DE886571C - Frame for footwear made of plastic material - Google Patents

Description

Frame for footwear made of plastic material It is already known Frame for footwear made of a plastic material in a continuous strip by rolling or spraying. Compared to leather frames that go through Glue the ends of shorter leather strips together in one continuous strip are made, offer the frame strips made of plastic material inter alia the advantage that they do not have any joints stuck together.

However, so far only vinyl resin compounds have been used as plastic material for producing the frame strips, for example copolymers of vinyl chloride and vinyl acetate, polyvinyl butyral, polyvinyl acetate and likewise plasticized polyvinyl chloride resins. A strong and good-looking frame can be made with vinyl compounds, but has the following disadvantages: B. when gluing the outsole; b) Vinyl resins cannot or cannot easily be weighted or stretched with inorganic fillersii; c) the vinyl resin frames are not very flexible unless the vinyl resin composition contains a substantial amount of a plasticizing agent; when such masses are matured or vulcanized, a considerable loss of the plasticizing agent occurs, as a result of which the vinyl resin compound also gradually hardens, so that the frame becomes very stiff after prolonged use; d) in addition, the frame becomes stiffened considerably when exposed to cold; e) the frame cannot easily be placed around the toe and along the inner hinge part of the shoe; f) stitching or framing the frame is associated with considerable difficulties; g) under heat and stress, the vinyl resin cream becomes longer; h # frame tapping can also only be done with difficulty; i) the seam trimming, edge trimming and cut polishing of such frames is also extremely difficult.

According to the invention it has now been found that the above-mentioned disadvantages of frames made from vinyl resin compounds can be eliminated by choosing a different material, namely a styrene-butadiene copolymer with a high styrene content. The frame strip according to the invention made from a styrene-butadiene copolymer has the following advantages compared to the frame strip made from vinyl resin: a) the frame strip is not adversely affected when heated in a high-frequency field; b) the material chosen for the production of this frame strip can be mixed with a considerable amount of inorganic fillers without essentially losing its physical properties; c) the frame strip produced from the styrene-butadiene copolymer is pliable even without plasticizers; d) the frame strip according to the invention remains stable even after prolonged use, since protective agents, in particular antioxidants, can be added; e) flexibility is not adversely affected by low temperatures; f) the frame can be stitched and bordered without any difficulty; g) Distortion or expansion under heat and load is significantly less than with the vinyl resin frame; h) the frame strip according to the invention adapts easily to the respective shape of the insole lip with which it is sewn, whereby the piercing is also made considerably easier; i) the frame according to the invention can be easily trimmed and cut-polished, in this respect it corresponds in its behavior to the leather frame.

The frame according to the invention can be easily sewn on the Einstechmaschine in the usual manner, j edoch he can, if desired, be bonded. The frame can easily be worked on on the frame tapping machine and can be rolled flat against the insole. The stitch pile can also be carried out with a cold tool.

The new type made from the styrene-butadieri copolymer The frame preferably contains no or almost no liquid softener. That Mixture product formed to produce the frame also contains fillers and optionally a small amount of rubber, which increases the hardness and ductility of the frame is changed. The mixed polymer is a substance similar to Buna-S with a high styrene content. The artificial mass is particularly suitable for the to meet various requirements placed on the framework and can be easily rolling or spraying. The rabmen formed from the mass has a high breaking strength for holding the stitching seam and hugs the shape of the last or the shoe, especially in sharply bent areas such as the tip ends. As already mentioned, the frame according to the invention can easily be put on the stitch piling machine to edit. It retains its flexibility despite widely fluctuating temperature changes, it is waterproof, can be dyed and does not decompose when it is matured or vulcanized.

Example i The following ingredients are mixed on a rubber roller: 70-30 styrene-butadiene copolymer (with 70 percent by weight styrene) ., .. 100 g 30-70 styrene-butadiene copolymer (with 3o percent by weight of styrene) .... io g Calcium carbonate .................... 75 g Calcium silicate (extinguished) ............. 20 g Phenylbetaiiaphthylamine ............ i, i g Zinc stearate ......................... 1 g After mixing, the mass is heated and then injected in the form of a frame strip of the desired cross-section.

The 70-30 styrene-butadiene copolymer (7o parts styrene and 3o parts Butadiene) is the main component of the mixture.

The 30-70 styrene-butadiene copolymer (3o parts of styrene to 70 parts Butadiene) in particular prevents excessive stiffening of the end product.

The calcium carbonate reduces stretching or distortion under stress and has no influence on the hardness of the end product.

The quenched calcium flicate prevents excessive expansion and increases the hardness of the end product. Without the presence of calcium carbonate in the Mixing the calcium silicate would make the frame strip too hard.

Phenylbetanaphthylamine is an antioxidant that is used to stabilize serves to mix.

The zinc stearate promotes splashing of the mixture. Example 2 85-15 styrene-butadiene-Iffischpolymerisat 150 g 30-70 styrene-butadiene copolymer 62 g Phenylbetanaphthylanün ............ 2-, 1 g Sound ............................... ioo g With the exception of the 30-70 mixed polymer and the clay, the mixed ingredients are mixed on a rubber roller, the latter two ingredients being gradually added in smaller amounts. The mixed mass is then rolled out between hot forming rollers to form a frame strip.

The proportion of the 30-70 mixed polymer compared to Example i is greater here in order to reduce the increased stiffness caused by the 85-15 mixed polymer.

Example 3 The following ingredients are mixed together: 70-30 styrene-butadiene copolymer 100 g Calc, ium carbonate .................... 75 g Calcium silicate (extinguished) ............. 25 g Zinc stearate ............ 11 ............ I g Phenylbetanaphthylamine ... ........ i, i g Dye ........................... 217 9 After mixing, the mass is heated and injected in the form of a frame strip.

Example 4 70-30 styrene-butadiene copolymer 100 g Filler - silica ............. 2o g Calcium silicate (deleted) ............. 40 9 Phenylbetanaphthylamine ............ 1.59 Zinc stearate ......................... I g Dye ........................... 2.7 g After mixing, the compound is injected at a temperature of 82 to 93 ' and is very leather-like.

In the four examples above, the proportion of copolymers, expressed in percentages, is as follows: example 1 2 3 4 Percentage of styrene Butadiene in the mixture 48.2 47.8 48.8 6o.5 example 1 2 3 4 Percentage of polymer Risates in the mix 53.2 67.5 48.8 6o, 5 example 2 3 4 Percentage of styrene Butadiene in the poly merisates ............ 91.0 70.8 ioo ioo Example 5 70-30 styrene-butadiene mixed polymer ............. 100 parts by weight Mixed polymer of buta- diene and acrylonitrile ..... 35 parts by weight Antioxidants (commercially lich) .................... i part by weight Zinc stearate ................ 2 parts by weight Paraffin wax ............. i part by weight Dye ................... 4 parts by weight Filler (commercially available) ... 5o parts by weight Dibutyl phthalate ........... obis5 parts by weight The zinc stearate and paraffin wax make it easier to spray the mixture and are not absolutely necessary. Phthalate is a liquid plasticizer that is not absolutely necessary and can also be replaced by another, conventional plasticizer.

In example 5 , the proportion of copolymers, expressed as a percentage, is as follows: Percentage of styrene butadiene in the mixture .................... 5o, 5 Percentage of polymers in the Mixture ....................... 68.2 Percentage of styrene butadiene in the polymers ............... 74.0 It was found that the frame must contain a styrene-butadiene copolymer with a high styrene content as the main component of the mixed mass and that the styrene content in the mixed polymer must be 60 to 85 "parts by weight. The 70-30 mixed polymer is the main component of the mixed mass If a copolymer with a different molecular weight (but with a styrene content of 60 to 85% ) is used, the amounts of the other components of the mixed mass must be changed accordingly in order to achieve the desired special properties in this case as well of the new frame strip.

Natural rubber or other elastomers can also be mixed with the 70-30 styrene-butadiene copolymer instead of the 30-70 copolymer.

Other fillers, such as calcium carbonate and calcium silicate, can also be used. Find use, but it should be emphasized that with those specified in Example i Mixing ratios very good results have been achieved.

Claims (3)

PATENT CLAIMS-. i. Frame for footwear made of plastic, predominantly consisting of a styrene-butadiene copolymer with a high styrene content and a filler such as. B. Calcium carbonate and calcium silicate. - ,. Frame according to claim i, characterized in that the material to 47.8 6o, 5 0 /, parts by weight of styrene-butadiene interpolymer and that the latter 6o, contains up to 85 0 / parts by weight of styrene. 3. Frame according to claim i, characterized in that the material contains no or almost no liquid plasticizer,