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US2247978A - Shaker - Google Patents

Shaker
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Publication number
US2247978A
US2247978AUS330391AUS33039140AUS2247978AUS 2247978 AUS2247978 AUS 2247978AUS 330391 AUS330391 AUS 330391AUS 33039140 AUS33039140 AUS 33039140AUS 2247978 AUS2247978 AUS 2247978A
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United States
Prior art keywords
platform
rods
secured
shaft
gyratory
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US330391A
Inventor
John L Van Arkel
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
ARTHUR H THOMAS CO
Original Assignee
ARTHUR H THOMAS CO
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Publication date
Application filed by ARTHUR H THOMAS COfiledCriticalARTHUR H THOMAS CO
Priority to US330391ApriorityCriticalpatent/US2247978A/en
Application grantedgrantedCritical
Publication of US2247978ApublicationCriticalpatent/US2247978A/en
Anticipated expirationlegal-statusCritical
Expired - Lifetimelegal-statusCriticalCurrent

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Description

July 1, 1941.
v.1. L. VAN ARKEL SHAKER Filed April 18;' A1940 2 Sheets-Sheet l 4 Jamba/@14a whey.;
Ill/l lll/lll;
July 1, l941 J. L. VAN ARKEI. V2,247,978
SHAKER Filed April 18, 1940 2 Sheets-Sheet 2 Patented July 1, 1941 UNITED STATES PATENT OFFICEY SHAKER John L. Van. Arkel, Haddonfeld, N. J., assignor to Arthur H. Thomas Company, Philadelphia, Pa., a corporation of Pennsylvania Application April 18, 1940, Serial No. 330,391
4 Claims.
This invention relates to new and useful improvements in shakers and more particularly to shakers specially adapted for use in clinical and like laboratory work.
In clinical andv other laboratory work many occasions arise which require the agitation of one or more substances to effect the proper mixture, separation or other physical treatment thereof. In numerous instances the severity and length of time required for such physical treatment is not only fatiguing,A if required to be done manually, but also takes the technician away from other work and even then only one or two vessels can be agitated or shaken at one time by an individual. Recently, therefore, there has been a demand'for an inexpensive compact agitation or shaking device which is generally useful in the physical agitation of laboratory specimens and which may be employed vto treat a number of similar or different specimens at one time. I'
With the foregoing observations in mind, an object of the present invention is to provide a novel shaker or agitator for laboratory and like uses which is readily adaptable for the various physical treatments required in laboratory work and which may be employed to treat a number of similar or different types or kinds of specimens at the same time.
Another object of the invention is to provide a shaker or agitator of the character set forth which embodies a novel gyratory agitating or shaking movement and which is characterized by its comparative simplicity and relatively inexpensive cost to manufacture.
Another object of the invention is to provide a shaker of the type described which occupies a small amount of space and which is very quiet and economical in operation.
More particularly the invention resides in certain novel parts and features of the shaker and the construction, arrangement and operation thereof.
These and other objects of the invention and the various features and details of the construction and operation thereof are hereinafter more fully set forth and described and shown in the accompanying drawings, in which:
Figure 1 is a view in perspective of a shaker made according to and embodying the present invention.
Figure 2 is an enlarged view in section taken online 2 2, Figure 1; and
Figure 3 is a View in section taken online 3 3, Figure 2.
Referring now more particularly to the Adrawings, reference numeral I designates a channelshaped base structure of relatively heavy material such as metal, and surrounding the four sides of this base member I is acasing 2 of sheet metal or other suitable material. As shown, thiscasing 2 extends an appreciable distance or height above the base member I.
. Secured in any suitable manner as by means of aistudbolt 3 at or adjacent each of the four corners of the base member I is a helical or' coiled spring 4 and these springs 4 are vertically disposed with respect to said base member I and extend to a heightr or distance slightly above the upper edges of the surroundingcasing structure 2.
The upper ends of these springs 4 are similarly secured, as indicated at 5, to the underside of a platform or table-like structure 6 at or adjacent the four corners respectively thereof as shown. This platform or table 6 preferablyv projects a short distance beyond the casing v2 and the upper surfacev thereof is preferably vcovered or coated with a sheet or thickness of sponge rubber-or the like 'I so as to provide a resilient support for articles placed upon the platform as well as to provide the same with a relatively non-skid surface.
Except for their connections to the base member I and theplatform 6 the springs 4 are without support and since they constitute the sole support for said platform 5 the latter is substantially floating and hence relatively free to move with respect to the base structure when suitably actuated.
A motor M controlled by a switch S and having a double ended shaft 8 of conventional form is secured centrally to the underside of theplatform 6 in such manner that the said' shaft 8 thereof has its axis horizontally disposed and extends parallel to andbelow the said platform E. Eccentrically secured upon the motor shaft 8 at each end thereof is acircular member 9 of proper weight, and it will be observed'that while thesemembers 3 are eccentrically secured upon said shaft 8 they are not oppositely disposed with but havetheir geometric centers in alignment as will be seen by reference to Figure 3 of the drawings.
A particular feature of the invention resides in the provision upon theplatform 6 of supporting rods I0 to which clamps may be secured for supporting flasks-tubes and like laboratory equipment. These rods I0 are secured to the platform or table 6 at their lower ends onlyand.
form 6 at opposite sides of the axis of the motor' shaft 8 as desired and as Well along the front and rear edges of said platform, although the gyratory movement kimparted to the rods in such regions is not as great as that imparted thereto when positioned in the particular location and' relation shown in the drawings. i.
The provision of these vertical supporting rods l greatly broadens the utility and eld of usefulness `of the present invention in that by the use of laboratory clamps of the conventional type any of the -usual laboratory vessels of various types may be secured thereto and their contents subjected to the gyratory shaking action of the device. As illustrative of this wide adaptation o-f the device, I have shown mounted or otherwise secured thereon by means of the rods I0 and suitable clamps, a test tube `I I, flask I2, and a test tube rackl. ious laboratory equipment such as, for example, Kline and other type slides I4, etc., may bersupported or secured directly upon thesurface 1 of the platform A6 by means of detachable resilient straps I or any other means without employing or utilizing the rods lil. In operation of the levice, since the motor shaft 8 is horizontally disposed and theeccentric members 9 thereon rotate in vertical planes the movement imparted to theplatform 6 tends.-
` is opposed VQby the tension of its supporting springs 4 and apparently this component in part is resolved into a lateral gyratory movementk since the saidplatform 6 seems actually tofollow a combined vertical and lateral elliptical course thus imparting to substancesV subjected to the action of the device a combined shaking and whirling action or movement.
This whirling effect or action manifests itself particularly in the treatment of liquids in vessels of the smaller order of diameters such as the test tube Il and in inverted asks such as I2 when such vvessels are secured adjacent the upper end of a rod IU and when the other rod of that pair has also secured to it another vessel or an equivalent weight.
This distinct'manifestation of the whirling action imparted to fluids supported from the rods l0 apparently is-due to a decided whip action that is given the .upper free end of said rods by the motor M and theeccentric members 9 acting through theplatform 6 for as the position of the supporting clamp is moved downward along the rods I0 the violence of the whirling action gradually diminishes. Furthermore, this whirling action becomes openly apparent to the human eye only if a similar vessel or an equivalent weight is supported by a corresponding rod audit is thought that this either balances or `dampens such of the components or harmonies of the vibratory motion as may be neces- In addition, varsary to produce the violent whirling action which is manifest under these circumstances.
Maximum agitation of substances in vessels supported from the support rods I0 is observed and takes place when such vessels are supported from said rods I0 by clamps or other means disposed or extending at right angles or perpendicular to the axis of rotation of the motor shaft 8, and the violence of this agitation diminishes as the vessels are moved circumferentially of the rods I0 reaching a minimum when the clamps or other supporting means are disposed parallel to the axis of rotation of the said motor shaft 8. In addition, it will be celar that furthervariation in the amplitude of the gyratory action produced may be varied as desired by changing the positions of the eccentric members I 9 so that their'geometric centers are in various more entirely `novel gyratory motions for such It will begobserved also that the depositions of misalignment instead of in alignment as shown in the particular embodiment of purposes. vice of the present invention'is relatively simple and compact and capable of relatively inexpensive manufacture thus making it available` to any person having use therefor.
The device is further characterized by its eX- tremely quiet and economical operation and this is afeature not found in analogous devices heref tofore available and designed for one or another specific use or purpose. The device is advantageous also in that it is capable of many and varied laboratory uses involving the physical` treatment of specimenrs andv by its design and construction'it is not limited to any one specific or special use as is' the case of the majority of agitating or shaking devices heretofore available to the laboratory technician.
While one particular embodiment of the invention -has been herein illustratedV and described, it is not intended that the invention be posedv above said platform, a bracket secured to each support rod adjacent vits free upper ends and arranged to support a container laterally adjacentV such rods, and means for rotatively driving the shaft and its eccentric members to impart a gyratory shaking movement to the platform, the gyratory shaking movement o f the platform in turn operating to impart a Whip-l like gyration to the free end portions of said the containers supported horizontal platform resiliently supported for relative freedom of movement, a shaft carried by said platform at the underside thereof with its axis extending parallel to the platform, eccentric members secured upon said shaft, at least one pair of relatively slender elongated support rods vertically disposed upon the platform and secured thereto at their lower ends only so that the remaining portions thereof are freely disposed above said platform, said rods being respectively located at corresponding positions centrally along opposite edges of the platform, a bracket secured to each support rod adjacent its free upper ends and arranged to support a container laterally adjacent such rods, and means for rotatively driving the shaft and its eccentric members to impart a gyratory shaking movement to the platform, the gyratory shaking movement of the platform in turn operating to impart a whip-like gyration to the free end portions of said support rods and the containers supported thereby.
3. In a device of the character described, a base structure, a horizontal platform resiliently supported for relative freedom of movement With respect to said base structure, a shaft carried by said platform at the underside thereof, eccentric members secured upon said shaft, at least one pair of relatively slender elongated support rods vertically disposed upon the platform and secured thereto at their lower ends only so that the remaining portions thereof are freely disposed above said platform, said rods being respectively located at corresponding positions along opposite edges of the platform and at respectively opposite sides of the shaft, a
bracket secured to each support rod adjacent its free upper ends and arranged to support a container laterally adjacent such rods, and means for rotatively driving the shaft and its eccentric members to impart a gyratory shaking movement to the platform, the gyratory shaking movement of the platform in turn operating to impart a whip-like gyration to the free end portions of said support rods and the containers supported thereby.
4. In a device of the character described, a base structure, a horizontal platform resiliently supported for relative freedom of movement with respect to said base structure, a shaft carried by said platform at the underside thereof with its axis extending parallel to the platform, eccentric members secured upon said shaft, at
least one pair of relatively slender elongated support rods vertically disposed upon the platform and secured thereto at their lower ends only so that the remaining portions thereof are freely disposed above said platform, said rods being respectively located at corresponding positions centrally along opposite edges of the platform and at respectively opposite sides of the axis of the shaft, a bracket secured to each support rod adjacent its free upper ends and arranged to support a container laterally adjacent such rods, and means for rotatively driving the shaft and its eccentric members to impart a gyratory shaking movement to the platform, the gyratory shaking movement of the platform in turn operating to impart a Whip-like gyration to the free end portions of said support rods and the containers supported thereby.
JOHN L. VAN ARKEL.
US330391A1940-04-181940-04-18ShakerExpired - LifetimeUS2247978A (en)

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US330391AUS2247978A (en)1940-04-181940-04-18Shaker

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Cited By (29)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2646975A (en)*1951-04-101953-07-28Waldvogel HansMethod for mixing concrete by gravitational vibration
US2648441A (en)*1948-01-171953-08-11Productive Equipment CorpVibrating equipment
US2655928A (en)*1950-01-111953-10-20Barry Wehmiller Mach CoBottle cleansing machine
US2809020A (en)*1954-04-091957-10-08Magee Joseph WilliamShaker
US2826396A (en)*1955-02-011958-03-11Telephonics CorpVibration producing apparatus
US2970781A (en)*1957-08-071961-02-07Chain Belt CoVibratory mill
US2996288A (en)*1957-03-151961-08-15Kavanau Julian LeeDisplaceable support or coupling mechanisms resulting in a universal plate
US3241250A (en)*1965-01-051966-03-22Scientific IndustriesAutomatic shell freezing device
US3286939A (en)*1963-11-261966-11-22Glidden CoVibratory ball mill
US4422768A (en)*1982-03-221983-12-27Roy BrodshyPaint can shaker
US4787751A (en)*1986-06-201988-11-29Marinus BakelsBone cement mixing device
US4859070A (en)*1986-04-231989-08-22General Kinematics CorporationOmniaxis apparatus for processing particulates and the like
US4883644A (en)*1987-12-091989-11-28Brandeis UniversityMicrotube vortexer adapter and method of its use
US5608693A (en)*1993-05-071997-03-04Richards; JeffreyNon-linear vibration device
US5833362A (en)*1997-05-061998-11-10Shepard; JamesBeverage blender
US5947594A (en)*1998-03-191999-09-07Dolatli; GeorgeAgitator device with vibrating clamping member
US6508582B2 (en)1999-12-232003-01-21Union Scientific CorporationElectromagnetic vibratory microplate shaker
US6659637B2 (en)2000-10-032003-12-09Union Scientific CorporationVertical electromagnetic shaker for biological and chemical specimens
US6886764B2 (en)*2001-05-302005-05-03Icoria, Inc.Device and process for pulverizing solid materials
EP1815905A3 (en)*2006-02-012008-03-12Berthold Technologies GmbH & Co. KGMixing device
US20090101738A1 (en)*2007-10-172009-04-23Max-Planck-Gesellschaft Zur Foerderung Der Wissenschaften E. V .System and method for producing weighed portions of powder from at least one biological material at cryotemperatures
NL2003174C2 (en)*2009-07-092011-01-11Laarmann B V VIBRATOR AND HOLDER SUITABLE FOR SUCH VIBRATOR.
US20110069577A1 (en)*2009-09-212011-03-24Darryl Terrence RasperDiverse container material removal machine
US8016218B1 (en)2011-03-162011-09-13Mitchell FriedmanLinear specimen shaker
US8596566B2 (en)*2012-01-162013-12-03Yang-Te HsuBiomedical homogenizing device
US20150063056A1 (en)*2013-08-292015-03-05Burrell Scientific LLCClamp for a Fluid Container and Method of Use Thereof
US9759638B1 (en)*2013-04-252017-09-12Rotaprep, Inc.Apparatus and method for grinding of samples for analysis
USD870548S1 (en)*2018-07-232019-12-24Peggy ModracekClamping device
US10767725B2 (en)*2018-07-252020-09-08Denso International America, Inc.Amplitude-modulating vibrator for predictive maintenance modeling

Cited By (39)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2648441A (en)*1948-01-171953-08-11Productive Equipment CorpVibrating equipment
US2655928A (en)*1950-01-111953-10-20Barry Wehmiller Mach CoBottle cleansing machine
US2646975A (en)*1951-04-101953-07-28Waldvogel HansMethod for mixing concrete by gravitational vibration
US2809020A (en)*1954-04-091957-10-08Magee Joseph WilliamShaker
US2826396A (en)*1955-02-011958-03-11Telephonics CorpVibration producing apparatus
US2996288A (en)*1957-03-151961-08-15Kavanau Julian LeeDisplaceable support or coupling mechanisms resulting in a universal plate
US2970781A (en)*1957-08-071961-02-07Chain Belt CoVibratory mill
US3286939A (en)*1963-11-261966-11-22Glidden CoVibratory ball mill
US3241250A (en)*1965-01-051966-03-22Scientific IndustriesAutomatic shell freezing device
US4422768A (en)*1982-03-221983-12-27Roy BrodshyPaint can shaker
US4859070A (en)*1986-04-231989-08-22General Kinematics CorporationOmniaxis apparatus for processing particulates and the like
US4787751A (en)*1986-06-201988-11-29Marinus BakelsBone cement mixing device
US4883644A (en)*1987-12-091989-11-28Brandeis UniversityMicrotube vortexer adapter and method of its use
US5608693A (en)*1993-05-071997-03-04Richards; JeffreyNon-linear vibration device
US5833362A (en)*1997-05-061998-11-10Shepard; JamesBeverage blender
US5947594A (en)*1998-03-191999-09-07Dolatli; GeorgeAgitator device with vibrating clamping member
US6508582B2 (en)1999-12-232003-01-21Union Scientific CorporationElectromagnetic vibratory microplate shaker
US6659637B2 (en)2000-10-032003-12-09Union Scientific CorporationVertical electromagnetic shaker for biological and chemical specimens
US6886764B2 (en)*2001-05-302005-05-03Icoria, Inc.Device and process for pulverizing solid materials
EP1815905A3 (en)*2006-02-012008-03-12Berthold Technologies GmbH & Co. KGMixing device
US20090101738A1 (en)*2007-10-172009-04-23Max-Planck-Gesellschaft Zur Foerderung Der Wissenschaften E. V .System and method for producing weighed portions of powder from at least one biological material at cryotemperatures
US7823818B2 (en)*2007-10-172010-11-02Max-Planck-Gessellschaft zur Foerderung der Wissenschafter E.V.System and method for producing weighed portions of powder from at least one biological material at cryotemperatures
NL2003174C2 (en)*2009-07-092011-01-11Laarmann B V VIBRATOR AND HOLDER SUITABLE FOR SUCH VIBRATOR.
US20110069577A1 (en)*2009-09-212011-03-24Darryl Terrence RasperDiverse container material removal machine
US8591094B2 (en)*2009-09-212013-11-26Darryl Terrence RasperDiverse container material removal machine
US8016218B1 (en)2011-03-162011-09-13Mitchell FriedmanLinear specimen shaker
US8596566B2 (en)*2012-01-162013-12-03Yang-Te HsuBiomedical homogenizing device
US9759638B1 (en)*2013-04-252017-09-12Rotaprep, Inc.Apparatus and method for grinding of samples for analysis
US20180095017A1 (en)*2013-04-252018-04-05Rotaprep, Inc.Apparatuses for generating a reciprocating motion for the purpose of grinding of samples
US10502667B2 (en)*2013-04-252019-12-10Rotaprep, Inc.Apparatuses for generating a reciprocating motion for the purpose of grinding of samples
US11474006B2 (en)*2013-04-252022-10-18Rotaprep, Inc.Methods for grinding of samples using a combination of rotational and linear motion
US20230116439A1 (en)*2013-04-252023-04-13Rotaprep, Inc.Grinding samples using rotational and linear motion
US11921019B2 (en)*2013-04-252024-03-05Rotaprep, Inc.Grinding samples using rotational and linear motion
US20240344940A1 (en)*2013-04-252024-10-17Rotaprep, Inc.Grinding samples using rotational and linear motion
US12298209B2 (en)*2013-04-252025-05-13Rotaprep, Inc.Grinding samples using rotational and linear motion
US9511334B2 (en)*2013-08-292016-12-06Burrell Scientific LLCClamp for a fluid container and method of use thereof
US20150063056A1 (en)*2013-08-292015-03-05Burrell Scientific LLCClamp for a Fluid Container and Method of Use Thereof
USD870548S1 (en)*2018-07-232019-12-24Peggy ModracekClamping device
US10767725B2 (en)*2018-07-252020-09-08Denso International America, Inc.Amplitude-modulating vibrator for predictive maintenance modeling

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