The present invention discloses a sample holder for use in holding and transporting fragrance samples placed therein. More particularly, the present invention provides a fragrance sample holder which releasably holds a fragrance sample therein and provides a more pleasant and user-friend external appearance.
In department stores and other retail locations, fragrance samples are often distributed in small cylindrical spray or applicator bottles. Each bottle contains a small fragrance sample, such as cologne or perfume, which are distributed for free or provided along with purchases. The bottles are intentionally cheap and small and can be hard to operate by a grown adult. In addition, the bottles are similar in appearance, unadorned, and hard to differentiate. Also, there are more than a dozen different shapes and sizes of these bottles which is often not apparent until many different bottles have been collected by a customer.
Because these bottles are small and difficult to use, many are lost or go unused. Therefore, a need exists for a fragrance sample holder which makes the bottles easier to use while providing a convenient and more attractive carrying structure. Further, the fragrance sample holder preferably also has a cap to prevent accidental discharge of the fragrance contained in the bottle.
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.
Referring first to
Body 102 and/or cap 104 may be covered with an external fabric or textile, such as fabric or leather to give sample holder 100 a pleasant aesthetic appearance. In the depicted embodiment, body 102 and cap 104 are wrapped by covering 106 and joined at a seam. Cover 106 may be made of leather, fabric, synthetic material, etc. In other embodiments, body 102 or cap 104 may be left bare to show their composite material such as metal or plastic. Body or cap 104 may also be covered with branding or other text. In some embodiments, body 102 additionally comprises band 108 which visually separates body 102 from cap 108.
Cap 104 preferably has an outer diameter of 2-2.5 cm.
Body 102 and cap 104 may be formed from the same or different materials. For example, cap 104 may be formed from a lightweight metal, such as aluminum while body 102 is formed from a hard plastic.
The top portion of cap retainer 802 comprises holder opening 808 which has a smaller diameter than the remainder of cap retainer 802 or cylindrical tube 804. The top portion of cap retainer 802 preferably has an outer diameter of 1.5-2 cm. Holder opening 808 provides two important functions. First, the smaller diameter of holder opening 808 prevents cylindrical tube 804 from being inserted past holder opening 808 during assembly. Further, holder opening 808 is specifically sized such that it is only slightly larger than the largest diameter sample bottles currently. Holder opening 808 is preferably 1-1.5 cm in diameter. This helps to prevent the tip of the inserted sample bottle, which sits slightly above holder opening 808, from wiggling during use and leading to a better user experience.
Cap retainer 802 also comprises band 108, which has a diameter greater than or equal to an inner diameter of the body 102, around it periphery. Band 108 limits how far cap retainer 802 and cylindrical tube 804 can be inserted into body 102. Also, because cylindrical tube 804 must be removable in order to adjust sample holder 100, band 108 also provides a good gripping surface, allowing a user to easily remove cap retainer 802 and cylindrical tube 804 from body 102.
The outer diameter of cap retainer 802 below band 108 is sized for a friction fit with the interior of body 102. However, like cap 104, it should be apparent that this portion of cap retainer 802 could also comprise threads which mate with grooves on an interior surface of body 102.
The interior of cylindrical tube 804, which holds and retains the sample bottles, will be described later. Threaded seat 806 comprises a plurality of threads 810 which mate with grooves internal to the bottom of cylindrical tube 804. A bottom of threaded seat 806 comprises handle 812 which allows a user to unscrew/screw threaded seat 806 into cylindrical tube 804. By adjusting threaded seat 806 using handle 812, a user can adjust seat 814 which limits how far a sample bottle can be inserted into cylindrical tube 804. For example, since the height size of sample bottles varies, a user may need to adjust seat 814 upward or downward so that the top of the sample bottle (e.g., the pump spray) sits a usable distance above holder opening 808.
Threads 810 of threaded seat 806 mate with grooves 904 internal to cylindrical tube 804. This allows a user to adjust seat 814 upward or downward within cylindrical tube 804 so that different length sample bottles 902 can be accommodate using a single sample holder 100.
Cylindrical tube 804 further comprises one or more internal gaskets 906 having a plurality of downward facing arms 908 arranged symmetrically in a ring pattern. From a top view, the arms 908 would appear to form a star pattern.
The center of the arms 908 forms an internal ring at the tip of the gasket 906 which is sized to be narrower than any current commercially available sample bottle 902. This internal ring is preferably 0.3-0.75 cm in diameter. Thus, when sample bottle 902 is inserted into cylindrical tube 804, the arms 908 are deflected downward and exert a spring retaining force on the exterior of sample bottle 902. The force exerted by arms 908 on sample bottle 902 prevent sample bottle 902 from becoming accidentally dislodged from sample holder 100. The use of arms 908 allows sample holder to be utilized with sample holders 902 having differing diameters because the arms 908 can be deflected. The only limit to the maximum width of the sample holder 902 is the width of holder opening 808. In order to remove sample bottle 902, a user must grasp the tip of sample bottle 902 and forcibly remove it.
Sample holder 100 preferably comprises at least two gaskets 906. However, it should be apparent than any number of gaskets can be employed. Gaskets 906, along with holder opening 808, provide three separate means for centering sample bottle 902 within cylindrical tube 804. Gaskets 906 and arms 908 are preferably formed from by molding polyethylene. This material provides reliably resiliency as sample holder 100 is used and sample bottles 902 are repeatedly replaced.
Number | Name | Date | Kind |
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4403624 | Montgomery | Sep 1983 | A |
7311201 | Lo | Dec 2007 | B2 |
9538829 | Chung | Jan 2017 | B2 |
Number | Date | Country | |
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20210059381 A1 | Mar 2021 | US |