An integral one-piece plastic hair clip having a finger-grip construction at one end thereof and having an opposite free end portion comprising a pair of elongated fingers adapted to grip the hair on the outside of the roller and a single interconnected resilient finger intermediate the first two fingers for insertion in the hair roller, all of said fingers being interconnected by a resilient portion which allows the finger-grip area to separate the pair of fingers from the single finger for applying to hair wound on a roller.
A roller clip having three prongs is disclosed. It comprises a u-shaped member as a first leg terminating in a first longitudinal member and a second leg terminating in a second longitudinal member. The first and second longitudinal members are parallel and the first and second legs are interconnected by an interconnecting portion. A third longitudinal member projects from the interconnecting portion and is substantially parallel to the first and second longitudinal members. The third longitudinal member terminates in an upturned end. A handle also projects from the interconnecting portion and is generally located in the plane of the u-shaped member. Preferably, the handle and the third longitudinal member are integral and form an obtuse angle therebetween. The first and second longitudinal members may be flat and a notch for latching is provided between the first leg and the first longitudinal member and between the second leg and the second longitudinal member.
The present invention is directed to a hair clip for hairdressing. The hair clip comprises at least three prongs each formed by a squeezing part or blade, and an end part, which acts as a lever mechanism for spacing the corresponding blades in pairs.
A toothed hair fastener having leaf-spring elements situated between one or more of the teeth of the fastener, and suitable for both thick and thin hair. Preferably, the leaf-springs are integrally formed as part of the toothed hair fastener.
A hair roller is provided that comprises a tubular body defining an outer surface for receiving hair to be wound thereon. The outer surface is free of projections or depressions exceeding 0.010 inches in height or depth. The outer surface of the tubular body is formed of a resilient, elastomeric, compressible, and non-porous material having a Shore durometer A hardness of between about 20 and about 65. The outer surface also has a static coefficient of friction greater than about 50, measured at ambient temperature against dry hardwood on the James machine in accordance with ANSI/ASTM F 489-77, whereby hair will readily grip the outer surface to facilitate winding hair about the hair roller.
