Automated fluid management systems and associated methods

Abstract

An automatic fluid mixing and dispensing apparatus using a minimum of two powered actuating mechanisms to retrieve fluids from a plurality of fluid containers, mix said fluids, and dispense said fluids into a plurality of dispensed fluid containers. Fluids are stored until requested and mixed in accordance with operator input.

Claims

1. A fluid management apparatus comprising: an arrangement of different fluid dispensing containers; a fluid retriever device including a fluid receiving member that is repositionable between the different fluid dispensing containers so as to receive fluid from the different fluid dispensing containers; a first motion actuator that moves the fluid receiving member in a first direction; a second motion actuator that moves the fluid receiving member in a second direction; and a fluid mixing device in fluid communication with the fluid receiving member, the fluid mixing device being engaged with the first and/or second motion actuator in such a way that the respective motion actuator imparts mixing motion to the fluid mixing device.

2. The apparatus of claim 1, wherein the different fluid dispensing containers include a respective fluid retrieval valve and the first motion actuator and/or second motion actuator is(are) operably engaged with the fluid retrieval valves.

3. The apparatus of claim 1, wherein the fluid mixing device includes a dispensing valve and the first motion actuator and/or second motion actuator is(are) operably engaged with the dispensing valve.

4. The apparatus of claim 1, further comprising a third motion actuator that moves the fluid receiving member in a third direction.

5. A method of retrieving and mixing fluids, the method comprising: dispensing fluid from an arrangement of different fluid dispensing containers by repositioning a fluid receiving member between the different fluid dispensing containers so as to receive fluid from the different fluid dispensing containers; imparting motion to a first motion actuator that repositions the fluid receiving member in a first direction; imparting motion to a second motion actuator that repositions the fluid receiving member in a second direction; and mixing the received fluids in a fluid mixing device in fluid communication with the fluid receiving member by imparting motion to the first and/or second motion actuator, causing the fluid mixing device to move and mix the received fluids.

6. The method of claim 5, wherein the different fluid dispensing containers include a respective fluid retrieval valve and the first motion actuator and/or second motion actuator is(are) operably engaged with the fluid retrieval valves.

7. The method of claim 5, wherein the fluid mixing device includes a dispensing valve and the first motion actuator and/or second motion actuator is(are) operably engaged with the dispensing valve.

8. The method of claim 5, further comprising imparting motion to a third motion actuator that moves the fluid receiving member in a third direction.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is showing a front view outline of an embodiment of a fluid storage, fluid retrieval, fluid mixing, and fluid dispensing apparatus according to the invention.

(2) FIGS. 2A and 2B are perspective front views of the embodiment shown in FIG. 1 that illustrate the movement of the secondary carriages along the secondary guidance elements.

(3) FIGS. 3A, 3B, and 3C are fragmentary perspective front views of the embodiment shown in FIG. 1 that illustrate the movements of the secondary carriage and fluid retrieval member, in which FIG. 3A shows the secondary carriage in position with respect to a primary fluid container, FIG. 3B shows a rotated fluid retrieval member in alignment with a fluid retrieval valve, and FIG. 3C shows the movement of the secondary carriage as a means for the fluid retrieval member to engage the fluid retrieval valve.

(4) FIGS. 4A and 4B are front section views of the embodiment shown in FIG. 1 that illustrate the actuation of the fluid retrieval valves, in which FIG. 4A shows the fluid retrieval valve in a normally closed position and FIG. 4B shows the fluid retrieval valve actuated into an open position.

(5) FIGS. 5A and 5B are fragmentary perspective front views of the embodiment shown in FIG. 1 that illustrate the movements of the secondary carriage.

(6) FIGS. 6A and 6B are front views of the embodiment shown in FIG. 1 with the fluid mixing container shown in partial section view that illustrate the actuation of the fluid mixing container's fluid dispensing valve, in which FIG. 6A shows the fluid mixing container's fluid dispensing valve in a normally closed position with the secondary carriage in position above the fluid dispensing valve's actuation member and FIG. 6B shows the fluid mixing container's fluid dispensing valve actuated into an open position by the secondary carriage's contact with the valve actuation member.

(7) FIG. 7 is a fragmentary perspective rear view of the embodiment show in FIG. 1 that shows features and components of the apparatus obscured in FIG. 1 and a double headed arrow indicates the direction of travel of the primary carriage.

(8) In the figures; item 1 is the frame; item 2 is a primary fluid container; item 3 is a fluid retrieval valve; item 4 is a smooth flow valve; item 5 is a primary guidance member; item 6 is a primary carriage; item 7 is a secondary guidance member; item 8 is a secondary carriage; item 9 is a fluid retrieval member; item 10 is a fluid collection mechanism; item 11 is a fluid transmission mechanism; item 12 is a fluid mixing container; item 13 is a fluid dispensing & distribution platform; item 14 is a dispensed fluid container; item 15 is a wash bottle fluid container; item 16 is a drip & waste container; item 17 is the primary powered actuation mechanism; item 18 is a sensor; item 19 is a microprocessor; item 20 is a power source; item 21 is the fluid container holding mechanism; item 22 is a secondary powered actuation mechanism; item 23 is a tertiary powered actuation mechanism; item 24 is a fluid dispensing valve.

DETAILED DESCRIPTION OF THE VARIOUS EMBODIMENTS OF THE INVENTION

(9) Examples of possible configurations of the apparatus and associated methods will now be discussed in more detail. The examples depicted in the drawings and described below are provided for the purpose of illustration and are not intended to disclose all possible configurations or examples or limit the scope of possible configurations or examples.

(10) In view of the foregoing, what is needed is a fluid dispensing system that is much simpler.

(11) The example embodiments described here provide solutions to address at least one of the problems of the conventional systems by providing a simpler, lower cost apparatus and/or method of gravity fed dispensing, retrieval, mixing, and storage of fluids.

(12) Apparatus for the storage of various fluids in a multitude of fluid containers and the retrieval of the fluid from the fluid containers for the purposes of mixing and dispensing the fluid into additional dispensed fluid containers, the operation of which is conducted through the use of a multi-user software-based method for operating the apparatus.

(13) While several embodiments are described further herein, an example embodiment of the apparatus includes: a frame, being comprised of supporting structures or members; an arrangement of a plurality of primary fluid containers, such as bottles or other like containers; an arrangement of a plurality of fluid container holding mechanisms, such as a grasping mechanism or other stabilizing or positioning mechanism, or cavity, etc.; a plurality of non-powered fluid retrieval valves, such as a spring loaded check valve or the like, for each of the primary fluid containers; one or more wash bottle fluid containers, such as bottles or other like containers; one or more wash bottle fluid container holding mechanisms, such as a grasping mechanism or other stabilizing or positioning mechanism, or cavity, etc. for each of the wash bottle fluid containers; one or more non-powered fluid retrieval valves, such as a spring loaded check valve or the like, for each of the wash bottle fluid containers; a smooth flow valve, such as a check valve, flap valve, umbrella valve, duckbill valve, etc., for each of the primary fluid containers and wash bottle fluid containers; a plurality of primary guidance members, such as rails, tubes, etc. and corresponding path constraining components; a primary carriage, such as a platform or other structure capable of traversing the primary guidance members; a primary powered motion actuation mechanism for the primary carriage, such as an electric motor or actuator and an accompanying belt, spool, lead screw, etc.; a plurality of secondary guidance members, such as rails, tubes, etc. and corresponding path constraining components; a secondary carriage, such as a platform or other structure capable of traversing the secondary guidance members; a secondary powered motion actuation mechanism for the secondary carriage, such as an electric motor or actuator and an accompanying belt, spool, lead screw, etc.; one or more fluid retrieval members, such an arm, jib, boom, etc.; a tertiary powered motion actuation mechanism for the fluid retrieval member, such as an electric motor, servo, etc.; one or more fluid collection mechanisms, such as a cup, funnel, etc.; one or more fluid transfer mechanisms, such as a tube, pipe, etc.; one or more fluid mixing containers, such as a bottle, bowl, or other like container; one or more fluid dispensing valves, such as a spring loaded check valve or the like; one or more fluid dispensing & distribution platforms, such as a plate, panel, or other resting surfaces; an arrangement of dispensed fluid containers, such as cups, bottles, or glasses; a series of fluid container holding mechanisms for the dispensed fluid containers, such as a grasping mechanism or other stabilizing or positioning mechanism, or cavity, etc.; one or more wash bottle fluid containers, such as bottles or other like containers; one or more fluid container holding mechanisms for the wash bottle fluid container, such as a grasping mechanism or other stabilizing or positioning mechanism, or cavity, etc.; a drip & waste container, such as a bottle, bowl, or bin; a fluid container holding mechanism for the drip & waste fluid container, such as a grasping mechanism or other stabilizing or positioning mechanism, or cavity, etc.; a power source, such as a battery or standard wall outlet power; a microprocessor, such as a programmable electronic circuit; an information input device, such as a keyboard, keypad, touchpad, etc.; a display, such as a monitor or other digital information viewing screen; and sensors, such as momentary contact switches, proximity sensors, etc., for detecting the position of the primary carriage, the secondary carriage, and the fluid retrieval member. An example embodiment can also include a method of which information regarding the operations the apparatuses may be used by one or more users through multiple computing devices.

(14) In one embodiment an automated fluid storage, fluid retrieval, fluid mixing, and fluid dispensing apparatus can be provided which comprises a frame structure upon or within which the various elements of the apparatus are attached or held. The frame can house an arrangement of one or more primary fluid containers and wash bottle fluid containers, within which fluid is stored before retrieval, each of the primary fluid containers and wash bottle fluid containers having their own respective fluid retrieval valve, and where the primary fluid containers and wash bottle fluid containers are held to the frame by one or more fluid container holding mechanisms. The frame can house one or more primary guidance members, which are attached to the frame, which allows a corresponding primary carriage to traverse upon the primary guidance members. The frame can house one or more of the secondary guidance members, which are attached to the primary carriage, which allows a corresponding secondary carriage to traverse upon the secondary guidance members. The primary and secondary carriages are propelled along their respective primary and secondary guidance members by their respective primary and secondary powered actuation mechanisms. The fluid collection mechanism can be brought into alignment with any of the plurality of the primary fluid containers or wash bottle fluid containers by use of the translation of the primary and secondary carriages along their respective primary and secondary guidance members. The secondary carriage(s) can have attached one or more fluid retrieval members, emitting from the secondary carriage(s), upon which is a fluid collection mechanism, that operably engages the fluid retrieval valves of the primary fluid containers and wash bottle fluid containers by applying a direct physical force to open the fluid path of the fluid retrieval valves of the primary fluid containers and wash bottle fluid containers, which said force is imparted by the motion of the secondary carriage(s), as they travel along their respective secondary guidance members. The one or more primary fluid containers, wash bottle fluid containers, and fluid mixing containers can have a smooth flow valve to allow air to enter these containers to avoid uneven flow or gurgling of the fluid as it exists the retrieval valve to ensure reliable flow rate-based metering of the fluid. The one or more fluid transmission mechanism(s) provides the fluid a path from the fluid collection mechanism and the fluid retrieval member to a fluid mixing container. The primary carriage can have attached one or more fluid mixing containers, within which fluid is, after being received from the fluid transmission mechanism, stored, and optionally mixed, before being dispensed; each of the fluid mixing containers having their own respective fluid dispensing valve. The fluid mixing container and its accompanying fluid dispensing valve can be brought into alignment with any of the plurality of the dispensed fluid containers by use of the translation of the primary carriage along its primary guidance members. The fluid mixing containers can dispense the fluids contained within by utilizing the motion of the secondary carriage to impart a force on the fluid dispensing valves of the fluid mixing containers to open the fluid pathway of the fluid dispensing valve of the fluid mixing containers, which said force is imparted by the motion of the secondary carriage as it travels along its secondary guidance members. The frame can house one or more fluid dispensing & distribution platforms, where the fluid dispensing & distribution platform(s) are attached to the frame. The fluid dispensing & distribution platform(s) can allow for one or more dispensed fluid containers, within which fluid is, after being received from the fluid mixing container, stored before retrieval by the user, and where the dispensed fluid containers are held to the fluid dispensing & distribution platform by one or more fluid container holding mechanisms. The frame can house one or more drip & waste containers to receive and store excess, dripped, or flushed fluid dispensed from the fluid mixing container for retrieval by the user, and where the fluid waste containers are held to the frame structure by one or more fluid container holding mechanisms.

(15) Another embodiment can provide a tertiary powered actuation mechanism to position one or more fluid retrieval members in a stored or variably extended position with respect to the primary and secondary carriages and the primary fluid containers and/or wash bottle fluid containers.

(16) Another embodiment can provide mixing of the fluid contained within the fluid mixing container by utilizing the transmission of motion of the primary powered actuation mechanism to the primary carriage in order to thereby move the fluid mixing container that is attached to the primary carriage in a manner that allows for mixing and/or agitating of the fluids contained within.

(17) Another embodiment can provide mixing of the fluid contained within the fluid mixing container by utilizing the transmission of motion of the secondary powered actuation mechanism to the secondary carriage in order to thereby move the fluid mixing container that is attached to the secondary carriage in a manner that allows for mixing and/or agitating of the fluids contained within.

(18) Another embodiment allows for the secondary carriage to have one or more fluid retrieval members attached, emitting from the secondary carriage, upon which a fluid collection mechanism exists, that operably engages the fluid retrieval valves of the primary fluid containers and wash bottle fluid containers by applying a direct physical force to open the fluid path of the fluid retrieval valves of the primary fluid containers and wash bottle fluid containers, which said force is imparted by the motion of the primary carriages, as they travel along their respective primary guidance members.

(19) Another embodiment allows for the secondary carriage to have one or more fluid retrieval members attached, emitting from the secondary carriage, upon which a fluid collection mechanism exists, that operably engages the fluid retrieval valves of the primary fluid containers and wash bottle fluid containers by applying a direct physical force to open the fluid path of the fluid retrieval valves of the primary fluid containers and wash bottle fluid containers, which said force is imparted by the motion of the fluid retrieval member, as it is activated into motion by the tertiary powered actuation mechanism.

(20) Another embodiment can provide a method of which the apparatus uses the normal dispensing and mixing operations to flush, clean, and sanitize the surfaces with which the fluids make contact by engaging the wash bottle fluid containers in the same manner as the apparatus would for a primary fluid container.

(21) Another embodiment can provide a microprocessor to send and receive signals to and from the powered sources of motion actuation, sensors, displays, keyboards, off-board interactive computer systems, or combinations thereof.

(22) Another embodiment can provide a method of which information regarding the fluid storage, fluid retrieval, fluid mixing, and fluid dispensing operations of one or more apparatuses may be inputted, wired or wirelessly transmitted, and shared between one or more apparatuses and/or one or more off-board interactive computer systems or mobile devices, and thereby allow multiple simultaneous users.

(23) Another embodiment can make use of an on-board power source or outlet power for the electrical needs of the apparatus.

(24) With the use of the above-mentioned features of the apparatus and method, the total product cost and complexity of a fluid storage, fluid retrieval, fluid mixing, and fluid dispensing device can be significantly reduced through the use of only two powered actuation mechanisms, the primary and secondary powered actuation mechanisms, to accomplish all of the physical actions necessary to retrieve, mix, and dispense a multitude of fluid combinations from a multitude of fluid containers. With the use of only two powered actuation mechanisms, the primary and secondary powered actuation mechanisms, and a fluid collection mechanism being fixed/static with respect to the secondary carriage, the fluid collection mechanism would necessarily be required to travel around the primary fluid containers and wash bottle fluid containers so therefore the addition of a tertiary powered source of motion actuation to allow for the fluid retrieval member to relocate to a stored position, the fluid collection mechanism can then achieve faster travel times when traveling from one primary fluid container to another or to the wash bottle fluid containers thereby eliminating its potential for collision with the primary fluid containers, wash bottle fluid containers, or any of their associated components when traveling in a line of sight manner from one primary fluid container to another or to the wash bottle fluid containers. The apparatus increases the ease of maintenance by automating the cleaning and flushing of the fluid collection mechanism, fluid transmission mechanisms, fluid mixing container, and fluid dispensing valves with the inclusion of a wash bottle fluid container, filled with a cleaning solution, to rinse and sanitize the apparatus's fluid contacting surfaces and dispensing any flushed material, waste, drippings, etc. into the drip & waste container. The apparatus is highly portable by allowing for an optional on-board power source to power all on-board aspects of the apparatus enabling the device to be used in remote locations. The method of user interaction with the apparatus increases the speed of ordering by allowing multiple users to simultaneously and wirelessly interact with the device at a distance through the use of mobile computing devices, thereby providing convenience and saving time spent in the queue waiting to interact with the apparatus regardless of the user's current location.

(25) The embodiments listed above are for illustration only and are not intended to be limiting. Other embodiments are recognized by reference to the description and to the drawings contained in this application.