BE1014969A4 - Hairdressing brush has plastic handle tube on which plastics plates of different shapes can be fitted for different brush configurations - Google Patents

Abstract

The hairdressing brush has plates of plastic of one millimetre thickness assembled to form a variety of different brush configurations. The brush can be cylindrical with the plates (2,3) formed into discs with central bores to fit onto a handle. The handle (1) can be formed from a plastic tube. The plates can rotate to prevent catching the hair.

Description

       

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 "trigonometric" combs-brushes the invention has its origins in a hair salon. born of disgust; noticing a blackish deposit in the hairbrushes of this salon. fat deposit; dandruff; dust, hair ... etc. questions arose:

   why are these brushes dirty and full of hair? are they so difficult to clean? do they not pull the hair without knowing it? ... currently, the hair brushes have fomes either flat; cylindrical; or semi-cylindrical almost ... but it does not exist yet until now , brushes in cubic, octagonal, triangular form;

  oval ... or misshapen! take for example, and especially for reference, about fifty flat plastic discs, more or less 4cm in diameter each, and about 1mm thick, each with a central hole of 1cm in diameter 2fig 1 plus as much of plastic washers, 1mm thick and 15mm in outside diameter, also with a central hole of 1cm. 3 fig 1. then, a plastic tube of 1cm outside diameter also, with solid walls, and 20 cm long about 1fig 1. introducing all these flat discs in this tube, separated from each other by the washers so as to obtain a "sorèe" of brush, whose handle will be 10cm long and the rest of the tube occupied by the assembly;

  formed the washers and the discs glued together fig 1. let's try to comb with this brush thus obtained: we notice an extreme softness, an impossibility of damaging or pulling out the hair ... but we cannot make a parting with, or comb your hair adequately ...

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 now studying fig 2.it is a flat disc 1mm thick, and 4cm in diameter. cut out like a gear wheel;

  ie in "12 parts or teeth". we note, as shown by the 7 numbered arrows in Figure 2, that this latter disc has 7 points of contact with the hair. if the arrow or det n 1 represents contact with the scalp, the arrow or tooth n 2 is located a few millimeters above the skull. the tooth or arrow n 3 is still a little higher than n 2 ... here tooth n 7 is the highest. this is crucial. because if we introduce about fifty flat discs in a plastic tube;

   each having 12 teeth, ie all the same as in fig 2, and since each disc has 7 contact points (fig 2), there are therefore 7 × 50 or 350 points of contact with the hair. it is clear that with such a comb-brush, we can therefore comb and untangle the hair at the same time; in addition makes it possible to roll them; inflate them, ... without any risk because even if we rotate several both this comb-brush on itself and on the spot;

  there is no risk of damaging or pulling out the hair, regardless of the type of hair (dry or wet). Same observation for certain animal hairs.

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 Satelite brush given its structure, the brush comb is obviously simple to clean. it is simply a matter of ridding or cleaning the spaces between the discs, spaces created by the washers, of all the waste therein. for that, a mini satellite brush 4fig 1, in synthetic or natural bristles, or even made up of small plastic plates 5fig 1, is essential. it must be incorporated into the brush comb itself 4fig 1.and must rotate around the brush comb in both directions of a watch hand.

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   Why "trigonometric" combs? because we can give the comb-brushes any shape we want: triangular; cubic; octagonal parallelepiped ... just cut the plastic according to our need or wish, as shown in Figures 2.3.4.5.6.7. 8 ... etc Figure N 6 shows us by example; that one obtains a brush comb whose main characteristic is: on one side one can roll inflate; untie ... the hair. And on the diametrically opposite side; they are flattened, because here the hole is simply not in the center! Figures 9-10 and 11 show us that even the use of glue is not too essential;

  because the central axis (fig 10) is parallelepipedic! so thanks to trigonometry, we have an infinite number of possibilities for making brush combs as different in size and shape. That is to say geometrically different, hence the name of brush combs " trigonometric.


    

Claims (3)

claims 1- the idea that with hard plastic plates, about 1mm thick. we manage to make an infinity of combs-hairbrushes that are as different from each other in size and shape. comb-brush means comb more brush. if you want to make (by way of example and above all for reference) a cylindrical comb-brush (fig 1), you just have to cut about fifty plastic flat discs (fig 2) with a diameter of about 4cm , and make a central hole of 1cm on each disc. and introduce all these discs into a plastic tube (with solid walls) of about 20 cm of ion, and of 1 cm also of outside diameter, separated from each other by washers of 15 mm outside diameter (fig 1).  about fifty pieces cut in the form of a square (fig 5) will give a rectangular comb-brush and so on ... 2- we therefore obtain a comb-brush characterized by the fact that, even if it is rotated on the spot (head) and on itself; there is no risk of damaging or pulling out the hair. more because you can comb and detangle at the same time, regardless of the type or volume of the hair.   3- it is also characterized; given its composition or its structure, by the fact that it can be cleaned in a single turn, thanks to a mini satellite brush incorporated in the brush comb itself (4 fig 1) which, by turning around the comb-brush, is used to clean the spaces (created necessarily by the washers) of all the waste which is there.