FR2997638A1 - Crystallizer for accommodating e.g. pharmaceutical vials, has parallelepiped-shaped container comprising two sides that are connected to bottom by using thin bars, where fixing unit holds crystallizer in container shape - Google Patents

Abstract

The crystallizer has a parallelepiped-shaped container comprising two rectangular opposite sides (10, 12) that are connected to a square or rectangular bottom (1) by using thin bars (5) forming hinges, which are provided female locking systems at respective ends. A fixing unit holds the crystallizer in a container shape. The sides are extended at each end by multiple male locking systems (6) that are pivotable perpendicular to other two sides (11, 13). The bottom has an edge (2) comprising multiple rectangular openings (3) on a circumference for evacuation of liquid.

Description

The present invention relates to a crystallizer or tray for packaging pharmaceutical ampoules or other cylindrical or non-cylindrical containers to be filled by vacuum. At the present time, pharmaceutical ampoules or other containers of glass, plastic or other, intended to receive a liquid of any nature that it is by vacuum filling, have at one of their ends a small section orifice allowing their vacuum filling and that is then closed by fusion, welding or other suitable means. These ampoules or other often cylindrical containers are currently delivered to the customer customer side by side in polypropylene containers preferably parallelepipedic commonly called crystallizers; means being necessary (shims reported for example) to wedge them inside. Such crystallizers are reusable and are taken back after use by the manufacturers of bulbs, washed, dried, and refilled with ampoules for delivery to the customer user. In view of the fact that these crystallizers may be brought into contact with pharmaceutical or other products, it is essential that these washing, rinsing and drying operations be carried out with the utmost care, traces of rinse aid or others may remain on the walls and may contaminate the liquid that we will put in the ampoules. One of the aims of the invention is to overcome these recovery and cleaning operations. Another object of the invention is to overcome the problem of setting bulbs or other cylindrical objects or not stored in the crystallizers. In fact, the bulbs or other tubes or bottles usually cylindrical have diameters that vary according to the nominal capacity of the container (for example 9.25 mm for 2 milliliters, 12.55 mm for 5 milliliters, 15.65 mm for 10 milliliters, etc. ...) but these diameters themselves have manufacturing tolerances of plus or minus 0.13 mm to plus or minus 0.20 mm if they are glass. As a result, the dimensions of the quadrilateral circumscribing a certain number of rows of a certain number of bulbs (for example 14 rows of 12 bulbs or tubes of diameter 15.65 mm) may vary from a few tenths of a millimeter to a few millimeters.

It becomes necessary to stall, sometimes in both directions, the ampoules or tubes to keep them straight and well aligned in the crystallizer to avoid having losses filling (bulb insufficiently filled) or closing (bulb wrong or not sealed). According to the invention, a crystallizer for ampoules or other containers made of glass or plastic material intended to be filled under vacuum, the crystallizer being made of plastic material and open at its upper part to receive said ampoules or other containers, is characterized in that the crystalliser is able to take two forms, a first substantially flat shape and a second form of container adapted to contain ampoules or other containers, fixing means for maintaining the container-shaped crystallizer. The crystallizer is then for single use. Advantageously, the container is of parallelepipedal shape, with a bottom, two opposite rectangular sides connected to the bottom by two or more thin bars forming hinges; said sides being extended at each of their ends by one or more male locking systems pivotable perpendicular to said sides; two other opposite rectangular sides also connected to the bottom by two or more thin bars forming hinges having at each of their ends female locking systems in which are engaged, after pivoting the sides on their hinges perpendicularly to the bottom, the locking systems males of opposite sides after pivoting at 90 ° said systems relative to the sides and sides relative to the bottom thus forming a container whose volume is adjustable. The locking system may comprise, on the one hand, a male part consisting of a toothed serrated tongue, and on the other hand, a female part consisting of a notched housing as well, the engagement of the one in the other making the lock irreversible. The locking system may consist of a smooth tongue of square section, round, rectangular or other housed in holes of identical section, the immobilization in place after adjustment, by melting, welding, gluing or other suitable means . Advantageously, the locking system, in the case of very thin material, consists of a smooth tongue folded simply on the adjacent side to be fixed after adjustment by melting, welding, stapling, gluing or other suitable means. Each of the four sides may comprise at one of its ends a male locking device and at the other end a female device, the male device engaging in the adjacent female device, and so on for the four sides thus forming a container whose volume is adjustable by adjusting the two dimensions of its base. The bottom a few millimeters high may have edges having on the perimeter rectangular openings for the evacuation of the liquid. Two opposite sides may have at one of their diagonally opposite ends a device consisting of a tongue or a boss intended to come after folding the sides occupy the place left free at the end of the first and the last row of bulbs, in the case of a number of even rows. Any of the sides may comprise at its two ends a device consisting of a tongue or a boss intended to come after folding the sides to occupy the place left free at both ends of the first or the last row of bulbs, in the case of an odd number of rows. The crystallizer can be made flat, the bottom being surrounded by four sides, by injection. The invention will now be described in more detail with reference to a particular embodiment given by way of example. Figure 1 shows the entire crystallizer. The crystallizer according to the invention is characterized in that it comprises: a bottom (1) of square or rectangular shape perforated or not with a flange (2) giving it rigidity as it exists on all known crystallizers , this rim however being only a few millimeters high, sufficient height for conveying during various manipulations and having on the perimeter rectangular openings (3) intended for the evacuation of liquid, - four sides (10-11-12 -13) formed of recessed webs attached to the bottom by narrow strips and flexible (5) forming hinges or flexible columns with two degrees of freedom. On one end of each of the four sides (10-11-12-13) the crystallizer comprises tongues (6) sawtooth which after 90 ° bend, snap into slots (7) notched also located in the adjacent end of the adjacent side after folding the sides perpendicularly to the bottom (1) thereby allowing the length of each of the sides to be adjusted to wedge the ampoules which will have been arranged inside said crystallizer . Figure II shows a variant of the invention: The opposite sides (10-12) have at each of their two ends notched tongues (6) which after folding at 90 ° to said sides (10-12) are s snap into the housings (7) on the other opposite sides (11-13) after the sides are folded perpendicularly to the bottom (1), thereby allowing adjustment of the length between the sides (10) and (12) and the setting of the bulbs. According to another characteristic of the invention, the tongues and their housings may be arbitrary, the immobilization after adjustment being done by fusion bonding or other suitable means.

Claims (9)

REVENDICATIONS1. Crystallizer for ampoules or other containers of glass or plastic to be filled under vacuum, the crystallizer being made of plastic material and open at its upper part to receive said bulbs or other containers, characterized in that the crystallizer is able to take two forms, a first substantially flat shape and a second form of container adapted to contain ampoules or other containers, fixing means for maintaining the container-shaped crystallizer. Crystallizer according to Claim 1, characterized in that the container is of parallelepipedal shape, with a bottom (1), two opposite rectangular sides (10-12) connected to the bottom (1) by two or more thin bars (5). forming hinges; said sides (10-12) being extended at each of their ends by one or more male locking systems (6) pivotable perpendicularly to said sides; two other opposite rectangular sides (11-13) connected to the bottom (1) by two or more thin strips (5) forming hinges having at each of their ends female locking systems in which are engaged, after pivoting the sides (11-13) on their hinges (5) perpendicular to the bottom (1), the male locking systems of the opposite sides (10-12) after pivoting at 90 ° of said systems relative to the sides (10-12) and sides (10-12) relative to the bottom (1) thus constituting a container whose volume is adjustable. 3. Cristallisoir according to claim 1 or 2, characterized in that the locking system comprises, on the one hand, a male portion constituted by a serrated tongue sawtooth, and secondly, a female part consisting of a housing also notched, the engagement of one in the other making the lock irreversible. 4 - Crystallizer according to any one of the preceding claims, characterized in that the locking system is constituted by a smooth tongue of square section, round, rectangular or other housed in holes of identical section, the immobilization in place after adjustment, by melting, welding, gluing or other suitable means. 5 - Crystallizer according to any one of the preceding claims, characterized in that the locking system, in the case of very thin material, consists of a smooth tongue folded simply on the adjacent side to be fixed after adjustment by melting, welding, stapling, gluing or other suitable means. 6 - Crystallizer according to any one of the preceding claims, characterized in that each of the four sides has at one of its ends a male locking device and at the other end a female device, the male device engaging in the adjacent female device, and so on for the four sides thus forming a container whose volume is adjustable by adjusting the two dimensions of its base. 20 7 - Cristallisoir according to any one of the preceding claims, characterized in that the bottom (1) a few millimeters high has edges (2) having on the perimeter rectangular openings (3) for the discharge of the liquid. 25 8 - Crystallizer according to any one of the preceding claims, characterized in that two opposite sides (10-12) comprise at one of their diagonally opposite ends a device consisting of a tongue (8) or a boss (9) intended to come after folding the sides occupy the place left free at the end of the first and the last row of bulbs, 30 in the case of a number of even rows. 9 - Cristallisoir according to any one of the preceding claims, characterized in that any of the sides has at its two ends a device consisting of a tongue (8) or a boss (9) intended to come after folding the sides occupy the place left free at both ends of the first or the last row of bulbs, in the case of an odd number of rows. - Crystallizer according to any one of the preceding claims, characterized in that it is made flat, the bottom being surrounded by four sides, by injection.