Automated multiple-purpose chemical-analysis apparatus
First Claim
1. In automated sample analysis apparatus for analyzing each of a plurality of samples successively and in liquid state for at least one constituent, said apparatus having(i) sample containers on a first transport,(ii) reaction vessels and optical cuvette elements on a second transport,(iii) reagent containers on a third transport,(iv) liquid transfer means, and(v) measuring means,the improvement whereinsaid second transport conveys said reaction vessels and said cuvette elements in separate respective single ordered successions successively along a first path,said third transport conveys said reagent containers along a second path coextensive at least in part with said first path,said liquid transfer means are arranged for transferring liquid from sample containers on said first transport to reaction vessels being conveyed along said first path, and are arranged for transferring liquid between containers on said third transport and reaction vessels conveyed along said first path at any of plural locations where said second path is coextensive with said first path, andsaid measuring means includes photometer source means arranged for illuminating said cuvette elements with optical measuring energy at different locations along at least a selected part of said first path, and further includes photometric detector means and detector carriage means, said carriage means being arranged for carrying said detector means, relative to said second transport, about a path extending along at least a part of said first path receiving radiant energy responsive to illumination of said cuvette elements by said optical source means.
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Abstract
Analysis apparatus with flexible multi-analysis capability, suitable for example for biochemical constituent analysis, has a single channel of reaction vessels arranged to receive reagents from any of a battery of reagent reservoirs and has photometer elements from measuring the reaction in each reaction vessel on a repetitive sequential basis. Control elements select the sample liquid delivered to each reaction vessel, select the reagents added thereto, and select the data processing for the photometer or other measurement information secured for reactants in that reaction vessel. The photometer elements apply and detect optical energy along selected directions to provide any of several photometric measurements, including for example of colorimetry, fluorometry, or nephelometry.
163 Citations
12 Claims
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1. In automated sample analysis apparatus for analyzing each of a plurality of samples successively and in liquid state for at least one constituent, said apparatus having
(i) sample containers on a first transport, (ii) reaction vessels and optical cuvette elements on a second transport, (iii) reagent containers on a third transport, (iv) liquid transfer means, and (v) measuring means, the improvement wherein said second transport conveys said reaction vessels and said cuvette elements in separate respective single ordered successions successively along a first path, said third transport conveys said reagent containers along a second path coextensive at least in part with said first path, said liquid transfer means are arranged for transferring liquid from sample containers on said first transport to reaction vessels being conveyed along said first path, and are arranged for transferring liquid between containers on said third transport and reaction vessels conveyed along said first path at any of plural locations where said second path is coextensive with said first path, and said measuring means includes photometer source means arranged for illuminating said cuvette elements with optical measuring energy at different locations along at least a selected part of said first path, and further includes photometric detector means and detector carriage means, said carriage means being arranged for carrying said detector means, relative to said second transport, about a path extending along at least a part of said first path receiving radiant energy responsive to illumination of said cuvette elements by said optical source means.
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4. In automated sample analysis apparatus for analyzing each of a plurality of samples successively and in liquid state for at least one constituent, said apparatus having
(i) sample containers on a first transport, (ii) reaction vessels conveyed along a first path on a second transport, (iii) reagent containers on a third transport, and (iv) liquid transfer means arranged for transferring liquid from sample containers on said first transport to reaction vessels on said second transport, and for transferring liquid between containers on said third transport and reaction vessels on said second transport, the improvement comprising means forming plural optical cuvette elements on said second transport, each cuvette element being associated with a reaction vessel, first liquid conduit means connected between each reaction vessel and the associated cuvette element for the passage therethrough of liquid reactants, second liquid conduit means connected with each cuvette element for communicating a pressure condition applied thereto for selectively passing fluid between that cuvette element and the associated reaction vessel, and measuring means including photometer source means arranged for illuminating said cuvette elements with optical measuring energy at different locations along at least a selected part of said first path, and further including photometric detector means and detector carriage means, said carriage means being arranged for carrying said detector means about a path extending along at least a part of said first path for receiving radiant energy responsive to illumination of said cuvette elements by said optical source means.
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5. In automated sample analysis apparatus for analyzing each of a plurality of samples successively and in liquid state for at least one constituent, said apparatus having
(i) sample containers on a first transport, (ii) reaction vessels conveyed along a first path on a second transport, (iii) reagent containers on a third transport, and (iv) liquid transfer means arranged for transferring liquid from sample containers on said first transport to reaction vessels on said second transport, and for transferring liquid between containers on said third transport and reaction vessels on said second transport, the improvement comprising means forming plural optical cuvette elements on said second transport, each cuvette element being associated with a reaction vessel and being arranged for receiving liquid reactants from the associated reaction vessel, and measuring means including a single photometer source means arranged for illuminating all said cuvette elements with optical measuring energy at different locations along at least a selected part of said first path, and further including photometric detector means and detector carriage means, said carriage means being arranged for carrying a single detector means about a path extending along at least a part of said first path for receiving radiant energy responsive to illumination of all said cuvette elements by said optical source means.
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7. Photometer apparatus for the repeated measurement of plural samples in succession, said apparatus having a single optical source and plural circularly-arrayed cuvette elements each of which is arranged for receiving optical energy from said source, said apparatus further having the improvement comprising
a single optical detector, and carriage means for carrying said detector along a circular path for receiving optical energy from each of different sets of one or more of said cuvette elements one at a time and in succession, said received energy being responsive to illumination from said optical source, said carriage means maintaining a selected face of said detector at a selected radial orientation relative to said circular path throughout the movement of said detector along said circular path.
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8. Photometer apparatus for the repeated measurement of plural samples in succession, said apparatus having a single optical source, and an ordered and circularly-arrayed set of plural cuvette elements each of which is arranged for receiving optical energy from said source, said apparatus further having the improvement comprising
A. a single optical detector located outside the circular array of said cuvette elements and arranged for receiving optical energy from each of different sets of one or more cuvette elements one at a time and in succession and repeatedly at multiple spaced times throughout an operating time, said received energy being responsive to illumination from said optical source, and B. means for selecting at least the wavelength of the path through each cuvette element of optical source energy being detected.
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9. Automatic photometer apparatus having an optical source and a cuvette with an optical axis between opposed optical windows and an optical detector and means for supplying sample liquid to the cuvette and for discharging sample liquid from it, and having means for directing optical energy from the source to the cuvette along a first direction to illuminate sample therein and to direct resultant optical energy exiting from the cuvette along the first direction to the optical detector, and further comprising
A. first optical means for directing optical energy from the source to the cuvette to illuminate sample therein along a second direction transverse to said first direction, B. second optical means for directing to the detector optical energy exiting from the cuvette along the second direction, and C. selecting means for directing to the cuvette optical energy from the source along only one of said first and second directions, and for directing to the optical detector optical energy exiting from the cuvette along only one of said first and second directions.
Specification
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Current AssigneeTechnicraft Incorporated
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Original AssigneeTechnicraft Incorporated
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InventorsJordan, Michael
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Primary Examiner(s)Serwin, Ronald
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Application NumberUS06/056,688Time in Patent Office1,014 DaysField of Search422/64, 422/65, 422/67, 356/180, 356/184, 356/188, 356/246, 356/434, 356/218, 364/497, 364/498, 250/564US Class Current422/64CPC Class CodesG01N 21/253 for batch operation, i.e. m...Y10T 436/113332 with conveyance of sample a...
