JP3751926B2 - Data communication device and bag for storing data communication device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention accommodates a data communication device using a transceiver that induces an electric field based on information to be transmitted in an electric field transmission medium and transmits / receives information using the induced electric field, and such a data communication device. The present invention relates to a bag for storing data communication devices.
[0002]
[Prior art]
Although wearable computers have attracted attention due to miniaturization and high performance of portable terminals, FIG. 7 shows an example in which such wearable computers are used while being worn by humans. As shown in the figure, each wearable computer 1 is attached to a human arm, shoulder, torso, etc. via a transceiver 3 to transmit / receive data to / from each other, and further provided on a wall, floor, etc. at the tip of a limb. Communication is performed via a cable with a personal computer (PC) 5 provided outside via the transceivers 3a and 3b that are touched and the cable.
[0003]
As described above, the wearable computer 1 is attached to a living person via the transceiver 3 to perform data communication. The transceiver 3 induces transmission data from the wearable computer 1 as an electric field in the living body that is an electric field transmission medium, In FIG. 7, as indicated by the wavy line, the electric field is transmitted to other parts of the living body, and the electric field induced and transmitted to the living body is received by the transceiver 3 as received data and sent to the wearable computer 1.
[0004]
The transceiver 3 is configured as shown in FIG. 8. When the transmission data from the wearable computer 1 is received via the input / output (I / O) circuit 101, the transmission data is sent to the transmission / reception electrode 105 via the transmission circuit 103. Then, an electric field is induced in the living body 100 which is an electric field transmission medium from the transmitting / receiving electrode 105 through the insulating film 107, and this electric field is transmitted to other parts of the living body 100 through the living body 100.
[0005]
In addition, the transceiver 3 receives the electric field induced and transmitted to the living body 100 from another transceiver 3 attached to another part of the living body 100 by the transmission / reception electrode 105 through the insulating film 107, and receives the received electric field. The electric field is coupled to the electric field detection optical unit 110 and converted into an electric signal. This electric signal is subjected to signal processing such as amplification and noise removal by the signal processing circuit 113, further waveform-shaped by the waveform shaping circuit 115 and converted into a digital signal, and then transmitted to the wearable computer 1 via the input / output circuit 101. It comes to be supplied.
[0006]
The electric field detection optical unit 110 of the transceiver 3 detects an electric field that is induced and transmitted to the living body 100 and is coupled through the insulating film 107 and the transmission / reception electrode 105, converts the electric field into an electric signal, and outputs the electric signal to the signal processing circuit 113. Although it functions as described above, the details are configured as shown in FIG.
[0007]
An electric field detection optical unit 110 shown in FIG. 9 detects an electric field by an electro-optical technique using laser light and an electro-optical crystal, and includes an electro-optical element composed of a laser diode 121 and an electro-optical crystal constituting a laser light source. 123. The electro-optical element 123 is sensitive to an electric field coupled in a direction perpendicular to the traveling direction of the laser light from the laser diode 121, and the optical characteristics, that is, the birefringence changes depending on the electric strength. The polarization of the laser beam is changed by the change of the birefringence.
[0008]
First and second electrodes 125 and 127 are provided on both side surfaces of the electro-optic element 123 facing in the vertical direction in the drawing. The first and second electrodes 125 and 127 sandwich the traveling direction of the laser light from the laser diode 121 in the electro-optic element 123 from both sides, and couple the electric field to the laser light at a right angle. Yes.
[0009]
The electric field detection optical unit 110 has the same transmission / reception electrode 105 as shown in FIG. 8, and the transmission / reception electrode 105 is connected to the first electrode 125. Further, the second electrode 127 facing the first electrode 125 is connected to the first ground electrode 131 and is configured to function as a ground electrode with respect to the first electrode 125. When the transmission / reception electrode 105 detects the electric field induced and transmitted to the living body 100, the transmission / reception electrode 105 transmits the electric field to the first electrode 125 and is coupled to the electro-optic element 123 via the first electrode 125. .
[0010]
Laser light output from the laser diode 121 is converted into parallel light through a collimator lens 134, and the laser light that has become parallel light is adjusted in polarization state by the first wave plate 135 and enters the electro-optical element 123. The laser light incident on the electro-optical element 123 propagates between the first and second electrodes 125 and 127 in the electro-optical element 123. During the propagation of the laser light, the transmission / reception electrode 105 is connected to the living body 100 as described above. When the electric field induced and transmitted is coupled to the electro-optic element 123 via the first electrode 125, the electric field is connected to the first ground electrode 131 from the first electrode 125. Since it is formed toward the electrode 127 and is perpendicular to the traveling direction of the laser light incident on the electro-optic element 123 from the laser diode 121, the birefringence, which is the optical characteristic of the electro-optic element 123, changes, thereby causing the laser. The polarization of light changes.
[0011]
In this way, the laser light whose polarization has been changed by the electric field from the first electrode 125 in the electro-optic element 123 is adjusted in polarization state by the second wave plate 137 and is incident on the polarization beam splitter 139. The polarization beam splitter 139 separates the laser light incident from the second wave plate 137 into P waves and S waves and converts them into changes in light intensity. The laser beams separated into the P wave component and the S wave component by the polarization beam splitter 139 are condensed by the first and second condenser lenses 141a and 141b, respectively, and then the first and second photodiodes 143a and 143b. In the first and second photodiodes 143a and 143b, the P-wave optical signal and the S-wave optical signal are converted into respective electric signals and output.
[0012]
As described above, the electric signals output from the first and second photodiodes 143a and 143b are subjected to signal processing such as amplification and noise removal by the signal processing circuit 113 shown in FIG. The waveform is shaped and supplied to the wearable computer 1 via the input / output circuit 101.
[0013]
Note that in the conventional transceiver configured as described above, the transmission / reception electrode 105 is configured integrally with the transceiver body, or the ground electrode for the electro-optical element 123 or the ground electrode for the circuit is not particularly provided. Is also configured integrally with the transceiver body.
[0014]
[Patent Document 1]
JP 2001-352298 A
[0015]
[Patent Document 2]
JP 2001-298425 A
[0016]
[Problems to be solved by the invention]
In the conventional transceiver described above, all of the electric field injected from the transmission / reception electrode 105 into the living body 100 may be transmitted from the transmission / reception electrode 105 of the other transceiver to the electro-optical element 123 of the electric field detection optical unit 110 through the living body 100. However, in the conventional transceiver, the transmission / reception electrode 105 is configured integrally with the transceiver body, or the ground electrode for the electro-optic element 123 and the circuit ground electrode are not particularly provided, or even if provided, the transceiver body is configured integrally with the transceiver body. Therefore, the electric field injected into the living body 100 not only leaks from the living body 100 to the earth ground, but also cancels out unnecessary electromagnetic waves or anti-phase electric fields mixed in from the ground electrodes of the transceiver. The electric field induced by 100 and the electric field coupled to the electro-optic element 123 are reduced, and communication quality is reduced. There is a problem of deterioration.
[0017]
The transceiver operates without providing a ground electrode in the electro-optical element 123. However, when the ground electrode is not provided, the electric field coupled to the electro-optical element 123 is lowered to deteriorate communication quality. is there.
[0018]
Further, when a ground electrode is not provided in the transceiver transmission circuit 103, signal processing circuit 113, waveform shaping circuit 115, or the like, the ground of the circuit is shaken and the electric field strength induced in the living body is reduced, so that the communication quality is improved. There is a problem of deterioration.
[0019]
Still further, for example, when two persons wearing wearable computers on their arms or the like shake hands through a transceiver and try to communicate data between the two wearable computers via the transceiver, in the conventional transceiver, the transmitting and receiving electrodes are the transceiver body. Or the ground electrode for the electro-optical element 123 or the circuit ground electrode is not provided, or even if provided, it is configured integrally with the transceiver main body, so that it is induced to the living body from the transceiver. There is a problem that the electric field for two people escapes from both feet to the ground, and the amount of electric field transmitted to the transceiver of the other party is reduced, so that the communication quality is deteriorated. When trying to make such a transceiver, it is necessary to use a lot of expensive parts. There is a problem that becomes expensive.
[0020]
The present invention has been made in view of the above, and the object of the present invention is to induce the electric field efficiently in the electric field transmission medium by separating the ground electrode from the transmitting and receiving electrodes as much as possible, and to release an unnecessary electric field to the ground. It is an object of the present invention to provide a data communication device using a transceiver for improving communication quality and a bag for storing a data communication device capable of accommodating such a device.
[0021]
[Means for Solving the Problems]
To achieve the above object, the present invention according to claim 1 is directed to a data communication apparatus using a transceiver for inducing an electric field based on information to be transmitted in an electric field transmission medium and transmitting / receiving information using the induced electric field. A contact part formed of an insulator and in contact with an electric field transmission medium, and a transmission / reception that is formed at the contact part, induces an electric field to the electric field transmission medium, and receives the electric field induced in the electric field transmission medium An electrode, an insulator, and a non-contact portion that is not in contact with the electric field transmission medium, and an insulator, which connects the contact portion and the non-contact portion to make it difficult to transmit an electric field between the contact portion and the non-contact portion. A transceiver connected to the transmitting / receiving electrode and connected to the transmitting / receiving electrode, and performing data communication by an electric field via the transmitting / receiving electrode; and And a computer for transmitting transmission data to the transceiver and receiving reception data from the transceiver, and a function disposed in the non-contact portion for efficiently coupling an electric field to the electro-optic element in the transceiver and the electrical circuit of the transceiver And a ground electrode having a function of strengthening the ground.
[0022]
In the first aspect of the present invention, the transmitter / receiver electrode is disposed at the contact portion, and the transceiver, the computer, and the ground electrode are disposed at the non-contact portion where the electric field is not easily transmitted between the contact portion and the contact portion. In order to perform data communication with an electric field from a computer via a transceiver and a transmission / reception electrode, for example, a bag having a contact part and a non-contact part with a hand of a bag and a bag body containing an object, the ground electrode is a bag close to the ground. The electric field communication can be performed from the computer and the transceiver through the transmission / reception electrode through the transmission / reception electrode using the living body as the electric field transmission medium while the person holds the grip portion and carries the computer and the transceiver, in this case, in this case, the transmission / reception electrode and the computer, Separated from the transceiver and ground electrode so that the electric field is difficult to transfer and separated and stored separately. Therefore, unnecessary electromagnetic waves and anti-phase electric fields from transceivers, computers, ground electrodes, etc. are released to the ground, and such unnecessary electromagnetic waves and anti-phase electric fields are mixed into the transmitting and receiving electrodes. This significantly reduces the electric field at the transmitting and receiving electrodes, and the transmitting and receiving electrodes can efficiently induce the necessary electric field in the living body, perform data communication accurately, and improve communication quality. can do.
[0023]
According to a second aspect of the present invention, there is provided a bag body formed of an insulator and containing an object, a grip portion formed of an insulator and gripped to suspend the bag body, and an insulator. , Connecting the bag body and the gripping part, inducing the electric field to the electric field transmission medium that is formed in the gripping part and contacting the gripping part to connect the bag body and the gripping part to make it difficult to transmit the electric field. The transmitter / receiver electrode for receiving the electric field induced in the medium, the bag body or the gripping part, or the transmitter / receiver electrode are provided on the bag body, the transmitter / receiver electrode connection part for connecting the transmitter / receiver electrode to other electrical components, and the bag body. And a ground electrode having a ground electrode connecting portion for connection to another electrical component.
[0024]
In the present invention described in claim 2, the ground electrode is disposed on the bag body formed of an insulator, and the electric field is not easily transmitted between the bag body for suspending the bag body. Since the transmission / reception electrode is arranged on the gripping part to constitute the bag for storing the data communication device, the transceiver and the computer are separately accommodated in the bag body, and the transceiver is connected to the transmission / reception electrode and the ground electrode. A person can carry a computer and a transceiver while using a living body as an electric field transmission medium to perform electric field communication from the computer and the transceiver via the transmission / reception electrode. In this case, an electric field is generated between the transmission / reception electrode and the computer, the transceiver, and the ground electrode. By being separated and separated and contained separately so that it is difficult to communicate Unnecessary electromagnetic waves and anti-phase electric fields from transceivers, computers, ground electrodes, etc. are released to the ground, and such unnecessary electromagnetic waves and anti-phase electric fields are significantly reduced from entering the transmitting and receiving electrodes. This prevents the electric field at the transmission / reception electrode from being reduced, and the transmission / reception electrode can efficiently induce the necessary electric field in the living body, perform data communication accurately, and improve communication quality. A device storage bag can be provided, and since this data communication device storage bag does not have a specific transceiver or computer from the beginning, it is possible to use a transceiver or computer that is already owned by the user, or even to prepare it in advance. Any transceiver or computer selected according to the user's application Suitably mounted can be used, it is possible to improve convenience.
[0025]
Furthermore, the present invention described in claim 3 is characterized in that, in the invention described in claim 2, the transmission / reception electrode connection portion and the ground electrode connection portion have terminals or connectors for connecting wires.
[0026]
In the present invention described in claim 3, since the transmission / reception electrode connection portion and the ground electrode connection portion have terminals or connectors, the transmission / reception electrodes and ground electrodes can be easily attached to the transceiver using these terminals and connectors. Can do.
[0027]
A fourth aspect of the present invention is the invention according to the second or third aspect, wherein the present invention has a fixing bracket provided in the bag body and for fixing at least one of the transceiver, the computer and the electric device. And
[0028]
In the present invention according to claim 4, since there is a fixing bracket for fixing one or more of the transceiver, the computer, and the electric device, the device such as the transceiver, the computer, the electric device, etc. is included in the bag body. Easy to install.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing a configuration of a data communication apparatus according to an embodiment of the present invention.
[0030]
The data communication apparatus 100 according to the embodiment shown in the figure includes a transceiver 31 configured almost in the same manner as that shown in FIG. 8, a computer connected to the transceiver 31 and connected via an input / output circuit thereof. For example, a non-contact part 30 having a structure such as a bag main body that accommodates the mobile terminal 33 and the ground electrode 35 for the transceiver 31 is connected to the non-contact part 30 via the connection unit 40 so as to suspend the non-contact part 30. The contact portion 50 has a structure like a bag holding portion that can be held by a hand.
[0031]
The contact part 50 is formed of an insulator and is grasped by a living body hand or the like constituting the electric field transmission medium. The transmission / reception for inducing an electric field to the living body and receiving the electric field induced in the living body. In FIG. 1, the electrode 51 is formed, for example, by being attached to the upper surface of the contact portion 50 so as to be farthest from the ground electrode 35 in the non-contact portion 30, thereby efficiently inducing an electric field from the transmission / reception electrode 51 to the living body. ing.
[0032]
In addition, an insulating film 53 is provided on the transmission / reception electrode 51 to prevent a living body from directly touching the transmission / reception electrode 51. The transmission / reception electrode 51 is connected to a transceiver 31 provided in the non-contact region 30 via a lead wire.
[0033]
The connection part 40 that connects the contact part 50 and the non-contact part 30 is formed of an insulator, and is configured to make it difficult to transmit an electric field between the contact part 50 and the non-contact part 30.
[0034]
The non-contact part 30 is formed of an insulator and accommodates the transceiver 31, the portable terminal 33, and the ground electrode 35. The ground electrode 35 is located in the non-contact part 30 so as to be farthest from the transmission / reception electrode 51 of the contact part 50. In this case, an unnecessary electric field can be released to the ground.
[0035]
The ground electrode 35 has a function of efficiently coupling an electric field to the electro-optical element 123 in the electric field detection optical unit 110 described with reference to FIG. 9 of the transceiver 31 and efficiently extracting the combined electric field. The transceiver 31 has a function of strengthening the ground of the circuits such as the transmission circuit 103, the signal processing circuit 113, and the waveform shaping circuit 115 described with reference to FIG. In FIG. 1, although shown as one ground electrode 35, this is separated into a ground electrode for the electro-optical element 123 and a ground electrode for a circuit, or a ground electrode for the electro-optical element 123 and transmission It is preferable that the circuit 103 and the ground electrode for the receiving circuit including the signal processing circuit 113 and the waveform shaping circuit 115 are separated.
[0036]
The data communication apparatus 100 according to the present embodiment configured as described above is used by a human being, who is a living body constituting the electric field transmission medium, holding the contact part 50 having a structure like a bag holding part by hand. Data communication is performed with another portable terminal or the like attached to the body, which is another part of the living body, via a transceiver.
[0037]
In this data communication, transmission data from the portable terminal 33 accommodated in the non-contact part 30 having a structure like a bag body is supplied from the transceiver 31 to the transmission / reception electrode 51, and the electric field is transmitted from the transmission / reception electrode 51 through the insulating film 53. And transmitted to another transceiver attached to another site. In addition, the electric field transmitted from the other transceiver to the living body is received by the transmission / reception electrode 51 attached to the contact site 50 and sent to the transceiver 31. The transceiver 31 detects this electric field and supplies it to the portable terminal 33 as received data.
[0038]
In the data communication apparatus that performs data communication in this way, the transmission / reception electrode 51 is attached to the upper surface of the contact part 50, and the ground electrode 35 is attached to the bottom closest to the ground in the non-contact part 30. Since both are arranged apart from each other, unnecessary electromagnetic waves and anti-phase electric fields from the transceiver 31, the portable terminal 33, and the ground electrode 35 are released to the ground, and such unnecessary electromagnetic waves and anti-phase are generated. The electric field or the like is significantly reduced from being mixed into the transmission / reception electrode 51, thereby preventing the electric field at the transmission / reception electrode 51 from being lowered. The transmission / reception electrode 51 can efficiently induce the necessary electric field in the living body, and data communication can be performed accurately. Communication quality can be improved.
[0039]
Next, with reference to FIG. 2, a data communication device and a bag for storing the data communication device according to another embodiment of the present invention will be described.
[0040]
The data communication apparatus 200 shown in the figure uses a bag 70 for storing data communication apparatus comprising a bag main body 71 having substantially the same configuration as the non-contact part 30 shown in FIG. Thus, the data communication apparatus 200 is configured.
[0041]
The bag body 71 which is a non-contact part is entirely covered with an insulator 91, and further includes a battery 37 in addition to the transceiver 31, the portable terminal 33 and the ground electrode 35. The mobile terminal 33 is, for example, a general-purpose mobile terminal that is commercially available, and is connected to the transceiver 31 by a communication cable 39. Further, the ground electrode 35 is disposed flat on the bottom of the bag body 71 away from the grip portion 73.
[0042]
In addition, the grip portion 73 that is a contact portion is formed of an insulator and is attached to the upper surface of the bag body 71 so that a person can hold the bag body 71 by suspending it by hand. A transmission / reception electrode 51 is attached to the grip portion 73, and the transmission / reception electrode 51 is connected to the transceiver 31 via a lead wire 52. When a person holds the grip portion 73 with a hand, a hand that is a part of the living body touches the transmission / reception electrode 51, an electric field is induced from the transmission / reception electrode 51 to the hand, and is transmitted from another part of the living body to the hand. The induced electric field is received by the transmission / reception electrode 51, and the received electric field is sent to the transceiver 31.
[0043]
Although not shown, the gripping portion 73 is connected to the upper surface of the bag main body 71 via a connection portion having a function like the connection portion 40 shown in FIG. 1, whereby the gripping portion 73 and the bag main body 71 are connected. This connection portion is not visible in FIG. 2 although it is difficult to transmit the electric field between the two. Further, even if the gripping portion 73 is connected to the bag main body 71 without providing such a connection portion, the entire outer side of the bag main body 71 is covered with the insulator 91 in the present embodiment. The electric field is difficult to be transmitted between the bag bodies 71.
[0044]
In the data communication device 200 configured to be accommodated in the data communication device storage bag 70 as described above, the transmission / reception electrode 51 is attached to the grip portion 73, and the ground electrode 35 is connected to the ground ground in the bag body 71. Since they are flatly attached to the nearest bottom part and are separated from each other, unnecessary electromagnetic waves from the transceiver 31, the portable terminal 33, the ground electrode 35, etc. or an anti-phase electric field escape to the ground. Thus, such unwanted electromagnetic waves and anti-phase electric fields are significantly reduced from entering the transmission / reception electrode 51, thereby preventing the electric field at the transmission / reception electrode 51 from being lowered. It can be efficiently induced in a living body, data communication can be performed accurately, and communication quality can be improved.
[0045]
In addition, when two persons hold the grip portion 73 with one hand and hold the other hand while holding the data communication apparatus 200 configured as described above, for example, as shown in FIG. Data communication can be performed between the devices 200 from the respective mobile terminals 33 via the transceiver 31. In this case, in each data communication device 200 of the present embodiment, the transmission / reception electrode 51 is provided far away from the ground electrode 35. The transmitter / receiver electrode 51 is completely isolated by the insulator 91 from the bag main body 71 containing the transceiver 31, the portable terminal 33, the ground electrode 35, etc., so that it is unnecessary from the transceiver 31, the portable terminal 33, the ground electrode 35, etc. Electromagnetic waves and antiphase electric fields are released to the ground and mixed into the transmitting / receiving electrode 51. Even if the electric field induced by two persons who are living bodies from the transceiver 31 through the transmission / reception electrode 51 escapes from the feet of the two people to the ground and the electric field strength decreases, data communication Can be performed satisfactorily. By arranging the transmitting / receiving electrode 51 and the ground electrode 35 apart from each other in this manner, the transceiver 31 can be economically configured with inexpensive parts without using many expensive parts for the transceiver 31.
[0046]
Further, FIG. 6 has the data communication device 200 shown in FIG. 2 instead of the wearable computer 1 and the transceiver 3 attached to the human arm as shown in FIG. Shows a state in which data communication is being performed via a cable with a personal computer (PC) 5 provided outside via the transceivers 3a and 3b touched. As in the case of FIG. 5, in the data communication device 200 attached to the arm, the transmission / reception electrode 51 is provided far from the ground electrode 35, and the transmission / reception electrode 51 accommodates the transceiver 31, the portable terminal 33, the ground electrode 35, and the like. Since it is completely isolated from the bag body 71 by the insulator 91, the transceiver 31, the portable terminal 33, the ground power Such unnecessary electromagnetic waves and antiphase electric field from such 35 is significantly reduced, which is released to the earth ground is mixed to the transceiver electrode 51, it is possible to perform data communication good.
[0047]
In the embodiment shown in FIG. 2, the data communication device storage bag 70 is configured such that the transceiver 31, the portable terminal 33, the battery 37, and the like are fixedly attached to constitute the data communication device 200. The transceiver 31, the portable terminal 33, the battery 37 and the like do not need to be provided in the bag body 71 from the beginning. As the data communication device storage bag 70, the bag body 71, the grip portion 73, the connection portion between them, the grip The transmitter / receiver electrode 51 provided in the section 73, the transmitter / receiver electrode 51 connected to the transceiver 31, which is another electrical component, for example, a transmitter / receiver electrode connection portion comprising a terminal, a connector, etc. For example, a terminal or a connector for connecting the ground electrode 35 and the ground electrode 35 to the transceiver 31 which is another electrical component. Kuta in which only needs to comprise a ground electrode connecting portion made of.
[0048]
The transmission / reception electrode connection portion may be provided in the bag main body 71 by being wired with a lead wire from the transmission / reception electrode 51, or may be provided in the grip portion 73, or directly on the transmission / reception electrode 51 itself. It may be provided. The ground electrode connecting portion may be provided by directly attaching a terminal, a connector, or the like to the ground electrode 35 itself, or may be provided at an appropriate place from the ground electrode 35 via a lead wire. It ’s good.
[0049]
That is, the data communication device storage bag 70 only needs to include the ground electrode 35, the ground electrode connection unit, the transmission / reception electrode 51, and the transmission / reception electrode connection unit in addition to the bag main body 71 and the gripping unit 73. In such a bag 70 for storing data communication devices, a transceiver, a portable terminal, etc. owned by the user himself / herself or a transceiver or a portable terminal purchased separately are appropriately arranged in the bag main body 71, and then the transmission / reception electrode. The user's own transceiver and the transmission / reception electrode 51 may be connected using the connection section for the user, and the user's own transceiver and the ground electrode 35 may be connected using the connection section for the ground electrode. In addition, a transceiver fixing bracket, a portable terminal fixing bracket, and the like are appropriately provided in the bag main body 71 so that such a transceiver and a portable terminal owned by the user can be fixedly arranged in the bag main body 71. It may be done.
[0050]
In each of the above-described embodiments, the case where the portable terminal 33 is connected to the transceiver 31 has been described. However, what is connected to the transceiver 31 is not limited to the portable terminal 33, but a mobile phone or a notebook computer. It is possible to connect various data communication apparatuses and computers such as the above.
[0051]
Next, a data communication device according to another embodiment of the present invention will be described with reference to FIG.
[0052]
The data communication apparatus 300 shown in the figure is different from the data communication apparatus 200 described with reference to FIG. 2 in that a computer 32 and a small recording medium 34 are used instead of the portable terminal 33. The configuration of the bag 70 is the same, and the same components are denoted by the same reference numerals. The small recording medium 34 is constituted by, for example, a flash memory or a hard disk, and is detachably attached to the bag main body 71 of the bag 70 for storing the data communication device.
[0053]
Similarly to the data communication apparatus 200 shown in FIG. 2, the data communication apparatus 300 configured as described above can perform data communication as shown in FIGS. 5 and 6, and in this data communication, As shown in FIG. 2, 300 transmission / reception electrodes 51 are provided far away from the ground electrode 35, and the transmission / reception electrode 51 is a bag body 71 containing the transceiver 31, the computer 32, the small recording medium 34, the ground electrode 35, and the like. Are completely isolated from each other by an insulator 91, and therefore unnecessary electromagnetic waves and electric fields having opposite phases from the transceiver 31, the computer 32, the small recording medium 34, the ground electrode 35, and the like are released to the ground and transmitted and received. In particular, data communication can be performed satisfactorily.
[0054]
Next, a data communication apparatus according to yet another embodiment of the present invention will be described with reference to FIG.
[0055]
The data communication apparatus 400 shown in the figure includes a transceiver 31 (referred to as the first transceiver 31 in the present embodiment) similar to that described above in the data communication apparatus storage bag 70 having the same configuration as described in FIG. In addition to the ground electrode 35 and the battery 37, a second transmission / reception electrode 36 connected to the first transceiver 31 is newly provided in the bag body 71, and another portable terminal 61, second transceiver 62, second The third transmitting / receiving electrode 63 of the transceiver 62 is accommodated in the bag main body 71, and a relatively large electric field transmission medium 65 made of, for example, metal is attached to the side wall of the bag main body 71, and the first transceiver is attached to the electric field transmission medium 65. 31 is connected to the third transmission / reception electrode 63 of the second transceiver 62, whereby the electric field transmission medium is connected. 65, data communication can be performed between the computer 32 and the portable terminal 61 in the data communication device storage bag 70 via the second transmission / reception electrode 36, the third transmission / reception electrode 63, the first transceiver 31 and the second transceiver 62. It is what you are doing. The transmission / reception electrode 51 attached to the grip portion 73 is a first transmission / reception electrode.
[0056]
In the data communication apparatus 400 configured as described above, measures and effects for unnecessary electromagnetic waves, antiphase electric fields, and the like are the same as those of the data communication apparatuses of the above-described embodiments, and data communication is performed satisfactorily. Of course you can.
[0057]
【The invention's effect】
As described above, according to the present invention, the transmitter / receiver electrode is disposed at the contact portion, and the transceiver, the computer, and the ground electrode are disposed at the non-contact portion where the electric field is not easily transmitted between the contact portion and the contact portion. Since data communication is performed by electric field from a computer via a transceiver and a transmission / reception electrode, if a bag body having a contact part and a non-contact part with a hand of a bag and a bag body containing an object is used, the ground electrode is a bag close to the ground. The electric field communication can be performed from the computer and the transceiver through the transmission / reception electrode using the living body as the electric field transmission medium while the person holds the grip portion and carries the computer and the transceiver, and in this case, the transmission / reception electrode and the computer, Separated from the transceiver and ground electrode so that the electric field is difficult to transmit and separated and accommodated separately Therefore, unwanted electromagnetic waves and anti-phase electric fields from transceivers, computers, ground electrodes, etc. are released to the ground, and such unnecessary electromagnetic waves and anti-phase electric fields are mixed into the transmitting and receiving electrodes. This significantly reduces the electric field at the transmitting and receiving electrodes, and the transmitting and receiving electrodes can efficiently induce the necessary electric field in the living body, perform data communication accurately, and improve communication quality. can do.
[0058]
Further, according to the present invention, a ground electrode is disposed on a bag body formed of an insulator, and transmission / reception is performed with a gripping portion configured to prevent an electric field from being transmitted between the bag body and the bag body for suspending the bag body. Since the electrode is installed to form a bag for storing data communication devices, a transceiver and a computer are separately stored in the bag body, and the transceiver is connected to the transmission / reception electrode and the ground electrode, so that a person holds the gripping part. While carrying the computer and the transceiver, it is possible to perform electric field communication from the computer and the transceiver through the transmission / reception electrode using the living body as an electric field transmission medium. In this case, the transmission / reception electrode and the computer, the transceiver, and the ground electrode are unlikely to transmit the electric field. Are separated and separated and stored separately. Unnecessary electromagnetic waves and anti-phase electric fields from the bar, computer, ground electrode, etc. are released to the earth ground, and such unnecessary electromagnetic waves and anti-phase electric fields are significantly reduced from entering the transmitting and receiving electrodes, This prevents the electric field at the transmission / reception electrode from being reduced, and the transmission / reception electrode can efficiently induce the necessary electric field in the living body, perform data communication accurately, and improve communication quality. A device storage bag can be provided, and since this data communication device storage bag does not have a specific transceiver or computer from the beginning, it is possible to use a transceiver or computer that is already owned by the user, or even to prepare it in advance. Any transceiver or computer selected according to the user's application Only able to use, it is possible to improve convenience.
[0059]
Furthermore, according to the present invention, since the transmission / reception electrode connection portion and the ground electrode connection portion have terminals or connectors, the transmission / reception electrodes and ground electrodes can be easily attached to the transceiver using the terminals and connectors.
[0060]
According to the present invention, since the fixing bracket for fixing any one or more of the transceiver, the computer, and the electric device is provided, devices such as the transceiver, the computer, the electric device, and the like can be easily mounted in the bag body.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a data communication apparatus according to an embodiment of the present invention.
FIG. 2 is a diagram showing a configuration of a data communication device and a bag for storing data communication device according to another embodiment of the present invention.
FIG. 3 is a diagram showing a configuration of a data communication apparatus according to another embodiment of the present invention.
FIG. 4 is a diagram showing a configuration of a data communication apparatus according to still another embodiment of the present invention.
FIG. 5 is an explanatory diagram showing an application example of the data communication apparatus according to the embodiment shown in FIGS. 2 and 3;
6 is an explanatory diagram showing another application example of the data communication apparatus of the embodiment shown in FIGS. 2 and 3. FIG.
FIG. 7 is an explanatory diagram showing an example in which a wearable computer is worn on a person via a transceiver and used.
FIG. 8 is a block diagram showing a circuit configuration of a transceiver for attaching a wearable computer to a living body.
9 is a diagram showing a configuration of an electric field detection optical device used in the transceiver shown in FIG. 8. FIG.
[Explanation of symbols]
30 Non-contact area
31,62 transceiver
32 computers
33,61 portable terminal
34 Small recording media
35 Ground electrode
36, 51, 63 Transmitting and receiving electrodes
37 battery
40 connections
50 contact area
53 Insulating film
65 Electric field transmission medium
70 Bag for storing data communication device
71 Bag body
73 gripping part
91 Insulator
100, 200, 300, 400 Data communication device

Claims (4)

A data communication device using a transceiver that induces an electric field based on information to be transmitted in an electric field transmission medium, and transmits and receives information using the induced electric field,
A contact portion formed of an insulator and in contact with the electric field transmission medium;
A transmission / reception electrode that is formed in the contact portion, induces an electric field to the electric field transmission medium, and receives the electric field induced in the electric field transmission medium;
A non-contact portion formed of an insulator and not in contact with the electric field transmission medium;
A connection part that is formed of an insulator, connects the contact part and the non-contact part, and makes it difficult to transmit an electric field between the contact part and the non-contact part;
A transceiver disposed in the non-contact portion, connected to the transmission / reception electrode, and performing data communication by an electric field through the transmission / reception electrode;
A computer disposed at the non-contact site, connected to the transceiver, providing transmission data to the transceiver and receiving received data from the transceiver;
A data communication having a ground electrode disposed in the non-contact portion and having a function of efficiently coupling an electric field to an electro-optical element in the transceiver and a function of strengthening a ground of an electric circuit of the transceiver apparatus. A bag body formed of an insulator and containing objects;
A gripping part formed of an insulator and gripped to suspend the bag body;
A connection part that is formed of an insulator, connects the bag body and the gripping part, and makes it difficult to transmit an electric field between the bag body and the gripping part;
A transmission / reception electrode that is formed in the gripping part, induces an electric field to the electric field transmission medium in contact with the gripping part, and receives the electric field induced in the electric field transmission medium;
A transmission / reception electrode connection part for connecting the transmission / reception electrode to another electrical component, provided on the bag body or the gripping part or the transmission / reception electrode;
A bag for housing a data communication device, comprising: a ground electrode disposed on the bag body and having a ground electrode connection portion for connection to another electrical component. 3. The bag for housing a data communication device according to claim 2, wherein the transmission / reception electrode connection portion and the ground electrode connection portion have terminals or connectors for connecting wirings. 4. The bag for storing a data communication device according to claim 2, further comprising a fixing bracket provided in the bag body for fixing at least one of a transceiver, a computer, and an electric device.

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