U.S. patent application number 14/100182 was filed with the patent office on 2014-04-03 for user interface for a power folding stroller.
This patent application is currently assigned to Thorley Industries LLC. The applicant listed for this patent is Thorley Industries LLC. Invention is credited to Robert D. Daley, Frederick Karl Hopke, Henry F. Thorne, John J. Walker, Elijah M. Wiegmann.
Application Number | 20140091558 14/100182 |
Document ID | / |
Family ID | 45094762 |
Filed Date | 2014-04-03 |
United States Patent
Application |
20140091558 |
Kind Code |
A1 |
Daley; Robert D. ; et
al. |
April 3, 2014 |
User Interface for a Power Folding Stroller
Abstract
A user interface for a power folding stroller includes: a
rotational mechanical joint positioned on the handlebars of the
stroller. The rotational mechanical joint is coupled to electrical
sensors that must be activated by the user rotating a ring combined
with a second step of pressing a button to activate the folding or
unfolding process. Once the ring has been rotated the required
distance and returned to a home position, an indication, such as an
LED light, may be provided to the user that the second action of
pushing the button can be undertaken.
Inventors: |
Daley; Robert D.;
(Pittsburgh, PA) ; Thorne; Henry F.; (West View,
PA) ; Wiegmann; Elijah M.; (Pittsburgh, PA) ;
Walker; John J.; (Pittsburgh, PA) ; Hopke; Frederick
Karl; (Glenshaw, PA) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Thorley Industries LLC |
Pittsburgh |
PA |
US |
|
|
Assignee: |
Thorley Industries LLC
Pittsburgh
PA
|
Family ID: |
45094762 |
Appl. No.: |
14/100182 |
Filed: |
December 9, 2013 |
Related U.S. Patent Documents
|
|
|
|
|
|
Application
Number |
Filing Date |
Patent Number |
|
|
13268052 |
Oct 7, 2011 |
8628109 |
|
|
14100182 |
|
|
|
|
Current U.S.
Class: |
280/647 ;
74/484R; 74/491 |
Current CPC
Class: |
B62B 2205/12 20130101;
Y10T 74/20396 20150115; Y10T 74/20256 20150115; G05G 5/005
20130101; H01H 2009/068 20130101; B62B 7/068 20130101; B62B 7/062
20130101; B62B 7/06 20130101; B62B 7/08 20130101; H01H 25/065
20130101; B62B 3/1424 20130101; B62B 5/065 20130101; B62B 2205/22
20130101; B62B 2205/003 20130101; B62B 2205/24 20130101; B62B 9/005
20130101 |
Class at
Publication: |
280/647 ;
74/484.R; 74/491 |
International
Class: |
B62B 7/06 20060101
B62B007/06 |
Claims
1. A user interface for a power folding stroller comprising: a
first activation means for enabling at least one other activation
means; and at least one of the at least one other activation means
for sending a signal to the controller to activate a drive
mechanism to initiate a folding process in which the power folding
stroller is folded if the power folding stroller is in an unfolded
state or unfolded if the power folding stroller is in a folded
state, wherein a user must engage one of the first activation means
and the at least one other activation means during the entire
folding process.
2. The user interface of claim 1, wherein the first activation
means and at least one of the at least one other means are operated
simultaneously.
3. The user interface of claim 1, wherein the first activation
means and at least one of the at least one other activation means
are operated sequentially.
4. The user interface of claim 1, wherein the user interface is
mounted on a handlebar assembly of the power folding stroller.
5. The user interface of claim 1, wherein an indicator is provided
once the first activation means has sent a signal to the
controller.
6. The user interface of claim 1, wherein the first activation
means is a rotating ring configured to activate at least one first
sensor and at least one of the at least one other activation means
is a push button configured to activate at least one second
sensor.
7. The user interface of claim 1, wherein the first activation
means enables the at least one other activation means for a
predetermined period of time.
8. A user interface for a power folding stroller includes: a
rotational mechanical joint comprising a rotating ring member
connected to the power folding stroller; at least one sensor
positioned beneath the rotating ring member; a button positioned
within the rotating ring; and a controller electrically coupled to
the at least one sensor and the button, wherein the rotating ring
is rotated from a first position to a second position to cause the
at least one sensor to enable the button, and the button is pressed
to send a signal to the controller to activate a drive mechanism
to: a) fold the power folding stroller if the power folding
stroller is in an unfolded state and the button must remain pressed
until the power folding stroller reaches the unfolded state; or b)
unfold the power folding stroller if the power folding stroller is
in a folded state and the button must remain pressed until the
power folding stroller reaches the folded state.
9. The user interface of claim 8, wherein the rotating ring is
spring loaded to return to the first position.
10. The user interface of claim 8, wherein a stop is provided under
the rotating ring to prevent the rotating ring from rotating beyond
the second position.
11. The user interface of claim 8, wherein the at least one sensor
is a sensor for detecting a magnetic field.
12. The user interface of claim 11, wherein at least one magnet is
positioned within the rotating ring that is detected by the at
least one sensor as the at least one magnet is rotated over the at
least one sensor during rotation of the rotating ring.
13. The user interface of claim 8, wherein an indicator is provided
once the rotating ring has reached the second position.
14. The user interface of claim 13, further comprising a mechanical
switch that is engaged to prevent the rotating ring from
rotating.
15. A method for activating a power folding stroller, comprising:
activating a first activation means of a user interface to enable
at least one other activation means; and activating at least one of
the at least one other activation means to send a signal to a
controller of the power folding stroller to initiate a folding
process in which the power folding stroller is folded if the power
folding stroller is in an unfolded state or unfolded if the power
folding stroller is in a folded state, wherein one of the steps of
activating a first activation means and the step of activating at
least one of the at least one other activation means requires a
user to engage one of the first activation means and the at least
one other activation means during the entire folding process.
16. The method of claim 15, wherein the first activation means and
the at least one other activation means are operated
simultaneously.
17. The method of claim 15, wherein the first activation means and
the at least one other activation means are operated
sequentially.
18. The method of claim 15, wherein the first activation means
enables the at least one other activation means for a predetermined
period of time.
19. The method of claim 15, wherein an indicator is provided once
the first activation means has sent a signal to the controller.
20. The method of claim 15, wherein the first activation means is a
rotating ring configured to activate at least one first electrical
sensor and the at least one other activation means is a push button
configured to activate at least one second electrical sensor.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation of U.S. patent
application Ser. No. 13/268,052, filed Oct. 7, 2011, entitled "User
Interface for a Power Folding Stroller", which claims priority to
U.S. Provisional Patent Application No. 61/390,766, filed Oct. 7,
2010 entitled "User Interface for a Power Folding Stroller", which
are each incorporated herein by reference in its entirety.
BACKGROUND OF THE INVENTION
[0002] 1. Field of the Invention
[0003] The present invention relates generally to strollers, and
more particularly, pertains to a user interface that allows a user
to control a baby stroller having one or more components which can
be moved by a drive mechanism.
[0004] 2. Description of Related Art
[0005] Baby strollers, also referred to as baby carriages, baby
buggies, or prams, have been used to hold and transport babies and
young children for many years. Early baby strollers had parts which
were fixedly secured to one another such that they did not fold for
compactness. More recently, baby strollers have been designed to
have some parts which are movable relative to one another to allow
movement of some parts of the stroller to achieve a more compact
configuration when not in use. However, current strollers do not
allow for movement or folding to compact configuration as desired,
and are cumbersome and sometimes difficult to move between their
collapsed (closed) positions and their operative (open) positions,
particularly when attending to a baby or child.
[0006] A stroller which is easier to move between its collapsed and
operative positions, such as one that does so upon the operation of
a user interface via motorized movement, is desired. However, the
challenges for designing a user interface for a stroller that opens
or closes under electrical power are to make the process intuitive,
easy, and fast for a user to operate, desirably with a single hand
However, the interface must also be designed so that it is
difficult to be operated unintentionally, for example, when the
stroller is in the trunk of the car.
[0007] Accordingly, a need exists for a user interface for a power
folding stroller that is intuitive, easy, and fast for a user to
operate while also being difficult to operate unintentionally.
SUMMARY OF THE INVENTION
[0008] An object of the present invention is to provide a user
interface for a power folding stroller that is intuitive, easy, and
fast for a user to operate while also being difficult to operate
unintentionally.
[0009] In order to prevent unintentional folding on the part of the
user, the interface must include two or more distinct actions on
the part of the user in order to allow the stroller to fold. The
interface for opening (unfolding) the stroller may be the same as
the interface for closing the stroller. The actions required by the
interface may be simultaneous or sequential and may include any
combination of mechanical or electrical interactions including
mechanical couplings to electrical interfaces, but must include at
least one electrical interface.
[0010] The invention also incorporates timing or sequencing
elements into the interface. Therefore, the timing or the sequence
of the two or more actions must be designed so that it is never
possible for the user to accidentally fold the stroller using only
a single action. This enables the interface to be easy for a user
to operate but robust to unintentional interaction. The timing or
sequencing elements may be mechanical or electrical in nature. For
example, a spring-loaded mechanical element may need to be slid to
the right and then depressed, which would activate an electrical
switch to close the stroller. It is preferred that the interface be
robust to failure so that when the interface is broken, it is not
possible for a single action to activate the stroller. Therefore,
the alternative mechanical interface of a spring loaded protective
cover that must be raised in order to allow the user to depress an
electrical button would be less desirable since a user could
accidentally or intentionally remove the protective cover,
requiring only a single action in the future.
[0011] The present invention is directed to a user interface for a
power folding stroller that includes: a rotational mechanical joint
coupled to electrical sensors that must be activated by the user
rotating a ring combined with a second step of pressing a button to
activate the folding or unfolding process. The amount of rotation
of the ring may be between about 45 and 120 degrees since this
amount can be done easily with the thumb. However, the amount of
rotation could be as little as 10 degrees on a sufficiently large
ring, or could involve multiple rotations of the ring. Desirably,
the ring is spring loaded to return to a home position. A stop may
be provided to indicate to the user when the ring has been rotated
to the end position. Once the ring has been rotated the required
distance and returned to the home position, an indication, such as
an LED light, may be provided to the user that the second action
(e.g., pushing a button) can be undertaken. More specifically, it
is important that the interface communicate to the user the state
of the system, particularly in the event of a sequential interface.
For instance, correctly activating the ring causes the ring to glow
with LEDs indicating that the button may now be pressed to fold or
unfold the stroller. After a set amount of time, for example, 30
seconds, if the button is not pressed, the lights blink and then go
out indicating that the interface has been reset.
[0012] Two sensors may be positioned around the ring at
approximately 15 degrees of activation and approximately 60 degrees
of activation. A magnet in the ring triggers each sensor as the
ring is rotated by the user. If the button is pressed while the
ring is being rotated, the ring must be returned to the home
position, then rotated to the correct position without any
interference, and finally the button must be pushed. Similarly, if
the ring is held in the end position and not returned to the home
position before the button is pressed, the interface does not grant
access to fold the stroller. Finally, if both ring sensors are
activated simultaneously (due to a strong external magnetic field),
the stroller will not fold.
[0013] The user interface of the present invention also includes
various timing aspects. For example, the preferred embodiment of
the interface requires that the total amount of time from when the
user begins to turn the ring until the ring is fully engaged and
returned to the home position should not exceed a predefined limit,
such as 10 seconds. These criteria can be adjusted as desired to
ensure the interface is robust to unintentional activation.
[0014] Alternatively, the interface could be completely electrical,
such as entering a sequence of characters on a touch screen
interface, requiring the user to touch virtual buttons on a touch
screen interface, or even requiring the user to write the answer to
a simple question on a touch screen interface in order to fold. In
any of these interfaces, if the process is not completed correctly,
the stroller would not function. A more sophisticated electronic
interface with questions to answer has the additional benefit that
a child cannot activate the stroller but an adult can easily
operate the stroller.
[0015] In addition, the interface may include timing, such as
requiring the user to hold a first button for some time, for
example, 3 seconds, and then press a second button. If the second
button were depressed during the activation of the first button, or
if the second button were not pressed within some short amount of
time (for example, 10 seconds) of holding the first button, or if
the first button were held for too long (10 seconds instead of 3)
the interface would reset. The user interface in this instance
should provide the user with some type of indication or feedback
that the user is to proceed to the second of the two steps.
[0016] Finally, the user interface of the present invention may
include the ability to be locked. For instance, a mechanical switch
may be engaged to prevent the ring from rotating. In an alternative
embodiment, the switch may be electrical causing the system to
ignore any inputs.
[0017] Many other potential embodiments of a user interface for
activating a power folding stroller have been envisioned. For
example, the interface may require the user to alternate between
pushing a left and a right button 3 times each in quick succession.
If either button were pressed too many times or too few times, the
system would not function properly.
[0018] Specifically, provided is a user interface for a power
folding stroller that includes: a first activation means for
enabling at least one other activation means; and at least one of
the at least one other activation means for sending a signal to a
controller to activate a drive mechanism to fold the power folding
stroller if the power folding stroller is in an unfolded state or
unfold the power folding stroller if the power folding stroller is
in a folded state.
[0019] The first activation means and the at least one other
activation means may be operated either simultaneously or
sequentially. The user interface may be mounted on a handlebar
assembly of the power folding stroller. An indicator may be
provided once the first activation means has sent a signal to the
controller. The first activation means may be a rotating ring
configured to activate at least one first sensor and at least one
of the at least one other activation means may be a push button
configured to activate at least one second sensor. The first
activation means enables at least one of the at least one other
activation means for a predetermined period of time.
[0020] Also provided is a user interface for a power folding
stroller that includes: a rotational mechanical joint comprising a
rotating ring member connected to the power folding stroller; at
least one sensor positioned beneath the rotating ring member; a
button positioned within the rotating ring; and a controller
electrically coupled to the at least one sensor and the button. The
rotating ring is rotated from a first position to a second position
to cause the at least one sensor to enable the button, and the
button is pressed to send a signal to the controller to activate a
drive mechanism to fold the power folding stroller if the power
folding stroller is in an unfolded state or unfold the power
folding stroller if the power folding stroller is in a folded
state.
[0021] The rotating ring may be spring loaded to return to the
first position. A stop may be provided under the rotating ring to
prevent the rotating ring from rotating beyond the second position.
The at least one electrical sensor may be a sensor for detecting a
magnetic field. At least one magnet may be positioned within the
rotating ring that is detected by the at least one electrical
sensor as the at least one magnet is rotated over the at least one
electrical sensor during rotation of the rotating ring. An
indicator, such as an LED light, may be provided once the rotating
ring has reached the second position. A mechanical switch may be
engaged to prevent the rotating ring from rotating.
[0022] In addition, provided is a method for activating a power
folding stroller. The method includes: activating a first
activation device of the user interface to enable at least one
other activation means; and activating at least one of the at least
one other activation means for sending a signal to a controller of
the power folding stroller to fold the power folding stroller if
the power folding stroller is in an unfolded state or unfold the
power folding stroller if the power folding stroller is in a folded
state.
[0023] The user interface of the present invention provides
significant benefits for a stroller that uses power to open or
close. More specifically, it helps ensure safe operation by
reducing the chance of the caregiver unintentionally folding the
stroller. This user interface is in addition to other safety
mechanisms such as a sensor to detect the presence of a child in
the seat, which may also incapacitate the stroller's ability to
power fold, or sensors to detect the amount of current drawn by the
stroller, which can also indicate obstructions resulting from an
unsafe operation of the stroller.
[0024] These and other features and characteristics of the present
invention, as well as the methods of operation and functions of the
related elements of structures and the combination of parts and
economies of manufacture, will become more apparent upon
consideration of the following description with reference to the
accompanying drawings, wherein like reference numerals designate
corresponding parts in the various figures. It is to be expressly
understood, however, that the drawings are for the purpose of
illustration and description only and are not intended as a
definition of the limits of the invention. As used in the
specification and the claims, the singular form of "a", "an", and
"the" include plural referents unless the context clearly dictates
otherwise.
BRIEF DESCRIPTION OF THE DRAWINGS
[0025] FIG. 1 is a perspective view of a collapsible stroller shown
in its open position in accordance with the present invention;
[0026] FIG. 2 is a top plan view of the stroller of FIG. 1 shown in
its open position;
[0027] FIG. 3 is a front view of the stroller of FIG. 1 shown in
its open position;
[0028] FIG. 4 is a right side view of the stroller of FIG. 1 shown
in its open position;
[0029] FIG. 5 is a rear perspective photographic view of a stroller
in accordance with the present invention;
[0030] FIG. 6 is a top plan view of a handlebar assembly of the
stroller of FIG. 1;
[0031] FIG. 7 is a rear perspective photographic view of the handle
bar assembly;
[0032] FIG. 8 is a cross-sectional perspective view of a user
interface in accordance with the present invention; and
[0033] FIG. 9 is a front perspective view of the stroller of FIG. 1
shown in its fully closed position.
DETAILED DESCRIPTION OF THE INVENTION
[0034] For purposes of the description hereinafter, the terms
"upper", "lower", "right", "left", "vertical", "horizontal", "top",
"bottom", "lateral", "longitudinal", and derivatives thereof, shall
relate to the invention as it is oriented in the drawing figures.
However, it is to be understood that the invention may assume
alternative variations and step sequences, except where expressly
specified to the contrary. It is also to be understood that the
specific devices and processes illustrated in the attached
drawings, and described in the following specification, are simply
exemplary embodiments of the invention. Hence, specific dimensions
and other physical characteristics related to the embodiments
disclosed herein are not to be considered as limiting.
[0035] With reference to FIGS. 1-5 and 8, a stroller, denoted
generally as reference numeral 1, includes a hub 3; a support
structure 5 having a first end 7 coupled to hub 3 and a second end
9; a seating portion 11 having a bottom portion 13 coupled to a top
portion of hub 3 and a top portion 15 coupled to second end 9 of
support structure 5. Stroller 1 is configured to collapse in the
length, width, and height directions for storage and transportation
as shown in FIG. 9 and expand in the length, width, and height
directions for use as shown in FIGS. 1-5.
[0036] Stroller 1 further includes a first front leg 17
rotationally coupled to hub 3 and a second front leg 19
rotationally coupled to hub 3. A first front wheel 21 is
rotationally coupled to and supported by first front leg 17 and a
second front wheel 23 is rotationally coupled to and supported by
second front leg 19. A proximal end 25, 27 of each front leg 17, 19
is rotatably engaged with hub 3, thereby enabling rotational
movement of each front leg 17, 19 about hub 3 between an open
position (see FIGS. 1-5) and a collapsed position (see FIG. 9).
Pivotally connected to a distal end 35, 37 of each front leg 17, 19
is a pair of generally U-shaped wheel receiving members 39, 41 for
receiving respective front wheels 21, 23. Each wheel receiving
member 39, 41 comprises an axle 43 to allow the front wheels 21, 23
to roll about their respective axles 43.
[0037] Stroller 1 further includes a first rear leg 55 and a second
rear leg 57. First rear leg 55 and second rear leg 57 are
rotationally coupled to hub 3. In addition, first rear leg 55 and
second rear leg 57 are mechanically coupled to each other and to
first front leg 17 and second front leg 19. Each rear leg 55, 57
has a long cross-sectional dimension and a short cross-sectional
dimension. In addition, each rear leg 55, 57 is configured to
rotationally support a rear wheel 59, 61 at a distal end 63, 65
thereof within a respective rear wheel housing 67, 69. More
specifically, the respective axles 71 of rear wheels 59, 61 are
received in the respective rear wheel housings 67, 69 to allow the
rear wheels 59, 61 to roll about their respective axles 71. Each
rear wheel housing 67, 69 houses a braking mechanism, operated by
either or both of brake pedals 75, 77, for selectively locking rear
wheels 59, 61 to prevent inadvertent rolling movement of stroller 1
when the braking mechanism is locked.
[0038] A proximal end 79, 81 of each rear leg 55, 57 is
rotationally coupled to hub 3 for enabling rotational movement of
the rear legs 55, 57 such that the rear legs 55, 57 are movable
between an open position (see FIGS. 1-5) and a collapsed position
(see FIG. 9).
[0039] Referring now to seating portion 11 of stroller 1, seating
portion 11 includes a generally U-shaped lower seat frame assembly
83 and a generally U-shaped upper seat frame assembly 85. Lower
seat frame assembly 83 and upper seat frame assembly 85 are coupled
together giving seating portion 11 a generally elliptical-shaped
appearance as shown in FIG. 1. Lower seat frame assembly 83
includes two lower arcuate seat frame components 87, each having
the same radius, pivotally connected at a first end 89 to a seat
frame mounting member 91 to allow each of the lower arcuate seat
frame components 87 to pivot or rotate relative to seat frame
mounting member 91.
[0040] Upper seat frame assembly 85 is comprised of two upper
arcuate seat frame components 101, each having the same arc radius.
The arc radius of each of the upper arcuate seat frame components
101 may be the same as the arc radius of lower arcuate seat frame
components 87. This arc radius may be approximately 43 inches;
however, this is not to be construed as limiting, as the upper and
lower arcuate seat frame components may have other arc radii. Upper
arcuate seat frame components 101 are pivotably connected at their
first ends 103 to an upper seat frame mounting member 105 to allow
each of the upper arcuate seat frame components 101 to pivot or
rotate relative to the upper seat frame mounting member 105.
[0041] Each upper arcuate seat frame component 101 is slidingly
mated, at a second end 107, to a second end 109 of its
corresponding lower arcuate seat frame component 87, such that upon
collapsing stroller 1, each lower arcuate seat frame component 87
will be slidingly received into its corresponding upper arcuate
seat frame component 101. In an alternative embodiment, each upper
arcuate seat frame component 101 may be slidingly received within
its corresponding lower arcuate seat frame component 87. As best
seen by FIGS. 3 and 8, this arrangement of lower arcuate seat frame
components 87 and upper arcuate seat frame components 101 allows
the overall width of the generally U-shaped upper and lower arcuate
seat frame assemblies 83, 85 to decrease (consistent with the
decrease in the lateral width of the wheels) as they move from
their open position as shown in FIG. 3 to their collapsed position
shown in FIG. 9.
[0042] Seating portion 11 includes a seat (not shown) removably
disposed upon seating portion 11. The seat (not shown) is desirably
manufactured from a soft cloth-like material, such that the seat
(not shown) collapses when stroller 1 is collapsed and expands when
stroller 1 is opened.
[0043] With specific reference to FIGS. 3 and 4, support structure
5 desirably has an arcuate shape and includes a lower arcuate
support component 139 and an upper arcuate support component 141.
As with upper and lower arcuate seat frame components 87 and 101,
upper arcuate support component 141 is slidingly mated with lower
arcuate support component 139, such that upon collapsing stroller
1, lower arcuate support component 139 slidingly sleeves on two
sets of raised skis (not shown) into upper arcuate support
component 141. An upper arcuate support component end portion 143
may have raised skis on an interior surface thereof that make
contact with lower arcuate support component 139. End portion 143
of upper arcuate support component 141 is configured to be
slidingly sleeved over an end portion of lower arcuate support
component 139, such that upon collapsing stroller 1, upper arcuate
support component 141 will slidingly sleeve down over lower arcuate
support component 139. As with the seat frame components 87 and
101, arcuate support components 139 and 141 are able to telescope
or sleeve over or under each other because they have the same arc
radius, but slightly different bore radii. A first end 7 of support
structure 5 is fixably attached to the hub 3.
[0044] With specific reference to FIGS. 2, 5, and 7, a user
interface 300 for operating stroller 1 to move between a folded and
unfolded position will be described. Second end 9 of support
structure 5 is attached to a handlebar assembly 145. Handlebar
assembly 145 allows a user to maneuver stroller 1. A central
portion of handlebar assembly 145 is coupled to second end 9 of
support structure 5 by a telescoping member 155. Telescoping member
155 extends vertically from second end 9 of support structure 5,
thereby allowing a user to adjust handlebar assembly 145 for height
in the directions of arrow B.sub.1 shown in FIG. 4. Once the
desired position for the height of handlebar assembly 145 is
reached, a locking member 156 (see FIG. 5) is activated to lock the
handlebar assembly 145 in place.
[0045] Handlebar assembly 145 may further include an information
interface 157 having a display portion 158 to provide any of a wide
variety of visual or audio feedback or ambient conditions to the
user such as a battery level indicator 273, a temperature reading
275, an odometer 277, speedometer 279, clock (not shown),
recharging indicator 281, the position of the stroller frame,
whether the stroller will move toward its open or collapsed
condition when next actuated, the presence of a baby or child in
the stroller 283, instructions for use and operation of the
stroller, emergency telephone numbers, environmental conditions,
distance walked, average speed, or any other desired feature or
parameter. Odometer 277 may be a permanent odometer providing a
reading of the total distance traveled during the lifetime of
stroller 1. The information interface may also include a general
auxiliary device connector 267 through which various auxiliary
devices may be interchangeably connected and controlled by the
controller and/or suitable control switch of the stroller, which
devices may be powered by the power source for the stroller, or
through an independent power source. For instance, auxiliary device
connector 267 may include a first port 269 for connecting speakers
or a portable audio player, and a second port 271 for connecting a
cell phone or other portable electronic device for recharging.
[0046] With reference to FIGS. 5-8, in order to be consistent with
stroller safety standards, it is preferred to have at least two
separate and distinct actions taken to initiate folding and
unfolding of stroller 1. These at least two separate and distinct
actions prevent unintentional folding on the part of the user. In
addition, the interface for opening (unfolding) the stroller may be
the same as the interface for closing (folding) the stroller;
however two separate interfaces may be used. The actions required
by the interface may be simultaneous or sequential and may include
any combination of mechanical or electrical interactions including
mechanical couplings to electrical interfaces, but must include at
least one electrical interface. Simultaneous operation requires
that each of the operations overlap at some point during operation,
even if one of the operations is started before the other.
[0047] In one embodiment, a first activation means enables at least
one other activation means for a predetermined period of time (such
as 10 seconds) and at least one of the at least one other
activation means sends a signal to a controller to activate a drive
mechanism to fold or unfold. The first activation means may be
either a mechanical interface (such as the rotating ring discussed
hereinafter) or an electrical interface and the at least one other
activation means may be an electrical interface (such as the button
coupled to a circuit board discussed hereinafter). Any number of
other steps may be performed by the user interface after the
enabling step and prior to the activation of the drive
mechanism.
[0048] More specifically, user interface 300 is desirably mounted
on handlebar assembly 145 so that it is easily accessible by the
user. However, this is not to be construed as limiting the present
invention as user interface 300 may be positioned at any suitable
location on stroller 1. User interface 300 includes a rotational
mechanical joint 301 coupled to sensors 303a, 303b that must be
activated by the user rotating a ring 305 in the direction of arrow
B.sub.2, combined with a second step of pressing a button 307 to
activate the folding or unfolding process. The amount of rotation
of ring 305 may be between about 45 and 120 degrees since this
amount can be done easily with the thumb. However, this is not to
be construed as limiting the present invention as the amount of
rotation could be as little as 10 degrees on a sufficiently large
ring, or could involve multiple rotations of the ring. Desirably,
ring 305 is spring loaded to return to a home position. A stop 306
may be provided to indicate to the user when the ring has been
rotated to the end position. Once ring 305 has been rotated, the
required distance and returned to the home position, an indication,
such as an LED light, may be provided to the user that the second
action (e.g., pushing a button) can be undertaken. More
specifically, it is important that the interface communicate to the
user the state of the system, particularly in the event of a
sequential interface. For instance, correctly activating ring 305
causes ring 305 to glow with an LED lighting ring 309 indicating
that button 307 may now be pressed to fold or unfold the stroller.
After a set amount of time, for example 30 seconds, the LED
lighting ring 309 blinks if the button 307 has not been pressed,
and then goes out indicating that user interface 300 has been
reset.
[0049] The two sensors 303a, 303b are positioned within an
enclosure 317 at approximately 15 degrees of activation and
approximately 60 degrees of activation while a magnet(s) 311 is
sealed within activating ring 305. Such a configuration allows for
no electronic components to be provided in activating ring 305, and
thus no wiring, slip rings, or other sensitive components, yet
still have activating ring 305 cause electrical actuation of user
interface 300. Enclosure 317, in which sensors 303a and 303b are
provided, is completely sealed and has no joints where water, sand,
or other elements could reach the electronics components of user
interface 300. All of the circuitry provided in enclosure 317 on a
circuit board 315 is therefore entirely enclosed. The only
exception is button 307 in the center which reaches down to circuit
board 315 and pushes a button (not shown) on it. Button 307 is
provided with several layers of sealing to prevent water from
reaching circuit board 315.
[0050] Sensors 303a, 303b may be embodied as sensors for detecting
a magnetic field; however, this is not to be construed as limiting
the present invention, as any suitable sensor may be utilized. As
mentioned above, magnet(s) 311 is positioned in ring 305 to trigger
each sensor 303a, 303b as ring 305 is rotated by the user. If the
button is pressed while ring 305 is being rotated, ring 305 must be
returned to the home position, then rotated to the correct position
without any interference, and finally button 307 must be pushed to
fold or unfold stroller 1. Similarly, if ring 305 is held in the
end position and not returned to the home position before button
307 is pressed, user interface 300 does not grant access to fold or
unfold stroller 1. Finally, if both sensors 303a, 303b are
activated simultaneously (due to a strong external magnetic field),
stroller 1 will not fold.
[0051] User interface 300 of the present invention also includes
various timing aspects. For example, user interface 300 requires
that the total amount of time from when the user begins to turn
ring 305 until ring 305 is fully engaged and returned to the home
position should not exceed a predefined limit, such as 10 seconds.
These criteria can be adjusted as desired to ensure user interface
300 is robust to unintentional activation.
[0052] User interface 300 of the present invention may include the
ability to be locked. For instance, a mechanical switch (not shown)
may be engaged to prevent ring 305 from rotating. In an alternative
embodiment, the switch may be electrical causing the system to
ignore any inputs from ring 305 or button 307.
[0053] Alternatively, the interface could be completely electrical,
such as entering a sequence of characters on a touch screen
interface, such as display 158, requiring the user to touch virtual
buttons on a touch screen interface, or even requiring the user to
write the answer to a simple question on a touch screen interface
in order to fold. In any of these interfaces, if the process is not
completed correctly, stroller 1 would not function. A more
sophisticated electronic interface with questions to answer has the
additional benefit that a child cannot activate stroller 1 but an
adult can easily activate stroller 1.
[0054] In addition, the interface may include timing, such as
requiring the user to hold a first button for some time, for
example, 3 seconds, and then press a second button. If the second
button were depressed during the activation of the first button, or
if the second button were not pressed within some short amount of
time (for example 10 seconds) of holding the first button, or if
the first button were held for too long (10 seconds instead of 3)
the interface would reset. Such a user interface is discussed in
co-pending U.S. patent application Ser. No. 12/554,479, which is
hereby incorporated by reference in its entirety.
[0055] Many other potential embodiments of a user interface for
activating a power folding stroller have been envisioned. For
example, the interface may require the user to alternate between
pushing a left and a right button 3 times each in quick succession.
If either button were pressed too many or too few times, the system
would not function.
[0056] The user interface 300 discussed hereinabove may be used to
control other aspects of stroller 1 other than power folding. For
example, stroller 1 may desirably include a lighting system that
includes lights provided on the front legs 17, 19 thereof. The user
interface 300 may be configured to control these lights. More
specifically, a user of the stroller 1 may activate these lights by
pressing the button 307 without rotating the ring 305. By pressing
the button 307 in such a manner, the user may turn the lights from
bright to dim to off.
[0057] The user interface 300 may also allow a user to customize
their stroller. For instance, if the user rotates the ring 305 to
the stop position and holds it there for a predetermined time
period (e.g., 10 seconds), the display portion 158 of the
information interface 157 will enter a setup mode and the LED
lighting ring 309 turns off. The user can then cycle through the
settings provided on the display portion 158 by, for example,
rotating the ring 305 to make a change and pressing the button 307
to advance to the next setting. Examples of settings that can be
changed are that the user can change the sex of the graphical
indication that a child is present in the stroller 283 on the
display portion and the user can change the units from Imperial to
Metric.
[0058] A sleep mode is also provided in which the user can hold the
button 307 for a predetermined time period, such as 10 seconds,
without turning the ring 305 to place the stroller to sleep to save
power.
[0059] Several other implementations of the user interface may also
be utilized without departing from the scope of the present
invention. For example, the user interface may be embodied as a
"Deadman" switch in which the user is forced to engage a switch or
rotating ring 305 throughout the entire folding process. This can
be a safety feature to give the user more control of the folding
process and may have an additional benefit of providing stability
to the stroller frame as it changes positions. In addition, it may
be desirable to force the user to put the stroller brake on,
detected via an electrical switch, before engaging the activation
mechanism of this user interface. This would be in addition to the
two or more sequential or timing events already described since the
brake may be used during normal operation.
[0060] Stroller 1 may also be provided with a manual override
mechanism to allow manual movement of the stroller between its open
and closed positions and/or manual movement of any stroller
components between their first and second positions, which would
normally be carried out automatically by a drive mechanism. Such
manual override may be desirable for any of a number of reasons,
such as the power source being too low to effect the desired
automatic movement or the failure of any parts. The user interface
should desirably communicate to the user when the stroller is in
manual mode by displaying an icon on the display 158.
[0061] A wide variety of manual override mechanisms may be utilized
in connection with the present invention. For instance, a clutch or
clutches may be provided between one or more drive mechanism
elements and their associated stroller components for use as a
manual override, whereby the clutch may be moved to a position in
which it effects disengagement of the drive mechanism. As another
example, a mechanical lever or rotary element may be provided at
any point in the drive mechanism and/or between the drive mechanism
and one or more stroller components associated with the drive
mechanism, which is movable between an automatic position (in which
a drive mechanism is operatively engaged with one or more stroller
components to move the one or more stroller components
automatically) and a manual position (in which a drive mechanism is
disengaged from its operative engagement with one or more stroller
components). For example, a key hole 400 (see FIG. 2) may be
provided to a top portion of hub 3 of stroller 1. If a manual
override is desired, a user inserts a key (not shown) into the key
hole 400 and turns it 90 degrees. This disengages the drive
mechanism. In addition, a lever (not shown) is provided near first
end 7 of support structure 5. If stroller 1 is in its open,
unfolded position, this lever is lifted and causes the latching
mechanisms discussed in co-pending U.S. patent application Ser. No.
12/554,479 to be disengaged. A user can then fold the stroller
manually.
[0062] It will be appreciated that the above is merely by way of
example, and that a wide variety of disengaging mechanisms may be
utilized with a wide variety of different stroller designs, without
departing from the inventive concepts of the present invention.
[0063] The stroller embodiments described in detail above, are
simple, robust, and extremely easy to use. The various structures
of stroller 1 may all be made of any suitable plastics, formed of
metals, or constructed from any other suitable material.
[0064] Although a user interface for a power folding stroller has
been described in detail for the purpose of illustration based on
what is currently considered to be the most practical and preferred
embodiments, it is to be understood that such detail is solely for
that purpose and that the invention is not limited to the disclosed
embodiments, but, on the contrary, is intended to cover
modifications and equivalent arrangements. For example, it is to be
understood that this disclosure contemplates that, to the extent
possible, one or more features of any embodiment can be combined
with one or more features of any other embodiment.
* * * * *