U.S. patent application number 10/331084 was filed with the patent office on 2003-07-24 for child resistant cap.
Invention is credited to Biesecker, Frederick N., Sprishen, Gregory.
Application Number | 20030136753 10/331084 |
Document ID | / |
Family ID | 26987575 |
Filed Date | 2003-07-24 |
United States Patent
Application |
20030136753 |
Kind Code |
A1 |
Biesecker, Frederick N. ; et
al. |
July 24, 2003 |
Child resistant cap
Abstract
A child resistant cap for a bottle includes a cover portion with
a periphery having a wall with an internal surface surrounds the
neck when the cap is positioned on the bottle. The bottle includes
a neck, an opening and a rib with a gap. A finger and a locking lug
extend from the internal surface. The finger has a length less than
a length of the gap. The locking lug has a length greater than the
length of the gap. The locking lug and the finger engage the rib
and permit a rotation between a first position, where the finger
and gap are aligned and a series of second positions, where the
finger and gap are not aligned. A tab extends from the cover
portion for applying a force to the cover when the cap is in the
first position to remove the cap from the bottle.
Inventors: |
Biesecker, Frederick N.;
(Boyertown, PA) ; Sprishen, Gregory;
(Collegeville, PA) |
Correspondence
Address: |
AKIN GUMP STRAUSS HAUER & FELD L.L.P.
ONE COMMERCE SQUARE
2005 MARKET STREET, SUITE 2200
PHILADELPHIA
PA
19103-7013
US
|
Family ID: |
26987575 |
Appl. No.: |
10/331084 |
Filed: |
December 27, 2002 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
60345679 |
Dec 27, 2001 |
|
|
|
Current U.S.
Class: |
215/224 ;
215/206; 215/305 |
Current CPC
Class: |
B65D 50/069 20130101;
B65D 51/243 20130101; B65D 50/061 20130101 |
Class at
Publication: |
215/224 ;
215/206; 215/305 |
International
Class: |
B65D 050/00 |
Claims
I/we claim:
1. A child resistant cap for a bottle having a neck defining an
opening, a rib extending almost entirely around a circumference of
the neck except for a gap having a length, the rib being located
adjacent the opening, said cap comprising: a cover portion sized to
cover said opening and having a periphery; a wall extending from a
first side of said periphery to surround said neck when the cap is
positioned on the bottle, said wall having an internal surface; a
circumferentially extending finger located on said internal surface
having a length that is less than the length of the gap; a
circumferentially extending locking lug located on an opposing side
of said internal surface from said finger and having a length
greater than the length of the gap, said locking lug and said
finger engaging the rib of the bottle and guiding a rotary movement
of the child resistant cap on the neck of the bottle between a
first position wherein the finger and gap are aligned and a series
of second positions wherein said finger and gap are not aligned;
and a tab extending from said cover portion away from said wall and
adjacent said finger for applying a force generally perpendicularly
and away from said cover portion when said cap is in said first
position to readily remove said cap from the bottle.
2. The child resistant cap of claim 1 wherein said tab has a
generally ring shape with a minor diameter defining an aperture
which is large enough to permit passage of a human finger partially
therethrough, said tab being pivotally connected to said cover
adjacent to said finger such that said tab is permitted to pivot
with respect to said cover from a resting position in facing
engagement with said cover and a series of working positions spaced
from said cover.
3. The child resistant cap of claim 2 wherein said tab is connected
to said cover with a living hinge.
4. The child resistant cap of claim 2 wherein said tab has a
terminal end which extends beyond said periphery of said cover when
said tab is in a resting position in facing engagement with said
cover.
5. The child resistant cap of claim 2 wherein said cover portion
includes a depression extending under said tab when said tab is in
said resting position, said depression being large enough to
receive a tip of a human finger.
6. The child resistant cap of claim 5 wherein the tab is comprised
of a main shaft extending from an attachment between the tab and
the cover and a first finger and a second finger extending from the
main shaft.
7. The child resistant cap of claim 1 wherein the child resistant
cap is constructed of a unitarily molded, rigid polymeric
material.
8. The child resistant cap of claim 1 wherein said tab has a
generally thin ring shape with a major diameter slightly smaller
than a diameter of said cover and a minor diameter defining an
aperture large enough to accommodate the insertion of part of a
human finger, said tab being pivotally connected to said cover near
said periphery and adjacent to said finger to permit said tab to
pivot from a resting position in facing engagement with said cover
to a working position spaced from said cover.
9. The child resistant cap of claim 1 wherein said locking lug and
said finger engage the rib such that the child resistant cap
resists removal from the neck of the bottle when said finger is not
in said first position.
10. The child resistant cap of claim 1 wherein said cap is
generally T-shaped.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims the benefit of U.S. Provisional
Application No. 60/345,679, filed Dec. 27, 2001, entitled "Child
Resistant Cap."
BACKGROUND OF THE INVENTION
[0002] The present invention is directed to a child resistant cap
for a bottle. The child resistant cap resists removal from a neck
of the bottle when a locking lug and a finger on an inner surface
of the cap are matingly engaged with a rib on an outer surface of
the neck of the bottle. The child resistant cap may be removed from
the neck of the bottle when the finger is aligned with a gap in the
rib of the bottle. More particularly, the child resistant cap has a
tab positioned on an outside cover portion of the cap in alignment
with the finger such that a force applied by a user's thumb against
the tab generally perpendicularly with respect to the top of the
cap and upwardly/away from the cap aids in the removal of the cap
from the bottle when the finger and the gap are aligned.
[0003] The general concept of a child resistant cap having a
circumferentially extending finger and a circumferentially
extending locking lug which mate with a rib having a gap on the
neck of a bottle to resist removal of the child resistant cap from
the bottle is generally well known. U.S. Pat. No. 3,627,160
discloses such a child resistant cap and is hereby incorporated by
reference in its entirety. The finger of the child resistant cap is
sized such that its length is less than the length of the gap and
the locking lugs are sized such that their length is greater than
the length of the gap. The finger, locking lug and gap are sized in
this manner to resist removal of the child resistant cap from the
neck of the bottle when the finger and gap are not in alignment. In
contrast, the finger, locking lug and gap permit removal of the
child resistant cap from the bottle when the finger and the gap are
in alignment. A child resistant cap configured in this manner
reduces the likelihood that a curious child may remove the cap from
a bottle, which contains dangerous medicines or like hazardous
materials and become injured after ingesting the hazardous
contents.
[0004] However, child resistant caps configured in this manner may
be difficult for certain individuals to remove from the neck of a
bottle, such individuals may have a limited range of motion in
their fingers due to arthritis, injury or age. These conventional
child resistant caps may, in effect, deny access to the contents of
the bottle to individuals with a limited range of motion in their
fingers. The present invention provides a tab connected to the
child resistant cap, which is relatively simple for an individual
with limited range of motion in their fingers to manipulate. The
tab may be used to apply a force to and remove the child resistant
cap from the bottle when the finger and gap are in alignment.
[0005] More particularly, the child resistant cap of the present
invention provides a ring shaped tab hingedly attached to the child
resistant cap. The tab permits a user to slide a finger through an
aperture in the tab to apply a force to the child resistant cap. A
user initially aligns the finger of the child resistant cap with
the gap on the neck of the bottle. The tab may then be rotated to a
working position with the user's finger positioned within the
aperture to disengage the child resistant cap from the neck of the
bottle. The ring shaped tab eliminates the need for an individual
with limited motor skills in their fingers to apply a force with
the tip of one of their fingers to an edge of the child resistant
cap adjacent to the finger when the finger and the gap are aligned.
In a conventional child resistant cap configuration, similar to
that of U.S. Pat. No. 3,627,160, the space for applying a removal
force is strictly limited. The limited space and awkward direction
in which a force must be applied to the conventional child
resistant cap is difficult for an individual with limited motor
skills to accomplish.
BRIEF SUMMARY OF THE INVENTION
[0006] Briefly stated, the present invention is directed to a child
resistant cap for a bottle. The bottle has a neck defining an
opening and a rib located adjacent to the opening extending almost
entirely around a circumference of the neck except for a gap having
a length. The child resistant cap is comprised of a cover portion
having a periphery, which is sized to cover the opening of the
bottle. A wall extending from a first side of the periphery
surrounds the neck when the cap is positioned on the bottle. A
circumferentially extending finger is located on an internal
surface of the wall having a length that is less than the length of
the gap. A circumferentially extending locking lug is located on an
opposing side of the internal surface of the wall from the finger
and has a length, which is greater than the length of the gap. The
locking lug and the finger engage the rib of the bottle and guide a
rotary movement of the child resistant cap on the neck of the
bottle between a first position, where the finger and the gap are
aligned and a series of second positions, where the finger and the
gap are not aligned. A tab extends from the cover portion away from
the wall and adjacent to the finger for applying a force generally
perpendicularly and away from the cover when the cap is in the
first position to readily remove the cap from the neck of the
bottle.
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS
[0007] The foregoing summary, as well as the following detailed
description of the preferred embodiments of the invention, will be
better understood when read in conjunction with the appended
drawings. For the purpose of illustrating the invention, there is
shown in the drawings an embodiment which is presently preferred.
It should be understood, however, that the invention is not limited
to the precise arrangements and instrumentalities shown. In the
drawings:
[0008] FIG. 1 is an exploded perspective view of a child resistant
cap positioned above the neck of a bottle in accordance with a
first preferred embodiment of the present invention;
[0009] FIG. 2 is a perspective view of the child resistant cap,
shown in FIG. 1, positioned on the neck of the bottle showing a tab
pivoted out of facing engagement with the cap to a working
position;
[0010] FIG. 3 is a cross-sectional view of the child resistant cap
shown in FIG. 1 taken along line 3-3 of FIG. 1;
[0011] FIG. 4 is an exploded perspective view of a child resistant
cap positioned above the neck of a bottle in accordance with a
second preferred embodiment of the present invention;
[0012] FIG. 5 is a perspective view of the child resistant cap,
shown in FIG. 4, positioned on the neck of the bottle showing the
tab pivoted out of facing engagement with the cap to a working
position;
[0013] FIG. 6 is a cross-sectional view of the child resistant cap
shown in FIG. 4 taken along line 6-6 of FIG. 4; and
[0014] FIG. 7 is a perspective view of a child resistant cap in
accordance with a third preferred embodiment of the present
invention.
DETAILED DESCRIPTION OF THE INVENTION
[0015] Certain terminology is used in the following description for
convenience only and is not limiting. The words "right," "left,"
"lower" and "upper" designate directions in the drawings to which
reference is made. The words "inwardly" and "outwardly" refer to
directions toward and away from, respectively, the geometric center
of a child resistant cap and designated parts thereof. The
terminology includes the words above specifically mentioned,
derivatives thereof and words of similar import. Additionally, the
word "a," as used in the claims and in the corresponding portions
of the specification, means "at least one."
[0016] Referring to the drawings in detail, wherein like numerals
indicate like elements throughout, there is shown in FIGS. 1
through 3 a first preferred embodiment of the child resistant cap,
generally designated 10, for covering an opening 13 of a bottle 12
in accordance with the present invention. The bottle 12 has a neck
12a defining an opening 13 with a rib 12b located adjacent to the
opening 13 which extends almost entirely around a circumference of
the neck 12a except for a gap 12c having a length L1.
[0017] In the first preferred embodiment, the child resistant cap
10 is constructed of a unitarily molded, rigid polymeric material.
One skilled in the art will realize that the child resistant cap 10
is not limited to constructions using rigid polymeric materials and
may be constructed of any material which may take on the general
shape and perform the functions of the child resistant cap 10 as
described hereinafter, such as metal, wood or like materials.
[0018] In the first preferred embodiment, the child resistant cap
10 includes a cover portion 14 having a periphery 14a, which is
sized to cover the opening 13 of the bottle 12. A wall 16 extends
from a first side of the periphery 14a to surround the neck 12a
when the child resistant cap 10 is positioned on the bottle 12. The
wall 16 has an internal surface 16a. A circumferentially extending
finger 18 is located on the internal surface 16a. The finger 18 has
a length (not shown) that is less than the length L1 of the gap
12c. The external surface 16b of the wall 16 includes a series of
vertically extending ridges 16c which facilitate gripping the cap
10 for purposes of rotating the same.
[0019] A circumferentially extending locking lug 20 is located on
an opposing side of the internal surface 16a from the finger 18 and
has a length that is greater than the length L1 of the gap 12c. The
locking lug 20 and the finger 18 engage the rib 12b of the bottle
12 and guide a rotary movement of the child resistant cap 10 on the
neck 12a of the bottle 12 between a first position, where the
finger 18 and the gap 12c are aligned (as shown in FIGS. 1 and 2)
and a series of second positions (not shown), where the finger 18
and the gap 12c are not aligned. The second positions would be any
relative position between the child resistant cap 10 and the neck
12a of the bottle 12, except for the first position. The locking
lug 20 and the finger 18 engage the rib 12b such that the child
resistant cap 10 resists removal from the neck 12a of the bottle 12
when the finger 18 is not in the first position. The finger 18 and
the locking lug 20 of the child resistant cap 10 are able to resist
removal from the neck 12a of the bottle 12, in the second
positions, by engaging a lower surface 22 of the rib 12b with an
upper surface 24 of the finger 18 and the locking lug 20. In the
second positions, an opposing force is generated between the upper
surface 24 of the finger 18 and the locking lug 20 and the lower
surface 22 of the rib 12b which resists removal of the child
resistant cap 10 from the neck 12a when a force is applied to the
child resistant cap 10 in a direction away from the bottle 12.
[0020] For example, the child resistant cap 10 may be positioned on
the neck 12a such that an upper surface 24 of the finger 18 is
engaged with the lower surface 22 opposite the gap 12c and the
locking lug 20 is engaged with the lower surface 22 while spanning
the gap 12c. In this position, a force applied to the child
resistant cap 10 away from the bottle 12 is resisted by an equal
and opposite force created between the rib 12b and the combination
of the finger 18 and the locking lug 10. The finger 18, locking lug
20 and rib 12b are able to avoid removal of the child resistant cap
10 from the bottle 12 until the unlikely event wherein the finger
18, locking lug 20 or rib 12b break or the wall 16 or the neck 12a
flexes sufficiently to permit the finger 18 or the locking lug 20
to slide over the rib 12b. In the above described manner, the child
resistant cap 10 resists removal from the neck 12a of the bottle 12
in the second positions.
[0021] In the first preferred embodiment, a tab 26 extends from the
cover portion 14 away from the wall 16 adjacent the finger 18 for
applying a force generally perpendicularly and away from the cover
portion 14 when the child resistant cap 10 is in the first position
to readily remove the child resistant cap 10 from the bottle 12.
That is, the tab 26 is positioned on the child resistant cap 10
adjacent the finger 18 such that the force readily removes the
child resistant cap 10 from the bottle 12. The tab 26 may be
positioned anywhere on an opposing side of the cover portion 14 or
the wall 16 from the locking lug 20 as long as a pivoting moment is
created between a base 26a of the tab 26 and the locking lug 20
when the locking lug 20 is engaged with the rib 12b. The pivoting
moment urges the finger 18 to slide through the gap 12c thus
disengaging the child resistant cap 10 from the bottle.
[0022] In the first preferred embodiment, the tab 26 has a
generally ring shape with a minor diameter D1 defining an aperture
27, which is large enough to permit passage of a human finger (not
shown) partially therethrough. The tab 26, is preferably, pivotally
connected to the cover portion 14 adjacent to the finger 18 such
that the tab 26 pivots with respect to the cover portion 14 from a
resting position in facing engagement with the cover portion 14
(see FIG. 1) and a series of working positions (see FIG. 2) spaced
from the cover portion 14. In the preferred embodiment, the minor
diameter D1 is approximately one inch (1") but may be smaller or
larger to accommodate larger or smaller bottles 12 without
departing from the spirit and scope of the invention.
[0023] In the first preferred embodiment, the tab 26 is connected
to the cover portion 14 with a living hinge 28 adjacent to the
finger 18. The living hinge 28 permits a user to pivot the tab 26
from the resting position to the working positions, thereby taking
full advantage of a force that a user may apply to the tab 26 to
dislodge the child resistant cap 10 from the bottle 12 when the
child resistant cap 10 is in the first position. The use of the
living hinge 28 simplifies the unitary molding process of the child
resistant cap 10 because the living hinge 28 material is compatible
with conventional molding processes. Unitarily molding the child
resistant cap 10 reduces manufacturing costs and complexity by
simplifying the production of the child resistant cap 10.
[0024] However, one skilled in the art will realize from this
disclosure that the child resistant cap 10 is not limited to the
use of a living hinge 28 to pivot the tab 26 from the resting
position to the working positions. The living hinge 28 may be
comprised of a door like hinge, butterfly hinge or any like hinge
or spring like material (not shown) which permits the tab 26 to
pivot to and from the resting position and working positions. In
addition, the tab 26 may be rigidly secured to the cover portion 14
at any position where a pivoting moment is created between the base
26a, and the locking lug 20 engaged with the rib 12b, when a force
is applied to the tab 26 without departing from the spirit and
scope of the invention.
[0025] In the first preferred embodiment, the tab 26 has a terminal
end 30, which extends beyond the periphery of the cover portion 14
when the tab 26 is in the resting position. The terminal end 30 has
a hooked section 30a which grips an overhang 14a of the cover
portion to removably secure the tab 26 in a first groove 34 in
facing engagement with the cover portion 14 in the resting
position. The extension of the terminal end 30 beyond the periphery
of the cover portion 14 permits a user to slide a finger underneath
the terminal end 30 to disengage the hooked section 30a from the
overhang 14a by applying a force to a lower surface of the terminal
end 30 away from the cover portion 14. Once the tab 26 is
disengaged from the resting position, the user is able to pivot the
tab 26 to one of the working positions and position the child
resistant cap 10 in the first position. The child resistant cap 10
is disengaged from the bottle 12 when the finger 18 slides through
the gap 12c by rotating at an opposing side of the neck 12a at the
engagement of the locking lug 20 and the rib 12b. The use of the
terminal end 30, the tab 26 and the living hinge 28 permits persons
having limited motor skills with their fingers due to age, injury
or arthritis to readily remove the child resistant cap 10 from the
bottle 12 compared to the arduous removal of a conventional child
resistant cap from a bottle.
[0026] In the first preferred embodiment, the tab 26 has a
generally thin ring shape with a major diameter D2 which is
slightly smaller than a cover portion diameter D and a minor
diameter D1, which defines an aperture 27 large enough to
accommodate the insertion of part of a human finger. In the first
preferred embodiment, the major diameter D2 is approximately one
and two-tenths inches (1.2") and is secured in the first groove 34
in its resting position. The diameter D is approximately one and
four-tenths inches (1.4") in the preferred embodiment. The tab 26
is shielded by the first groove 34 from access to any portion of
the tab 26 except for at its terminal end 30 in the resting
position. In this manner, the tab 26 is protected from being
inadvertently dislodged from its resting position. One skilled in
the art will realize that the child resistant cap 10 is not limited
to the dimensions disclosed above and may be sized appropriately to
accommodate larger or smaller bottles 12 without departing from the
spirit and scope of the present invention.
[0027] In use, the child resistant cap 10 is placed on the neck 12a
of the bottle 12 by aligning the finger 18 and the gap 12c in the
first position (as shown in FIGS. 1 and 2). The child resistant cap
10 may then be rotated through a series of second positions (not
shown) where the finger 18 and the gap 12c are not aligned. The
rotation of the child resistant cap 10 is guided by the slidable
mating of the upper surface 24 of the finger 18 and locking lug 20
to the lower surface 22 of the rib 12b. In addition, the slidable
mating of the finger 18 and the locking lug 20 to the rib 12b,
resists removal of the child resistant cap 10 from the bottle 12
when the child resistant cap 10 is in one of the second positions.
The finger 18, locking lug 20 and rib 12b resist removal of the
child resistant cap 10 from the bottle 12 by generating an opposing
force between the upper surface 24 of the finger 18 and the locking
lug 20 and the lower surface 22 of the rib 21b when a force is
applied to the child resistant cap 10 in a direction away from the
bottle 12.
[0028] In the first preferred embodiment, the child resistant cap
10 is removed from the bottle 12 by initially aligning the finger
18 and the gap 12c in the first position. A user then slides a
finger underneath the terminal end 30 of the tab 26 and applys a
force away from the bottle 12 to disengage the hook section 30a of
the tab 26 from the overhang 14a of the cover portion 14. Once the
tab 26 is disengaged from the resting position, a user pivots the
tab 26 about the living hing 28 to a working position generally
perpendicular to the upper surface of the cover portion 14. A users
finger (not shown) is then inserted through the aperture 27 in the
tab 26 and pulls on an inner surface of the tab 26 defined by the
minor diameter D1. Pulling on the tab 26, creates a pivoting moment
between the base 26a of the tab 26 and the locking lug 20. The
pivoting moment causes the finger 18 to slide through the gap 12c,
thereby disengaging the child resistant cap 10 from the bottle 12.
One skilled in the art will realize that the above described
movements of a user's fingers for disengaging the child resistant
cap 10 from the bottle 12 are simpler and require less brute
strength than the removal of a conventional child resistant cap as
described in U.S. Pat. No. 3,627,160. Therefore, the first
preferred embodiment is particularly suited for use by persons
having limited motor skills in their fingers due to age, injury or
arthritis.
[0029] In FIGS. 4-6 there is shown a second preferred embodiment of
a child resistant cap 10'. The child resistant cap 10' in
accordance with the second preferred embodiment is very similar to
the first preferred embodiment. Accordingly, a complete description
of like elements is not repeated herein. Instead, like elements
between the first and second embodiments have been given the prime
designation in the second preferred embodiment. Only the
differences between the first and second embodiments are described
below.
[0030] In the second preferred embodiment, the cover portion 14'
includes a depression 36 extending under the tab 26' in the resting
position. The depression 36 is large enough to receive a tip of a
human finger under the tab 26' to disengage the tab 26' from its
resting position. Disengaging the tab 26' from the resting position
permits a user to pivot the tab 26' from its resting position to
one the working positions.
[0031] In use, in the second preferred embodiment, the tab 26' is
releasably positioned in a second groove 38 of the cover portion
14' in the resting position by a tab lock 40, which
circumferentially extends from a wall 38a of the second groove 38.
The tab lock 40 releasably engages an upper surface of the tab 26'
when the tab 26' is in the resting position. A user releases the
tab 26' from its resting position by sliding a finger (not shown)
into the depression 36 and under the tab 26' and applying a force
to the lower surface of the tab 26' away from the bottle 12,
thereby forcing the tab 26' past the tab lock 40. The tab lock 40
and the tab 26' are flexible and are sized such that a user may
readily disengage the tab 26' from its resting position with a
minimal amount of finger force. The tab 26' may then be pivoted to
one of the working positions and the child resistant cap 10' may be
disengaged from the bottle 12 as described above in connection with
the first preferred embodiment.
[0032] In the second preferred embodiment, the child resistant cap
10' is removed from the bottle 12' in much the same manner as
described above in the first preferred embodiment. The difference
between the first preferred embodiment and the second preferred
embodiment is the manner in which the tabs 26 and 26' are
disengaged from their resting positions. In the second preferred
embodiment, the tab 26' is removably secured in the second groove
38 on an upper surface of the cover portion 14' by the mating of
the tab lock 40 with an upper surface of the tab 26'. A user
removes the tab 26' from the resting position by inserting a finger
(not shown) into the depression 36 under the tab 26' and applying a
force at the lower surface of the tab 26' away from the bottle 12.
The user then pivots the tab 26' about the living hinge 28' to a
working position generally perpendicular to the cover portion 14'.
The child resistant cap 10' is then disengaged from the bottle 12'
in the same manner as described in the first preferred embodiment.
One skilled in the art will realize that the above described
movements of a user's fingers for disengaging the child resistant
cap 10' from the bottle 12' are simpler and require less brute
strength than the removal of a conventional child resistant cap
from a bottle as described in U.S. Pat. No. 3,627,160. Therefore,
the second preferred embodiment is particularly suited for use by
persons having limited motor skills with their fingers due to age,
injury or arthritis.
[0033] In FIG. 7 there is shown a third preferred embodiment of a
child resistant cap 10". The child resistant cap 10" in accordance
with the third preferred embodiment is very similar to the first
and second preferred embodiments of the invention. Accordingly, a
complete description of like elements is not repeated herein.
Instead, like elements between the first and second embodiments
have been given a double prime designation in the third preferred
embodiment. Only differences between the third preferred embodiment
and the first and second preferred embodiments are described
below.
[0034] In the third preferred embodiment, the tab 26" includes a
first finger 26c and a second finger 26d extending perpendicularly
from a main shaft 26e. Disengaging the tab 26" from the resting
position permits a user to pivot the tab 26" from its resting
position to one of the working positions.
[0035] In use, in the third preferred embodiment, the tab 26" is
pivoted to one of the working positions and the child resistant cap
10" is aligned for removal from the bottle 12" (not shown) as
described above in the first preferred embodiment. A user then
positions a finger (not shown) on either side of the main shaft 26e
adjacent the first finger 26c and second finger 26d. An upward
force is applied to the first finger 26c and the second finger 26d,
thereby creating a moment, which releases the child resistant cap
26" from the bottle 12" as described above in the first preferred
embodiment. One skilled in the art will realize that the above
described movements of a user's fingers for disengaging the child
resistant cap 10" from the bottle 12" are simpler and require less
brute strength than the removal of a conventional child resistant
cap from a bottle as described in U.S. Pat. No. 3,627,160.
Therefore, the third preferred embodiment is particularly suited
for use by persons having limited motor skills with their fingers
due to age, injury or arthritis. U.S. Provisional Application No.
60/345,679, filed Dec. 27, 2001, is incorporated by reference
herein in its entirety.
[0036] Those skilled in the art will appreciate that changes could
be made to the embodiments described above without departing from
the broad inventive concept thereof. It is understood, therefore,
that this invention is not limited to the particular embodiments
disclosed. This disclosure is intended to cover modifications
within the spirit and scope of the present invention as defined by
the appended claims.
[0037] It will be appreciated by those skilled in the art that
changes could be made to the embodiments described above without
departing from the broad inventive concept thereof. It is
understood, therefore, that this invention is not limited to the
particular embodiments disclosed, but it is intended to cover
modifications within the spirit and scope of the present invention
as defined by the appended claims.
* * * * *