U.S. patent application number 11/930382 was filed with the patent office on 2008-11-06 for viewing angle adjustment system for a monitor.
Invention is credited to Sung I. Oh.
Application Number | 20080272256 11/930382 |
Document ID | / |
Family ID | 34840411 |
Filed Date | 2008-11-06 |
United States Patent
Application |
20080272256 |
Kind Code |
A1 |
Oh; Sung I. |
November 6, 2008 |
Viewing Angle Adjustment System For A Monitor
Abstract
This invention provides a support arm to couple a monitor to a
surface such as a wall or ceiling to remotely adjust the viewing
angle of the monitor. The support arm includes at least one motor
along a pivot axis in the support arm. The motor may be activated
by a processor based on the control signal provided by the remote
control. The support arm may include a plurality of pivot axes with
a motor in each of the pivot axis to adjust the viewing angle along
the vertical and horizontal planes. The support arm may be also
provided with a tracking device that follows the movement of the
viewer to adjust the viewing angle of the monitor corresponding to
the movement of the viewer. The support arm may also receive
periodic signal from the remote control to determine the location
of the remote control. Based on the periodic signal, the processor
may adjust the viewing angle of the monitor towards the location of
the remote control.
Inventors: |
Oh; Sung I.; (West Covina,
CA) |
Correspondence
Address: |
SUNG I. OH, PROFESSIONAL LAW CORPORATION
710 QUAIL VALLEY LANE
WEST COVINA
CA
91791
US
|
Family ID: |
34840411 |
Appl. No.: |
11/930382 |
Filed: |
October 31, 2007 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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11028790 |
Jan 3, 2005 |
7296774 |
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11930382 |
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60533923 |
Jan 2, 2004 |
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Current U.S.
Class: |
248/281.11 |
Current CPC
Class: |
F16M 11/08 20130101;
F16M 11/2092 20130101; F16M 13/027 20130101; F16M 11/18 20130101;
G06F 1/1601 20130101; G06F 2200/1612 20130101; Y10S 248/919
20130101; F16M 11/2014 20130101 |
Class at
Publication: |
248/281.11 |
International
Class: |
F16M 11/04 20060101
F16M011/04 |
Claims
1-13. (canceled)
14. A system adapted to adjust a viewing angle of a monitor, the
system comprising: (A) a monitor having a front side and a back
side, the monitor having a receptor on the front side of the
monitor, and the receptor of the monitor adapted to receive a first
control signal to adjust the viewing angle of the monitor; (B) a
support arm having: (1) an adaptor bracket having a first portion
and a second portion, the first portion adapted to couple to the
back side of the monitor, and the first portion pivotably coupled
to the second portion about a first axis, (2) a wall bracket
adapted to couple to a wall, (3) an arm having a proximal end and a
distal end, the proximal end pivotably coupled to the wall bracket
about a second axis, and the distal end pivotably coupled to the
second portion of the adapter bracket about a third axis, the
second axis substantially parallel to the third axis, and the first
axis substantially perpendicular to the third axis, (4) a first
motor adapted to pivot the arm about the second axis such that the
third axis moves in an arcing manner relative to the second axis,
(5) a second motor adapted to pivot the adaptor bracket about the
third axis, and (6) a third motor adapted to pivot the first
portion of the adaptor bracket about the first axis; and (C) a
processor adapted to receive the first control signal from the
receptor of the monitor to adjust the viewing angle of the monitor,
and the processor adapted to activate at least one of the first,
second, and third motors based on the first control signal to
adjust the viewing angle of the monitor.
15. The system according to claim 14, including a remote control
adapted to transmit the first control signal, the receptor of the
monitor adapted to receive the first control signal from the remote
control.
16. The system according to claim 14, including a remote control
and a memory, the remote control having a teach button, where
activation of the teach button causes the remote control to
transmit a teach control signal, the receptor of the monitor
adapted to receive the teach control signal, and based on the teach
control signal the processor stores a desired position of the
monitor into the memory, and the processor retrieves the desired
position from the memory to reposition the monitor to the desired
position at a later time.
17. The system according to claim 14, where the processor is
adapted to limit the movement of the support arm to prevent the
monitor from running into the wall.
18. The system according to claim 14, including a remote control
adapted to transmit the first control signal to adjust the viewing
angle of the monitor and a second control signal to turn off the
monitor, the receptor of the monitor adapted to receive the first
control signal and the second control signal, the processor adapted
to receive the first control signal and the second control signal
from the receptor, and the processor adapted to activate at least
one of the first, second, and third motors to retract the adapter
bracket relative to the wall bracket from an extended position to a
retracted position based on the second control signal to turn off
the monitor.
19. The system according to claim 18, where the remote control is
adapted to transmit a third control signal to turn on the monitor,
and the processor is adapted to activate at least one of the first,
second, and third motors to extend the adapter bracket to the
extended position based on the third control signal to turn on the
monitor.
20. A system adapted to adjust a viewing angle of a monitor, the
system comprising: (A) a monitor having a front side and a back
side, and the monitor having a receptor on the front side; (B) a
remote control having at least one control button, where activation
of the at least one control button causes the remote control to
transmit a viewing control signal to adjust the viewing angle of
the monitor; (C) a support arm having: (1) an adaptor bracket
having a first portion and a second portion, the first portion
adapted to couple to the back side of the monitor, (2) a wall
bracket adapted to couple to a wall, (3) an arm having a proximal
end and a distal end, the proximal end pivotably coupled to the
wall bracket about a first axis, and the distal end pivotably
coupled to the second portion of the adapter bracket about a second
axis, and the first axis substantially parallel to the second axis,
and (4) a first motor adapted to pivot the arm about the first
axis, and (5) a second motor adapted to pivot the second portion of
the adapter bracket about the second axis; and (D) a processor
adapted to communicably couple to the receptor of the monitor, the
receptor of the monitor adapted to receive the viewing control
signal from the remote control, the processor adapted to activate
at least one of the first and second motors based on the viewing
control signal from the remote control to adjust the viewing angle
of the monitor.
21. The system according to claim 20, where the first portion of
the adapter bracket is adapted to pivot relative to the second
portion of the adapter bracket about a third axis, the third axis
substantially perpendicular to the second axis, and further
including a third motor adapted to pivot the first portion of the
adapter bracket about the third axis, and the processor adapted to
activate the third motor to pivot the first portion of the adaptor
bracket about the third axis.
22. The system according to claim 20, where the processor is
adapted to activate at least one of the first and second motors to
retract the adapter bracket relative to the wall bracket from an
extended position to a retracted position when the monitor is
turned off.
23. The system according to claim 22, where the processor is
adapted to activate at least one of the first and second motors to
extend the adapter bracket to the extended position when the
monitor is turned on again.
24. The system according to claim 20, including a memory, and the
remote control includes a teach button, where activation of the
teach button causes the remote control to transmit a teach control
signal, and based on the teach control signal the processor stores
a desired position of the monitor into the memory, and the
processor adapted to retrieve the desired position from the memory
to reposition the monitor to the desired position at a later
time.
25. A system adapted to adjust a viewing angle of a monitor, the
system comprising: (A) a monitor having a front side and a back
side, the monitor having a receptor on the front side; (B) a remote
control adapted to transmit a control signal to adjust the viewing
angle of the monitor; (C) a support arm having: (1) an adaptor
bracket adapted to couple to the back side of the monitor, (2) a
wall bracket adapted to couple to a wall, (3) an arm having a
proximal end and a distal end, the proximal end pivotably coupled
to the wall bracket about a first axis, the distal end pivotably
coupled to the adapter bracket about a second axis, and the first
axis substantially parallel with the second axis, and (4) a first
motor adapted to pivot the arm about the first axis such that the
second axis pivots about the first axis in an arcing manner to
extend or retract the adaptor bracket relative to the wall bracket;
and (D) a processor adapted to communicably couple to the receptor
of the monitor, the receptor of the monitor adapted to receive the
control signal from the remote control, and the processor adapted
to activate the first motor based on the control signal from the
remote control to extend or retract the adaptor bracket relative to
the wall bracket.
26. The system according to claim 25, further including a second
motor adapted to pivot the adaptor bracket about the second axis,
the adaptor bracket having a first portion and a second portion,
the first portion of the adapter bracket adapted to pivot relative
to the second portion of the adapter bracket about a third axis
that is substantially perpendicular to the second axis, and further
including a third motor adapted to pivot the first portion of the
adapter bracket about the third axis, and the processor adapted to
activate the second motor and the third motor to adjust the viewing
angle of the monitor based on the control signal.
27. The system according to claim 25, where the processor is
adapted to activate the first motor to retract the adapter bracket
relative to the wall bracket when the monitor is turned off.
28. The system according to claim 27, where the processor is
adapted to activate the first motor to extend the adapter bracket
relative to the wall bracket when the monitor is turned on
again.
29. A system adapted to adjust a viewing angle of a monitor, the
system comprising: (A) a monitor having a front side and a back
side, the monitor having a receptor on the front side of the
monitor, and the receptor of the monitor adapted to receive a
control signal to adjust the viewing angle of the monitor; (B) a
support arm having: (1) an adaptor bracket adapted to couple to the
back side of the monitor, (2) a wall bracket adapted to couple to a
wall, (3) a first arm having a first proximal end and a first
distal end, the first proximal end pivotably coupled to the wall
bracket about a first axis, (4) a second arm having a second
proximal end and a second distal end, the first distal end
pivotably coupled to the second proximal end about a second axis,
the second distal end pivotably coupled to the adapter bracket
about a third axis, and the first, second, and the third axes
substantially parallel with respect to each other; (5) a first
motor adapted to pivot the first arm about the first axis, (6) a
second motor adapted to pivot the second arm about the second axis,
and (7) a third motor adapted to pivot the adaptor bracket about
the third axis; and (C) a processor adapted to communicably couple
to the receptor of the monitor to receive the control signal to
adjust the viewing angle of the monitor, and the processor adapted
to activate at least one of the first, second, and third motors
based on the control signal to adjust the viewing angle of the
monitor.
30. The system according to claim 29, where the adaptor bracket
includes a first portion pivotably coupled to a second portion
about a fourth axis, the fourth axis substantially perpendicular to
the third axis, and the adaptor bracket having a fourth motor to
pivot the first portion of the adaptor bracket about the fourth
axis.
31. The system according to claim 29, where the processor controls
the first, second, and third motors to extend the adaptor bracket
relative to the wall bracket in a substantially perpendicular
manner.
32. The system according to claim 29, where the processor controls
the first, second, and third motors to move the adaptor bracket
laterally relative to the wall bracket.
Description
RELATED APPLICATION
[0001] This application is a continuation application of a U.S.
non-provisional application Ser. No. 11/028,790, filed Jan. 3,
2005, which claims priority to a U.S. provisional patent
application Ser. No. 60/533,923, entitled SYSTEM FOR REMOTELY
ADJUSTING THE VIEWING ANGLE OF A MONITOR, filed Jan. 2, 2004. Both
applications are hereby incorporated by references.
BACKGROUND OF THE INVENTION
[0002] 1. Field of the Invention
[0003] This invention is directed to a support arm capable of
adjusting the viewing angle of a monitor remotely and/or
automatically to allow a viewer to watch the monitor more
comfortably at the desired viewing angle.
[0004] 2. General Background
[0005] Flat screen monitors such as computer monitors and plasma
televisions (collectively referred to as "monitor(s)") are becoming
popular because they can be mounted onto a wall to save floor space
and for their aesthetically pleasing appearance. In particular,
monitors are generally mounted to a wall with a mechanical support
arm then fixed in a desired orientation to maximize the viewing
angle of the monitor. To later adjust the viewing angle of the
monitor, however, a viewer generally tilts the monitor manually to
a new viewing angle so that the viewer may more comfortably view
the monitor from a different location. For instance, a monitor may
be fixed to a wall in a family room to allow the family members or
one viewer to view the monitor at the desired viewing angle. As the
viewer moves from one area to another area, such as from the family
room to the kitchen, the viewer may not be able to view the
monitor. In addition, in situations where the monitor is mounted in
a remote location or high above the floor, it may be inconvenient
for the viewer to adjust the viewing angle of the monitor. As such,
there is a need for adjusting the viewing angle of a monitor so
that a viewer may view the monitor comfortably from a variety of
locations.
INVENTION SUMMARY
[0006] This invention provides a support arm to couple a monitor to
a surface such as a wall or ceiling to remotely or automatically
adjust the viewing angle of the monitor. The support arm includes
at least one motor along a pivot axis in the support arm. The motor
may be activated by a processor based on the control signal
provided by the remote control. The support arm may include a
plurality of pivot axes with a motor in each of the pivot axis to
adjust the viewing angle along at least one plane such as the
vertical and/or horizontal plane. The support arm may be also
provided with a tracking device that follows the movement of the
viewer to adjust the viewing angle of the monitor corresponding to
the movement of the viewer. The support arm may also receive
periodic signal from the remote control to determine the location
of the remote control. Based on the periodic signal, the processor
may adjust the viewing angle of the monitor towards the location of
the remote control.
[0007] Other systems, methods, features and advantages of the
invention will be or will become apparent to one with skill in the
art upon examination of the following figures and detailed
description. It is intended that all such additional systems,
methods, features and advantages be included within the
description, be within the scope of the invention, and be protected
by the accompanying claims.
BRIEF DESCRIPTION OF THE DRAWINGS
[0008] The invention can be better understood with reference to the
following figures. The components in the figures are not
necessarily to scale, emphasis instead being placed upon
illustrating the principles of the invention. Moreover, in the
figures, like reference numerals designate corresponding parts
throughout the different views.
[0009] FIG. 1 illustrates a viewing angle adjustment system capable
of adjusting the viewing angle of a monitor;
[0010] FIG. 2 illustrates a top view of the support arm in one
position coupling a monitor to a wall;
[0011] FIG. 3 illustrates a top view of the support arm in a
different position than in FIG. 2;
[0012] FIG. 4 illustrates a side view of the support arm coupling a
monitor to a wall;
[0013] FIG. 5 illustrates a side view of the support arm coupling
the monitor of FIG. 4 is a counter-clockwise pivot position in
comparison to FIG. 4;
[0014] FIG. 6 illustrates a top view of the support arm in a
retracted position;
[0015] FIG. 7 illustrates a top view of the support arm in an
expanded position;
[0016] FIG. 8 illustrates a top view of the support arm coupling a
monitor with another viewing angle;
[0017] FIG. 9 illustrates a top view of the support arm coupling
the monitor in a lateral position in comparison to the lateral
position of the monitor in FIG. 8;
[0018] FIG. 10 illustrates a top view of the support arm with a
pivot point capable of rotating a monitor along the vertical and
horizontal planes;
[0019] FIG. 11 illustrates a system for adjusting the viewing angle
of a monitor based on the movement of the viewer and/or the
location of the remote control; and
[0020] FIG. 12 illustrates a system capable of adjusting the
viewing angle of a monitor along a X and Y plane.
DESCRIPTION OF INVENTION
[0021] This invention is generally directed to remotely controlling
the viewing angle of the monitor that is mounted onto a surface or
in a remote area. FIG. 1 shows a viewing angle adjustment system 2
including a support arm 10 having a plurality of arms 12 and 14.
The two arms 12 and 14 may be coupled along the pivot axis 16.
Along the pivot axis 16, the two arms 12 and 14 may form a housing
18A and 18B, respectively, adapted to house an electric motor. The
electric motor may be a servo motor capable of pivoting or rotating
the housing 18A relative to the housing 18B, thereby actuating the
arm 12 relative to the arm 14. A variety of different types of
motors known to one skilled in the art may be used in the pivot
axis. In addition, on the opposite end of the housing 18A, the arm
12 may have a housing 20 adapted to pivotally couple an adaptor 30
about the pivot axis 24. Along the pivot axis 24, the adaptor 30
and the housing 20 may enclose another electric motor. Likewise, on
the opposing end of the housing 18b, the arm 14 may have a housing
22 adapted to enclose an electric motor capable of pivoting about
the pivot axis 26. The housing 22 may be pivotally coupled to a
bracket 28 which is adapted to mount onto a surface, such as walls
and ceilings. The housing 20 is pivotally coupled to an adaptor 30
which couples the monitor 32 to the support arm 10. In addition,
the adaptor 30 may have an electric motor capable of pivoting the
monitor 32 along the pivot axis 34. In general, the pivot axes 16,
24, and 26 pivot along the vertical axis and the pivot axis 34
pivots along the horizontal axis.
[0022] The viewing angle adjustment system 2 may also include a
remote control 36 having a control button 38 capable of remotely
controlling the viewing angle of the monitor 32 that is coupled to
the support arm 10. In general, a viewing angle may be described as
the position of the monitor that it is comfortable for a viewer(s)
to watch the monitor. As such, the viewing angle may change from on
viewer to another and also change as one or more viewers move
around within the viewing area relative to the location of the
monitor. The viewing angle may be also described as a line that is
perpendicular to the plane of the monitor about its center point.
In this regard, the remote control 36 may have a processor 35 that
is capable of activating the motors along the pivot axes 16, 24,
26, and 34. The remote control 36 may be used to control the
rotation of the motors along their respective pivot axes to adjust
the viewing angle of the monitor 32. The control signal from the
remote control 36 may be provided by a viewer or though other input
data as discussed below. A receptor 50 may be provided on the
monitor or on the support arm 10 to receive the control signal from
the remote control 36.
[0023] Based on the input data from a viewer, the processor 35
provide a control signal to each of the motors that needs to rotate
to orient the monitor 32 at a desired viewing angle. The processor
35 may calculate the rotation of each of the motors, if any, so
that the monitor 32 may be moved from an initial viewing position
to a new desired viewing position with minimal delay or through
least amount of movements by the arms 12 and 14. Besides the remote
control 35, the processor 35 may also be provided within the
support arm 10 such as in the bracket 28, for example. If the
processor 35 is located within the remote control 36, the input
data from a viewer may be processed by the processor 35 to send a
control signal to the receptor 50 to efficiently rotate each of the
motors in the support arm 10 to orient the monitor 32 to the
desired viewing angle. The receptor 50 may receive the control
signal from the remote control 36 and forward the control signal to
the motors within the support arm to adjust the viewing angle of
the monitor accordingly. If the processor 35 is located on the
support arm 10, then the remote control 36 may send the input data
from the viewer to the receptor 50, which is then processed by the
processor 35 to efficiently rotate the motors accordingly. This
way, a viewer may adjust the viewing angle of the monitor remotely
by using the control button 38 on the remote control 36. For
instance, a viewer may activate the control button 38 either to the
left position or to the right position to pivot the viewing angle
of the monitor 32 to the clockwise or counter clockwise direction,
respectively, when viewed from the top.
[0024] FIG. 2 illustrates a top view of the support arm 10 coupling
the monitor 32 to a wall 13. The monitor 32 may be pivoted about
the horizontal plan in a variety of ways. For instance, the monitor
32 may be pivoted along one of the pivot axis 16, 24 or 26 to pivot
the monitor either in the clockwise or counter clockwise direction.
Alternatively, a combination of motors along the pivot axes 16, 24,
and 26 may be activated to adjust the viewing angle of the monitor
to a desired direction. The motor along the pivot axis 24 may be
activated to pivot the monitor 32 either in the clockwise or
counter clockwise direction along the pivot axis 24. The motor
along the pivot axis 16 may be activated to pivot the monitor 32
along an arc about the pivot axis 16 with the length of the arm 12
being the radius of the arc. Likewise, the motor along the pivot
axis 26 may be activated to pivot the monitor 32 along an arc about
the pivot axis 26 with the straight distance between the pivot axes
24 and 26 being the radius of the arc. With a variety of ways to
reposition the monitor to the desired viewing angle, the processor
35 may calculate the rotation of each of the motors, if any, so
that the monitor 32 may be moved from an initial viewing position
to a new desired viewing position with minimal delay or through
least amount of movements by the arms 12 and 14.
[0025] A memory 37 may be provided with the processor 35 to store
the desired movement of the monitor 32 along the horizontal plan
desired by the viewer. That is, the remote control 36 may be
provided with a teach function 39 that allows the viewer to input
the desired movement of the monitor 32 along the horizontal plan to
the processor 35 which is then stored to the memory 37. For
instance, FIG. 2 illustrates a first position of the monitor 32 to
define the position of the monitor 32 along an X and Y plane; and
FIG. 3 illustrates a second position of the monitor 32 along the X
and Y plane. A viewer may desire the viewing angle of the monitor
32 to follow the movement from the first position to the second
position. In this example, a viewer may initiate the teach function
39 from the first position, then move the monitor 32 to the second
position so that the processor 35 may store in the memory 37 the
desired X and Y coordinates of the arc movement of the monitor
through the X and Y plane. In this instance, the motor along the
pivot axis 26 may be activated to rotate the arm 14 in a clockwise
direction to move the monitor 32 along the arc movement that
follows from the first position to the second position.
[0026] The desired first position and the second position may vary
depending on the viewer but each viewer may teach the desired arc
movement to the processor 35. This may involve activating one or
more motors in the axes 16, 24, and 26. The desired movement of the
monitor 32 may be provided so that the support arm 10 and the
monitor 32 may avoid an impeding object that is near the monitor
such as a book shelf, column, lamp, or an adjacent wall. Once the
desired arc movement of the monitor is stored into the memory 37,
the processor 35 may follow the desired arc movement when the
viewer activates the control button to the right or left position.
In addition, the teach function 39 may be also used to define
certain boundaries so that the movement of the monitor is limited
to a certain area. This may be done to prevent the monitor from
running into adjacent walls, for example. Accordingly, a viewer may
adjust the viewing angle of the monitor to the left along the X and
Y plane by pressing on the control button 38 to the left which
causes the monitor 32 to move to the left, and if the desired arc
movement has been programmed into the memory 37, then the movement
of the monitor 32 may follow the stored arc movement. Once the
monitor is at the desired viewing angle along the X and Y plane,
the viewer may depress the control button 38 to stop of the
movement of the monitor 32.
[0027] Once the monitor 32 is adjusted for the desired viewing
angle along the X and Y plane, the viewing angle of the monitor 32
may be also adjusted along the vertical plane or X and Z plane.
FIGS. 4 and 5 illustrate the side view of the monitor 32 along the
support arm 10. FIG. 4 illustrate the monitor 32 in the first
position along the X and Z plane; and FIG. 5 illustrates the
monitor 32 in the second position along the X and Z plane, where
the viewing angle of the monitor 32 is in counter clockwise
position relative to the first position. To pivot the monitor 32 in
the X and Z plane, the viewer may move the control button 38 either
to the upward position or downward position to activate the motor
along the pivot axis 34 to pivot the monitor 32 corresponding to
the clockwise or counter clockwise direction along the vertical or
X and Z plane. This way, a viewer may use the control button 38 to
adjust the viewing angle of the monitor 32 along the X and Y plane
and the X and Z plane.
[0028] FIGS. 6 and 7 illustrate a top view of the support arm 10,
where FIG. 6 shows the support arm 10 in a retracted position; and
FIG. 7 shows the support arm 10 in the expanded position. If the
viewer desires to extend the monitor away from the bracket 28 or
the wall 13, the viewer may hold down the control button 38 and
move the control button upwards to send the control signal to the
processor 35 to activate the motors in the pivot axes 16, 24, and
26 to extend the monitor 32 from the retracted position to the
expanded position. On the other end, if the viewer desires to
retract the support arm 10, then the viewer may hold down the
control button 38 and moves the control button 38 downward which
activates the motors along the pivot axes 16, 24, and 26 to move
the monitor 32 towards the bracket 28. Note that for convenience,
when the monitor 32 is turned off or when not being used, the
support arm 10 may retract the monitor 32 so that it is flush to a
wall. The next time the monitor is turned on, however, the
processor may extend the support arm 10 to the previous position
before the monitor was turned off.
[0029] FIGS. 8 and 9 illustrate moving the monitor 32 laterally
along the Y axis in an X and Y plane while maintaining a constant
X. To move the monitor 32 laterally along the Y axis, a viewer may
hold down the control button 38 and move the control button 38
either to the left or to the right to send the corresponding
control signal to the processor 35. Based on the lateral control
signal, the processor 35 may control the motors along the pivot
axes 16, 24, and 26 to move the monitor 32 along the Y axis while
maintaining a constant X.
[0030] The number of pivot axes provided with the support arm 10
may vary. For instance, FIG. 10 illustrates the support arm 10
having a bracket 28 with one pivot point 40 that rotates the
monitor 32 about the pivot point in a variety of directions. That
is, the pivot point 40 may rotate the monitor 32 both in X and Y
plane and in the X and Z plane. In addition, the bracket 28 may be
telescopic so that the bracket may extend to move the monitor 32
along the X axis. The bracket 28 of the support arm 10 may be also
attached to a ceiling or any other surface to mount the monitor to
the surface. The support arm 10 may be also provided with pivot
axes that pivot along the X and Z plane so that the monitor 32 may
be moved up and down along the Z axis.
[0031] FIG. 11 illustrates that the support arm 10 may be equipped
with a tracking device 40 to follow the movement of a viewer. The
tracking device may be placed on the outer perimeter of the monitor
and communicateably coupled to the processor 35 to adjust the
viewing angle of the monitor 32 based on the movement of the
viewer. The remote control 36 may be provided with a tracking mode
button 42 to activate the tracking mode. Once the tracking mode
button 42 is activated, the tracking device 40 may monitor the
movement of the viewer and provide movement information to the
processor 35. Based on the movement information, the processor 35
may control the motors along the pivot axes so that the viewing
angle of the monitor 38 may substantially follow the movement of
the viewer. That is, the processor 35 adjusts the viewing angle of
the monitor automatically based on the tracking information
provided by the tracking device 40 to follow the movement of the
viewer so that the viewer may conveniently view the monitor from a
variety of locations. The tracking mode 42 may be generally
utilized when one viewer is watching the monitor. A variety of
tracking device, method, and system known to one skilled in the art
may be used to follow the movement of the viewer. For instance,
such methods as described in U.S. Pat. No. 5,504,477, entitled
Tracking System, and U.S. Pat. No. 6,005,610, entitled Audio-visual
object localization and tracking system and method therefore, which
are incorporated by reference, may be used to track the movement of
the viewer. With regard to U.S. Pat. No. 6,005,610, the visual
object detector without the audio detection method may be used as
well with this invention. Other methods such as radar triangulation
method and heat detection system may be used in this invention to
detect the movement of the viewer.
[0032] FIG. 11 also illustrates that the remote control 36 may have
a follow mode button 48 to adjust the viewing angle of the monitor
32 to automatically follow the location of the remote control 36.
Once the follow mode 48 is activated, the remote control 36 may
send periodic signals to the receptor 50 to detect the location of
the remote control 36. The location of the remote control is then
sent to the processor 35 to control the motors along the pivot axes
to adjust the viewing angle of the monitor 32. A variety of
tracking devices, methods, and systems known to one skilled in the
art may be used to follow the movement of the remote control 36.
For instance, such methods as described in U.S. Pat. No. 5,504,477
may be used to monitor the movement of the remote control. Other
methods such as triangulation and GPS systems may be used to
determine the location of the remote control based on the signal
provided by the remote control 36. This way, a viewer may place the
remote control 36 at a desired location within a viewing area so
that the viewing angle of the monitor 36 may be automatically
adjusted for the viewer.
[0033] The remote control 36 may be provided as a miniaturized
transmitter that sends periodic signals to the receptor 50. The
transmitter may be attached to a viewer such as on the viewer's
collar or shirt so that the viewing angle of the monitor may follow
the movement of the viewer. In addition, the transmitter may be
attached to the head gear of the viewer or hat so that the viewing
angle of the monitor may follow the rotation of the viewer's head.
For instance, a surgeon may use an endoscope to visualize the
internal organs of a patient during a surgery; a monitor coupled to
the endoscope may follow the rotation of the surgeon's head so that
the surgeon may conveniently view the monitor. The monitor may also
have a variety of sensors to detect nearby objects so that the
movement of the monitor may avoid the nearby objects. In such
applications, the bracket 28 for the support arm 10 may be coupled
to any apparatus or ceiling rather than a wall to support the
monitor 32.
[0034] This invention may be used in a variety of applications. For
instance, FIG. 12 illustrates that the viewing angle of a monitor
32 for a video phone 60 may be adjusted so that the speaker may
move around the viewing area while speaking. With the video phone
60, the monitor 32 may be mounted or placed on top of a table 62.
As the speaker moves around the viewing area, the monitor 32 or the
support arm 64 may be provided with a tracking device 40 to follow
the movement of the speaker. This may allow the speaker the freedom
to move while speaking at the same time. Alternatively, the
tracking device 40 may operate by tracking the voice of the
speaker. With the video phones, the monitor may be pivotally
coupled to the support arm 64 having a first arm 66 and a second
arm 68 coupled to each other along a pivot axis 70 capable of
pivoting along the vertical plane or the X and Y plane. The support
arm 64 may also include the adapter 30 for coupling the monitor 32
for the video phone 60 to the support arm 64. The adaptor 30 may
pivot about the pivot axis 34 as discussed above to rotate the
monitor 32 clockwise or counter clockwise direction along the X and
Y plane. The first arm 66 may also rotate along the horizontal
plane or around the Y axis so that the monitor 32 may rotate around
360 degrees on the table 62 to adjust the viewing angle of the
monitor so that the speaker may view the monitor 32. Alternatively,
the support arm 10 as described above may be used to adjust the
viewing angle of a monitor on top of a table.
[0035] While various embodiments of the invention have been
described, it will be apparent to those of ordinary skill in the
art that many more embodiments and implementations are possible
within the scope of this invention. Accordingly, the invention is
not to be restricted except in light of the attached claims and
their equivalents.
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