present invention.
  • Fig. 1 is a cross-sectional view of a prior art. depilating device as shown
  • the hair plucking assembly 12 is shown, comprising one or more disc assemblies 28.
  • Each of disc assemblies 28 is rotatably mounted on an arcuate shaft
  • arcuate shaft 32 has a constant radius of curvature, such
  • disc assemblies 28 are caused with the assistance of inclined thrust bearings 54 and 64 and push rods 56 and 66 to efficiently and smoothly close and open hair-traps.
  • Fig. 2 is a plan view of a disc assembly used in the device of Fig. 1.
  • assembly 28 is comprised ,of three major -parts: a h ⁇ b 34, and , a pair of discs 3,6.
  • Fig. 3 is a perspective yie ; pf the disc. ssep ⁇ bJy, ' .of Fig.2.
  • Each of discs 36 has at least one radially extending arm 38, emanating from its center.
  • Each arm 38
  • each disc 36 has an opening, which is sized and shaped to fit over a projection of hub 34.
  • Hub 34 has shoulders 46, one shoulder 46 per arm, .38 of disc 36. Shoulders 46 are sized and
  • each arm 38 shaped so that the trailing edge, of each arm 38 abuts against a, portion of one of
  • Hub 34 includes a series of axial engagement protrusions 70 and recessions 72, for engaging co ⁇ esponding portions in the adjacent hub, to impart rotational motion between disc assemblies. Extending from shoulders 46 of hub
  • axial protrusion 34 is a pair of axial protrusions 48, extending axially in opposite directions. When a particular set of axial protrusions 48 is located in the concave configuration produced by the curvature of arcuate shaft 32, axial protrusions 48 extend through the open spaces between adjacent arms 38 of discs 36 to touch the nearer disc 36 of an adjoining disc assembly 28, thereby causing the adjoining disc assembly 28 to form a trap. (See Fig.l). Hub 34 includes an edge 50, which lies between each pair of corresponding arms 38 of complementary discs 36.
  • a pair of arms 38 of complementary discs 36 pivot slightly towards each other about the corresponding edge 50 of hub 34 located between the pair of arms 38. This pivoting brings the pair of flattened peripheral portions 40 at the end of the pair of arms 38 together in parallel fashion to form a trap.
  • Fig. 4 shows another perspective view of the disc assembly of Fig. 2.
  • the radially extending arms 38 pivot about an axis oriented parallel to the peripheral portions 40 of the hair-trap.
  • Fig. 5 displays a cross sectional view of the disc assembly of Fig 4.
  • Fig. 6 is a perspective view of a disc assembly, incorporating a pinch plate, as described in the above-referenced Dolev patent (U.S. Pat. No. 5,281,233), at col. 7, lines 27-42.
  • the edge 50 of hub 34 includes a pinch plate 39, which projects radially outward from edge 50, and which doubles the number of hair- traps.
  • Fig. 7 displays a sectional view of the apparatus of Fig 6.
  • the pivoting of arms 38 of discs 36 towards each other effects the creation of two traps.
  • One trap is formed between one face of the pinch plate 39 and one of flattened peripheral
  • portions 40 and the other trap is formed between the other face of the pinch plate 39 and the flattened peripheral portion 40 of the complementary disc 36.
  • Fig. 8 schematically illustrates the layout of the hair-traps located on the circumference of the hair plucking assembly 12 of a prior art depilating device. It can be clearly seen that the width of the depilating coverage zones of the traps is very narrow and strips of slcin, between these zones, are not treated. Since these zones are not contiguous, the device's efficiency is reduced and consequently, the user must pass the device over the same given skin area several times in order to achieve the depilating effect desired.
  • Fig. 9 schematically illustrates the width of the depilating coverage zone of a standard hair-trap, transported by the hair plucking .assembly in the direction of arrow A in the diagram.
  • the entrance width between the opposing edges 40b of the trap is given as 1.0 mm.
  • Fig. 10 schematically illustrates the width of the depilating coverage zone of a hair-trap, being transported by the hair plucking assembly from side to side, as shown by the directional arrows B in the diagram, while the hair plucking assembly simultaneously moves forward, as shown by the directional arrows A in the diagram (as suggested by Inoue).
  • the resultant vector of these two motions is the actual displacement and its direction is diagonal, as shown by the directional arrows C in the diagram., This motion greatly reduces, as can clearly be seen, the effective width of the depilating coverage zone of the hair-trap.
  • the effective entrance width between the opposing edges 40b of the trap is now only 0.5 mm.
  • Fig. 11 is an isometric view of a disc assembly, constructed and operated, in accordance with the principles of the present invention, not incorporating the pinch plate feature, showing two sets of radially extending arms 38a offset from
  • axial protrusions 48a Extending from shoulders 46a of hub 34a is a pair of axial protrusions 48a, extending axially in opposite directions.
  • axial protrusions 48a extend tlirough the open spaces between adjacent arms 38a of discs 36a to touch the nearer disc 36a of an adjoining disc assembly 28a, thereby causing the adjoining disc assembly 28a to form a trap.
  • Fig. 12 is a cross sectional view of the disc assembly of Fig.11, along the radially extending arm that is centered on, the , centerplane of the disc assembly.
  • a pair of arms 38a of complementary discs 36a pivot slightly towards each other about the con-esponding edge 50a of hub 34a located between the pair of arms 38a. This pivoting brings the pair of flattened peripheral portions 40a at the end of the pair of arms 38a together in parallel fashion to form a trap.
  • Fig. 13 is a cross sectional view of the disc assembly of Fig.11, along the radially extending arm that is offset to the right of the centerplane of the disc assembly.
  • Fig. 14 is a cross sectional view of the disc assembly of Fig.11, along the radially extending arm that is offset to the left of the centerplane of the disc assembly.
  • Fig. 15 is an exploded isometric view of the depilating device disc assembly of the present invention, shown in Fig. 11.
  • Each of discs 36a has at least two radially extending arms 38a, emanating from its center.
  • Each arm 38a terminates in a flattened peripheral portion 40a.
  • the central portion of each disc 36a has an opening 45, which is sized and shaped to fit over a projection of hub 34a.
  • Hub 34a has shoulders 46a, one shoulder 46a per arm 38a of disc 36a. Shoulders 46a are sized and shaped so that the trailing edge of each arm 38a abuts against a portion of one of shoulders 46a. A rotational motion of hub 34a transmits the same rotational motion to discs 36a.
  • Hub 34a includes a series of axial engagement protrusions 70a, for engaging depressions 72a in the adjacent hub, to impart rotational motion to adjacent disc assemblies. The offsets of the radial arms 38a, axial projections 48a and shoulders 46 extending right and left of the centerplane of the disc assembly can be clearly seen.
  • Fig. 16 schematically illustrates the layout of the hair-traps of one disc assembly, as shown in Figures 11-15. It is clear that the staggered layout of the hair-traps affords a much wider zone of depilating coverage than that afforded by the tandem layout shown in Fig.8.
  • Fig. 17 is an isometric view of a disc assembly, constructed and operated, in accordance with the principles of the present invention, featuring pinch plates, and showing two of the radially extending arms and their associated pinch plate offset from the centerplane of the disc assembly.
  • Fig. 18 is a cross sectional view of the disc assembly of Fig.17, along the radially extending arm that is centered on the centerplane of the disc assembly.
  • ⁇ Fig. 19 is a cross sectional view of the disc assembly of Fig.17, along the radially extending arm that is offset to the right of the. centerplane of the disc
  • Fig. 20 is a cross sectional view of the disc assembly of Fig.17, along the radially extending arm that is offset to the left of the centerplane of the disc assembly.
  • Fig. 21 is an exploded isometric view of the depilating device disc assembly of the present invention, shown in Fig. 17.
  • the edge 50a of the hub 34a includes a pinch plate 41a, which projects radially outwardly from the edge 50a.
  • the pinch plate 41a is disposed in between and equidistant from the arms 38a of complementary discs, so as to be substantially flush with the flattened peripheral portions 40a of these arms.
  • there are offset pinch plates 41a corresponding to offset flattened peripheral portions 40a.
  • the offset mounting of the flattened peripheral portions is either on one side or the other of the centerplane of the disc assembly.
  • Fig. 22 is a cross-sectional view of the hair plucking assembly of the present invention, incorporating pinch plates, and featuring a number of disc assemblies, showing radially extending arms that are offset to the . right of the centerplane Z of the disc assemblies.
  • Axial protrusions: 48a extend through the open spaces between adjacent arms 38a of discs 36a to touch the nearer disc 36a of an adjoining disc assembly 28a, thereby causing the adjoining disc assembly 28a to form a trap.
  • Fig. 23 is a cross-sectional view of the hair plucking assembly of the present invention, incorporating pinch ⁇ plates, featuring a number of disc assemblies, showing radially extending arms that are offset to the left of the centerplane Z of the disc assemblies.
  • Fig. 24 is a cross-sectional view of the hair plucking assembly of the
  • Each disc assembly is able to form traps by utilizing its own flattened peripheral portion 40a components. Trap closing activation force is transmitted between adjacent discs by axial protrusions 48a.
  • Fig. 25 schematically illustrates the staggered layout of the hair-traps, without pinch plates, located on the circumference of the hair plucking assembly of the present invention.
  • the entrance width between the opposing edges 40a of the trap is given as 1.0 mm. It may be clearly seen that the zones of depilating coverage of all the traps touch each other, not leaving any gaps of untreated slcin, resulting in a plurality of contiguous depilating coverage zones, enabling the user to achieve maximum depilating coverage in a single pass of the device over a given skin area. In this embodiment, full depilating coverage is achieved by using nine disc assemblies (see area "D").
  • Fig. 26 schematically illustrates the staggered layout of the hair-traps, featuring pinch plates, located on the circumference of the hair plucking assembly of the present invention.
  • the entrance width between the opposing edges 40a of the trap, in this figure, is now given as 1.4 mm., indicating that the thickness of the pinch plate is 0.4 mm.
  • the zones of depilating coverage of all the traps touch each other, not leaving any gaps of untreated slcin, resulting in a plurality of contiguous depilating coverage zones, enabling the user to achieve maximum depilating coverage in a single pass of the device over a given skin area.
  • Adding pinch plates doubles the number of hair-traps closed simultaneously and thereby, greatly increases depilating efficiency.
  • full depilating coverage is achieved by only using six disc assemblies (see area "F"), as opposed to the nine disc assemblies required in the present invention embodiment that does not utilize pinch plates, as shown in Fig.

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  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Food Science & Technology (AREA)
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  • Cleaning And Drying Hair (AREA)
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Abstract

A hand-held, motorized depilating device, introducing a novel mechanical design to provide improved depilating coverage and hair plucking efficiency, without requiring the user to pass the device over the same given skin area numerous times. The hair-plucking assembly is rotatable about a shaft and includes at least two disc assemblies, each comprising a pair of complementary discs, mounted on a hub, and having radially extending arms which terminate in a flattened peripheral portion, which when pressed against a corresponding portion forms a trap for the hair. At least one of the radially extending arms is bent, so that the associated hair trap lies in a different predetermined plane than the other hair-traps associated with that disc assembly. This staggered arrangement results in improved depilating coverage. In another embodiment, the hub's edge has formed thereon a pinch plate, disposed in between the complementary discs, thereby doubling the number of hair-traps, and greatly increasing depilating efficiency.

Description

HAIR DEPILATING DEVICE AND METHOD FOR IMPROVED DEPILATING COVERAGE
FIELD OF THE INVENTION
The present invention relates to depilating devices, and more particularly, to a hand held, motorized depilating device for removing unwanted skin hair, utilizing a novel mechanical design to provide improved depilating coverage, to achieve the desired depilating effect per given skin area without requiring the user to pass the device over it numerous times, thereby increasing the hair plucking efficiency.
BACKGROUND OF THE INVENTION A problem shared by many of the depilating devices currently on the market is that the user must pass .the device over the same given skin area numerous times in order to achieve the depilating effect desired, thus. providing limited depilating coverage. This is commonly the result of how the hair-traps are aligned one with respect to the other and to the given skin area being depilated. Without optimal alignment of hair-traps in relation to coverage of skin area, hair plucking efficiency is decreased.
One approach for increasing the area effectively treated per depilating pass has been disclosed in U.S.Pat.No. 6,287,190 to Inoue. The suggested approach is to mechanically force the hair-plucking assembly to traverse the given skin area from side to side, while simultaneously rotating about a shaft. Efoth types of motion are powered by means of the device's motor. This approach has two major drawbacks: 1. The necessity to add moving parts, which translates into increased production costs and energy consumption.
2. A substantial reduction in depilating efficiency as a result of diminishing the effective hair-trap opening exposed to the skin surface at any given time.
U.S.PatNo. 5,281,233 to Dolev discloses a novel hair removal device, which includes disc assemblies, which are designed to alternately close and open a large number of relatively large hair-traps.
The Dolev patent discloses a depilating device comprising a hair-plucking assembly being rotatable about a shaft and including one or more disc assemblies.
Each disc assembly comprises a pair of complementary discs, each of which has one or more radially extending arms, which terminate in a flattened peripheral portion. The disc assemblies also include a hub, which accommodates said pair of discs, one on each of its axial faces. The hub has shoulders for engaging the arms of each of the discs so as to impart rotational motion to the discs upon the rotation of the hub. The hub also has pairs of protrusions, which extend axially beyond the plane of arms of each disc. The hub further has an edge, which is perpendicular io its axis.
In one embodiment, each of the arms of the pair of discs is pivotable about the edge so as to alternately bring two flattened peripheral portions into contact thus closing a hair-trap and then opening the trap to release the depilated hairs. In an alternate embodiment, the edge of the hub includes a pinch plate, which projects radially outwardly from the edge. It is disposed in a plane opposite the plane of the flattened peripheral portion, so as to be flush with the flattened peripheral portion. Each arm of the pair of discs is pivotable about the edge so as to alternately bring two flattened peripheral portion and the pinch plate into contact thus closing two hair-traps simultaneously and then opening the traps to
release the depilated hairs.
In both embodiments, however, the hair-traps are lined up one after the other, i.e. in a tandem arrangement. In a single depilating pass over a given skin area, a narrow band of skin area is treated by this tandem arrangement of hair- traps. Strips of skin, between these bands, are not treated. As a result, the device's efficiency is reduced and consequently, the user must pass the device over the same given skin area several times in order to achieve the depilating effect desired.
Therefore, it would be desirable to provide a depilating device that enables improved depilating coverage, ensuring achieving the depilating effect desired per given skin area without requiring the user, to pass thet device over the same given skin area numerous times. In addition, it would be desirable to increase the hair plucking efficiency, without increasing the energy expenditure in using the device and without increasing the number of parts involved.
SUMMARY OF THE INVENTION
Accordingly, it is a principal object of the present invention to overcome the above-mentioned disadvantages and provide a hand-held, motorized depilating device for removing unwanted skin hair, introducing a novel' mechanical design to provide improved depilating coverage, ensuring achieving the depilating effect desired per given skin area without requiring the user to pass the device over the same given skin area numerous times, and thereby increasing the hair plucking efficiency. The present invention is based on U.S.Pat.No. 5,281,233 to Dolev and is essentially an improvement of the aforementioned patent. Instead of the hair-traps being lined up one after the other, i.e. in a tandem arrangement, the novel
mechanical design enables the hair-traps to be lined up in a staggered manner and
consequently cover the entire given skin area.
In accordance with a preferred embodiment of the present invention, there is provided a motor-powered depilating device comprising: a hair-plucking assembly, coupled to motor means, and being exposed through an opening in a manually-held housing, said hair-plucking assembly being rotatable about an axis of rotation and including a plurality of disc assemblies, each disc assembly comprising: a pair of complementary discs, each of said discs having at least two radial arms extending outwardly, each one of said complementary discs being mounted, respectively, on each of two. axial faces of a hub having a predetermined thiclcness, said hub haying at least two shoulders, each, shoulder engaging one of said radial arms so as to impart rotational motion to said pair of discs upon rotation of said hub about the axis of rotation, said hub further including engagement means, for engaging at least one adjoining hub such that rotational motion of one hub imparts rotational motion to said adjoining hub, each of said arms terminating in a flattened peripheral portion which, when pressed against a coπesponding portion of a complementary disc in a pivoting motion about an edge of said hub, forms a trap for the hair, each trap lying in a predetermined one of a plurality of virtual planes, said' virtual planes comprising three substantially parallel planes orthogonal to the axis of rotation, including: a centerplane bisecting said hub thickness, a first offset plane, spaced apart from said centerplane by a first offset dimension, and a second offset plane, spaced apart from said centerplane by a second
offset dimension, said three virtual planes defining a plurality of contiguous depilating coverage zones on the skin surface within said offset dimensions, said at least two shoulders of said hub each having a pair of protrusions which extend axially from each of said, shoulders towards adjoining disc assemblies, one on either side thereof, such that, at intervals, during the rotation of said plurality of said disc assemblies, said axial protrusions extend tlirough open spaces between adjacent radial arms of said discs to press a radial arm of an adjoining disc assembly, so as to alternately close and open said hair-traps in said plurality of disc assemblies, thereby plucking skin hair with improved coverage within said depilating coverage zones, and releasing it.
In the preferred embodiment,; the . hair-plucking assembly is rotatable about a shaft and includes at least two disc assemblies! Each disc assembly comprises a pair of complementary discs, each of which has two or more radially extending arms which terminate in a flattened peripheral portion, which when pressed against a corresponding portion forms a trap for the hair. Each trap lies in a predetermined plane, constituting one of a plurality of virtual planes.
At least one of the radially extending arms and its opposing complementary disc arm are bent, so that the hair trap formed lies in a different predetermined virtual plane offset from the other hair-traps associated with the disc assembly, thus forming a staggered arrangement of hair-traps.
The disc assemblies also include a hub, which accommodates a pair of
complementary discs, one on each of its axial faces. Each hub has a predetermined thickness, upon which is mounted one of the complementary discs, on each of the two axial faces of the hub. The hub has three shoulders for engaging the arms of each of the discs, so as to impart rotational motion to the discs upon the rotation of the hub. The hub has an edge, substantially perpendicular to the axis of rotation, about which each pair of arms of the pair of discs is pivotable, so as to alternately bring two flattened peripheral portions into contact, thus closing a hair-trap, lying in .one of the predetermined planes, and then opening the trap to release the depilated hairs.
The virtual planes are three substantially parallel planes orthogonal to the axis of rotation, a centerplane bisecting the hub thickness, a first offset plane, spaced apart from the centerplane by a first offset dimension, and a second offset plane, spaced apart from the centerplane by a second offset dimension. The virtual planes define depilating coverage zones within the offset dimensions.
At least one of the hair-traps, associated with each disc assembly, and formed by the flattened peripheral portion pressed against its corresponding portion, lies in a different predetermined plane than the other hair-traps associated with the disc assembly. This staggered arrangement results in improved depilating coverage within the depilating coverage zones defined by the offset dimensions.
Each shoulder of the hub has a pair of protrusions, each member of which extends axially from the shoulder towards an adjoining disc assembly. At intervals, during the rotation of the disc assemblies, the axial protrusions extend through the open spaces between adjacent radial arms of the discs to touch the nearer disc of an adjoining disc assembly, so as to alternately close and open the
hair-traps lying in each of the virtual planes, thereby plucking skin hair within the contiguous depilating coverage zones, and releasing it. h each of the disc assemblies, the hub has extending from one of its shoulders at least one pan of axial protrusions, extending axially in opposite directions, offset from the other pairs of axial protrusions of the hub. This enables closing and opening of the staggered arrangement of hair-traps and thereby improves the depilating coverage afforded by the plurality of disc assemblies.
The hub includes engagement means, for engaging at least one adjoining hub, such that rotational motion of one hub imparts rotational motion to at least one adjoining hub.
According to another, embodiment, the hub's edge has .formed thereon a pinch plate, which projects radially outwardly from the edge. The pinch plate is disposed in between and equidistant from the arms of complementary discs, so as to be substantially flush with the flattened peripheral portions of these arms.
Each pair of arms of the pair of discs is pivotable about the edge so as to alternately bring two flattened peripheral portion and the pinch plate into contact thus closing two hair-traps simultaneously and then opening the traps to release the depilated hairs. This doubles the number of hair-traps closed simultaneously and thereby, greatly increases depilating efficiency.
According to the, prefen-ed embodiment, in accordance with the principles of the present invention, the hubs are rotatably mounted on a fixed arcuate shaft and each hub includes engagement means for engaging at least one adjacent hub so that rotational motion of one hub imparts rotational motion to an adjacent hub. Trap opening and closing is accomplished by using a motion control means
employing inclined pressure bearings.
According to another embodiment, the hubs are rotatably mounted on a 5 straight shaft, and trap opening and closing is accomplished by using a motion control means employing cams or inclined thrust bearings.
Other features and advantages of the invention will become apparent from the drawings and the description contained herein below.
l o BRIEF DESCRIPTION OF DRAWINGS
For a better understanding of the invention, reference is made to the accompanying drawings, in which like .numbers designate porcesponding elements or sections throughout, and in which:
Fig. 1 is a cross-sectional view of a prior art depilating device as shown 15 and described in U.S. Pat. No. 5,281,233 to Dolev, featuring a number of disc assemblies;
Fig. 2 is a plan view of a disc assembly used in the device of Fig.1;
Fig. 3 is a perspective view of the disc assembly of Fig.2;
Fig. 4 shows another perspective view of the disc assembly of Fig. 2; 0 Fig. 5 displays a cross sectional view of the disc assembly of Fig 4;
Fig. 6 is a perspective view of the disc assembly of Fig. 4, featuring a pinch plate feature, which doubles the number of hair-traps;
Fig. 7 displays a cross sectional view of the disc assembly of Fig 6;
Fig. 8 schematically illustrates the layout of the hair-traps located on the 5 circumference of the hair plucking assembly of a prior art depilating device; Fig. 9 schematically illustrates the width of the depilating coverage zone of a standard hair-trap, transported by the hair plucking assembly in the direction of
arrow A;
Fig. 10 schematically illustrates the width of the depilating coverage zone of a hair-trap, being transported by the fiair plucking assembly from side to side, while the hair plucking device moves in the dirction of arrow A (as suggested by Inoue);
Fig. 11 is an isometric view of a disc assembly, constructed and operated, in accordance with the principles of the present invention, not incorporating, the pinch plate feature, showing two of the radially extending arms offset from the centerplane of the disc assembly, one to each side;
Fig. 12 is a cross sectioiαal view of the.disc. assembly.ofFig.i l, along the the radially extending, arm that is centered on- thp. centerplane of the .disc assembly;
Fig. 13 is a cross' sectional view ό.f.the disc, assembly of Fig.11, along the radially extending arm that is offset to the right of the centerplane of the disc assembly;
Fig. 14 is a cross sectional view of the disc assembly of Fig.11, along the radially extending arm that is offset to the left of the centerplane of the disc assembly;
Fig. 15 is an exploded .. isometric view : of the:- depilating device disc assembly of the present invention, sho-vra in. Fig, 11;,
Fig. 16 schematically illustrates the : layout . of the hair-traps of the disc assembly, as shown in Figures 11-15;
Fig. 17 is an isometric view of a disc assembly, constructed and operated, in accordance with the principles of the present invention, featuring a pinch plate, and showing two of the radially extending arms and their associated pinch plate offset from the centerplane of the disc assembly, one to each side;
Fig. 18 is a cross sectional view of the disc assembly of Fig.17, along the
radially extending arm that is centered on the centerplane of the disc assembly; Fig. 19 is a cross sectional view of the disc assembly of Fig.17, along the radially extending arm that is offset to the right of the centerplane of the disc assembly;
Fig. 20 is a cross sectional view of the disc assembly of Fig.17, along the radially extending arm that is offset to the left of the centeiplane of the disc assembly;
Fig. 21 is an exploded isometric view of the depilating device disc assembly of the present invention, highlighting the pinch plates, shown in Fig. 17;
Fig. 22 is a cross-sectional view . of, the hair. plucking assembly of the present invention, incorporating pinch plates, featuring a number of disc assemblies, showing radially extending arms that are offset to the right of the centerplane of the disc assemblies;
Fig. 23 is a cross-sectional view of the hair plucking assembly of the present invention, incorporating pinch plates, featuring a number of disc assemblies, showing radially extending arms that are offset to the left of the centerplane of the disc assemblies;
Fig. 24 is a cross-sectional view of the hair, plucking assembly of the present invention, incorporating pinch plates, featuring, a number of disc assemblies, showing radially extending arms that are centered on the centerplane of the disc assemblies; Fig. 25 schematically illustrates the staggered layout of the hair-traps, without pinch plates, located on the circumference of the hair plucking assembly of the present invention; and
Fig. 26 schematically illustrates the staggered layout of the hair-traps, featuring pinch plates, located on the circumference of the hair plucking assembly of the present invention.
DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT
Figures 1-3 are reproduced from U.S. Pat. No. 5,281,233 to Dolev,
inventor of the present invention. The figures are thoroughly described therein,
with regard to the reference numbers shown. Therefore, the following description relates only to the specific features of interest for which a description is required
in order to compare the previous and present inventions.
Fig. 1 is a cross-sectional view of a prior art. depilating device as shown
and described in U.S. Pat. No. 5,281,233 to Dolev, featuring a number of disc assemblies. The hair plucking assembly 12 is shown, comprising one or more disc assemblies 28. Each of disc assemblies 28 is rotatably mounted on an arcuate shaft
32. The curved portion of arcuate shaft 32 has a constant radius of curvature, such
that disc assemblies 28 are caused with the assistance of inclined thrust bearings 54 and 64 and push rods 56 and 66 to efficiently and smoothly close and open hair-traps.
Fig. 2 is a plan view of a disc assembly used in the device of Fig. 1. Disc
assembly 28 is comprised ,of three major -parts: a hμb 34, and, a pair of discs 3,6.
Fig. 3 is a perspective yie ;pf the disc. ssepιbJy,'.of Fig.2. Each of discs 36 has at least one radially extending arm 38, emanating from its center. Each arm 38
terminates in a flattened peripheral portion 40. When flattened peripheral portion
40 is pressed against the corresponding . flattened peripheral portion 40 of the complementary disc 36 a trap is formed. The central portion of each disc 36 has an opening, which is sized and shaped to fit over a projection of hub 34. Hub 34 has shoulders 46, one shoulder 46 per arm, .38 of disc 36. Shoulders 46 are sized and
shaped so that the trailing edge, of each arm 38 abuts against a, portion of one of
shoulders 46. A rotational motion of hub 34 transmits; the* same rotational motion to discs 36. Hub 34 includes a series of axial engagement protrusions 70 and recessions 72, for engaging coπesponding portions in the adjacent hub, to impart rotational motion between disc assemblies. Extending from shoulders 46 of hub
34 is a pair of axial protrusions 48, extending axially in opposite directions. When a particular set of axial protrusions 48 is located in the concave configuration produced by the curvature of arcuate shaft 32, axial protrusions 48 extend through the open spaces between adjacent arms 38 of discs 36 to touch the nearer disc 36 of an adjoining disc assembly 28, thereby causing the adjoining disc assembly 28 to form a trap. (See Fig.l). Hub 34 includes an edge 50, which lies between each pair of corresponding arms 38 of complementary discs 36.
Whenever axial protrusions 48 of adjoining disc assemblies 28 press discs 36 together, a pair of arms 38 of complementary discs 36 pivot slightly towards each other about the corresponding edge 50 of hub 34 located between the pair of arms 38. This pivoting brings the pair of flattened peripheral portions 40 at the end of the pair of arms 38 together in parallel fashion to form a trap.
Fig. 4 shows another perspective view of the disc assembly of Fig. 2. As shown by the directional arrows A in the diagram, the radially extending arms 38 pivot about an axis oriented parallel to the peripheral portions 40 of the hair-trap. Fig. 5 displays a cross sectional view of the disc assembly of Fig 4. Fig. 6 is a perspective view of a disc assembly, incorporating a pinch plate, as described in the above-referenced Dolev patent (U.S. Pat. No. 5,281,233), at col. 7, lines 27-42. The edge 50 of hub 34 includes a pinch plate 39, which projects radially outward from edge 50, and which doubles the number of hair- traps. Fig. 7 displays a sectional view of the apparatus of Fig 6. The pivoting of arms 38 of discs 36 towards each other effects the creation of two traps. One trap is formed between one face of the pinch plate 39 and one of flattened peripheral
portions 40 and the other trap is formed between the other face of the pinch plate 39 and the flattened peripheral portion 40 of the complementary disc 36.
Fig. 8 schematically illustrates the layout of the hair-traps located on the circumference of the hair plucking assembly 12 of a prior art depilating device. It can be clearly seen that the width of the depilating coverage zones of the traps is very narrow and strips of slcin, between these zones, are not treated. Since these zones are not contiguous, the device's efficiency is reduced and consequently, the user must pass the device over the same given skin area several times in order to achieve the depilating effect desired.
Fig. 9 schematically illustrates the width of the depilating coverage zone of a standard hair-trap, transported by the hair plucking .assembly in the direction of arrow A in the diagram. For illustrative purposes, the entrance width between the opposing edges 40b of the trap is given as 1.0 mm.
Fig. 10 schematically illustrates the width of the depilating coverage zone of a hair-trap, being transported by the hair plucking assembly from side to side, as shown by the directional arrows B in the diagram, while the hair plucking assembly simultaneously moves forward, as shown by the directional arrows A in the diagram (as suggested by Inoue). The resultant vector of these two motions is the actual displacement and its direction is diagonal, as shown by the directional arrows C in the diagram., This motion greatly reduces, as can clearly be seen, the effective width of the depilating coverage zone of the hair-trap. The effective entrance width between the opposing edges 40b of the trap is now only 0.5 mm. Fig. 11 is an isometric view of a disc assembly, constructed and operated, in accordance with the principles of the present invention, not incorporating the pinch plate feature, showing two sets of radially extending arms 38a offset from
the centeiplane of the disc assembly. Extending from shoulders 46a of hub 34a is a pair of axial protrusions 48a, extending axially in opposite directions. When a particular set of axial protrusions 48a is located in the concave configuration produced by the curvature of arcuate shaft 32, axial protrusions 48a extend tlirough the open spaces between adjacent arms 38a of discs 36a to touch the nearer disc 36a of an adjoining disc assembly 28a, thereby causing the adjoining disc assembly 28a to form a trap.
Fig. 12 is a cross sectional view of the disc assembly of Fig.11, along the radially extending arm that is centered on, the , centerplane of the disc assembly. Whenever axial protrusions 48a of adjoining disc assemblies 28a press discs 36a together, a pair of arms 38a of complementary discs 36a pivot slightly towards each other about the con-esponding edge 50a of hub 34a located between the pair of arms 38a. This pivoting brings the pair of flattened peripheral portions 40a at the end of the pair of arms 38a together in parallel fashion to form a trap.
Fig. 13 is a cross sectional view of the disc assembly of Fig.11, along the radially extending arm that is offset to the right of the centerplane of the disc assembly.
Fig. 14 is a cross sectional view of the disc assembly of Fig.11, along the radially extending arm that is offset to the left of the centerplane of the disc assembly.
Fig. 15 is an exploded isometric view of the depilating device disc assembly of the present invention, shown in Fig. 11. Each of discs 36a has at least two radially extending arms 38a, emanating from its center. Each arm 38a terminates in a flattened peripheral portion 40a. When flattened peripheral portion 40a is pressed against the corresponding flattened peripheral portion 40a of the complementary disc 36a a trap is formed. The central portion of each disc 36a has an opening 45, which is sized and shaped to fit over a projection of hub 34a. Hub
34a has shoulders 46a, one shoulder 46a per arm 38a of disc 36a. Shoulders 46a are sized and shaped so that the trailing edge of each arm 38a abuts against a portion of one of shoulders 46a. A rotational motion of hub 34a transmits the same rotational motion to discs 36a. Hub 34a includes a series of axial engagement protrusions 70a, for engaging depressions 72a in the adjacent hub, to impart rotational motion to adjacent disc assemblies. The offsets of the radial arms 38a, axial projections 48a and shoulders 46 extending right and left of the centerplane of the disc assembly can be clearly seen.
Fig. 16 schematically illustrates the layout of the hair-traps of one disc assembly, as shown in Figures 11-15. It is clear that the staggered layout of the hair-traps affords a much wider zone of depilating coverage than that afforded by the tandem layout shown in Fig.8.
Fig. 17 is an isometric view of a disc assembly, constructed and operated, in accordance with the principles of the present invention, featuring pinch plates, and showing two of the radially extending arms and their associated pinch plate offset from the centerplane of the disc assembly.
Fig. 18 is a cross sectional view of the disc assembly of Fig.17, along the radially extending arm that is centered on the centerplane of the disc assembly. ■ Fig. 19 is a cross sectional view of the disc assembly of Fig.17, along the radially extending arm that is offset to the right of the. centerplane of the disc
assembly.
Fig. 20 is a cross sectional view of the disc assembly of Fig.17, along the radially extending arm that is offset to the left of the centerplane of the disc assembly.
Fig. 21 is an exploded isometric view of the depilating device disc assembly of the present invention, shown in Fig. 17. The edge 50a of the hub 34a includes a pinch plate 41a, which projects radially outwardly from the edge 50a. The pinch plate 41a is disposed in between and equidistant from the arms 38a of complementary discs, so as to be substantially flush with the flattened peripheral portions 40a of these arms. In each of the disc-like assemblies, there are offset pinch plates 41a corresponding to offset flattened peripheral portions 40a. The offset mounting of the flattened peripheral portions is either on one side or the other of the centerplane of the disc assembly.
Fig. 22 is a cross-sectional view of the hair plucking assembly of the present invention, incorporating pinch plates, and featuring a number of disc assemblies, showing radially extending arms that are offset to the. right of the centerplane Z of the disc assemblies. Axial protrusions: 48a extend through the open spaces between adjacent arms 38a of discs 36a to touch the nearer disc 36a of an adjoining disc assembly 28a, thereby causing the adjoining disc assembly 28a to form a trap.
Fig. 23 is a cross-sectional view of the hair plucking assembly of the present invention, incorporating pinch plates, featuring a number of disc assemblies, showing radially extending arms that are offset to the left of the centerplane Z of the disc assemblies.
Fig. 24 is a cross-sectional view of the hair plucking assembly of the
present invention, incorporating pinch plates, featuring a number of disc
assemblies, showing radially extending arms that are centered on the centerplane
Z of the disc assemblies. Each disc assembly is able to form traps by utilizing its own flattened peripheral portion 40a components. Trap closing activation force is transmitted between adjacent discs by axial protrusions 48a.
Fig. 25 schematically illustrates the staggered layout of the hair-traps, without pinch plates, located on the circumference of the hair plucking assembly of the present invention. For illustrative purposes, the entrance width between the opposing edges 40a of the trap is given as 1.0 mm. It may be clearly seen that the zones of depilating coverage of all the traps touch each other, not leaving any gaps of untreated slcin, resulting in a plurality of contiguous depilating coverage zones, enabling the user to achieve maximum depilating coverage in a single pass of the device over a given skin area. In this embodiment, full depilating coverage is achieved by using nine disc assemblies (see area "D").
Fig. 26 schematically illustrates the staggered layout of the hair-traps, featuring pinch plates, located on the circumference of the hair plucking assembly of the present invention. The entrance width between the opposing edges 40a of the trap, in this figure, is now given as 1.4 mm., indicating that the thickness of the pinch plate is 0.4 mm. It may be clearly seen that the zones of depilating coverage of all the traps touch each other, not leaving any gaps of untreated slcin, resulting in a plurality of contiguous depilating coverage zones, enabling the user to achieve maximum depilating coverage in a single pass of the device over a given skin area. Adding pinch plates doubles the number of hair-traps closed simultaneously and thereby, greatly increases depilating efficiency. In addition, in this embodiment, full depilating coverage is achieved by only using six disc assemblies (see area "F"), as opposed to the nine disc assemblies required in the present invention embodiment that does not utilize pinch plates, as shown in Fig.
25., resulting in reductions in both material and complexity.
Having described the invention with regard to certain specific embodiments, it is to be understood that the description- is not meant as a limitation since further modifications may now suggest themselves to those skilled in the art, and it is intended to cover such modifications, as fall within the scope of the appended claims.

Claims

I claim:
1. A motor-powered depilating device comprising: a hair-plucking assembly, coupled to motor means, and being exposed through an opening in a manually-held housing, said hair-plucking assembly being rotatable about an axis of rotation and including a plurality of disc assemblies, each disc assembly comprising: a pair of complementary discs, each of said discs having at least two radial arms extending outwardly, each one of said complementary discs being mounted, respectively, on each of two axial faces of a hub having a predetermined
.thickness, said hub having at least two shoulders, each shoulder engaging one of said radial arms so as to impart rotational motion to said pair of discs upon rotation of said hub about the axis of rotation, said hub further including engagement means, for engaging at least one adjoining hub such that rotational motion of one hub imparts rotational motion to said adjoining hub, each of said radial arms terminating in a flattened peripheral portion which, when pressed against a corresponding portion of a complementary disc in a pivoting motion about an edge of said hub,. forms a trap for the hair, each trap lying in a predetermined one of a plurality of virtual planes, said virtual planes comprising three substantially parallel planes orthogonal to the axis of rotation, including: a centerplane bisecting said hub thiclcness, a first offset plane, offset from said centerplane by a first dimension, and a second offset plane, offset from said centerplane by a second dimension, said three virtual planes defining a plurality of contiguous depilating coverage
zones on the skin surface within said offset dimensions, said at least two shoulders of said hub each having a pair of protrusions which extend axially from each of said shoulders' towards adjoining disc assemblies, one on either side thereof, such that, at intervals, during the rotation of said plurality of said disc assemblies, said axial protrusions extend through open spaces between adjacent radial arms of said discs to press a radial arm of an adjoining disc assembly, so as to alternately close and open said hair-traps in said plurality of disc assemblies, wherein at least one of said, radially extending arms and its opposing complementary disc radial arm are bent, so that the hair-trap formed thereby lies in a different one of said predetermined virtual planes offset from another hair- trap associated with said disc assembly, thus forming a staggered arrangement of hair-traps,
said staggered arrangement of hair-traps thereby plucking skin hair with improved coverage within said depilating coverage zones, and releasing it said plucked slcin hair.
2. The device of claim 1, wherein said staggered arrangement of hair-traps is provided by three radial arms extending outwardly, forming three hair-traps per disc assembly, in which each hair-trap lies in a different predetermined virtual plane than each of the other two hair-traps.
3. The device of claim 1, wherein said staggered arrangement of hair-traps is provided by three radial arms extending outwardly, forming three traps per disc assembly, and wherein at least one of said hair-traps, associated with each disc assembly, lies in a different predetermined virtual plane than the other hair-traps associated with said disc assembly.
4. The device of claim 1, wherein at least one pair of said axial protrusions, associated with each disc assembly, is offset from the other pairs of said axial protrusions, thus enabling closing and opening of said staggered arrangement of hair-traps offset from one another on said adjoining disc assembly, and thereby improving the depilating coverage afforded by said plurality of disc assemblies.
5. The device of claim 1, wherein said hub further comprises pinch plates extending radially outwardly therefrom, at least one of said pinch plates being disposed in between and equidistant from said bent, arms- of said complementary discs, so as to be substantially flush with said flattened peripheral portions of said bent arms, thereby doubling the number of hair-traps, and greatly increasing depilating efficiency.
6. The device of claim 1, wherein said at least one hub is rotatably mounted on a fixed arcuate shaft, said arcuate shaft having a convex portion and a concave portion.
7. The device of claim 1, wherein said at least one hub is rotatably mounted on a
rotatable substantially straight shaft.
8. The device of claim 1, wherein full depilating coverage is achieved by utilizing nine disc assemblies.
9. The device of claim 5, wherein, due to the addition of said pinch plates, depilating coverage is greatly improved, thus enabling full depilating coverage to be achieved by utilizing less than nine disc assemblies.
10. A method of hair depilation comprising: providing a hair depilating device, having a hair-plucking assembly, coupled to motor means, and being exposed through an opening in a manually-held housing, said hair-plucking assembly being rotatable about an axis of rotation and including a plurality of disc assemblies, each disc assembly comprising: a pair of complementary discs, each of said discs having at least two radial arms extending outwardly, each one of said- complementary discs being mounted, respectively, on each of two axial faces of a hub having a predetermined thickness, said hub having at least two shoulders, each shoulder engaging one of said radial arms so as to impart rotational motion to said pair of discs upon rotation of said hub about the axis of rotation, said hub further including engagement means, for engaging at least one adjoining hub such that rotational motion of one hub imparts rotational motion to said adjoining hub, each of said radial arms terminating in a flattened peripheral portion which, when pressed against a corresponding portion of a complementary disc in a pivoting motion about an edge of said hub, forms a trap for the hair, each trap lying in a predetermined one of a plurality of virtual planes, said virtual planes comprising three substantially parallel planes orthogonal to the axis of
rotation, including: a centerplane bisecting said hub thiclcness, a first offset plane, offset from said centerplane by a first offset dimension, and a second offset plane, offset from said centerplane by a second offset
dimension, said three virtual planes defining a plurality of contiguous depilating coverage zones on the skin surface within said offset dimensions, said at least two shoulders of said hub each having a pair of protrusions which extend axially from, each of said shoulders towards adjoining disc assemblies, one on either side thereof, and rotating said plurality of disc assemblies such that, at intervals, during said rotation, said axial protrusions extend through open spaces between adjacent radial arms of said discs to press a radial arm of an adjoining disc assembly, so as to alternately close and open said hair-traps in said plurality of disc assemblies, ■ ' \ , wherein at least one of said radially extending arms and its opposing complementary disc radial arm are bent,. so that. the. hair-trap formed thereby lies in a different one of said predetermined virtual planes offset from another hair- trap associated with said disc assembly, thus forming a staggered an-angement of
hair-traps, said staggered arrangement of hair-traps thereby plucking skin hair with
improved coverage within said depilating coverage zones, and releasing it said
plucked skin hair.
11. The method of claim 10 wherein during said rotation, said hair depilating device is passed over the skin from which hair is to depilated, with improved depilating coverage, without requiring said device to pass over the same skin area numerous times .
12. The method of claim 10 wherein said staggered arrangement of hair-traps greatly increases the depilating coverage.
13. The method of claim 10 wherein during said rotation, said hair depilating device is passed over the skin from which hair is to depilated, with maximum depilating coverage in a single pass of the device.
14. The method of claim 10 wherein said depilation is performed in a plurality of contiguous depilating coverage zones.
15. The method of claim 10, wherein said hub further comprises pinch plates extending radially outwardly therefrom, at least one of said pinch plates being disposed in between and equidistant from said bent arms of said complementary discs, so as to be substantially flush with said flattened peripheral portions of said bent arms, thereby doubling the number of hair-traps, and greatly increasing depilating efficiency when said device is passed over the s in surface.
16. The method of claim 10 wherein hair depilation is performed by nine disc assemblies.
17. The method of claim 15 wherein hair depilation is performed by less than nine disc assemblies.
PCT/IL2004/000422 2003-05-19 2004-05-18 Hair depilating device and method for improved depilating coverage Ceased WO2004100700A2 (en)

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CA002525063A CA2525063A1 (en) 2003-05-19 2004-05-18 Hair depilating device and method for improved depilating coverage
JP2006530999A JP2006528900A (en) 2003-05-19 2004-05-18 Hair removal apparatus and method for improved hair removal range
EA200501832A EA008216B1 (en) 2003-05-19 2004-05-18 Hair depilating device and method for improved depilating coverage
BRPI0410438-2A BRPI0410438A (en) 2003-05-19 2004-05-18 hair removal device and process for hair removal
AU2004238103A AU2004238103A1 (en) 2003-05-19 2004-05-18 Hair depilating device and method for improved depilating coverage
EP04733620A EP1633196A2 (en) 2003-05-19 2004-05-18 Hair depilating device and method for improved depilating coverage
EGNA2005000737 EG23740A (en) 2003-05-19 2005-11-16 Hair depilating device and method for improved depilating coverage

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US10/440,105 US6824461B1 (en) 2003-05-19 2003-05-19 Hair depilating device and method for improved depilating coverage

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CA2525063A1 (en) 2004-11-25
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EA200501832A1 (en) 2006-06-30
US6824461B1 (en) 2004-11-30

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