JP2011091503A - Electronic equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide user-friendly electronic equipment that improves convenience in communication with the counterpart equipment. <P>SOLUTION: The electronic equipment is brought close to an outer surface of the other equipment, to transmit and receive data to and from the other equipment. The electronic equipment includes an antenna for transmitting and receiving data by radio communication, and a display means of displaying information on data transmission and reception. The display means is disposed on a first-surface side of a casing in the electronic equipment. The antenna is disposed on a second-surface side, which is opposite to the first-surface side of the casing. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an electronic device including an antenna.

  As a new proximity wireless transfer technology, there has been proposed a communication technology capable of transferring a large amount of data at high speed only by bringing electronic devices to be communicated with each other (for example, see Patent Document 1).

JP 2008-154267 A

  In the above communication technology, since the communication distance between devices is extremely short, the antenna of the user's electronic device needs to be close to the antenna of the other electronic device at the correct position and distance in order to perform stable data transfer. There is. For this reason, if the antenna built in the electronic device is not arranged at an appropriate position, it is conceivable that the user's usability deteriorates.

  An object of the present invention is to provide an electronic device that improves convenience when communicating with a counterpart device and is easy to use for a user.

The invention according to claim 1 is an electronic device capable of transmitting / receiving data to / from the counterpart device by being brought close to the outer surface of the counterpart device, wherein the antenna transmits / receives the data by wireless communication. And display means capable of displaying information related to transmission / reception of the data, wherein the display means is disposed on a first surface side of the casing of the electronic device, and the antenna is the first of the casing. It arrange | positions at the 2nd surface side which is an other side of a surface side, It is characterized by the above-mentioned.
The invention according to claim 2 is an electronic device capable of transmitting and receiving data to and from the counterpart device by making it approach the outer surface of the counterpart device, and an antenna that transmits and receives the data by wireless communication And a concave portion that can be fitted with a convex portion provided on the outer surface of the counterpart device, the concave portion is provided on a bottom surface portion of the casing of the electronic device, and the antenna is provided on the concave portion. It is arranged in the vicinity.
Invention of Claim 3 is the electronic device of Claim 2, Comprising: With respect to the said other party apparatus with which the said convex part is a tripod screw, the said recessed part is a tripod seat which has a tripod screw hole. It is characterized by that.
A fourth aspect of the present invention is the electronic device according to the third aspect, wherein the antenna is disposed around the tripod seat and is capable of communicating with the counterpart device. It is characterized by being.
Invention of Claim 5 is the electronic device of Claim 3, Comprising: With respect to the said tripod screw in which the antenna of the said other party apparatus was provided in the screw tip part, the antenna of the said electronic device is the said When the tripod seat and the tripod screw are fitted by screwing, the device can communicate with the antenna of the counterpart device and is provided at the maximum distance from the antenna of the counterpart device. To do.
The invention according to claim 6 is the electronic device according to claim 5, wherein the casing of the electronic device is covered with a shielding plate having a shielding effect against electromagnetic waves except for a bottom surface of the casing. It is characterized by.

  ADVANTAGE OF THE INVENTION According to this invention, the convenience at the time of communicating with the other party apparatus can be improved, and the user-friendly electronic device can be provided.

1 is a schematic perspective view of a camera according to a first embodiment. (A) is a schematic perspective view when the camera is viewed from the lens barrel side. (B) is a schematic perspective view when the camera is viewed from the liquid crystal monitor side. It is a perspective view which shows an example in the case of data transfer from the camera of 1st Embodiment to the other party apparatus. (A)-(C) are explanatory drawings which show the example of a display of the screen displayed on the liquid crystal monitor of 1st Embodiment. 1 is a schematic perspective view of a mobile phone according to a first embodiment. (A) is a schematic perspective view when a mobile phone is seen from the liquid crystal monitor side. (B) is a schematic perspective view when a mobile phone is seen from the battery housing part side. 1 is a schematic perspective view of an audio player according to a first embodiment. (A) is a schematic perspective view when the audio player is viewed from the liquid crystal monitor side. FIG. 4B is a schematic perspective view of the audio player as viewed from the battery storage unit side. It is a schematic perspective view of PC concerning 1st Embodiment. (A) is a schematic perspective view when PC is seen from the liquid crystal monitor side. (B) is a schematic perspective view when the PC is viewed from the side opposite to the liquid crystal monitor. It is the schematic of the camera concerning 2nd Embodiment. It is the schematic which shows the positional relationship of the antenna of a camera and the antenna of the other party apparatus in 2nd Embodiment. It is the schematic which shows the communication unit arrange | positioned at the camera of 2nd Embodiment. It is a schematic sectional drawing which shows the structure of the communication unit in 2nd Embodiment. It is a schematic sectional drawing which shows the structure of the communication unit in 2nd Embodiment. It is a schematic sectional drawing which shows the structure of the communication unit in 2nd Embodiment. It is the schematic which shows the communication unit arrange | positioned at the camera of 2nd Embodiment. It is a schematic sectional drawing which shows the structure of the communication unit in 2nd Embodiment. It is a schematic sectional drawing which shows the structure of the communication unit in 2nd Embodiment. It is a schematic sectional drawing which shows the structure of the communication unit in 2nd Embodiment. It is a schematic sectional drawing which shows the structure of the communication unit in 2nd Embodiment. It is the schematic of the camera concerning 3rd Embodiment. It is a schematic sectional drawing of the camera concerning 4th Embodiment.

  Hereinafter, embodiments of an electronic apparatus according to the present invention will be described with reference to the drawings. In the following embodiment, an example in which the electronic device according to the present invention is applied to a camera will be described, and an example in which the electronic device according to the present invention is applied to other mobile devices will be described as appropriate.

(First embodiment)
1A and 1B are schematic perspective views of the camera 10 according to the first embodiment. FIG. 1A is a schematic perspective view when the camera 10 is viewed from the lens barrel 11 side, and FIG. It is a schematic perspective view when seen from the side. A camera 10 shown in the present embodiment is a digital camera, and includes a lens barrel 11 and a camera body 12 as a housing in which the lens barrel 11 is built, as shown in FIG. The lens barrel 11 includes a plurality of photographing lenses (not shown), and forms a subject image on an imaging surface of an imaging element unit described later.

  On the upper part of the camera body 12, a power button 13 and a release button 14 are provided. The lens barrel 11 is in a retracted state housed inside the camera body 12 in a non-shooting state where the power is off. On the other hand, when the user operates the power button 13 to turn on the power, the lens barrel 11 protrudes to the front side of the camera body 12 and enters a photographing state.

  Further, on the front side of the camera body 12 and above the lens barrel 11, a light emitting unit 15 for illumination light is provided. The front side of the camera body 12 is the second surface side as a housing. An antenna 19 is disposed on the front side of the camera body 12 at a position opposite to the liquid crystal monitor 16 described later. The antenna 19 is an antenna for near field communication for transmitting and receiving data to and from a partner device (not shown) by wireless communication. The antenna 19 is connected to a transmission / reception circuit (not shown) of the camera body 12. The transmission / reception circuit is a circuit for transmitting / receiving data to / from a counterpart device that is in close contact with each other. The transmission / reception circuit of the present embodiment can communicate with the counterpart device only at an extremely short communication distance (for example, 3 cm). As will be described later, by holding the camera 10 over the outer surface of the counterpart device, Data can be transmitted / received to / from the counterpart device.

  On the other hand, on the back side of the camera body 12, as shown in FIG. 1B, a liquid crystal monitor 16, a selector dial 17, and a zoom button 18 are arranged. The back side of the camera body 12 is the first surface side as a housing. The liquid crystal monitor 16 is a display unit that displays a captured image, an information screen related to shooting conditions, an information screen related to data transmission / reception, and the like. The selector dial 17 is an input means for inputting various settings to the camera 10 and selecting items displayed on the information screen. The zoom button 18 is a button for changing the focal length of the lens barrel 11. When the zoom button 18 is pressed to the W (Wide) side, the lens barrel 11 is shifted to the wide angle side, and when pressed to the T (Tele) side, the lens mirror is moved. The cylinder 11 is shifted to the telephoto side.

  In addition, in the camera body 12, in addition to an image sensor unit (not shown) that converts an object image formed on the imaging surface by the lens barrel 11 into an electric signal and outputs the electric signal, the operation of the camera 10 is integratedly controlled. A camera CPU and a memory (not shown) are arranged. Further, a recording medium such as a memory card (not shown) on which image data is recorded is inserted into the camera body 12 in a state where the image data can be read / written.

  FIG. 2 is a perspective view showing an example of data transfer from the camera 10 of the present embodiment to the counterpart device. A communication adapter 50 shown in FIG. 2 receives image data transferred from the camera 10 by wireless communication, and transmits it to a television (not shown) via a cable or the like. That is, the communication adapter 50 in the present embodiment is a counterpart device to which the camera 10 transfers image data. The communication adapter 50 includes a transmission / reception circuit of the same standard as the transmission / reception circuit of the camera 10 and an antenna (both are not shown). An antenna (not shown) of the communication adapter 50 is disposed inside the communication adapter 50 and on the outer surface 51 side where the user holds the camera 10.

  When the user transfers image data recorded on a memory card (not shown) of the camera 10 to the communication adapter 50, the camera 10 is set to the wireless communication mode or the like, and then the camera 10 communicates as shown in FIG. Hold it over the outer surface 51 of the adapter 50. At this time, the user brings the front side of the camera 10 on which the antenna 19 (see FIG. 1) is disposed closer to the outer surface 51 of the communication adapter 50 on which an antenna (not shown) is disposed. Thereby, the image data read from the memory card of the camera 10 is transferred from the antenna 19 of the camera 10 to the antenna of the communication adapter 50. During this time, as shown in FIG. 2, the liquid crystal monitor 16 of the camera 10 faces toward the user holding the camera 10. Therefore, the user can view the screen of the liquid crystal monitor 16 of the camera 10 being held during data transfer.

  3A to 3C are explanatory diagrams illustrating display examples of screens displayed on the liquid crystal monitor 16. As described above, when the user holds the camera 10 over the outer surface 51 of the communication adapter 50 and the distance between the camera 10 and the communication adapter 50 reaches the communication range, communication is performed between the camera 10 and the communication adapter 50. As shown in FIG. 3A, the liquid crystal monitor 16 displays a television icon 16A as a final communication partner. During this time, for example, work such as authentication is automatically performed (however, authentication or the like may not be necessary). Next, when the data transfer is started, an icon 16B indicating that data is being transferred from the camera to the television is displayed on the liquid crystal monitor 16 as shown in FIG. When the data transfer is completed, an icon 16C indicating that the data has been transferred to the television is displayed on the liquid crystal monitor 16, as shown in FIG. During this time, the user can see the screens of FIGS. 3A to 3C displayed on the liquid crystal monitor 16 on the back of the camera 10 held over the communication adapter 50.

According to 1st Embodiment mentioned above, there exist the following effects.
In the camera 10 of the present embodiment, the liquid crystal monitor 16 is disposed on the back side of the camera body 12, and the antenna 19 is disposed on the back side opposite to the front side of the camera body 12. For this reason, when the user holds the front surface side where the antenna 19 of the camera 10 is placed over the outer surface 51 of the communication adapter 50, the user is displayed on the liquid crystal monitor 16 on the back surface side (self side) of the camera 10. You can see the screen.

  That is, if the antenna 19 is not disposed at an appropriate position, when the user holds the camera 10 over the communication adapter 50, the user cannot see the liquid crystal monitor 16 or becomes difficult to see, so that transmission / reception information and the like are recognized. It becomes difficult to do. However, in the present embodiment, when the user holds the camera 10 over the communication adapter 50, the liquid crystal monitor 16 always faces the user side, so that the user can, for example, as shown in FIGS. You can see the screen. Therefore, the user can easily recognize transmission / reception information such as whether communication is being performed with the communication adapter 50, whether data is being transferred, or whether data transfer has been completed. In particular, this is effective when the counterpart device does not have an information screen display means, or when the display means is hidden by the camera body 12 and cannot be seen by holding the camera 10 even if it has a display means. .

  Therefore, according to this embodiment, the convenience at the time of communicating with the other party apparatus can be improved, and the user-friendly camera 10 can be provided.

  In the first embodiment, an example in which the electronic apparatus according to the present invention is applied to a digital camera has been described. However, the present invention can be applied to other examples. In the following embodiments, an antenna that functions in the same or equivalent manner as the antenna 19 of the first embodiment is referred to as an “near field communication antenna”.

  4A and 4B are schematic perspective views of the mobile phone 20 according to the first embodiment. FIG. 4A is a schematic perspective view of the mobile phone 20 viewed from the liquid crystal monitor 23 side, and FIG. It is a schematic perspective view when seen from the storage section 27 side. A mobile phone 20 shown in FIG. 4 is a slide-type mobile phone, and includes a display-side housing 21 and an operation-side housing 22 that are combined together.

  A liquid crystal monitor 23 for displaying various information screens and a speaker 24 for generating the voice of the other party are arranged on the front side of the display-side housing 21. In addition, the front side of the display side housing | casing 21 becomes a 1st surface side in the housing | casing combined together. In other words, the liquid crystal monitor 23 is disposed on the first surface side in the housing combined with the mobile phone 20. Further, on the front side of the operation side housing 22, an operation key unit 25 including a plurality of operation keys to which characters, symbols, and the like are assigned, and a microphone 26 to which a user's voice is input are arranged. .

  As shown in FIG. 4B, a battery storage unit 27 for storing a battery (not shown) and an antenna 28 for near field communication are arranged on the back side of the operation side housing 22. In addition, the back side of the operation side housing | casing 22 turns into a 2nd surface side in the housing | casing combined together. In other words, the antenna 28 is arranged on the second surface side opposite to the first surface in the housing combined with the cellular phone 20.

  The cellular phone 20 is in a state in which the display-side casing 21 is superimposed on the front side of the operation-side casing 22 (not shown), or as shown in FIG. 4 (A) or (B), The antenna 28 is opposite to the first surface on which the liquid crystal monitor 23 is arranged in the housing combined with the mobile phone 20 in any of the states in which the 21 is slid relative to the operation housing 22. It will be arrange | positioned at the 2nd surface side used as a side.

  Therefore, when the user holds the second surface side of the mobile phone 20, that is, the back side of the operation side housing 22 on which the antenna 28 is disposed, on the surface of the communication adapter 50 shown in FIG. The liquid crystal monitor 23 faces the user holding the mobile phone 20. Therefore, the user can see the screen of the liquid crystal monitor 23 of the mobile phone 20 that is held during data transfer.

  5A and 5B are schematic perspective views of the audio player 30 according to the first embodiment. FIG. 5A is a schematic perspective view of the audio player 30 as viewed from the liquid crystal monitor 32 side. FIG. It is a schematic perspective view when it sees from the accommodating part 35 side. An audio player 30 shown in FIG. 5 is a portable playback device that plays back music files recorded in a built-in memory or the like, and includes a main body 31 as a housing. On the front side of the main body 31, as shown in FIG. 5A, a liquid crystal monitor 32 that displays various information screens, and an operation key unit 33 including a plurality of operation keys to which characters, symbols, and the like are assigned. Is arranged. A headphone jack 34 is disposed on the front side surface. The front surface side of the main body 31 is the first surface side as a housing. That is, the liquid crystal monitor 32 is arranged on the first surface side in the housing of the audio player 30.

  On the other hand, as shown in FIG. 5 (B), a battery storage unit 35 for storing a battery (not shown) and an antenna 36 for near field communication are disposed on the back side of the main body 31. In addition, the back side of the main body 31 is the second surface side as a housing. That is, the antenna 36 is arranged on the second surface side opposite to the first surface in the housing of the audio player 30.

  In the present embodiment, when the user holds the second surface side of the audio player 30, that is, the back side of the main body 31 on which the antenna 36 is disposed, over the surface of the communication adapter 50 shown in FIG. The liquid crystal monitor 32 faces the user holding the audio player 30. For this reason, the user can see the screen of the liquid crystal monitor 32 of the audio player 30 held during data transfer.

  6A and 6B are schematic perspective views of the PC (personal computer) 40 according to the first embodiment. FIG. 6A is a schematic perspective view when the PC 40 is viewed from the liquid crystal monitor 43 side, and FIG. 43 is a schematic perspective view when viewed from the side opposite to 43. FIG. A PC 40 shown in FIG. 6 is a notebook PC, and includes a display-side casing 41 and a main body-side casing 42. The display-side housing 41 and the main body-side housing 42 are connected via a connecting portion (not shown).

As shown in FIG. 6A, a liquid crystal monitor 43 that displays various information screens is disposed on the front side of the display-side housing 41. The front side of the display side housing 41 is the first surface side when the display side housing 41 is opened, that is, when both housings are opened to an angle of at least 90 °. Thus, the liquid crystal monitor 43 is arranged on the first surface side in the display-side housing 41. Further, as shown in FIG. 6A, on the upper surface of the main body side housing 42, there are an operation key unit 44 composed of a plurality of operation keys to which characters, symbols and the like are assigned, and a touch pad 45 which is an input means. Is arranged.
On the other hand, as shown in FIG. 6B, an antenna 46 for short-range communication is disposed on the back side of the display-side housing 41. The back side of the display-side housing 41 is the second surface side when the display-side housing 41 is opened as described above. Therefore, the antenna 46 is disposed on the second surface side in the display-side housing 41.

  In the present embodiment, when the user brings the second surface side of the display-side housing 41 of the PC 40, that is, the back side of the display-side housing 41 on which the antenna 46 is disposed, close to the surface of the communication adapter 50 shown in FIG. The liquid crystal monitor 43 of the PC 40 faces the user operating the PC 40. Therefore, the user can view the screen of the liquid crystal monitor 43 of the PC 40 during data transfer. However, the communication partner of the PC 40 is not limited to the communication adapter 50 shown in FIG. 2. For example, data transfer can also be performed by holding the front side of the camera 10 of the first embodiment over the back side of the PC 40.

  In the first embodiment, the first surface and the second surface are surfaces opposite to each other with the housing interposed therebetween. That is, if the first surface side is the front surface side of the housing, the second surface side is the back surface side of the housing. If the first surface side is the back surface side of the housing, the second surface side is the front surface side of the housing. It becomes.

(Second Embodiment)
Next, the camera 60 according to the second embodiment will be described. Since the basic configuration of the camera 60 according to the present embodiment is the same as that of the camera 10 according to the first embodiment, reference numerals and descriptions are appropriately omitted.

  FIG. 7 is a schematic diagram of a camera 60 according to the second embodiment. The camera 60 of the present embodiment includes a tripod seat 61 as a recess on the bottom surface portion 60a. A tripod screw hole 61 a is formed on the inner peripheral surface of the tripod seat 61. Further, an antenna 62 for near field communication is disposed around the tripod seat 61. The antenna 62 is connected to the transmission / reception circuit 66.

  On the other hand, a tripod screw 64 as a convex portion is provided on the outer surface of the counterpart device 63. The tripod screw 64 and the tripod screw hole 61a of the camera 10 are configured to be fitted by screwing. That is, when the tripod seat 61 of the camera 10 is in contact with the tripod screw 64 of the counterpart device 63, the tripod screw hole 61 a of the tripod seat 61 is turned into the tripod screw 64 by rotating the knob 64 a of the tripod screw 64. The camera 60 is fixed to the outer surface of the counterpart device 63 with screws. In the counterpart device 63, an antenna 65 for short-range communication is disposed around the tripod screw 64.

  FIG. 8 is a schematic diagram showing the positional relationship between the antenna 62 of the camera 60 and the antenna 65 of the counterpart device 63. In this embodiment, assuming that the communication (possible) distance between both antennas is 3 cm, the camera 60 arranges the antenna 62 in a spherical range having a radius r of 1.5 cm with the position a of the tripod seat 61 as the center. . On the other hand, in the counterpart device 63, it is only necessary that the antenna 65 be arranged in a spherical range having a radius r of 1.5 cm with the position b of the tripod screw 64 as the center. If the positions of both antennas are defined in the above range, the two antennas always face each other within a communication distance (3 cm) by fixing the camera 60 to the tripod screw 64 of the counterpart device 63. .

According to 2nd Embodiment mentioned above, there exist the following effects.
(1) The camera 60 can be fixed on the counterpart device 63 by fitting a tripod seat 61 that is a recess of the camera 60 and a tripod screw 64 that is a recess of the counterpart device 63. For this reason, for example, when data is transferred while the camera 60 is placed on the counterpart device 63, the user does not need to hold the camera 60 on the counterpart device 63. In addition, since the movement of the camera 60 is limited, the camera 60 moves during communication, and communication with the counterpart device 63 is not disconnected, and stable communication can be performed.
(2) Since the tripod seat 61 of the camera 60 is screwed and fixed to the tripod screw 64 of the counterpart device 63, the camera 60 can be stably fixed to the counterpart device 63. Further, if the standard of the tripod screw hole 61a and the tripod screw 64 is a general tripod screw standard, the user can recognize that the electronic device is for a specific application (camera, video camera, etc.). For this reason, even when the appearance and function of the electronic device to be used are different, the user can easily identify the counterpart device that cannot communicate.
(3) Since the antenna 62 of the camera 60 is arranged around the tripod seat 61 and at a position where communication with the counterpart device 63 is possible, the user needs to be aware of the position of the antenna 62 in the camera 60. The camera 60 can be fixed within the communication distance range with the counterpart device 63 simply by screwing the camera 60 to the counterpart device 63.

  Therefore, according to this embodiment, the convenience at the time of communicating with the other party apparatus can be improved, and the user-friendly camera 60 can be provided.

  Next, specific configurations of the antenna 62 and the transmission / reception circuit 66 in the second embodiment will be described. Here, a configuration example of a communication unit including the antenna 62 and the transmission / reception circuit 66 will be described. First, a configuration example when the communication unit is arranged at the position of the nameplate sheet will be described.

  In the drawings described below, the same reference numerals are given to the same parts as those already described, and the description of the parts will be omitted as appropriate. In addition, the reference numerals and descriptions in the drawings are omitted as appropriate for other portions.

  FIG. 9 is a schematic diagram showing the communication unit 100 arranged in the camera 60 of the second embodiment. As shown in FIG. 9, the communication unit 100 is disposed on the bottom surface portion 60 a of the camera 60. The communication unit 100 includes an antenna 62 and a transmission / reception circuit 66 described later. Moreover, the communication unit 100 is arrange | positioned at the back side of the nameplate sheet | seat mentioned above.

  FIG. 10 is a schematic cross-sectional view showing the configuration of the communication unit 100. The camera cover 105 is a part of the camera body and includes a recess 105a having a substantially concave cross section. An opening (reference numeral omitted) is formed in the central portion of the recess 105a. The antenna 62, the insulator spacer 101, and the nameplate sheet 104 are accommodated in the recess 105a. The antenna 62 is disposed on the surface of the insulator spacer 101. The insulator spacer 101 is affixed to the surface of the recess 105a with a double-sided tape (or adhesive). The nameplate sheet 104 is attached to the surface of the antenna 62. The nameplate sheet 104 is made of a material that does not affect electrostatic coupling. When the nameplate sheet 104 is attached to the surface of the antenna 62, the surface of the camera cover 105 becomes substantially flat.

  The insulator spacer 101 has a convex shape so as to penetrate the opening of the concave portion 105a and protrude to the opposite side. A through hole 101a is provided inside the convex portion. The central portion of the antenna 62 is connected to the stub 102 through the through hole 101 a of the insulator spacer 101. The stub 102 is a distributed constant circuit that functions as a parallel inductance and a series inductance as a circuit element connected to the antenna 62, and is configured by a conductor pattern. The stub 102 is connected to the transmission / reception circuit 66 via a signal line pattern (not shown) formed on the substrate 103. The transmission / reception circuit 66 is disposed on the substrate 103 and is connected to the signal line pattern. The stub 102 is connected to a ground electrode 106 disposed on the back surface of the substrate 103 via a through hole 103 a formed in the substrate 103.

  In the present configuration example, the antenna 62 and the ground electrode 106 are disposed at positions facing each other across the camera cover 105 in the recess 105a. Therefore, if the camera cover 105 is made of metal, the antenna 62 can be disposed close to the bottom surface portion 60a of the camera cover 105 while maintaining the strength of the camera body. Moreover, since the nameplate sheet 104 is affixed on the surface of the antenna 62, the antenna 62 can be protected by the nameplate sheet 104.

  Next, a communication unit 100A will be described as another configuration example of the communication unit 100. FIG. 11 is a schematic cross-sectional view showing the configuration of the communication unit 100A. In the communication unit 100A of this configuration example, the stub 102 is disposed on the opposite side of the antenna 62 with the substrate 103 interposed therebetween, and the ground electrode 106 is disposed on the antenna 62 side. Therefore, the antenna 62 is connected to the stub 102 via the through hole 101a of the insulator spacer 101 and the through hole 103b of the substrate 103.

  Instead of forming the through hole 103b in the substrate 103, the portion of the antenna 62 connected to the stub 102 may be shaped like a needle and inserted through the insulator spacer 101 and the substrate 103 to be connected to the stub 102. Good. Alternatively, as shown in FIG. 11, after the through hole 103b is formed in the substrate 103, the antenna 62 may be connected to the stub 102 by reflow soldering.

  The camera cover 105 in this configuration example includes an opening 105b. The antenna 62 and the nameplate sheet 104 are accommodated in the opening 105b. When the nameplate sheet 104 is attached to the surface of the antenna 62, the surface of the camera cover 105 becomes substantially flat at the position of the opening 105b. The opening 105b is closed by an insulator spacer 101 disposed on the inner side. According to this configuration example, the communication unit 100A can be thinned.

  Next, a communication unit 100B will be described as another configuration example of the communication unit 100. FIG. 12 is a schematic cross-sectional view showing the configuration of the communication unit 100B. The communication unit 100B of this configuration example includes a camera cover 107 in which the insulator spacer 101 of the first embodiment and the camera cover 105 are integrated. The camera cover 107 is made of a resin material such as plastic. The camera cover 107 includes a recess 107a having a substantially concave cross section. A through hole 107b is formed in the central portion of the recess 107a. The antenna 62 and the nameplate sheet 104 are accommodated in the recess 107a. The antenna 62 is formed by depositing or plating a metal on the surface of the camera cover 107 in the recess 107a. The antenna 62 passes through a through hole 107b formed in the recess 107a and is connected to the stub 102 disposed on the opposite side. In this case, the antenna 62 may be connected to the stub 102 by reflow soldering.

  Also in this configuration example, the communication unit 100B can be thinned as in the communication unit 100A described above. In addition, by using the camera cover 107 in which the insulator spacer 101 and the camera cover 105 are integrated, the number of components can be reduced and the manufacturing cost can be reduced.

  Next, a configuration example in which the communication unit is divided into two parts and arranged on the bottom and side parts of the camera will be described.

  FIG. 13 is a schematic diagram showing the communication unit 100C arranged in the camera 60 of the second embodiment. As illustrated in FIG. 13, the communication unit 100 </ b> C is divided into two parts and is disposed adjacent to the bottom surface part 60 a and the side surface part 60 b of the camera 60.

  FIG. 14 is a schematic cross-sectional view showing the configuration of the communication unit 100C. As shown in FIG. 14 (and FIG. 13), the substrate 103 including the stub 102 and the ground electrode 106 is arranged on the side surface 60b side of the camera 60. The configuration on the antenna 62 side is the same as in FIG. The stub 102 and the antenna 62 are connected by a wiring 108. According to this configuration example, it is not necessary to arrange the antenna 62 and the substrate 103 close to each other, so that the degree of freedom in circuit design can be increased.

  Next, a communication unit 100D will be described as another configuration example of the communication unit 100C. FIG. 15 is a schematic cross-sectional view showing the configuration of the communication unit 100D. In the communication unit 100 </ b> D of this configuration example, the stub 102 and the antenna 62 are connected by the conductive pattern 109. The conductive pattern 109 is formed on the insulator spacer 101. One of the conductive patterns 109 is connected to the antenna 62 through the through hole 101a of the insulator spacer 101, and the other is directly connected to the stub 102. According to this configuration example, since the stub 102 and the antenna 62 are connected by the conductive pattern 109, it is not necessary to consider the arrangement space of the wiring 108 unlike the wiring 108 shown in FIG. The internal space can be used effectively.

  Next, a configuration example when the communication unit is built in the battery lid will be described. FIG. 16 is a schematic cross-sectional view showing the configuration of the communication unit 100E built in the battery lid 67. As shown in FIG. The battery cover 67 shown in FIG. 16 is disposed on the bottom surface portion 60a of the camera 60 shown in FIG. The battery lid 67 is made of a resin material such as plastic. A hinge portion 68 is provided at one end of the battery lid 67, and a clamp mechanism 69 is provided at the other end. The hinge portion 68 is rotatably supported by a support mechanism provided inside a camera body (not shown). The hinge portion 68 is partially made of metal. This metal portion is connected to a camera body circuit (not shown).

  The clamp mechanism 69 is a mechanism for closing and opening the battery lid 67. The clamp mechanism 69 is engaged with an engagement portion (not shown) provided inside the camera body. When the user releases the clamp mechanism 69, the engagement between the clamp mechanism 69 and the engaging portion is released. As a result, the battery lid 67 rotates around the hinge portion 68 and is in an open state. When the battery cover 67 is opened, a battery or a memory card (not shown) can be taken in and out. Further, when the user performs an operation of returning the battery cover 67 to the original position, the clamp mechanism 69 and the engaging portion are engaged, and the battery cover 67 is closed.

  The battery cover 67 includes a recess 67a having a substantially concave cross section. A through hole 67b is formed in the central portion of the recess 67a. The antenna 62 is disposed in the recess 67a. A central portion of the antenna 62 is connected to the stub 102 through a through hole 67b. The stub 102 is connected to a ground electrode 106 disposed on the back side of the substrate 103 through a through hole 103 a formed in the substrate 103. The stub 102 is connected to the transmission / reception circuit 66 through a conductive pattern (not shown) formed on the substrate 103.

  A conductive wire 110 is connected to the conductive pattern. The conductive wire 110 is connected to the metal portion of the hinge portion 68. Therefore, the transmission / reception circuit 66 is connected to the metal portion of the hinge portion 68 via the conductive pattern and the conductive wire 110. According to this, the transmission / reception circuit 66 is connected to a camera body circuit (not shown) via the lead wire 110, the hinge portion 68, etc., even when the battery cover 67 is closed or opened. become. Therefore, according to this configuration example, data transfer is always possible regardless of whether the battery cover 67 is open or closed.

  Instead of the conductive wire 110, the transmission / reception circuit 66 and the metal portion of the hinge portion 68 may be connected via a conductive pattern (not shown) extending to the hinge portion 68.

  Next, a communication unit 100F will be described as another configuration example of the communication unit 100E. FIG. 17 is a schematic cross-sectional view showing the configuration of the communication unit 100F. In the communication unit 100 </ b> F of this configuration example, a conductive pattern (not shown) formed on the substrate 103 extends to the upper part of the transmission / reception circuit 66. A touch connection terminal 111 connected to a body circuit (not shown) is disposed inside the camera body (not shown). The touch connection terminal 111 is fixedly arranged at a position in contact with the conductive pattern extending above the transmission / reception circuit 66 when the battery cover 67 is closed.

  According to the above configuration, when the battery cover 67 is closed, the conductive pattern extending above the transmission / reception circuit 66 and the touch connection terminal 111 are in contact with each other and are electrically connected. Therefore, the transmission / reception circuit 66 is connected to a camera body circuit (not shown) via the conductive pattern (not shown), the touch connection terminal 111, and the like. On the other hand, when the battery cover 67 is opened, the conductive pattern extending above the transmission / reception circuit 66 and the touch connection terminal 111 are separated from each other and are not electrically connected. For this reason, the transmission / reception circuit 66 is not connected to a camera body circuit (not shown).

  Thus, in this configuration example, data transfer is possible only when the battery cover 67 is closed, and data transfer is not possible when the battery cover 67 is not closed. Therefore, in a usage mode in which data transfer is performed with the camera 60 placed on the counterpart device, data transfer is always performed with the battery cover 67 closed, that is, with the camera 60 being most stable. be able to.

  In addition, when placed on the counterpart device with the battery cover 67 not closed, the camera 60 becomes unstable, so the camera 60 is likely to fall during communication. If the camera 60 falls during communication, the communication becomes unstable or the communication is disconnected. However, in this configuration, since the camera 60 can perform data transfer in a stable state, it is possible to reduce problems such as the camera 60 falling down during communication to make communication unstable or disconnecting communication. be able to.

(Third embodiment)
Next, the camera 70 according to the third embodiment will be described. Since the basic configuration of the camera 70 according to the present embodiment is the same as that of the camera 60 according to the second embodiment, the reference numerals and description thereof are omitted as appropriate.

  FIG. 18 is a schematic view of a camera 70 according to the third embodiment. The camera 70 of this embodiment includes a tripod seat 71 on the bottom surface portion 70a. In addition, an antenna 72 for short-range communication is disposed at a position that is perpendicular to the height direction of the camera 70 by a length L1 from the screw hole bottom 71a of the tripod seat 71. If the communication distance between the antenna 72 of the camera 70 and the antenna 75 of the counterpart device 73 described later is 3 cm, the length L1 is less than 3 cm. At the same time, the antenna 72 is arranged at a position separated from the bottom surface portion 70a of the camera 70 by a length L2 perpendicular to the height direction of the camera 70. As described above, when the communication distance between both antennas is 3 cm, the length L2 is 3 cm or more.

  In other words, the antenna 72 of the camera 70 can communicate with the antenna 75 of the counterpart device 73 when the tripod seat 71 is screwed into a tripod screw 74 described later, and the counterpart device 73. It is arrange | positioned so that it may become the largest separation position (less than 3 cm) from the antenna 75 of this.

  On the other hand, a tripod screw 74 as a convex portion is provided on the outer surface of the counterpart device 73. The tripod screw 74 and the tripod seat 71 of the camera 70 are configured to be fitted by screwing. The tripod screw 74 incorporates an antenna 75 for near field communication at the tip.

  By fixing the camera 70 configured as described above to the tripod screw 74 of the counterpart device 73, both antennas always face each other within a communication distance (3 cm).

  According to 3rd Embodiment mentioned above, while being able to acquire an effect equivalent to (1)-(3) of 2nd Embodiment, there exist the following effects.

  When the tripod seat 71 of the camera 70 is fitted into the tripod screw 74 of the counterpart device 73 by screwing, it is possible to communicate with the antenna 75 of the counterpart device 73 and to be at the maximum distance from the antenna 75. In addition, since the antenna 72 of the camera 70 is disposed, the cameras 70 can communicate with each other only when the camera 70 is screwed and fixed to the tripod screw 74 of the counterpart device 73. Therefore, even if the camera 70 is brought close to a counterpart device that is not supposed to be a communication counterpart, careless data transfer or billing is not performed, so that security can be improved.

  Therefore, according to this embodiment, the convenience at the time of communicating with the other party apparatus can be improved, and the user-friendly camera 70 can be provided.

(Fourth embodiment)
Next, the camera 80 according to the fourth embodiment will be described. Since the basic configuration of the camera 80 according to the present embodiment is the same as that of the camera 70 according to the third embodiment, reference numerals and descriptions will be omitted as appropriate.

  FIG. 19 is a schematic cross-sectional view of a camera 80 according to the fourth embodiment. The cross section of the camera 80 shown in FIG. 19 corresponds to the cross section along line AA in FIG. However, only the portions necessary for describing the embodiment are shown. The camera 80 includes a tripod seat 82 on a bottom surface portion 80a of a camera body 81 as a housing. In addition, an antenna 83 for near field communication is disposed above the tripod seat 82. The positional relationship between the tripod seat 82 and the short-range communication antenna 83 is the same as in the third embodiment. In the camera 80, the periphery of the camera body 81 excluding the bottom surface portion 80a is covered with a shielding plate 84 having a shielding effect against electromagnetic waves. Note that the counterpart device (not shown) has a short-range communication antenna embedded in the tip of the tripod screw, as in the third embodiment.

  In the camera 70 of the third embodiment described above, when the camera depth dimension L3 (see FIG. 19) is less than 6 cm, the communication distance between both antennas when the front side or the back side of the camera 70 is brought close to the counterpart device. Becomes less than 3 cm. For this reason, when the camera 70 is held over a partner device that is not supposed to be a communication partner, data transfer or the like is inadvertently performed. Thus, in the camera 70 of the third embodiment, the camera depth dimension L3 cannot be made shorter than the double length (6 cm in this example) of the communication distance of both antennas. Although safety is improved, it has been difficult to reduce the thickness.

  On the other hand, in the camera 80 of the present embodiment, the electromagnetic wave for wireless communication is blocked by the shielding plate 84 just by bringing the camera 80 close to the counterpart device, so the communication distance between both antennas is less than 3 cm. Even if it does, it cannot communicate. In addition, although the bottom surface portion 80a of the camera 80 is not covered with the shielding plate 84, the communication distance between both antennas becomes 3 cm or more simply by bringing the bottom surface portion 80a of the camera 80 close to the counterpart device. Even if you can not communicate. Thus, in the camera 80 of the present embodiment, the communication distance between both antennas is less than 3 cm only when the tripod seat 82 is screwed into the tripod screw of the counterpart device (not shown), Can communicate with each other.

  According to the fourth embodiment described above, the same effects as those of the third embodiment can be obtained, and the following effects can be obtained.

  In the camera 80 of the present embodiment, even if the length L3 in the depth direction shown in FIG. 19 is shorter than the double length of the communication distance between the two antennas, the tripod seat 82 is screwed into the tripod screw of the other device (not shown). Communication is not possible unless it is fitted by. For this reason, it is possible to make the camera 80 thinner while increasing security in the same manner as in the third embodiment.

Therefore, according to the present embodiment, it is possible to improve convenience when communicating with the counterpart device, and to provide a camera 80 that is convenient for the user.
(Deformation)

Without being limited to the embodiment described above, the present invention can be variously modified and changed as described below, and these are also within the scope of the present invention.
(1) In 1st Embodiment, the position of the antenna 19 should just be the front side of the camera body 12, and is not limited to the arrangement | positioning shown in FIG. For example, the camera body 12 can be disposed around the grip portion 12A, the lens barrel 11, the light emitting portion 15, and the like.
(2) In the second embodiment, the position of the antenna may be written on the nameplate sheet. That is, in electronic devices such as cameras and video cameras, a nameplate sheet indicating the serial number of the product is often affixed to the bottom of the product along with a tripod mount. Therefore, write the antenna position (arrow etc.) on the nameplate sheet, and paste this nameplate sheet in the vicinity of the tripod mount, so that the user can locate the antenna position without attaching a dedicated sheet indicating the antenna position. I can inform you. In addition, since a dedicated sheet indicating the position of the antenna is not required, the manufacturing cost can be reduced not only when the antenna position is the same product but also when the antenna position varies from product to product. it can.
(3) The communication unit shown in the configuration example of the second embodiment may be arranged on the front cover, upper surface, rear surface, or grip side surface of the camera. In that case, the substrate on which the transmission / reception circuit 66 is arranged may be combined with the main substrate, the back surface of the main substrate, the top substrate, the back substrate, or the side substrate. By setting it as such a structure, a communication unit can be reduced in size.
(4) In the configuration example of the second embodiment, the case where the communication unit is built in the battery cover has been described, but the communication unit may be built in a cover member such as a connection terminal (not shown) such as a USB terminal. When the communication unit is also used as a charger, the board may be connected to the main board by a flexible board or a solder bridge. In this case, a battery may be incorporated. Furthermore, in the configuration in which the battery lid is also used as the memory card lid, the communication unit may be arranged below the place where the battery is stored.
(5) In the third embodiment, the communication distance between the antenna 72 of the camera 70 and the antenna 75 of the counterpart device 73 is 3 cm. However, the communication distance of both antennas is not limited to this example. The present invention is applicable to any communication distance set in close proximity wireless transfer. The antenna 75 arranged in the counterpart device 73 is not limited to the tip of the tripod screw 74 but is inserted into the camera 70 and is attached to the tip of a member that fixes between the camera 70 and the counterpart device 73. It may be built in.
(6) In the fourth embodiment, when the distance from the position of the antenna 83 built in the camera 80 to the upper surface of the camera 80 is 3 cm or more, the shielding plate 84 that covers the upper surface of the camera 80 can be omitted. . Further, the bottom surface portion 80 a excluding the tripod seat 82 of the camera 80 may be covered with the shielding plate 84.
(7) In the above embodiment, the example in which the electronic apparatus according to the present invention is mainly applied to a camera has been described. However, the present invention is not limited to this, and in addition to a video camera, a portable navigation device, a portable game machine, The present invention can be applied to general electronic devices having a display device such as a dictionary or an electronic notebook.

  Moreover, although the said embodiment and modification can be used in combination suitably, since the structure of each embodiment is clear by illustration and description, detailed description is abbreviate | omitted. Furthermore, the present invention is not limited by the embodiment described above.

  10, 60, 70, 80: camera, 16: liquid crystal monitor, 19: antenna, 63: counterpart device, 66: transmission / reception circuit, 67: battery cover, 84: shielding plate, 100, 100A to 100F: communication unit, 104 : Nameplate sheet

Claims (6)

An electronic device capable of transmitting / receiving data to / from the counterpart device by approaching the outer surface of the counterpart device,
An antenna for transmitting and receiving the data by wireless communication;
Display means capable of displaying information relating to transmission and reception of the data,
The display means is disposed on a first surface side of a housing of the electronic device, and the antenna is disposed on a second surface side opposite to the first surface side of the housing. Electronic equipment. An electronic device capable of transmitting / receiving data to / from the counterpart device by approaching the outer surface of the counterpart device,
An antenna for transmitting and receiving the data by wireless communication;
A convex portion provided on the outer surface of the counterpart device and a concave portion that can be fitted, and
The said recessed part is provided in the bottom face part of the housing | casing of the said electronic device, The said antenna is arrange | positioned in the vicinity of the said recessed part, The electronic device characterized by the above-mentioned. The electronic device according to claim 2,
For the counterpart device where the convex part is a tripod screw,
2. The electronic apparatus according to claim 1, wherein the recess is a tripod seat having a tripod screw hole. The electronic device according to claim 3,
The electronic device is an electronic device, wherein the antenna is arranged around the tripod seat and at a position where communication with the counterpart device is possible. The electronic device according to claim 3,
For the tripod screw provided with the antenna of the counterpart device at the screw tip,
The antenna of the electronic device is capable of communicating with the antenna of the counterpart device when the tripod seat and the tripod screw are fitted by screwing, and is located at a maximum distance from the antenna of the counterpart device. An electronic device characterized by being provided. The electronic device according to claim 5,
The electronic device casing is covered with a shielding plate having a shielding effect against electromagnetic waves except for a bottom surface of the casing.

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