1. Field of the Invention
The invention to which this application relates is apparatus for the weaving or interweaving of elongate members and examples of the weaving types are plaiting, braiding or cornrowing. Reference herein to weaving should be interpreted as relating to these examples and other possible forms.
2. Description of the Related Art
The elongate members to which the invention relates is particularly, although not necessarily exclusively, to lengths of hair, whether the hair is real or false and provided in attachment to the persons head, provided as extensions or provided as hair for a toy character. However, reference hereonin to hair should not be interpreted as excluding any other form of elongate member with which the apparatus and method may be used, such as ribbons, strands or the like.
The provision of the weaving of hair is a well-known form of decoration and/or cultural effect which has been practiced for many years and indeed centuries.
The conventional approach has been for a person's hair to be woven manually and, due to the difficulties in the person whose hair is being woven physically achieving this themselves, the weaving is most typically performed by a second person due to the better access, and hence better quality, of the weaving effect which can be achieved. However, this process is time consuming which means that often the weaving of the hair is not done at all due to time constraints, or, if the weaving is to be done on a commercial basis by the second person, the time required to be taken makes the cost of performing the weaving to be prohibitive.
More recently, attempts have been made by third parties to provide apparatus which allows the automated weaving to be achieved, which therefore reduces the time required to achieve the weaving whilst attempting to maintain the quality of the weave. In certain instances, the apparatus is designed to allow a person to use the apparatus to weave their own hair.
However, in practice, it is found that the quality of the weave which is achieved is quite often of inferior quality to that which can be achieved manually. Also, with certain of the apparatus, the same is relatively large and appears to be complicated to use, which can dissuade persons from purchasing and using the apparatus. For example, the apparatus disclosed in U.S. Pat. No. 7,905,237 shows a weaving mechanism which receives lengths of hair which are stored in an overlapping manner in feed tubes which extend between the weaving mechanism and the persons head from which the hair extends. This means that the hair which is to be woven extends between the weaving mechanism and the head and the feed tubes in which the hair is located are driven along respective rotating paths to cause the weave to be formed. However, the provision of the feed tubes in this manner and the need for the same to be able to receive considerable lengths of hair makes the apparatus cumbersome to use and there is a risk of entanglement of the feed tubes and/or hair. It is also believed that the distance of the weaving mechanism from the head means that the weave which is created is relatively imprecise and therefore may not be acceptable to many potential users of the apparatus.
Other known forms of weaving apparatus include relatively complex multigear or multi motor apparatus and the synchronisation of the same is found to be problematic and/or expensive to achieve.
An aim of the present invention is to provide apparatus which allows the weaving of elongate members, such as hair, to be achieved in an efficient manner and with a quality which at least matches that which can be achieved manually. A further aim is to provide apparatus which minimises the possibility of the hair being entangled or damaged. A yet further aim is to provide the apparatus in a form which allows the same to be used to achieve the weaving effect by a person using the apparatus on their own hair.
In a first aspect of the invention the e is provided apparatus for the weaving together of a plurality of elongate members, said apparatus comprising a waving mechanism provided to move and weave respective elongate members together, guide tubes in which the respective elongate members are received and wherein the said guide tubes are located to a first side of the weaving mechanism and an item to which at least some of the elongate members are attached is located to the opposing side of the said weaving mechanism, passages are provided in the weaving mechanism to allow the elongate members to pass through the weaving mechanism and into the guide tubes and there is relative movement between the weaving mechanism and the elongate members as the weaving mechanism is operated to form the weave in the elongate members.
In one embodiment the relative movement is achieved by moving the weaving mechanism along the elongate members as the weaving mechanism is operated.
In one embodiment a start position for the weaving mechanism is closer to the said item than the finish position for the weaving mechanism.
In one embodiment at least the weaving mechanism is moved from a starting position adjacent to the item to a finished position further removed from the said item, while the mechanism is operated to create the weave.
In one embodiment the apparatus uses a single motor connected to a crank and connecting arm which, in turn, is located to drive a gearing mechanism to provide a sinusoidal motion. The sinusoidal motion which is achieved allows a relatively smooth operation of the weaving mechanism and, in turn, more accurate weaving effect to be achieved.
In one embodiment the gearing mechanism includes first and second mechanical clutches which are connected to the crank via the gearing mechanism assembly.
Typically, a cam mechanism is provided to stop and release first and second rotatable guides such that when the weaving mechanism is being operated one of the rotatable guides is held in a fixed location while the other of the rotatable guides is rotated and the sequence of rotation of the first and second guides is provided in an accurately repeatable sequence.
Typically, in addition to the cam mechanism, there is provided a secondary stop mechanism such as a cantilever or two, separate, one way stops. The secondary stop mechanism prevents the reverse movement of the rotatable guides against the direction of rotation in which the same are to be driven.
Typically, the guide tubes are moved with the weaving mechanism as the same is moved between the start and finish positions.
In one embodiment the elongate members which are to be woven are provided in groups, with a first group located along and through a first guide tube, a second group located along and through a second guide tube, and so on with as many elongate member groups as are to be woven.
Typically, each of the guide tubes is selectively attachable to a respective passage which is provided to pass through the weaving mechanism.
Typically, each passage extends from the side on which the guide tubes are located to the side closest to the item and the elongate members which extend from the item pass through respective passages and into the respective guide tubes.
In one embodiment the guide tubes are extendable in length an as to be adjustable with respect to the particular length of the elongate members which are to be accommodated therein.
In one embodiment means are provided to allow the elongate members to be pulled through and thereby lie along the interior of the guide tubes prior to operation of the weaving mechanism. In one embodiment the apparatus includes at least one hook portion which extends beyond the open end of a passage in the weaving mechanism and to the side of the weaving mechanism closest to the said item to engage with a group of elongate members and the hook portion is moved through the passage and the guide tube located therewith to draw the group of elongate members through the passage and guide tube, whereupon the hook portion is then removed and the operation of the weaving mechanism can commence once each of the groups of elongate members have been moved so as to be in the same position with respect to the said guide tubes.
In one embodiment additional elongate members which may be attached to the said item can be woven with one or more elongate members which are attached to the item.
Typically, the said item is the head of the person and the elongate members are, or include, hair which extends from the person's head.
In one embodiment each passage in the weaving mechanism is formed and located in a respective shuttle, each of said shuttles selectively driven by the rotatable guides to be moved in a predefined path such the combined movement of the shuttles in a predefined manner allows the weave of the elongate members to be created.
In one embodiment each of the shuttles is moved in a figure of eight path with the movement typically occurring in stages of movement interspersed with the shuttle being held stationery.
Typically, the shuttles are selectively moved via the rotatable guides which are, in turn, driven by a gearing mechanism powered by the motor.
Typically, the movement imparted to the shuttles via the rotatable guides is sinusoidal in form and the sinusoidal movement allows a change in the speed of movement during a sequence from an at rest position at the time of changeover between movement of a first of the rotatable guides and movement of the other of the rotatable guides, and then accelerated movement of one of the rotatable guides from the at rest position during the sequence. At the end of the sequence that rotatable guide is returned to an at rest position and the other of the rotatable guides is then moved in the same sequence, and so on with alternative rotatable guide movement.
Typically, the motor is connected to a power source which, in one embodiment, may be formed by one or more power cells provided as part of the apparatus or, alternatively, a mains power supply can be connected to the apparatus.
Alternatively, the gearing mechanism is driven by manual actuation means such as via a crank lever which is hand operated by a person.
In one embodiment the rotatable guides intersect and the shuttles are located in recesses in respective rotatable guides so as to be driven by the same and hence moved between said rotatable guides so as to achieve the figure of eight movement path. In one embodiment, the rotatable guides are driven to rotate about respective pivot axes. In one embodiment the rotatable guides are formed with a diameter across the non-recessed portions and the length of the diameter is greater than the distance between the said pivot axes.
Typically, the rotatable guides are located on their respective axes and each guide has a first and second recess extending inwardly from its periphery. Typically, the said first and second recess portions are offset by 180 degrees about the axis of the rotatable guide.
Typically, the recess portion in a first of the rotatable guides is shaped such that the peripheral path of the edge of the other of the rotatable guides lies substantially flush with the recess side wall. Typically the shuttle is shaped such that a first side face of the shuttle continues in line with the periphery of a first of the rotatable guides when located in a recess therein and therefore lies flush with the side wall of the recess in the second rotatable guide when located therein, and an opposing second side face of the shuttle continues in line with the periphery of the second of the rotatable guides when located in a recess therein and therefore lies flush with the side wall of the recess in the first rotatable guide when located therein.
Typically, the rotatable guides are driven to rotate between predefined stop points so as to achieve the required movement paths of the shuttles in a synchronised manner. The predefined stop points are defined by the use of the cam mechanism and are supported by the provision of the secondary stop mechanism.
In one embodiment the cam mechanism allows the selective movement of the first and second guides and assists in defining the stop points for the movement of the said guides.
In one embodiment gearing mechanism includes a torque limiter which operates to prevent excessive torque from being generated and hence prevents possible damage to the elongate members and/or the weaving mechanism.
In one embodiment the apparatus includes a device for separating the elongate members into groups of elongate members and thereby allows the groups of elongate members to be more easily fed into the respective guide means.
Typically, the device includes a neck portion into which the elongate members can be placed, with the device angularly offset to the longitudinal axes of the elongate members. Typically, the neck portion leads into a plurality of branch slots and the elongate members are respectively moved into the said branch slots to thereby separate the same into groups of elongate members with one group being formed in each of the respective branch slots.
In one embodiment a locking means is provided to “lock” the elongate members into the slots and against the body of the device so as to grip the elongate members to the body of the device and aid in the retention of the same in the separate groups.
In a further aspect of the invention there is provided a method of weaving together elongate members into a braid or plait, said method comprising the steps of providing a plurality of groups of the elongate members which are to be woven, a weaving mechanism to allow said groups of the elongate members to be woven thereby, feeding the said groups into and along respective guide tubes from which the elongate members are fed to the weaving mechanism and wherein the said groups of the elongate members are initially fed from a first side of the weaving mechanism through respective passages in the weaving mechanism and into the respective guide tubes mounted on an opposing side of the weaving mechanism and moving the weaving mechanism along the elongate members as the weaving mechanism is operated.
In one embodiment a start position for the weaving mechanism is closer to the said item than the finish position for the weaving mechanism
In one embodiment the length of the guide tubes are extendable in length so as to aid the housing of longer length elongate members.
In one embodiment the elongate members have a free end which is passed through the guide tubes and the opposing end is attached to an item which, when the elongate members are hair, is the head of a person.
In one embodiment the weaving mechanism is moved away from the item to which one end of the elongate members is attached as the plait or braid is formed and until the same has been formed to a desired length.
In one embodiment the apparatus includes at least one hook portion which extends beyond the open end of a passage in the weaving mechanism and to the side of the weaving mechanism closest to the said item to engage with a group of elongate embers and the hook portion is moved through the passage and the guide tube located therewith to draw the group of elongate members through the passage and guide tube, whereupon the hook portion is then removed and the operation of the weaving mechanism can commence once each of the groups of elongate members have been moved so as to be in the same position with respect to the said guide tubes.
In a further aspect of the invention there is provided a device for separating the elongate members into groups of elongate members wherein said device includes a neck portion into which the elongate members can be placed, said neck portion leading to a plurality of branch slots and the elongate members are selectively moved into the said branch slots to thereby separate the same into groups of elongate members with those elongate members in a particular branch slot forming a group of elongate members.
In one embodiment the elongate members are placed into the neck portion and branch slots at a position adjacent to an end of the elongate members and a locking member is placed across the body and hair.
The embodiments discussed herein are merely illustrative of specific manners in which to make and use the invention and are not to be interpreted as limiting the scope.
While the invention has been described with a certain degree of particularity, it is to be noted that many modifications may be made in the details of the invention's construction and the arrangement of its components without departing from the scope of this disclosure. It is understood that the invention is not limited to the embodiments set forth herein for purposes of exemplification.
Referring firstly to
The rotatable guides are provided to be rotatably moveable about respective axes 30, 32 and, as they do, they move the shuttles along with the same so as to move and change the relative positioning of the shuttles with respect to the recess portions and the rotatable guides and thereby create the weaving effect. The shuttles are confined to movement with the recesses 22, 24, 26, 28 by contact with the respective rotatable guides 12, 14 and the side walls 34 of the aperture 39 of the housing 2 and in which the rotatable guides and shuttles are mounted.
Each of the shuttles is provided with a passage 35, 36, 37 and, at one opening into each passage, as shown, a guide tube 38, 40, 42 is connected to each of the passages on the side 41 of the housing 2. The opposing openings into the passages 35, 36, 37 are provided at the opposing side 43 of the housing and sit will be appreciated that the passages 35, 36, 37 extend from side 43 to side 41 of the housing 2 and pass through the weaving mechanism.
The guide tubes also include, in this embodiment, extendable portions 44 which in this embodiment are provided to be telescopically extendable as indicated in
Turning now to
As shown in
With the groups of elongate members 54, 56, 58 in the required position and extending along the guide means 40, 38, 42 to the side 62 of the apparatus 46 and the persons head 50 at the opposing side 64 of the apparatus 46, so the weaving mechanism can then be operated to cause the movement of the shuttles 16, 18, 20 by the rotatable guides 12, 14, with the shuttles moving in a stop start staggered fashion and following a figure of eight pattern as illustrated in
As the weaving mechanism is operated, so the person holding the apparatus, which may be the same person whose hair is being braided or plaited, or may be a different person, moves the apparatus 46 progressively away from the head 50 in the direction of arrow 69 shown in
Turning now to
The guide tubes 38, 40, 42 are located to the respective passages and extend from the opposing side 41 of the housing. In this embodiment a hook and elongate member device 78 is provided for each tube and which can pass along the length of the tube. At one end there are provided gripping fins 80 which can be gripped by the user to move the device 78 with respect to the tube and passage in which the same is located. At the opposing end of the device 78 there is provided a hook portion 82 which, when the portion 78 is in the guide tube to load the guide tube, extends through the passage 35, 36, 37 and beyond the same to protrude at the side 43.
At the commencement of loading the apparatus, then a further device 84 is positioned near the ends of the elongate members close to the head 50. The device 84 separates the elongate members into groups, in this case up to three groups 54, 56, 58. The device includes a neck portion 90 connected to three branch slots 86, 87, 88 into which the respective separated groups of elongate members 54, 56, 58 are positioned. The device can also be provided with locking means 92 which when the elongate members are in position, is extended across the body 87 to locator 85 to thereby retain the elongate members to the body 87. With the groups 54, 56, 58 separated and held by the device, the apparatus can be moved into position with a hook portion protruding from the passage opening at side 43. Each group of elongate members is released from the device 84 and then passed around a respective hook portion 82 and when this has been done, each of the devices 78 is pulled in the direction 60 to move the h ok portions 82 through the respective passage and guide tube, and as it does so, it draws the attached group of elongate members through the passage and guide means so that the free ends 52 of the group of elongate members are brought to the position illustrated in
Turning now to
There is therefore provided a method and apparatus which allows the improved and automated formation of braids in elongate members such as hair or hair extensions.
Whereas, the invention has been described in relation to the drawings attached hereto, it should be understood that other and further modifications, apart from those shown or suggested herein, may be made within the scope of this invention.
Number | Date | Country | Kind |
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1517902.1 | Oct 2015 | GB | national |
Number | Name | Date | Kind |
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4369690 | Sapkus | Jan 1983 | A |
7905237 | Noh | Mar 2011 | B2 |
20020092540 | Lee | Jul 2002 | A1 |
20050039769 | Bousfield | Feb 2005 | A1 |
20160331098 | Chen | Nov 2016 | A1 |
Number | Date | Country | |
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20170099927 A1 | Apr 2017 | US |