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Description  |
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FIELD OF THE INVENTION
The present invention relates to a folding portable telephone set and, more
particularly, to a folding portable telephone set formed in a thin
construction by employing a plurality of jointed flat segments.
BACKGROUND OF THE INVENTION
An important object of communication is to enable anyone to communicate or
exchange intentions or information when necessary at any place at any
time. Accordingly, mobile communication service, in addition to
conventional fixed communication service for communication between fixed
points, has been developed. Mobile communication service enables
communication between mobile objects, such as ships, automobiles and
aircraft, and between mobile objects and general subscribers or offices.
Recently, portable telephone sets and cordless telephone sets for mobile
communication have actively been developed.
Generally, in using a telephone set, the telephone receiver is held to the
ear and the telephone transmitter is held near the mouth. Accordingly, a
sufficiently large distance must be secured between the telephone receiver
and the telephone transmitter of a telephone set, even if it is a portable
telephone set. Therefore, conventional telephone sets are long and large.
A folding portable telephone set provided with a folding cover for
protecting the switching unit has been proposed. In this previously
proposed portable telephone set, the transmitter is provided on the
folding cover, and the receiver is provided on the casing so that a
sufficient distance is secured between the transmitter and the receiver.
As mentioned above, the telephone receiver and the telephone transmitter of
the conventional portable telephone set are spaced a distance
substantially equal to the distance between the ear and the mouth.
Therefore it has been difficult to construct the portable telephone set in
a satisfactorily small size. Techniques of manufacturing the component
parts of portable telephone sets have made remarkable progress in recent
years and small, inexpensive component parts are available. From the view
point of component parts, it is comparatively easy to miniaturize portable
telephone sets. However, an ergonomic requirement that a distance
corresponding to that between the ear and the mouth of a man must be
secured between the telephone receiver and the telephone transmitter is a
principal problem in miniaturizing a telephone set.
SUMMARY OF THE INVENTION
Accordingly, it is an object of the present invention to provide a flat,
small, folding portable telephone set meeting ergonomic requirements.
Another object of the present invention is to provide a folding portable
telephone set comprising a plurality of hinged flat segments.
In accordance with one aspect of the present invention, there is provided a
folding portable telephone set comprising a first flat segment provided
with a microphone and switching means, and having the shape of a flat
plate; a second flat segment provided with a transmission-reception
circuit, jointed at one edge to the first flat segment, and having the
shape of a flat plate; a third flat segment internally provided with an
earphone, jointed at one edge to another edge of the second flat segment,
and having the shape of a flat plate; and a fourth flat segment provided
with a display, jointed at one edge to another edge of the third flat
segment, and having the shape of a flat plate. The total length of the
third and fourth flat segments as extended flat in a plane is less than
the length of the second flat segment.
In using the folding portable telephone set, the third flat segment is set
at an acute angle to the second flat segment and the free edge of the
fourth flat segment is set at a predetermined position on the second flat
segment so that an obtuse angle is formed between the third and fourth
flat segments. When the folding portable telephone set is thus unfolded,
the telephone transmitter on the first flat segment is located near the
mouth with the telephone receiver on the third flat segment set to the
ear.
In folding up the folding portable telephone set, the third and fourth flat
segments are extended flat on the second flat segment, and then the second
flat segment is laid flat on the first flat segment. Thus the folding
portable telephone set can compactly be folded up.
In accordance with another aspect of the present invention, there is
provided a folding portable telephone set comprising a first flat segment
provided with a microphone, switching means and a transmission-reception
circuit, and having the shape of a flat plate; a second flat segment
provided with a display, jointed at one edge to one edge of the first flat
segment, and having the shape of a flat plate; and a third flat segment
internally provided with an earphone, jointed at one edge to another edge
of the second flat segment, and having the shape of a flat plate; wherein
the total length of the second and third flat segments on a plane is
substantially equal to the length of the first flat segment.
In using the folding portable telephone set, the second flat segment is set
so that the front surface thereof extends at an obtuse angle to the front
surface of the first flat segment, and the third flat segment is set so
that the back surface thereof extends at a predetermined obtuse angle to
the back surface of the second flat segment. When the folding portable
telephone set is thus unfolded, the telephone transmitter on the first
flat segment is located near the mouth with the telephone receiver on the
third flat segment set to the ear.
In folding up the folding portable telephone set to facilitate carrying the
same, the second and third flat segments are laid flat on the first flat
segment. Thus the folding portable telephone set can compactly be folded
up to facilitate carrying the same.
The above and other objects, features and advantages of the present
invention and the manner of realizing them will become more apparent, and
the invention itself will best be understood from a study of the following
description an appended claims with reference to the attached drawings
showing preferred embodiments of the invention.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a perspective view of a folding portable telephone set of a first
embodiment according to the present invention;
FIG. 2 is a side view of the folding portable telephone set of FIG. 1;
FIG. 3 is a side view of the folding portable telephone set showing the
first embodiment in a folded state;
FIG. 4 is a perspective view of a flexible printed wiring board employed in
the folding portable telephone set of the first embodiment;
FIG. 5 is an exploded sectional view of the folding portable telephone set
of the first embodiment;
FIG. 6 is an exploded perspective view of the folding portable telephone
set of the first embodiment;
FIG. 7 is an enlarged exploded perspective view of a hinge joint for
jointing a first flat segment and a second flat segment;
FIG. 8 is a view taken in the direction of the arrow B in FIG. 7;
FIG. 9 is an enlarged perspective view of the folding portable telephone
set of the first embodiment, showing the construction of a hinge joint
between the second flat segment and a third flat segment, and that of a
hinge joint between the third flat segment and a fourth flat segment;
FIG. 10 is a fragmentary partly cutaway perspective view of the hinge joint
between the second flat segment and the third flat segment;
FIG. 11 is a fragmentary sectional view of a setting structure for setting
the fourth flat segment at a predetermined angle to the second flat
segment;
FIG. 12 is a fragmentary partly sectional side view of a hinge joint
between the third flat segment and the fourth flat segment;
FIG. 13 is a fragmentary partly cutaway perspective view of a locking
mechanism for locking the third flat segment to the second flat segment;
FIG. 14 is a fragmentary sectional view of an unlocking mechanism;
FIG. 15 is a perspective view of a folding portable telephone set of a
second embodiment according to the present invention;
FIG. 16 is a side view of the folding portable telephone set of the second
embodiment;
FIG. 17 is a view taken along the direction of the arrow X in FIG. 16;
FIG. 18 is a view taken along the direction of the arrow A in FIG. 17;
FIG. 19 is a view taken along the direction of the arrow Y in FIG. 16;
FIG. 20 is a view taken along the direction of the arrow Z in FIG. 16;
FIG. 21 is a side view of the folding portable telephone set of the second
embodiment in a folded state; and
FIG. 22 is a fragmentary partly sectional side view of a holding mechanism
for holding a third flat segment at a predetermined angle to a second flat
segment of the folding portable telephone set of the second embodiment.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
A folding portable telephone set of a first embodiment according to the
present invention will be described hereinafter with reference to FIGS. 1
to 14. Referring mainly to FIGS. 1 and 4, a first flat segment 2 is
provided with a switching unit 4 having a dialing function, a built-in
microphone 38 disposed under a perforated portion 6, and a built-in
telephone logic unit 28. The first flat segment 2 is provided on its one
edge with a pair of knuckles 8 and with a catch 10 near the opposite edge.
A second flat segment 12 is provided internally with a
transmission-reception circuit. The second flat segment 12 is provided on
its one edge with a pair of knuckles 14. In jointing the first flat
segment 2 and the second flat segment 12, the knuckles 14 of the second
flat segment 12 are placed in alignment with the knuckles 8 of the first
flat segment 2, and the first flat segment 2 and the second flat segment
12 are jointed by a hinge joint mechanism, which will be described later,
so that the second flat segment 12 is able to turn on the hinge joint
mechanism relative to the first flat segment 2. The second flat segment 12
is provided in its front surface with a shallow recess 12a having a width
substantially equal to that of a third flat segment 18 and a fourth flat
segment 22. A telescopic antenna is stored in the second flat segment 12.
The third flat segment 18 is jointed to the second flat segment 12, and is
provided internally with an earphone 46 under a perforated portion 20. The
fourth flat segment 22 is provided with a display unit 24 and is jointed
to the third flat segment 18. The fourth flat segment 22 can be held at a
predetermined angle to the second flat segment 12 by a holding mechanism,
which will be described later.
The folding portable telephone set is unfolded for use in the state shown
in FIGS. 1 and 2. The folding portable telephone set is folded up for
carrying in the state shown in FIG. 3 by retracting the telescopic antenna
16 into the second flat segment 2, placing the third flat segment 18 and
the fourth flat segment 22 in the recess 12a of the second flat segment
12, and then turning the second flat segment 12 to place the same on the
first flat segment 2.
Referring to FIG. 4 showing a flexible printed wiring board 26 employed in
the folding portable telephone set in the first embodiment, the flexible
printed wiring board 26 is provided with the telephone logic unit 28, a
transmission-reception unit 30, a receiving unit 32, and a LCD unit 34. A
membrane switch 36 is connected to the logic circuit 28 by a connector 37.
The microphone 38 is mounted on the telephone logic unit 28. A pair of
power feed terminals 40 are attached to the backside of the logic unit 28.
When a battery pack 42 is mounted on the first flat segment 2, a pair of
terminals 44 of the battery pack 42 are connected to the power feed
terminals 40. The antenna 16 is connected to the transmission-reception
unit 30; the receiving unit 32 is provided with the earphone 46; the LCD
unit 34 is provided with a LCD 48.
The construction of the folding portable telephone set in the first
embodiment will further be described with reference to FIG. 5. The first
flat segment 2 comprises the logic unit 28 of the flexible printed wiring
board 26, and a casing consisting of a front casing 50 and a rear casing
52 and containing the logic unit 28. The battery pack 42 containing a
plurality of batteries 43 is joined detachably to the rear casing 52. The
second flat segment 12 comprises the transmission-reception unit 30 of the
flexible printed wiring board 26, and a casing consisting of a front
casing 54 and a rear casing 56 and containing the transmission-reception
unit 30. The third flat segment 18 comprises the receiving unit 32 of the
flexible printed wiring board 26, provided with the earphone 46, and a
casing consisting of a front casing 58 and a rear casing 60 and containing
the receiving unit 32. The fourth flat segment 22 comprises the LCD unit
34 of the flexible printed wiring board 26, provided with the LCD 48, and
a casing consisting of a front casing 62 and a rear casing 64 and
containing the LCD unit 34. A transparent window 24 is formed in the front
casing 62 of the fourth flat segment 22.
A hinge joint mechanism jointing the first flat segment 2 and the second
flat segment 12 will be described with reference to FIGS. 6 to 8.
As best shown in FIG. 7, the knuckles 8 of the first flat segment 2 are
provided with through holes 9, and the knuckles 14 of the second flat
segment 12 are provided with through holes 15. As shown in FIG. 8, a slit
17 for receiving one end of a torsion spring 66 is formed near each of the
knuckles 14 of the second flat segment 12. The torsion spring 66 is
interposed between each knuckle 8 and the corresponding knuckle 14, hinge
pins 68 are inserted through the through holes 9 of the knuckles 8 into
the corresponding through holes 15 of the knuckles 14, and then snap rings
70 are put in the respective annular grooves 68a of the hinge pins 68 to
joint the second flat segment 12 to the first flat segment 2. The gap
between the first flat segment 2 and the second flat segment 12 is covered
with a pair of corrugated strips 72 to protect the flexible printed wiring
board 26 contained in the first flat segment 2 and the second flat segment
12.
Referring to FIGS. 9 and 10, A pin 76 fixed to one end of one edge of the
third flat segment 18 is inserted in a hole 77 formed in one end of the
other edge of the second flat segment 12 (FIG. 10). A pin 78 inserted in a
hole formed in the other end of the same edge of the third flat segment 18
and biased outward, namely, in the direction of the arrow E, by a spring
80 is received in a hole 79 formed in the other end of the same edge of
the second flat segment 12. In jointing the third flat segment 18 to the
second flat segment 12 so that the third flat segment 18 is able to turn
relative to the second flat segment 12, the pin 76 is inserted in the hole
77 of the second flat segment 12, and then the pin 78 is inserted in the
hole 79 of the second flat segment 12.
The fourth flat segment 22 is jointed to the third flat segment 18 with a
pair of pins 82 and 84 so that the fourth flat segment 22 is able to turn
relative to the third flat segment 18. A torsion spring 86 is wound on the
pin 82 to bias the joint of the third flat segment 18 and the fourth flat
segment 22 in the direction of the arrow F as shown in FIG. 12.
A pair of pins 88 are fixed to the opposite ends of the free edge of the
fourth flat segment 22. Grooves 74 are formed respectively in the side
surfaces of the recess 12a of the second flat segment 12. The pins 88 are
inserted in and may be moved along the grooves 74 in the direction of the
arrow shown in FIG. 11 until the pins 88 drop into recesses 74a formed at
the depths of the grooves 74, respectively, to set the fourth flat segment
22 at a predetermined angle to the second flat segment 12.
A projection 90 is formed on one side surface of the third flat segment 18.
The projection 90 is fitted in a recess 92 formed in one side surface of
the recess 12a of the second flat segment 12 to lock the third flat
segment 18 to the second flat segment 12. As shown in FIG. 13, slits 94
are formed in the side surface of the third flat segment 18 on the
opposite sides of the projection 90 to enable the projection 90 to be
distorted elastically. When the third flat segment 18 is depressed in the
direction of the arrow G (FIG. 13), the projection 90 is fitted in the
recess 92 to lock the third flat segment 18 to the second flat segment 12.
In FIGS. 9 and 14, indicated at 96 is an unlocking mechanism. As best shown
in FIG. 14, a lever 100 is supported pivotally on a pin 98 in a cavity 97
formed in the second flat segment 12. When one end 102 of the lever 100 is
depressed, the other end 104 of the same rises to release the third flat
segment 18 from the second flat segment 12.
In using the folding portable telephone set, the flat segments are set
respectively in positions as shown in FIGS. 1 and 2; that is, the second
flat segment 12 is extended so that an obtuse angle is formed between the
first flat segment 2 and the second flat segment 12, the third flat
segment 18 is extended toward the first flat segment 2 so that an acute
angle is formed between the second flat segment 12 and the third flat
segment 18, and then the pins 88 fixed to the opposite ends of the free
edge of the fourth flat segment 22 are fitted in the recesses 74a formed
at the extremities of the grooves 74 to secure the third flat segment 18
and the fourth flat segment 22 with a predetermined obtuse angle
therebetween. After thus unfolding the folding portable telephone set, the
earphone provided on the third flat segment 18 is set to the ear. In this
state, the microphone is located near the mouth for transmission.
In folding up the folding portable telephone set, the pins 88 are removed
from the recesses 74a of the second flat segment 12, the third flat
segment 18 and the fourth flat segment 22 are placed flat in the recess
12a of the second flat segment 12, and then the second flat segment 12 is
turned down on the first flat segment 2 as shown in FIG. 3.
A folding portable telephone set in a second embodiment according to the
present invention will be described hereinafter with reference to FIGS. 15
to 22.
The folding portable telephone set comprises a first flat segment 112, a
second flat segment 120 and a third flat segment 128. The first flat
segment 112 is provided internally with a transmission-reception circuit,
not shown, and a switching unit 114 having a dialing function. A battery
pack, not shown, is combined detachably with the first flat segment 112.
The first flat segment 112 has a perforated portion 116 near one edge
thereof, and is provided on the other edge thereof with a knuckle 118
provided with a pair of holes 118a in the opposite ends thereof. A
microphone is disposed under the perforated portion 116.
The second flat segment 120 is provided with a display unit 122 having a
built-in LCD. A pair of knuckles 124 respectively having holes 124a are
formed on one edge of the second flat segment 120 adjacent to the first
flat segment 112. Hinge pins are inserted in the holes 118a of the knuckle
118 of the first flat segment 112 and the holes 124a of the knuckles 124
of the second flat segment 120 to joint the second flat segment 120 to the
first flat segment 112 so that the second flat segment 120 can be turned
down on the first flat segment 112. A grove 126 for storing an antenna 134
is formed in one side portion of the second flat segment 120. A pair of
knuckles 136 provided with holes are formed on the other edge of the
second flat segment 120.
A knuckle 138 provided with holes in the opposite ends thereof is formed on
one edge of the third flat segment 138 adjacent to the second flat segment
120. As shown in FIG. 22, pins 140 are inserted in the holes of the
knuckles 136 of the second flat segment 120 and the knuckle 138 of the
third flat segment 128 to joint the third flat segment 128 pivotally to
the second flat segment 120. The third flat segment 128 has a perforated
portion 130, and is provided with an earphone under the perforated portion
130. A groove 132 for storing the antenna 134 is formed in one side
portion of the third flat segment 128.
Referring to FIG. 22 showing a holding mechanism for holding the third flat
segment 128 on the second flat segment 120 at a predetermined angle to the
second flat segment 120, the knuckles 136 of the second flat segment 120
are provided integrally with protrusions 142, and the knuckle 138 of the
third flat segment 128 is provided with recesses 144a at positions
corresponding to the protrusions 142. In extending the third flat segment
128 at the predetermined angle to the second flat segment 120, the third
flat segment 128 is turned relative to the second flat segment 120 until
the protrusions 142 drop into the recesses 144a. Thus, the third flat
segment 128 is held on the second flat segment 120 in a position shown in
FIG. 22 by the engagement of the protrusions 142 and the recesses 144a.
By engaging the protrusions 142 of the second flat segment 120 with other
recesses 144b formed in the third flat segment 128, the second and third
flat segments 120 and 128 are held flat as indicated by phantom lines in
FIG. 22.
In using the folding portable telephone set, the second flat segment 120 is
extended in one direction so as to form an obtuse angle between the first
flat segment 112 and the second flat segment 120, and then the third flat
segment 128 is extended in the opposite direction so as to form an obtuse
angle between the second flat segment 120 and the third flat segment 128.
As shown in FIG. 22, the third flat segment 128 is held so that the
predetermined obtuse angle is formed between the second flat segment 120
and the third flat segment 128. When the earphone provided on the third
flat segment 128 is set to the ear, the microphone provided on the first
flat segment 112 is located near the mouth for transmission.
In folding up the folding portable telephone set, the second flat segment
120 and the third flat segment 128 are turned down flat on the first flat
segment 112. Since the total length of the second flat segment 120 and the
third flat segment 128 is approximately equal to the length of the first
flat segment 112, the folding portable telephone set can compactly be
folded up.
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