DE2109401A1 - Packaging container for highly viscous sticky polymers - Google Patents

Description

PATENT ADVOCATE DR. HANS-GUNTHER EGGERT, DIPLOMA CHEMIST

5 KDLN-UNDENTHAL PETER-KINTGEN-STBASSE 2 9 10 0/01

Cologne, February 23, 1971 Eg / Ax / Hz

5sdo Heseι, - ·· gh ariu Eng ineer In ^ Couipany,

ο3 holder for tioohviäkose sticky polymers

Most highly viscous sticky polymers, for example low molecular weight polyisobutylene will be hot, for example, mixed at a temperature of more than 121 ⁰ O and packaged so that the material has a certain fluidity, or at least pourable. Containers for these materials must withstand the high temperatures of around 93 to 204 ° C used during filling and g
would allow the content to be taken.

Withstand 93 to 204 ° C and at the same time allow easy removal

The polymers of the type mentioned are currently used. in expensive metal containers packaged that are much lighter than desired for product protection and durability is because the container must be peeled off or peeled off in order to use the product. These containers are generally coated with a release agent that is applied by hand after the cans or canisters are made and therefore is generally of poor quality.

It has now been found that low molecular weight sticky polymers can be easily removed from their containers, if the container is provided with a removable liner coated with a release agent, the

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has an easily removable bottom.

A preferred embodiment of the invention is described below in conjunction with the drawings.

Fig. 1 shows in perspective a designed according to the invention Packaging container.

FIG. 2 is a vertical section taken along line 2-2 of FIG Fig. 1 and shows the attachment of the floor.

Fig. 3 shows in perspective the bottom of the lining with the fastening groove for the cord.

The improved packaging container according to the invention offers when used for the packaging of high viscosity Low molecular weight sticky polymers give the product much better protection. It is durable, leaves practically no one Loss of product due to sticking to the container or leakage and enables the contents to be removed in less time and with much greater ease than the known containers.

The container according to the invention is suitable for packaging sticky polymers such as polyisobutylene with a Staudinger molecular weight of 8,000 to 12,000, polybutenes with a Staudinger molecular weight of approx 3000 to 6000, low molecular weight butyl rubbers and halogenated butyl rubbers and similar compounds, which are normally not pourable at room temperature, but show cold flow at room temperature and so sticky are that they can only be removed from conventional containers with difficulty.

The packaging container consists of a drum with an inner liner that is considerably longer than that Drum, and to which an easily removable base is attached. A "drum" is to be understood as meaning any container, the vertical side walls and at least one end have that is removable or can be opened.

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The container can have any conventional shape, for example cylindrical or box-shaped. The cylindrical Shape is preferred, however, as it carries greater loads and withstands stresses. The materials used for the container are, for example, fiberboard and corrugated sheets and metals in question.

The inner lining can be made of any material that can withstand the high temperatures released during filling resist without becoming brittle or adversely changing or becoming so soft that they come with stick to the polymer to be filled. Various polymer films have been found useful for this purpose. Polyester films and heat-stabilized nylon, for example, are suitable. The film preferably has one Thickness from about 13 to 150 µm, especially from about 25 to 76 u. Particularly suitable are foils made of a polyester, which is made by reacting ethylene glycol with terephthalic acid.

Heat stabilized nylon types are well known. They are made by a special heat treatment of nylon foils. Particularly preferred is nylon made from an Og monomer, ie "nylon 6". Typical of such heat-stabilized nylon films is a commercially available film, which at 22 ° G has a tensile strength of 700 to 984 kg / cm, a yield point of 350 to 560 kg / cm, a tear strength of 70 to 100 g, an elongation of 400 to 600%, a negligible solubility in water and a crystal melting point of 218 to 220 ⁰ O and at 150 ⁰ G a tensile strength of 420 to 490 kg / cm, a yield point of 175 to 189 kg / cm ² and an elongation of 400 to 50 050 .

In order for the polymer films to be properly detached from the packaged polymers, they must be coated with a release agent be coated. Different release agents can be used for the

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Purposes of the invention. Liquid silicones with a viscosity are preferably used as release agents from about 10 to 30,000 cS at 25 ° C., preferably about up to 1000 cS, in particular 100 to 500 cS. These Silicones are well known and they contain carbon-silicon bonds and are used, for example, in the U.S. Patents 2,448,756, 2,484,595, and 2,541,137 described. These polymers have the general formula

-Si-O-Si-O-Si-O-

I t I

R ₂ R ₂ R ₂

in which R ^ and R ₂ independently represent methyl radicals and hydrogen atoms, where R ^ or R _{2 is} a methyl radical and the other radical is a methyl radical or a hydrogen atom. If R ^ and R _{2 are} both methyl radicals, it is dimethylsilicone or dimethylsiloxane. The hydrogen atom bonded to the silicon is called silane hydrogen.

The liquid silicones used for the purposes of the invention can after application to the polymer film optionally hardened in a known manner. Si «can be applied directly or from a solution. Suitable solvents are Og-Gg alkanes, e.g. Hexane, heptane and 2-ethylhexane, Cg-Cg aromatics, e.g. benzene, Toluene and xylene, and all known chlorinated solvents, e.g. Methylene chloride and chlorobenzene. in the in general, the liquid silicone is in one concentration of about 30 wt .- ^ present in the solvent.

Dimethylsilicones are commercially available and suitable with a viscosity in a wide range up to about 100,000 cS at 25 ° C. Typical of liquid silicones that Containing Silanwasserstoffatoae is a commercially available liquid silicone with a viscosity of

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about 35 cS at 25 ° Q. Liquid ones are also available Siloxanes that are supplied as 30% solutions in xylene will·

It has been found that the thickness of the release agent layer is not critically important. However, it is essential that the coating is continuous and closed · For example A closed coating with a thickness in the Angstrom range is sufficient, while an interrupted coating a thickness of around 100 η does not detach itself properly from the packaged product.

There are many coated with release agent on the market Papers available such as silicone coated parchment, silicone coated parchment and silicone coated and material treated with latex. The surfaces of these materials come off the packaged well Product, however, these materials are generally unsuitable for the purposes of the invention because they are used in the The high temperatures that occur during filling become extremely brittle and can only be removed in small pieces can·

Surprisingly, it was found that cell glass (cellophane) is well suited as a release agent for the purposes of the invention. It does not become brittle during filling occurring high temperatures and can be without the use of an applied release agent from the packaged Remove polymers.

The cell glass can be removed from the packaged polymer by moistening it with water. The water breaks the bond between the polymer and the cellulose glass, which has such a high cohesive force that it can be removed in one piece. The cellulose film expediently has a thickness of about 13 to 130 yu, preferably from about 25 to 76 Ai,

The term "cell glass" (Oellophane) used here denotes Films made from wood pulp after the viscose

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process and are known as "uncoated ¹¹ cellophane".

Other release papers have proven not to be generally suitable for the purposes of the invention, but surprisingly found that craft paper coated with clay, that has a basis weight of at least about 0.146 kg / m,

preferably of at least 0.244 kg / m and with one of the silicone-based release agents mentioned above is coated, a suitable non-adhesive and not having adhesive surface for the purposes of the invention.

Kraft paper, which has the above-mentioned basis weight, is also suitable as a release agent when it is finely divided Mica is painted. The finely divided mica should be in the form of platelets with a thickness of about 20 to 200 Å and a diameter corresponding to 100 times the thickness. Synthetic mica is preferred. Synthetic mica is a fluorine derivative of phlogopite and is made by treating potassium fluorosilicates with Aluminum oxide under pressure and heat or by melting together basic oxides, fluorides and feldspar manufactured.

For example, synthetic mica coatings are suitable a commercial product made up of extremely thin sheets of synthetic mica. the Particles have an average thickness of about 20 to 100 pounds and a diameter equal to 100 times the thickness The flakes have a melting point of 980 ° C., a density of 2.7 g / cm3 and a refractive index of 1.5.

The easily removable bottom, which in the case of a cylindrical container is a round disc, is round with a provided the circumferential deep groove as shown in FIG. With a simple method, this Floor, for example, by laminating two alike

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molded fiberboard are produced, with about 38 mm of the circumference remaining unglued. Other similar ones too Methods (e.g. stapling) are suitable.

The top of the bottom, i.e. the one with the one to be packed The side that comes into contact with the material is covered with a film made of the same material as the inner one Lining is made and has been treated in the same way. This foil protrudes over the edge of the floor out and is placed so that it engages over the circumferential groove or recess. The floor is then inserted into the liner, and the sheet and liner are placed in around the perimeter of the floor extending recess attached so that a container or bag is formed which is closed at one end is.

The fastening of the lining and the floor can be done in in any suitable manner. Preferably, however, a cord is placed around the outside of the liner and sucked tight so that both the liner and the sheet covering the floor fall into the circumference the bottom running recess can be drawn. The ends of the cord can then be clamped in a gap , which is arranged at the lower edge of the floor (as shown in Fig. 3), so that both the cord as also the bottom can be easily removed if so desired. The width of the gap must be approximately that Thickness of the cord to ensure that the cord is held in place.

The cord must be able to withstand the relatively high temperatures of the packaging material without its effect to lose. For plastic cords this would mean that the melting point of the plastic is above these temperatures lies. Suitable binders for the purposes of the invention are, for example, monofilaments and braided ones Cords made of heavy nylon, polyester and soft metal wires

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In the preferred embodiment of the invention shown in the figures, there is the packaging container from a cylindrical drum 11 with a removable cover 12, which is internally coated with a release agent based on silicone, an inner liner 13 made of heat-stabilized nylon, which is completely coated with the silicone-based release agent and about 7.5 or protrudes 10 cm beyond the drum, a disc 14 inserted into the liner, which is connected to the Circumferential groove or recess provided and on the top with a film 15 from the coated Nylon that protrudes over the disc and beyond the circumferential indentation, and one Nylon cord 16 wrapped around the outside of the liner and tightened so that it fits both the liner as well as the foil pulls into the recess · The cord is then inserted in a notch 17 on the lower edge of the disc clamped. The container is then filled with the polymer. The protruding part of the liner is over folded the drum and attached the removable lid and fastened with an adhesive strip or tape made of plastic or metal. and sealed.

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Claims (1)

Patent claims Packaging container with an outer jacket, which is at least has a removable linden tree and is covered on the inside with a closed layer of an ID release agent, and a material which is provided with a closed layer of the separating agent or of its own has a non-adhesive or repellent surface that serves as the inner lining of the outer jacket, much longer than the outer jacket and at the temperatures at which the material to be filled into the container is packed is not embrittled, not adversely changed or softened, characterized by a removable Bottom (14), the top of which is covered with a film (15) made of the same material as the lining (13) is and also coated with the release agent / or from consists of a non-stick or repellent surface with the bottom (14) in one end of the liner (13) is inserted, and means (16) for fastening the film (15) and the base (14) to the lining (13) 2. Packaging container according to claim 1, characterized in that that the bottom (14) is provided with a circumferential groove or recess which inner lining (13) and laid on the floor (14) Foil (15) »made of the same material as the Liner (13) is made over the circumference of the base (14) extending groove or recess protrude and a plastic cord as a fastening means (16) is used, the lining (13) and the film (15) in the recess running around the circumference of the base (14) stuck. 3, V © 2? Packing sharpener according to claim 1 and 2, thereby gekeiinsösichnet ^ da3 diö outer clothing (13) and the foil (15) made of heat-stabilized nylon, a polyester made from ethylene glycol and i-derephthalic acid, or a made of clay knitted Kraft paper. 109839/1 1 06 4e packaging container according to claim 1 to 3 »characterized in that that the melting point of the plastic cord (16) above the temperature of the container to be filled Material lies. 5 «packaging container according to claim 1 to 4, characterized in that that the container is cylindrical. 6. Packaging container according to claim 1 to 5 »characterized in that the release agent consists of a silicone
consists. 7 »Packaging container according to claims 1 to 6, characterized in that that the release agent made of dimethyl silicones, methyl silicones containing silane hydrogen atoms, or hydroxydimethyl silicones. 8. Packaging container according to claim 1 to 7 »characterized in that that the silicone used as the release agent has a viscosity of about 10 to 3,000 cS, preferably about 50 fc to 1000 cS, especially from about 100 to 500 cS at 25 ° 0. 10 9 8 3 9/1106