A mixing system and method may be used to facilitate mixture of ingredients within a container such as a bottle for mixing fitness and recreational beverages and the like. The mixing system may include a mixing apparatus with a container engagement component that couples the mixing system to the con
A mixing system and method may be used to facilitate mixture of ingredients within a container such as a bottle for mixing fitness and recreational beverages and the like. The mixing system may include a mixing apparatus with a container engagement component that couples the mixing system to the container, and a mixing component that mixes the ingredients. The mixing component may have a shaft, a plurality of rotatable mixing members that are rotatable about the shaft, and a plurality of stationary mixing members that are fixedly secured to the shaft. The mixing members may be arranged to contact the ingredients in a manner that facilitates mixture of the ingredients together, in response to repetitive motion of the container.
대표청구항▼
1. A mixing system comprising: a container comprising: a bottle portion comprising an interior; anda cap portion comprising a drinking aperture usable to directly imbibe ingredients from the container;a container engagement component comprising one or more container engagement surfaces; anda mixing
1. A mixing system comprising: a container comprising: a bottle portion comprising an interior; anda cap portion comprising a drinking aperture usable to directly imbibe ingredients from the container;a container engagement component comprising one or more container engagement surfaces; anda mixing component coupled to the container engagement component, the mixing component comprising: a shaft extending along an axis; anda plurality of rotatable mixing members arranged along the shaft;wherein: the one or more container engagement surfaces are positioned to engage the interior to keep the mixing component in place relative to the container;each of the rotatable mixing members comprises a plurality of rotatable mixing surfaces; andthe rotatable mixing members are coupled to the shaft such that the rotatable mixing members are rotatable about the axis with the shaft stationary and non-rotating, with the mixing component disposed within the container to cause the rotatable mixing surfaces to contact the ingredients in a manner that promotes mixture of the ingredients together;each of the rotatable mixing members comprises: a rotatable inner rim that engages the shaft in a manner that permits the rotatable inner rim to rotate about the shaft; anda plurality of rotatable vanes extending outward from the rotatable inner rim, each rotatable vane of the plurality of rotatable vanes comprising a first rotatable mixing surface of the plurality of rotatable mixing surfaces, wherein the first rotatable mixing surface is oriented nonparallel and nonperpendicular to the axis such that motion of the ingredients along the axis induces rotation of each rotatable mixing member about the axis;the mixing component further comprises a plurality of stationary mixing members, each of which is fixedly secured to the shaft; andat least one of the rotatable mixing members is positioned between and adjacent to two of the stationary mixing members; andeach of the stationary mixing members comprises: a stationary inner rim fixedly secured to the shaft; anda plurality of stationary vanes extending outward from the stationary inner rim, each stationary vane of the plurality of stationary vanes comprising a first stationary mixing surface oriented nonparallel and nonperpendicular to the axis such that the first stationary mixing surface cooperates with the plurality of rotatable mixing surfaces to contact the ingredients in a manner that promotes mixture of the ingredients together. 2. The mixing system of claim 1, wherein each rotatable vane of the plurality of rotatable vanes terminates at a rotatable outer edge extending generally along a substantially straight line that, when viewed from along a radius passing through the rotatable outer edge and the axis, is oriented at an angle, relative to the axis, ranging from 30° to 60° . 3. The mixing system of claim 1, wherein: each stationary vane of the plurality of stationary vanes comprises a first window and a second window, each of which is shaped to define window mixing surfaces; andthe window mixing surfaces facilitate mixture together of ingredients flowing through the first window and the second window. 4. The mixing system of claim 1, wherein: each rotatable vane of the plurality of rotatable vanes terminates at a rotatable outer edge extending generally along a first substantially straight line that, when viewed from along a first radius passing through the rotatable outer edge and the axis, is oriented at a first angle relative to the axis;each stationary vane of the plurality of stationary vanes terminates at a stationary outer edge extending generally along a second substantially straight line that, when viewed from along a second radius passing through the stationary outer edge and the axis, is oriented at a second angle relative to the axis; andthe second angle is substantially equal and opposite to the first angle. 5. The mixing system of claim 1, wherein at least one of the rotatable mixing members is positioned in close proximity to two of the stationary mixing members such that during rotation of the at least one rotatable mixing member, only narrow gaps exist between the rotatable vanes of the at least one rotatable mixing member and the stationary vanes of the two of the stationary mixing members. 6. The mixing system of claim 1, wherein: the container comprises interior threading proximate the drinking aperture; andthe container engagement component comprises exterior threading, on which the container engagement surfaces are located, that mates with the interior threading. 7. The mixing system of claim 6, wherein: the exterior threading is connected to the shaft by a plurality of webs that are integrally formed with the exterior threading and the shaft;the webs are distributed about the axis to define a plurality of apertures through which the ingredients pass to move from the drinking aperture to the plurality of mixing members;the plurality of apertures define a plurality of aperture mixing surfaces that further facilitate mixture together of ingredients flowing through the plurality of apertures;each of the webs comprises a plurality of fins projecting outward from the axis; andeach of the fins is oriented at an angle nonparallel and nonperpendicular to the axis to direct ingredients flowing between the fins and toward the drinking aperture to flow through the plurality of apertures. 8. A mixing system comprising: a container comprising: a bottle portion comprising an interior; anda cap portion comprising a drinking aperture usable to directly imbibe ingredients from the container;a container engagement component comprising one or more container engagement surfaces; anda mixing component coupled to the container engagement component, the mixing component comprising: a shaft extending along an axis;a plurality of rotatable mixing members arranged along the shaft; anda plurality of stationary mixing members arranged along the shaft;wherein: the one or more container engagement surfaces are positioned to engage the interior to keep the mixing component in place relative to the container;each of the rotatable mixing members comprises: a rotatable inner rim that engages the shaft in a manner that permits the rotatable inner rim to rotate about the shaft; anda plurality of rotatable vanes extending outward from the rotatable inner rim, each rotatable vane of the plurality of rotatable vanes comprising a first rotatable mixing surface oriented nonparallel and nonperpendicular to the axis such that motion of the ingredients along the axis induces rotation of each rotatable mixing member about the axis to cause the first rotatable mixing surface to contact the ingredients in a manner that promotes mixture of the ingredients together;each of the stationary mixing members comprises: a stationary inner rim fixedly secured to the shaft; anda plurality of stationary vanes extending outward from the stationary inner rim, each stationary vane of the plurality of stationary vanes comprising a first stationary mixing surface oriented nonparallel and nonperpendicular to the axis such that the first stationary mixing surface cooperates with the rotatable mixing surfaces to contact the ingredients in a manner that promotes mixture of the ingredients together;each rotatable vane of the plurality of rotatable vanes terminates at a rotatable outer edge extending generally along a first substantially straight line that, when viewed from along a first radius passing through the rotatable outer edge and the axis, is oriented at a first angle relative to the axis;each stationary vane of the plurality of stationary vanes terminates at a stationary outer edge extending generally along a second substantially straight line that, when viewed from along a second radius passing through the stationary outer edge and the axis, is oriented at a second angle relative to the axis;the first angle is within the range of 30° to 60′;the second angle is substantially equal and opposite to the first angle;each stationary vane of the plurality of stationary vanes comprises a window shaped to define window mixing surfaces that facilitate mixture together of ingredients flowing through the window; at least one of the rotatable mixing members is positioned in close proximity to two of the stationary mixing members such that during rotation of the at least one rotatable mixing member, only narrow gaps exist between the rotatable vanes of the at least one rotatable mixing member and the stationary vanes of the two of the stationary mixing members; andthe rotatable mixing members are coupled to the shaft such that the rotatable mixing members are rotatable about the axis with the shaft stationary and non-rotating. 9. The mixing system of claim 1, wherein each of the rotatable mixing surfaces is oriented to cause rotation of the rotatable mixing members in response to motion of the ingredients along the axis. 10. A mixing system comprising: a container comprising: a bottle portion comprising an interior; anda cap portion comprising a drinking aperture usable to directly imbibe ingredients from the container;a container engagement component comprising one or more container engagement surfaces; anda mixing component coupled to the container engagement component, the mixing component comprising: a shaft extending along an axis; anda plurality of rotatable mixing members arranged along the shaft;wherein: the one or more container engagement surfaces are positioned to engage the interior to keep the mixing system in place relative to the container;each of the rotatable mixing members comprises a plurality of rotatable mixing surfaces; andthe rotatable mixing members are coupled to the shaft such that the rotatable mixing members are rotatable about the axis with the shaft stationary and non-rotating, with the mixing component disposed within the container to cause the rotatable mixing surfaces to contact the ingredients in a manner that promotes mixture of the ingredients together;the container comprises interior threading proximate the drinking aperture; andthe container engagement component comprises exterior threading, on which the container engagement surfaces are located, that mates with the interior threading;the exterior threading is connected to the shaft by a plurality of webs that are integrally formed with the exterior threading and the shaft;the webs are distributed about the axis to define a plurality of apertures through which the ingredients pass to move from the drinking aperture to the plurality of mixing members;the plurality of apertures define a plurality of aperture mixing surfaces that further facilitate mixture together of ingredients flowing through the plurality of apertures;each of the webs comprises a plurality of fins projecting outward from the axis; andeach of the fins is oriented at an angle nonparallel and nonperpendicular to the axis to direct ingredients flowing between the fins and toward the drinking aperture to flow through the plurality of apertures. 11. The mixing system of claim 8, wherein: the container comprises interior threading proximate the drinking aperture; andthe container engagement component comprises exterior threading, on which the container engagement surfaces are located, that mates with the interior threading. 12. The mixing system of claim 11, wherein: the exterior threading is connected to the shaft by a plurality of webs that are integrally formed with the exterior threading and the shaft;the webs are distributed about the axis to define a plurality of apertures through which the ingredients pass to move from the drinking aperture to the plurality of mixing members;the apertures define a plurality of aperture mixing surfaces that further facilitate mixture together of ingredients flowing through the apertures;each of the webs comprises a plurality of fins projecting outward from the axis; andeach of the fins is oriented at an angle nonparallel and nonperpendicular to the axis to direct ingredients flowing between the fins and toward the drinking aperture to flow through the apertures. 13. The mixing system of claim 10, wherein each of the rotatable mixing members comprises: a rotatable inner rim that engages the shaft in a manner that permits the rotatable inner rim to rotate about the shaft; anda plurality of rotatable vanes extending outward from the rotatable inner rim, each rotatable vane of the plurality of rotatable vanes comprising a first rotatable mixing surface of the plurality of rotatable mixing surfaces, wherein the first rotatable mixing surface is oriented nonparallel and nonperpendicular to the axis such that motion of the ingredients along the axis induces rotation of each rotatable mixing member about the axis. 14. The mixing system of claim 13, wherein each rotatable vane of the plurality of rotatable vanes terminates at a rotatable outer edge extending generally along a substantially straight line that, when viewed from along a radius passing through the rotatable outer edge and the axis, is oriented at an angle, relative to the axis, ranging from 30° to 60°. 15. The mixing system of claim 13, wherein: the mixing component further comprises a plurality of stationary mixing members, each of which is fixedly secured to the shaft; andat least one of the rotatable mixing members is positioned between and adjacent to two of the stationary mixing members. 16. The mixing system of claim 15, wherein each of the stationary mixing members comprises: a stationary inner rim fixedly secured to the shaft; anda plurality of stationary vanes extending outward from the stationary inner rim, each stationary vane of the plurality of stationary vanes comprising a first stationary mixing surface oriented nonparallel and nonperpendicular to the axis such that the first stationary mixing surface cooperates with the plurality of rotatable mixing surfaces to contact the ingredients in a manner that promotes mixture of the ingredients together. 17. The mixing system of claim 16, wherein: each stationary vane of the plurality of stationary vanes comprises a first window and a second window, each of which is shaped to define window mixing surfaces; andthe window mixing surfaces facilitate mixture together of ingredients flowing through the first window and the second window. 18. The mixing system of claim 16, wherein: each rotatable vane of the plurality of rotatable vanes terminates at a rotatable outer edge extending generally along a first substantially straight line that, when viewed from along a first radius passing through the rotatable outer edge and the axis, is oriented at a first angle relative to the axis;each stationary vane of the plurality of stationary vanes terminates at a stationary outer edge extending generally along a second substantially straight line that, when viewed from along a second radius passing through the stationary outer edge and the axis, is oriented at a second angle relative to the axis; andthe second angle is substantially equal and opposite to the first angle. 19. The mixing system of claim 16, wherein at least one of the rotatable mixing members is positioned in close proximity to two of the stationary mixing members such that during rotation of the at least one rotatable mixing member, only narrow gaps exist between the rotatable vanes of the at least one rotatable mixing member and the stationary vanes of the two of the stationary mixing members.
Baron Moises S. (637 Third Ave. ; Ste. F Chula Vista CA 91910) Lerner-Baron Sharon (637 Third Ave. ; Ste. F Chula Vista CA 91910), Baby bottle extension assembly having storage chamber and release mechanism.
Baron Moises S. (637 Third Ave. ; Ste. F Chula Vista CA 91910) Lerner-Baron Sharon (637 Third Ave. ; Ste. F Chula Vista CA 91910), Baby bottle extension assembly having storage chamber and release mechanism.
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