U.S. patent application number 14/101136 was filed with the patent office on 2015-06-11 for electronic device case.
The applicant listed for this patent is Joshua Simon. Invention is credited to Joshua Simon.
Application Number | 20150157103 14/101136 |
Document ID | / |
Family ID | 53269854 |
Filed Date | 2015-06-11 |
United States Patent
Application |
20150157103 |
Kind Code |
A1 |
Simon; Joshua |
June 11, 2015 |
ELECTRONIC DEVICE CASE
Abstract
An electronic device case includes an upper shell having an
upper edge, a lower edge, a left edge, a right edge and a center
region surrounded by the edges. A lower shell is pivotally coupled
with the upper shell and formed to include a frame configured to
surround and hold an electronic device input peripheral. A number
of grips are adjustably engaged with a guide track of the upper
shell to support and stabilize any of a variety of electronic
devices of different sizes. A number of actuation rods having first
ends comprising knobs and second ends coupled with the grips cause
translation of the grips along the guide track when slid along the
upper, left and right edges of the upper shell.
Inventors: |
Simon; Joshua; (Longmont,
CO) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Simon; Joshua |
Longmont |
CO |
US |
|
|
Family ID: |
53269854 |
Appl. No.: |
14/101136 |
Filed: |
December 9, 2013 |
Current U.S.
Class: |
224/191 |
Current CPC
Class: |
A45C 2011/003 20130101;
G06F 1/1632 20130101; G06F 1/1628 20130101 |
International
Class: |
A45C 11/00 20060101
A45C011/00 |
Claims
1. A system configured to facilitate operation of one or more
electronic devices, comprising: an upper shell; a guide track
including a first guide track rod and a second guide track rod
oriented generally perpendicular to the first guide track rod; a
plurality of grips slidably engaged with the guide track to
stabilize an electronic device adjacent to the upper shell; a lower
shell including a frame surrounding a mobile electronic device
input peripheral configured for operative coupling with a mobile
electronic device held by the plurality of grips, wherein the lower
shell is pivotally coupled with the upper shell; a plurality of
actuation rods having first ends comprising knobs and second ends
coupled with the grips whereby sliding of the knobs causes
translation of the grips along the guide track; and wherein
rotation of the actuation rods about their axes in a first
direction decreases resistance to sliding of the grips along the
guide track and rotation of the actuation rods about their axes in
a second, opposite direction increases resistance to movement of
the grips along the guide track.
2. The system as set forth in claim 1, wherein the actuation rods
are oriented generally perpendicular with the track rods of the
grips to which they are coupled.
3. The system as set forth in claim 2, wherein the mobile
electronic device input peripheral is a keyboard.
4. An electronic device case, comprising: an upper shell having an
upper edge, a lower edge, a left edge, a right edge and a center
region surrounded by the edges; a plurality of grips adjustably
engaged with the upper shell to support and stabilize any of a
variety of electronic devices of different sizes; and a lower shell
pivotally coupled with the upper shell and further comprising a
frame configured to surround and hold an electronic device input
peripheral.
5. The case as set forth in claim 4, wherein the upper and lower
shells are configured to lock against pivoting at any of a variety
of relative angles.
6. The case as set forth in claim 4, further comprising a hinge
pivotally coupling the upper and lower shells and a tensioning knob
provided at one end of the hinge whereby rotation of the tensioning
knob in a first direction decreases resistance to relative pivoting
of the upper and lower shells and rotation of the tensioning knob
in a second, opposite direction increases resistance to relative
pivoting of the upper and lower shells.
7. The case as set forth in claim 4, wherein at least one of the
plurality of grips is configured to move toward and away from the
upper edge.
8. The case as set forth in claim 7, wherein at least one of the
plurality of grips is configured to move toward and away from the
right edge.
9. The case as set forth in claim 8, wherein at least one of the
plurality of grips is configured to move toward and away from the
lower edge.
10. The case as set forth in claim 9, wherein at least one of the
plurality of grips is configured to move toward and away from the
left edge.
11. The case as set forth in claim 4, wherein at least one of the
plurality of grips is constrained to moving along a transverse
axis.
12. The case as set forth in claim 11, wherein at least one of the
plurality of grips is constrained to moving along a longitudinal
axis.
13. The case as set forth in claim 4, further comprising first and
second guide track rods coupled with the upper shell and configured
to constrain adjustment of the plurality of grips.
14. The case as set forth in claim 4, further comprising a
plurality of actuation rods configured to adjust the plurality of
grips.
15. The case as set forth in claim 14, wherein the plurality of
actuation rods are coupled to the grips so as to extend to
locations adjacent to the upper shell edges.
16. The case as set forth in claim 14, wherein the actuation rods
further comprise knobs distal from the plurality of grips.
17. An electronic device support apparatus, comprising: an upper
shell having an upper edge; a plurality of grips engaged with the
upper shell to support and stabilize any of a variety of electronic
devices of different sizes against the upper shell during changes
in orientation of the upper shell; and a lower shell pivotally
coupled with the upper shell and configured to house a electronic
device input peripheral.
18. The system as set forth in claim 17, further comprising a lock
configured to slide between a first position to lock the upper
shell upper edge to the lower shell and second position to unlock
the upper shell upper edge from the lower shell.
Description
BACKGROUND
[0001] Mobile electronic devices such as tablets, phablets and
smart phones have become ubiquitous in the new millennium due to
the ability to connect and compute from almost anywhere.
[0002] While extremely portable, the compact size of some mobile
electronic devices complicates data entry. To overcome this
shortcoming, many users assemble a small keyboard to their mobile
electronic device through an input port such as a universal serial
bus (USB). However, carrying additional accessories like keyboards
begins to detract from the general portability of the devices.
[0003] The lightweight materials of manufacture for some mobile
electronic devices also predisposes them to damage from shock,
abrasion or both. To protect their mobile electronic devices, many
users apply a housing, wrap or case to the devices. However, with a
number of mobile devices of different sizes a user will typically
not be able to use the same wrap or case for more than one device
thereby necessitating a number of housings accommodating different
sizes of device.
SUMMARY
[0004] A system configured to facilitate operation of one or more
electronic devices includes an upper shell and a guide track
including a first guide track rod and a second guide track rod
oriented generally perpendicular to the first guide track rod. A
number of grips are slidably engaged with the guide track to
stabilize an electronic device adjacent to the upper shell. A lower
shell is pivotally coupled with the upper shell and includes a
frame surrounding a mobile electronic device input peripheral
configured for operative coupling with a mobile electronic device
held by the grips. A plurality of actuation rods include first ends
with knobs and second ends coupled with the grips such that sliding
of the knobs causes translation of the grips along the guide track.
Rotation of the actuation rods about their axes in a first
direction decreases resistance to sliding of the grips along the
guide track and rotation of the actuation rods about their axes in
a second, opposite direction increases resistance to movement of
the grips along the guide track.
[0005] An electronic device case includes an upper shell having an
upper edge, a lower edge, a left edge, a right edge and a center
region surrounded by the edges. A plurality of grips are adjustably
engaged with the upper shell to support and stabilize any of a
variety of electronic devices of different sizes. A lower shell
pivotally coupled with the upper shell includes a frame configured
to surround and hold an electronic device input peripheral.
[0006] An electronic device support apparatus includes an upper
shell having an upper edge. A plurality of grips are engaged with
the upper shell to support and stabilize any of a variety of
electronic devices of different sizes against the upper shell
during changes in orientation of the upper shell. A lower shell is
pivotally coupled with the upper shell and configured to house a
electronic device input peripheral.
BRIEF DESCRIPTION OF THE FIGURES
[0007] FIG. 1 illustrates a front view of an example electronic
device case in an open arrangement wherein upper and lower shells
are pivoted away from one another.
[0008] FIG. 2 illustrates a right side view of the example
electronic device case of FIG. 1 again in an open arrangement.
[0009] FIG. 3 illustrates a front view of the example electronic
device case of FIGS. 1 & 2 in a closed arrangement wherein
upper and lower shells are pivoted into mutual contact.
[0010] FIG. 4 illustrates a rear view of the example electronic
device case of FIGS. 1-3 again in a closed arrangement.
[0011] FIG. 5 illustrates a top view of the example electronic
device case of FIGS. 1-4 in again in a closed arrangement.
[0012] FIG. 6 illustrates a front view of an example electronic
device case supporting a keyboard and a mobile electronic device in
an open arrangement.
DETAILED DESCRIPTION
[0013] A mobile electronic device case or case system in accordance
with the present disclosure increases mobility for users accustomed
to implementing accessories to effectively operate their electronic
device. The electronic device case or case system also offers
protection from damage. Adjustable grips eliminate the need for a
variety of enclosures for a variety of differently sized electronic
devices.
[0014] FIG. 1 illustrates a front view of example electronic device
case 1000 in an open arrangement or state. With a number of novel
features that will become apparent from the descriptions which
follow, the electronic device case or case system 1000 facilitates
operation of one or more electronic devices and, in particular, may
facilitate operation of one or more mobile electronic devices.
[0015] Mobile electronic devices suitable for use with the
disclosed electronic device case include but are not limited to
mobile phones, smart telephones, tablet computers, phablet
computers, web pads, handheld PCs, Mobile Internet Devices (MIDs),
Ultra-Mobile Personal Computers (UMPCs) and Personal Digital
Assistants (PDAs).
[0016] An upper shell 100 includes an upper edge 101, a lower edge
102, a left edge 103, a right edge 104 and a center region 105
surrounded by the edges. A number of grips 131, 132, 133 and 134,
for supporting and stabilizing an electronic device, are adjustably
engaged with the upper shell 100 at guide track rods 124 and 128
and are configured to slide or translate relative to both the upper
shell 100 and the guide track rods 124 and 128. Grips 131, 132, 133
and 134 are constructed to hold any of a variety of differently
sized electronic devices against upper shell 100 even while the
orientation of the upper shell 100 varies. Though the example
electronic device case 1000 includes four grips 131, 132, 133 and
134, some example cases may include fewer than four or greater than
four.
[0017] Guide track rods 124 and 128 generally provide support and
stability to grips 131, 132, 133 and 134. First guide track rod 124
is oriented approximately along a transverse axis directed between
upper shell upper edge 101 and upper shell lower edge 102 while a
second, perpendicular or approximately perpendicular guide track
rod 128 is oriented along a longitudinal axis generally directed
between upper shell left edge 103 and upper shell right edge
104.
[0018] Grip 131 is configured for constrained sliding or
translation along guide track rod 124 toward and away from the
upper edge 101. Grip 132 is configured for constrained sliding or
translation along guide track rod 124 toward and away from the
lower edge 102. Grip 133 is configured for constrained sliding or
translation along guide track rod 128 toward and away from the left
edge 103. Grip 134 is configured for constrained sliding or
translation along guide track rod 128 toward and away from the
right edge 104.
[0019] A number of control rods or actuation rods 140 are
configured to allow remote adjustment of the position of grips 131,
132, 133, 134. Each actuation rod is coupled to one of the grips
131, 132, 133 and 134 so as to extend generally perpendicular to
the corresponding track rod 124 or 128 towards locations adjacent
to the upper shell edges 101, 102, 103 and 104. For example, the
actuation rod associated with grip 133 is approximately
perpendicular to guide track rod 128.
[0020] Knobs 145 are provided to ends of control rods 140 distal
from the plurality of grips and extend through slots 106 in the
upper shell upper edge 101, the upper shell left edge 103 and the
upper shell right edge 104 (FIGS. 2 & 3). Sliding of the knobs
145 along edges 101, 103 and 104 causes a corresponding translation
of the respective grips 131, 132, 133 and 134 along the guide track
rods 124 and 128.
[0021] Use of knobs 145 to rotate actuation rods 140 about their
longitudinal axes in a first direction decreases resistance to
movement of the grips 131, 132, 133 and 134 along the guide track
124 and 128. Use of knobs 145 to rotate actuation rods 140 about
their longitudinal axes in a second direction, opposite the first
direction increases resistance to movement of the grips 131, 132,
133 and 134 along the guide track rods 124 and 128. Continued
rotation of actuation rods 140 in the second direction until a
tight feel is achieved at knobs 145 results in a resistance
increased sufficiently to completely arrest translation of grips
131, 132, 133 and 134 relative to guide track rods 124 and 128. In
this state, grips 131, 132, 133 and 134 are configured to hold an
electronic device in place against interior panel 110.
[0022] In the example illustrated in FIGS. 1-6, first and second
knobs are accessible to a user from the upper shell top edge 101, a
third knob is accessible to a user from the upper shell left edge
103 and a fourth knob is accessible to a user from the upper shell
right edge 104. However, a electronic device case in accordance
with the present disclosure may have any of a variety of different
arrangements of control knobs 145. For example, one or both of the
first and second knobs may be provided adjacent to the upper shell
lower edge 102 so as to be accessible therefrom.
[0023] An interior panel 110 may be positioned between the guide
track rods 124, 128 and grips 131, 132, 133 and 134 to prevent
portions of any device held thereby or any foreign objects from
disrupting smooth motion of grips 131, 132, 133 and 134 along guide
track rods 124 and 128. Actuation rods 140 may also be disposed
behind interior panel 110. Slots 115 are formed in panel 110 to
allow coupling between the grips 131, 132, 133, 134 and the guide
track rods 124, 128 through a narrow neck (not illustrated) or
similar structure. Grips 131, 134, 133 and 134 slide toward and
away from the upper shell center region 105 to an extent limited by
slots 115.
[0024] Referring to FIG. 1, slots 115 extend approximately 40-60%
of the distance between the outer position of grips 131, 132, 133
and 134 and the convergence of guide rods 124 and 128. However,
slots 115 may extend any of a variety of distances along guide
track rods 124 and 128. In some examples, slots 115 may extend
completely to the convergence of the guide track rods 124 and 128
thereby tracing the guide track rods. In such examples, translation
of grips 131,132, 133 and 134 is only limited by interference
between grips.
[0025] A lower shell 200 (FIG. 1) is pivotally coupled with upper
shell 100 by a hinge 150 and is formed so as to include a frame 210
configured to surround and hold an electronic device input
accessory or electronic device input peripheral within chamber 220.
Input peripherals suitable for use with the disclosed electronic
device case include but are not limited to keyboards, mice and
touch pads.
[0026] Hinge 150 may be provided as any of a variety of hinges
allowing pivoting of upper shell 100 relative to lower shell 200.
Example hinges include but are not limited to barrel hinges, pivot
hinges, case hinges, strap hinges or combinations of these.
[0027] In some examples, upper shell 100 may pivot between an angle
of approximately zero degrees whereby it abuts frame 210 of lower
shell 200 and an angle of approximately 360 degrees whereby panel
115 and frame 210 face nearly directly away from one another.
[0028] A tensioning knob 155 is provided to one or both ends of
hinge 150. Rotation of tensioning knob 155 in a first direction
decreases resistance to relative pivoting of the upper and lower
shells 100 and 200 while rotation of the tensioning knob 155 in a
second, opposite direction increases resistance to relative
pivoting of the upper and lower shells (FIG. 5). With continued
rotation of tensioning knob 155 in the second direction upper shell
100 and lower shell 200 are configured to lock against pivoting. In
this way, the upper and lower shells may be held at any of a
variety of relative angles. FIG. 2 illustrates a right side view of
the example electronic device case of FIG. 1 again in an open
arrangement.
[0029] A sleeve 310 may be provided adjacent hinge 150 between the
upper 100 and lower 200 shells for harnessing a connector, such as
a USB cable of an electronic device input peripheral.
[0030] In some example cases, a power source (not illustrated) may
be included with lower shell 200. A removable power source may be
provided to a compartment formed in an exterior surface of lower
shell 200. In an alternative, a power source may be imbedded in a
portion of lower shell 200, for example, within frame 210 near
hinge 150. A power supply provided in either manner, may be
operatively coupled with an input peripheral such as a keyboard
which may, in turn, supply power from the power source to an
electronic device held by grips 131, 132, 133 and 134 or the power
supply may offer a direct power line to the electronic device.
Operative coupling between a power source and an input peripheral
or between a power source and an electronic device may be
accomplished by any of a variety of electrical conduits including
but not limited to universal serial bus.
[0031] FIG. 3 illustrates a front view of the example electronic
device case of FIGS. 1 & 2 in a closed arrangement wherein
upper and lower shells are pivoted into mutual contact. A lock 107
slides between a first position in which the upper shell upper edge
101 is locked to the lower shell 200 and second position in which
the upper shell upper edge 101 is free to move away from lower
shell 200.
[0032] FIG. 4 illustrates a rear view and FIG. 5 illustrates a top
view of an example electronic device case in a closed arrangement.
In this arrangement, any electronic device and any accessories held
within the case are substantially protected from shock and
abrasion.
[0033] The exterior of case 1000 may be formed from any of a
variety of lightweight, durable materials including but not limited
to polymers, composites, metals, leather or combinations of these
while the interior may comprise lightweight materials conducive to
absorbing shock. In one example, exterior portions of the upper and
lower shells 100 and 200 are constructed from aluminum and interior
portions are composed of low-slip foam rubber.
[0034] Case 1000 may be manufactured to any of a variety of
dimensions suitable for temporarily housing electronic devices and
related accessories or peripherals. In one example, case 1000 is
approximately 0.3 m from left to right, approximately 0.3 m from
lower edge to upper edge and approximately 0.05 m thick in the
closed arrangement (FIGS. 3-5).
[0035] Case 1000 may also be provided in any of a variety of shapes
conducive to encompassing electronic devices and related
accessories and peripherals. In one example, case 1000 resembles a
rectangular prism when in the closed arrangement.
[0036] Case 1000 may be provided alone or with any of a number of
accessories. In some examples, case 1000 may be provided with a
keyboard coupled to lower shell 200.
[0037] Cases in accordance with the present disclosure may be
implemented to perform any of a variety of methods for supporting,
containing, securing or assembling a mobile electronic device, an
input peripheral for the mobile electronic device or both of these.
In one example method of temporarily securing a mobile or otherwise
portable electronic device to a case, an upper shell 100 is
provided with an upper edge 101, a lower edge 102, a left edge 103,
a right edge 104 and a center region 105 surrounded by the upper,
lower, left and right edges 101, 102, 103 and 104; a number of
guide tracks 124 and 128 are provided to the upper shell 100 and a
lower shell 200 is pivotally coupled to the upper shell 100.
[0038] A number of grips 131, 132, 133 and 134 are engaged with the
guide tracks 124 & 128 for stabilizing any of a variety of
electronic devices adjacent to the upper shell 100 and a number of
actuation rods 140 are coupled to the grips 131, 132, 133, 134 and
provided with control knobs 145 at ends remote from the grips.
[0039] To liberate relative pivoting of the upper and lower shells,
lock 107 is slid from a locked position securing the upper lower
shells 100 and 200 together to a unlocked position.
[0040] A tensioning knob 155 provided at one end of hinge 150 is
rotated in a first direction to decrease resistance to relative
pivoting of the upper and lower shells 100 and 200. Upper shell 100
may now be pivoted to increase the distance between upper edge 101
and the lower shell 200 and may assume any of a variety of angles
therewith. While operating an electronic device, a user may, for
example, prefer to orient upper 100 shell at an angle of
approximately 90 degrees relative to lower shell 200 or may prefer
an angle of 100 degrees or an angle of 80 degrees.
[0041] With upper shell 100 pivoted to the desired orientation, a
tensioning knob 155 provided at one end of hinge 150 is rotated in
a second direction to increase resistance to relative pivoting of
the upper and lower shells 100 and 200. Continued rotation of knob
155 until a tight feel is achieved, results in a resistance
sufficiently increased to completely arrest relative pivoting.
[0042] Actuation rods 140 are rotated about their axes in a first
direction to decrease resistance of the grips 131, 132, 133 and 134
to movement along guide track rods 124 and 128. With resistance to
movement sufficiently decreased, knobs 145, and thereby, grips 131,
132, 133 and 134 are translated along guide track rods 124 and 128
in a first, generally outward direction away from center region 105
of upper shell 100.
[0043] With grips expanded away from center region 105, a mobile
electronic device 500 may be positioned adjacent to center region
105, between or within the grips 131, 132, 133 and 134. Through use
of knobs 145, grips 131, 132, 133 and 134 are translated along
guide track rods 124 and 128 in a second, generally inward
direction toward the center region 105 until they contact and grasp
positioned mobile electronic device 500.
[0044] With mobile electronic device 500 and the grips in position
at upper shell 100, actuation rods 140 are rotated about their
longitudinal axes in a second direction opposite the first
direction so as to increase resistance to movement of grips 131,
132, 133 and 134 along the guide track rods 124 and 128. The mobile
electronic device 500 is held in the desired position by the
arrested grips.
[0045] It should be noted that grips 131, 132, 133 and 134 may be
independently operated. As such, in some example methods, one or
more of grips 131, 132, 133 and 134 may be positioned to grip an
electronic device before the remainder of the grips are positioned.
For example, grip 132 may be translated away from lower edge 102,
secured against translation with rotation of knob 145 and an
electronic device may be supported by grip 132 before grip 133 is
translated into place engaging a side of the electronic device.
[0046] FIG. 6 illustrates a front view of an example electronic
device case in an open arrangement supporting a mobile electronic
device and a mobile electronic device input peripheral. Frame 210
surrounds a keyboard 400 operatively coupled by connector 410 to a
tablet computing device 500 held by the plurality of grips 131,
132, 133 and 134.
[0047] A user may now operate the mobile electronic device with or
without the input peripheral adjusting the orientation of upper
shell 100 relative to lower shell 200 as conditions require by
loosening and then re-tightening tensioning knob 155. When the user
desires to discontinue working and close case 1000, tensioning knob
155 is rotated in the first direction to decrease resistance to
relative pivoting of the upper 100 and lower shells 200. Upper
shell 100 may then be pivoted to decrease the distance between the
upper edge 101 and the lower shell 200 and close case 1000.
[0048] Once upper shell 100 and lower shell 200 are in abutting
relation, lock 107 may be slid from the liberating position to the
securing position. Secured between upper shell 100 and lower shell
200, the mobile electronic device and the input peripheral are
contained together in one place and protected from undesirable
damage.
[0049] While the description has been presented with respect to
certain specific embodiments, it will be appreciated that many
modifications and changes may be made by those skilled in the art
without departing from the spirit and scope of the disclosure. It
is intended, therefore, by the appended claims to cover all such
modifications and changes as fall within the true spirit and scope
of the disclosure.
* * * * *