Patent Grant
11357704
The present developments relate to automatic pill dispensers. In many implementations, these may particularly include and/or be directed to methods, systems and/or devices which may be programmed to automatically dispense predetermined quantities and/or pre-selected types of pills whether on demand or at preset times.
The usage of pills, both prescription drugs and supplements, to regain and/or maintain health has increased with the advancement of medical science. It is not unusual for a person to take more than one type of pill, or to have different regimens and timings for taking same. Often, each type of pill may be in a different amount, and though typically at regular times each day; some may be early, others late, some with food, some not, and so on. The task of correctly taking pills, often several different types of pills, regularly poses a challenge to many individuals, especially the elderly population living without full time medical care. The improper taking of pills can be detrimental to health resulting in emergency room visits, hospital admissions, re-location to nursing facilities and even sometimes death.
The need for devices, systems and/or methods that will provide for properly dispensing the proper pill(s) in the proper amount(s) at the proper time(s) each day is evident. Moreover, several possible/optional desiderata for further options of automations and programmability in dispensing and/or in alerting the user to take the dispensed pill(s) are also evident.
Pill dispenser devices, systems and methods are shown and/or described herein. Include are a method, device or system for pill delivery including disposing a pill at a known location; contacting the pill with a pick-up member; and, moving the pill from the known location by movement of the pick-up member.
The presently-described subject matter may be configured to provide for dispensing proper amount(s) of proper type(s) of pill(s) at proper time(s).
In some implementations the subject matter hereof may provide for alerting a pill taker to consume the pills. In further possible implementations, the subject matter hereof may also include apparatuses and/or methods for notifying family members, caregivers, and/or medical professionals (e.g. in some instances these can include those professionals making, or in some situations those not making the change) when a change has been made to any pill regimen or dosage. This can be very helpful particularly for seniors and the elderly who may have more than one doctor or medical professional prescribing medication.
In accordance herewith, an isometric front view of a schematically-represented, alternative pill dispenser 10 according hereto is shown in
In some more particularity, the alternative implementation of
Further shown are respective openings 15 and 17 in and/or through the housing 12; represented here by a slidable door 15 and an aperture 17 that may also include a door (slidable or otherwise) or other covering. In the presently described and shown implementation of
Then, ultimately, per the operation of the device 10 (described further below), one or more pills 11 will be delivered to the user as shown by/in
A isometric view of many alternatively-implemented internal working components of a pill dispenser 10 hereof is shown in
As shown at least in
Two further frame sub-assembly components are also shown in
Focusing next on the rotational sub-assemblage 30 as shown in
An optional turntable 34 and a motor 36 are also shown, at least partially, in
The turntable, if used, may be used for, inter alia, spinning the shaft (see above); and/or for carrying a load (see alternative description relative to sub-assemblies 40 below); and/or may be used for positional control and/or sensing. For this latter, shown also in
In operation in short, when the turntable 34 is rotated, different combinations of contacts 37, or no contacts, will be disposed adjacent the sensor array 35 and the sensor array 35 may be disposed to sense the relative presence or absence of those none, one or more contacts 37 (again, including one or more sub-part contacts 37a, 37b, 37c, 37d, 37e and 37f, inter alia), and by that information determine the relative position of the table 34 and/or shaft 32, and by consequence any pill handlers 40. By this, the control electronics or control system will ‘know’ which of potentially one or more pill handling assemblies 40 is disposed at a particular location. In
Further shown in
Also included as introduced relative to
In some alternatives of connection of one or more assemblies 40 to the rotatable sub-assembly 30, a first note may be made of the several substantially flat surfaces presented by the shaft 32 of
More details of pill storage and/or handling sub-assemblies 40 will now be described, with at least initial particular detail relative to
A conveyor moving sub-assembly 45 may be as shown (unshown alternatives may be used instead). Such a conveyor moving sub-assembly 45 is shown in
First, returning to
Also shown in
The Known Location 48c is thus disposed at and/or adjacent the pill gate or delivery sub-assembly 50 and more particularly at or adjacent the door 51 of sub-assembly 50. Though introduced above, sub-assembly 50 is shown in greater detail in
Also shown in
Further, in
To rotate the cam 52, a motor 64 of motor sub-assembly 60 may be used. A motor 62 also of sub-assembly 60 may be used to engage and move the conveyor 46 via assembly 45 as is also described herein. Motor sub-assembly 60 may include as shown here a fixed frame part 69 and a movable frame part 65 on or to which the motors 62 and/or 64 may be disposed. The motors 62, 64 then each may have a rotational end feature 67, 66 each of which being preferably configured to engage respective engagement parts 47 and 56. The engagement of the implementations shown is by a respective projecting blade 67a, 66a that each respectively engage the respective engagement parts 47, 56 in between respective projecting pins 47a, 47b of engagement part 47 and pins 56a, 56b of part 56. I.e., blade 67a is extended to and becomes operationally disposed between respective pins 47a, 47b; and, discretely, blade 66a of motor 64 is extended to and becomes operationally disposed between pins 56a and 56b. Then, respectively, rotation by motor 64, for a first example, of its end part 66 and consequently also blade 66a, then causes blade 66a to engage and move the pins 56a, 56b which in turn, causes rotational turning of engagement end 56 which turns axle/shaft 53 to in turn, also cause rotation of cam 52—this would achieve the rotational effect indicated as/by arrow 53c (
The extension of the end features 66, 67 can be accomplished in a variety of ways, though here shown is a movability of the frame part 65 on/relative to a pair of rails 68a, 68b (rail 68b mostly hidden though visible at its rear end part as it may extend through the fixed part of the frame 69). The movement of frame 65 may thus be in a direction as indicated by arrow 68c (along rail 68a) in a relative forward fashion for and toward and to engagement with the engagement ends 47, 56. When disengagement is desired a reverse movement of the frame 65 relative to rails 68 (defined by and including sub-parts 68a and/or 68b) and frame 69 to the position shown in
Such a dis-engageable engagement of a motor sub-assembly 60 as this may provide an optional ability to have one set of motors configured to engage (and dis-engage) with more than one (i.e., a plurality) of pill handling (conveyor) and gate delivery (cam) sub-assemblies 40, 50. E.g., in
A pill delivery option will now be described relative to
At this point, the pill control sub-assembly 50 takes over control of the further handling and delivery of a single pill 11. Note, first,
Remaining with
In
Then, further operation of the output cup subassembly 70 as shown in this implementation in
An optional sensor sub-assembly 90 may include one or more sensor(s) 91 as shown in
For the full cycle then, returning briefly first to
In
To initialize use of pill dispenser 10 hereof, or an alternative method with alternative devices, the user may first be disposed to connect to a power source, as for example, to attach the device to a standard U.S. power outlet (110V, AC). This may also charge the back-up battery, if used, as needed. If the needed voltage of the dispenser deteriorates to a level that will no longer meet the power requirements of the pill dispenser 10, low power detection circuitry 110 may activate notifications to the user, caregivers and/or third parties as indicated in the SETUP files as may be configured by the user or a designee.
A pill refill LED 103 may be used and may be set by software routines which may indicate the quantity of pills in each pill storage bin 44. The specific pill(s) needing to be refilled may be indicated on the touch screen display 104 (or 14,
A set of User Alert LEDs 101 may be used and may be activated per a programmed timer in conjunction with a User Request command for pill dispensing. If the user has not activated the User Request command prior to the programmed pill taking time period, one or more User Alert LEDs 101 may be disposed to actively provide a visual alarm. When the visual alarm is active, and/or as an alternative to a visual alarm, an audio alarm may be used, in some examples an MP3 (audio) file may also be played through the Speakers 105 providing a simultaneous and/or alternative audio alarm.
During the pill dispensing period, a display 104 (and/or 14 as shown in
An input console 108 may be included and may utilize a keyboard (see e.g., buttons 13,
The Motion Controller 107 may be used to provide control to motor driver circuits for running the DC motors and similar motors and/or reading the optical sensors to provide functionality for the pill dispenser 10. Further alternatives may include a clock, in some implementations a continuous running clock, in and/or otherwise associated with the Main Controller 106. Such a clock may be used to trigger one or more commands in the Motion Controller 107 that activate control circuits to activate the motors and read sensors as follows.
Pills 11 may initially be entered into the pill dispenser 10 through a shuttered opening 15 on the top of the pill dispenser 10 (as shown in
A programmed timetable or other interval for delivery may be generated and used, or other demand instructions may be used. When a specific pill 11 is requested whether per a programmed timetable, or upon other appropriate command, the movable sub-assembly 30, which has attached thereto all of the pill storage bins 44, may then be rotated into the desired specific pill drop off position corresponding to whichever pill is to be delivered. The positioning information for this rotation may be achieved using optical sensors 35 specifically positioned to ensure that only a single sensor changes state during the rotation. This may provide an unambiguous, fixed number of discreet positions (whether 1, 2, 4, 8, 16 or otherwise herebetween or hereabove). Each position may be uniquely identified by a single Gray Code (though incremental or binary or other encoding options could be used in addition or instead). (See example of a Gray Code Table 1 set forth herebelow; three bit rotary coding for eight positions; though other variables are available, e.g., 2 or 4 positions, or 16 positions, et cetera.)
(Rotary encoder for angle-measuring devices marked in 3-bit binary as shown in Table 1 and
After the movable sub-assembly 30 has reached the pill drop off position, the respective conveyor 46, if used, is activated to move one or more pills from bin 44 to the respective chute or slide 48, if used, to get the pill to the known location 48c. The respective electric vibrator 49, if used, may be activated causing the pills to align within the pill trough 48 so that one pill 11 is in the known location directly over the moveable cam 52. The cam 52 may be activated to rotate, at a controlled speed, until the cam positioning sensor 91, if used, changes state thereby indicating the cam may have rotated sufficiently to cause a single pill 11 to move off the end of the pill trough 48.
With the pill storage and gate assembly 50 having the cam 52 thereof rotated to a position for the pill 11 to be over the scale cup 82 and/or the respective output dispenser cup 78 (in some implementations, the cam 52 may deliver directly to an output cup 78), the pill is moved by the cam 52 off the end of the trough 48 and allowed to fall by gravity into the scale cup 82 or output dispensing cup 78.
Depending on the number of pills 11 contained in the pill trough 48, the conveyor belt subassembly 46 may be activated to refill the pill trough 48 with one or more pills 11. An electric motor 62 may be used to rotate the conveyor belt subassembly 46 to the required position.
The movable sub-assemblage 30 may then be moved, as needed or desired, to the next position for the storage and gate assembly 50 to allow additional pills 11 to be dropped into the output cup 78 per the preprogrammed timetable or other appropriate demand initiation.
After the final pill 11 has been loaded/dropped into the output cup 48 for a particular pill taking period, the output dispensing cup 78 may then be moved into position for delivery of the pills 11 to the user. The output dispenser cup motor 76 may be activated which moves the output dispensing cup 78, mounted on a slide assembly 77, to a position external to the footprint of the pill dispenser 10. The motion may be stopped in some implementations when either a Move Out (Delivery) Sensor (not shown), if used, is tripped, or some other initiating indicator is activated. The pills 11 may then be manually removed from the output dispensing cup 78 by tipping the non-removable cup 18.
A dispensing sensor (not shown) may be used and may hereby change state to indicate the output dispensing cup 78 has been turned sufficiently to remove or other indication is made that all pills 11 are taken therefrom. When such a sensor returns to its initial state, indicating the pills have been removed, the linear slide assembly 77 may be configured to retract until a Move In (Return) Sensor (not shown), if used, or other indicating signal production indicates the end of travel.
There are numerous ways to program a particular function or objective. In an exemplar implementation, an Android™ operating system implementation may be used, but other OS programs could be utilized. A diagram of exemplar software architecture is shown in
The operation and an exemplar software flow may be as follows.
The user or their designee may initialize use of the system by selecting an initiating command, such as SETUP, from the main menu. The user sets initial information which may include one or more of the language of choice, the user's name, user's mobile information, the email address or addresses or other contacts for third party notifications, the remote account name and the remote access password.
The user may then set parameters such as for the duration of each alert to the user to take pills, the time span of continuing alerts (snooze control) for each pill taking time period and the time delay before notifying one or more third parties, such as caregivers or medical professionals, that pills have not been requested or removed from the dispensing cup.
The user may then enter a time of day for each pill taking periods of in some examples, Pre-Breakfast, Breakfast, Lunch, Dinner and Bedtime or accept the default times provided. Additional pill taking periods within the day may also or alternatively be named and added.
The system after being initialized may contain some one or more or all of the following information:
Following the system setup as described above, the drug and supplement information may be entered.
The user may initiate a program for loading pills 11 by selecting the icon, such as “Rx” on the display 104. Each container bin 44, each generally for discrete pills 11, may then be loaded as follows: pill name or National Drug Code (NDC) is entered, the correct dosage of the pill 11 may be identified from a pop-up menu list of options, and the manufacturer may be selected from a pop-up menu list of manufacturers. The drug or supplement may be entered into the initial drug entry screen by utilizing one of the available input methods. This implementation may contain databases from the U.S. Food and Drug Administration (FDA) and the National Institute of Health (NIH), or other national or international database, which may be part of an initial load of software. The databases may be maintained automatically as new data becomes available from the FDA and/or the NIH and/or other national or international database. The drugs may be entered via their National Drug Code (NDC) which may uniquely identify its name/manufacturer/strength or by first entering the drug name.
When the NDC code is not used for initially identifying the pill 11, the name of the drug may be searched as a drop down menu of all drugs which may be configured to appear as each additional letter of the drug's name is entered. The User may then select the drug from a drop down menu list that exactly matches the prescription. Supplement names are entered manually. Following the entry of a drug name, the next screen may contain a drop down menu list of all available doses of the prescription or over-the-counter FDA approved drug. Dosage (strength) information may only be entered manually for supplements. Following the selection of the dosage, the next screen may provide a drop down menu list of all manufacturers for the entered pill in the dosage selected. The manufacturer of the supplement may be configured to only be entered manually.
When a pill 11 has been entered which meets the identification criteria, it may be configured that an image, photograph or description of the pill 11 or OTC (Over the Counter) drug is shown graphically or in text, if available, on the dispenser's display 104 or 14. In some implementation such information may be obtained from and/or providing the pill dispenser 10 is connected to the internet. Following the image or description or other identification of the pill 11, the user may acknowledge the pill 11 is correctly identified and then a loading shutter 15 and/or 27 may automatically be repositioned (opened) to allow pouring the pills 11 from their original container into the pill dispenser 10. The pills 11 will be directed into a predetermined storage bin 44. There is typically one storage bin 44 and corresponding storage and gate assembly 50 for each unique set of pills 11 (see e.g., discrete pill handling assemblies 40a, 40b, 40c and 40d inter alia from
After loading one particular set or at some point during loading or after loading each set of unique pills 11 in the pill dispenser 10, the user may enter the regimen (schedule) per instructions provided with the prescription or supplement.
A set of display pages may be provided for viewing on the display 14/104 to deal with entering the regimen (schedule). The user can select from several options for the type of time period in which the drug is taken; non-limiting examples including:
After setting the regimen, the user may enter additional information such as the name of the prescribing doctor, the doctor's contact information, the reason for taking the medication and/or special instructions given for taking or handling the medication. Additional information may also be entered as follows:
In the case of non-solid or non-oral medications, the device may me employed to only act as a reminder and may not typically be used to store or dispense the supplement or drug. The user may indicate if the form of the supplement is a solid oral medication for the correct handling of the medication. Following the entry of all information regarding the medication, the data may be stored in a local database and a schedule for the next set number of days is created. In one implementation, the schedule may be displayed as the home page of the pill dispenser 10. The user may have optional views of the schedule in durations of the current day (today), some number of days into the future from today or some number of days prior to today.
The procedure may be repeated for each unique set of pills and as new pills are added for medical purposes.
When the pill loading and regimens have been entered, the pill dispenser 10 may then be ready for use.
To begin use of the pill dispenser 10, a pill dispensing icon on the display 104/14 may be touched to activate the pill gathering cycle required to load the dispensing cup 78 for the next pill taking time period. The one or more pills 11 may then be dispensed. In this manner, the pill or pills 11 can be dispensed either a short time prior to the programmed first alert or a limited period of time after the first alert. Multiple alerts may be given during the full alert period of each pill taking time period. If the pill dispensing icon has not been activated within a preset time from the first alert, the dispenser may be configured to send an alert to the personal mobile device of the user. If the pill dispensing icon has not been activated within the time parameter for an optional caregiver notification, the dispenser may be configured to send a notification to one or more caregivers and/or medical professionals to investigate the situation.
The pill counter memory, a part of the microprocessor or CPU board 106, may be used to track pill count and may be reduced for each pill dispensed based on the number of pills that have been dispensed. When the number of pills falls below a preset limit, the dispenser may be configured to send a notification whether via the internet or other methods or devices or systems to the user or specified pharmacy and/or one or more other third parties. An LED 102 may also be activated on the unit to indicate, to the User, that a refill is needed and/or expected for at least one dispensable medication.
Software routines may be used to count each pill 11 as they are dispensed. The device 10 may maintain quantity information for each pill type and can then provide refill information. The pill dispenser 10 may continue to automatically dispense the needed pills 11 to the pill taker as long as it contains the necessary quantity of pills 11 and power is applied, whether from the AC source or the back-up battery.
If the user has not initiated a request for pill dispensing, as the actual time of day reaches the start of a pill taking period for which pills or supplements are available, visual and/or audio alerts may in some implementations be issued by the device. Some configurations may provide for alerts to be simultaneously or otherwise activated in devices in other locations or rooms.
If the User has not initiated a request for pills to be dispensed within a preset time period after the initial alert (wait time), a notification may be sent to the User's personal remote device and may be done so repeatedly over a particular time period. The User may selectively turn off all notifications for a limited amount of time. If the User has not requested the pills past a maximum allowable time, the User and/or one or more or all third parties may receive notification via the internet or other communication methods.
The removal of the pills 11 from the dispensing cup 78/18 may include actuation of a sensor or other indicator that will initiate return of the dispensing dispensing cup and in some configurations also store the time and list of pills that were dispensed. This database of pills dispensed may be stored on the device and in some cases copied in a remote data storage device for secure access by caregivers or medical professionals.
At the time the dispensing cup 78/18 has been moved into its dispensing position, the display may configured to indicate all relevant special instructions for one or more of the pills 11 being dispensed.
The dispenser may continue to operate in the manner described above for each successive pill taking time for which one or more pills 11 are available and required or desired for the user.
As seen from the preceding description, the dispenser may in some implementations involve an electromechanical system that can be programmed and loaded with the proper pill(s) so that the proper pill(s) in the proper quantity can be dispensed at the desired time(s) with in some cases an alert signal for the pill taker. In addition to the alert, the pill taker may in some situations be provided additional information as necessary or desired to take the pills as advised by the prescribing doctor or medical advisor or otherwise.
The system may also provide for alerting a caregiver or medical professional when scheduled pills are not taken by the user or when there is a problem in the operation of the dispenser. One of the main advantages of a pill dispenser such as this may be in the ability for reminding the User to take their medication in a timely manner and removing the manual dispensing of pills into compartments related to fixed pill taking periods. Additionally, pill schedules and dosages can be changed by user or by computer input, either or both locally or remotely.
The system advantages may, though need not necessarily, include one or more of the following:
Accordingly, an aspect of the presently-described subject matter may, though not necessarily include providing an improved programmable automatic pill dispenser without the deficiencies and disadvantages of previous pill dispensing devices; specifically, to provide a simple and reliable programmable automatic pill dispenser that has one or more of the ability to provide each pill, as needed or desired, having been confirmed to match the prescription at time of loading, is dispensed per preset time(s), has a locking mechanism for security, and/or provides the necessary additional instructions during the dispensing to the user.
Still further objects and advantages may, though not necessarily, include one or more of:
Some other advantages of a dispenser hereof may, though not necessarily, include one or more of:
The possible variations and ramifications of the present developments may be numerous. For example, additional levels of storage and gate assemblies can be added to increase the number of unique pills serviced by the pill dispenser.
Another variation may be to remove the need for manual entry of pill information into the device by including a bar code reader for prescription and supplemental drug related information. Another variation may employ a voice recognition system or communication with or through the internet or other communication line for data stored with each pill.
Other ramifications and variations of the basic concept which have not been described will be apparent to those skilled in the art. It is intended that all such ramifications and variations be included within the scope of the appended claims and their legal equivalents, and the scope of the invention not be limited by the examples given, or the claims hereof.
A method may be included herein for automatically dispensing a verified, preselected pill and alerting a user to take said preselected pill at a preset time, comprising:
Alternatively included may be a web-enabled device that can be loaded with appropriate pills (solid oral medication) and programmed to automatically dispense the proper quantity of the proper type(s) of pill(s) at the proper time(s) each day. The device may include the following systems:
Major components of the device may include, though not necessarily and not limited hereto: a rotary assembly 30 with storage and handling assemblies 40, mechanical cam and door or gate subassembly 50, a trough vibration shaker mechanism 49, storage bin and conveyor belt mechanism 44 and 46, control electronics 100-110, output dispensing cup assembly 70, scale assembly 80, back-up power storage assembly 107, LED based visual alert circuit 108, a WiFi internet connection system 109, and/or a 3G (and/or LTE) connection system 110.
Major process flow software components include may include, though not necessarily and not limited hereto: pill identification, prescription information data storage, programmable scheduling 113, user defined audio alert 114, cloud database storage capability 115, remote smart device application 116 and/or web-based device and database controls 117.
The components, whether of apparatus, system and/or method, described above are meant to exemplify some types of possibilities within the scope hereof. In no way should the aforementioned examples limit the scope of the invention and/or claimed subject matter, as they are only exemplary embodiments or implementations. While embodiments or implementations of the present invention and/or claimed subject matter relate to devices, systems, and/or methods, that have been described above, various alternatives, modifications, and equivalents will be apparent to those skilled in the art without varying from the spirit of the invention and/or claimed subject matter. Therefore, the above description should not be taken as limiting the scope of the invention or claimed subject matter, which is defined by the appended claims.
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| Number | Date | Country | |
|---|---|---|---|
| 20200179229 A1 | Jun 2020 | US |
| Number | Date | Country | |
|---|---|---|---|
| Parent | 15175513 | Jun 2016 | US |
| Child | 16792737 | US |
