Apparatus for automatic preparation of a mixture and method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B67D-005/52
B67D-005/60
B65B-043/50
B01F-015/02
출원번호
US-0030659
(2000-05-06)
우선권정보
US-0133251 (1999-05-08)
국제출원번호
PCT/US00/12229
(2000-05-06)
국제공개번호
WO00/68137
(2000-11-16)
발명자
/ 주소
Neas, Edwin D.
Templar, Dennis L.
Tiffany, III, Harry J.
출원인 / 주소
Chata Biosystems, Inc.
대리인 / 주소
Macheledt Bales LLP
인용정보
피인용 횟수 :
52인용 특허 :
23
초록▼
An apparatus and associated method of preparing a mixture using a computerized apparatus having a plurality of vessels, each of which is arranged on a support structure and oriented for dispensing a fluent substance through at least one exit port and a first flow channel. Each first flow channel is
An apparatus and associated method of preparing a mixture using a computerized apparatus having a plurality of vessels, each of which is arranged on a support structure and oriented for dispensing a fluent substance through at least one exit port and a first flow channel. Each first flow channel is in further communication with a dedicated measurement assembly, for dosing fluent substance so dispensed, and a second flow channel. The apparatus also includes a receptacle support; and can further incorporate a user interface for receiving a first input concerning the mixture plus a storage device to hold instructions for locating a respective one of the second flow channels and the receptacle support in operative relation. The apparatus can further comprise titration and mixing modules; and an alternative apparatus and method can utilize a support structure having a framework moveably coupled to a sustaining member, whereby many flexible-walled vessels can be accommodated.
대표청구항▼
1. An apparatus for automatic preparation of a preselected mixture, comprising:a plurality of vessels, each vessel is flexible-walled with an associated first flow channel hermetically extending from an exit port and is arranged on a support structure and oriented for dispensing a fluent substance t
1. An apparatus for automatic preparation of a preselected mixture, comprising:a plurality of vessels, each vessel is flexible-walled with an associated first flow channel hermetically extending from an exit port and is arranged on a support structure and oriented for dispensing a fluent substance through at least said exit port and said first flow channel, each said first flow channel in further communication with a dedicated measurement assembly and a second flow channel;a receptacle support;a user interface for receiving a first input concerning the mixture; anda storage device holding a plurality of instructions for locating a respective one of said second flow channels and said receptacle support in operative relation for collecting said fluent substance. 2. The apparatus of claim 1 wherein the mixture is selected from the group consisting of liquid reagents, cleaning solutions, solvents, pesticides, herbicides, paints, mixed beverages, and fluent foodstuff; said instructions for locating further comprises instructions for rotating a respective one of said plurality of vessels to position said respective second flow channel above said receptacle support; and said plurality of instructions further comprises instructions for directing a respective one of said dedicated measurement assemblies to dose, according to said input, said fluent substance so dispensed. 3. The apparatus of claim 1 wherein:said support structure comprises a framework rotatively coupled to an axis member, said vessels are circuitously arranged on said framework; an upper-end and a lower-end of each said vessel has been hermetically formed from a flexible stock material and pre-filled to contain said fluent substance said framework comprises a plurality of projections, each said projection to fit through a support opening of said upper-end to bold a respective one of said plurality of vessels; andthe apparatus further comprises a dose actuator stationed in positional relationship with said receptacle support. 4. The apparatus of claim 3 wherein said measurement assemblies are circuitously arranged on said framework in proximity to said vessels; each said measurement assembly being movable vertically along said axis member, and further comprising a piston chamber within which a head connected to a first end of a rod is disposed; said respective second flow channel to comprise a tubular-extension; and said operative relation for collecting to comprise said tubular-extension located over said receptacle support. 5. The apparatus of claim 1 wherein: said support structure comprises a framework rotatively coupled to a sustaining member, said vessels and measurement assemblies are circuitously arranged on said, framework; and the apparatus further comprises a mixer stationed in positional relationship with said receptacle support. 6. The apparatus of claim 5 comprising a mixture receptacle on said receptacle support; and wherein said first input comprises information about a preselected number of batches and a chemical make-up of the mixture; said sustaining member is an axis member, each said measurement assembly vertically movable there along; and said user interface comprises a display. 7. The apparatus of claim 1 wherein said support structure comprises a framework coupled to a sustaining member; and further comprising a portable base to which said sustaining member is affixed, a titration module stationed in positional relationship with said receptacle support, and a dose actuator stationed in positional relationship with said receptacle support upon said base. 8. An apparatus for automatic preparation of a preselected mixture, composing:a plurality of vessels, each vessel arranged on a support structure and oriented for dispensing a fluent substance through at least one exit port and a first flow channel, each said first flow channel in further communication with a dedicated measurement assembly and a second flow channel, said support structure compris ing a framework, said vessels circuitously arranged on said framework;a receptacle support;a user interface for receiving a first input concerning the mixture;a storage device holding a plurality of instructions for locating a respective one of said second flow channels and said receptacle support in operative relation for collecting said fluent substance;a dose actuator stationed in positional relationship with said receptacle support;a dedicated check valve upstream of each of said measurement assembly, andwherein: an upper-end and a lower-end of each said vessel has been hermetically formed from a flexible tubular stock material; said framework comprises a plurality of projections, each said projection to fit through a support opening of said upper-end to hold a respective one of said plurality of vessels; and each said measurement assembly further comprises a piston chamber within which a head connected to a first end of a rod is disposed. 9. The apparatus of claim 8 wherein said dose actuator comprises a push-surface in connection with a movable linkage, whereby upward movement of said push-surface against a second end of a respective one of said rods causes said head to force any said fluent substance within said piston chamber out and through said respective second flow channel. 10. An apparatus for automatic preparation of a preselected mixture, comprising:a plurality of vessels, each vessel arranged on a support structure and oriented for dispensing a fluent substance through at least one exit port and a first flow channel, each said first flow channel in further communication with a dedicated measurement assembly and a second flow channel;a receptacle support;a user interface for receiving a first input concerning the mixture;a storage device holding a plurality of instructions for locating a respective one of said second flow channels and said receptacle support in operative relation for collecting said fluent substance; andwherein: said support structure comprises a framework movably coupled to a sustaining member, said vessels are arranged on said framework; and the apparatus further comprises a titration module and a mixer, each stationed in positional relationship with said receptacle support. 11. The apparatus of claim 10 wherein the mixture is selected from the group consisting of liquid reagents, cleaning solutions, solvents, pesticides, herbicides, paints, mixed beverages, and fluent foodstuff; said instructions for locating further comprises instructions for positioning said receptacle support under said respective second flow channel; and said plurality of instructions further comprises instructions for directing a respective one of said dedicated measurement assemblies to dose, according to said input, said fluent substance so dispensed. 12. An apparatus for automatic preparation of a preselected mixture, comprising:a plurality of vessels, each vessel arranged on a support structure and oriented for dispensing a fluent substance through at least one exit port and a first flow channel, each said first flow channel in further communication with a dedicated measurement assembly and a second flow channel;a receptacle support;said support structure comprises a framework rotatively coupled to a sustaining member, said vessels and measurement assemblies are circuitously arranged on said framework; and the apparatus further comprises a mixer stationed in positional relationship with said receptacle support;a user interface for receiving a first input concerning the mixture;a storage device holding a plurality of instructions for locating a respective one of said second flow channels and said receptacle support in operative relation for collecting said fluent substance; anda titration module stationed in positional relationship with said receptacle support; each of said vessels is flexible-walled with an associated said first flow channel hermetically extending from a respective exit port; and wherein said framewo rk comprises a plurality of outwardly extending spokes upon which said flexible-walled vessels hang. 13. A method of preparing a preselected mixture using a computerized apparatus, comprising the steps of:arranging a plurality of flexible-walled vessels on a support structure of the apparatus, at least one of said vessels having been pre-filled with a fluent substance and having a first flow channel hermetically extending from an exit port;receiving a first input concerning the mixture; andaccording to said first input and a plurality of instructions held on a storage device of the apparatus: automatically locating a second flow channel and a receptacle support in operative relation; dispensing said fluent substance through a lease said exit port and said first flow channel from a two one of a plurality of ,each said first flow channel in further communication with a dedicated measurement assembly and said second flow channel; and using said measurement assembly, dosing said fluent substance so dispensed. 14. The method of claim 13 further comprising the steps of positioning a mixture receptacle on said receptacle support, collecting said dosed fluent substance in said mixture receptacle, and further according to said first input, automatically titrating said collected fluent substance; and wherein said step of automatically locating said second flow channel further comprises rotating said respective vessel and a respective one of said dedicated measurement assemblies such that said second flow channel is over said mixture receptacle. 15. The method of claim 13 wherein:said step of automatically locating said second flow channel further comprises moving said receptacle support under said second flow channel; andsaid step of dosing further comprises the steps of allowing said dispensed fluent substance to pass through a check valve in communication with said first flow channel and into a volume of a piston chamber of a respective one of said dedicated measurement assemblies, and actuating a dose actuator stationed in positional relationship with said receptacle support. 16. The method of claim 15 wherein:said step of automatically locating said second flow channel further comprises also moving, vertically along a sustaining member of said support structure, said respective dedicated measurement assembly; andsaid step of actuating further comprises moving, in an upwardly direction, a push-surface of said dose actuator against a second end of a rod connected to a head disposed within said piston chamber. 17. The method of claim 13 wherein said step of arranging a plurality of flexible-walled vessels further comprises hanging each of said flexible-walled vessels on a framework of said support structure; and further comprising the steps of: positioning a mixture receptacle on said receptacle support; collecting said dosed fluent substance in said mixture receptacle; and further according to said first input, automatically moving a framework of said support structure so that said second flow channel associated with said respective vessel is no longer in said operative relation with said receptacle support, and locating another of said second flow e m channels that is in communication with a second one of said plurality of vessels over said receptacle support. 18. The method of claim 18 further comprising the steps of:dispensing a second fluent substance through at least one second vessel port and a first flow channel from said second vessel;using a second one of said dedicated measurement assemblies in communication with said first flow channel from said second vessel, dosing said second fluent substance so dispensed;collecting said dosed second fluent substance in said mixture receptacle;automatically titrating said collected fluent substances. 19. A method of preparing a preselected mixture using a computerized apparatus, comprising the steps of:receiving a first input concerning the mixture;preselecting said mixture from the grou p consisting of liquid reagents, cleaning solutions, solvents, pesticides, herbicides, paints, mixed beverages, and fluent foodstuff, and manually entering said first input, comprising said preselection, through a user interface of the apparatus;according to said first input and a plurality of instructions held on a storage device of the apparatus: automatically locating a second flow channel and a receptacle support in operative relation by rotating said respective vessel and a respective one of said dedicated measurement assemblies such that said second flow channel is over said mixture receptacle; dispensing a fluent substance through at least one exit port and a first flow channel from a respective one of a plurality of vessels arranged on a support structure of the apparatus, each said first flow channel in further communication with a dedicated measurement assembly and said second flow channel; and using said measurement assembly, dosing said fluent substance so dispensed;collecting said dosed fluent substance in said mixture receptacle;mixing said collected fluent substance; andfurther according to said first input, automatically titrating said collected fluent substance to balance pH thereof. 20. A method of preparing a preselected mixture using a computerized apparatus, comprising the steps of:receiving a first input concerning the mixture;according to said first input and a plurality of instructions held on a storage device of the apparatus: automatically locating a second flow channel and a receptacle support in operative relation; dispensing a fluent substance through at least one exit port and a first flow channel from a respective one of a plurality of vessels arranged on a support structure of the apparatus, each said first flow channel in further communication with a dedicated measurement assembly and said second flow channel; and Using said measurement assembly, dosing said fluent substance so dispensed;positioning a mixture receptacle on said receptacle support,collecting said dosed fluent substance in said mixture receptacle;mixing said collected fluent substances within said mixture receptacle; andfurther according to said first input, automatically titrating said collected fluent substances to balance pH thereof, comprising inserting a pH probe into said collected fluent substances and adding pH solution as directed. 21. An apparatus for automatic preparation of a preselected mixture, comprising:a plurality of vessels, each vessel arranged on a support structure and oriented for dispensing a fluent substance through a first flow channel that is in further communication with a dedicated measurement assembly for dosing said substance so dispensed; a receptade support;a user interface for receiving a first input concerning the mixture; anda storage device holding a plurality of instructions for said dosing, according to said input; anda titration module and a mixer, each stationed in positional relationship with said receptacle support. 22. An apparatus for automatic preparation of a preselected mixture, comprising:a plurality of vessels, each vessel arranged on a support structure and oriented for dispensing a fluent substance through at least one exit port and a first flow channel, each said first flow channel in further communication with a dedicated measurement assembly and a second flow channel;a receptacle support;a user interface for receiving a first input concerning the mixture;a storage device holding a plurality of instructions for locating a respective one of said second flow channels and said receptacle support in operative relation for collecting said fluent substance; anda titration module stationed in positional relationship with said receptacle support. 23. The apparatus of claim 22 wherein: the mixture is selected from the group consisting of liquid reagents, cleaning solutions,:solvents, pesticides, herbicides, paints, mixed beverages, and fluent foodstuff; and at least one of said vessels is flexible-walled and pre-filled with said fluent substance with said first flow channel hermetically extending from said exit port, said first flow channel being flexible. 24. A method of preparing a preselected mixture using a computerized apparatus, comprising the steps of:receiving a first input concerning the mixture; andaccording to said first input and a plurality of instructions held on a storage device of the apparatus: automatically locating a second flow channel and a receptacle support in operative relation by rotating said respective vessel and a respective one of said dedicated measurement assemblies such that said second flow channel is over said mixture receptacle; dispensing a fluent substance through at least one exit port and a first flow channel from a respective one of a plurality of vessels arranged on a support structure of the apparatus, each said first flow channel in further communication with a dedicated measurement assembly and said second flow channel; using said measurement assembly, dosing said fluent substance so dispensed; collecting said dosed fluent substance in said mixture receptacle; and automatically titratiug said collected fluent substance.
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