Login| Sign Up| Help| Contact|

Patent Searching and Data


Title:
MECHANIZED HAIR BRAIDING APPARATUS
Document Type and Number:
WIPO Patent Application WO/2001/022845
Kind Code:
A1
Abstract:
A hair braiding apparatus (10) is disclosed comprising a two arms (20) and (25) for receiving hooks (80) and (85). The hooks (80) and (85) hold a first and second strand of hair (45) and (55), respectively, in slideable engagement and can be retracted and extended by the operator. A third strand of hair (50) is braided with the first and second strands as the arms (20) and (25) and hooks (80) and (85) are caused to automatically rotate cyclically and reverse their previous positions. The cyclic rotation carries the first (45) and second (55) strands with it and produces a braid as the operator moves the third strand upward and downward through the opening defined by the arms (20) and (25) and the first (45) and second (55) strands. The apparatus (10) may be powered by a DC motor (110).

Inventors:
OGUNRO E OLAYINKA (US)
WAN ALBERT
Application Number:
PCT/US2000/024750
Publication Date:
April 05, 2001
Filing Date:
September 11, 2000
Export Citation:
Click for automatic bibliography generation   Help
Assignee:
OGUNRO E OLAYINKA (US)
International Classes:
A45D2/00; D04C7/00; (IPC1-7): A45D7/00; A45D7/04; A45D8/04
Foreign References:
US4580585A1986-04-08
US4307737A1981-12-29
US5758670A1998-06-02
US4038996A1977-08-02
US4583561A1986-04-22
Attorney, Agent or Firm:
Thomas, John A. (Phillips & Murray 2200 One Galleria Tower 13355 Noel Road LB 48 Dallas, TX, US)
Download PDF:
Claims:
CLAIMS
1. An apparatus for braiding hair comprising: a. a left arm; the left arm having a left hook for grasping a first strand of hair; b. a right arm; the right arm having a right hook for grasping a second strand of hair; c. a slidably operated means for retracting and extending the left and right hooks with respect to the left and right arms, so that the left and right hooks hold d the first and second strands of hair respectively, in slideable engagement; and, d. a means for automatically cyclically reversing the positions of the left and right arms, so that the first strand, the second strand, and a third strand of hair may be braided together by alternate reversal of the positions of the left and right arms while the third strand is alternately pulled upward and downward by the operator.
2. The apparatus of claim 1 above further comprising a slidably operated means attached to the proximal end of each hook for retracting and extending the left and right hooks.
3. The apparatus of claim 2 above further comprising springs engaging the proximal end of each hook and urging the hooks to extend from the arms.
4. The apparatus of claim 1 where the means for retracting and extending the left and right hooks comprises: a. the left and right hooks each having a detent in its proximal end ; b. an adjustable carriage; the carriage further comprising a latch; b. the latch selectively engaging the detent, thereby locking the hooks in a selected retracted position; and, c. a spring engaging the proximal end of each hook and urging the hooks to extend from the arms.
5. The apparatus of claim 4 further comprising a means for releasing the hooks from a retracted position.
6. The apparatus of claim 5 where the means for releasing the hooks from a retracted position comprises a button contacting the latch, so as to selectively disengage the latches when the button is pressed.
7. The apparatus of claim 4 further comprising a screw passing through and threadably engaging the carriage, whereby the position of the carriage may be adjusted by turning the screw.
8. The apparatus of claim 1 where the means for retracting and extending the left and right hooks comprises : a. the left and right hooks each having a detent in its proximal end; b. an adjustable carriage; the carriage further comprising two latches; c. each of the latches selectively engaging a corresponding detent, thereby selectively locking either or both of the hooks in a selected retracted position; and, d. a spring engaging the proximal end of each hook and urging the hooks to extend from the arms.
9. The apparatus of claim 8 further comprising a means for releasing the hooks from a retracted position.
10. The apparatus of claim 9 where the means for releasing the hooks from a retracted position comprises a button contacting the latches, so as to selectively disengage one or both of the latches when the button is pressed.
11. The apparatus of claim 8 further comprising a screw passing through and threadably engaging the carriage, whereby the position of the carriage may be adjusted by turning the screw.
12. The apparatus of claim 1 where the means for automatically cyclically reversing the position of the left and right arms comprises a means for converting continuous rotary motion to cyclic rotary motion.
13. The apparatus of claim 12 where the means for automatically cyclically reversing the position of the left and right arms further comprises a motor.
14. The apparatus of claim 12 where the means for automatically cyclically reversing the position of the left and right arms further comprises a speedreducing transmission connected to the motor.
15. The apparatus of claim 13 where the motor is a batterypowered DC motor.
16. The apparatus of claim 12 where the means for converting continuous rotary motion to cyclic rotary motion. further comprises : a. an eccentrically rotating first pin; b. a link having a first end and a second end; the link fixed moveably at its first end by a pivot; c. a rack connected to the second end of the link; the rack engaging a pinion; d. the pinion connected to the left and right arms, so that the left and right arms cyclically rotate and alternately reverse their positions as the pinion is turned by the rack.
17. The apparatus of claim 1 where the left and right arms each have a hair guide.
18. An apparatus for braiding hair comprising: a. a left arm; the left arm having a left hook for grasping a first strand of hair; the left hook having a detent in its proximal end; b. a right arm; the right arm having a right hook for grasping a second strand of hair; the right hook having a detent in its proximal end; c. the left and right arms each having a hair guide; d a means for retracting and extending the left and right hooks with respect to the left and right arms, so that the left and right hooks hold the first and second strands of hair respectively, in slideable engagement, comprising : i. a slidably operated means attached to the proximal end of each hook; ii. a spring engaging the proximal end of each hook and urging the hooks to extend from the arms; iii. an adjustable carriage, the carriage further comprising two latches; each latch selectively engaging a corresponding detent, thereby selectively locking either or both of the hooks in a selected retracted position ; iv. a screw passing through and threadably engaging the carriage, whereby the position of the carriage may be adjusted by turning the screw; v. a means for releasing the hooks from a retracted position comprising a button contacting each latch, so as to selectively disengage one or both latches when the button is pressed ; e. means for automatically cyclically reversing the positions of the left and right arms, so that the first strand, the second strand, and a third strand of hair may be braided together by alternate reversal of the positions of the left and right arms while the third strand is alternately pulled upward and downward by the operator, comprising: i. a batterypowered DC motor connected to a speedreducing transmission; ii. the speedreducing transmission connected to a means for converting continuous rotary motion from the motor to cyclic rotary motion, comprising: (1) an eccentrically rotating first pin ; (2) a link having a first end and a second end; the link fixed moveably at its first end by a pivot; (3) a rack connected to the second end of the link; the rack engaging a pinion; (4) the pinion connected to the left and right arms, so that the left and right arms rotate and cyclically reverse their positions as the pinion is turned by the rack.
19. An apparatus for braiding hair comprising : a. a left arm; b. a right arm; c. left and right reels holding a single strand of hair, the strand of hair passing out of the left and right arms respectively for braiding into a second strand of hair; d. a means for automatically cyclically reversing the positions of the left and right arms, so that the single strand, and the second strand, may be braided together by alternate reversal of the positions of the left and right arms while the second strand is alternately pulled upward and downward by the operator.
Description:
MECHANIZED HAIR BRAIDING APPARATUS CLAIM FOR PRIORITY This application claims the benefit of the filing date of that certain United States patent application disclosing the same invention, titled"Mechanized Hair Braiding Apparatus"and filed September 29, 1999 under application number 09/408, 421.

TECHNICAL FIELD AND BACKGROUND This invention relates to hair braiding apparatus, and more particularly to mechanized hair braiding apparatus which braids natural hair and weaves artificial hair into braids of natural hair.

Hair braiding is an ancient art. Even today it is usually practiced by hand. Some modem hair styles rely on weaving small braids over the entire scalp and thus require considerable time and labor. The prior art discloses many inventions directed to mechanizing the task of braiding hair. Generally these are complex machines intended to completely mechanize the task of braiding. Such machines will be complicated to manufacture, and thus relatively expensive in the retail hair-care market. The present invention is intended to solve this problem by partially mechanizing the task of braiding hair. The present invention allows the human braider to work faster and more accurately than by hand, yet it is simple to manufacture and operate. It may be used to weave strands of artificial hair into natural hair. Further, the apparatus may be safely used by young children to braid hair, including doll hair. The present invention is an

improvement over the invention of applicant E. Olayinka Ogunro described in United States Patent No. 5, 758, 670,"Hair Braiding Apparatus and Method." DISCLOSURE OF THE INVENTION We disclose an apparatus for braiding hair which, its preferred embodiment comprises a left arm; the left arm receiving a left hook for grasping a first strand of hair; the left hook having a detent in its proximal end; and, a right arm; the right arm receiving a right hook for grasping a second strand of hair; the right hook having a detent in its proximal end. The left and right arms each have a hair guide.

A means for retracting and extending the left and right hooks with respect to the left and right arms is provided, so that the left and right hooks hold the first and second strands of hair respectively, in slideable engagement. This means comprises a slideably operated means attached to the proximal end of each hook; a spring engaging the proximal end of each hook and urging the hooks to extend from the arms; an adjustable carriage, the carriage further comprising two latches; each latch selectively engaging a corresponding detent, thereby selectively locking either or both of the hooks in a selected retracted position. A screw passes through and threadably engages the carriage, whereby the position of the carriage may be adjusted by turning the screw.

The preferred embodiment has a means for releasing the hooks from a retracted position comprising a button contacting each latch, so as to selectively disengage one or both latches when the button is pressed; and, a means for automatically cyclically reversing the positions of the left and right arms, so that the first strand, the second strand, and a third strand of hair may be braided together by alternate reversal of the positions of the left and right arms while the third strand is alternately pulled upward and downward by the operator. This means comprises a battery-powered DC motor connected to a speed-reducing transmission; and, the speed-reducing transmission connected to a means for converting continuous rotary motion from the motor to cyclic rotary motion. The means for converting continuous rotary motion from the motor to cyclic rotary motion comprises an eccentrically rotating first pin; a link having a first end and a second end; the link fixed moveably at its first end by a pivot; a rack connected to the second end of the link; the rack engaging a pinion; the pinion connected to the left and right arms, so that the left and right arms rotate and cyclically reverse their positions as the pinion is turned by the rack.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 shows the preferred embodiment in perspective view, positioned to begin a braid.

Figure 2 shows the preferred embodiment in perspective, positioned in the second stage of a braiding cycle.

Figure 3 shows the preferred embodiment in perspective, positioned in the third stage of a braiding cycle.

Figure 4 is a cut-away perspective view of the handle of the preferred embodiment, showing the means for cyclically reversing the arms of the apparatus.

Figure 5 is a perspective view of the arms of the preferred embodiment, showing the arms of the apparatus with the hooks extended.

Figure 6 is a perspective view of the arms of the preferred embodiment, showing the arms of the apparatus with the one hook extended to grasp a strand of hair.

Figure 7 a perspective view of the arms of the preferred embodiment, showing the one hook retracting and grasping a strand of hair.

Figures 8 is a cross-sectional views of the arms of the preferred embodiment showing the means for retracting and extending the hooks into the arms.

Figure 9 is a perspective view of the carriage and means for locking and releasing the hooks.

Figures 10 and 11 show another embodiment of the invention.

BEST MODE FOR CARRYING OUT THE INVENTION Figures 1 through 3 show the preferred embodiment of the invention in a braiding cycle. The braiding process will be described first, and then the mechanical structure which facilitates the braiding.

First, the hair to be braided is separated into three strands, (45), (50), and (55).

Strand (45) is to the left of the person braiding, strand (55) is to the right of the person braiding, and middle strand (50) is disposed between strands (45) and (55). Strand (45) is threaded through the left hook (85) in the left arm (20) of the braiding apparatus, and strand (55) is threaded through the right hook (80) in the right arm (25) of the braiding apparatus (10). The hooks (80) and (85), shown in Fig. 4, are retracted into the arms (20) and (25) thereby holding the strands (45) and (55) in slideable engagement with respect to the arms (20) and (25).

The strands (45) and (55) are pulled through the left and right arms (20) and (25) until about 2. 5 cm (1 inch) of hair is available between the arms (20) and (25) and the head of the person whose hair is to be braided. A means is provided to automatically cyclically reverse the position of the arms (20) and (25), which means is described in more detail below. When the operator turns the switch (90) to its on position and energizes the mechanism, the arms (20) and (25) are caused to cyclically rotate (180) degrees as shown in Figure 2, so that the arms (20) and (25) exchange positions relative to the operator, carrying and crossing the strands (45) and (55) with them, as shown in Figure 2. The middle strand (50) is then grasped by the operator and pulled upward through the opening defined by the arms (20) and (25) and strands (45) and (50), to cross strand (55), as shown in Figure 2.

The middle strand (50) is next held downward by the operator across strand (55), as the arms (20) and (25) automatically rotate in the opposite sense to the rotation just described, as shown in Figure 3. This forms the first crossing of the braid.

The braiding apparatus (10) and the strands (45), (50) and (55) are now in the same relative positions as at the beginning of this detailed description, ready for another cycle of braiding, which begins automatically. As braid advances, the operator allows the strands (45) and (55) to slide through the hooks (80) and (85), while keeping tension on the advancing braid.

The tightness of the braid is increased by holding the middle strand (50) firmly and increasing the tension of the left and right strands (45) and (55). The braid is made looser by holding the middle strand (50) loosely and decreasing the tension of the left and right strands (45) and (55). The tension may be modulated by the operator by pulling the braiding apparatus (10) more or less firmly away from the subject's head, or by causing the hooks (80) and (85) to slightly retract and extend, as explained later.

In the preferred embodiment, hair guides (70) and (75) are attached to the arms (20) and (25), respectively. The hair guides (70) and (75) are not necessaly to the functioning of the preferred embodiment, but they aid in controlling the braiding process, when the hair strands (45) and (55) are passed through them. The hair guides (70) and (75) are preferably made of a resilient material, such as rubber or soft plastic, so that the hair strand may be pushed into them through a slit (72) in each hair guide (70) and (75), and held in the guide as the slit (72) resiliently closes.

Figure 4 shows the internal mechanism of the braiding apparatus (10) in the preferred embodiment, and illustrates the means employed in that embodiment for automatically cyclically reversing the position of the left and right arms (80) and (85). A motor (110) and a speed reducing transmission (120) are enclosed within a handle (65), suitable for grasping by the hand of a human operator. The speed reducing transmission shown in Figure 4 is illustrative only, and other such transmissions having different gearing systems known in the art could be used to reduce the speed of the motor output.

The motor (110) may be a battery-powered DC motor, for example, and the batteries may be of the rechargeable type. Another embodiment could use an AC powered motor.

A conventional motor speed control could be used to allow the user to adjust the speed of the alternate reversals of the arms (20) and (25). Cyclic rotary motion of the arms (20) and (25) is achieved in the preferred embodiment by a means for converting continuous rotary motion from the motor to cyclic rotary motion. In the preferred embodiment, this means functions as follows: The output of the speed reducing transmission (120) has an eccentrically rotating first pin (150) which engages a link (130), which link (130) is moveably fixed at its first end by a pivot (140). The link (130) is thus caused to oscillate back and forth when the motor (110) is energized. The link (130) supports a rack (160) at its second end, which rack (160) engages a pinion (170).

The pinion (170) is connected to the left arm (20) and right arm (25); for example, by a shaft (180) which is engaged by a socket (260) in the case (100) defining the arms (20) and (25). Alternately, the pinion may be connected to a socket and a shaft connected to the case (100). Such shafts and sockets may be friction fit, keyed, or held by spring actuated ball and detent mechanisms, or in other conventional ways. The oscillatory motion of the rack (160) rotates the pinion (170) alternately in one direction, and then the other, thus causing the arms (20) and (25), to reverse positions cyclically. In the preferred embodiment the arms (20) and (25) rotate approximately (180) degrees before reversing their rotation. Other embodiments could use different mechanical means to create cyclic rotary motion, such as cranks and cams.

As further shown in Figures 5 through 8, the arms (20) and (25) receive left and right hooks (80) and (85), respectively. These hooks (80) and (85) engage the left and right strands of hair (45) and (55), as described above, when the hooks (80) and (85) are

retracted into the arms (20) and (25) and hold the strands (45) and (55) in slideable engagement.

As shown in Figures 5, 6, and 7, the preferred embodiment has slideably operated means (30) and (35) for retracting the hooks (80) and (85). Figures 8 and 9 show the internal means by which the slideably operated means (30) and (35) act to retract or extend each hook. Figure 8 is a cross-sectional view of the arms (20) and (25) of the preferred embodiment, showing the internal means by which the hooks (80) and (85) are extended, retracted, Iocked in place, and released.

Figure 8 shows for each hook (80) and (85), a spring (210) associated with the hook (80) and (85). These springs (210) rest against the case (100) forming the arms (20) and (25) and press against the hooks (80) and (85), urging them outward from the arms (20) and (25). Each hook (80) and (85) has at its proximal end, a detent (220).

This detent (220) engages a latch (230), which is mounted in an adjustable carriage (250). Each latch (230) is urged against the detent (220) by a latch spring (240), on either side of the carriage (250). The carriage (250) and its associated parts are shown in more detail in Figure 9. A screw (200) passes through the carriage (250), and engages threads on the carriage (250). The position of the carriage (250) relative to the hook detents (220) may thus be adjusted by means of the thumb wheel (40) moved by the operator. The hooks (80) and (85) are extended and retracted by a slideably operated means (30) and (35), attached to the proximal end of each hook. In the preferred embodiment, the slideably operated means (30) and (35) are sliding buttons engaging the proximal end of the hooks inside the case (100). This mechanism allows the tension on the hair strands to be set differently, since the detents (220) and the latches (230) in the preferred embodiment operate independently of one another. By rotating the thumb wheel (40), the operator may finely adjust the position of the hooks when the detents (220) are engaged by the latches (230) in the carriage (250), thus allowing greater or lesser tension to be applied to the hair strands being braided.

The preferred embodiment further has a hook-release means (60), which in the preferred embodiment is a button contacting the latches (230). When the operator presses downward on the hook-release means, the hooks (80) and (85) are released as the latches (230) disengage from the detents (220) and are urged to extend from the arms by the springs (210). Any hair strands then grasped are released. Since the each

latch (230) and its corresponding latch spring (240) in the preferred embodiment may move independently of one another, either of the hooks (80) and (85) may be released independently of the other, or both may be released together. In an alternate embodiment of the invention, both hooks (80) and (85) may be held retracted by one latch (230) contacting both detents (220). The hook-release means (60) then causes both latches (230) to disengage from both detents (220), when the hook-release means (60) is actuated by the operator.

The reader will see that the operator may rapidly engage typical hair strands (45), (50) and (55), braid them as the arms (20) and (25) of the braider (10) rotate cyclically, and release them easily when a braid is complete. Since all controls for the braiding process are on the braider (10) itself, the operator's other hand is left free to manipulate the hair strands (45), (50), and (55), as described above.

Figures 10 and 11 show another embodiment of the invention. In this embodiment, only one strand of hair (336) from the subject is braided into a single strand (335) which extends from left and right reels (360) and (365). The reels are mounted in a case (450) defining left and right arms (320) and (325). The single strand (335) plays out from the reels (360) and (365) through the arms (320) and (325), preferably across guide rollers (350) and (355) in the distal portion of the arms (320) and (325).

Figure 10 shows a cross-section detail of a typical reel (360) or (365). In the preferred version of this embodiment, the reels (360) and (365) are held in place by an axle (380) defined by depressions formed in the case (450). Corresponding depressions (410) are formed in the reels (360) and (365), which allow the reels (360) and (365) to turn. Alternate means for rotatably mounting the reels (360) and (365) could be used, such as pins passing through the center of the reels (360) and (365), or conventional forms of bearings. The tension of the single strand (335) may be varied in this embodiment by an adjustment screw (370), passing through the case (450). This screw (370) may be tightened or loosened by the operator to press the sides of the case (450), and thus the depressions in the case (410) are pressed into the axles (380) of the reels (360) and (365), frictionally restraining their movement.

Each reel (360) and (365) has a circumferential groove (420) for receiving a strand of natural or artificial hair (335). The single strand (335) plays out and is formed into a braid as the arms (320) and (325) alternately reverse position, essentially as

described above for the first embodiment of the invention. The means for automatically cyclically reversing the positions of the left and right arms (320) and (325) can be the same as that described for the first embodiment above.

The need for a mechanically simple yet mechanized hair braiding apparatus has been attained by the present invention, as described above. Since certain changes could be made in the embodiment of the invention described above without departing from the spirit and scope of the invention, we intend that all matter contained in the foregoing description and drawings shall be interpreted as illustrative and not in a limiting sense.

The reader should understand that the following claims are intended to cover all of the generic and specific features of the invention herein described and all statements of the scope of the invention which might be interpreted to fall between these features.