U.S. patent application number 14/551512 was filed with the patent office on 2015-06-18 for electro-acoustic converters, electronic devices, waterproof covers, and air leakage test methods for electro-acoustic converters.
The applicant listed for this patent is W. L. Gore & Associates, Co. Ltd.. Invention is credited to Shigeharu Murayama.
Application Number | 20150172797 14/551512 |
Document ID | / |
Family ID | 40341280 |
Filed Date | 2015-06-18 |
United States Patent
Application |
20150172797 |
Kind Code |
A1 |
Murayama; Shigeharu |
June 18, 2015 |
Electro-Acoustic Converters, Electronic Devices, Waterproof Covers,
and Air Leakage Test Methods For Electro-Acoustic Converters
Abstract
It is an object to provide an electro-acoustic converter which
can be subjected to air leakage test allowing a gas to pass through
a waterproof film in such a condition that the waterproof film is
attached to the electro-acoustic converter. An electro-acoustic
converter is produced, which includes: a casing having a sound
hole; and a diaphragm provided in the casing, wherein the sound
hole is covered with the waterproof film to form a closed space,
and the closed space is in communication with the outside of the
casing through a vent for air leakage test.
Inventors: |
Murayama; Shigeharu; (Tokyo,
JP) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
W. L. Gore & Associates, Co. Ltd. |
Tokyo |
|
JP |
|
|
Family ID: |
40341280 |
Appl. No.: |
14/551512 |
Filed: |
November 24, 2014 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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12671988 |
Jul 13, 2011 |
8942401 |
|
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PCT/JP2008/063782 |
Jul 31, 2008 |
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14551512 |
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Current U.S.
Class: |
381/334 |
Current CPC
Class: |
Y10T 29/49002 20150115;
H04R 31/00 20130101; H04R 1/02 20130101; H04R 1/44 20130101; G01M
3/26 20130101; H04M 1/03 20130101; H04M 1/18 20130101 |
International
Class: |
H04R 1/02 20060101
H04R001/02; H04R 1/44 20060101 H04R001/44 |
Foreign Application Data
Date |
Code |
Application Number |
Aug 7, 2007 |
JP |
2007-205815 |
Claims
1. (canceled)
2. An electro-acoustic converter comprising: a casing; a diaphragm
provided in the casing; at least one sound hole and a vent for air
leakage test, both of which are formed on the casing; and a
waterproof film which covers the sound hole.
3. The electro-acoustic converter according to claim 1, wherein the
waterproof film is attached to a frame having a sound opening.
4. The electro-acoustic converter according to claim 3, wherein the
frame further has an opening for air ventilation, and the opening
for air ventilation of the frame is in communication with the vent
for air leakage test.
5. The electro-acoustic converter according to claim 4, wherein the
waterproof film has an opening for air ventilation, and the opening
for air ventilation is in communication with the opening for air
ventilation of the frame.
6-15. (canceled)
16. A waterproof cover comprising: a frame; and a waterproof film
which covers a sound opening on the frame, wherein a vent for air
leakage test is formed on the frame.
17. (canceled)
18. A process for producing an electronic device, comprising steps
of: removing an electro-acoustic converter according to claim 1
from a supplying sheet to which the electro-acoustic converter has
been allowed to adhere; and then attaching the electro-acoustic
converter to an outer casing.
Description
TECHNICAL FIELD
[0001] This invention relates to electronic devices which are
required to have high waterproof property, such as mobile phones
and digital cameras, electro-acoustic converters used in the
electronic devices, and waterproof covers used in the
electro-acoustic converters. In particular, this invention relates
to air leakage test structures and air leakage test methods for
electro-acoustic converters such as microphones and speakers.
BACKGROUND TECHNOLOGY
[0002] Patent Document 1 (Japanese Unexamined Patent Publication
(Kokai) No. Hei 8-79865) describes a structure in which: a
diaphragm is provided in a receiver casing; a receiver is attached
to the back side of a front casing in such a condition that the
opening of the receiver casing faces with two or more sound holes
formed on the front casing; and in order to prevent water drops
from entering into the inside of the receiver through the holes, a
waterproof film having excellent sound transmission performance is
provided between the front casing and the receiver (see, e.g., FIG.
1).
[0003] Patent Document 2 (Japanese Unexamined Patent Publication
(Kokai) No. 2006-262262) describes a structure in which: the front
side of a rear casing is covered with a front casing; a circuit
board is put in a concave portion of the rear casing; the front
side of the circuit board is covered with a waterproof-type key
sheet material; the outer edge of the waterproof-type key sheet
material is sandwiched between the outer edge of the rear casing
and the outer edge of the front casing; an mounting hole is formed
in the waterproof-type key sheet material; and a microphone holder
is inserted into the mounting hole. In addition, a microphone is
mounted in the microphone holder; a waterproof film is attached to
the end face of the microphone holder; and a small opening of the
microphone holder is closed with the waterproof film (see, e.g.,
FIGS. 2 to 4).
DISCLOSURE OF THE INVENTION
Problems to be Solved by the Invention
[0004] In the future, when an electronic device having an
electro-acoustic converting part such as a speaker or a microphone
is required to have waterproof property, for example, in water at a
depth of about one meter, the electronic device has to be tested on
whether its waterproof film has no damages such as microscopic
breaks, i.e., whether prescribed waterproof performance is
exhibited. In this test, it is effective to carry out air leakage
test (gas leakage test) in which a gas is allowed to pass though
the waterproof film.
[0005] However, as shown in FIG. 1 of Patent Document 1, in such a
condition that a waterproof film is attached to a receiver casing,
a gas cannot be allowed to flow into the closed space (i.e., the
inside of the casing), and it is not possible to carry out air
leakage test.
[0006] On the other hand, as shown in FIG. 2 of Patent Document 2,
in the case of a method in which a part supporting a waterproof
film, such as a microphone holder, a front casing, a rear casing, a
circuit board, a microphone, and other parts are attached,
respectively, in the step of final assembling, it is possible to
carry out air leakage test in such a condition that the waterproof
film is attached to the front casing. It is because the waterproof
property of the waterproof film itself cannot be evaluated after
the waterproof film is attached to the microphone holder that the
waterproof film is attached to the front casing.
[0007] However, when the waterproof film is attached to the front
casing, it is necessary to achieve such an attaching by hand
working, in general, at which time wrinkles can be generated in the
waterproof film. This is because the waterproof film is thin but
has no elasticity. If wrinkles are generated in the waterproof
film, chatter sounds may easily be generated. In addition, these
wrinkles may cause the breaking of the waterproof film or the
generation of a gap at the bonding area between the front casing
and the waterproof film, resulting in a cause of water leakage.
[0008] Furthermore, the method disclosed in Patent Document 2 has a
problem that the number of parts or the number of processes may be
increased in the step of final assembling. In addition, the
distance between the diaphragm and the waterproof film in the
electro-acoustic converting part may easily vary, resulting in a
problem that electronic devices as final products may have
different acoustic characteristics.
Means for Solving the Problems
[0009] The electro-acoustic converter of this invention, which has
attained the above object, comprises: a casing having at least one
sound hole; and a diaphragm provided in the casing, wherein the
sound hole is covered with a waterproof film to form a closed
space, and the closed space is in communication with the outside of
the casing through a vent for air leakage test.
[0010] In addition, the above object is also attained by an
electro-acoustic converter comprising a casing; a diaphragm
provided in the casing; at least one sound hole and a vent for air
leakage test, both of which are formed on the casing; and a
waterproof film which covers the sound hole.
[0011] The electro-acoustic converter of this invention has a vent
for air leakage test, through which a gas can be allowed to flow
into the outside or inside of the casing, and therefore, the air
leakage test of the waterproof film can be carried out in such a
condition that the waterproof film is attached to the casing.
[0012] In the above electro-acoustic converter, the waterproof film
may preferably be attached to a frame having a sound opening. This
is because the property of handing a thin waterproof film can be
improved.
[0013] In the above electro-acoustic converter, the frame further
may preferably have an opening for air ventilation, and the opening
for air ventilation of the frame may preferably be in communication
with the vent for air leakage test.
[0014] In the above electro-acoustic converter, the waterproof film
may preferably have an opening for air ventilation, and this
opening for air ventilation may preferably be in communication with
the opening for air ventilation of the frame.
[0015] In the above electro-acoustic converter, Gurley air
resistance (JIS P 8117:1998) of the waterproof film may preferably
be one second or higher.
[0016] In the above electro-acoustic converter, the waterproof film
may preferably be a porous polytetrafluoroethylene film.
[0017] As the above electro-acoustic converter, there can be
mentioned, for example, a sound wave receiver or a sound wave
generator.
[0018] In the above electro-acoustic converter, when one or more
casings each has at least one sound hole for releasing a call sound
and at least one sound hole for releasing an alarm sound, both the
sound holes may preferably be covered with a same waterproof film.
This is because the process for producing electro-acoustic
converters can be simplified.
[0019] In the above electro-acoustic converter, the vent for air
leakage test may preferably be provided with a sealer. This is
because the electro-acoustic converter can have improved acoustic
characteristics.
[0020] In the above electro-acoustic converter, an elastic material
may preferably be formed on part of all of a periphery of the
casing.
[0021] In the above electro-acoustic converter, the vent for air
leakage test may preferably be sealed with the elastic
material.
[0022] It may be preferred to form an electronic device comprising:
an electro-acoustic converter as described above; and an outer
casing having a concave is portion to be fitted with the
electro-acoustic converter.
[0023] As an electronic device comprising an electro-acoustic
converter as described above and an outer casing, it may be a
preferred embodiment wherein the electro-acoustic converter is
brought into contact with part of the outer casing, so that the
vent for air leakage test is sealed.
[0024] The waterproof cover of this invention, which has attained
the above object, comprises: a frame; and a waterproof film which
covers a sound opening on the frame, wherein a vent for air leakage
test is formed on the frame.
[0025] The term "casing" as used in this invention means a
receiving case which ensures a space for enclosing a diaphragm of
the electro-acoustic converter. Its shape and the position and size
of an opening are not particularly limited.
[0026] The term "waterproof film" as used in this invention is a
film for preventing the entering of water or dusts from the outside
of the casing. Thus, the waterproof film does not necessarily have
gas permeability.
[0027] In addition, it may be preferred to measure gas leakage from
an electro-acoustic converter as described above by the steps of:
allowing the electro-acoustic converter to adhere to a supplying
sheet having an opening so that the opening overlaps with at least
one sound hole of the electro-acoustic converter; and then allowing
a gas to flow into the electro-acoustic converter from the opening
or the vent for air leakage test.
[0028] In addition, when an electronic device is produced, the
process may preferably comprise the steps of: removing an
electro-acoustic converter as described above from a supplying
sheet to which the electro-acoustic converter has been allowed to
adhere; and then attaching the lector-acoustic converter in an
outer casing.
Effects of the Invention
[0029] According to the electro-acoustic converter of this
invention, because the electro-acoustic converter has a vent for
air leakage test, through which the inside of the electro-acoustic
converter is in communicated with the outside of the casing, air
leakage test allowing a gas to pass through a waterproof film can
be carried out in such a condition that the waterproof film is
attached to the electro-acoustic converter. For this reason, the
number of parts is decreased at the time of assembling electronic
devices, resulting in an increase of production efficiency. In
addition, according to the electro-acoustic converter of this
invention, because the waterproof film is attached to the
electro-acoustic converter, the distance between the diaphragm and
the waterproof film in the casing can easily be kept constant and
the electro-acoustic converter can have stabilized acoustic
characteristics, in comparison with the case where the waterproof
film is attached to the outer casing of an electronic device.
BRIEF DESCRIPTION OF THE DRAWINGS
[0030] FIG. 1 is a schematic cross-sectional view of an
electro-acoustic converter according to a mode for carrying out
this invention.
[0031] FIG. 2 is a schematic cross-sectional view of another
electro-acoustic converter according to a mode for carrying out
this invention.
[0032] FIG. 3 is a schematic cross-sectional view of still another
electro-acoustic converter according to a mode for carrying out
this invention.
[0033] FIG. 4 is a schematic cross-sectional view of still another
electro-acoustic converter according to a mode for carrying out
this invention.
[0034] FIG. 5 is a schematic cross-sectional view of still another
electro-acoustic converter according to a mode for carrying out
this invention.
[0035] FIG. 6 is a view showing an embodiment in which an
electro-acoustic converter according to a mode for carrying out
this invention is attached to an outer casing.
[0036] FIG. 7 is a process cross-sectional view of an electronic
device according to a mode for carrying out this invention.
[0037] FIG. 8 is a process cross-sectional view of another
electronic device according to a mode for carrying out this
invention.
[0038] FIG. 9 is a process cross-sectional view of still another
electronic device according to a mode for carrying out this
invention.
[0039] FIG. 10 is a schematic cross-sectional view of an
electro-acoustic converter according to another mode for carrying
out this invention.
[0040] FIG. 11(a) is a schematic cross-sectional view of a
waterproof cover according to a mode for carrying out this
invention.
[0041] FIG. 11(b) is a plan view of one exemplary shape of the
waterproof cover of FIG. 11(a) as viewed from the side of the
waterproof film according to a mode for carrying out this
invention.
[0042] FIG. 11(c) is a plan view of the waterproof cover of FIG.
11(a) as viewed from the side of the waterproof film depicting a
wide portion for forming an opening for air ventilation according
to a mode for carrying out this invention.
[0043] FIG. 11(d) is a plan view of the waterproof cover of FIG.
11(a) as viewed from the side of the waterproof film depicting the
waterproof film in the shape of an ellipse according to a mode for
carrying out this invention.
[0044] FIG. 12(a) is a schematic cross-sectional view of an
exemplary waterproof cover in which two sound openings are formed
on the frame according to a mode for carrying out this
invention.
[0045] FIG. 12(b) is a plan view of the waterproof cover of FIG.
12(a) viewed from the side of the waterproof film according to a
mode for carrying out this invention.
[0046] FIG. 12a(c) is a plan view of the waterproof cover of FIG.
12(a) viewed from the side of the waterproof film in which the
sound opening corresponding to the sound hole of the speaker and
the sound opening corresponding to the sound hole of the receiver
are combined into one sound opening according to a mode for
carrying out this invention.
[0047] FIG. 13 is view showing an embodiment in which air leakage
test is carried out for all of two or more electro-acoustic
converters according to a mode for carrying out this invention.
[0048] FIG. 14 is an enlarged view of a portion at which a test
piece is placed in a Gurley tester.
DESCRIPTION OF NUMERALS
[0049] 1 Casing [0050] 2 Supporting member [0051] 3 Diaphragm
[0052] 4 Sound hole [0053] 5 Vent for air leakage test [0054] 6, 8,
10 Double face tapes [0055] 7 Frame [0056] 9 Waterproof film [0057]
11 Sound opening [0058] 12, 13 Opening for air ventilation [0059]
14 Outer casing [0060] 15 Attached portion [0061] 16 Rubber cover
[0062] 17 O-ring [0063] 18 Supplying sheet (separating liner)
[0064] 19 Sealer [0065] 20 Gasket [0066] 21 Cylinder
BEST MODE FOR CARRYING OUT THE INVENTION
[0067] The following will describe in detail, with reference to the
drawings, the electro-acoustic converters, electronic devices,
waterproof covers, and air leakage test methods for
electro-acoustic converters according to the modes for carrying out
this invention.
[0068] Formation of Electro-Acoustic Converters
[0069] FIG. 1 shows a cross-section of a speaker (i.e., a sound
wave generator which generates an alarm sound such as ring alert)
for mobile phones, which is an example of the electro-acoustic
converter. In FIG. 1, diaphragm 3 supported by supporting members 2
is provided in casing 1 of the speaker. On the upper face of the
casing 1, there are formed sound hole 4 for releasing a sound
generated from the diaphragm 3 and vent 5 for air leakage test for
allowing a gas in the casing 1 to flow toward the outside thereof
at the time of air leakage test as described below.
[0070] The shape of the sound hole 4 is not particularly limited,
but in the mode for carrying out this invention, the sound hole 4
has a circular shape, of which diameter is 16 mm. The shape of the
vent 5 for air leakage test is also not particularly limited, but
in the mode for carrying out this invention, the vent 5 for air
leakage test also has a circular shape, of which diameter is 1
mm.
[0071] On the casing 1, there is formed a waterproof cover composed
of a frame 7 and a waterproof film 9 supported by the frame 7, so
that the entering of water or dusts into the inside of the casing 1
can be prevented. For the frame 7, PORON.RTM. ("SR-S-48P" available
from Rogers Inoac Corporation) is used.
[0072] The sound opening 11 formed on the frame 7 is in
communication with the sound hole 4 in the casing 1. The sound
opening 11 is for releasing a sound, which has been generated from
the diaphragm 3, to the outside of the speaker.
[0073] As the waterproof film 9, any one can appropriately be used
as long as it has waterproof property and small rate of intensity
attenuation for sound waves. The porous polytetrafluoroethylene
(ePTFE sheet; "GAW315" available from Japan Gore-Tex Inc.) used in
the mode for carrying out this invention has excellent waterproof
property, porous structure, small mass, and excellent gas
permeability, and therefore, has small rate of intensity
attenuation for sound waves passing through the waterproof film 9
and is suitable for use in the electro-n acoustic converter. The
rate of intensity attenuation for sound waves highly depends on the
mass per unit area of the waterproof film 9, and therefore, the
waterproof film 9 does not necessarily have gas permeability. If
the waterproof film has too high gas permeability, it becomes
difficult to carry out damage check for the waterproof film by air
leakage test. For this reason, the waterproof may preferably have
Gurley air resistance of one second or higher, more preferably 3
seconds or higher. When the waterproof film has higher Gurley air
resistance, finer defects can be detected thereon. The Gurley air
resistance is expressed by measured values according to JIS P 8117
(1998).
[0074] The frame 7 and the waterproof film 9 are fixed to each
other with double face tapes 6, 8, and 10 (double face adhesive
tape "ST-416P" available from Sumitomo 3M Limited).
[0075] The waterproof film 9 and the frame 7 are prepared in such a
condition that release papers (supplying sheet 18 as described
below) are attached to both sides of double face tapes 6 and 10,
and the casing 1 can be connected thereto in such a condition that
a release paper on the side for attaching to the casing 1 is
removed, i.e., another release paper remains on the other side,
thereby causing no generation of wrinkles. In addition, the
waterproof film 9 and the casing 1 in such a condition that they
are connected with each other can be attached to an electronic
device to be finally attached, thereby causing no generation of
wrinkles.
[0076] Usually, in order to prevent foreign matters such as dusts
from entering into the casing 1, a protective mesh is provided to
cover the sound hole 4 of the casing 1. With the requirement of
making electronic devices, such as mobile phones, and acoustic
converters into a thin shape, there may also be a case where
acoustic converters having no protective mesh are produced.
However, in such a case, until an acoustic converter is finally
attached to an electronic device, there is concern that foreign
matters may enter into a portion around the diaphragm 3 in the
casing 1 of the acoustic converter. In this connection, in the
electro-acoustic converter according to the mode for carrying out
this invention, the waterproof film 9 has preliminarily been
attached to the casing 1, and therefore, the entering of foreign
matters into the casing 1 can be prevented until the final step.
Thus, the protective mesh may be omitted, which is effective for
making electronic devices into a thin shape.
[0077] Air Leakage Test
[0078] The following will describe air leakage test which is
carried out for examining the waterproof property of the speaker
formed as described above.
[0079] The air leakage test is carried out by measuring the
difficulty of air passing when the air is allowed to flow from the
outside of the casing 1 through the waterproof film 9 into the
inside of the casing 1. The degree of difficulty in the passing of
air can be expressed on the basis of, for example, Gurley air
resistance (JIS P 8117:1998). Usually, the Gurley air resistance is
determined by measuring the time taken to complete the passing of a
given volume of air though a test piece having a given area when
the air is allowed to flow into the test piece under a prescribed
pressure. In this invention, as shown in FIG. 14, the speaker
having a waterproof cover attached thereto is put on a separating
liner (referred to sometime as a "supplying sheet") being made of a
PET film as a base material and having an opening at the center
thereof, and the speaker is placed, together with the separating
liner 18, at the sample placing portion (cylinder 21) of a tester.
The time taken to complete the passing of a given volume of air
through the electro-acoustic converter is defined as the Gurley air
resistance of the electro-acoustic converter. The conditions of
measurement shall be determined according to JIS P 8117(1998). When
the Gurley air resistance is smaller than a prescribed value, it
means larger gas leakage, making a judgment that the waterproof
film 9 has defects such as breaks. Incidentally, the air leakage
test can also be carried out by allowing a gas to flow from the
vent 5 for air leakage test into the inside of the casing 1.
[0080] The Gurley air resistance as defined in JIS is normally
directed to papers or paper boards as the material to be tested. In
the present specification, the Gurley air resistance is defined
without depending on the shape of the material to be tested and,
for example, as shown in FIG. 14, the air resistance measured for
the speaker (electro-acoustic converter) having the waterproof film
9 attached thereto is regarded as "the Gurley air resistance of the
electro-acoustic converter."
[0081] It is sufficient if the vent 5 for air leakage test has an
opening area wide enough to allow a release of the air flown into
the casing 1 of the speaker and to lower the pressure in the casing
1 down to a level near atmospheric pressure at the time of air
leakage test. When the waterproof film 9 itself has high air
resistance, the vent 5 for air leakage test may have a small
opening area.
[0082] When the Gurley air resistance of the waterproof cover is
expressed by Tm and the Gurley air resistance of the speaker casing
(having no waterproof cover attached thereto) is expressed by Td,
it is preferred to be Tm z Td. If Td becomes larger than Tm (i.e.,
the air permeability of the speaker casing becomes lower than the
air permeability of the waterproof cover), it may sometimes become
difficult to measure the air resistance of the waterproof cover
because of an influence of pressure loss in the speaker casing.
[0083] The Gurley air resistance Tm of the waterproof cover and the
Gurley air resistance Td of the speaker casing are measured in the
same manner as in the above method of air leakage test. That is,
the waterproof cover or the speaker casing is fixed, in place of
the electro-acoustic converter in the air leakage test, on the
supplying sheet with a double face adhesive tape to measure the
Gurley air resistance thereof.
[0084] After completion of the air leakage test, as shown in FIG.
2, the vent 5 for air leakage test may desirably be closed with
sealer 19 (e.g., a screw, a rubber stopper). This is in order to
prevent the acoustic characteristics of the speaker from being
lowered and to prevent water from entering through the vent 5 for
air leakage test. In addition, in place of a screw or the like, an
adhesive tape or the like can also be attached to the casing 1 from
the outside thereof.
[0085] Modified Examples of Vent for Air Leakage Test
[0086] FIGS. 3 and 4 show cross-sections of speakers for mobile
phones, which are other examples of the electro-acoustic converter.
The members of the speaker shown in FIGS. 3 and 4 are basically the
same as those of the speaker shown in FIG. 1. Thus, the same
numerals are attached to the common members, of which explanations
are omitted herein.
[0087] In the speaker shown in FIG. 1, the vent 5 for air leakage
test is formed on the side face of the casing 1. In FIGS. 3 and 4,
the vent 5 for air leakage test is formed on the upper face of the
casing 1, like the sound hole 4. This is because the following
reason: when air leakage test is carried out, it is necessary to
fix the casing 1 at the bottom face or side face thereof with a
fixing jig or the like (not shown), and therefore, at the bottom
face or side face of the casing 1, the space for exhaust
ventilation may be limited.
[0088] As a matter of course, when the vent 5 for air leakage test
is provided on the upper face of the casing 1 and covered with the
frame 7 (See FIG. 3) and when the vent 5 for air leakage test is
covered with the waterproof film 9 (See FIG. 4), it is necessary to
provide opening for air ventilations 12 and 13 on the frame 7 and
the waterproof film 9 so as to be in communication with the vent 5
for air leakage test in order to release air from the inside of the
casing 1 to the outside of the casing 1.
[0089] As in the speaker shown in FIG. 3, when the vent 5 for air
leakage test is not covered with the waterproof film 9, even if a
gasket forming an air flow outlet of a Gurley tester (not shown) to
be used in the air leakage test overlaps with the vent 5 for air
leakage test, the gasket and the opening for air ventilation 12 of
the frame 7 are separated from each other at least at a distance
corresponding to the total thickness of the waterproof film 9 and
the double face tape 10, thereby ensuring an air release
passage.
[0090] On the other hand, as it is described below using a drawing,
in the speaker structure shown in FIG. 4, the upper face of the
waterproof cover has uniform height, and therefore, when the outer
casing of an electronic device is attached to the upper face side
of the waterproof cover, the speaker is brought into contact with
the outer casing to seal the vent 5 for air leakage test.
[0091] In addition, as shown in FIG. 5, the vent 5 for air leakage
test does not necessarily have to be provided in the casing 1 but
may take such a condition that the inner space of the casing 1 can
be in communication with the outside. In this case, the frame 7 may
desirably have high strength.
[0092] In the mode for carrying out this invention, the description
was made with reference to a speaker (a sound wave generator which
generates an alarm sound such as ring alert) for mobile phones, as
the electro-acoustic converter; however, the same description holds
true even for receivers (sound wave generators which generate
talking voices of other persons) for mobile phones or speakers for
digital cameras required to have waterproof property.
[0093] In addition, even not only for electro-acoustic converters
which generate sound waves but also for sound wave receivers such
as microphones for mobile phones, the structure is the same as the
above speaker in that electric signals and vibrations of diaphragms
are converted with each other, and the electro-acoustic converter
of this invention can be provided.
[0094] Attachment to Outer Casing of Electric Device
[0095] (First Example of Attachment)
[0096] FIG. 6 shows a situation that the speaker shown in FIG. 4 is
attached to the outer casing 14 of a mobile phone. As shown in FIG.
6, the outer casing 14 is provided with a contact portion 15 having
a flat face. The speaker is attached so that the opening for air
ventilation 13 of the waterproof film 9 is pressed against the
contact portion 15. Thus, the sealing of the vent 5 for air leakage
test is completed at the same time as the attachment.
[0097] The other parts, which are necessary for the formation of a
mobile phone, are assembled by any of the ordinary methods to
complete the mobile phone.
[0098] (Second Example of Attachment)
[0099] FIGS. 7 to 9 are process cross-sectional views showing the
steps from the air leakage test to the attachment to the outer
casing. First, as shown in FIG. 7, the air leakage test of the
speaker having the vent 5 which is formed on the side face of the
casing 1 is carried out.
[0100] Then, as shown in FIG. 8, the periphery of the speaker is
covered with rubber cover 16 as an elastic material. The vent 5 for
air leakage test is sealed with the rubber cover 16.
[0101] Finally, as shown in FIG. 9, the speaker having the rubber
cover 16 attached thereto is fitted into the concave portion of the
outer casing 14. The rubber cover 16 can seal the vent 5 for air
leakage test as described above and at the same time can allow the
speaker to be firmly fitted into the concave portion of the outer
casing 14.
[0102] The rubber cover 16 is effective for allowing the speaker to
be fitted into the concave portion of the outer casing 14, as long
as an elastic material is formed at a position where the vent for
ventilation can be sealed on part of the periphery of the speaker,
even if the rubber cover 16 is not formed over the entire face of
the periphery of the speaker.
[0103] (Third Example of Attachment)
[0104] As shown in FIG. 10, the elastic material formed on the
periphery of the speaker, even if it is O-ring 17, can allow the
speaker to be firmly fitted into the concave portion of the outer
casing 14.
[0105] Waterproof Cover
[0106] FIG. 11(a) is a schematic cross-sectional view of the
waterproof cover which makes possible the production of the
electro-acoustic converter according to the mode for carrying out
this invention. As shown in FIG. 11(a), the waterproof cover
according to the mode for carrying out this invention is a
waterproof cover comprising frame 7 and waterproof film 9 which
covers a sound opening in this frame, wherein a vent for air
leakage test is formed on the frame. PORON.RTM. as described above
was used for the frame 7. The porous polytetrafluoroethylene as
described above was used for the waterproof film 9.
[0107] The frame 7 and the waterproof film 9 are fixed to each
other with double face tape 8 (double face adhesive tape "ST-416P"
available from Sumitomo 3M Limited).
[0108] FIGS. 11(b) to 11(d) show examples of plan views in which
the waterproof cover shown in FIG. 11(a) is viewed from the side of
the waterproof film 9. The dotted line shows the position of the
periphery of the sound opening 11 in the frame 7. As shown in FIGS.
11(b) to 11(d), the frame 7 and the waterproof film 9 are provided
with a wide portion for forming opening for air ventilations 12 and
13. The wide portion may be formed, as shown in FIG. 11(b), by
attaching the frame 7 and the waterproof film 9 to each other while
the center of the sound opening 11 on the frame 7 is deviated from
the center of the waterproof film 9. Alternatively, as shown in
FIG. 11(c), the waterproof film 9 may be formed in the shape of an
ellipse and the wide portion may be formed at the edge in the long
axis direction of this ellipse. Alternatively, as shown in FIG.
11(d), projecting edges may be formed on the waterproof film 9, the
frame 7, the double face tapes 6, 8, and 10, specifically at the
respective positions where the opening for air ventilations 12 and
13 are to be formed.
[0109] FIG. 12(a) is a cross-sectional view of the waterproof cover
which makes possible the production of the electro-acoustic
converter according to the mode for carrying out this invention.
FIG. 12(a) shows an example in which two sound openings 11 are
formed on the frame 7. As the two sound openings 11, there can be
mentioned, for example, the sound opening 11 corresponding to the
sound hole 4 (not shown in FIG. 12) of the above speaker and the
sound opening 11 corresponding to the sound hole 4 (not shown) of
the receiver.
[0110] FIG. 12(b) shows a plan view in which the waterproof cover
shown in FIG. 12(a) is viewed form the side of the waterproof film
9. As shown in FIGS. 12(a) and 12(b), even in the case where two or
more sound openings 11 are present, in case these sound openings 11
are covered with one waterproof film 9, the step of producing the
waterproof cover or the step of producing the electro-acoustic
converter can be simplified.
[0111] FIG. 12(c) shows an example in which the sound opening 11
corresponding to the sound hole 4 (not shown) of the speaker and
the sound opening 11 corresponding to the sound hole 4 (not shown)
of the receiver are combined into one sound opening 11. The
waterproof film 9 is one piece of film in the same manner as in the
example shown in FIG. 12(b). In this case, the sound opening 12 on
the frame 7 and the opening for air ventilation 13 on the
waterproof film 9 are provided in the corner of the frame 7 or in
the corner of the waterproof film 9.
[0112] Example of Speaker Supply
[0113] FIG. 13 is a view showing an example of speaker supply when
air leakage test is carried out for the speaker according to the
mode for carrying out this invention. As shown in FIG. 13, two or
more speakers each having a waterproof cover attached thereto are
prepared on supplying sheet 18. This makes it possible to carry out
air leakage test collectively in such a condition without removing
the speakers from the supplying sheet 18. In addition, this can
provide excellent handling property and can make the step of
finally assembling electronic devices simplified.
[0114] In addition, when the speaker is attached to the outer
casing 14 of an electronic device, it also makes possible the
automatic packaging of the speaker in the electronic device by
picking up the speaker from the supplying sheet 18 under the
condition shown in FIG. 13. When only the waterproof film 9 is
attached to an electronic device, it is necessary to attach the
waterproof film 9 to the electronic device by hand working,
resulting in a cause of the generation of wrinkles. Incidentally,
as the procedures for placing a speaker in the outer casing 14 of
an electronic device, there are a method in which the speaker is
connected to a circuit board of the electronic device, followed by
putting the outer casing 14 thereon, and a method in which the
speaker is attached to the outer casing 14, followed by connecting
the speaker to a circuit board of the electronic device.
INDUSTRIAL APPLICABILITY
[0115] This invention can be applied to electro-acoustic converters
(such as microphones and speakers) of electronic devices which are
required to have high water-proof property, such as mobile phones
and digital cameras.
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