DE10228714B4 - Method of making sharpenable pens and sharpenable pens - Google Patents

Abstract

method for the production of sharpenable pins from a hollow profile and a sheathed by the hollow profile coloring body, characterized characterized in that the hollow profile of a continuous material (1) fiber reinforced Polymer (3) and is made by pultrusion.

Description

The The invention relates to a process for the production of sharpenable Pins from a hollow profile and a sheathed by the hollow profile coloring body. Furthermore, the invention relates to a sharpenable pin of a hollow profile and a coloring body encased in the hollow profile.

sharpenable Pens, d. H. Pins without lead feed, such. Eg writing, painting and cosmetic pencils, consist of a coloring body, the Mine, and a shell of this mine. The jacket exists often wooden. Usually are prefabricated wooden boards for the preparation of such pens provided with grooves corresponding to the diameter of the mine. The Mines are incorporated with glue in these grooves and two such Board pressed together like a sandwich until the glue has hardened. Subsequently get the pins on planers their outer shape, z. B. round, hexagonal, oval or triangular. The pens can then be painted in color and / or be provided with a colored dip cap. On the Painting is often dispensed with from an environmental point of view today. This batch process is due to its many process steps and the big one Machine use on the one hand very expensive and expensive, on the other hand This process produces a large amount of high quality wood waste.

In WO 91/11335 A1 discloses writing and crayons which a sheath made of papier mâché, wood flour and / or groundwood exhibit. The production of such pens can be achieved by molding or injection molding, done by pressing or extrusion or extrusion process. A casing of such material often does not have the desired high rigidity to protect the inner mine from breakage.

There are also known sharpenable pens having a sheath of polymers. So z. B. from the EP 1 072 645 A1 Coatings for color, lead and cosmetic pencils are known which consist of a composite material with a polymeric binder matrix based on polyvinyl butyrate and fatty acid and / or fatty acid derivatives and at least one reinforcing short fiber-like filler incorporated therein. The jacket is made in a conventional manner from boards made with the composite or continuously by extrusion. Due to the screws necessarily used in extrusion, the drawn fibers are shortened by the process and thus can not provide maximum reinforcement.

Also from the DE 198 52 066 A1 For example, pens are known in which a natural polymer is plasticized and extruded onto a running mine as a jacket, with a lubricant based on native oils and / or waxes added before or during the extrusion. The polymer before or during extrusion natural fibers such. For example, cellulose, wood, flax or sisal fibers are added.

at Pins with a sheath of polymers may cause the problem that the cladding material is a sharpening with a conventional Sharpener does not allow.

Of the Invention is based on the object another method for To make production of sharpenable pens, which is easy and carried out economically which leads to pens whose mines are good against Breakage are protected.

Is solved the object by a method for producing pins, in the hollow profile of a continuous material fiber-reinforced polymer exists and is made by pultrusion.

Under Pultrusion is the process of continuous production of fiber composite plastics. It is a pultrusion process where the reinforcing Continuous material in the form of single fibers, yarns, tapes, fabrics or nonwovens by dipping with the liquid polymer or starting compounds to be reinforced of the polymer and then the soaked Material is formed and hardened in a tool.

The inventive method allows the simple and continuous production of hollow profiles for sharpenable Pencils. Because the outer shape of the Pen through the mold for the hollow section can be specified exactly, is a post to produce the desired outer shape not necessary and it falls no waste. Compared to pens that made up a hollow profile have an extruded polymer as a shell, they have Hollow profiles made of continuous fiber-reinforced polymers have the advantage that they protect the inside mines better against breakage and also overall lead to a more unbreakable pin.

The polymer may be a thermoplastic or a thermosetting material. According to an advantageous development of the invention, the polymer reinforced with continuous material is a polymer based on renewable raw materials. These polymers have a good eco-balance and CO ₂ neutrality and can be biodegraded or composted without leaving any residue. Particularly preferred polymers are selected from the group consisting of cellulose, cellulose esters and other cellulose derivatives, starch, starch blends and derivatives of starch, polyhydroxy esters and derivatives of polyhydroxy esters, shellac and derivatives of shellac and vegetable oil or vegetable fat based polymers such as epoxy resins, polyurethanes, unsaturated Polyester or acrylates react, used. These polymers have processing advantages over petrochemical polymers, e.g. For example, they are generally much less toxic to the human organism.

The fiber reinforced Polymers can Naturally still other polymer additives (additives) included. Let it be by a variety of aggregates z. As the viscosity, the curing time, the curing temperature, the strength, the impact resistance, the modulus of elasticity, the color, the feel and the adhesion properties influence. An internal release agent such. B. INT PS 125 the Axel (USA), which is a dispersion of a high polymer condensation product complex resins, glycerides and organic acid derivatives in mixture with modified substances, improves the release effect of the material material to the forming tool, and increased thus the withdrawal speed respectively the productivity. Fillers like Increase kaolin and aluminum hydroxide the modulus of elasticity of the material while the addition of methacrylic acid as comonomer the viscosity of the resin is lowered, so that realizes a higher reinforcing fiber content can be.

When Endless material for fiber reinforcement is preferably a continuous material based on natural fibers used. This material can reduce the biodegradability of the product support. The natural fibers are preferably selected from the group consisting hemp, flax, ramie, nettle, kenaf jute, sisal, bromelia, abaca Lyocell, Newcell, cotton, wool, silk and spider silk as these fibers a high reinforcing effect and are also inexpensive and available in large quantities.

Of the coloring bodies can be inserted into the finished pultruded hollow section as a solid mine, optionally, providing the coloring body with glue can. But it is also possible that the coloring body in liquid form filled in the hollow profile and then hardened in it. So z. As a mixture of graphite, thermosetting polymer and optionally Hard pigments, color pigments, additives and binders in the hollow profile filled become. The hollow profile can be before or after the introduction of the coloring body in the desired Cut length become.

Especially However, it is advantageous if the coloring body during the Production of the hollow profile is introduced into the hollow profile. To this Way you can the entire pins are made continuously. It is it z. Possible, the prefabricated coloring bodies the forming tool for the fiber reinforced Add polymer. But it is also possible for the coloring body a hardening and color pigments containing polymer composition simultaneously with the fiber reinforced Polymer of the hollow profile to extrude and hollow profile and coloring Body at the same time Harden allow. The polymer composition for the coloring body can while based on the same polymer as the hollow profile.

To curing the pen is then in the desired Cut length.

Independent of The type of manufacture may be the pin for final completion if necessary still be sanded, polished or painted.

in the Below, the invention with reference to three embodiments and with reference to the figures closer explains shows

1 in longitudinal section schematically a system for pultrusion of a hollow profile

2 In longitudinal section schematically a system for the continuous production of pins when equipped with finished mines

3 in longitudinal section schematically a system for the continuous production of pins with extrusion of the coloring body.

For the production of pultruded hollow profiles from fiber-reinforced polymers with continuous material, a system as described in US Pat 1 is shown used. From a creel on which the coils are stored with the endless material, the material 1 , in this case endless fibers of flax, continuously drawn off. The fibers are passed through an open immersion bath by means of a guide system of pins and rollers which keeps the fibers parallel 2 with a liquid polymer or the starting materials of a polymer 3 guided. The soaked fibers 4 are then in the forming tool 6 led into which a thorn 5 protrudes. The forming tool 6 is tempered to control the shaping and curing. At the end of the mold 6 pulls a non-illustrated puller from the resulting hollow profile and it is cut or sawed off to the desired length with a separator. In such a way ges hollow profile can now be introduced the coloring body.

For the dip can z. B. a cure to a thermosetting system consisting of a mixture of the soybean oil epoxy with preferably 20 wt .-% methacrylic acid, 2 wt .-% of a peroxide mixture of methyl isobutyl ketone and tert-butyl peroxybenzoate, 2 wt .-% highly active tert-butyl peroxybenzoate and 1% by weight of the internal release agent INT PS 125 from Axel (USA), which is a dispersion of a high-polymer condensation product of complex resins, glycerides and organic acid derivatives mixed with modified substances. The forming tool 6 may in such a case have a length of about 1 m, being divided into 4 zones with different temperature levels. The first zone of the forming tool 6 is cooled to room temperature so that the hollow section can be shaped without the polymer system beginning to cure. In the second zone, which is heated to approx. 190 ° C, the curing reaction begins, which is completed in Zone 3 at 200 ° C. In zone 4 is cooled again to room temperature.

If at the same time as the production of the hollow profile, a solid coloring body to be introduced, a plant, as in 2 is shown used. The soaked fibers 4 become a shaping tool 6 which is a hollow thorn 9 introduced. In this hollow thorn 9 be by means of a mounting device 7 continuously solid coloring body 8th fed. For the dip can z. B. in this case too 1 specified system can be used.

In 3 It is shown how the coloring body is extruded simultaneously with the pultrusion of the hollow profile in liquid form. The soaked fibers 4 become a shaping tool 6 which is a hollow thorn 9 introduced. In this hollow thorn 9 is by means of an extruder 10 the coloring body supplied in still liquid form. The feed rate of the extruder is adjusted to the take-off speed of the pultrusion line. For the dip can z. B. the previously described to a thermoset-curing system can be used again. For the coloring body can z. Example, a mixture of 80 wt .-% graphite and 20 wt .-% of a thermoset consisting of a mixture of the soybean oil epoxy with preferably 20 wt .-% methacrylic acid, 2 wt .-% of a peroxide mixture of methyl isobutyl ketone and tert-butyl peroxybenzoate , 2 wt .-% highly active tert-butyl peroxybenzoate, can be used. By adding clay or other solid ingredients to the mixture, the hardness of the coloring body can be adjusted.

Claims (11)

A method for producing sharpenable pins from a hollow profile and a sheathed by the hollow profile coloring body, characterized in that the hollow profile of a continuous material ( 1 ) fiber-reinforced polymer ( 3 ) and is made by pultrusion. Process according to claim 1, characterized in that the polymer ( 3 ) is a polymer based on renewable raw materials. Process according to claim 2, characterized in that the polymer ( 3 ) is selected from the group consisting of cellulose, cellulose esters and other cellulose derivatives, starch, starch blends and derivatives of starch, polyhydroxyesters and derivatives of polyhydroxyesters, shellac and shellac and vegetable oil or vegetable fat based polymers such as epoxy resins, polyurethanes, unsaturated polyesters or Acrylates react. Method according to at least one of the preceding claims, characterized in that the endless material ( 1 ) of the fiber-reinforced polymer ( 3 ) based on natural fibers. Method according to claim 4, characterized in that that selected the natural fibers are from the group consisting of hemp, flax, ramie, nettle, kenaf, Jute, sisal, bromelia, abaca, lyocell, newcell, cotton, wool, Silks and spider silk. Method according to at least one of the preceding claims, characterized in that the coloring body ( 8th ) is introduced during manufacture of the hollow profile in the hollow profile. Method according to claim 6, characterized in that the coloring body ( 8th ) is introduced into the hollow profile by extrusion of a curing and color pigments-containing polymer composition. Pointable pin made of a hollow profile and a coloring body enclosed by the hollow profile ( 8th ), characterized in that the hollow profile with a continuous material ( 1 ) fiber-reinforced polymer ( 3 ). A sharpenable pencil according to claim 8, characterized in that the polymer ( 3 ) is a polymer based on renewable raw materials. A sharpenable pencil according to claim 8 or 9, characterized in that the continuous material ( 1 ) of the fiber-reinforced polymer ( 3 ) based on natural fibers. A sharpenable pencil according to at least one of claims 8, 9 or 10, characterized in that the hollow profile by pultrusion is made.