Patent Application
20110024434
This invention relates to the design and construction of a novel shipping and inspection container for multiple XRF sample cups.
The present invention describes a shipping and inspection container for XRF sample cups specially designed with pre-installed film at their bottom surface. The sample cups are packed within the rectangular shaped container, which includes display cutouts along its bottom for inspection of the liquid samples contained within the sample cups. The container includes upwardly projecting tabs located on opposite sides, facilitating stacking of the container/cup combinations for shipping and for aiding in handling of the containers. The containers are intended to be used in combination with specially designed sample cups including caps with prominent stems for aiding in removal of each individual sample cup from the container for testing.
Spectroscopic analysis (XRF Spectroscopy) utilizes sample cups to contain liquid or gas samples for inspection. Sample cups generally have a thin transparent film bottom and may include a top end formed integral with the cup body known as a single ended design. Alternatively, the sample cup may include a second thin film or be capped at the top end, known as a double open end design. Prior art sample cups are generally delivered to the analyst in parts comprised of a side wall member and complementary secondary member, which members are assembled in combination with a separate thin film component to construct a single sample cup. The sample cup, with its liquid or gas sample contained therein, is then manually transported to an XRF machine and placed in a holder, thin film bottom down, for analysis. Most often, multiple sample cups, each containing a single sample, are intended to be tested contemporaneously, as part of a study. While multiple sample cups may be transported via tray or other implement to the analysis site, such a method is not optimal as the tray may contaminate or damage the thin film outer surface, affecting analysis. Furthermore, such a method hinders ready visual identification of various samples by covering the thin film “window” and requiring manual handling of each sample cup to allow visual identification of the sample contained therein.
Finally, pre-assembled sample cups, including a thin film bottom, are available. While pre-assembled sample cups minimize time and effort to properly assemble a sample cup for testing, they create logistical problems for delivery and storage due to the fragile nature of the thin film component. Unlike conventional unassembled cup member components, pre-assembled cups cannot be bulk packed for shipment or storage due to the high probability of damage or contamination to the thin film surface on the sample cup bottom.
In view of the prior arts' shortcomings, it is thus desirable to create a container which facilitates contaminant-free handling of multiple sample cups at both the delivery and storage stage and during sample cup test usage.
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While the first flap and second flap, as illustrated, facilitate retention of the sample cups within the container, alternative embodiments may substitute a single flap or omit the flaps without digressing from the spirit of the invention.
Furthermore, the dimensions of the container and the number of circular cutouts may be altered or amended to meet industry needs or requirements without digressing from the spirit of the invention.
