The sample holder is configured to releasably and securely hold fragrance sample bottles therein. The sample holder generally comprises a body and a cap. The cap preferably mates with the body via a friction fit or threaded connection. The body comprises an interior cavity having one or more retaining structures for releasably retaining the bottles within the cavity. A length of the cavity is also adjustable to accommodate sample bottles of different lengths. An exterior of the body may comprise a pattern, material, or fabric to enhance the aesthetics of the sample holder.

A bundle of tubular and/or rod-shaped glass articles is provided that includes a longest dimension, a plurality of layers (N.sub.L) of the glass articles, and a thread-like element. The longest dimension extends in a first direction. The glass articles in each layer are arranged side by side in a second direction. The plurality of layers are arranged side by side in a third direction. The first, second, and third directions being perpendicular to one another. The thread-like element is around two of the glass articles in at least one layer so that the two glass articles are spaced apart. The thread-like element has a cross section between at least 0.25 mm and at most 4.0 mm.

A bundle of tubular and/or rod-shaped glass articles is provided that includes a longest dimension, a plurality of layers (N.sub.L) of the glass articles, and a thread-like element. The longest dimension extends in a first direction. The glass articles in each layer are arranged side by side in a second direction. The plurality of layers are arranged side by side in a third direction. The first, second, and third directions being perpendicular to one another. The thread-like element is around two of the glass articles in at least one layer so that the two glass articles are spaced apart.

Disclosed herein is a sample holder configured to releasably and securely hold fragrance sample bottles therein. The sample holder generally comprises a body and a cap. The cap preferably mates with the body via a friction fit or threaded connection. The body comprises an interior cavity having one or more retaining structures for releasably retaining the bottles within the cavity. A length of the cavity is also adjustable to accommodate sample bottles of different lengths. An exterior of the body may comprise a pattern, material, or fabric to enhance the aesthetics of the sample holder.

A substrate container includes a container body having a storage space and an opening in communication with the storage, a door body disposed at the opening, a limiter disposed on the door body and facing the opening, a supporter disposed on one side of the storage space, and at least two elastic buffer elements tightly disposed between the door body and the limiter and between the supporter and the container body, respectively. A door assembly of a substrate container, a support assembly of a substrate container and an elastic buffer element used in a substrate container are further provided. The elastic buffer element is applied between any two rigid elements in the substrate container to provide a buffer force and an appropriate frictional force, so as to alleviate the problems of impact and dust generated between the rigid elements.

The invention relates to a method of protecting a container (1) against impacts, the container presenting a body (2) that is terminated at one end by a bottom and at the other end by a transition portion (4) leading to a neck (3), the method comprising the steps of: putting a bottom cup (5) into place on the container to cover the bottom of the container and project laterally from the body of the container; putting a top cup (6; 60) into place on the container pressing against the transition portion of the container in order to project laterally from the body of the container; covering the assembly with the help of a sleeve (20) of heat-shrink material; and heat-shrinking the sleeve.

An apparatus and system for storing and transporting fluids, the apparatus comprising a pair of collars, each collar comprising three panels, and a storage container, the storage container having a shape generally of a triangular prism. One of the pair of collars being attached proximate a top of the storage tank, the other of the pair of collars being attached proximate the bottom of the storage tank. The storage container having a generally triangular top plate with at least one port, a generally triangular bottom plate with the top and bottom plate having shapes that generally correspond, and a sidewall extending between the top and bottom plate. Each collar may comprise three elongated panels, each panel having a joining structure at opposite ends, wherein joining structures of the elongated panels are configured for connection adjacent joining structures of another panel to operably connect the three panels.

A glass article layer is provided that includes at least two cylindrical glass articles arranged side by side in an x-direction and extending in a z-direction. Spacers are arranged between the cylindrical glass articles. The spacers are provided at least at two spaced apart spacer positions in the z-direction longitudinally of the cylindrical glass article. The spacers are thread-like elements and at least one thread-like element is provided at each position.

A glass article layer is provided that includes at least two cylindrical glass articles extending in a z-direction and arranged side by side in an x-direction. Two spacers are provided spaced apart from one another at an interval longitudinally of the glass article in the z-direction. The spacers are arranged between the glass articles. The spacers are thread-like elements and at least one of the thread-like elements is provided at each spacer position.

A substantially cylindrical glass bottle that is susceptible to accidental rolling and breakage when stored on its side has been structurally modified by forming a series of between approximately 8 and 24 small protrusions or bumpers spaced apart at regular intervals along either one path or two separated paths around the bottle's circumference at certain distances from the shoulder and base of the bottle. The bumpers project outward between approximately 2 mm to 6 mm from the bottle's outer sidewall surface, and pairs of these bumpers stably support the bottle stored on its side without the bottle rocking or rolling.