DE19633495A1 - Desiccant seal for container filled with moisture sensitive goods - Google Patents

Abstract

A desiccant seal (10) for a hermetically-sealed container used to store moisture-sensitive goods, preferably comprises a stopper, lid or cap (most preferably a twist cap) used to protect the goods against atmospheric moisture. The seal has a desiccant cell comprising hygroscopic material, that lies inside the container when it is sealed.A dimensionally stable moulded body (34) comprising a mixture of powdered, granular or crystalline desiccant and a cured or crosslinked binder is attached to the seal to act as the cell. The preparation of the cells is also claimed.

Description

The invention relates to a drying agent closure for loading container for holding moisture-sensitive goods a hermetically sealed the container in the closed state against access from the outside atmosphere preferably as a plug, lid or cap, in particular Rotating cap closure trained closure member, which in a in the intended closed position of the Area into the inside of the container with a a hygroscopic filler containing drier cell is provided, and a method for producing the the part of the closure which relates to the dry cell.

Dry matter closures are predominantly on the pharma used sector, which is usually Closures that are made with a dry cell in which the crystalline or granulate are permitted shaped dry matter is included, one in the container  the inner end wall of this cell through a Retains dry matter, permeable to water vapor Cardboard or perforated or porous plastic disc is held back. The filling of the dry cell and the safe inclusion of crystalline or granular against dry material such as silica gel, molecular sieve Material etc., is today used by the manufacturers of the Ver conclusions perfectly mastered, but the Her requires position of the dry substance cell in the lock, its filling lung with the correct amount of desiccant and the si Secure integration of the dry substance in the cell through the water-vapor-permeable pane complex and controlled intensive process whereby the thin slice becomes filled and cell still open, aligned to the cell set and then - e.g. B. by warm flanging the cell rim des - must be closed. When processing the crystalline or granular dry substances can dust is also created by abrasion, can distribute working environment. Also for the end user disadvantages can occur. If the desiccant cell ent is not properly sealed or through the end consumer out of ignorance or willfulness Disk is damaged, can be dry or dry Escape material abrasion and contaminate the container. Ins especially when filling substances to be inhaled in Containers can be contaminated by dry matter. Abrasion harm the health of the end user.

Due to the difficulties and disadvantages explained which are already manufactured separately and then attached in the actual closure. The dry matter was turned into a cup-shaped, one-sided filled open plastic housing, which then like closed by a water vapor permeable pane was. The dry cell itself was then in the arranged, in the special case as a twist-cap closure formed fastener attached. That way though  a simplification of the construction of the actual closure organs and a relatively simple assembly of the separate Dry cell in the closure possible, but the Effort due to the separate production of the cell housing ses, the filling with drying agent and the sealing with the cover plate and through the described possibilities Possibilities of the emergence of dry matter given danger remains.

The invention is based, which is ste in question existing dry substance closures in the construction and manufacture to simplify effort, and at the same time be standing hazards to workers from dust to reduce the closure.

Based on the well-known dry substance closures this object achieved in that the Dry cell a from a mixture of powdered, granular or crystalline dry substance and one cured or set binders separately provided dimensionally stable molded body is that on the closure organ is attached. Through the separate production of the Shaped body in largely automated processes can take place, the procedurally complex is omitted Filling the cells formed in the closure with a pre given amount of dry matter and the subsequent Ab end of the cell with the water vapor permeable pane. The dimensionally stable molded body can as a whole with the Ver closing organ to be connected, being for the closing organs even molds requiring less investment can be used because otherwise made of the material of the closure member to be formed peripheral wall of the dry there is no fabric cell. The one that forms the dry cell Shaped body is preferably made from a mixture of dry fabric and a thermoplastic material posed. The requirement for a separate cover plate and their careful, tight assembly is then no longer necessary,  and neither during filling nor during later use there is a risk that loose dry matter if damaged the desiccant cell falls into the container. By Ge weight control of the dry substance molded body is also a simple check on drying capacity possible.

It has been shown that sufficient strength of the molded body and excellent drying properties can be obtained when the molded body has a proportion of 60 to 80% by weight of dry substance and 40 to 20% by weight of thermoplastic Has plastic material.

Plastics can be used as the thermoplastic material made of polyethylene (PE), polyamide (PA), polycarbonate (PC), Polypropylene (PP), polystyrene (PS) and various cellu loose ester (CA, CP, CAB) group of thermopla plastic plastics are used.

For economic and processing reasons Polyethylene is currently available as a plastic preferred material for the molded body.

The molded body and the closure member can be shaped and / or be frictionally connected.

With regard to the simplest possible and therefore cost inexpensive assembly, it is recommended to the molded body and that Closure member by complementary interlocking To snap together with each other.

The production of the molded body forming the dry cell is preferably carried out so that the powder or granulate mige or crystalline dry substance with the powder or granular thermoplastic material ge mixes the thermoplastic material by heat feed melted and the mixture of dry matter  and melted plastic material into a mold with a For corresponding to the outer shape of the molded body menhohlraum introduced and after at least partially Er Rigidity of the plastic material ejected from the mold becomes.

A method has proven particularly expedient proven in which the dry substance and ther moplastic plastic material mixed in an extruder or further mixed and the plastic material through the Heat generated during the extrusion of shear forces is melted, whereupon the mixture of dry matter and melted plastic in portions into the mold and then onto the mate brought into the mold pressure is exerted through which the mold cavity filled and the mixture introduced is compressed and the resulting molded body after at least partially wise solidification of the thermoplastic material then molded.

The invention is in the following description of an example of a drying agent Ver invention in connection with the drawing ben, which a as a tamper-evident plug finally trained dry matter Ver conclusion in the so-called half-cut, d. H. half in the lower right middle section and half in the side view, shows.

The shown in the drawing, designated in its entirety with 10 drying cap is a plastic stopper closure, which is intended in a special case for closing tablet tubes, which with moisture-sensitive tablets, for. B. effervescent tablets are filled. The closure 10 has a flat lid portion 12 , from the underside of which a hollow plug 14 , which is open on the side facing away from the lid part, whose circumferential wall is curved on the outside, ie forms a so-called sealing olive 16 , which in the intended closing position is developed under prestress bears on the inside of the container mouth of the - not shown - container to be closed and hermetically seals it. The lid portion 12 protrudes radially from the stopper 14 and at its outer edge there is a wall 18 projecting toward the container, which engages over the upper edge of the container mouth of the associated container and additionally contributes to sealing the container against the outside atmosphere. On the outwardly facing circumferential surface of the wall 18 provided projecting ribs 20 facilitate the secure gripping and pulling of the closure 10 from the loading container.

The closure 10 is provided in the usual way with a Niederhal ter 22 in the form of a ring which is held over a number of helically extending elastically deformable Fe derarmarm 24 in the illustrated position, from which it is filled by the container, e.g. B. the filled in the tablet tube tablets with elastic shear bending of the spring arms 24 into the interior of the stopper, ie in the closed position under tension on the uppermost tablet rests in the tablet tube and thus defines the stack of tablets. On the downward facing free end of the wall 18 is a number of tamper-evident ring 28 is integrally inserted by a number of ver at a uniform angular distance thin, and thus when exerting forces breaking forces acting in stopper pulling direction breaking fragments 26 . On its inside, the tamper-evident ring 28 carries approaches 30 at regular angular intervals, which in the manner shown in the drawing have an obliquely inward and backward boundary, which ends on the inside of the end facing the lid part in a locking edge 32 which ends in the Intended closed position under a provided on the outside of the container wall circumferential Rie gel edge on a container edge reinforcement or Ummbörde treatment of the - not shown - grab the container. To the extent described so far, the container closure - for. B. from EP-0 262 506 B1 - known.

Deviating from the known plastic-dry material connections, however, the design of the dry material cell is made. Instead of the integrally formed on the lid portion, filled with free-flowing, ie crystalline or granular dry matter and closed by a moisture or moisture vapor permeable cover plate ver closed cell in the known closures, this cell in the closure 10 consists of an inherently stable, in the case shown essentially cylindrical shaped body 34 , from the circumferential wall of which in each case a lower annular projection 36 emerges in the two end regions, the end portions of which facing the respective end face are beveled conically. On the underside of the lid section 12 a receptacle 38 is formed by a circumferential undercut ring wall, in which one end of the molded body 34 can be latched. For this purpose, the molded body only has to be passed through the open side of the plug 14 and - if present - the hold-down ring 32 and then pressed into the receptacle 38 . Due to the conical bevel of the annular projection 36 , the receptacle 38 is elastically expanded and snaps after reaching the intended fastening position of the molded body 34 with its undercut area over the annular projection, whereby the molded body 34 is captively held within the stopper 14 .

The molded body 34 itself consists of preferably powdered, by a hardened or set binder medium held and stabilized dry substance, preferably a thermoplastic material is used as a binder. In addition to the polyethylene, which offers itself due to its properties in terms of water vapor permeability, easy processing and inexpensive, polyamide (PA), polycarbonate (PC), polypropylene (PP), polystyrene (PS) and various cellulose esters such as cellulose acetate ( CA), cellulose sepionate (CP) and cellulose acetobutyrate (CAB) in question. To produce the shaped body, the powdery dry substance, for example a molecular sieve material or also silica gel, is mixed with the powdery or granular plastic material, whereupon the plastic material is melted by the application of heat. The mixture of dry substance and the melted plastic material is then brought into a mold and expediently additionally pressed somewhat, so that the molded body takes on the shape of the mold cavity and is available as an inherently stable body with the desired external shape after the solidification of the plastic material. In practice it has been found that the production of such shaped bodies is possible by extruding the mixture of powdered dry material and plastic material in an extruder, the plastic material being melted by the gravitational forces arising during the extrusion. The extruded material is then brought directly into the mold and cooled in the manner described. It should be noted that other ways of melting on the proportion of the plastic material in the mixture, for. B. by supplying heat to the mixture filled into the mold over the walls of the mold or by the action of microwaves on the molded mixture.

Instead of the molded body in the exemplary embodiment described, it can also be provided with an opening on the container side to enlarge the upper surface, provided that it is ensured that the remaining material quantity of the molded body ensures the desired drying properties. The way of fastening the molded body 34 in the receptacle 38 can be modified. So z. B. conceivable that, instead of the positive locking described, a pure frictional engagement by pressing a cylindrical molded body into the interior of the then dimensioned undersize is sufficient. It is also conceivable to glue the end face of the molded body facing the lid part to the underside of the lid part 12 .

Claims (9)

1. Dry material closure for containers for receiving moisture-sensitive material with a container hermetically closing the container in the closed state against the entry of outside atmosphere, preferably as a stopper, lid or cap, in particular a rotating cap closure formed from a closure member, which in a Intended closure position of the container in the container inner-facing area is provided with a hygroscopic filler-containing dry matter cell, characterized in that the dry matter cell is a dimensionally stable molded article produced from a mixture of powdery, granular or crystalline dry matter and a hardened or set binder. 34 ), which is attached to the closure member. 2. Dry material closure according to claim 1, characterized in that the shaped body ( 34 ) is made from a mixture of the dry material and a thermoplastic material. 3. Dry material closure according to claim 2, characterized in that the shaped body ( 34 ) has a proportion of 60 to 80 wt.% Dry material and 40 to 20% thermoplastic material. 4. Dry substance closure according to claim 2 or 3, characterized characterized in that the thermoplastic material at least one plastic made of polyethylene (PE), poly amide (PA), polycarbonate (PC), polypropylene (PP), polystyrene (PS) and cellulose esters (CA, CP, CAB) contained group of thermoplastic materials.   5. Dry substance closure according to claim 4, characterized records that the plastic material is polyethylene (PE) or contains. 6. Dry material closure according to one of claims 1 to 5, characterized in that the shaped body ( 34 ) and the closure member are positively and / or non-positively connected. 7. Dry material closure according to claim 6, characterized in that the shaped body ( 34 ) and the closure member are locked together by complementary interlocking locking means. 8. Process for the production of a shaped body according to a of claims 2 to 7, characterized in that the pul mixed or granular or crystalline dry matter with the powder or granular thermoplastic art mixed material material, the thermoplastic plastic ma material melted by applying heat and the mixture Desiccant and melted plastic material in a shape with one of the outer shape of the molded body ent speaking mold cavity introduced and after at least partial solidification of the plastic material from the mold is ejected. 9. The method according to claim 8, characterized in that the drying agent and the thermoplastic material mixed or further mixed in an extruder and the plastic material through which appear during extrusion the resulting shear forces are melted, whereupon the mixture of dry and melted Plastic is introduced into the mold in portions that then a pressure on the material introduced into the mold through which the mold cavity is filled and the mixture introduced is compressed, and that the  resulting shaped bodies after at least partial solidification of the thermoplastic material is molded.