US3347531A

US3347531A - Stirring apparatus for plural test tubes

Info

Publication number: US3347531A
Application number: US538166A
Authority: US
Inventors: Ira J Strong; Henry A Leon
Original assignee: Individual
Current assignee: Individual
Priority date: 1966-03-22
Filing date: 1966-03-22
Publication date: 1967-10-17
Anticipated expiration: 1984-10-17

Description

Oct 1967 l...!. STRONG ETAL STIRRING APPARATUS FOR PLURAL TEST TUBES a Sheets-Sheet 1 Filed March 22. 1966 INVENTORS IRA J- STRONG HENRY A. LEON ATTQRNEYS.

ct. 17, 197 |,J. STRONG ETAL STIRRING APPARATUS FOR PLURAL TEST TUBES Filed March 22, 1966 2 SheetsSheet 2 INVENTORS.

United States Patent 3,347,531 STIRRING APPARATUS FOR PLURAL TEST TUBES Ira J. Strong, 323 N. Sunnyvale Ave. 94086, and Henry A. Leon, 812 Coventry Court 94087, both of Sunnyvale, Calif.

Filed Mar. 22, 1966, Ser. No. 538,166

8 Claims. (Cl. 259-71) ABSTRACT OF THE DISCLOSURE A device for simultaneously agitating and thermally controlling the contents of a plurality of test tubes. Rows of test tubes are supported on a rack in a temperaturecontrolled bath. A rod is suspended in each tube from one of two frames. The frames and rods are oscillated at variable speeds, and in opposite directions to minimize vibration. The stirring rods are adjustable with respect totube penetration, and they may be removed from the frames individually or by the row.

The invention described herein was made'by an employee of the United States Government and may be manufactured and used by or for the Government for governmental purposes without the payment of any royalties thereon or therefor.

This invention relates to apparatus for continually stirring the contents of test tubes.

Various laboratory techniques require or could be substantially benefitted by maintaining the contents of test tubes continuously in motion throughout the period of the test. Accordingly, the primary object of the invention is to provide apparatus which will automatically and continuously stir the contents of test tubes for a desired period of time in a simple and efiicient manner.

More specifically an object of the invention is to provide stirring apparatus which will accomplish the desired mixing function for a large number of test tubes in a simultaneous manner. I

Another object of the invention is to accomplish the stirring function in a manner which will avoid spilling the contents of any test tube. This is accomplished by performing the stirring by means of a moving stirring rod which projects into each test tube, while maintaining the test tubes stationary. This method is to be distinguished from one of the prior methods which involved continuous shaking of the test tube which of course requires care to avoid spilling the contents out of the top of the test tube.

Another object of the invention is to provide stirring apparatus which will provide sufiicient agitation to keep solids in suspension. The mentioned prior method which involves shaking the test tube is not satisfactory for maintaining solids in suspension.

A further object of the invention is to provide stirring apparatus in which the temperature of the contents of each of the test tubes can be accurately controlled throughout the stirring period.

An additional object of the invention is to provide stirring apparatus which will be capable of simultaneously stirring a large number of test tubes and yet will be substantially free of vibration.

A further object of the invention is to provide stirring apparatus having indexing means to assure that each stirring rod will be associated with a specific test tube. Thus when the stirring rods are removed from certain test tubes and later replaced in the test tubes it will be possible to be certain that each test tube receives its original stirring rod in order to avoid any cross contamination between test tubes.

3,347,531 Patented Oct. 17, 1967 Another object of the invention is to provide stirring apparatus which will accommodate multiple sets of stirring rods so arranged that any complete set of stirring rods can be removed and replaced while the apparatus is in operation, and so arranged that any individual stirring rod can be removed and replaced while the apparatus is in operation.

A further object of the invention is to provide stirring apparatus having an associated storage rack for supporting the stirring rods in a convenient manner when not in use and in a position which is properly arranged and accessible for easy removal to operating position.

Another object of the invention is to provide stirring apparatus which is designed so that it can be easily constructed in various sizes to accommodate any desired number of test tubes, and which is designed to be easily and conveniently sterilized.

By way of brief description, a stirring apparatus according to the invention comprises a container for receiving a liquid. Means are provided for supporting test tubes in side by side relation in fixed position in the container and arranged for partial emersion in the liquid. The liquid surrounding the test tubes is maintained at any desired temperature by means of conventional heater elements submerged in the liquid. The test tubes are arranged in multiple sets with the test tubes in each set arranged in a line and the multiple lines of test tubes are arranged parallel to each other. A stirring rod holding bar is provided for each set of test tubes, and a plurality of stirring rods are mounted on each holding bar in individually removable manner. The stirring rods are so positioned along each holding bar that when a holding bar is positioned over a line of test tubes each rod will project into a specific test tube. In a preferred embodiment there are four lines of test tubes and four holding bars. Two holding bar frames are provided, and each of these removably supports two of the four rod holding bars. The two frames are positioned above the test tubes so that when the rod holding bars are in place on the frames the stirring rods will project into the test tubes. Means are provided for driving each of the two frames in a path of motion which will cause the individual stirring rods to provide a continuous stirring motion in their respective test tubes. The driving means cause the two frames to move in exactly opposite directions so that there is substantially no vibration. A

i supporting rack is mounted on the apparatus for receiv-' 1 position on the same one of the two frames.

The various objects and features of advantage will become more apparent from the following detailed description wherein reference is made to the accompanying drawings in which:

- FIGURE 1 is a perspective view of the stirring apparatus with three of the four rod holder bars in operating position and one of the bars in storage position on the supporting rack;

FIGURE 2 is a cross sectional view taken on the line 2-2 of FIGURE 1;

FIGURE 3 is a top view of the apparatus taken on the line 33 of FIGURE 2;

' FIGURE 4 is a cross sectional view on enlarged scale showing a detail of the driving mechanism as seen on line of the apparatus 4-4 of FIGURE 3, but with the driving sprocked ro- Referring in more detail to the drawings the stirring apparatus comprises a container 1 having sides 2-5 and a bottom 6 all interconnected in .a fluid tight manner so that the container can be filled to a desired level with water. In order to heat water in the container and maintain it at a desired temperature, a plurality of immersion type electric heaters 8 are providedinside the container, two such heaters'being shown in FIGURE 2. The heaters are mounted on insulating blocks 9 which are secured to

thecontainer walls

3 and 5, with the heaters projectingthrough the walls in a conventional liquid sealed manner. The temperature of the heaters and therefore the temperature of the water in the container is controlled by a conventional thermostat 10 through which the current to all of the heaters passes.

A plurality of test tubes 14 are removably supported in the container 1 in vertical side by side arrangement. It is to be understood that the term test tube as used herein and in the claims broadly defines any shape of open top container for liquid to be mixed. The test tubes 14 are supported on an inverted U-shaped metal member 15 and are held in vertical arrangement by means of a second inverted U-shaped metal member 16 and a cover plate 17 at the top. of the container. In a preferred embodiment the

metal members

15 and 16 are made of a perforated stainless steel screening material which provides ample holes for circulation of heating water in the container. The side legs of the bottom member 15 are of course slotted where they extend over the heaters 8 in order to avoid direct metal contact therewith. In addition to thenormal screen holes in the member 16, it is further provided with large holes which receive and position the individual, test tubes. Similarly the cover plate 17 is provided with holes which receive and position the test tubes. The guiding holes in plate 17 are of course vertically aligned with the holes in the metal member 16. As will be seen best from FIGURE 3 the aligned holes in

members

16 and 17 provide for the reception of four sets 20-23 of eight test tubes each, with the eight test tubes in each set being arranged side by side in a straight line. The cover plate 17 can of course be screwed to the tops of the sides of the container 1, but it has been found convenient for removal and replacement simply to position the cover plate by the force of gravity. The cover plate is provided with a downwardly projecting rim 24 which assures proper lateral positioning of the plate.

In order to accomplish continuous stirring of liquids in the test tubes 14 a plurality of stirring rods 26 are provided. It should be understood that the term rods is employed.herein andin the claims to define broadly any elongated mixing element or paddle in any appropriate specific shape. The rods 26 are mounted in four rod holders in the form of metal bars 30-33 which are in turn removably mounted on a pair of metal rod holder frames 34 and 35.. The rod holder frames are mounted on eccentric driving mechanisms which drive the rod holder frames in a continuous motion in a horizontal plane, as will be described hereinafter in more detail in connection with FIGURE 4.

The rod holder frames 34 and 35 are driven by a variable speed electric motor 38 which can be driven at any desired speed by means of. a conventional Variac (not shown). The motor is held in place by a mounting bracket 39 which is secured to the wall of the container and includes a hinged portion 40 which is spring biased away from the'container and to which the motor 38 is directly connected. The drive shaft of the motor carries a sprocket 42 which in turn engages a conventional drive chain 43 which is maintained in proper tension by the outward biasing of the motor. The chain 43 passes around. and drives four sprockets 46 as shown best in FIGURES ,3 and 4. The sprockets 46 are mounted on the cover plate 17 and are positioned to form the four corners of a rectangle. Each of the sprockets 46 has a central recess containing a bearing 47 which is pressed in place in the recess. Each 4 bearing 47 surrounds a bearing retainer 48 which rests on the plate 17 and is held in place by a screw 49 through a second bearing retainer 50. The screw 49 is concentric with the center of the sprocket 46. A cap 51 is secured to the top of each of the sprockets 46 by screws 52. Each cap 51 has an off-center boss 53 with a threaded hole therein to provide an eccentric driving axis formed by a screw 54. Screw 54 passes through a bearing retainer 55 which engages a bearing 56 that is pressed into the

respective rod holderframe

34 or 35. The bearing arrangement 56 is covered by a disk 57 held in place by screws 58. Other equivalent bearing arrangements can of course be used and the main point is that there be an eccentric drive be tween the sprockets 46 and the rod holder frames 34 and 35. In order to achieve the non-vibrational feature of the apparatus, the eccentric drive axes. 54 for one of the rod holder frames are arranged 180 out of phase with the drive axes 54 for the other rod holder frame. Thus, as shown in FIGURE 3 the axes 54 for rod holder frame 34 are positioned toward the bottom of the paper and those for frame 35 are positioned toward the top of the paper.

In order to provide a bearing surface on which the rod holder frames 34 and 35 can slide during the orbital motions caused by rotation of the sprockets 46, a strip of bearing material such as Teflon is mounted along each Y vided with upwardly projecting portions on which are mounted a protective cover strip 68 which serves also as a holder for a thermometer 69. In a preferred embodiment nylon screws 70 are threaded in the cover strip 68 and bear against the top of the rod holder frames 34 and 35. In order to complete the shielding and guiding system for the chain, a pair of slotted T eflon guides 72 are mounted on a ledge 73 which projects out from the upper end of the motor mounting bracket 39. The shielding of t7he drive chain is completed by a protective cover plate In order to support the rod holder 30-33 when they are not in use in the apparatus, a storage frame 76 is provided. The frame 76 is a U-shaped piece of metal with tabs 77 struck out of its upper side walls to provide recesses 78 for positioning and holding the rod holders when not in use. The storage rack 76 is secured in place by means of outwardly extending feet 79 which are screwed to the rear side wall four of the container 1.

As shown best in FIGURES the stirring rods 26 are vertically adjustable and individually removable from the rod holders 3033. Ina preferred embodiment the rods 26 are frictionally held in place by means of a wire strip spring 82 positioned in a slot 83 in the side of the rod holder and pressed toward the holes for the rods by means of a screw 84. As viewed in FIGURE 5 the stirring rod on the left has been removed, and it will be seen that the normal position of spring 82 partially closes the opening for the rod. Thus when a rod 26 is inserted into one of the rod holders it must force the spring 82 out of the way and is frictionally held. in position by engagement by the spring. The arrangement is such thatv v and replace an entire rod holder 30-33. In order to provide this flexibility of adjustment, the rod holders are provided at their ends with detents as indicated in FIG- URE 2, and the holder frames 34 and 35 are provided with spring biased balls 85 which engage the detents in a manner which holds the rod holders in place during operation but readily permits their insertion and removal. The holder frames 34 and 35 are provided with slots or recesses 86 which receive the ends of the holders and thus provide positive positioning against downward or sideways motion of the rod holders with respect to the holder frames.

It will be noted that in the same manner that four sets 2023 of eight test tubes are provided, there is also provided a plurality of four matching sets of eight stirring rods each. The four sets of stirring rods are provided by the four rod holders 30-33. In order to make it convenient and possible to be assured that each rod set 30-33 will always be positioned above its respective tube set 2023, the rack 76 is arranged to support the out of use rod holders in similar positions to those in which they are arranged in use. Thus it is convenient to always position the rod holder 33, for example, always in the far slots on the supporting rack and in the far slots in the rod holder frame 35 as viewed in FIGURE 1, with the same end of the rod holders always pointing in the same directions. In addition to avoid any possible confusion, further indexing means are provided in the form of four different index marks 87-90 on one end of each rod holder, and corresponding index marks 9194 adjacent each of the slots 85 in the rod holder frames 34 and 35. Thus it is possible to be absolutely assured that when a rod holder is removed from its

frame

34 or 35 and then replaced, the same end of the rod holder will always be in exactly the same position so that there will be no contamination from one set of test tubes to another, nor among tubes in any individual set.

Although specific details of the present invention are shown and described herein, it is to be understood that modifications may be made therein without departing from the spirit and scope of the invention as set forth in the appended claims.

What is claimed is:

1. Stirring apparatus comprising an open top container having side and bottom walls, a cover plate mounted on the top of said container, four sprockets rotatably mounted on said plate for rotation of each sprocket about its center, said sprockets being arranged to form the four corners of a rectangle, a drive motor having a drive sprocket, a drive chain interconnecting all five of said sprockets, two rod holder frames movably mounted above said plate in spaced side by side arrangement, bearing means connecting one of said holder frames to two of said four sprockets off-center of the axis of each of said two sprockets, bearing means connecting the other of said holder frames to the other two of said four sprockets off-center of the axis of each of said other two sprockets, the connections between said four sprockets and said two holder frames being so adjusted that when said four sprockets are rotated by said chain said two holder frames move in exactly opposite directions, at least one stirring rod holder mounted on each of said holder frames, at least one stirring rod mounted on each rod holder to project down into said container, and said cover plate being apertured to receive said stirring rods.

2. Stirring apparatus as claimed in claim 1 in which plastic bearing material is positioned between said cover plate and said holder frames.

3. Stirring apparatus as claimed in claim 2 in which grooves are provided in said bearing material to receive said chain.

4. Stirring apparatus comprising a container for liquid, means for supporting test tubes vertically in said container, two rod holder frames positioned above said container, at least one rod holder mounted on each of said holder frames, stirring rods mounted on said rod holders and arranged to project down into said test tubes, said rod holders being removably mounted on said holder frames, individual indexing means on each of said rod holders, matching indexing means on said holder frames whereby it is possible to be certain of always matching a specific stirring rod with a specific test tube, and means for driving said holder frames in opposite directions around closed paths of identical shape out of phase with each other to cause said stirring rods to move inside said test tubes.

5. Stirring apparatus comprising a container for liquid, means for supporting test tubes vertically in said container, said supporting means comprising a plate adjacent the -top of said container and provided with spaced holes for receiving test tubes, a partition wall above the bottom of said container having spaced holes for test tubes aligned with the holes in said plate, two rod holder frames positioned above said container, at least one rod holder mounted on each of said holder frames, stirring rods mounted on said rod holders and arranged to project down into said test tubes, and means for driving said holder frames in opposite directions around closed paths of identical shape 180 out of phase with each other to cause said stirring rods to move inside said test tubes.

6. Stirring apparatus comprising a container for liquid, means for supporting test tubes vertically in said container, two rod holder frames spaced from each other and positioned above said container, a protective strip covering the space between said holder frames, and a thermometer mounted on said protective strip and projecting down into said container, at least one rod holder mounted on each of said holder frames, stirring rods mounted on said rod holders and arranged to project down into said test tubes, and means for driving said holder frames in opposite directions around closed paths of identical shape 180 out of phase with each other to cause said stirring rods to move inside said test tubes.

7. Stirring apparatus comprising a container for liquid, means for supporting test tubes vertically in said container, two rod holder frames positioned above said container, at least one rod holder mounted on each of said holder frames, stirring rods mounted on said rod holders and arranged to project down into said test tubes, said rod holders being removably mounted on said holder frames, a rack on the side of each container shaped to hold said rod holders, and means for driving said holder frames in opposite directions around closed paths of identical shape 180 out of phase with each other to cause said stirring rods to move inside said test tubes.

8. Stirring apparatus comprising a container for liquid, means for supporting test tubes vertically in said container, two rod holder frames positioned above said container, at least one rod holder mounted on each of said holder frames, stirring rods mounted on said rod holders and arranged to project down into said test tubes, said stirring rods passing through holes in said rod holders, spring means frictionally engaging the side of each rod to hold it adjustably and removably in its respective hole, and means for driving said holder frames in opposite directions around closed paths of identical shape 180 out of phase with each other to cause said stirring rods to move inside said test tubes.

References Cited UNITED STATES PATENTS 1,493,749 5/1924 Hoesly 25970 2,068,976 l/ 1937 Dillon 259-70 X 3,265,365 8/1966 Ward et al. 2598 WALTER A. SCHEEL, Primary Examiner. R. W. JENKINS, Assistant Examiner.

Claims

6. STIRRING APPARATUS COMPRISING A CONTAINER FOR LIQUID, MEANS FOR SUPPORTING TEST TUBES VERTICALLY IN SAID CONTAINER, TWO ROD HOLDER FRAMES SPACED FROM EACH OTHER AND POSITIONED ABOVE SAID CONTAINER, A PROTECTIVE STRIP COVERING THE SPACE BETWEEN SAID HOLDER FRAMES, AND A THEREMOMETER MOUNTED ON SAID PROTECTIVE STRIP AND PROJECTING DOWN INTO SAID CONTAINER, AT LEAST ONE ROD HOLDER MOUNTED ON EACH OF SAID HOLDER FRAMES, STIRRING RODS MOUNTED ON SAID ROD HOLDERS AND ARRANGED TO PROJECT DOWN INTO SAID TEST TUBES, AND MEANS FOR DRIVING SAID HOLDER FRAMES IN OPPOSITE DIRECTIONS AROUND CLOSED PATHS OF IDENTICAL SHAPE 180* OUT OF PHASE WITH EACH OTHER TO CAUSE SAID STIRRING RODS TO MOVE INSIDE SAID TEST TUBES.