U.S. patent application number 13/459471 was filed with the patent office on 2013-10-31 for finger-gesticulation hand device.
This patent application is currently assigned to PRECISION MACHINERY RESEARCH & DEVELOPMENT CENTER. The applicant listed for this patent is Bo-Yi Chou, Rong-Bin Lin, Ying-Lung Lin, Che-Hau Wu. Invention is credited to Bo-Yi Chou, Rong-Bin Lin, Ying-Lung Lin, Che-Hau Wu.
Application Number | 20130285404 13/459471 |
Document ID | / |
Family ID | 49476629 |
Filed Date | 2013-10-31 |
United States Patent
Application |
20130285404 |
Kind Code |
A1 |
Lin; Rong-Bin ; et
al. |
October 31, 2013 |
FINGER-GESTICULATION HAND DEVICE
Abstract
A finger-gesticulation hand device includes a base frame
representing a metacarpal part of the human hand, and at least
three digits mounted on the base frame and appearing to be a thumb
and at least two fingers. Each digit has at least two phalange
portions respectively linked by two joints which permit a flexing
movement of the phalange portions between extended and flexed
positions. An actuating cord passes through each digit and is
actuated by a solenoid actuator unit to pull the phalange portions
of the respective digit to the flexed position. The hand device is
simple in construction and capable of making hand gestures in a
simple manner.
Inventors: |
Lin; Rong-Bin; (Taichung,
TW) ; Lin; Ying-Lung; (Taichung, TW) ; Chou;
Bo-Yi; (Taichung, TW) ; Wu; Che-Hau;
(Taichung, TW) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Lin; Rong-Bin
Lin; Ying-Lung
Chou; Bo-Yi
Wu; Che-Hau |
Taichung
Taichung
Taichung
Taichung |
|
TW
TW
TW
TW |
|
|
Assignee: |
PRECISION MACHINERY RESEARCH &
DEVELOPMENT CENTER
Taichung
TW
|
Family ID: |
49476629 |
Appl. No.: |
13/459471 |
Filed: |
April 30, 2012 |
Current U.S.
Class: |
294/213 ;
901/30 |
Current CPC
Class: |
A61F 2/583 20130101;
B25J 15/0009 20130101 |
Class at
Publication: |
294/213 ;
901/30 |
International
Class: |
B25J 15/12 20060101
B25J015/12 |
Claims
1. A finger-gesticulation hand device, comprising: a base frame
having a major wall which represents a metacarpal part of the human
hand and which defines an upright plane; five digits representing a
thumb and four fingers of the human hand, each having a metacarpal
portion which is mounted on said major wall, a
proximate-and-intermediate phalange portion which is linked to said
metacarpal portion by a first joint that is disposed to permit
turning of said proximate-and-intermediate phalange portion
relative to said metacarpal portion between flexed and extended
positions, a first biasing member which is disposed to bias said
proximate-and-intermediate phalange portion toward the extended
position, a distal phalange portion which is linked to said
proximate-and-intermediate phalange portion by a second joint that
is disposed to permit turning of said distal phalange portion
relative to said proximate-and-intermediate phalange portion
between flexed and extended positions, and a second biasing member
which is disposed to bias said distal phalange portion toward the
extended position; five actuating cords, each having a first end
secured to said distal phalange portion of a respective one of said
digits, and passing through said proximate-and-intermediate
phalange portion and said metacarpal portion to terminate at a
second end that is disposed adjacent to said base frame; a first
solenoid actuator unit disposed on said base frame, and having a
first solenoid member and a first plunger to which said second ends
of three of said actuating cords are fastened, said first plunger
being coupled with said first solenoid member such that, when said
first plunger is activated to move to an activated position, said
distal and proximate-and-intermediate phalange portions of three
corresponding ones of said digits which represent respectively the
thumb and two of the fingers are pulled to be displaced to the
flexed positions; and a second solenoid actuator unit disposed on
said base frame, and having a second solenoid member and a second
plunger to which said second ends of the other two of said
actuating cords are fastened, said second plunger being coupled
with said second solenoid member such that, when said second
plunger is activated to move to an activated position, said distal
and proximate-and-intermediate phalange portions of the other two
corresponding ones of said digits which represent respectively the
other two of the fingers are pulled to be displaced to the flexed
positions.
2. The finger-gesticulation hand device as claimed in claim 1,
wherein each of said first and second solenoid actuator unit has a
direction reversing member disposed on said base frame, each of
said actuating cords is wound on said direction reversing member of
a corresponding one of said first and second solenoid actuator
units to permit said second end to be tensely fastened to a
corresponding one of said first and second plungers, each of said
first and second plungers being moved closer to a respective one of
said first and second solenoid members to the activated
position.
3. The finger-gesticulation hand device as claimed in claim 2,
wherein said proximate-and-intermediate phalange portion of each of
said digits includes proximate and intermediate phalange segments
which are respectively linked to said metacarpal and distal
phalange portions, and which are linked to each other by a third
joint that is disposed to permit turning of said intermediate
phalange segment relative to said proximate phalange segment
between flexed and extended positions, each of said digits having a
third biasing member which is disposed to bias said intermediate
phalange segment toward the extended position.
4. The finger-gesticulation hand device as claimed in claim 3,
wherein each of said first, second and third joints includes a pair
of outer lugs which are disposed on an end surface of one of said
metacarpal portion and said intermediate and proximate phalange
segments, a pair of inner lugs which are disposed on an end surface
of a corresponding one of said proximate phalange segment, said
distal phalange portion and said intermediate phalange portion, and
which are juxtaposed with said outer lugs, and a hinge pin which is
led through said inner lugs and journalled on said outer lugs.
5. The finger-gesticulation hand device as claimed in claim 4,
wherein each of said first, second and third biasing members is a
torsion spring which is sleeved on said hinge pin of a
corresponding one of said first, second and third joints and which
has two ends that respectively abut against said end surfaces of
two corresponding ones of said metacarpal portion, said proximate
and intermediate phalange segments and said distal phalange
portion.
6. The finger-gesticulation hand device as claimed in claim 5,
wherein two opposing ones of said end surfaces at each of said
first, second and third joints are configured to be divergent from
a corresponding one of said hinge pins so as to provide more leeway
for a flexing movement of the corresponding one of said
proximate-and-intermediate and distal phalange portions.
7-8. (canceled)
Description
BACKGROUND OF THE INVENTION
[0001] 1. Field of the Invention
[0002] This invention relates to a hand device, more particularly
to a finger-gesticulation hand device.
[0003] 2. Description of the Related Art
[0004] A conventional multi-fingered robot hand, such as those
disclosed in U.S. Pat. Nos. 8,100,451 B2 and 7,735,887 B2, is
capable of making motions similar to human hand motions, like
grasping articles, making hand gestures, etc. To make complicated
hand motions and provide a sufficient grasping force, the
conventional robot hand is provided with five digit mechanisms,
each having three bending joints which are actuated by an
individual drive unit. Such joints and drive units are complicated
in construction.
SUMMARY OF THE INVENTION
[0005] An object of the present invention is to provide a
finger-gesticulation hand device which is simple in structure and
which can be manufactured at a relatively low cost.
[0006] According to this invention, the finger-gesticulation hand
device includes a base frame having a major wall which represents a
metacarpal part of the human hand and which defines an upright
plane, and at least three digits appearing to be a thumb and at
least two fingers. Each of the digits has a metacarpal portion
which is mounted on the major wall, a proximate-and-intermediate
phalange portion which is linked to the metacarpal portion by a
first joint that is disposed to permit turning of the
proximate-and-intermediate phalange portion relative to the
metacarpal portion between flexed and extended positions, a first
biasing member which is disposed to bias the
proximate-and-intermediate phalange portion toward the extended
position, a distal phalange portion which is linked to the
proximate-and-intermediate phalange portion by a second joint that
is disposed to permit turning of the distal phalange portion
relative to the proximate-and-intermediate phalange portion between
flexed and extended positions, and a second biasing member which is
disposed to bias the distal phalange portion toward the extended
position. Each of at least three actuating cords has a first end
secured to the distal phalange portion of a respective one of the
digits, and passes through the proximate-and-intermediate phalange
portion and the metacarpal portion to terminate at a second end
that is disposed adjacent to the base frame. A first solenoid
actuator unit is disposed on the base frame, and has a first
solenoid member and a first plunger to which the second end of one
of the actuating cords is fastened. The first plunger is coupled
with the first solenoid member such that, when the first plunger is
activated to move to an activated position, the distal and
proximate-and-intermediate phalange portions of a corresponding one
of the digits representing the thumb are pulled to be displaced to
the flexed positions. A second solenoid actuator unit is disposed
on the base frame, and has a second solenoid member and a second
plunger to which the second ends of the other two of the actuating
cords are fastened. The second plunger is coupled with the second
solenoid member such that, when the second plunger is activated to
move to an activated position, the distal and
proximate-and-intermediate phalange portions of the corresponding
ones of the digits representing the fingers are pulled to be
displaced to the flexed positions.
BRIEF DESCRIPTION OF THE DRAWINGS
[0007] Other features and advantages of the present invention will
become apparent in the following detailed description of the
preferred embodiment of the invention, with reference to the
accompanying drawings, in which:
[0008] FIG. 1 is a perspective view of the preferred embodiment of
a finger-gesticulation hand device according to this invention when
making a gesture "paper" as in a hand game;
[0009] FIG. 2 is a perspective view showing interior components of
the preferred embodiment;
[0010] FIG. 3 is a perspective view of a digit assembly of the
preferred embodiment in an extended state;
[0011] FIG. 4 is an exploded perspective view of the digit
assembly;
[0012] FIG. 5 is a perspective view of the digit assembly in a
flexed position;
[0013] FIG. 6 is a perspective view of the preferred embodiment
when making a gesture "rock" as in the hand game; and
[0014] FIG. 7 is a perspective view of the preferred embodiment
when making a gesture "scissors" as in the hand game.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
[0015] Referring to FIGS. 1 to 3, the preferred embodiment of a
finger-gesticulation hand device according to the present invention
is shown to comprise a base frame 2, five digits 3, five actuating
units 5, and first and second solenoid actuator units 4.
[0016] The base frame 2 has a base seat 21 and a major wall 22
which represents a metacarpal part of the human hand and which
extends uprightly from the base seat 21 to define an upright
plane.
[0017] Referring to FIGS. 2 to 4, the digits 3 appear to be a thumb
and four fingers, respectively. Each of the digits 3 has a
metacarpal portion 31 which is mounted on the major wall 22, a
proximate-and-intermediate phalange portion 32 which is linked to
the metacarpal portion 31 by a first joint 37 that is disposed to
permit turning of the proximate-and-intermediate phalange portion
32 relative to the metacarpal portion 31 between flexed and
extended positions, a first biasing member 33 which is disposed to
bias the proximate-and-intermediate phalange portion 32 toward the
extended position, a distal phalange portion 34 which is linked to
the proximate-and-intermediate phalange portion 32 by a second
joint 38 that is disposed to permit turning of the distal phalange
portion 34 relative to the proximate-and-intermediate phalange
portion 32 between flexed and extended positions, and a second
biasing member 35 which is disposed to bias the distal phalange
portion 34 toward the extended position. The metacarpal and distal
phalange portions 31, 34 of each digit 3 respectively have first
and second flat end surfaces 311, 342 adjacent to the
proximate-and-intermediate phalange portion 32. The distal phalange
portion 34 of each digit 3 has a through hole 341.
[0018] The proximate-and-intermediate phalange portion 32 of each
digit 3 includes proximate and intermediate phalange segments 321,
322 which are respectively linked to the metacarpal and distal
phalange portions 31, 34, and which are linked to each other by a
third joint 39 that is disposed to permit turning of the
intermediate phalange segment 322 relative to the proximate
phalange segment 321 between flexed and extended positions. Each
digit 3 further includes a third biasing member 36 disposed to bias
the intermediate phalange segment 322 toward the extended
position.
[0019] In particular, the proximate phalange segment 321 has a
first inclined end surface 323 facing the first flat end surface
311, and an opposite second inclined end surface 324. The
intermediate phalange segment 322 has a third inclined end surface
325 facing the second inclined end surface 324, and an opposite
fourth inclined end surface 326 facing the second flat end surface
342 of the distal phalange portion 34.
[0020] Each of the first, second and third joints 37, 38, 39
includes a pair of outer lugs 371, 381, 391 which are disposed on
the end surface 311, 326, 324 of a respective one of the metacarpal
portion 31, and the intermediate and proximate phalange segments
322, 321, a pair of inner lugs 372, 382, 392 which are disposed on
the end surface 323, 342, 325 of a corresponding one of the
proximate phalange segment 321, the distal phalange portion 34, and
the intermediate phalange segment 322 and which are juxtaposed with
the outer lugs 371, 381, 391, and a hinge pin 373, 383, 393 which
is led through the inner lugs 372, 382, 392 and journalled on the
outer lugs 371, 381, 391. By virtue of the inclined end surfaces
323, 324, 325, 326 which are configured to be divergent from the
corresponding hinge pins 373, 393, 383, respectively, more leeway
can be provided for a flexing movement of the corresponding one of
the proximate and intermediate phalange segments 321, 322 and the
distal phalange portion 34.
[0021] Each of the first, second and third biasing members 33, 35,
36 is a torsion spring which is sleeved on the hinge pin 373, 383,
393 of a corresponding one of the first, second and third joints
37, 38, 39 and which has two ends that respectively abut against
the end surfaces 311, 323; 326, 342; 324, 325 of two corresponding
ones of the metacarpal portion 31, the proximate and intermediate
phalange segments 321, 322 and the distal phalange portion 34.
[0022] Each of the actuating units 5 includes an actuating cord 51
disposed in the respective digit 3, and a head 52 connected to a
first end 511 of the actuating cord 51 to be retainingly received
in the through hole 341 in the distal phalange portion 34. The
actuating cord 51 passes through the intermediate and proximate
phalange segments 322, 321 and the metacarpal portion 31, and
terminates at a second end 512 that is disposed adjacent to the
base frame 2.
[0023] The first solenoid actuator unit 4 is disposed on the base
frame 2 to actuate three of the digits 3 representing the thumb and
the ring and little fingers, and has a first solenoid member 41 and
a first plunger 42 coupled with and activated by the first solenoid
member 41. The three corresponding actuating cords 51 are wound on
a first direction reversing member 43 that is mounted on the base
seat 21 to permit the second ends 512 thereof to be tensely
fastened to the first plunger 42. When the first plunger 42 is
activated to move closer to the first solenoid member 41 to an
activated position, as shown in FIG. 5, the distal and
proximate-and-intermediate phalange portions 34, 32 of the
corresponding digits 3 are pulled through the actuating cords 51 to
be displaced to the flexed positions.
[0024] Similarly, the second solenoid actuator unit 4 is disposed
on the base frame 2 to actuate two of the digits 3 representing the
index and middle fingers, and has a second solenoid member 41 and a
second plunger 42 coupled with and activated by the second solenoid
member 41. The two corresponding actuating cords 51 are wound on a
second direction reversing member 43 that is mounted on the base
seat 21 to permit the second ends 512 thereof to be tensely
fastened to the second plunger 42. When the second plunger 42 is
activated by electromagnetic attraction to move closer to the
second solenoid member 41 to an activated position, as shown in
FIG. 5, the distal and proximate-and-intermediate phalange portions
34, 32 of the corresponding digits 3 are pulled through the
actuating cords 51 to be displaced to the flexed positions.
[0025] Referring to FIGS. 1, 2, 6 and 7, in this embodiment, the
finger-gesticulation hand device can be actuated to make expressive
gestures "rock," "paper," or "scissors" as in
"rock-paper-scissors."
[0026] As illustrated, by means of the first and second solenoid
actuator units 4, and by virtue of the actuating cords 51 for
pulling the individual digits 3, the hand device of this invention
can be actuated to make hand gestures in a simple manner, and can
be manufactured at a relatively low cost.
[0027] While the present invention has been described in connection
with what is considered the most practical and preferred
embodiment, it is understood that this invention is not limited to
the disclosed embodiment but is intended to cover various
arrangements included within the spirit and scope of the broadest
interpretations and equivalent arrangements.
* * * * *