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Mobile Phone Patent Abstract
In a handheld mobile phone (10) having a detachable battery pack
(20) which can be removably mounted to a body (11) of the handheld
mobile phone, the detachable battery pack has a memory card receiving
recess (22) for removably receiving a body of a memory card (30),
and the body of the handheld mobile phone has a plurality of contacts
(15) which are brought into electrical contact with contact terminals
(31) of the memory card mounted to the detachable battery pack when
the detachable battery pack is mounted to the body of the handheld
mobile phone.
Mobile Phone Patent Claims
The invention claimed is:
1. A handheld mobile phone having a detachable battery pack which
can be removably mounted to a body of the handheld mobile phone,
wherein said detachable battery pack has a memory card receiving
part for removably receiving a body of a memory card, said memory
card receiving part including guiding grooves for guiding said memory
card as it is slidably engaged with said battery pack and a retaining
slider for retaining said memory card in said memory receiving part
of said battery pack, and wherein the body of the handheld mobile
phone has a plurality of external contacts which are brought into
electrical contact with contact terminals of a memory card that
is mounted in said memory card receiving part of said detachable
battery pack when said detachable battery pack is mounted to the
body of the handheld mobile phone.
2. A handheld mobile phone claimed in claim 1 wherein said memory
card receiving part of said detachable battery pack is so configured
to receive said memory card in such a condition that said contact
terminals of said memory card are exposed to the body of the handheld
mobile phone, and wherein said plurality of external contacts provided
in the body of the handheld mobile phone are formed of a plurality
of springy contacts which are brought into resilient contact with
said contact terminals of said memory card mounted to said detachable
battery pack when said detachable battery pack is mounted to the
body of the handheld mobile phone.
3. A handheld mobile phone claimed in claim 2 wherein said detachable
battery pack includes a receiving port through which said memory
card is inserted, a guide means for guiding said memory card from
said receiving port to said memory card receiving part, and a retaining
means for detachably latching said memory card accommodated in said
memory card receiving part.
4. A handheld mobile phone claimed in claim 3 wherein said receiving
port is exposed when said detachable battery pack is mounted to
the body of the handheld mobile phone.
5. A handheld mobile phone claimed in claim 4 wherein said detachable
battery pack includes a spring provided at a deep end of said memory
card receiving part, for exerting on said memory card a biasing
force pushing said memory card toward said receiving port.
6. A handheld mobile phone claimed in claim 5 wherein said memory
card receiving part has a stopper for preventing said memory card
from being inserted to said memory card receiving part when said
memory card is improperly inserted from said receiving port, and
wherein said memory card has a cut which is never contacted with
said stopper when said memory card is properly inserted from said
receiving port to said memory card receiving part.
7. A handheld mobile phone claimed in claim 1, further including
a said memory card mounted in said memory card receiving part of
said detachable battery pack mounted to the body of the handheld
mobile phone.
8. A handheld mobile phone as recited in claim 1, wherein said
body of said mobile phone includes a receiving recess for receiving
said detachable battery pack when said detachable pack is mounted
to said body of said handheld mobile phone and wherein said plurality
of external contacts are located within said receiving recess.
Mobile Phone Patent Description
BACKGROUND OF THE INVENTION
The present invention relates to a handheld mobile phone capable
of utilizing an exchangeable memory card, and more specifically
to a handheld mobile phone capable of utilizing an exchangeable
memory card, which can be mounted on a detachable battery pack.
Some of prior art handheld mobile phones have a memory card detachable
to a body of the handheld mobile phone and the function of recording
a conversation in the memory card and reproducing the conversation
recorded in the memory card, so that it is possible to save a dilatory
handwork for memorizing the summary of the conversation or for pressing
a key pad for calling (For example, JP-A-2000-032169).
However, in order to use the memory card, it is necessary to provide
a connector having a guide for fitting the memory card within a
body of the handheld mobile phone, on a printed circuit board mounted
within the body of the handheld mobile phone. As a result, a substantial
area is consumed on the printed circuit board, and a dead space
occurs.
In addition, the connector is required to have a housing for pushing
terminals of the memory card to the connector, with the result that
it is difficult to thin the body of the handheld mobile phone.
BRIEF SUMMARY OF THE INVENTION
Accordingly, it is an object of the present invention to provide
a handheld mobile phone having a memory card, which has overcome
the above mentioned problems of the prior art.
Another object of the present invention is to provide a handheld
mobile phone having a memory card, capable of efficiently utilizing
the space on the printed circuit board.
Still another object of the present invention is to provide a handheld
mobile phone having a memory card, capable of efficiently thinning
the body of the handheld mobile phone.
The above and other objects of the present invention are achieved
in accordance with the present invention by a handheld mobile phone
having a detachable battery pack which can be removably mounted
to a body of the handheld mobile phone, wherein the detachable battery
pack has a memory card receiving part for removably receiving a
body of a memory card, and the body of the handheld mobile phone
has a plurality of external contacts which are brought into electrical
contact with contact terminals of the memory card mounted to the
detachable battery pack when the detachable battery pack is mounted
to the body of the handheld mobile phone.
Preferably, the memory card receiving part of the detachable battery
pack is so configured to receive the memory card in such a condition
that the contact terminals of the memory card are exposed to the
body of the handheld mobile phone, and the plurality of external
contacts provided in the body of the handheld mobile phone are formed
of a plurality of springy contacts which are brought into resilient
contact with the contact terminals of the memory card mounted to
the detachable battery pack when the detachable battery pack is
mounted to the body of the handheld mobile phone.
Specifically, the detachable battery pack includes a receiving
port through which the memory card is inserted from an external,
a guide means for guiding the memory card from the receiving port
to the memory card receiving part, and a retaining means for detachably
latching the memory card accommodated in the memory card receiving
part.
In addition, the receiving port is exposed when the detachable
battery pack is mounted to the body of the handheld mobile phone.
Furthermore, the detachable battery pack includes a spring provided
at a deep end of the memory card receiving part, for exerting on
the memory card a biasing force pushing the memory card toward the
receiving port
In addition, the memory card receiving part has a stopper for preventing
the memory card from being inserted to the memory card receiving
part when the memory card is improperly inserted from the receiving
port, and the memory card has a cut which is never contacted with
the stopper when the memory card is properly inserted from the receiving
port to the memory card receiving part.
In the above mentioned handheld mobile phone with the detachable
battery pack, the detachable battery pack has the memory card receiving
part removably receiving the body of the memory card, and on the
other hand, the body of the handheld mobile phone has the external
contacts which are brought into contact with the contact terminals
of the memory card mounted to the battery pack when the battery
pack is fitted into the body of the handheld mobile phone. Here,
the external contacts are connected to an electronic circuit internally
provided within the body of the handheld mobile phone. Thus, since
the contact terminals of the memory card are forcibly and stably
brought into electrical contact with the external contacts of the
body of the handheld mobile phone by action of the battery pack
which is mounted to the body of the handheld mobile phone. On the
other hand, since it is no longer necessary to provide a connector
having a guide for fitting the memory card within the body of the
handheld mobile phone, on a printed circuit board mounted within
the body of the handheld mobile phone, the body of the handheld
mobile phone can be effectively thinned and a space on the printed
circuit board can be efficiently utilized.
The above and other objects, features and advantages of the present
invention will be apparent from the following description of preferred
embodiments of the invention with reference to the accompanying
drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a diagrammatic perspective view of an embodiment of the
handheld mobile phone in accordance with the present invention in
a condition that a battery pack is fitted into the body of a foldable
handheld mobile phone in a folded condition;
FIG. 2 is a diagrammatic perspective view of the handheld mobile
phone shown in FIG. 1 in a condition that the battery pack was removed
from the body of the foldable handheld mobile phone in the folded
condition;
FIG. 3 is a diagrammatic perspective view of the battery pack which
was detached from the body of the foldable handheld mobile phone
shown in FIG. 1 and from which the memory card was removed; and
FIG. 4 is a diagrammatic perspective view of the memory card, which
can be fitted into the battery pack shown in FIG. 3.
DETAILED DESCRIPTION OF THE INVENTION
Referring to FIGS. 1 and 2, the shown embodiment of the handheld
mobile phone in accordance with the present invention is a foldable
handheld mobile phone (two-part folding mobile phone) 10, which
is shown in a folded condition in FIGS. 1 and 2. FIG. 1 in a condition
that a battery pack is fitted into the body of a foldable handheld
mobile phone in folded condition, and FIG. 2 shows a condition that
the battery pack was removed from the body of the foldable handheld
mobile phone in the folded condition.
The shown foldable handheld mobile phone 10 comprises an operating
part housing 11 and a display part housing 12 which are rotatably
or swingably coupled together by means of a hinge mechanism 13.
As well known to persons skilled in the art, the operating part
housing 11 includes a key pad (not shown) and a microphone (not
shown) on an inner and front face (not shown) thereof, and the display
part housing 12 includes an ear speaker (not shown) and a display
(not shown) on an inner and front face (not shown) thereof.
As shown in FIG. 2, an outer and rear face of the operating part
housing 11 has a battery pack receiving recess 14 extending from
a central portion to a side adjacent to the hinge mechanism 13 and
having a wide cut 14A formed in a recess wall 14B adjacent to the
hinge mechanism 13 so that a battery pack 20 is detachably fitted
into the receiving recess 14 in such a manner that a base end of
the battery pack 20 is exposed at the wide cut 14A. Furthermore,
a spring-biased latch 17 is provided at the central portion side
of the battery pack receiving recess 14 to latch the battery pack
20 detachably fitted into the receiving recess 14, for holding the
battery pack 20 in an unremovable condition.
On a bottom surface of the battery pack receiving recess 14, which
constitutes a portion of the outer and rear face of the operating
part housing 11, an array of external springy contacts 15 are formed
and projected to electrically and resiliently contact with contact
terminals 31 of a memory card 30 shown in FIG. 4. Of course, the
array of external springy contacts 15 are electrically connected
to an internal electronic circuit (not shown) provided within the
body of the mobile phone 10. Furthermore, power terminals 16 are
provided on the bottom surface of the battery pack receiving recess
14 to contact with power supplying terminals 21 of the battery pack
20 so as to receive an electric power from the battery pack 20 when
the battery pack 20 is fitted into the battery pack receiving recess
14 of the operating part housing 11. Of course, the power terminals
16 are electrically connected to power supply terminals of the internal
electronic circuit (not shown) provided within the body of the mobile
phone 10.
Referring to FIGS. 1 and 3, the battery pack 20 includes therein
a secondary cell or cells (not shown) in a casing, which includes
a pair of contact terminals 21 provided on a mounting surface thereof
to be brought into contact with the power terminals 16 of the operating
part housing 11 when the battery pack 20 is fitted into the battery
pack receiving recess 14 of the operating part housing 11. Further,
the mounting surface of the casing of the battery pack 20 includes
a memory card receiving recess 22 to slidably receive the memory
card 30 from a receiving port 23 portioned at a side of the wide
cut 14A formed in the recess wall 14B of the operating part housing
11 in the condition that the battery pack 20 is fitted into the
battery pack receiving recess 14 of the operating part housing 11.
The battery pack 20 also includes a pair of guiding grooves 26
formed at opposite sides of the memory card receiving recess 22,
so that the memory card 30 can be slidingly guided in the pair of
guiding grooves 26 when the memory card 30 is inserted into or ejected
from the memory card receiving recess 22. The battery pack 20 further
includes a spring 25 provided at a deepest end of the memory card
receiving recess 22 opposite to the receiving port 23, for exerting
a springy biasing force on the memory card 30 in a direction ejecting
the memory card 30 toward the receiving port 23 when the memory
card 30 is completely inserted in the memory card receiving recess
22. The battery pack 20 includes an inclined stopper surface 27
formed on one corner of the deepest end of the memory card receiving
recess 22 so that when the memory card 30 having an cut 32 formed
at one corner of a tip end side thereof is properly inserted into
the memory card receiving recess 22 along the pair of guiding grooves
26, the cut corner 32 of the memory card 30 is faced to the inclined
stopper surface 27 with no contact with the inclined stopper surface
27, and therefore, the memory card 30 can be inserted in the deepest
position contacting and pushing the spring 25, and on the other
hand, when the memory card 30 is improperly inserted into the memory
card receiving recess 22, a non-cut corner 33 of the tip end side
of the memory card 30 is abutted against the inclined stopper surface
27 with the result that the memory card 30 cannot be inserted until
the deepest position.
In addition, a memory card retaining slider 24 is provided to be
slidable along the mouth of the receiving port 23 between a latching
position for latching the memory card 30 properly inserted into
the memory card receiving recess 22 and therefore for preventing
the memory card 30 from being ejected from the memory card receiving
recess 22 by the ejecting biasing force of the spring 25, and an
ejecting position as shown in FIG. 3 for releasing the memory card
30 properly inserted into the memory card receiving recess 22 so
that the memory card 30 is partially ejected from the memory card
receiving recess 22 by action of the ejecting biasing force of the
spring 25.
This memory card retaining slider 24 can be spring-biased to be
automatically slid to the latching position when the memory card
30 has been properly and completely inserted into the memory card
receiving recess 22.
Referring to FIGS. 3 and 4, the memory card 30 is an external memory,
such as a multi-media card, a SD memory card, and a memory stick,
removable to the battery pack 20. The memory card 30 includes an
array of contact terminals 31 formed along the tip end side thereof
to be brought into an electrical contact with the springy contacts
15 of the operating part housing 11 when the memory card 30 is properly
and completely inserted and fitted into the memory card receiving
recess 22 of the battery pack 20 fitted into the battery pack receiving
recess 14 of the operating part housing 11. As mentioned above,
the memory card 30 has the cut 32 formed at the one corner of the
tip end side thereof, so that the memory card 30 can be completely
inserted into the deepest position when the memory card 30 is properly
inserted into the memory card receiving recess 22 along the pair
of guiding grooves 26 in such a manner that the cut corner 32 of
the memory card 30 is faced to the inclined stopper surface 27.
Now, a mounting and a removal of the memory card in the shown embodiment
will be explained.
In order to insert the memory card 30 into the handheld mobile
phone 10, the memory card 30 is inserted from the memory card receiving
port 23 of the battery pack 20 in a condition that the contact terminals
31 is faced outward, and is slid along the pair of guiding grooves
26. When the memory card 30 is properly completely inserted into
the memory card receiving recess 22 against the spring 25, the slider
24 is slid from the ejecting position as shown in FIG. 3 to the
latching position (slightly displaced from the ejecting position
as shown in FIG. 3 toward an opposite position) for latching the
memory card 30 properly inserted into the memory card receiving
recess 22 and therefore for preventing the memory card 30 from being
ejected from the memory card receiving recess 22 against the ejecting
biasing force from the spring 25. Thus, the memory card 30 is retained
in the battery pack 20 in an unremovable condition.
Thereafter, the battery pack 20 having the memory card 30 retained
therein, is fitted into the the battery pack receiving recess 14
of the foldable handheld mobile phone 10 in the folded condition,
and held in the unremovable condition by the spring-biased latch
17. In this condition, the power supplying terminals 21 of the battery
pack 20 are brought into electrical contact with the power terminals
16 of the handheld mobile phone 10, and the contact terminals 31
of a memory card 30 are simultaneously brought into electrical and
resilient contact with the springy contacts 15 of the handheld mobile
phone 10. Thus, it becomes possible to utilize the memory card 30.
Incidentally, in the folded condition of the foldable handheld
mobile phone 10, the memory card 30 can be inserted and removed
from the battery pack 20 fitted with the handheld mobile phone 10.
On the other hand, by sliding the slider 24 from the latching position
to the ejecting position as shown in FIG. 3, the memory card 30
is released from the slider 24 and partially ejected from the memory
card receiving port 23 by action of the spring 25.
In the above mentioned embodiment, the handheld mobile phone is
of the foldable type, but the present invention can be equally applied
to a not-foldable handheld mobile phone if it is uses a detachable
battery pack.
As seen from the above, according to the present invention, since
the memory card is retained in the battery pack, it is sufficient
if the connector mounted on the printed circuit board provided in
the body of the handheld mobile phone is the springy contacts without
any guide for fitting the memory card within the body of the handheld
mobile phone, a space on the printed circuit board can be efficiently
utilized, and the size of the body of the handheld mobile phone
can be reduced.
In addition, since the since the memory card is inserted into the
battery pack, it is no longer necessary to retain the memory card
by a connector having long terminals which were required in the
prior art, so that the body of the handheld mobile phone can be
effectively thinned.
The invention has thus been shown and described with reference
to the specific embodiments. However, it should be noted that the
present invention is in no way limited to the details of the illustrated
structures but changes and modifications may be made within the
scope of the appended claims.
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