Composite cutting line for brush cutters and edge trimmers

Details Composite cutting line for brush cutters and edge trimmers Composite cutting line for brush cutters and edge trimmers

1998-03-10

2003-10-07

Watkins, III, William P. (Department: 1772)

Stock material or miscellaneous articles

Structurally defined web or sheet

Continuous and nonuniform or irregular surface on layer or...

C428S148000, C428S149000, C428S150000, C428S372000, C428S375000, C428S379000, C428S384000, C428S395000, C030S347000, C030S276000, C056S012700

Reexamination Certificate

active

06630226

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to cutting lines intended for trimming and cutting vegetation, which can be used in motorized rotary-head cultivation implements commonly known as brush cutters and edge trimmers.
DESCRIPTION OF THE PRIOR ART
These implements are generally fitted with a combustion engine or electric motor which rotates, at a high speed which may be between about 3000 revolutions per minute and 12,000 revolutions per minute, a cutting head which carries one or more cutting lines. As the head rotates, and under the effect of centrifugal force, the cutting line or lines splay out radially and thus sweep a certain circular area, within which they have a cutting effect on the vegetation they encounter.
Cutting lines currently manufactured and marketed, intended for such a use, are smooth monofilaments, usually of the “one-material” type, which therefore have the qualities and weaknesses of the raw material used to make them.
The raw material most often used to make cutting lines are synthetic substances, and more particularly polyamide 6, copolyamide 6/66 and copolyamide 6/12. These substances can be very slightly modified or filled to improve their basic characteristics. These substances are always extruded in the form of monofilaments which can have varying diameters and cross sections, in particular a round cross section, but also polygonal or star-shaped profiles. In all instances, and even if they have edges, these monofilaments maintain a smooth surface appearance, that is to say one without roughness.
The cutting lines currently manufactured are therefore good compromises, but their characteristics and performance are still limited by the raw materials used and by the way in which they are manufactured by extrusion, which inevitably leads to a smooth and uniform surface appearance.
The defects and inadequacies of such cutting lines are, in particular, as follows:
While they are being used, these smooth cutting lines generate a great deal of turbulence in the air, and this causes a great deal of unpleasant noise heard as a strong whistling which adds to the noise of the engine or motor driving the rotary head. These noises cause sound pollution which is all the more troublesome since, by their very nature, brush cutters and edge trimmers are used out of doors. Moreover, legislatory stipulations aimed at limiting the noise of these implements to an acceptable level are being written.
The cutting effect of the current cutting lines is due only to the shock induced on the vegetation by their rotation at high speed. This effect may be inadequate, depending on the type of vegetation encountered.
Another drawback is the phenomenon of sticking. Some powerful implements considerably stress the cutting line inside their rotary head, on account of the vibrations and tension in the line due to the rotation of said head at a very high speed, which may be as much as 12,000 revolutions per minute. This causes a significant rise in temperature to very close to the melting point of conventional smooth cutting lines (from 200 to 222° C.), and this rise in temperature may go so far as to cause the turns of line wound on the reel housed in the rotary head to stick.
Another phenomenon observed is “breaking off at the eyelet”: an overly stressed conventional smooth cutting line will end up breaking off at the eyelet via which the line emerges from the rotary head. What happens is that following repeated flexural mechanical loadings, the line heats up where it emerges from the eyelet in the head. The progressive rise in temperature of the line causes it to become greatly distended at this point which rapidly becomes a point of weakness, causing the start of a crack in the line; the smooth line then breaks.
Finally, conventional cutting lines made of polyamide are practically nonbiodegradable after use, and the amount of fragmented or worn away cutting line strewn across the entire earth each year is estimated at 10,000 tonnes. A certain amount of European environmental protection arrangements are aimed at limiting the pollution caused from the breakage, wearing away or fragmentation of synthetic monofilaments during their use, but current filaments are not yet able to meet these legislatory requirements.
OBJECT OF THE INVENTION
The object of the present invention is to eliminate all of the drawbacks explained earlier, by providing an improved cutting line which, in particular, gives reduction in noise disturbance and an improved cutting effect, and eliminates the problems of sticking and breaking off at the eyelet, while favoring degradability.
SUMMARY OF THE INVENTION
To this end, the invention provides a cutting line for brush cutters and edge trimmers, the essential feature of which is that it consists of a core of the monofilament type which is coated with a granular coating giving the cutting line an uneven and/or rough surface appearance.
Thus, the invention proposes a cutting line which can be described as a “composite filament”, combining a core and a coating, itself composed of one or more ingredients.
The core of this cutting filament can be made, in particular, of an extruded and then drawn synthetic sub-stance, such as polyamide, in the same way as conventional monofilaments which have long proved themselves in this field. This core gives the cutting line the desired characteristics of flexibility and tenacity, which result from its chemical composition, its dimensions and its method of manufacture. The core may have various pro-files; this core may thus have a round cross section, which is the simplest shape, but it may also have a star-shaped or jagged profile, which has the advantage of increasing the area onto which the granular coating can be stuck, and of improving the sticking of this coating to the core. The same results are also obtained, in an alternative form, by providing shapings, such as markings, which are repeated in the direction of the length of the cutting line, on the core.
As regards the granular coating fixed to the core and covering it entirely, this may consist of inorganic, plant-matter, metal or synthetic particles, in each instance giving the final product an uneven and/or rough surface appearance. Inorganic particles, such as particles of silica, glass, fine sand, emery, marble, etc. are more particularly advantageous, in order to increase the abrasive power of the cutting line, and its thermal qualities. The nature and particle size of the particles forming the coating allow the weaknesses of conventional smooth cutting lines to be overcome, in various aspects:
First of all, the surface roughness of the cutting line gives better fluidity of rotation of the line in the air, the roughness on the line breaking up significant turbulence created by a conventional smooth cutting line. The result of this is, on the one hand, a steep drop in the amount of sound generated by the rotation of the line through the air; thus trials carried out by the applicant have recorded, for equal line diameter and equal speed, noise reductions of 8 to 12 decibels depending on the particle size of the coating and, therefore, on the amount of unevenness at the surface of the line. Eliminating the turbulence also, on the other hand, yields a not insignificant reduction in the power needed to keep the line rotating at a given speed; trials carried out by the applicant have thus allowed a saving of 3 to 7% to be measured, for equal line diameters, on the energy consumption needed to keep the cutting line rotating.
Thanks to the roughness of its coating, the cutting line which is the subject of the present invention also creates, as it is used, a “saw” effect which adds to the cutting effect due to the shock produced by the high-speed rotation of this line, and the combination of this abrasive effect with the shock effect significantly improves the cutting capability of the line. The abrasive power of the cutting line is increased to a greater or lesser extent depending on the nature and particle size of the coating. Inorganic particles such as p

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