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Claims  |
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What is claimed is:
1. An automatic pill dispenser for dispensing medical pills, such as
tablets, capsules or suppositories, having different prescribed
administration schedules, comprising:
(a) a plurality of pill storage compartments for holding pills having
different administration schedules, said compartments each being sized to
hold one or more pills;
(b) means for releasing pills from said pill storage compartments at
predetermined time intervals corresponding with their respective
administration schedules;
(c) a pill receptacle for receiving pills released from said storage
compartments; and
(d) means for detecting the delivery of a pill into said receptacle and for
producing a sensible signal in response thereto,
in which said detecting means comprises a photoelectric detector having a
light source and photodetector arranged such that delivery of a pill of
any commercial size from said storage compartments into said receptacle
causes interruption of a light beam generated by said light source, said
receptacle is provided with a vertical through-hole of diameter less than
one-eighth of an inch, said receptacle includes means for positioning a
first pill received from said storage compartments over said hole, and in
which said light source and photodetector are arranged such that said
light source generates a light beam which normally passes through said
hole whereby a first pill received from said storage compartments
interrupts the light beam passing through said hole.
2. The automatic pill dispenser of claim 1 in which said receptacle is
removable from said pill dispenser, said pill dispenser further
comprising:
(e) means responsive to removal of said receptacle for terminating the
sensible signal produced in response to delivery of a pill into said
receptacle.
3. The automatic pill dispenser of claim 2 in which said releasing means
includes means for emptying all of said compartments during a
predetermined dispensing cycle, said pill dispenser further comprising:
(f) means for producing a sensible signal in response to completion of said
dispensing cycle.
4. The automatic pill dispenser of claim 3 further comprising:
(g) means for coding individual pill storage compartments to indicate
loading locations for pills corresponding to their respective
administration schedules.
5. The automatic pill dispenser of claim 4 in which said coding means
includes a plurality of predetermined unique color patterns respectively
corresponding with said administration schedules, said pill dispenser
further comprising:
(h) a removable loading guide having thereon said coding means, said
loading guide defining inlet holes each corresponding with one of said
storage compartments, said loading guide being attached to said pill
dispenser with said inlet holes indexed to predetermined storage
compartments for loading of pills thereinto.
6. The automatic pill dispenser of claim 5 in which said pill storage
compartments are formed on a wheel vertically rotatable within a
cylindrical housing, said wheel having a hub, a rim, and a plurality of
flanges extending radially between said hub and rim and separating said
pill storage compartments; said compartments each have a circumferential
opening, said housing being provided with a bottom aperture sized to span
one of said circumferential openings; and in which said releasing means
further includes drive means for rotating said wheel to sequentially
position each of said compartments over said bottom aperture and empty
compartments so positioned.
7. The automatic pill dispenser of claim 6 in which said wheel is slidably
mountable within said housing, said pill dispenser further comprising:
(i) a removable storage cover attached to said wheel prior to mounting of
said wheel within said housing, said storage cover enclosing said
compartments when attached to said wheel whereby pills preloaded into
individual compartments are maintained therein regardless of the
orientation of said wheel.
8. An automatic pill dispenser for dispensing medical pills, such as
tablets, capsules or suppositories, having different prescribed
administration schedules, comprising:
(a) a cylindrical housing normally disposed with its longitudinal axis in a
horizontal plane, said housing having
(1) an open forward end,
(2) a rear plate,
(3) a rotatable central shaft extending axially forward from said rear
plate, and
(4) a trapdoor mechanism in the bottom of said housing;
(b) drive means for rotating said shaft to predetermined angular positions
at predetermined time intervals;
(c) a pill storage wheel slidably indexedly mountable on said shaft within
said housing, said pill storage wheel having
(1) a circular rear faceplate,
(2) a hub connected to the center of said faceplate, and
(3) a ring of storage compartments having said faceplate as a common rear
end wall and said hub as a common inner wall, said storage compartments
being separated by flanges projecting perpendicularly from said faceplate
and radially from said hub, said flanges each having an outer edge
perpendicular to said faceplate at about its periphery, said faceplate and
said outer edges of said flanges closely fitting the inside curvature of
said housing when said wheel is positioned therein, said housing and wheel
being sized to hold a plurality of pills of different commercial types and
sizes in each of said storage compartments when said wheel is within said
housing;
(d) a circular cover slidably mountable on said shaft, said cover forming a
common front end wall for said storage compartments and closely fitting
the inside curvature of said housing when mounted on said shaft adjacent
to said wheel;
(e) means for operating said trapdoor mechanism and releasing all pills
contained in one of said storage compartments at predetermined time
intervals; and
(f) a photoelectric detector coupled to said housing for detecting pills
released from said storage compartments,
in which said drive means is an electric motor operative to continuously
rotate said shaft at a fixed speed, said trapdoor operating means includes
a rotatable multi-lobed cam coupled to said drive means, said trapdoor
mechanism includes a trapdoor coupled to a cam follower, said cam follower
being operatively connected to said cam, and in which said housing further
includes a stationary reference point indicator, said pill dispenser
further comprising:
(g) a time-indicating dial indexed to said shaft and said storage
compartments, said dial having numbers thereon corresponding to hours of
the day; and
(h) means for overriding said drive means to rotate said dial with respect
to said reference point indicator such that said dial indicates the
correct time of day.
9. The automatic pill dispenser of claim 8 further comprising:
(i) a cup for receiving pills released from said storage compartments, said
cup being provided with a vertical through-hole of diameter less than
one-eighth of an inch and including means for positioning a first pill
received from one of said storage storage compartments over said hole,
said photoelectric detector detecting interruption of light through said
hole by a first pill positioned thereover; and
(j) signal means for producing an audible signal in response to detection
of said light interruption by said photoelectric detector. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
This invention relates to pill dispensers, and more particularly to
automatic pill dispensers capable of dispensing pills having different
prescribed administration schedules.
Improper administration of prescribed medication is reported to be the most
common reason why some patients do not respond properly to the medical
treatment. Patients often simply forget to take their medicine, and
complications are sometimes brought on by patients who miss one or more
pills and then attempt to "catch up" by taking more than the prescribed
dosage. The difficulty in remembering when to take prescribed medication
is greater when a patient is prescribed drugs of different types required
to be taken at different times. Elderly patients frequently do not have
sufficient mental alertness to keep track of the frequencies and dosages
of their various medicines over a sustained period of time. Such patients
also frequently suffer from impaired manual dexterity, which makes
handling of individual tablets and capsules a difficult task which some
patients consequently avoid, to their detriment.
Pill storage containers have been developed which hold a patient's supply
of medicine and remind the patient when to take the medicine. Hicks et
al., in U.S. Pat. No. 4,275,384, shows a portable medicine cabinet with a
timer and individual compartments for pill containers. This device alerts
the patient when the medicine in a particular canister should be taken,
and the patient then physically removes the canister from the cabinet,
determines the prescribed dosage and manually removes that dosage from the
canister, repeating this process for each canister as often as pills are
required to be taken from that canister.
Carlson, in U.S. Pat. No. 4,223,801, shows a multi-compartment container
which can be filled with one day's requirement of prescribed drugs.
Individual compartments are capable of holding pills of different types,
and the individual compartments are illuminated when the pills therein are
to be taken by the patient. The device is controlled by a timer and a
reset switch which is depressed by the patient after taking the required
medicine. This apparatus requires an individual to pick pills out of the
compartments by hand. Further, this apparatus provides a reset switch
which is more easily accessible than the pill storage compartments
themselves, thereby providing a weary patient with the temptation of
simply pressing the reset button to stop the alarm without taking the
medicine.
SUMMARY OF THE INVENTION
The present invention provides an automatic pill dispenser for dispensing
medical pills, such as tablets, capsules or suppositories, having
different prescribed administration schedules. The pill dispenser
according to the present invention includes a plurality of pill storage
compartments each capable of holding more than one pill, an automatic
release mechanism for dispensing pills at predetermined time intervals
corresponding with their respective administration schedules, and a pill
receptacle coupled to a pill detector such that a pill dispensed from the
pill dispenser and received by the receptacle causes the pill dispenser to
generate a signal to alert the patient to take the dispensed medicine. In
the preferred embodiment, a photoelectric detector is employed with a
light beam traveling through a cup into which pills are dispensed. When
the cup is empty and in its proper position, the light path is clear. Any
pill dispensed from one of the storage compartments falls into the cup in
a position where the light path is blocked, and the dispenser responds by
alerting the patient with an audible or visual signal.
In the preferred embodiment, twelve storage compartments are arranged in a
ring about a wheel which is rotated at a constant speed over a 24-hour
dispensing cycle. A patient preloads the storage compartments with all
pills prescribed to be taken during the 24-hour period, loading pills into
individual storage compartments according to a loading code corresponding
to the respective administration schedules of the different types of
pills. The pill dispenser then automatically sequentially empties the
storage compartments into the cup and, upon detection of any pill in the
cup, alerts the patient to take the dispensed medicine. Each time a
patient receives an alert signal during the course of the day, the
required response is the same, namely, to remove the cup from the pill
dispenser, take the medicine contained therein and return the cup to the
pill dispenser. Removing the cup clears the light path again and the alert
signal ceases, and when the cup is returned to the pill dispenser empty,
the light path remains clear for detection of the next pill delivery.
A pill dispenser according to the invention may be preloaded by the patient
himself or may be preloaded by someone assisting the patient once a day,
thereby minimizing or totally eliminating the possible confusion as to
when to take the prescribed medicine and what dosages to take.
In another embodiment, a preloadable storage canister is provided which may
be preloaded by a pharmacist and simply inserted into the pill dispenser
by the patient for automatic pill dispensing.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is an exploded, partial fragmentary perspective view of an automatic
pill dispenser according to the present invention.
FIG. 2 is a side view of the pill storage wheel and cover of FIG. 1, shown
with the cover in contact with the wheel as when installed within the pill
dispenser.
FIGS. 3 and 4 are schematic representations of the automatic pill dispenser
illustrating the sequence of operation.
FIG. 5 is a top elevation view of an automatic pill dispenser according to
the present invention, shown in pill loading position with a loading guide
attached.
FIG. 6 is an exploded, partial fragmentary side view of a pill canister
according to the present invention.
FIG. 7 is a front view of an alternative embodiment of an automatic pill
dispenser according to the present invention.
DESCRIPTION OF THE PREFERRED EMBODIMENT
For the purposes of promoting an understanding of the principles of the
invention, reference will now be made to the embodiment illustrated in the
drawings and specific language will be used to describe the same. It will
nevertheless be understood that no limitation of the scope of the
invention is thereby intended, such alterations and further modifications
in the illustrated device, and such further applications of the principles
of the invention as illustrated therein being contemplated as would
normally occur to one skilled in the art to which the invention relates.
FIG. 1 shows an exploded view of an automatic pill dispenser according to
the present invention in upright position with portions cut away for ease
of explanation. The main housing 10 of the pill dispenser includes a
cylindrical housing 12, a pill storage wheel 14 and a front cover 16. Pill
storage wheel 14 and cover 16 are slidably received within housing 12 on
shaft 18 for automatic dispensing. Pill storage wheel 14 includes a rear
faceplate 20, a hub 22, and a plurality of flanges 24 extending from hub
22 to the circumferential edge 26 of rear faceplate 20. Twelve flanges are
formed on pill storage wheel 14 to form twelve compartments 28 equally
angularly spaced about hub 22 and having rear faceplate 20 as a common
rear wall. Medical pills such as tablets, capsules and suppositories are
loaded into and sequentially dispensed from various ones of compartments
28 in a manner to be described. Pill storage wheel 14 is positioned within
housing 12 with the forwardmost portions of edges 30 of flanges 24
rearward of the forward edge 32 of housing 12 and is sized such that the
circumferential edges 34 of flanges 24 and circumferential edge 26 closely
fit the inside curvature of housing 12. Thus cylindrical housing 12
provides a common circumferential wall for compartments 28 when pill
storage wheel 14 is mounted therein. Flanges 24 each have a tapered base
portion 31 to provide a smooth contour between the flanges and hub 22.
Edges 30 are tapered forwardly from base portion 31 to circumferential
edges 34. It has been found that these tapered portions prevent pills from
hanging up on compartments 28 when the pills are to be released therefrom.
Front cover 16 is mounted on shaft 18 in contact with the forward edges 30
of flanges 24 as well as hub 22, as may be seen more clearly in FIG. 2.
The rear surface 36 of front cover 16 is tapered to conform to the shape
of forward edges 30 and hub 22 and to thereby enclose the forward openings
of compartments 28. Thus compartments 28 are completely enclosed by
housing 12 and front cover 16 when the pill dispenser is ready for use,
and pills contained therein are maintained in their respective
compartments until they are dispensed.
Referring again to FIG. 1, housing 12 is fixedly mounted to the main
housing 10, and shaft 18 is rotatably mounted within housing 12 and driven
by a drive motor 38 mounted inside housing 10 to the rear of cylindrical
housing 12. Electrical power for drive motor 38 and for the other
electrical circuits of the pill dispenser is supplied to housing 10
through input power line 39 which is preferably connected to a standard
source of 110 volts AC. Drive motor 38 is preferably connected to shaft 18
through reduction gears internally mounted in the motor unit, the motor
and gears being selected to rotate shaft 18 once every 24 hours. Drive
units having integral reduction gears are well known in the art and
therefore require no further explanation. Shaft 18 extends through hole 40
of pill storage wheel 14, and key 44 engages slot 42 to index pill storage
wheel 14 to shaft 18. Key 44 extends forward of forward edge 32 in order
to receive a loading guide in indexed relation to shaft 18, as will be
described later. Consequently, front cover 16 is provided with a slot 46
in through-hole 48 to receive key 44 when front cover 16 is slidably
mounted on shaft 18. The arrangement of the holes and slots in front cover
16 and wheel 14 are illustrated in FIG. 2.
Referring to FIG. 2, friction pin 50 provides a friction fit for front
cover 16 on shaft 18. Pin 50 is held in hole 52 against shaft 18 (FIG. 1)
by spring 54 which is in turn held in place by set screw 56 threadably
engaged in hole 52. Set screw 56 is provided to adjust the amount of
friction provided by pin 50.
Referring again to FIG. 1, cylindrical housing 12 is provided with a
trapdoor mechanism for releasing pills which, as has been mentioned, are
loaded into compartments 28. The trapdoor mechanism includes trapdoor 60,
cam 62 and cam follower 64. Trapdoor 60 is pivotally mounted in the bottom
of housing 12 and is rigidly connected to cam follower 64. Trapdoor 60 is
downwardly biased by its own weight such that cam follower 64, extending
upward through slot 66 in housing 12, rests against the circumferential
edge of cam 62. Cam 62 is a circular plate having twelve semicircular
circumferential slots 68 corresponding with the twelve compartments 28.
During operation, which will be described later, trapdoor 60 is alternately
held in an upper position closing aperture 70 and in a lower, released
position in which aperture 70 is open. Trapdoor 60 and aperture 70 are
sized to span between adjacent circumferential edges 34 of flanges 24 and
thereby provide a bottom opening for one of the compartments 28 when
positioned over the trapdoor.
The pill dispenser is further provided with a cup 72 slidably received into
base 74 of main housing 10. Ridges 76 and 78 in base 74 define a track for
guiding cup 72 into position over hole 82. Backstop 80 is provided to stop
cup 72 when it is centered over hole 82, thereby enabling fast, accurate
placement of cup 72 in the desired position. Baseplate 84 of cup 72 is
held within slots 86 and 88 whereby cup 72 is maintained in position when
housing 10 is tilted which, as will be described, is necessary for
purposes of loading the pill dispenser with pills.
A conventional photocell is positioned below hole 82 in base 74 in the path
of a light beam which is generated by light source 90 and reflected
downward by mirror 92 as indicated by arrows in FIG. 1. Light source 90 is
preferably an incandescent bulb of low wattage, but it will be understood
by those skilled in the art that any light source capable of generating a
light beam detectable by a conventional photocell may be alternatively
used. Cup 72 is tapered inwardly from rim 94 down to hole 96 which extends
through baseplate 84. When cup 72 is positioned against backstop 80, hole
96 is vertically positioned in the light path between light source 90 and
hole 82. Thus cup 72 forms an operative part of an optical pill detector
system. Hole 96 preferably has a diameter less than one-eighth of an inch
whereby pills which, as will be described, are emptied into cup 72 during
operation of the pill dispenser cover hole 96 and interrupt the light beam
normally passing therethrough. Alarm 100 is provided to generate an
audible signal in response to interruption of the light beam by a pill
contained in cup 72 in order to alert a patient to take the dispensed
medicine. It will be appreciated that the light beam may similarly be
interrupted by cup 72 being positioned improperly in base 74 such as by
careless replacement of cup 72 after removal thereof from base 74, and it
is intended that alarm 100 will also alert the patient of this condition
in order to assure proper placement of cup 72 for subsequent pill
dispensing. Alarm 100 is depicted in FIG. 1 as a buzzer, however it is
envisioned that a voice synthesizer may be alternatively housed within
housing 10 and programmed to generate an instruction to the patient when
the light beam is first interrupted, such as "Please take your medicine."
Such a voice synthesizer should be designed not to repeat the message when
cup 72 is replaced within housing 12 and could, for example, be programmed
to generate an interim instruction such as "Please replace the cup."
Additionally, alarm 100 may include a light to visually alert the patient.
Alarm 100 also includes circuitry for alerting the patient of the end of
the 24-hour dispensing cycle. This circuitry, which may be time-actuated
or switch-actuated, causes alarm 100 to sound continuously until housing
10 is placed on its back for loading. The alarm circuit may be manually
reset prior to loading, or may automatically reset upon sensing the change
in orientation of housing 10, such as with a mercury switch. In the latter
case, alarm 100 is designed, in a conventional fashion, such that, once
reset, it only responds to subsequent operation of the photodetector
circuit.
Cylindrical housing 12 is preferably transparent so as to permit an
individual to visually check the contents of pill storage wheel 14
contained therein. Also, it will be appreciated that trapdoor 60 is
preferably transparent so as not to cause interruption of the light beam
when positioned in its lower position. Thus the pill dispenser responds to
the presence of a pill received by cup 72 rather than to the opening of
trapdoor 60, and further responds to the proper replacement of an empty
cup 72 into base 74 regardless of the position of trapdoor 60. Housing 12
and trapdoor 60 may be molded from clear plastic.
Drive motor 38 is further provided with a ratchet mechanism whereby shaft
18 may be manually rotated in one direction to any desired position. Main
housing 10 further includes a clock dial 102, partially visible through
aperture 103, which is indexedly coupled to shaft 18 so as to rotate
therewith, and which is numbered to indicate hours of the day. By rotating
shaft 18 to a position where pointer 104 points to the correct time of
day, the pill dispenser is set to automatically dispense at predetermined
times of the day.
The operation of the automatic pill dispenser shown in FIGS. 1 and 2 will
now be described. Initially, front cover 16 is manually rotated until
pointer 104 indicates the current time. All the pills to be taken during
the course of a day are loaded into individual compartments 28 according
to their respective administration schedules. The details of the loading
procedure will be described later, but it will suffice for present
purposes to say that the pills are so loaded and that some compartments
may contain several pills while other compartments contain none. Drive
motor 38 synchronously rotates pill storage wheel 14 and cam 62 clockwise
at a constant rate of one revolution every 24 hours, sequentially
positioning individual compartments 28 over aperture 70 and operating the
trapdoor mechanism. Cam follower 64 follows the curvature of the
circumferential edge of cam 62 as the cam rotates, and trapdoor 60 drops
every two hours when one of slots 68 moves over the tip of cam follower
64. The contents of the compartment then positioned over aperture 70 fall
through aperture 70 and are guided by trapdoor 60 into cup 72, wherein
they are further guided by the tapered inside surface of cup 72 to a
position over hole 96. When so positioned, the pills interrupt the light
beam normally passing through hole 96, to which the photodetector responds
by generating an audible signal through alarm 100. Desirably, upon hearing
the signal, the patient responds by removing cup 72 from base 74, thereby
clearing the light path and causing the alarm to cease. It should be noted
that light source 90 also serves to illuminate the area around cup 72,
thus the patient can quickly locate the cup even in a dark room. After
taking the medicine contained in cup 72, the patient replaces the cup in
base 74. Alarm 100 momentarily sounds as cup 72 is passed through the
light path but, when cup 72 is centered over hole 82, the light path is
again cleared and the alarm ceases, the pill dispenser then being set for
further automatic dispensing into cup 72.
The sequence of operation of the automatic pill dispenser is schematically
illustrated in FIGS. 3 and 4, wherein pill storage wheel 14 is shown
mounted on shaft 18 with rear faceplate 20 (FIG. 1) removed to illustrate
the interrelationship of pill storage wheel 14 and cam 62. Referring to
FIG. 3, hub 22 and flanges 24 of pill storage wheel 14 rotate clockwise
synchronously with cam 62, each of flanges 24 being indexed to one of
slots 68 as shown. Pill storage wheel 14 is shown at a point near the end
of a dispensing cycle, with pills contained only in the two compartments
150 and 152. Cylindrical housing 12 (FIG. 1) is not shown, in order to
illustrate the operation of cam follower 64. It will nevertheless be
understood that the pills contained in compartments 150 and 152 rest
against the inside surface of housing 12 and so are held in their
respective compartments until those compartments are positioned over
trapdoor 60. With pill storage wheel 14 and cam 62 positioned as shown in
FIG. 3, cam follower 64 rests against the edge of cam 62 outside of slots
68 and thereby holds trapdoor 60 closed. At this time, capsule 154 and
tablet 156 are held within compartment 150 partially over trapdoor 60 and
partially over the inside surface of housing 12 (not shown). Light source
90 generates a light beam along path 158 which is reflected by mirror 92
downward along path 160 through hole 96 of cup 72 to photocell 162, which
is positioned below hole 82 (FIG. 1). Power supply 164, which supplies the
photodetector circuit, may be a direct connection to 110 volts AC or may
be derived therefrom, depending on the selection of components for the
photodetector circuit. With the light beam from light source 90 impinging
upon photocell 162, photocell 162 is rendered conductive thereby
energizing relay 166 and opening the normally closed contact 168. With
contact 168 open, alarm 170 is disconnected from power supply 164 and is
therefore silent.
Referring now to FIG. 4, pill storage wheel 14 and cam 62 are shown after
further clockwise rotation from the position shown in FIG. 3. In the
position shown in FIG. 4, one of slots 68 in cam 62 has passed the tip of
cam follower 64. As soon as this occurs, trapdoor 60 falls open and all
the pills contained in compartment 150 (capsule 154 and tablet 156) drop
out of that compartment and into cup 72, being guided into cup 72 by
trapdoor 60. As the pills fall into cup 72 they are guided by the inside
surface thereof, as already described, to a position over hole 96 where
they block the light path 160 normally traveling therethrough. With the
light path blocked, photocell 162 is nonconductive, therefore relay 166 is
de-energized and relay contact 168 is closed, and alarm 170 generates an
alarm signal. The relay circuit is preferably nonlatching, so as to allow
automatic reset of the photodetector circuit upon removal of cup 72 from
the pill dispenser.
Loading of the pill dispenser is accomplished with the aid of a loading
guide wheel as shown in FIG. 5. Loading guide 180 is a separate wheel
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