EP0339143A1

EP0339143A1 - Test tube rack assembly

Info

Publication number: EP0339143A1
Application number: EP88201844A
Authority: EP
Inventors: David Landsberger
Original assignee: Individual
Current assignee: Individual
Priority date: 1988-04-25
Filing date: 1988-08-30
Publication date: 1989-11-02
Also published as: JPH01274848A

Abstract

A test tube rack assembly is disclosed which features a flat base (2) and likewise flat upper and lower test tube support members (32,30) of a suitable plastic material. The base has ends (8,10) and sides (12,14) which are bent substantially normal to its bottom and include apertures (26,28) for receiving tabs (44,42) on the upper and lower support members (32,30) whereby said members are snapped into the base so as to be removeably supported thereby. With the disclosed arrangement the base member (2) and upper and lower support members (32,30) may be stored and shipped in the flat state so as to reduce storage space and shipping costs, and the test tube rack assembly may accommodate a variety of test tube quantities and sizes, as is desireable.

Description

This invention relates to a test tube rack assembly featuring upper and lower test tube support members, and a base for removeably supporting said members.
Test tube racks are basic equipment in laboratories and the like and serve to hold test tubes during various analytical and processing procedures. In this regard, and for purposes of illustration, reference is made to Catalog 283 published by Bel-Art Products, Inc., Pequannock, New Jersey, wherein a variety of test tube racks are illustrated and described.
Currently available test tube racks are generally of a unitary construction. This requires more storage space than is desireable and increases shipping costs, as the case may be. Further the test tube support portions of these racks are not removeable which detracts from their versatility in accommodating a variety of test tube sizes and desired holding capacities. Moreover, if the racks are of a molded plastic material as is common in the art, the molds for such unitary racks are costly and add to the ultimate cost of the rack.
Accordingly, a need has been recognized for a test tube rack which overcomes the aforenoted disadvantages of the prior art test tube racks. The test tube rack assembly of the present invention satisfies this need.
This invention contemplates a test tube rack assembly including a base which removeably supports upper and lower test tube support members. The base is fabricated as a flat member having ends and sides which are bendable substantially normal to the bottom of the base. The upper and lower support members have discretely spaced tabs which are received in snap-fit relation in corresponding discretely spaced apertures in the bent ends and sides of the base.
The bottom of the base is a flat open grid. The upper and lower support members are flat open grids corresponding in size and pattern so that a plurality of test tubes fit through said grids for being supported by said upper and lower support members. Since the base and support members may be shipped and stored flat, shipping costs and storage space are reduced.
The upper and lower support members are thus removeable, whereby the base can support a variety of said members having grids of a variety of corresponding sizes and patterns.
The Invention will be more fully understood in the light of the following description of an embodiment of the invention

Figure 1 is a plan view of a base for a test tube rack according to the invention.
Figure 2 is an exploded view showing the sides and ends of the base shown in Figure 1 bent normal to the bottom thereof, and further showing upper and lower test tube support members according to the invention.

With reference to the drawing, a test tube rack base is designated by the numeral 2. Base 2 has a solid circumferential frame 4 surrounding an open grid 6 which serves as the bottom of the base as will hereinafter become evident.
End members 8 and 10 extend from the one and the opposite ends of frame 4 and side members 12 and 14 extend from the one and the opposite sides of said frame. Side members 12 and 14 each include a pair of U-shaped members 16 and 18 and 20 and 22, respectively. U-shaped members 16 and 18 are in spaced relation and are disposed near the ends of side member 12 and U-shaped members 20 and 22 are in corresponding spaced relation and are disposed near the ends of side member 14.
End members 8 and 10 have substantially rectangular relatively large openings 24 and 25, respectively, extending therethrough for purposes which will be hereinafter described.
End members 8 and 10 have a plurality (shown as four in number for illustration purposes) of horizontally and vertically aligned relatively small, substantially rectangular, discretely spaced upper and lower apertures such as 26. U-shaped members 16 and 18 of side member 12 and 20 and 22 of side member 14 likewise have a plurality (shown as four in number for illustration purposes) of horizontally and vertically aligned relatively small, discretely spaced substantially rectangular, upper and lower apertures such as 28. Apertures 26 and 28 have a purpose which will be hereinafter described.
With particular reference to Figure 1, base 2 is molded as a flat member of a suitable plastic material such as polypropylene with a ten percent talc content for weighting purposes. In forming the test tube rack, ends 8 and 10 and sides 12 and 14 are bent so as to be substantially normal to bottom 6 as shown in Figure 2. In this regard it will be understood that ends 8 and 10 and sides 12 and 14 extend from base frame 4 so as to form a natural hinge therewith as at 15 and 17, whereby the aforenoted bending is facilitated as is well known in the plastics fabrication art.
With reference to Figure 2, a lower test tube support member is designated by the numeral 30 and an upper test tube support member is designated by the numeral 32. Support members 30 and 32 include solid circumferential frames 34 and 36, respectively, surrounding open grids 38 and 40, respectively. The size and pattern of grid 38 and the size and pattern of grid 40 must coincide as will be hereinafter more fully explained.
Frame 34 has a plurality of shouldered tabs 42 spaced circumferentially therearound and frame 40 has a corresponding plurality of like tabs 44 likewise spaced circumferentially therearound. Tabs 42 and 44 are spaced so as to correspond to the spacing of lower and upper apertures 26 in base end members 8 and 10, respectively and lower and upper apertures 28 in base side members 12 and 14, respectively.
As particularly shown in Figure 2, in providing the test tube rack assembly of the invention, lower test tube support member 30 is disposed between base end members 8 and and base side members 12 and 14 so that tabs 42 are aligned with lower apertures 26 and 28. Thereupon tabs 42 are snapped into said apertures 26 and 28 so that lower support member 38 is supported on its ends and sides by the ends and sides of base 2. Similarly, upper test tube support member 32 is disposed between base end members 8 and 10 and side members 12 and 14 so that tabs 44 are aligned with upper apertures 26 and 28, whereupon said tabs are snapped into said apertures so that upper support member 40 is supported on its ends and sides by base 2 above lower support member 30.
As heretofore noted the spacing and pattern of lower and upper support member grids 38 and 40 must correspond so that test tubes to be supported thereby are axially displaced first through upper support member grid 40 and then through lower support member grid 38. The spacing and pattern of base grid 6 need not correspond to that of grids 38 and 40 since the purpose of grid 6 is merely for draining or the like as will now be understood by those skilled in the art.
Openings 24 and 25 in end members 8 and 10 of base 2 are for handling purposes, whereby the rack assembly can be easily grasped.
It will now be understood that with base member 2 provided as aforenoted, support members 38 and 40 may be removeably assembled to the base member. Thus, base member 2 accommodates a variety of pairs of lower and upper support members such as 38 and 40, each pair having a different but corresponding grid spacing and pattern to support more or less test tubes of larger or smaller sizes, as the case may be.
In further description of the invention it will be understood that the described assembly features ease of manufacture and maximum versatility. Further, the fabrication of the invention, which in the preferred embodiment thereof is of a molded plastic construction as aforenoted, is simplified. Thus, base member 2, lower support member 38 and upper support member 40 may be molded as flat members to reduce mold costs. Further, these members may be stored and shipped in the flat state to reduce required storage space and shipping costs as will now be understood. The test tube rack as described is easily cleaned and is readily autoclavable as is desirable.
With the above description of the invention in mind reference is made to the claims appended hereto for a definition of the scope of the invention.

Claims

1. A test tube rack assembly, comprising:
a base (2) including a bottom (4,6), oppositely disposed end members (8,10) and oppositely disposed side members (12,14);
the end (8,10) and side (12,14) members being substantially normal to the bottom (4,6), and each of said end and side members carrying a plurality of discretely spaced, horizontally and vertically aligned upper and lower apertures (26,28)
an upper test tube support member (32) having a plurality of tabs (44) spaced so as to correspond to the spacing of the upper apertures (26,28);
a lower test tube support member (30) having a plurality of tabs (42) spaced so as to correspond to the spacing of the lower apertures (26,28); and
the upper (32) and lower (30) test tube support members being disposed between the end (8,10) and side (12,14) members, whereupon the tabs of said upper and lower support members are received in snap fit relation by the respective upper and lower apertures so that said support members are removeably supported by the base (2).

2. A test tube rack assembly as described by claim 1, wherein:
the upper and lower support members (32,30) include flat open grids (38,40) corresponding in size and pattern for supporting test tubes axially displaced first through the grid of the upper support member and then through the grid of the lower support member.

3. A test tube rack assembly as described by claim 1, wherein:
the base (2) is initally flat and of a material so that the end (8,10) and side (12,14) members extend in a natural hinge arrangement from the bottom thereof, whereby said end and side members are bent substantially normal to said bottom.

4. A test tube rack assembly as described by claim 3, wherein:
the bottom (4,6) includes a flat open grid (6).

5. A test tube rack assembly as described by claim 1, wherein:
the side members (12,14) each include a pair of U-shaped members (16,18;20,22) disposed in spaced relation near the ends of the side members; and
the apertures (28) carried by the side members (12,14) being carried by the U-shaped members (16,18;20,22).

6. A test tube rack assembly as described by claim 1, wherein:
each of said end members (8,10) includes an opening (24,25) for grasping the test tube rack assembly.

7. A test tube rack assembly, comprising:
a base (2) including a bottom (4,6), oppositely disposed end members (8,10) and oppositely disposed side members (12,14);
the base (2) initially flat and of a material so that the end (8,10) and side (12,14) members extend in a natural hinge arrangement from the bottom (4,6) thereof, whereby said end and side members are bent substantially normal to the bottom;
the bottom includes a flat open grid (6);
upper and lower support members (32,34) including flat open grids (40,38) corresponding in size and pattern;
each of said end (8,10) and side (12,14) members carrying a plurality of discretely spaced, horizontally and vertically aligned upper and lower apertures (26,28);
the upper support member (32) including a plurality of tabs (42) spaced so as to correspond to the spacing of the lower apertures (26,28); and
the lower support member (30) including a plurality of tabs (42) spaced so as to correspond to the spacing of the lower apertures (26,28); and
the upper and lower support members (32,30) being disposed between the bent end (8,10) and side (12,14) members, whereupon the tabs (44,42) of said upper and lower support members (32,30) are received in snap fit relation by the respective upper and lower apertures (26,28) so that said support members (32,30) are removeably supported by the base (2).