JP3601900B2 - Transmitter for mobile phone radio - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a transmitter for a mobile phone radio, and more particularly to a structure for fixing a microphone built in the transmitter for a mobile phone radio.
[0002]
[Prior art]
FIG. 1 shows the appearance of a general portable telephone radio. As shown in FIG. 1, a receiving section B is provided above the main body of the mobile phone radio, and the receiving section B is provided with a plurality of holes. In addition, a display unit C for displaying a telephone number of a call destination and the like is provided below the receiving unit B. An operation section D is formed below the display section C. Further, a transmitting section A is rotatably supported at the lower end of the portable telephone radio body. Therefore, when using the mobile phone wireless device, the transmitting unit A folded so as to cover the operation unit D is opened by rotating, and the voice is transmitted through the transmitting unit A. On the other hand, when not in use, the transmitting section A is rotated and folded. The transmitting section A includes a flip housing 1 and a cover flip housing 2 that covers the flip housing 1. The transmitting section A has a built-in differential microphone. Further, the flip housing 1 and the cover flip housing 2 are provided with holes at positions corresponding to the front and rear of the differential microphone. Therefore, the sound is transmitted to the differential microphone from the front and rear holes. Here, the differential microphone is a general term for a directional microphone, a close-talking microphone, and the like, and refers to a microphone that collects sounds before and after, cancels the sound coming from the lateral direction by taking the difference between them.
[0003]
Next, with reference to FIG. 8, a description will be given of a fixing structure of a differential microphone in a transmission section in a conventional portable telephone radio. FIG. 8 is a cross-sectional view of the conventional mobile phone radio as viewed along the line aa 'in FIG.
[0004]
A cylindrical rib 12c for inserting the differential microphone 3 is provided on the back surface of the cover flip housing 2c. The differential microphone 3 is inserted into the microphone holder 4g after being soldered to the cable 5a. The microphone holder 4g is pressed into the rib 12c so as to fix the differential microphone 3 in the rib 12c. The microphone holder 4g is made of, for example, a rubber material. Accordingly, the microphone holder 4g provides insulation between the front and back surfaces of the differential microphone 3, and ensures the airtightness of the front air chamber.
[0005]
Next, the cover flip housing 2c and the flip housing 1a are combined. At this time, an adhesive 9 is applied to the contact portion between the microphone holder 4g and the flip housing 1a, particularly the gap between the cable 5a and the microphone holder 4g and the flip housing 1a. Thereby, the airtightness of the rear air chamber of the differential microphone 3 is ensured.
[0006]
Here, the front air chamber refers to a space in the transmitting section A which reaches the front of the microphone through a hole provided in the cover flip housing 2c, and the rear air chamber is provided in the flip housing 1a. Means the space in the transmitting section A which reaches the rear surface of the microphone through the hole. The air chamber is a space for transmitting sound to the differential microphone via air.
[0007]
[Problems to be solved by the invention]
However, as shown in FIG. 8, the conventional transmitting part for a portable telephone wireless device uses an adhesive 9 to bond the cable 5a, the microphone holder 4g and the microphone holder 4g in order to secure the close contact between the flip housing 1a and the microphone holder 4g. Since the adhesive is applied between the flip housing 1a to fill the gap, there is a high possibility that the amount of the adhesive 9 to be applied and the place where the adhesive 9 is applied will vary, and therefore the airtightness of the rear air chamber of the differential microphone 3 will be high. May be insufficient. If the airtightness of the rear air chamber becomes insufficient, the vibrations of the flip housing 1a and the cover flip housing 2c resonate in the transmitting section A (that is, the flip) and may be collected by the differential microphone 3 as noise. In addition, since the sound from the receiving unit B wraps around the transmitting unit A and becomes an echo and is collected by the differential microphone 3, there is a problem that the sensitivity of the differential microphone 3 is deteriorated.
[0008]
The present invention has been made in view of the above-mentioned conventional problems, and has as its object to improve the workability during assembly, ensure the confidentiality of the rear air chamber, and prevent a variation in products from having high sensitivity. An object of the present invention is to provide a transmitter for a wireless device.
[0009]
[Means for Solving the Problems]
MEANS TO SOLVE THE PROBLEM In order to solve the above subject, the transmission part for portable telephone radio | wireless which concerns on this invention has the following characteristics.
[0010]
(1) In a mobile phone wireless device in which a microphone is built in a transmitting unit, the transmitting unit includes a flip housing and a cover flip housing that covers the flip housing, and a back surface of the cover flip housing. A microphone housing for inserting the microphone is provided, and a microphone holder for holding the microphone in the microphone housing is further provided.,PreviousThe cable that is electrically connected to the microphoneInsert moldingIt is provided between the flip housing and the cover flip housing so as to further isolate the other internal space of the transmitting section from the air chamber of the microphone.The upper and lower surfaces are formed in a shape that is in close contact with the flip housing and the cover flip housing except for the part that becomes the air chamber.I have.
[0011]
Accordingly, since the cable is stored in the microphone holder, it is not necessary to fill the gap between the cable, the microphone holder and the flip housing with an adhesive at the time of assembling as in the conventional case, and the airtightness of the rear air chamber is not required. Variation can be prevented. In addition, the microphone holder is provided between the flip housing and the cover flip housing, and is formed so as to isolate the other internal space of the transmitting unit from the air chamber of the microphone. The airtightness of the air chambers before and after the microphone can be easily ensured only by holding the airbag in the unit. As a result, the vibration of the flip casing or the cover flip casing resonates in the transmitting section (ie, flip) and is collected by the microphone as noise, and the sound from the receiving section wraps around the transmitting section and echoes. There is no possibility of being picked up by the microphone.
[0012]
(2) In the transmitting section for a portable telephone wireless device according to (1), the microphone holder further holds the microphone in the microphone storage section in cooperation with the microphone storage section. The cables that are electrically connectedInsert moldingThe microphone is further provided between the flip housing and the cover flip housing so as to isolate another internal space of the transmitting section from the air chamber of the microphone.
[0013]
Therefore, the airtightness of the air chambers before and after the microphone can be easily ensured only by holding the microphone in the microphone storage in cooperation with the microphone storage.
[0014]
(3) In the transmitting section for a cellular phone wireless device according to (1), the microphone holder may further include a cable that is press-fitted into the microphone storage section and electrically connected to the microphone.Insert moldingThe microphone is further provided between the flip housing and the cover flip housing so as to isolate another internal space of the transmitting section from the air chamber of the microphone.
[0015]
Therefore, the airtightness of the air chambers before and after the microphone can be easily ensured only by press-fitting the microphone holder into the microphone housing portion.
[0016]
(4) In the transmitting section for a portable telephone wireless device according to (1), the flip housing further includes a microphone storage section for press-fitting and fixing the microphone holder.
[0017]
That is, since the microphone housing is provided in each of the flip housing and the cover flip housing for press-fitting the microphone holder, the microphone holder can be tightly fixed to the flip housing and the cover flip housing. For this reason, similarly to the above, the vibration of the flip housing or the cover flip housing resonates in the flip and is collected as noise by the microphone, and the sound from the receiving unit wraps around the transmitting unit and becomes an echo, and Good sensitivity can be obtained without the possibility of sound being collected.
[0018]
(5)In a mobile phone wireless device having a built-in microphone in a transmitter, the transmitter includes a flip housing and a cover flip housing that covers the flip housing, and a back surface of the cover flip housing includes: A microphone housing for inserting the microphone is provided, and a microphone holder for holding the microphone in the microphone housing is further provided. The microphone holder houses a cable electrically connected to the microphone. It is provided between the flip housing and the cover flip housing so as to further isolate the other internal space of the transmitting section from the air chamber of the microphone,The microphone is mounted on a vibration member fixed to the cover flip housing.
[0019]
Therefore, since the microphone is attached to the vibration member, sound can be transmitted to the microphone via the vibration member. For this reason, the front air chamber of the microphone becomes unnecessary, and the thickness of the flip can be reduced. As a result, the thickness of the mobile phone wireless device itself can be reduced.
[0020]
(6) In the transmitting section for a portable telephone radio described in (5) above, communication with a microphone is performed.HoleIs provided.
[0021]
For example, when a differential microphone is used, sound is collected due to the difference in air vibration between the front and back of the microphone. Therefore, by providing a communicating portion to the vibration member on the front of the microphone, the balance of the sound pressure difference between the front and back of the microphone is improved. . Therefore, the sensitivity of the microphone for collecting sound is improved.
[0022]
(7) In the mobile phone radio having a built-in microphone in the transmitting section, the transmitting section includes a flip casing and a cover flip casing that covers the flip casing, and a back surface of the cover flip casing. A microphone storage part for inserting the microphone is provided, and a microphone holder for holding the microphone in the microphone storage part is further provided.The microphone holder has a hole for accommodating a cable electrically connected to the microphone, and upper and lower surfaces that are in close contact with the flip housing and the cover flip housing except for a portion serving as an air chamber. Press-fitting the microphone into the microphone holder, electrically connecting the microphone and the cable passed through the hole, and filling the gap between the hole and the cable with an adhesive; The holder is press-fitted into the microphone housing, and is disposed between the flip housing and the cover flip housing such that the other internal space of the transmitting unit and the air chamber of the microphone are isolated.
[0023]
Therefore, the microphone holder is provided with a cable storage portion for storing a cable, and the microphone holder is disposed between the flip housing and the cover flip housing. By closing the space between the microphones with an adhesive, the other internal space of the transmitting section and the air chamber of the microphone can be isolated. In particular, since the place where the adhesive is applied is specified and the gap to be closed is limited, it is possible to prevent variations in the airtightness of the rear air chamber. Thereby, good sensitivity can be obtained as described above.
[0024]
(8) In the transmitting section for a cellular phone radio described in (7), the flip housing further includes a microphone housing for press-fitting and fixing the microphone holder.
[0025]
That is, since the microphone housing is provided in each of the flip housing and the cover flip housing for press-fitting the microphone holder, the microphone holder can be securely fixed by the flip housing and the cover flip housing. . Therefore, good sensitivity can be obtained as described above.
[0026]
(9) In the mobile phone wireless device having a microphone built in a transmitting unit, the transmitting unit includes a flip housing and a cover flip housing that covers the flip housing, and a back surface of the cover flip housing. A microphone holder for inserting the microphone is provided, the microphone holder is press-fitted into the microphone housing, fixes the microphone in the microphone housing, and is in close contact with the cover flip housing; and A cable that is electrically connected, and a self-sealing rubber that is fixedly adhered to the microphone holder and the cable after the cable is laid over the microphone holder, wherein the self-sealing rubber includes the flip. In close contact with the housing, the other internal space of the transmitting section is isolated from the air chamber of the microphone.
[0027]
Therefore, the microphone holder is pressed into the microphone housing to make the front air chamber of the microphone airtight, and after the cable is laid over the microphone holder, the self-sealing rubber is tightly fixed to the microphone holder and the cable. Since the other surface of the fusion rubber is in close contact with the flip housing, the rear air chamber of the microphone is also airtight. This makes it possible to easily isolate the other internal space of the transmitting section from the air chamber of the microphone, and obtain good sensitivity as described above.
[0030]
(10) From (1) above (9), The microphone is a differential microphone.
[0031]
According to the above-described configurations (1) to (10), the other internal space of the transmitting unit and the air chamber of the microphone are isolated, but by further using the differential microphone, the microphone can be viewed from both sides of the transmitting unit. To collect sound, cancel the noise from the horizontal direction by taking the difference between them, and at the same time, adjust the sound by canceling distant sound, such as canceling distant sound by collecting near sound by spherical wave and plane wave. So that the voice becomes clearer.
[0032]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a preferred embodiment of the present invention will be described.
[0033]
First embodiment.
1 and 2, a description will be given of a transmitter unit for a mobile phone wireless device according to the first embodiment. Note that the same components as those of the above-described conventional mobile phone radio and the like are denoted by the same reference numerals, and description thereof will be omitted.
[0034]
FIG. 2 is a cross-sectional view of the mobile phone wireless device according to the present embodiment taken along the line aa ′ in FIG.
[0035]
As shown in FIG. 2, the flip housing 1a and the cover flip housing 2a are provided with holes 21a and holes 22a at positions facing the differential microphone 3, respectively. Further, a microphone housing for inserting the differential microphone 3 is provided on the back surface of the cover flip housing 2a. In the present embodiment, the microphone housing portion is a cylindrical rib 12a. Further, the microphone holder 4a houses (eg, insert-molds) a cable 5a that is electrically connected to the differential microphone 3, for example, by soldering. The microphone holder 4a is formed in a shape that is in close contact with the flip housing 1a and the cover flip housing 2a, except for the portions where the upper and lower surfaces become the front air chamber 14 and the rear air chamber 16. Therefore, the microphone holder 4a cooperates with the rib 12a to hold the differential microphone 3 on the rib 12a, and further includes the other internal space of the transmitting section A and the front air chamber 14 and the rear air chamber 16 of the differential microphone 3. And are isolated. Further, since the microphone holder 4a is made of, for example, a rubber material, the adhesiveness between the flip housing 1a and the cover flip housing 2a is increased. Furthermore, the rigidity between the flip housing 1a and the cover flip housing 2a is increased by increasing the surface area in contact with the flip housing 1a and the cover flip housing 2a as compared with the conventional microphone holder.
[0036]
Therefore, the airtightness of the front and rear air chambers of the microphone is ensured, and the rigidity of the flip housing 1a and the cover flip housing 2a is further increased, so that the vibration of the flip housing 1a and the cover flip housing 2a causes the transmission section A to vibrate. (That is, flip), there is no possibility that the sound will be collected by the microphone as noise due to resonance in the microphone, nor will there be a possibility that the sound from the receiving unit will wrap around to the transmitting unit and be echoed as an echo.
[0037]
Next, assembling of the transmitter for the portable telephone wireless device of the present embodiment will be described with reference to FIG.
[0038]
The differential microphone 3 is inserted into the microphone holder 4a into which the cable 5a is integrally formed. Next, the cable 5 a is soldered to the differential microphone 3. Thereafter, the microphone holder 4a is pressed into the rib 12a of the cover flip housing 2a. As a result, the lower surface of the microphone holder 4a is in close contact with the rear surface of the cover flip housing 2a to ensure airtightness of the front air chamber 14, and the microphone holder 4a insulates the front and rear surfaces of the differential microphone 3 from each other. Sex can be taken. Next, the flip housing 1 is engaged with the cover flip housing 2a. Thereby, the upper surface of the microphone holder 4a is in close contact with the flip housing 1, and the airtightness of the rear air chamber 16 is ensured. Further, since the cable 5a is also integrally formed with the microphone holder 4a, the hermeticity between the cable and the microphone holder is insufficient as in the related art, and there is no possibility that the rear air chamber 16 will leak. In the present embodiment, the upper and lower surfaces of the microphone holder 4a are in close contact with the flip housing 1a and the cover flip housing 2a. However, the present invention is not limited to this, and another contact member may be provided on one of the upper and lower surfaces. It may be inserted. Further, in the present embodiment, the differential microphone 3 is used. However, the present invention is not limited to this, and any microphone that is used for a transmitter for a mobile phone wireless device may be used.
[0039]
Second embodiment.
With reference to FIGS. 1 and 3, a description will be given of a transmitter for a mobile phone wireless device according to a second embodiment. Note that the same components as those of the above-described conventional mobile phone radio and the like and the configuration of the first embodiment are denoted by the same reference numerals and description thereof is omitted.
[0040]
FIG. 3 is a cross-sectional view of the mobile phone wireless device of the present embodiment as viewed along the line aa 'in FIG.
[0041]
As shown in FIG. 3, the transmitter for a mobile phone wireless device of the present embodiment has a microphone holder 4a press-fitted and fixed to the back surface of the flip housing 1b in addition to the configuration of the transmitter of the first embodiment. Another microphone storage section is provided. In the present embodiment, the other microphone housing is the cylindrical rib 11b. In the present embodiment, the rib 11b is located at a position facing the rib 12a, and is formed larger than the outer diameter of the rib 12a.
[0042]
Therefore, as shown in FIG. 3, in the transmitting section of the present embodiment, the rib 11b and the rib 12a for press-fitting the microphone holder 4b are provided on the back surfaces of the flip housing 1b and the cover flip housing 2a, respectively. Therefore, the microphone holder 4b is press-fitted into the ribs 11b and the ribs 12a located above and below, and is more closely fixed to the flip housing 1b and the cover flip housing 2a as compared with the first embodiment. Thereby, the airtightness of the rear air chamber 16 becomes more reliable than in the first embodiment.
[0043]
Therefore, similarly to the above, the vibration of the flip housing 1b and the cover flip housing 2a resonates in the flip and is collected as noise by the differential microphone 3, and the sound from the receiving unit B is transmitted to the transmitting unit A. There is no possibility that the sound will be collected by the differential microphone 3 as a wraparound echo, and a good sensitivity can be obtained.
[0044]
Third embodiment.
With reference to FIGS. 1 and 4, a description will be given of a transmitter for a mobile phone wireless device according to a third embodiment. Note that the same components as those of the above-described conventional mobile phone radio and the like and the configuration of the first embodiment are denoted by the same reference numerals and description thereof is omitted.
[0045]
FIG. 4 is a cross-sectional view of the mobile phone wireless device of the present embodiment as viewed along the line aa ′ in FIG.
[0046]
As shown in FIG. 4, the transmitting section for the mobile phone wireless device according to the present embodiment has a microphone housing for inserting the differential microphone 3, ie, a cylindrical rib 12a, on the back surface of the cover flip housing 2a. On the other hand, another microphone housing for press-fitting and fixing the microphone holder 4c, that is, a cylindrical rib 11c is also provided on the back surface of the flip housing 1c. The rib 11c faces the rib 12a and is formed to have a size substantially equal to the outer diameter of the rib 12a. The microphone holder 4c is provided with a storage portion for storing the cable 5a electrically connected to the differential microphone 3, that is, a hole for penetrating the cable 5a, and is further press-fitted into the ribs 12a and 11c. The lower surface is formed in such a shape as to be in close contact with the flip housing 1c and the cover flip housing 2a, except for the portions that become the front air chamber 14 and the rear air chamber 16. Since the microphone holder 4c is also made of, for example, a rubber material, the adhesiveness between the flip housing 1a and the cover flip housing 2a is increased.
[0047]
Next, assembling of the transmitting section for a portable telephone wireless device of the present embodiment will be described with reference to FIG.
[0048]
First, the differential microphone 3 is inserted into the microphone holder 4c, and then the cable 5a is passed through the hole of the microphone holder 4c. After that, the cable 5 a is soldered to the differential microphone 3, and the space between the hole and the cable 5 a is closed with the adhesive 9. Further, the microphone holder 4c is press-fitted into the rib 12a of the cover flip housing 2a, and then the flip housing 1c is engaged with the cover flip housing 2a so that the microphone holder 4c is press-fitted into the rib 11c.
[0049]
Thus, the front and back surfaces of the differential microphone 3 can be insulated. Further, by closing the space between the hole and the cable 5a with the adhesive 9 after the cable 5a has penetrated, the air chamber, particularly the rear air chamber 16, can be isolated from the other internal space of the transmitting section A. . Further, since the place where the adhesive 9 is applied is specified and the gap to be closed is limited, it is possible to prevent the airtightness of the rear air chamber 16 from varying. Further, since the gap can be closed by a small amount of the adhesive 9, the material cost can be reduced. Also, good sensitivity can be obtained as described above.
[0050]
Fourth embodiment.
A transmission unit for a portable telephone radio set according to a fourth embodiment will be described with reference to FIGS. Note that the same components as those of the above-described conventional mobile phone radio and the like and the configuration of the first embodiment are denoted by the same reference numerals and description thereof is omitted.
[0051]
FIG. 5 is a cross-sectional view of the mobile phone wireless device according to the present embodiment as viewed along the line aa 'in FIG.
[0052]
As shown in FIG. 5, the transmitting section for a mobile phone wireless device according to the present embodiment includes a microphone housing for inserting the differential microphone 3, that is, a cylindrical rib 12 a on the back surface of the cover flip housing 2 a. Is provided. The microphone holder 4d is press-fitted into the rib 12a, fixes the differential microphone 3 in the rib 12a, and is in close contact with the cover flip housing 2a except for the part that becomes the front air chamber 14. Thereby, the front and rear surfaces of the differential microphone 3 are insulated, and the airtightness of the front air chamber 14 is ensured. The microphone holder 4d is made of, for example, a rubber material and has a larger area in contact with the cover flip housing 2a than the conventional microphone holder, so that the adhesion to the cover flip housing 2a is increased.
[0053]
A feature of the present embodiment is that the microphone holder 4d is formed to be slightly thinner than the thickness of the transmitting section A, and is made of a material which is easily fused to a self-sealing rubber 6 described later. The material is made of a material that easily fuses with the self-bonding rubber 6, for example, natural rubber. Accordingly, after the cable 5b is electrically connected to the differential microphone 3, the cable 5b is laid over the microphone holder 4d, and then the self-bonding rubber 6 is fused to the microphone holder 4d and the cable 5b. Thereby, these can be integrated. The self-bonding rubber 6 is preferably, for example, a natural rubber or the like which is activated when it is extended and solidifies in its shape when attached to an object in an extended state.
[0054]
Next, assembling of the transmitting section for the portable telephone wireless device of the present embodiment will be described with reference to FIG.
[0055]
First, after soldering the cable 5a to the differential microphone 3, the differential microphone 3 is inserted into the microphone holder 4d, and the microphone holder 4d is pressed into the rib 12a. As a result, the front and rear surfaces of the differential microphone 3 are insulated, and the front air chamber 14 is airtight. Next, the cable 5b is laid over the microphone holder 4d, and the self-adhesive rubber 6 is adhered and fused to the microphone holder 4d and the cable 5b except for the portion that becomes the rear air chamber 16. Further, the thickness of the self-fusing rubber 6 is set such that the upper surface of the self-fusing rubber 6 is in close contact with the flip casing 1a when the flip casing 1a is thereafter engaged with the cover flip casing 2a. As a result, the self-fusing rubber 6 comes into close contact with the microphone holder 4d, the cable 5b, and the flip housing 1a, and the rear air chamber 16 becomes airtight. Therefore, the other internal space of the transmitting section A and the air chamber, particularly the rear air chamber 16, can be isolated, and good sensitivity can be obtained as described above.
[0056]
Fifth embodiment.
A transmission unit for a portable telephone wireless device according to a fifth embodiment will be described with reference to FIGS. Note that the same components as those of the above-described conventional mobile phone radio and the like and the configuration of the first embodiment are denoted by the same reference numerals and description thereof is omitted.
[0057]
FIG. 6 is a cross-sectional view of the mobile phone wireless device according to the present embodiment as viewed along the line aa 'in FIG.
[0058]
As shown in FIG. 6, the transmitting section for a portable telephone wireless device according to the present embodiment includes a microphone housing for inserting the differential microphone 3, that is, a cylindrical rib 12 a on the back surface of the cover flip housing 2 a. Is provided. The microphone holder 4e is press-fitted into the rib 12a and is in close contact with the cover flip housing 2a except for the cover flip housing 2a and the portions that become the front air chamber 14 and the rear air chamber 16. Further, the microphone holder 4e is provided with a concave portion into which a cable 5a electrically connected to the differential microphone 3 can be inserted. In addition, the flip housing 1a is provided with an injection port 9 for injecting a hardening liquid 7 that hardens after the injection. The microphone holder 4e is made of, for example, a rubber material from the viewpoint of adhesion.
[0059]
When assembling the transmitter for a mobile phone wireless device of the present embodiment, the differential microphone 3 is inserted into the microphone holder 4e, then the cable 5a is inserted into the concave portion, and the cable 5a is soldered to the differential microphone 3. Thereafter, the microphone holder 4e is pressed into the rib 12a. Thereby, the front and rear surfaces of the differential microphone 3 are insulated, and the front air chamber 14 is airtight. Next, the flip housing 1a is engaged with the cover flip housing 2a. After the transmitting section A is assembled in this way, the hardening liquid 7 is injected into the transmitting section A from the inlet 9 and the flip housing 1a and the cover flip housing around the differential microphone 3 are injected by the hardening liquid 7. Fill the gap between 2a. As a result, the other internal space of the transmitting section A and the rear air chamber 16 can be isolated. Therefore, good sensitivity can be obtained as described above. Further, since the curing liquid 7 is cured inside, the sense of rigidity between the flip housing 1a and the cover flip housing 2a is increased.
[0060]
The hardening liquid 7 in the present embodiment may be any liquid that has fluidity at first and hardens thereafter, and for example, a hardening agent or the like used for forming a last of ski boots or the like is suitable.
[0061]
Sixth embodiment.
A transmission unit for a portable telephone wireless device according to the sixth embodiment will be described with reference to FIGS. Note that the same components as those of the above-described conventional mobile phone radio and the like and the configuration of the first embodiment are denoted by the same reference numerals and description thereof is omitted.
[0062]
FIG. 7 is a cross-sectional view of the mobile phone wireless device according to the present embodiment as viewed along the line aa 'in FIG.
[0063]
As shown in FIG. 7, the transmitter for a mobile phone wireless device according to the present embodiment is similar to the configuration of the first embodiment, and is a microphone for inserting the differential microphone 3 on the back surface of the cover flip housing 2b. A housing portion, that is, a cylindrical rib 12a is provided, and the microphone holder 4f is formed so as to be in close contact with the flip housing 1a and the cover flip housing 2b except for a portion which becomes the rear air chamber 16, and furthermore, a cable is provided. 5a is integrally formed by insertion. The microphone holder 4f is made of a rubber material from the viewpoint of adhesion.
[0064]
The feature of the present embodiment is that the differential microphone 3 is mounted on a vibration member fixed to the cover flip housing 2b. In the present embodiment, the vibration member is a thin (for example, several tens of microns) metal plate 8. In addition, the metal plate 8 is provided with a communication portion that communicates with the microphone for the differential microphone 3 to collect sound. In the present embodiment, the communication portion is the hole 18. Note that the metal plate 8 itself is a thin plate and has a strength equivalent to that of the cover flip housing 2b.
[0065]
Therefore, since the vibration of the voice can be transmitted to the differential microphone 3 via the metal plate 8, the front air chamber of the differential microphone 3 is not required, and the thickness of the transmitting section A can be reduced, and The thickness of the wireless device itself can be reduced. Furthermore, when the differential microphone 3 is used, sound is collected due to the difference in air vibration between the front and back surfaces of the microphone. Therefore, by providing a communicating portion (ie, hole 18) to the vibration member (ie, metal plate 8) on the front surface of the microphone. The sound pressure difference between the front and back of the microphone is well balanced. Therefore, the sensitivity of the microphone for collecting sound is improved.
[0066]
【The invention's effect】
As described above, according to the transmitter for a mobile phone radio according to the present invention, the cable is stored in the microphone holder, so that the gap between the cable, the microphone holder, and the flip housing at the time of assembly as in the related art Does not need to be filled with an adhesive, in particular, it is possible to prevent variations in airtightness of the rear air chamber, and to improve workability. In addition, the microphone holder is provided between the flip housing and the cover flip housing, and is formed so as to isolate the other internal space of the transmitting unit from the air chamber of the microphone. By simply holding the microphone, the airtightness of the air chamber of the microphone can be easily ensured.
[0067]
Further, by providing the microphone housings for holding the microphones in the flip housing and the cover flip housing, the microphone holder can reliably hold the microphones in the microphone housing in cooperation with the microphone housing. . Further, by press-fitting the microphone holder into the microphone housings provided in the flip housing and the cover flip housing, the microphone holder can be reliably arranged between the flip housing and the cover flip housing. . For this reason, similarly to the above, the vibration of the flip housing or the cover flip housing resonates in the flip and is collected as noise by the microphone, and the sound from the receiving unit wraps around the transmitting unit and becomes an echo, and Good sensitivity can be obtained without the possibility of sound being collected.
[0068]
Further, by disposing the vibration member on the front surface of the microphone, sound can be transmitted to the microphone via the vibration member. For this reason, the front air chamber of the microphone becomes unnecessary, and the thickness of the flip can be reduced. As a result, the thickness of the mobile phone wireless device itself can be reduced.
[0069]
In addition, by providing the communicating portion to the vibration member, the balance of the sound pressure difference between the front and back surfaces of the microphone when a differential microphone is used is improved. Therefore, the sensitivity of the microphone for collecting sound is improved.
[0070]
In addition, a cable storage portion for storing a cable is provided in the microphone holder, and the microphone holder is formed so that the upper and lower surfaces of the microphone holder are arranged between the flip housing and the cover flip housing. Later, the space between the cable storage section and the cable can be closed with an adhesive to isolate the other internal space of the transmission section from the air chamber of the microphone. In particular, since the place where the adhesive is applied is specified and the gap to be closed is also limited, it is possible to prevent variations in airtightness.
[0071]
In addition, the microphone holder is pressed into the microphone housing to make the front air chamber of the microphone airtight, and the cable is laid over the microphone holder. Then, the self-sealing rubber is tightly fixed to the microphone holder and the cable. Since the other surface of the fusion rubber is configured to be in close contact with the flip housing, the rear air chamber of the microphone is also airtight. Therefore, it is possible to easily isolate the other internal space of the transmitting section from the air chamber of the microphone.
[0072]
Also, by injecting the curing liquid from the inlet provided in the flip housing and filling the gap between the flip housing and the cover flip housing around the microphone with the curing liquid, the microphone and other internal space of the transmitting section are Air chamber can be isolated.
[0073]
As described above, the vibration of the flip casing or the cover flip casing resonates in the transmitting section (that is, the flip) rather than isolating the other internal space of the transmitting section from the air chamber of the microphone. There is no possibility that the sound from the receiving unit will be diverted to the transmitting unit, become an echo, and be collected by the microphone.
[Brief description of the drawings]
FIG. 1 is a perspective view showing the appearance of a general portable telephone radio.
FIG. 2 is a cross-sectional view of the mobile phone wireless device of the first embodiment as viewed along the line aa ′ in FIG.
FIG. 3 is a cross-sectional view of the mobile phone wireless device of the second embodiment, taken along line aa ′ of FIG.
FIG. 4 is a cross-sectional view of the mobile phone wireless device of the third embodiment as viewed along the line aa ′ in FIG.
FIG. 5 is a cross-sectional view of the mobile phone wireless device according to the fourth embodiment, taken along line aa ′ of FIG. 1;
FIG. 6 is a cross-sectional view of a mobile phone wireless device according to a fifth embodiment, taken along line aa ′ of FIG. 1;
FIG. 7 is a cross-sectional view of a mobile phone wireless device according to a sixth embodiment, taken along line aa ′ of FIG. 1;
FIG. 8 is a cross-sectional view of the conventional mobile phone radio as viewed along the line aa 'in FIG.
[Explanation of symbols]
1a flip housing, 2a cover flip housing, 3 differential microphone, 4a microphone holder, 5a cable, 12a rib, 14 front air chamber, 16 rear air chamber, 21a, 22a hole, A transmitting section, B receiving section, C display unit, D operation unit.

Claims (10)

In a mobile phone radio with a built-in microphone in the transmitter,
The transmission unit includes a flip housing and a cover flip housing that covers the flip housing.
A microphone housing for inserting the microphone is provided on the back surface of the cover flip housing,
Further, a microphone holder for holding the microphone in the microphone storage unit is provided,
The flip housing and the cover flip are so formed that a cable electrically connected to the microphone is inserted and formed integrally with the microphone holder, and further isolates another internal space of the transmitting section from the air chamber of the microphone. For a cellular phone wireless device , wherein the upper and lower surfaces are formed in close contact with a flip housing and a cover flip housing except for a portion serving as an air chamber . Transmission unit. Further, the microphone holder holds the microphone in the microphone storage portion in cooperation with the microphone storage portion, and a cable electrically connected to the microphone is inserted and formed integrally. 2. The portable telephone radio transmission according to claim 1, wherein the telephone housing is provided between the flip housing and the cover flip housing so as to isolate an internal space of the microphone from an air chamber of the microphone. Department. Further, the microphone holder is press-fitted into the microphone housing, and a cable electrically connected to the microphone is inserted and formed integrally , and further, the other internal space of the transmitting section and the air chamber of the microphone are formed. The transmitting section for a portable telephone wireless device according to claim 1, wherein the transmitting section is provided between the flip housing and the cover flip housing so as to be isolated. 2. The mobile phone radio unit according to claim 1, wherein the flip housing further includes a microphone housing for press-fitting and fixing the microphone holder. In a mobile phone radio with a built-in microphone in the transmitter,
The transmission unit includes a flip housing and a cover flip housing that covers the flip housing.
A microphone housing for inserting the microphone is provided on the back surface of the cover flip housing,
Further, a microphone holder for holding the microphone in the microphone storage unit is provided,
The flip housing and the cover flip housing are configured so that a cable electrically connected to the microphone is housed in the microphone holder, and further isolates another internal space of the transmission unit from an air chamber of the microphone. Is provided between
Before SL to the vibration member which is fixed to the cover flip housing, said microphone mobile phone for a radio telephone transmitter section you characterized in that it is mounted. The transmitting unit according to claim 5, wherein the vibration member is provided with a hole communicating with the microphone. In a mobile phone radio with a built-in microphone in the transmitter,
The transmission unit includes a flip housing and a cover flip housing that covers the flip housing.
A microphone housing for inserting the microphone is provided on the back surface of the cover flip housing,
Further, a microphone holder for holding the microphone in the microphone storage unit is provided,
The microphone holder,
A hole for accommodating a cable electrically connected to the microphone,
Upper and lower surfaces that are in close contact with the flip housing and the cover flip housing except for the part that becomes the air chamber,
Has,
Pressing the microphone into the microphone holder, electrically connecting the cable and the microphone passed through the hole, and filling the gap between the hole and the cable with an adhesive,
Thereafter, the microphone holder between said the flip housing and the cover flip housing so that the air chamber of the other of the inner portion space and the microphone of the transmitter section is isolated with press-fitted to the microphone housing portion A transmitter for a mobile phone radio, wherein the transmitter is arranged . The transmitting unit according to claim 7, further comprising a microphone housing for press-fitting and fixing the microphone holder in the flip housing. In a mobile phone radio with a built-in microphone in the transmitter,
The transmission unit includes a flip housing and a cover flip housing that covers the flip housing.
A microphone housing for inserting the microphone is provided on the back surface of the cover flip housing,
A microphone holder that is press-fitted into the microphone housing and fixes the microphone in the microphone housing and is in close contact with the cover flip housing;
A cable electrically connected to the microphone;
Having a self-fusing rubber for tightly fixing the cable to the microphone holder and the cable after laying the cable on the microphone holder,
The self-fusing rubber is also in close contact with the flip housing to isolate the other internal space of the transmitting unit from the air chamber of the microphone, wherein the transmitting unit is for a cellular phone wireless device. The transmitting unit according to any one of claims 1 to 9, wherein the microphone is a differential microphone .

Images