(12)

United States Patent
Bujalski et a1.

US009283150B2

US 9,283,150 B2
Mar. 15, 2016

(10) Patent N0.:
(45) Date of Patent:

 

(54)

(71)

(72)

(73)



(21)
(22)

(65)

(51)

(52)

(58)

(56)

PILL DISPENSING SYSTEM

Applicant: HB Clouds LLC, Boynton Beach, FL
(US)

Inventors: Joseph B. Bujalski, Boynton Beach, FL

James Klino, Lockport, NY (U 

Jeffery Heitzenrater, Lyndonville, NY

Christopher Sean Wronski,

Lockport, NY (US)

Assignee: HB Clouds LLC, Boynton Beach, FL

(Us)

Notice: Subject to any disclaimer, the term of this

patent is extended or adjusted under 35

U.S.C. 154(b) by 39 days.

Appl. N0.: 14/293,71s

Filed: Jun. 2, 2014

Prior Publication Data

US 2015/0342830Al Dec. 3, 2015

Int. Cl.
A6IJ 7/04
B65D 83/04
US. Cl.
CPC .. A61J 7/0472
(2013.01); B65D 83/0409 (2013.01)
Field of Classi?cation Search
CPC .. 7/0445; 7/0472
USPC .. 221/2, 3, 4, 15
See application ?le for complete search history.

(2006.01)
(2006.01)

References Cited
U.S. PATENT DOCUMENTS
Dl28,936 

3,687,336 A
3,722,739 A

8/ 1941 Foley
8/ 1972 Gayle
3/ 1973 Blumberg

 

 

 

4,207,992 A 6/1980 Brown

7/1985 Ridgley

4,555,044 A 11/1985 Pearo

5,323,929 A 6/1994 Marlar .. 7/0409
221/121

5,372,276 A 12/1994 Daneshvar

5,609,270 A 3/1997 Walker

5,810,198 A 9/1998 Townsend eta].

7,359,765 4/2008 Varvarelis .. 7/0481
221/265

7,719,927 B1 5/2010 Robinson et a1.

6/2011 Barrass

5/2012 Nassiriet a1.

8,446,799 B2 5/2013 Burke, etal.

8,469,194 B2 6/2013 Johnson et al.

(Continued)

FOREIGN PATENT DOCUMENTS

FR 2739083 Al 3/1997

OTHER PUBLICATIONS

Med-E-Lert Automatic Pill Dispenser With Alarm. Available at http://

(Last accessed ]ul. 7, 2014).

(Continued)

Primary Examiner Patrick Mackey
(74) Attorney, Agent, orFirm Simpson& Simpson, PLLC

(57) ABSTRACT

A pill dispenser comprising a container operatively arranged
to hold at least one pill, a cap/timer assembly rotatably
secured to the container, the cap/ timer assembly arranged to
be set to a time interval for dispensing the at least one pill,
means for alerting a user when the timer has been set to the
time interval, and a dispenser housed Within the container and
the cap, the dispenser operatively arranged to dispense only
one pill at the beginning of the time interval, and to prevent
dispensing until the time interval has elapsed. The dispenser
also includes an audible alert to indicate that a pill has been
dispensed.

21 Claims, 15 Drawing Sheets

US 9,283,150 B2
Page 2

 

(56)

References Cited

U.S. PATENT DOCUMENTS

8,622,241 B2 
8,666,543 B2 

8,700,212 B1
8,752,728 

8,936,175 

2008/0017658 A1

1/2014
3/2014

4/2014
6/2014

1/2015

1/2008

Geboers .. 7/0084
206/533

MacVittie .. B65D 83/0409
221/241

Bruno et a1.

Tignanelli .. 
221/15

Song .. A61J 7/0472
221/15

Wright

2008/0054008 A1 3/2008 Wright
2011/0259910 A1 10/2011 Knudsen
2011/0272297 A1 11/2011 Ziemba et a1.
2013/0116818 5/2013 Hamilton .. 
700/236
2013/0153608 A1 6/2013 Arnin et al.
OTHER PUBLICATIONS

Med-E-Lert Easy Set-Up Manual. Available at ActiveForever.com.
Scottsdale, AZ. (Last accessed Jul. 7, 2014).

cited by examiner

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US 9,283,150 B2

1
PILL DISPENSING SYSTEM

FIELD OF THE INVENTION

The invention relates generally to pill dispensers and, more
speci?cally, to pill dispensers that dispense only one pill at the
beginning of a time interval and prevent dispensing until the
time interval has elapsed.

BACKGROUND OF THE INVENTION

Prescription medications are strictly monitored in hospi-
tals and other medical facilities to prevent overmedication
and illegal distribution of such medications. However,
patients are also prescribed medications to be taken at home
in an unsupervised manner. When unsupervised, it is not
uncommon for a patient to miss a dose of medication. Alter-
natively, more tragically, when unsupervised, a patient can
mistakenly overdose on a prescribed medication because
he/ she forgot they already took a dose.

Patients can obtain prescription medications from pharma-
cies where the medications are provided in pill packs or
bottles. Pill packs are prepared by drug manufacturers. Pill
bottles, on the other hand, are used by pharmacies for various
pills by different manufacturers. Some pill bottles are
equipped with child safety lock mechanisms to prevent chil-
dren from accessing the medication. However, adults can still
access the medication in an uncontrolled manner; thus, adults
can still mistakenly overdose on a prescribed medication,
especially the elderly.

For example, patients experiencing moderate to severe
acute or chronic pain can be prescribed opioids. Opioids are
chemicals that bind to opioid receptors found in
the central and peripheral nervous systems to produce an
analgesic (painkilling) effect. Opioids are used as painkillers
because patients taking them experience a decreased percep-
tion of and reaction to pain and an increase in pain tolerance.
Some patients taking opioids also take over-the-counter
(OTC) drugs to produce similar therapeutic effects and over-
medication can occur. Patients can also overmedicate by tak-
ing their medications at shorter intervals than prescribed.
Overmedication can cause unintended side effects including
death. In 2008, there were 14,800 deaths from prescription
painkiller abuse in the United States alone. CDC, Vital Signs:
Overdoses of Prescription Opioid Pain RelieversiUnited
States, 1999-2008. MMWR 2011; 60: 1-6. The number of
deaths by prescription medication in 2008 was higher than
that of cocaine and heroin overdose deaths in the same year.
Id.

The fact that prescription medications can be addictive
adds to the problem of having prescription medications dis-
tributed in an uncontrolled manner. Opioids, for example,
produce a strong feeling of euphoria in addition to the pain-
killing effect, which causes patients and consumers alike to
use opioids illegally. Recreational prescription drug use is an
ever growing problem.

Others have attempted to prevent overmedication. U. S. Pat.
No. 7,719,927 (Robinson et a1.) describes a disposable pill
bottle including a disposable cap permanently conjoined to
the bottle. The disposable pill bottle further includes a locking
actuator, alarm, and counter, which are electrically powered.
The device keeps track of the time between dosages and alerts
the patient with an audible alarm when it is time to medicate.
Unfortunately, when the bottle is open, a patient can access all
the medication within the bottle; thus, the possibility of unin-
tentional overmedication or illegal distribution still existsAdditionally, since the device is electrically powered, a dead
battery could prevent a patient from receiving their medica-
tion.

US. Pat. No. 3,722,739 (Blumberg) describes an entirely
mechanical means for dispensing pills one-at-a-time after a
period of time. The device aims to prevent the premature
dispensing of pills. The device is generally circular and has an
annular ring of pockets for pills. Additionally, the device
includes two annular members that cover the ring of pockets
and windows, which register to expose any one pocket. The
device is controlled by a timing mechanism, which prevents
movement of the inner of the members into register with a
further pocket until a pre-set time interval has expired. How-
ever, a patient can easily access all the medication contained
within the device by simply opening it; thus, the possibility of
unintentional overmedication still exists.

Therefore, there is a long-felt need for a pill dispenser that
dispenses one pill during a time interval and prevents dispens-
ing and unfettered access until the time interval has elapsed.
Additionally, there is a long-felt need for such a pill dispenser
that is purely mechanical. A pill dispenser having a removable
sleeve is needed so that pharmacists can re?ll prescriptions
and ?ll new prescriptions using the same device with a new
sleeve. Such a pill dispenser that can be adapted to deliver
pills of any size is needed. Additionally, a pill dispenser
having a hemletic seal to prevent unauthorized access is
needed. A pill dispenser having an integrated timer arranged
to be set to a time interval and means for alerting a person that
the timer has been set to the timer interval and that the time
interval has elapsed is needed.

BRIEF SUMMARY OF THE INVENTION

The invention is a pill dispenser comprising a container
operatively arranged to hold at least one pill, a cap/timer
assembly rotatably secured to the container, the cap/timer
assembly arranged to be set to a time interval for dispensing
the at least one pill, means for alerting a user when the timer
has been set to the time interval, and a dispenser housed
within the container and the cap, the dispenser operatively
arranged to dispense only one pill at the beginning of the time
interval, and to prevent dispensing until the time interval has
elapsed.

The invention is a pill dispenser comprising a container
operatively arranged to hold at least one pill, a cap/timer
assembly rotatably secured to the container, the cap/timer
assembly arranged to be set to a time interval for dispensing
the at least one pill, a dispenser housed within the container
and the cap, the dispenser operatively arranged to dispense
only one pill at the beginning of the time interval, and to
prevent dispensing until the time interval has elapsed and
means for alerting a user when the time interval has elapsed.

The invention is also a method for dispensing a pill from a
pill bottle, comprising the steps of: twisting a cap of the
pill bottle containing a timer in a ?rst direction such that the
cap and the timer are rotated a predetermined amount relative
to a container of the pill bottle and an indicator is activated;
accessing a pill from an opening in a bottom of the con-
tainer of said pill bottle; waiting a predetermined amount
of time until the cap of the pill bottle returns in a second
direction to its original position and the indicator is activated
again; and, repeating steps through as needed.

Accordingly, it is a primary purpose of this invention is to
provide a pill dispenser that dispenses one pill at the begin-
ning of a time interval and prevents dispensing until the time
interval has elapsed.

US 9,283,150 B2

3

It is a further object of this invention to provide such a pill
dispenser that is purely mechanical and not dependent upon
an electrical source for operation.

A further object of this invention is to provide a pill dis-
penser having a hermetic seal to prevent unauthorized access.

Another object of this invention is to provide a pill dis-
penser that can be adapted to deliver pills of any size.

It is yet another object of this invention to provide a pill
dispenser having an integrated timer arranged to be set to a
time interval and means for alerting a person that the timer has
been set to the time interval.

Still another object of this invention is to provide a pill
dispenser having an integrated timer arranged to be set to a
time interval and means for alerting a person that the time
interval has elapsed.

These and other objects and advantages of the present
invention will be readily appreciable from the following
description of preferred embodiments of the invention and
from the accompanying drawings and claims.

BRIEF DESCRIPTION OF THE DRAWINGS

The nature and mode of operation of the present invention
will now be more fully described in the following detailed
description of the invention taken with the accompanying
?gures, in which:

FIG. 1A is a front perspective view of the apparatus of the
invention;

FIG. 1B is a front perspective view of the apparatus shown
in FIG. 1A showing a user holding the apparatus and rotating
the cap of the apparatus;

FIG. 1C is a front perspective view of the apparatus shown
in FIG. 1A showing the cap of the apparatus fully rotated and
a user accessing one pill from the apparatus;

FIG. 2A is an exploded bottom perspective View of the cap
of the invention;

FIG. 2B is a bottom perspective View of the inner and outer
portions of the cap of the invention assembled;

FIG. 2C is a cross-sectional View of the inner and outer
portions of the cap shown in FIG. 2B taken generally along
line 2C-2C in FIG. 

FIG. 3A is an exploded top perspective view of the cap/
timer assembly of the invention;

FIG. 3B is a cross-sectional View of the cap/timer assembly
shown in FIG. 2B taken generally along line 3B-3B in FIG.


FIG. 4A is an exploded perspective view of the container of
the invention;

FIG. 4B is a cross-sectional view of a portion of the con-
tainer shown in FIG. 4A taken generally along the line 4B-4B
in FIG. 

FIG. 4C is a cross-sectional view of the container shown in
FIG. 4A taken generally along the line 4C-4C in FIG. 

FIG. 5A is a partially-exploded top perspective view of the
timer and nut of the invention;

FIG. 5B is a bottom elevational view of the nut of the
invention shown in FIG. 

FIG. SC is a partially-exploded bottom perspective view of
the timer and nut of the invention shown in FIG. 

FIG. 6A is a perspective view of the gearing mechanism
within the cap of the invention showing the front portion of
the cap tilted upwards;

FIG. 6B is a perspective view of the gearing mechanism
shown in FIG. 6A at rest with respect to the extension of the
inner portion of the capFIG. 6C is a perspective view of the extension of the inner
portion of the cap shown in FIG. 6B contacting the gearing
mechanism shown in FIG. 

FIG. 6D is a perspective view of the gear/ chime assembly
of the invention;

FIG. 7A is a top down View of the gearing mechanism at
rest with respect to the extension of the inner portion of the
cap shown in FIG. 

FIG. 7B is a top down view of the extension of the inner
portion of the cap contacting the gearing mechanism shown in
FIG. 

FIG. 7C is a top down view of the extension of the inner
portion of the cap actuating the gearing mechanism shown in
FIG. 

FIG. 7D is a top down view of the extension of the inner
portion of the cap causing the chime of the invention to be
actuated;

FIG. 7E is a top down view of the extension of the inner
portion of the cap contacting the gearing mechanism before a
time interval has elapsed;

FIG. 7F is a top down view of the extension of the inner
portion of the cap engaging the gearing mechanism before a
time interval has elapsed;

FIG. 7G is a top down view of the extension of the inner
portion of the cap causing the chime of the invention to be
actuated as a time interval elapses;

FIG. 7H is a top down view of the extension of the inner
portion of the cap at rest with respect to the gearing mecha-
nism after a time interval has elapsed;

FIG. 8A is a left side perspective view of the hopper of the
invention at rest;

FIG. 8B is a fragmented right side perspective view of the
hopper shown in FIG. 

FIG. 9 is a top down view of the hopper shown in FIG. 

FIG. 10A is a schematic View of the ?rst end of the hopper
shown in FIG. 9 at rest arranged beneath the sleeve of the
container;

FIG. 10B is a schematic view of the second end of the
hopper shown in FIG. 9 at rest arranged beneath the sleeve of
the container;

FIG. 10C is a schematic view of the ?rst end of the hopper
shown in transition arranged beneath the sleeve of the con-
tainer;

FIG. 10D is a schematic View of the second end of the
hopper shown in transition arranged beneath the sleeve of the
container;

FIG. 10E is a schematic view of the ?rst end of the hopper
shown fully actuated arranged beneath the sleeve of the con-
tainer;

FIG. 10F is a schematic view of the second end of the
hopper shown fully actuated arranged beneath the sleeve of
the container;

FIG. 11 is a perspective view of the seal of the invention
being applied to the apparatus of the invention;

FIG. 12A is a top down view of an alternate embodiment of
a sleeve of the invention;

FIG. 12B is a top down view of an alternate embodiment of
a sleeve of the invention;

FIG. 12C is a top down view of an alternate embodiment of
a sleeve of the invention;

FIG. 12D is a top down view of an alternate embodiment of
a sleeve of the invention; and,

FIG. 12E is a top down view of an alternate embodiment of
a sleeve of the invention.

DETAILED DESCRIPTION OF THE INVENTION

At the outset, it should be appreciated that like drawing
numbers on different drawing views identify identical, or

US 9,283,150 B2

5

functionally similar, structural elements of the invention.
While the present invention is described with respect to what
is presently considered to be the preferred aspects, it is to be
understood that the invention as claimed is not limited to the
disclosed aspect. The present invention is intended to include
various modi?cations and equivalent arrangements within the
spirit and scope of the appended claims.

Furthermore, it is understood that this invention is not
limited to the particular methodology, materials and modi?-
cations described and, as such, may, of course, vary. It is also
understood that the terminology used herein is for the purpose
of describing particular aspects only, and is not intended to
limit the scope of the present invention, which is limited only
by the appended claims.

Unless de?ned otherwise, all technical and scienti?c terms
used herein have the same meaning as commonly understood
to one of ordinary skill in the art to which this invention
belongs. Although any methods, devices or materials similar
or equivalent to those described herein can be used in the
practice or testing of the invention, the preferred methods,
devices, and materials are now described.

Adverting now to the Figures, FIG. 1A is a front perspec-
tive View of apparatus 1 0, which is a mechanical apparatus for
controlling the dispensing of pills, for example, medicaments
(shown in FIG. 1C). Apparatus 10 broadly comprises con-
tainer 11, cap 12, dispenser assembly 14 (shown in FIGS. 3A
and 4A) and base 24. Container 11 includes means for hold-
ing at least one pill and means for accessing the at least one
pill. Cap 12 is securable to container 11. Cap 12 includes
timer 13 (shown in FIGS. 3A and SA) housed therein. Cap 12
further includes means for setting timer 13 and means for
alerting user (shown in FIGS. 1B and 1C) when a time
interval has been set for timer 13 and when the time interval
has elapsed. Dispenser assembly 14 is housed within con-
tainer 11 and cap 12. Dispenser assembly 14 includes means
for controlling the dispensing of pills one pill at a time such
that once user accesses a ?rst pill, user can only access
second pill P2 once the set time interval has elapsed.

In a preferred embodiment, apparatus 10 comprises align-
ment line segments L1 and L2 to indicate either when appa-
ratus 10 is ready to dispense a pill or when a time interval has
been set for timer 13. First alignment line segment L1 is
af?xed to or impressed on the exterior surface of cap 12.
Second alignment line segment L2 is af?xed to or impressed
on the exterior surface of container 11. In a preferred embodi-
ment, alignment line segments L1 and L2 are printed indicia.
When apparatus 10 is ready to dispense a pill or when a time
interval has been set for timer 13, the alignment line segments
L1 and L2 are aligned. In other words, when alignment line
segments L1 and L2 are aligned, cap 12 is ready to be rotated
with respect to container 11 so that only one pill can be
accessed. Similarly, when alignment line segments L1 and L2
are aligned and cap 12 has been fully rotated with respect to
container 11, the time interval has been set. In a preferred
embodiment, cap 12 comprises inner portion 32 and outer
portion 33 (shown in FIG. 2A) such that, as shown in FIG. 1A,
alignment line segment L1 on cap 12 is on inner portion 32
and outer portion 33 is transparent or translucent so that user
can see alignment line segment L1 on cap 12 through outer
portion 33. Thus, it is seen that the printed indicia line seg-
ments L1 and L2 have a functional relationship with the
exterior surfaces of cap 12 and container 11, respectively, in
that the line segments function to indicate either when cap 12
is ready to be rotated with respect to container 11 or when cap
12 has been fully rotated with respect to container 11.

Base 24 of apparatus 10 further includes opening 25 as
shown in FIG. 1A. It should be appreciated that, in a preferred

embodiment, base 24 includes door 26 which is slidable along
a track within base 24 of container 11. From a resting state,
when cap 12 is fully rotated with respect to container 11, one
pill is released into base 24 of container 11 and user can
access the one pill via opening 25 and door 26. In an example
embodiment, container 11 and cap 12 are cylindrical how-
ever, it should be appreciated that container 11 and cap 12
could take any suitable shape, for example, square or rectan-
gular bottles are contemplated.

As shown in FIG. 1B, from the resting state, user can
rotate cap 12 with respect to container 11 in direction D1. In
a preferred embodiment, direction D1 is clockwise. When
outer portion 33 of cap 12 is rotated in the clockwise direc-
tion, inner portion 32 is also rotated clockwise due to the
ratcheted engagement between inner portion 32 and outer
portion 33 (shown in FIGS. 2A, 2B, and 2C). It should be
appreciated that if user rotates cap 12 counter-clockwise,
outer portion 33 rotates freely with respect to inner portion 32
due to the ratcheted engagement between inner portion 32 and
outer portion 33. Thus, in a preferred embodiment, in order to
rotate cap 12 such that one pill is released into base 24, user 
fully rotates cap 12 with respect to container 11 clockwise.
The ratcheted engagement prevents user from tampering
with the pre-determined time interval of timer 13. In a pre-
ferred embodiment, pill is only released into base 24 when
cap 12 is rotated 360 degrees clockwise with respect to con-
tainer 11. As shown in FIG. 1C, cap 12 is fully rotated and a
time interval has been set for timer 13. It should be appreci-
ated that alignment line segments L1 and L2 are aligned again
as they were aligned in the resting state before cap 12 was
rotated as shown in FIG. 1A. Once cap 12 is fully rotated, pill
is accessible through opening 25 and door 26. To access
pill M, user slides door 26 within its track.

FIG. 2A shows inner portion 32 exploded from outer por-
tion 33 of cap 12. As described above, outer portion 33
engages inner portion 32 via a ratcheted engagement such that
when outer portion 33 is rotated clockwise, inner portion 32 is
also rotated clockwise in unison. It should be appreciated that
the ratcheted engagement could be arranged such that inner
portion 32 is rotatable counter-clockwise. Inner portion 32
also includes lip 32A which protrudes inwardly from the
bottom circumference of inner portion 32. FIG. 2B shows
inner portion 32 assembled within outer portion 33. Lip 34
protrudes inwardly from the bottom circumference of outer
portion 33 and provides support for inner portion 32. FIG. 2C
is a cross-sectional view of cap 12 taken generally along line
2C-2C in FIG. 2B. Aperture 41A is formed within the under-
neath top surface of inner portion 32. In a preferred embodi-
ment, aperture 41A is operatively arranged to receive nut 41
by means of a press As shown in FIG. 2C, outer portion 33
is rotatable along direction D1 and direction D2. In a pre-
ferred embodiment, inner portion 32 is only rotatable along
direction D1 when outer portion 33 is rotated along direction
D1. Outer portion 33 is preferably made of transparent plas-
tic. In a preferred embodiment, cap 12 and container 11 are
made of pharmaceutical plastic, for example, high density
polyethylene (HDPE) plastic, medium density polyethylene
(MDPE) plastic, low density polyethylene (LDPE) plastic,
polyethylene terephthalate (PET) plastic, polypropylene (PP)
plastic, or (PS) plastic which are prepared for use
with pharmaceutical products.

FIG. 3A shows an exploded top perspective View of the
cap/timer assembly of apparatus 10. The cap/timer assembly
broadly includes cap 12, nut 41, timer 13, and lateral support
31. As described above, nut 41 is ?xedly secured within
aperture 41A arranged on the underneath surface of inner
portion 32 of cap 12 (shown in FIG. 2C). Nut 41 is arranged

US 9,283,150 B2

7

to receive and rotate arm 55 of timer 13. Timer 13 includes leg
posts 51 (shown in FIG. 5C), 52, 53, and 54 which rest within
recesses R1, R2, R3 (shown in FIG. 6A), and R4, respectively,
of lateral support 31. It should be appreciated that leg posts
51, 52, 53, and 54 oftimer 13 are not secured to recesses R1preferred embodiment. The cap/timer
assembly aligns with container 11 by L-shaped alignment
members 63 and 64. Cap 12 and container 11 are secured by
seal 90. L-shaped alignment members 63 and 64 engage
arcuate slots 66 and 68, respectively. When L-shaped align-
ment members 63 and 64 are engaged with arcuate slots 66
and 68, respectively, protrusions 30A and 30B extending
downwardly from lateral member 73 through lateral support
31 can depress longitudinal members 18A and 18B. Protru-
sions 30A and 30B are shown in FIGS. 6B and 6C.

FIG. 3B shows a cross-sectional view of the cap/timer
assembly shown in FIG. 2B taken generally along line 3B-3B
in FIG. 2B. Cap 12 is secured to container 11. Innerportion 32
of cap 12 is surrounded by outer portion 33 of cap 12. Inner
portion 32 rests atop lip 34 of outer portion 33 of cap 12.
Aperture 41A is arranged within the underneath top surface of
inner portion 32 and operatively arranged to receive nut 41 by
means of a press Arm 55 of timer 13 ?ts within nut 41 such
that when inner and outer portions 32 and 33 are rotated, nut
41 rotates arm 55 to wind timer 13. Inner portion 32 of cap 12
engages groove 31C of lateral support 31 of cap 12. Groove
31C is arranged between top portion 31A and bottom portion
31B of lateral support 31. Lateral support 31 including top
portion 31A, bottom portion 31B and groove 31C are cylin-
drical such that, as inner portion 32 is rotated by outer portion
33, inner portion 32 is rotatable with respect to lateral support
31 within groove 31C. As described above, timer 13 rests atop
lateral support 31 by means of posts and recesses. Gearing
mechanism 50 (described in ?irther detail below) is shown
between timer 13 and top portion 31A of lateral support 31.
Seal 90 is shown securing bottom portion 31B of lateral
support 31 to container 11. It should be appreciated that seal
90 is a hermetic seal in a preferred embodiment however, any
suitable seal is contemplated. For example, seal 90 can be a
heat sealed bar coded prescription label. In a preferred
embodiment, seal 90 is a standard adhesive label.

In a preferred embodiment, nut 41 is a custom metal nut
made of stainless steel and operatively arranged to prevent
stripping between inner portion 32 and arm 55. In a preferred
embodiment, timer 13 is a 19 Series Spring
Driven Timing Mechanism, available from M. H. Rhodes,
105 Nutmeg Road South, South Windsor, Conn. 06074,
modi?ed to include leg posts 51, 52, 53, and 54 so that timer
13 can stand atop lateral support 31 of cap 12 within recesses
R1, R2, R3, and R4. Timer 13 is pre-designed to be rotatable
for a speci?c interval of time, for example, a prescribed dos-
age period. For example, timer 13 can be pre-designed to
rotate for hours, etc. It should
be appreciated that timer 13 can be set for any desired time
interval.

FIG. 4A shows an exploded perspective view of container
11 including part of dispenser assembly 14. The other part of
dispenser assembly 14 is gearing mechanism 50 shown in
FIG. 3A. Dispenser assembly 14 broadly includes gearing
mechanism 50, longitudinal members 18A and 18B and hop-
per 80. To dispense pill M, gearing mechanism 50 depresses
longitudinal members 18A and 18B, which, in turn, rotate
hopper 80. When a pre-determined time interval has elapsed,
gearing mechanism 50 raises longitudinal members 18A and
18B, which, in turn, rotate hopper 80 in the opposite direction
to collect the next pill to be dispensed. It should be appreci-
ated that longitudinal members 18A and 18B include springs

which allow longitudinal members 18A and
18B to be displaced longitudinally within container 11. How-
ever, springs 91, 92, 93 and 94 do not provide an upward
force. In other words, as further explained below, when gear-
ing mechanism 50 raises longitudinal members 18A and 18B
it is without assistance from springs 91, 92, 93 and 94.

Container 11 includes sleeve 15, outer member 16,
through-bores 17A and 17B operatively arranged to align
protrusions 3 0A and 3 0B with longitudinal members 18A and
18B. Additionally, through-bores 17A and 17B maintain and
guide longitudinal members 18A and 18B as they are dis-
placeable in the longitudinal direction. Sleeve 15 is remov-
ably arranged within outer member 16 and operatively
arranged to hold at least one pill M. It should be appreciated
that sleeve 15 is open at the top and bottom to allow pills to be
dispensed into hopper 80. Furthermore, it should be appreci-
ated that outer member 16 is also open at the top and bottom
to allow pills (one at a time) to be dispensed into base 24.

In a preferred embodiment, sleeve 15 tapers from top to
bottom such that, at the bottom, sleeve 15 is open only to
allow pill M, one at a time, to fall into hopper 80. In a
preferred embodiment, the contour of the open bottom of
sleeve 15 is correspondingly-shaped according to the shape of
pill to be dispensed. For example, the bottom opening of
sleeve 15 can be circular for circular pills. Alternatively, the
bottom opening of sleeve 15 can be oblong to accommodate
oblong pills. Any suitable shape is contemplated. Sleeve 15 is
prevented from rotating within outer member 16 by aligning
tab 61, which protrudes from the outer surface of sleeve 15;
aligning tab 61 ?ts within notch 62 which is arranged within
the inner surface of outer member 16.

FIG. 4B shows the top inner surface of outer member 16
which is correspondingly tapered to provide a corresponding
?t with the taper of sleeve 15. FIG. 4C shows outer member
16 of container 11 press ?tted into base 24. Hopper 80 is
securable laterally within outer member 16 by diametrically
opposing notches 81 and 82 which are operatively arranged to
receive rods 83 and 84 extending outwardly from hopper 80.
As previously described, container 16 includes opening 16A
arranged at the bottom beneath hopper 80 so that pill can
fall from hopper 80 into base 24.

L-shaped alignment members 63 and 64 are shown in
FIGS. 3A and 4A protruding upwardly from the top of outer
member 16. L-shaped alignment members 63 and 64 connect
container 1 1 with cap 12 by sliding within arcuate slots 66 and
68, respectively, and hooking atop lateral support 31. To
connect outer member positioned
atop outer member 16. When L-shaped aligmnent members
63 and 64 slide through arcuate slots rotated with respect to outer member 16 such that L-shaped
alignment members 63 and 64 are prevented from further
rotating by arcuate slots 66 and 68. Once in this position,
container 11 and cap 12 are preferably hermetically sealed. In
a preferred embodiment, L-shaped aligmnent member 63 is
arranged diametrically opposite L-shaped alignment member
64.

In a preferred embodiment, longitudinal members 18A and
18B are also arranged diametrically opposite one another.
Furthermore, in a preferred embodiment, longitudinal mem-
bers 18A and 18B are positioned 90 degrees with respect to
L-shaped alignment members 63 and 64. Aligning tab 61 and
notch 62 are arranged proximate L-shaped alignment mem-
ber 63. However, it should be appreciated that aligning tab 61
and notch 62 could be arranged anywhere along the inner
surface of outer member 16.As described above, longitudinal
members 18A and 18B connect gearing 50 within cap 12 with
hopper 80.

US 9,283,150 B2

9

The following should be appreciated from FIGS. 5A
through 5Ctimer 13 is securable to nut
41 such that when nut 41 rotates with cap 12, arm 55 of timer
13 rotates. In a preferred embodiment, the lateral cross-sec-
tion circular barrel shaped. In other
words, the lateral cross-section sub-
stantially circular except two opposing parallel sides are ?at-
tened. As previously described and shown in FIG. 5B, nut 41
includes custom shaped indent 41B to prevent am 55 from
stripping. Any suitable custom shape is contemplated. Leg
posts 51, 52, 53 and 54 are shown protruding downwardly
from timer 13.

FIG. 6A shows inner portion 32 of cap 12 including exten-
sion 42. Timer 13 is not shown and inner portion 32 is tilted
upward atop lateral support 31. It should be appreciated by
referring to FIG. 3B, that inner portion 32 secures to lateral
support 31 by hooking under top portion 31A and resting
within groove 31C atop bottom portion 31B. As shown in
FIG. 6A, when apparatus 10 is at rest, extension 42 aligns
immediately or clockwise of shaped member
65 of gearing 50. When inner portion 32 of cap 12 is rotated
to dispense pill and set a time interval, extension 42 rotates
clockwise in the direction shown. It should be appreciated
that, in a preferred embodiment, since extension 42 at rest sits
clockwise of gearing 50, extension 42 does not contact gear-
ing 50 until extension 42 is rotated almost 3 60 degrees. Exten-
sion 42 contacts T?shaped member 65 as inner portion 32 is
rotated.

Gearing 50 is further shown in FIGS. 6B and 6C. In addi-
tion to T?shaped member 65, gearing 50 includes ?rst sequen-
tial gear 69, second sequential gear 70, third sequential gear
71, and rung member 72. First sequential gear 69, second
sequential gear 70, and third sequential gear 71 mesh to
transmit rotational motion. Gearing 50 further includes lat-
eral member 73 which connects rung member 72 to protru-
sions 30A and 3 0B which protrude within through-bores 17A
and 17B of outer member 16 to longitudinal members 18A
and 18B and then to hopper 80. FIG. 6B shows gearing 50
when apparatus 10 is at rest. As extension 42 is rotated clock-
wise gearing 50 is stationary. Until extension 42 is rotated to
the position shown in FIG. 6C, gearing 50 is stationary.
Beginning at the point of contact shown in FIG. 6C between
extension 42 and T-shaped member 65, ?rst sequential gear
69 is rotated in the direction shown. Rotation of ?rst sequen-
tial gear 69 rotates second sequential gear 70 in the direction
shown. Rotation of second sequential gear 70 rotates third
sequential gear 71. Rotation of third sequential gear 71 dis-
places rung member 72 in the direction shown. Displacement
of rung member 72 depresses lateral member 73, which, in
turn depresses protrusions 30A and 30B and longitudinal
members 18A and 18B. It should be appreciated that ?rst
sequential gear 69 and second sequential gear 70 rotate in the
same plane as extension 42 and T?shaped member 65. Third
sequential gear 71 is rotated in a plane that is perpendicular to
the plane of rotation of ?rst sequential gear 69, second
sequential gear 70, extension 42 and T-shaped member 65.
First sequential gear 69 and second sequential gear 70 are
elevated atop the top surface of lateral support 31 by supports
69A and 70A, respectively (see also FIG. 6A). Third sequen-
tial gear 71 is supported by support 71A.

FIGS. 6B, 6C, and 6D show chime 40 arranged to engage
?rst sequential gear 69. Chime 40 includes support 40A and
tine 40B. Tine 40B of chime 40 is arranged to be contacted by
cog 100 of ?rst sequential gear 69.

The following should be appreciated in view of FIGS. 7A
through 7H. FIG. 7A corresponds with the gearing mecha-
nism 50 shown in FIG. 6B. In both Figures, extension immediately or clockwise, of shaped member
65. Gearing mechanism 50 is at rest or stationary. FIG. 7B
corresponds with the gearing mechanism 50 shown in FIG.
6C. In both Figures, extension 42 has rotated almost 360
degrees and extension 42 is about to contact T?shaped mem-
ber 65. As shown in both FIGS. 7A and 7B, cog 100 and
T?shaped member 65 and all the other components are
unchanged except for extension 42. FIG. 7B shows extension
42 moving toward and contacting T?shaped member 65.

FIG. 7C shows gearing 50 as extension 42 pushes T?shaped
member 65. As cap 12 is fully rotated to set the time interval,
extension 42 pushes T?shaped member 65. shaped member
65 is connected to ?rst sequential gear 69. Accordingly, as
T?shaped member 65 is pushed clockwise, ?rst sequential
gear 69 is rotated clockwise in the direction shown. Similarly,
cog 100 rotates and contacts tine 40B of chime 40. Due to
meshing, as ?rst sequential gear 69 is rotated, second sequen-
tial gear 70 is rotated as is third sequential gear 71. Rung
member 72 and lateral member 73 depress protrusions 30A
and 30B and longitudinal members 18A and 18B which rotate
hopper 80 (shown in FIG. 8A).

FIG. 7D shows a preferred embodiment where extension
42 fully rotates T?shaped member 65. In this position, cog 100
causes tine 40B of chime 40 to create an audible sound such
that user can be alerted that the time interval has been set
and pill has been dispensed into base 24. In this position, as
shown in FIGS. 10B and 10F, due to the rotation gearing 50
and depression of longitudinal members 18A and 18B,
respectively, hopper 80 is rotated to release one pill M.

Once hopper 80 has been rotated to release one pill and the
timer interval has been set, timer 13 begins to run for the
duration of the time interval and cap 12 including extension
42 slowly rotates counter-clockwise. FIG. 7B shows the posi-
tioning of gearing 50 and extension 42 before the time inter-
val has elapsed (before extension 42 has returned 360
degrees). It should be appreciated that gearing 50 is in the
same position as shown in FIG. 7D where extension 42 fully
extends T?shaped member 65. Gearing 50 is stationary while
the time interval runs until extension 42 returns and contacts
T?shaped member 65. While extension 42 rotates counter-
clockwise between the positions of FIGS. 7D and 7E, respec-
tively, springs 91, 92, 93 and 94 do not raise longitudinal
members 18A and 18B.

FIGS. 7F through 7H show extension 42 pushing T?shaped
member 65 as the time interval elapses. As T?shaped member
65 is moved counter-clockwise, ?rst sequential gear 69 is
moved counter-clockwise. Due to meshing, second sequen-
tial gear 70 is rotated clockwise and third sequential gear 71
is rotated. As third sequential gear 71 is rotated in the direc-
tion shown, rung member 72 is raised. As rung member 72 is
raised, lateral member 73 is raised. Since lateral member 73 is
connected to longitudinal members 18A and 18B via protru-
sions 30A and 30B, as lateral member 73 is raised, longitu-
dinal members 18A and 18B are raised. The raising of longi-
tudinal members 18A and 18B causes hopper 80 to rotate to
receive the next pill.

As shown in FIG. 7G, as extension 42 pushes T?shaped
member 65 to its original position (shown in FIG. 7A), cog
100 causes tine 40B of chime 40 to create an audible sound
such that user can be alerted that the time interval has
elapsed. In the position shown in FIG. 7H, apparatus 10 can
be set to another time interval and the next pill can be accessed
by rotating cap 12 with respect to container 11 once again.

FIG. 8A shows hopper 80 arranged between longitudinal
members 18A and 18B. Hopper 80 includes half 80A and half
80B where half 80A is rotatable within half 80B. Rod 83
extends from notch 81 arranged within outer member 16

US 9,283,150 B2

11

(shown in FIG. 4C) and connects to half 80B of hopper 80.
Rod 84 extends from notch 82 arranged within outer member
16 and preferably diametrically opposed to notch 81, and
connects to half 80A of hopper 80. Rods 83 and 84 include
two parts which can telescope. Rods 83 and 84 include
springs that offer compression for the telescoping portion
connected to gears 86B and 88B.

Since half 80A is arranged within half 80B, rod 84 con-
nects to half 80A via through-bore 85 as shown in FIG. 9. The
depression and elevation of longitudinal member 18A via
gearing 50 described above controls the rotation of half 80B.
On the other side, the depression and elevation of longitudinal
member 18B via gearing 50 controls the rotation of half 80A.
As shown in FIG. 8A, from a left side perspective view,
plunging gear 86A is arranged on the left of gear 86B. As
shown in FIG. 8B, from a right side perspective view, plung-
ing gear 88A is arranged on the left of gear 88B. As shown in
FIG. 9, from a top view, plunging gears 86A and 88A are
arranged on opposite sides of rods 83 and 84, respectively.
Half 80A is secured within half 80B proximate rod 83 via
protrusion and notch.

Rods 83 and 84 secure hopper 80 within container 11. The
displacement of longitudinal members 18A and 18B by gear-
ing 50 causes hopper 80 to rotate. As longitudinal member
18A is depressed, extremity 86, which protrudes from longi-
tudinal member 18A, depresses. As extremity 86 depresses,
plunging gear 86A depresses and rotates gear 86B via mesh-
ing. Since gear 86B is secured to half 80B of hopper 80, as
gear 86B rotates, half 80B rotates. Simultaneously, as longi-
tudinal member 18A is depressed, longitudinal member 18B
is depressed; extremity 88, which protrudes from longitudinal
member 18B, depresses. As extremity 88 depresses, plunging
gear 88A depresses and rotates gear 88B via meshing. Since
gear 88B is secured to half 80A of hopper 80, as gear 88B
rotates, half 80A rotates.

In the resting state when gearing 50 is positioned according
to FIG. 7A and hopper 80 is positioned according to FIG. 8A,
hopper 80 is open facing upward. In a preferred embodiment,
pill is already within hopper 80 between half 80A and half
80B as shown in FIG. 9. As shown in FIGS. 10A and 10B,
next pill is waiting atop hopper 80 within sleeve 15. FIG.
10A shows the left side view of hopper 80 shown in FIG. 8A.
FIG. 10B shows the right side view of hopper 80 shown in
FIG. 8A. FIGS. 10A and 10B show opposite ends of hopper
80 when apparatus 10 is at rest and hopper 80 is ready to be
rotated.

FIGS. 10C and 10D show opposite ends of hopper 80,
respectively, when apparatus 10 is rotating to dispense pill M.
The position of hopper 80 in FIGS. 10C and 10D corresponds
with the position of gearing 50 shown in FIG. 7C. In order to
rotate half 80A and half 80B, longitudinal members 18A and
18B depress via gearing 50 as described above. As longitu-
dinal members 18A and 18B depress, plunging gears 86A and
88A depress and rotate gears 86B and 88B, respectively. As
shown in FIG. 10C, plunging gear 86A and gear 86B only
rotate half 80B. Simultaneously, as shown in FIG. 10D,
plunging gear 88A and gear 88B only rotate half 80A.

FIGS. 10E and 10F show opposite ends of hopper 80,
respectively, when apparatus 10 is rotated to dispense pill M.
The position of hopper 80 in FIGS. 10E and 10F corresponds
with the position of gearing 50 shown in FIG. 7D. Once half
80A and half 80B are fully rotated, pill is released into base
24 arranged beneath hopper 80. User can access pill via
door 26. Door 26 preferably remains closed by means of
friction however, user can manually open door 26. As
described above, once hopper 80 has been rotated to release
one pill and the timer interval has been set, timer 13 begins

run for the duration of the time interval and cap 12 includ-
ing extension 42 slowly rotates counter-clockwise. Through-
out the counter?clockwise movement, half 80A and half 80B
remain in the positions shown in FIGS. 10E and 10F. As
gearing 50 is actuated by extension 42 (as shown in FIGS. 7F
through 7H), half 80A and half 80B are rotated from the
downward facing open position (shown in FIGS. 10E and
10F) to the upward facing open position (shown in FIGS. 10A
and 10B). Longitudinal members 18A and 18B are raised via
gearing 50 as described above. As longitudinal members 18A
and 18B are raised, plunging gears 86A and 88A are raised
and gears 86B and 88B rotate half 80A and 80B, respectively.
After pill is dispensed into base 25 and the time interval has
elapsed, next pill is within hopper 80 and ready to be
dispensed. The process of dispensing a pill can be repeated.

FIG. 11 shows seal 90 being applied to apparatus 10. User
can be a pharmacist, for example. Once applied, if the seal
is intact, it is an indication that apparatus 10 has not been
tampered with.

FIGS. 12A through 12E show a variety of alternate
embodiments of sleeve 15 from the top view. It should be
appreciated that sleeve 15 maintains substantially the same
outer diameter. However, the opening at the bottom of sleeve
15 can be modi?ed to accommodate pills of differing shapes.
FIG. 12A shows sleeve 15 with opening 101 which is oval
shaped. FIG. 12B shows sleeve 15 with opening 102 which
has an elongated oval shape. FIG. 12C shows sleeve 15 with
opening 103 whichis circular. FIG. 12D shows sleeve 15 with
opening 104 which has an enlarged circular shape. FIG. 12E
shows sleeve 15 with opening 105 which has oval barrel
shape. It should be appreciated that sleeve 15 can be modi?ed
to accommodate all different sized and shaped pills M. In a
preferred embodiment, sleeve 15 can hold approximately 240
pills. Although, it should be appreciated that the dimensions
of apparatus 10, including the dimensions of sleeve 15, can be
adjusted to accommodate a smaller or larger number of pills
M. Additionally, the size and shape of pills can affect the
dimensions. It should be appreciated that the components of
apparatus 10 are made of plastic except for the springs, gears,
seal 90 and timer 13.

Thus, it is seen that the objects of the present invention are
ef?ciently obtained, although modi?cations and changes to
the invention should be readily apparent to those having ordi-
nary skill in the art, which modi?cations are intended to be
within the spirit and scope of the invention as claimed. It also
is understood that the foregoing description is illustrative of
the present invention and should not be considered as limit-
ing. Therefore, other embodiments of the present invention
are possible without departing from the spirit and scope of the
present invention.

REFERENCE NUMERALS

10 apparatus

pill

next pill

11 container

12 cap

13 timer

14 dispenser assembly
user

15 sleeve

16 outer member

16A opening

17A protrusion

17B protrusion

18A longitudinal member

13
18B longitudinal member
24 base
25 opening
26 door
D1 direction
D2 direction
30A protrusion
30B protrusion
31 lateral support
31A top
31B bottom
31C groove
32 inner portion
32A lip
33 outer portion
34 lip
40 chime
40A support
40B tine
41 nut
41A aperture
41B custom shaped indent
42 extension
L1 portion of alignment line
L2 portion of alignment line
50 gearing
51 leg post
52 leg post
53 leg post
51 leg post
R1 recess
R2 recess
R3 recess
R4 recess
55 arm
62 tab
62 notch
63 L-shaped alignment member
64 L-shaped alignment member
65 T-shaped member
66 arcuate slot
68 arcuate slot
69 ?rst sequential gear
69A support
70 second sequential gear
70A support
71 third sequential gear
71A support
72 rung member
73 lateral member
80 hopper
80A half
80B half
81 notch
82 notch
83 rod
84 rod
85 through bore
86 extremity
86A plunging gear
86B gear
88 extremity
88A plunging gear
88B gear
90 seal
91 spring
92 spring

US 9,283,150 spring

94 spring

100 cog

101 opening

102 opening

103 opening

104 opening

105 opening

What is claimed is:

1. A pill dispenser, comprising:

a container operatively arranged to hold at least one pill,
said container including a sleeve having a sidewall taper-
ing from a ?rst opening to a second opening;

a cap/timer assembly rotatably secured to said container,
said cap/timer assembly arranged to be set to a time
interval for dispensing said at least one pill;

means for alerting a user when said timer has been set to
said time interval; and,

a dispenser housed within said container and said cap, said
dispenser operatively arranged to dispense only one pill
at the beginning of said time interval, and to prevent
dispensing until said time interval has elapsed.

2. The pill dispenser recited in claim 1, wherein said sleeve

is removable.

3. The pill dispenser recited in claim 1 further comprising
means for alerting a user when said time interval has elapsed.

4. The pill dispenser recited in claim 3 wherein said means
for alerting a user when said time interval has elapsed is a
chime.

5. The pill dispenser recited in claim 1 further comprising
means for visually indicating to a user that said timer interval
has elapsed and said pill can be dispensed.

6. The pill dispenser recited in claim 1, wherein said cap/
timer assembly is rotatable in a clockwise direction with
respect to said container.

7. The pill dispenser recited in claim 1, wherein said con-
tainer is securable to said cap by a hermetic seal.

8. The pill dispenser recited in claim 1, wherein said cap/
timer assembly is rotated 360 degrees to set a time interval
and to dispense said at least one pill.

9. The pill dispenser recited in claim 1, wherein said cap/
timer assembly is rotatable in a single direction.

10. A pill dispenser, comprising:

a container operatively arranged to hold at least one pill,
said container including a sleeve having a sidewall taper-
ing from a ?rst opening to a second opening;

a cap/timer assembly rotatably secured to said container,
said cap/timer assembly arranged to be set to a time
interval for dispensing said at least one pill;

a dispenser housed within said container and said cap, said
dispenser operatively arranged to dispense only one pill
at the beginning of said time interval, and to prevent
dispensing until said time interval has elapsed; and,

means for alerting a user when said time interval has
elapsed.

11. The pill dispenser recited in claim 10, wherein said

sleeve is removable.

12. The pill dispenser recited in claim 10 further compris-
ing means for alerting a user when said timer has been set to
said time interval.

13. The pill dispenser recited in claim 12, wherein said
means for alerting a user when said timer has been set to said
time interval is a chime.

14. The pill dispenser recited in claim 10, wherein said
cap/timer assembly is rotatable in a single direction.

US 9,283,150 B2

15

15. The pill dispenser recited in claim 10, wherein said
cap/timer assembly is rotatable 360 degrees to set a time
interval and to dispense said at least one pill.

16. The pill dispenser recited in claim 10 further compris-
ing means for visually indicating to a user that said time
interval has elapsed and said pill can be dispensed.

17. The pill dispenser recited in claim 10, wherein said
dispenser is securable to said cap assembly by a hermetic seal.

18. A method for dispensing a pill from a pill bottle, com-
prising the steps of:

twisting a cap of said pill bottle containing a timer in a
?rst direction such that said cap and said timer are
rotated a predetermined amount relative to a container of
said pill bottle;

releasing a pill from a hopper within the container of
said pill bottle into a bottom of said container;

activating an indicator;

10

16

accessing said pill from an opening in said bottom of
said container of said pill bottle;

waiting a predetermined amount of time until said cap
of said pill bottle returns in a second direction to its
original position so that another pill is received from a
sleeve within said container into said hopper to be
released, said sleeve having a sidewall tapering from a
?rst opening to a second opening and activating said
indicator again; and,

repeating steps through as needed.

19. The method recited in claim 18 wherein said predeter-

mined amount is 360 degrees.

20. The method recited in claim 18, wherein said indicator

is a chime.

21. The method recited in claim 18, wherein said ?rst

direction is clockwise and said second direction is counter-
clockwise.