JP4089100B2 - Mobile phone connection device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a connection device for connecting to a mobile phone and an external device via an external connection connector provided on the mobile phone.
[0002]
[Prior art]
Conventionally, mobile phones have been provided with input / output terminals for sending and receiving signals and data to and from external devices. By connecting to a mobile computer via this input / output terminals, mobile phone lines can be used. Data communication is possible. In addition, in a car or the like, a mobile phone is connected to a so-called hands-free call device, and voice signals are exchanged via an input / output terminal so that a call can be made without holding the mobile phone body. Yes.
[0003]
[Problems to be solved by the invention]
By the way, mobile phones are inherently superior in portability and are mostly used with the user's body, and should be used while connected exclusively to external devices. There are few. That is, every time a user of a mobile phone uses a combination of an external device and a mobile phone, the connection and separation of the input / output terminal of the mobile phone and the connector connected to the external device are repeated, which is troublesome. is there.
[0004]
In addition, when the connection and disconnection between the input / output terminals of the mobile phone and the connector on the external device side are repeated, it is unlikely that problems will occur under normal usage conditions. If this happens, stress will be repeatedly applied to the periphery of the input / output terminals, resulting in trouble in the electrical connection around the input / output terminals, and thus the connection between the mobile phone and the external device can be achieved. It may disappear.
[0005]
The present invention has been made in view of the above problems, and it is an object of the present invention to enable easy connection between a mobile phone and an external device via an input / output terminal, and to prevent problems in the connection. To do.
[0006]
[Means for Solving the Problems and Effects of the Invention]
In order to solve the above-mentioned problems, the present invention (claim 1) provides a connection device for connecting a mobile phone having an input / output terminal for connecting an external device and the external device via the input / output terminal. And it consists of an adapter and an installation base.
[0007]
The adapter has a connector that can be attached to and detached from the input / output terminal of the mobile phone, and is configured to be attachable to the mobile phone by connecting the connector to the input / output terminal of the mobile phone. The adapter attached to the mobile phone is formed in a shape that can be installed together with the mobile phone, and is configured to be connectable to an external device to be connected to the mobile phone.
[0008]
The adapter and the installation base are each provided with communication means. These communication means are configured such that when the adapter is installed on the installation base, the two can communicate with each other (between the adapter and the installation base) without contact with each other, and between the mobile phone and the external device. For relaying communications.
[0009]
When using the mobile phone connection device of the present invention thus configured (Claim 1) (hereinafter also simply referred to as “connection device”), the connector is connected to the input / output terminal of the mobile phone. The adapter is attached to the mobile phone, and the installation base is connected to an external device to be connected to the mobile phone. When it is necessary to carry the mobile phone with the adapter attached to the mobile phone and connect the mobile phone to an external device, the mobile phone is mounted on the installation stand as it is (that is, with the adapter attached). Set (install). When the adapter is installed on the installation table, communication is performed between the two communication means, and the mobile phone is connected to an external device via the adapter and the installation table. At this time, since both communication means are configured to be able to communicate with each other in a non-contact manner, the adapter and the installation base are stressed to a degree that is caused by placing the adapter on the installation base (that is, the cellular phone and the adapter). Only weight).
[0010]
That is, according to the connection device of the present invention (Claim 1), if the adapter is connected to the input / output terminal of the mobile phone and the installation table is connected to the external device, the mobile phone is installed on the installation table. Thus, the connection between the mobile phone and the external device can be achieved, and the connection between the mobile phone and the external device can be disconnected simply by removing the mobile phone from the installation base.
[0011]
In other words, according to the connection device of the first aspect, when connecting and disconnecting the mobile phone and the external device, it is not necessary to connect and disconnect the connector to and from the input / output terminal of the mobile phone each time. It becomes simple. And since the frequency with which stress is applied to the input / output terminals is reduced, it is possible to suppress the occurrence of connection failure around the input / output terminals.
[0012]
  In addition, since the adapter and the installation base are only subjected to a stress that is generated by placing the adapter on the installation base, the adapter and the installation base are portable even if the adapter is placed on the installation base and removed from the installation base repeatedly. Occurrence of poor connection between the telephone and the external device can be suppressed.
On the other hand, it is necessary to supply power for performing communication operations to these communication means. For example, the communication means on the adapter side may be supplied with power from the battery provided inside the mobile phone via the input / output terminal and the connector, or the battery is built in the adapter and the adapter is built-in. Power may be supplied from the battery. In addition, the communication means on the installation base side may be supplied with electric power from the outside (for example, from an external device or from a vehicle battery via a so-called cigar socket in the case of vehicle installation). A battery may be built in, and power may be supplied from the battery built in the installation base.
However, in any case, it is necessary to supply power to these communication means when the cellular phone is installed (placed) together with the adapter and when the cellular phone is carried, Absent. If power is always supplied to the communication means even when the mobile phone is being carried, the power is wasted.
Therefore, when the installation state of the adapter on the installation base is detected and the adapter is not installed on the installation base, communication power cutoff means for shutting off the power supply to each communication means is provided on the adapter and the installation base, respectively. It is.
Specifically, the adapter includes a primary coil through which an alternating current flows while power is supplied to the communication means of the adapter. Further, the communication power cut-off means for the installation table includes a secondary coil disposed at a position close to the primary coil when the adapter is installed on the installation table, and a secondary coil according to an alternating current flowing through the primary coil. And detecting means for detecting whether or not an induced current is generated. When the induced current is generated, power is supplied to the communication means of the installation base, and when the induced current is not generated. Shut off the power supply to the communication means of the installation base.
According to the connection device according to claim 1, configured as described above, each communication power cut-off means provided on the adapter and the installation base detects the installation state of the adapter on the installation base, and the adapter When not installed on the installation table, the power supply to each communication means is cut off. Therefore, when the mobile phone is not installed on the installation table (that is, the adapter is not installed on the installation table) and communication between the adapter and the installation table is not required, each communication means It is possible to suppress the wasteful consumption of power without supplying power (ie, power).
[0013]
Next, as a communication means that is provided on each of the adapter and the installation base and can communicate with each other in a non-contact manner, for example, a communication unit that communicates using radio waves as a medium is considered. However, when radio waves are used as mediators, there may be a problem in communication between the adapter and the installation base due to radio wave interference from other communication systems or radio noise effects.
[0014]
Therefore, as in the connection device according to the second aspect, each communication means may be configured to be able to communicate with each other by an optical signal. According to the connection device of claim 2 configured in this way, the communication means provided in the adapter and the installation base communicate with each other by optical signals, and therefore are affected by external radio waves and radio noise. Therefore, better communication can be achieved.
[0019]
A mobile phone operates with power from a built-in battery. However, when the remaining battery level is low, it is necessary to replace or charge the battery. However, it is troublesome to bother to remove the adapter from the mobile phone to replace or charge the battery, and stress is generated when the connector is connected or disconnected, and there is an electric current near the input / output terminal of the mobile phone. There is also a possibility that a malfunction of the general connection occurs.
[0020]
  So claims3As described, the adapter and installation base may be configured. That is, when the adapter is installed on the installation table, power transmission means capable of transmitting power in a non-contact manner from the installation table side to the adapter side is provided on the adapter and the installation table, and the adapter is installed from the installation table side to the adapter side. It is preferable to provide supply means for supplying the power transmitted by the power transmission means to the mobile phone via the connector.
[0021]
  Claims constructed in this way3According to the described connection device, when the adapter is installed on the installation table, power is transmitted from the installation table side to the adapter side by the power transmission unit of the adapter and the power transmission unit of the installation table. Therefore, power consumption from the built-in mobile phone battery can be suppressed, and the built-in battery can be charged. Therefore, it is not necessary to remove the adapter from the mobile phone for battery replacement or charging, and the troublesomeness related to the replacement or charging can be suppressed, and there is a problem in electrical connection near the input / output terminals of the mobile phone. Can be suppressed.
[0022]
Further, at this time, since the power transmission means of both (adapter and installation base) is configured to be able to transmit power without contact, the adapter and the installation base are generated by placing the adapter on the installation base. Only a moderate amount of stress (ie, about the weight of mobile phones and adapters) is applied. For this reason, even if the adapter is repeatedly placed on or removed from the installation base, it is possible to suppress the occurrence of a failure in the electrical connection around the power transmission means, and it is possible to satisfactorily connect to the mobile phone. Electric power can be supplied.
[0023]
In addition, it is necessary to supply the electric power which should be transmitted to the adapter side to the power transmission means on the installation base side. For this purpose, power may be supplied from the outside (for example, from an external device), or a battery may be built in the installation base, and power may be supplied from the battery built in the installation base.
[0024]
However, it is necessary to supply power to the power transmission means when the mobile phone is installed (placed) together with the adapter on the installation base, and when the mobile phone is carried, it is not necessary. If power is supplied to the power transmission means even when the mobile phone is being carried, the power is wasted.
[0025]
  Therefore, the claim4A connection device may be configured as described. In other words, the installation state of the adapter is detected, and when the adapter is not installed on the installation base, the power transmission power cutoff means for shutting off the power supply to the power transmission means is provided on the installation base.
[0026]
  Claims constructed in this way4According to the connection device described above, the power transmission power cutoff means provided on the installation table detects the installation state of the adapter on the installation table, and when the adapter is not installed on the installation table, the power transmission means Shut off the power supply. For this reason, when the mobile phone is not installed on the installation table (that is, when the adapter is not installed on the installation table), power is not supplied to the power transmission means (that is, power), and power is consumed wastefully. This is preferable because it can be suppressed.
[0027]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing an electrical configuration of a mobile phone connection device 2 (hereinafter simply referred to as “connection device 2”) as an embodiment. FIG. It is explanatory drawing for showing.
[0028]
The connection device 2 is configured for in-vehicle use, and includes an adapter 4 configured to be attachable to a mobile phone, and a cradle 6 as an installation base for installing the mobile phone to which the adapter 4 is attached. It is composed of
As shown in FIG. 2, the adapter 4 is formed in a shape suitable for mounting on the mobile phone 8, and has a size and shape that matches the housing of the mobile phone 8. Inside, an interface (I / F) unit 10 that exchanges data with the mobile phone 8, an optical communication unit 12 that exchanges data with the cradle 6, the I / F unit 10 and the optical communication unit 12. A battery 14 for supplying electric power to the cradle 6 and a secondary coil 16 for receiving electric power transmitted from the cradle 6 side by electromagnetic induction.
[0029]
Among these, the I / F unit 10 and the optical communication unit 12 are connected via a data line 18 so that data (various information such as voice information and character information) can be exchanged.
The I / F unit 10 has a connector 10 a corresponding to an input / output terminal (not shown) provided in the mobile phone 8. The connector 10a is formed in a shape corresponding to the input / output terminal of the mobile phone 8, and is configured to be connected to and disconnected from the input / output terminal by being inserted into and extracted from the input / output terminal.
[0030]
The optical communication unit 12 is for communicating with an optical communication unit 34 (described later) provided in the cradle 6 by using light (near infrared ray in the present embodiment) as a carrier wave. The optical communication unit on the cradle 6 side. A light emitting unit (not shown) for transmitting data to 34 and a light receiving unit (not shown) for receiving data from the optical communication unit 34 on the cradle 6 side are provided. The optical communication unit 12 corresponds to one of the communication means in the claims (that is, the communication means provided on the adapter side).
[0031]
The power supply path from the battery 14 to the I / F unit 10 and the optical communication unit 12 is provided with a switch 20 for intermittently supplying the power. The switch 20 is configured to be switched on (connected) or off (disconnected) by a magnetic force from the outside of the adapter 4. Specifically, as will be described later, the permanent magnet 54 provided in the cradle 6. It is switched by receiving the magnetic force. That is, the switch 20 corresponds to one of the communication power cut-off means (that is, the communication power cut-off means on the adapter side).
[0032]
Next, the secondary coil 16 has one terminal connected to the ground (that is, grounded) and the other terminal connected to the I / F unit 10 via the AC / DC converter 22. The secondary coil 16 corresponds to a primary coil 36 (described later) provided in the cradle 6 and generates an induction current (alternating current) corresponding to the alternating current flowing through the primary coil 36 on the cradle 6 side. To do.
[0033]
The AC / DC converter 22 is for converting the induced current generated in the secondary coil 16 into a direct current, and the converted direct current is supplied to the I / F unit 10, the connector 10 a, and the mobile phone 8. It is supplied to the mobile phone 8 through the input / output terminal. The secondary coil 16 corresponds to one of the power transmission means of the claims (that is, the power transmission means provided on the adapter side), and the AC / DC converter 22 and the I / F unit 10 are It corresponds to the supply means.
[0034]
A primary coil 26 is connected to the downstream side of the switch 20 of the adapter 4 (that is, the terminal on the opposite side of the switch 20 from the battery 14) via a DC / AC converter 24. The DC / AC converter 24 and the primary coil 26 are for detecting the installation state of the mobile phone 8 with respect to the cradle 6 as will be described later. The DC / AC converter 24 receives a direct current supplied from the battery 14. It is converted into an alternating current and supplied to the primary coil 26.
[0035]
On the other hand, the cradle 6 includes a concave accommodating portion 30 in which the adapter 4 attached to the mobile phone 8 can be installed (accommodated) while being attached to the mobile phone 8 (see FIG. 2). Inside the cradle 6 are an interface (I / F) unit 32 that exchanges data with an external device (also referred to as a rear device) to be connected to the mobile phone 8, and an optical communication unit 34 that exchanges data with the adapter 4. The primary coil 36 for transmitting power to the adapter 4 side, the power supplied from the outside (in this embodiment, from the vehicle battery via the cigar socket), the I / F unit 32, the optical communication unit 34, and the primary An external power supply input unit 38 for supplying the coil 36 is provided. Among these, the I / F unit 32 and the optical communication unit 34 are connected via a data line 40 so that data (various information such as voice information and character information) can be exchanged.
[0036]
The I / F unit 32 has an input / output terminal 32 a corresponding to a connector 42 connected to an external device to be connected to the mobile phone 8. The input / output terminal 32a is connected to the external device via a cable 42a connected to the external device, and can be connected to and disconnected from the connector 42 by inserting and extracting the connector 42 on the external device side. It is configured.
[0037]
The optical communication unit 34 is for communicating with the optical communication unit 12 provided in the adapter 4, and a light emitting unit (not shown) and an adapter for transmitting data to the optical communication unit 12 on the adapter 4 side. A light receiving unit (not shown) for receiving data from the four-side optical communication unit 12 is provided. The optical communication unit 34 corresponds to one of the communication means in the claims (that is, the communication means provided on the installation base side).
[0038]
In the power supply path from the external power supply input unit 38 to the I / F unit 32, the optical communication unit 34, and the primary coil 36, a switch 46 for interrupting the power supply is provided. The switch 46 is composed of a semiconductor element, and is switched on (connected) or off (disconnected) in accordance with a control signal from a detection unit 48 provided in the cradle 6.
[0039]
Furthermore, a secondary coil 50 corresponding to the primary coil 26 of the adapter 4 is provided inside the cradle 6, and the secondary coil 50 corresponds to an alternating current flowing through the primary coil 26 on the adapter 4 side. Induction current (alternating current) is generated. The detecting unit 48 detects whether or not an alternating current is generated in the secondary coil 50. When the alternating current is generated, the detection unit 48 turns on the switch 46, and the alternating current is not generated. Turn off.
[0040]
The secondary coil 50 and the detection unit 48 are for detecting the installation state of the adapter 4 with respect to the cradle 6 (that is, the mobile phone 8 to which the adapter 4 is attached). As will be described later, the switch 46 is turned on when the adapter 4 is housed (installed) in the housing portion 30 of the cradle 6, and is turned off when the adapter 4 is not housed. Note that the detection unit 48 is always supplied with power from the external power supply input unit 38. Moreover, the secondary coil 50, the detection part 48, and the switch 46 function as the communication power cutoff means and the power transmission power cutoff means.
[0041]
Next, the power transmission primary coil 36 has one terminal grounded, the other terminal connected to the switch 46 via the DC / AC converter 52, and the external power input unit 38 via the switch 46. It is connected to the. The DC / AC converter 52 converts a direct current supplied from the external power supply input unit 38 into an alternating current and supplies the alternating current to the primary coil 36. The primary coil 36 corresponds to the above-described secondary coil 16 provided in the adapter 4, and is for transmitting electric power to the adapter 4 side by generating an induced current in the secondary coil 16. It is. That is, the primary coil 36 and the DC / AC converter 52 function as one of the power transmission means (that is, the power transmission means provided on the installation base side).
[0042]
As described above, the cradle 6 is formed so as to be able to be accommodated in the accommodating portion 30 while the adapter 4 is mounted on the mobile phone 8, but the optical communication portion 12 on the adapter 4 side and the light on the cradle 6 side are arranged. The communication unit 34 is located in a position where the adapter 4 is accommodated in the accommodating unit 30 of the cradle 6 (that is, when the mobile phone with the adapter 4 attached is installed in the cradle 6) and can be reliably communicated with each other. The adapter 4 and the cradle 6 are disposed so as to be in a relationship. The primary coil 36 and the secondary coil 16 for transmitting power from the cradle 6 to the adapter 4 are also close to each other when the adapter 4 is accommodated in the accommodating portion 30 of the cradle 6, and efficient electromagnetic induction is possible. The cradle 6 and the adapter 4 are disposed so as to have a proper positional relationship.
[0043]
Further, the switch 20 inside the adapter 4 and the permanent magnet 54 inside the cradle 6 are also close to each other when the adapter 4 is housed in the housing portion 30 of the cradle 6, and the magnetic force from the permanent magnet 54 acts on the switch. The adapter 4 and the cradle 6 are disposed so as to be in a positional relationship that can act reliably. Further, the primary coil 26 and the secondary coil 50 for detecting the installation state of the adapter 4 in the cradle 6 are also close to each other when the adapter 4 is accommodated in the accommodating portion 30 of the cradle 6, and efficient electromagnetic The adapter 4 and the cradle 6 are disposed so as to have a positional relationship that allows guidance.
[0044]
Next, a method of using the connection device 2 of the present embodiment configured as described above will be described. For example, as shown in FIG. 2, the adapter 4 is attached to the mobile phone 8 by inserting a connector 10 a into the input / output terminal of the mobile phone 8, while the cradle 6 connects the connector 42 to the input / output of the cradle 6. By connecting it to a terminal, it is connected to an external device in advance. When it is not necessary to connect the mobile phone 8 to an external device, the mobile phone 8 can be carried with the adapter 4 attached, and when necessary, the adapter 4 is accommodated in the accommodating portion 30 of the cradle 6. Thus, the mobile phone 8 can be connected to an external device simply by installing the mobile phone 8 with the adapter 4 attached.
[0045]
That is, the switch 46 of the cradle 6 is kept in a disconnected state when the adapter 4 is not installed in the cradle 6. As shown in FIG. 2, when the mobile phone 8 with the adapter 4 mounted thereon is placed on the cradle 6, the switch 20 of the adapter 4 operates by receiving the magnetic force from the permanent magnet 54 in the cradle 6. The connection state is established. Then, in the adapter 4, power is supplied to the I / F unit 10 and the optical communication unit 12, power is supplied to the DC / AC converter 24, and an alternating current flows through the primary coil 26.
[0046]
As a result, an induced current is generated in the secondary coil 50 on the cradle 6 side. When this induced current is detected by the detection unit 48, the detection unit 48 outputs a control signal to turn on the switch 46, and the external power input unit From 38, power is supplied to the I / F unit 32 and the optical communication unit 34. As a result, power is supplied to the I / F unit 10 and the optical communication unit 12 of the adapter 4 and the I / F unit 32 and the optical communication unit 34 of the cradle 6, and communication between the mobile phone 8 and the external device is performed. Is possible.
[0047]
When the switch 46 of the cradle 6 is turned on, power is also supplied to the DC / AC converter 52, and an alternating current flows through the primary coil 36 for power transmission. As a result, an induced current is generated in the secondary coil 16 of the adapter 4, and after being converted into direct current by the AC / DC converter 22, the cellular phone 8 is connected via the I / F unit 10 and the input / output terminals of the cellular phone 8. Will be supplied.
[0048]
On the other hand, when the cellular phone 8 equipped with the adapter 4 is separated from the cradle 6, the magnetic force of the permanent magnet 54 cannot keep the switch 20 of the adapter 4 in the on state, and the switch 20 is switched to the disconnected state. Then, in the adapter 4, power supply to the I / F unit 10 and the optical communication unit 12 is cut off, and power supply to the DC / AC converter 24 is also cut off, so that no current flows through the primary coil 26. . Then, no induced current is generated in the secondary coil 50 on the cradle 6 side, and the detection unit 48 outputs a control signal to turn off the switch 46. As a result, power supply from the external power input unit 38 to the I / F unit 32 and the optical communication unit 34 is cut off. Further, when the switch 46 of the cradle 6 is turned off, the power supply to the DC / AC converter 52 is also cut off, so that no alternating current flows through the primary coil 36 for power transmission.
[0049]
That is, only when the mobile phone 8 with the adapter 4 attached is installed in the cradle 6, the switch 20 of the adapter 4 and the switch 46 of the cradle 6 are closed to supply power to the optical communication units 12 and 24. In addition, communication between the adapter 4 and the cradle 6 (that is, relay of communication between the mobile phone 8 and an external device) can be performed, and power is supplied to the primary coil 36 from the cradle 6 side to the adapter 4 side. (I.e., power supply from the cradle 6 to the mobile phone 8 via the adapter 4).
[0050]
According to the connection device of the present embodiment configured as described above, the following effects (1) to (6) are obtained.
(1) When the adapter 4 is attached to the mobile phone 8 and the cradle 6 is connected to the external device, the mobile phone 8 can be connected to the external device only by installing the mobile phone 8 in the cradle 6. The mobile phone 8 can be disconnected from the external device simply by removing the mobile phone 8 from the cradle 6. As a result, when connecting and disconnecting the mobile phone 8 and external devices, it is not necessary to perform connector connection and disconnection operations to the input / output terminals of the mobile phone 8 each time. become. And since the frequency with which stress is applied to the input / output terminals is reduced, it is possible to suppress the occurrence of connection failure around the input / output terminals.
[0051]
(2) Since the optical communication unit 12 of the adapter 4 and the optical communication unit 34 of the cradle 6 are configured to be able to communicate with each other by an optical signal, that is, non-contact communication is possible, Therefore, a large force is not required to perform communication, and the adapter 4 and the cradle 6 are only subjected to a stress generated by placing the adapter 4 on the cradle 6. For this reason, even if the adapter 4 is placed on the cradle 6 and removed from the cradle 6 repeatedly, the occurrence of poor communication relay between the mobile phone 8 and the external device can be suppressed.
[0052]
(3) Since the optical communication units 12 and 34 provided in the adapter 4 and the cradle 6 communicate with each other by optical signals, the communication is not affected by external radio waves or radio noise, and good communication ( That is, it is possible to relay communication between the mobile phone 8 and the external device.
[0053]
(4) When the adapter 4 is not installed in the cradle 6, the power supply to the optical communication unit 12, I / F unit 10, DC / AC converter 24, and primary coil 26 is cut off by the switch 20 of the adapter 4. In addition, since the power supply to the optical communication unit 34, the I / F unit 32, the DC / AC converter 52, and the primary coil 36 is cut off by the switch 46 of the cradle 6, it is possible to suppress wasteful power consumption. This is preferable.
[0054]
(5) When the adapter 4 is installed in the cradle 6, power is transmitted from the cradle 6 side to the adapter 4 side by the primary coil 36 and the secondary coil 16 for power transmission, and the AC / DC converter 22 and the like are further connected. Therefore, the power consumption of the battery built in the mobile phone 8 can be suppressed, or the built-in battery can be charged. Therefore, it is not necessary to remove the adapter 4 from the mobile phone 8 for battery replacement or charging, and the troublesomeness of the replacement or charging can be suppressed, and there is a problem of electrical connection in the vicinity of the input / output terminal of the mobile phone 8. It can be suppressed from occurring.
[0055]
(6) Since power can be transmitted from the cradle 6 to the adapter 4 in a non-contact manner, the adapter 4 and the cradle 6 are only subjected to stress that is generated by placing the adapter 4 on the cradle 6. . For this reason, even if the adapter 4 is repeatedly placed on the cradle 6 or removed from the cradle 6, it is possible to satisfactorily supply power to the mobile phone 8 without causing an electrical connection.
[0056]
As mentioned above, although one Example of this invention was described, this invention is not a thing limited to the said Example, It can take a various aspect.
For example, in the above-described embodiment, the connection between the external device and the cradle 6 is described as being achieved by coupling the connector 42 from the external device and the input / output terminal 32a of the cradle 6 (that is, the installation base). The cable 42a from the device may be directly connected to the cradle 6. However, if the external device and the cradle 6 are connected by connecting members (that is, the connector 42 and the input / output terminal 32a) as in the above embodiment, it is conventionally connected to the input / output terminal of the mobile phone 8. This is preferable because the connection device of the present invention can be used simply by connecting the connector 42 from the external device to the cradle 6.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an electrical configuration of a connection device for a mobile phone as an embodiment.
FIG. 2 is an explanatory diagram for illustrating a method of using a mobile phone connection device;
[Explanation of symbols]
2 ... Mobile phone connection device, 4 ... Adapter, 6 ... Cradle (installation stand), 8 ... Mobile phone, 10 ... I / F unit, 10a ... Connector, 12 ... Optical communication unit, 16 ... Secondary coil, 20 ... Switch ... 22 ... AC / DC converter, 30 ... accommodating part, 32 ... I / F part, 32a ... input / output terminal, 34 ... optical communication part, 36 ... primary coil, 38 ... external power input part, 46 ... switch, 48 ... detection unit, 50 ... secondary coil, 52 ... DC / AC converter.

Claims (4)

A connection device for connecting a mobile phone having an input / output terminal for connecting an external device and an external device via the input / output terminal,
An adapter configured to be attachable to the mobile phone by having a connector detachable on the input / output terminal, and connecting the connector to the input / output terminal;
The adapter mounted on the mobile phone is formed so that it can be installed together with the mobile phone, and an installation base configured to be connectable to an external device to be connected to the mobile phone;
Consists of
The adapter and the installation table are configured to be able to communicate with each other in a non-contact manner between the adapter and the installation table when the adapter is installed on the installation table. A communication means for relaying the power supply, and a communication power supply shut-off for detecting the installation state of the adapter on the installation base and shutting off the power supply to the communication means when the adapter is not installed on the installation base Each with means ,
The adapter includes a primary coil through which an alternating current flows while power is supplied to the communication means of the adapter.
The communication power cut-off means for the installation base is configured to respond to a secondary coil disposed at a position close to the primary coil when the adapter is installed on the installation base, and an alternating current flowing through the primary coil. Detecting means for detecting whether or not an induced current is generated in the secondary coil, and when the induced current is generated, power is supplied to the communication means of the installation base, and the induced current is generated. If not , the mobile phone connection device cuts off the power supply to the communication means of the installation base . The connection device for a mobile phone according to claim 1, wherein
Each of the communication means is configured to be communicable with each other using an optical signal. In the mobile phone connection device according to claim 1 or 2,
The adapter and the installation table each include power transmission means capable of transmitting power from the installation table side to the adapter side in a non-contact manner when the adapter is installed on the installation table,
The connection device for a mobile phone, characterized in that the adapter includes supply means for supplying the power transmitted from the installation base side by the power transmission means to the mobile phone via the connector . The mobile phone connection device according to claim 3 , wherein
The installation base includes power transmission power cutoff means for detecting a state of installation of the adapter on the installation base and shutting off power supply to the power transmission means when the adapter is not installed on the installation base. A mobile phone connection device characterized by the above .

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