JP2004039389A - Electric power source plug - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a power source plug capable of transmitting easily information including identification information of electric equipment, an electric equipment recognizing device capable of recognizing the information including identification information of the electric equipment, and an electric equipment recognizing method capable of recognizing the information including identification information of the electric equipment. <P>SOLUTION: This power source plug 10 connected to the electric equipment is provided with a coil-on chip 11 for storing the information including the identification information for identifying the electric equipment, and for transmitting the stored information by a radio wave. A reader writer unit 30 for receiving the information from the power source plug 10 is provided with a positioning hole 36 for inserting an electrode of the plug 10 to position the plug 10, and an antenna part 35 for receiving the information from the power source plug 10 by the radio wave. A host computer 30 recognizes the information received by the antenna part 35. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a power plug, an electric device recognition device, an electric device recognition system, and an electric device recognition method.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, the types of materials constituting the components of home electric appliances are displayed by various means. For example, a material name or the like dug into a mold is engraved in advance on a plus chip housing component, and a material name is also engraved on a metal housing. In this way, the inscriptions made on the components of the home electric appliance are displayed on a part invisible to general users, such as the back side of the product, in order to maintain the appearance and beauty of the product.
[0003]
Also, in recent years, certain large home appliances have been required to be recycled at the time of disposal according to the Home Appliance Recycling Law. According to the Home Appliance Recycling Law, recyclers who recycle large home appliances are brought in products of various manufacturers, types and years. The parts to be recycled and the means for recycling differ depending on the type of product.
[0004]
However, since the markings on the components of home appliances are invisible to general users, for example, on the back of the product or inside the housing of the product, when looking at the markings, the product must be dismantled or lifted. Or expose the back side. Therefore, it is not possible to easily see the engraved mark of the component, and it is not easy to know information such as the material name displayed on the engraved mark. Further, when knowing the information displayed on the inscription, it is necessary to obtain information from a manufacturer or the like that manufactures home electric appliances and to check the manufacturer name, model, and the like, so that information on the product cannot be easily obtained.
[0005]
In particular, at the time of recycling separation work, the stamp cannot be seen until the product is dismantled, and it becomes difficult to perform the separation work of home electric appliances before dismantling. Then, if the sorting operation is performed after the disassembly of the home electric appliances, the recycling cannot be performed efficiently. Further, in the case where the sorting operation is performed before disassembly, information on the product is obtained from a home appliance manufacturer or the like. However, the obtained information becomes enormous in the years leading up to recycling, and the management cost for managing the information on the products becomes a large burden for the recycler.
[0006]
[Problems to be solved by the invention]
As described above, in the conventional home appliances, since information such as identification information for identifying the home appliances is formed in the non-exposed portion in order to maintain the appearance and aesthetic appearance, information such as the identification information cannot be easily obtained. There was a problem.
[0007]
The present invention has been made in order to solve such problems, and a power plug capable of easily transmitting information including identification information of an electric device, and easily recognizing information including identification information of an electric device. It is an object of the present invention to provide an electrical device recognition device and an electrical device recognition method capable of easily recognizing information including identification information of an electrical device.
[0008]
[Means for Solving the Problems]
The power plug according to the present invention is a power plug connected to an electric device (for example, the power plug 10 in the embodiment of the present invention), and stores information including identification information for identifying the electric device. (For example, the memory of the coil-on-chip 11 in the embodiment of the present invention) and communication means for wirelessly transmitting the information stored in the storage unit (for example, the memory of the coil-on-chip 11 in the embodiment of the present invention). Antenna coil). With such a configuration, information including identification information for identifying an electric device can be easily recognized.
[0009]
Further, in the power plug according to the present invention, the communication means includes an antenna, and the antenna has a predetermined position relative to the electrode of the power plug. With such a configuration, by using the electrode as a reference for positioning, it is possible to maintain a good communication state regarding information including identification information for identifying an electric device.
[0010]
Furthermore, in the power plug according to the present invention, the antenna can be provided on a front surface of the power plug. This makes it possible to accurately recognize information including the identification information for identifying the electric device.
[0011]
In a preferred embodiment, in the power plug according to the present invention, the storage means is an IC element for storing the information, and the communication means is an antenna coil provided on the IC element for transmitting the information. It is. Thus, the storage means and the communication means can be integrally formed and incorporated in the power plug.
[0012]
In the power plug according to the present invention, the information includes information necessary for recycling the electric device. This makes it possible to easily recognize necessary information when recycling the electrical equipment.
[0013]
In the power plug according to the present invention, the information includes warranty information of the electric device. Thereby, the warranty information of the electric device can be easily recognized.
[0014]
Still further, in the power plug according to the present invention, the information includes control information for controlling an operation of the electric device. Thereby, the control information for controlling the operation of the electric device can be easily recognized.
[0015]
In the power plug according to the present invention, the identification information included in the information is used in a wireless LAN. Thereby, the identification information for identifying the electric device can be easily recognized, and can be used at the time of connection by the wireless LAN.
[0016]
An electric device recognition device according to the present invention uses an electric device recognition device that recognizes the information from a power plug that can transmit information including identification information for identifying the electric device (for example, a host device according to an embodiment of the present invention). A reader / writer device 31) connected to the computer 30; a positioning means (for example, a positioning hole 36 in the embodiment of the present invention) for inserting an electrode of the power plug and positioning the power plug; Communication means for wirelessly receiving the information from the power plug (for example, the antenna of the antenna unit 35 in the embodiment of the present invention) and recognition means for recognizing the information received by the communication means (for example, an implementation of the present invention) And a host computer 30) according to the first embodiment. With such a configuration, information including identification information for identifying an electric device can be easily recognized.
[0017]
Further, in the electrical equipment recognition device according to the present invention, the recognition means includes a display means for displaying recognized information. Thus, information including identification information for identifying the electric device can be easily transmitted to the user.
[0018]
The electric device recognition method according to the present invention is an electric device recognition method for recognizing the information from a power plug capable of transmitting information including identification information for identifying the electric device, wherein an electrode of the power plug is inserted. And receiving the information wirelessly from the power plug, and recognizing the received information. According to such a method, information including identification information for identifying an electric device can be easily recognized.
[0019]
An electric device recognition system according to the present invention includes a power plug connected to an electric device (for example, the power plug 10 according to the embodiment of the present invention) and information including identification information of the electric device connected to the power plug. And a recognition device (for example, a reader / writer device 31 connected to the host computer 30 in the embodiment of the present invention), wherein the power plug is used to identify the electric device. Storage means for storing information including information (for example, a memory of the coil-on-chip 11 in the embodiment of the present invention); and first communication means for wirelessly transmitting the information stored in the storage means (for example, The coil of the chip 11 according to the embodiment of the invention). Positioning means for positioning the power plug (for example, the positioning hole 36 in the embodiment of the present invention), and second communication means for receiving the information from the power plug wirelessly (for example, the antenna in the embodiment of the present invention) (An antenna of the unit 35) and a recognition unit (for example, the host computer 30 in the embodiment of the present invention) for recognizing the information received by the second communication unit. With such a configuration, information including identification information for identifying an electric device can be easily recognized.
[0020]
Further, in the electric device recognition system according to the present invention, the first communication means includes an antenna, and the antenna has a predetermined position relative to the electrode of the power plug. With such a configuration, by using the electrode as a reference for positioning, it is possible to maintain a good communication state regarding information including identification information for identifying an electric device.
[0021]
Furthermore, in the electric device recognition system according to the present invention, the antenna can be provided on the front surface of the power plug. This makes it possible to accurately recognize information including the identification information for identifying the electric device.
[0022]
In a preferred embodiment, in the electrical equipment recognition system according to the present invention, the storage unit is an IC element that stores the information, and the first communication unit is provided on the IC element and stores the information. An antenna coil to transmit. Thus, the storage means and the first communication means can be integrally formed and incorporated in the power plug.
[0023]
And in the electrical equipment recognition system according to the present invention, the information includes information necessary for recycling the electrical equipment. This makes it possible to easily recognize necessary information when recycling the electrical equipment.
[0024]
Further, in the electric device recognition system according to the present invention, the information includes guarantee information of the electric device. Thereby, the warranty information of the electric device can be easily recognized.
[0025]
Still further, in the electrical equipment recognition system according to the present invention, the information includes control information for controlling an operation of the electrical equipment. Thereby, the control information for controlling the operation of the electric device can be easily recognized.
[0026]
In the electrical device recognition system according to the present invention, the identification information included in the information is used in a wireless LAN. Thus, the identification information for identifying the electric device can be easily recognized and used at the time of connection by the wireless LAN.
[0027]
On the other hand, in the electrical equipment recognition system according to the present invention, the recognition means includes display means for displaying recognized information. Thus, information including identification information for identifying the electric device can be easily transmitted to the user.
[0028]
An electric device recognizing method according to the present invention includes a power plug connected to an electric device and a recognition device connected to the power plug and recognizing information including identification information for identifying the electric device. Wherein the step of inserting an electrode of the power plug into the recognition device, the step of storing the information by the power plug, and the power plug wirelessly transmitting the information to the recognition device And a step in which the recognition device receives the information wirelessly, and a step in which the recognition device recognizes the information. According to such a method, information including identification information for identifying an electric device can be easily transmitted and can be easily recognized.
[0029]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0030]
In the present embodiment, after describing the electric device recognition system, a network system to which the system is applied will be described.
[0031]
First, an electric device recognition system will be described. FIG. 1 shows an example of a configuration of an electric device recognition system according to the present embodiment. As shown in FIG. 1, the electrical device recognition system according to the present embodiment includes a power plug 10 and a reader / writer device. Here, as an example of the reader / writer device, a handy type reader / writer device 31 is shown in FIG.
[0032]
The power plug 10 is a general power plug, and is provided with a coil-on-chip RFID (hereinafter, abbreviated as coil-on-chip) 11. The position of the coil-on-chip 11 relative to the electrodes is determined in advance. That is, the position of the coil-on-chip 11 with respect to the electrode is substantially the same in any of the power plugs 10. For example, in the case of the power plug 10 of a household electric appliance, the interval between the two types of electrodes of any power plug 10 is substantially the same as the interval between the outlets of the power outlet, and the shape of any power plug 10 is the same as the shape of the power outlet plug. The shape fits the shape of the mouth. The power plug 10 is connected to the electric device 20 and supplies electric power to the electric device 20 by inserting an electrode into a power outlet.
[0033]
The handy-type reader / writer device 31 is a device that reads information stored in the coil-on-chip 11 provided in the power plug 10 and writes information to the coil-on-chip 11. An antenna section 35 for communicating with the coil-on-chip 11 is provided at a distal end portion 37 of the handy type reader / writer device 31.
[0034]
The handy type reader / writer device 31 is connected to the host computer 30 and is connected by a USB interface 39 such as a USB cable. The handy reader / writer device 31 transmits information read from the coil-on-chip 11 of the power plug 10 to the host computer 30 via the USB interface 39. In addition, the handy type reader / writer device 31 transmits information from the host computer 30 to the coil-on-chip 11 via the USB interface 39 and writes the information to the coil-on-chip 11.
[0035]
The handy type reader / writer device 31 is detachably connected to, for example, a host computer 30. When performing communication with the coil-on-chip 11 of the power plug 10, the USB interface 39 of the reader / writer device 31 is connected to the host computer 30. Therefore, the handy-type reader / writer device 31 can be connected to various computers that perform communication via the USB interface 39, and can easily read information from the coil-on-chip 11.
[0036]
In FIG. 1, the handy-type reader / writer device 31 has a structure to which one power plug 10 can be connected. However, for example, a plurality of power plugs 10 such as a tap outlet can be connected at the same time. Is also good. In this case, the handy type reader / writer device 31 may simultaneously receive information such as identification information of all electric devices, or may individually receive information such as identification information of each electric device.
[0037]
Further, a storage device for storing the read information of the electric device 20 in the handy type reader / writer device 31 may be provided. In this case, the information of the electric device 20 can be temporarily stored in the handy-type reader / writer device 31. Thereby, after simultaneously receiving information of all the electric devices from the handy type reader / writer device 31, the information is temporarily stored, and the information is individually transmitted to the host computer 30 or simultaneously transmitted. be able to.
[0038]
The communication between the handy-type reader / writer device 31 and the host computer 30 may be performed wirelessly. For example, the handy reader / writer device 31 is provided with a network interface like a general portable terminal, and is connected to a network such as a LAN or the Internet. A wireless communication interface such as Bluetooth enables non-contact communication with a host computer. By performing wireless communication in this manner, the USB interface 39 provided in the handy-type reader / writer device 31 can be omitted, and the USB interface 39 can be moved more freely without being restricted by the USB interface 39. , The information of the electric device 20 can be read.
[0039]
As described above, by using the handy-type reader / writer device 31, information on the electric device 20 can be easily read at various places. Further, by providing a display unit on the handy-type reader / writer device 31 as described later, the information on the electric device 20 is read immediately after reading the information on the electric device 20 using the handy-type reader / writer device 31. Information such as information can be obtained.
[0040]
FIG. 2 shows another configuration example of the electric device recognition system according to the present embodiment. FIG. 2 shows a case where the reader / writer is a stationary reader / writer 31a as another configuration example of the reader / writer. The power plug 10 is a general power plug similar to the power plug 10 in FIG. 1 described above, and has a coil-on-chip 11.
[0041]
The stationary reader / writer device 31 a is a device that reads information stored in the coil-on-chip 11 provided in the power plug 10 and writes information in the coil-on-chip 11. An antenna unit 35a for communicating with the coil-on-chip 11 is provided at a distal end portion 37 of the stationary reader / writer device 31a.
[0042]
The stationary reader / writer device 31a is connected to the host computer 30, and is connected by a USB interface 39a such as a USB cable. The stationary reader / writer device 31a transmits information read from the coil-on-chip 11 of the power plug 10 to the host computer 30 via the USB interface 39a. In addition, the stationary reader / writer device 31a transmits information from the host computer 30 to the coil-on-chip 11 via the USB interface 39a, and writes the information to the coil-on-chip 11.
[0043]
The stationary reader / writer device 31a as shown in FIG. 2 is fixedly connected to the host computer 30, for example. The stationary reader / writer device 31a may have an integral structure with the host computer 30 or may have a different structure. When the stationary reader / writer device 31a and the host computer 30 are integrated, the information of the electric device 20 is obtained by connecting the electric device 20 to the host computer 30 without installing a new reader / writer device. be able to.
[0044]
The stationary reader / writer device 31a may automatically receive and read information such as identification information when the power plug 10 is connected. At this time, for example, when the electrode of the power plug 10 is inserted into the positioning hole of the stationary reader / writer device 31a, the stationary reader / writer device 31a detects the insertion of the electrode and automatically reads the identification information. it can. Further, the stationary reader / writer device 31a may be configured to manually read out information after the power plug 10 is connected, for example, by pressing a switch.
[0045]
The power plug 10 is connected to a power outlet to supply power to the electric device 20. For example, the stationary reader / writer device 31a may also serve as a power outlet. In this case, for example, the stationary reader / writer device 31a or the host computer 30 is provided with a mechanism for switching between a function as a reader / writer device communicating with the coil-on-chip 11 of the plug device 10 and a function as a power outlet. Can be When a mechanism for switching to the stationary reader / writer device 31a is provided, switching can be performed by providing a switching switch. When a mechanism for switching to the host computer 30 is provided, switching is performed via a graphical user interface. It can be carried out.
[0046]
In FIG. 2, the stationary reader / writer device 31a has a structure to which one power plug 10 can be connected. However, the stationary reader / writer device 31a is configured so that a plurality of power plugs 10 can be connected simultaneously, such as a tap outlet. Is also good. In this case, the stationary reader / writer device 31a may receive information on all electrical devices at the same time, or may receive information on each electrical device individually.
[0047]
Further, a storage device for storing the read information of the electric device 20 in the stationary reader / writer device 31a may be provided. In this case, the information of the electric device 20 can be temporarily stored in the stationary reader / writer device 31a. Thereby, after simultaneously receiving the information of all the electric devices from the stationary reader / writer device 31a, the information is temporarily stored, and the information is individually transmitted to the host computer 30 or transmitted simultaneously. be able to.
[0048]
Further, like a hub used in a LAN, a plurality of stationary reader / writer devices 31a may be connected to a host computer 30 via a network. Thus, for example, a stationary reader / writer device 31 a can be provided around each electric device 20, and information on each electric device 20 can be read from the power plug 10 or written into the coil-on-chip 11. In addition, the stationary reader / writer device 31a can be provided as an accessory to each electric device 20, or the electric device 20 and the stationary reader / writer device 31a can be integrated. As described above, in the case of an integrated structure, information of the electric device 20 can be easily read at the place where the electric device 20 is installed.
[0049]
As described above, by using the stationary reader / writer device 31, for example, when provided in the host computer 30, it is possible to provide a device that can easily recognize and read information such as identification information of the electric device 30. In addition, as in the case of the handy type reader / writer device 31, by providing a display unit on the stationary type reader / writer device 31 a, immediately after reading information about the electric device 20 using the stationary type reader / writer device 31 a, Information such as identification information of the electric device 20 can be known from the type reader / writer device 31a itself.
[0050]
Next, the structures of the reader / writer device and the power plug, and the communication operation between the reader / writer device and the power plug will be described. The structure of the reader / writer device will be described with reference to FIG. FIG. 3 is a perspective view showing the handy-type reader / writer device 31. Here, the description will be made using the handy type reader / writer device 31, but the stationary type reader / writer device 31a is similarly configured.
[0051]
As shown in FIG. 3, the handy type reader / writer device 31 has an antenna section 35 and a positioning hole 36. Further, the handy type reader / writer device 31 has a read button 32 for reading information from the coil-on-chip 11 of the power plug 10 and a write button 33 for writing information to the coil-on-chip 11. The handy type reader / writer device 31 is provided with a USB interface 39 for communicating with the host computer 30 and a display unit 34 for displaying information such as identification information of the electric device 20 received from the power plug 10. ing.
[0052]
The antenna unit 35 has an antenna (not shown). This antenna is made of a material such as copper. When the power plug 10 is connected, the antenna of the antenna unit 35 transmits radio waves to the coil-on-chip 11 of the power plug 10 to supply power. Therefore, the antenna unit 35 is provided at a position where the coil-on-chip 11 can receive radio waves transmitted by the antenna. The antenna unit 35 is preferably provided so as to face the coil-on-chip 11 when the power plug 10 is connected to the handy-type reader / writer device 31. The antenna unit 35 can be provided near the surface of the housing of the handy reader / writer device 31 so that the radio wave transmitted by the antenna easily reaches the coil-on-chip 11. When the antenna section 35 is provided near the surface of the housing, it may be provided outside the housing or inside the housing.
[0053]
In FIG. 2, the power plug 10 is connected to the distal end portion 37 of the handy type reader / writer device 31, as shown in FIG. In FIG. 1, as described later, the coil-on-chip 11 is formed on the front surface of the power plug 10 (hereinafter, the surface on which the electrodes of the power plug 10 are formed is referred to as the front surface) and faces the coil-on chip 11. As described above, the antenna unit 35 is provided at the distal end portion 37 of the handy-type reader / writer device 31. Therefore, the radio wave transmitted from the antenna unit 35 easily reaches the coil-on-chip 11 of the power plug 10, so that power can be reliably supplied to the coil-on-chip 11 and data can be written and read. It becomes.
[0054]
The shape of the antenna of the antenna unit 35 can be various shapes, and can be a substantially spiral shape when viewed from the front. Further, the antenna may be one in which a plurality of rod-shaped coils are arranged, or one in which coils are arranged in a matrix. In the case where the shape of the antenna is a substantially spiral shape, for example, it can be a circle, a square, an ellipse, or the like. A single antenna or a plurality of antennas may be provided for the antenna unit 35. Since a single coil-on-chip 11 is provided on the power plug 10, it is preferable to provide a single antenna in order to reduce production costs.
[0055]
As shown in FIGS. 1 and 2, a positioning hole 36 for connecting the power plug 10 is formed in the handy reader / writer device 31. The positioning hole 36 fixes the state of the power plug 10 when receiving information from the power plug 10. The shape of the positioning hole 36 can be various shapes. In the present embodiment, the shape of the power plug 10 may be such that the electrode of the power plug 10 fits therein. In addition to the positioning hole 36, a fixing mechanism for fixing the state of the power plug 10 to the power plug 10 or the handy type reader / writer device 31 may be provided.
[0056]
Further, since the electrodes of the electric device 20 such as various home appliances have a standardized shape, the standardized handy type reader / writer device 31 is formed by setting the shape of the positioning hole 36 to a shape into which the electrode fits. Can be used to read information such as identification information of various electric devices 20. Furthermore, in the case where the shape of the positioning hole 35 is a shape into which the electrode of the power plug 10 fits, the power plug 10 is not provided with a new protrusion to be inserted into the positioning hole 36, and the power plug 10 is connected to a hand-held reader / writer device. 31 and can be connected.
[0057]
The positioning holes 36 can be provided at various positions such as the entire surface and side surfaces of the handy-type reader / writer device 31. In the present embodiment, the handy-type reader / writer device 31 can have a substantially rectangular parallelepiped shape, and the distal end portion 37 to which the power plug 10 is connected can have a thin shape. By providing the positioning hole 36 in the thin tip portion 37, the power outlet 10 can be connected to the handy reader / writer device 31 even in a narrow place. Therefore, a more compact recognition device for recognizing information of the electric device 20 can be realized by using the handheld reader / writer device 31 having the thin tip portion 37 in which the positioning hole 36 is formed.
[0058]
The positioning hole 36 can be provided on a side surface of the handy reader / writer device 31. In this case, for example, a plurality of power plugs 10 can be connected simultaneously using a wide side surface of the handy-type reader / writer device 31. As described above, when information such as identification information of each electric device 20 is read by connecting a plurality of power plugs 10, information of all electric devices 20 is read at the same time, information of each electric device 20 is read individually. Alternatively, the read information can be temporarily stored in the handy type reader / writer device 31.
[0059]
With such positioning holes 36, when reading information of the electric device 20 from the power plug 10 using the handy type reader / writer device 31, the power plug 10 can be easily fixed. Therefore, radio waves can be reliably transmitted to the coil-on-chip 11 of the power plug 10, and power can be supplied and information of the electric device 20 can be read in a stable state. In addition, the power plug 10 can be securely fixed, and power can be supplied and information can be written to the electric device 20 in a stable state.
[0060]
In particular, if the relative positions of the electrode 13 and the coil-on-chip 11 are shared in the power plug 10, the coil-on-chip 11 is located at the same position when the electrode 13 is inserted into the positioning hole 36. . Therefore, the communication distance between the coil-on-chip 11 and the antenna unit 35 can be kept constant. Thereby, the information stored in the coil-on-chip 11 can be accurately recognized.
[0061]
Further, when the relative position between the electrode of the power plug 10 and the coil-on-chip 11 is made common, the positioning hole 36 in the hand-held reader / writer device 31 corresponds to the position of the electrode and the coil-on-chip 11. The installation position of the antenna unit 35 can be set. Therefore, the design time for the positioning hole 36 and the antenna unit 35 can be saved, and the positioning hole 36 and the antenna unit 35 can be formed efficiently. Thus, the design cost of the positioning hole 35 and the antenna section 35 can be reduced, and the production cost of the handy reader / writer device 31 can be reduced.
[0062]
The handheld reader / writer device 31 reads information from the coil-on-chip 11 of the power plug 10 by pressing the read button 32 after connecting the power plug 10 through the positioning hole 36. The read information is temporarily stored in the handy-type reader / writer device 31, or is immediately transmitted to the computer 30. In FIG. 3, a display unit 34 for displaying the read information is provided on a side surface of the handy-type reader / writer device 31. Therefore, immediately after the information of the electric device 20 is read, the information is displayed on the display unit 34, and the information on the electric device 20 can be known on the spot.
[0063]
The display unit 34 that displays information on the electric device 20 is a general display device, and may be, for example, a liquid crystal display, an LED (Light Emitting Diode) display, or the like. Alternatively, the handy-type reader / writer device 31 may be provided with an input / output interface to perform an input operation from the outside. Alternatively, the display unit 34 may be a display device having a touch panel sensor. When the handy-type reader / writer device 31 is provided with an input / output interface as described above, the information can be easily processed on the spot where the information of the electric device 20 is read, and the processed information can be read on the spot. Can be written to the coil-on-chip 11 of the power plug 10. Thus, the information of the electric device 20 can be changed efficiently without transmitting the information to the host computer 30.
[0064]
Further, as in the case of the stationary reader / writer device 31a described above, the power plug 10 may be fitted into the positioning hole 36 and the information may be automatically read from the coil-on-chip 11. In this case, a read button 32 may be provided to automatically read information from the power plug 10 manually, and also to allow manual reading. When automatic operation is performed, the information of the electric device 20 can be easily read or the information can be easily written into the coil-on-chip 11 simply by connecting the electrode of the power plug 10 to the positioning hole 36.
[0065]
In the handy type reader / writer device 30, the antenna portion 35 and the positioning hole 36 are fixedly provided at the tip portion 37. However, the antenna portion 35 and the positioning hole 36 are inserted so that various standardized electrodes of the power plug 10 can be inserted. It may have a detachably replaceable structure. For example, it is possible to form various cartridges having the antenna portion 35 and different shapes and numbers of the positioning holes 36 and to correspond to various standardized electrodes of the power plug 10 by replacing the cartridge. Accordingly, the handy-type reader / writer device 30 can be widely used from household electric devices to industrial electric devices, and a recognition device excellent in versatility can be obtained.
[0066]
Further, the distal end portion 37 may be configured to be detachable from the handy type reader / writer device 31. In this case, the tip portion 37 communicates with the main body of the handy-type reader / writer device 31, and the power plug 10 is connected to the tip portion 37, whereby the coil-on-chip 11 of the power plug 10 and the handy-type reader / writer device 31 are connected. 31 transmits and receives information.
[0067]
The handheld reader / writer device 31 can transmit information from the host computer 30 to the coil-on-chip 11 of the power plug 10 by pressing the write button 33. At this time, information may be transmitted from the host computer 30 to the handy-type reader / writer device 31, temporarily stored in the handy-type reader / writer device 31, and then transmitted to the coil-on-chip 11.
[0068]
The structure of the power plug will be described with reference to FIGS. FIG. 4 is a perspective view showing the power plug 10. Here, in FIG. 4, a description will be made using a power plug having two types of electrodes of a household electric device, but a power plug having three types of electrodes having a ground electrode like an industrial electric device may be used. . Also, the power plug may have any number of electrodes, and may have any shape.
[0069]
The power plug 10 is a general power plug, and is connected to the electric device 20 by a power cord 12. Power plug. Inside the housing of the power plug 10, the power cord 12 from the electric device 20 and the electrode 13 are connected, and the electrode 13 is inserted into a power outlet to supply power to the electric device 20. For example, as shown in FIG. 5, a power plug 10 is provided at the end of a power cord 12 protruding from the back of the television 20a.
[0070]
The power plug 10 has a coil-on-chip 11 that stores information such as identification information for identifying the electric device 20. The position where the coil-on-chip 11 is provided is determined by the installation position of the antenna unit of the reader / writer device which is provided on the housing of the power plug 10 and reads or writes stored information. Further, it is determined by the position of the positioning hole 36 of the handy type reader / writer device 31. When the electrode of the power plug 10 is inserted into the positioning hole 36, the installation position is determined by the position with respect to the electrode.
[0071]
The coil-on-chip 11 is preferably provided so as to face the antenna unit 35 when the power plug 10 is connected to the handy reader / writer device 31. In addition, the coil-on-chip 11 can be provided near the housing surface of the power plug 10 so as to easily receive the radio wave transmitted by the antenna unit 35. When the coil-on-chip 11 is provided near the surface of the housing, it may be provided outside the housing or inside the housing.
[0072]
For example, in FIG. 4, when the power plug 10 is connected to the distal end portion 37 of the hand-held reader / writer device 31 as shown in FIG. 1, between the positioning holes 36 of the hand-held reader / writer device 31. The coil-on-chip 11 is provided between the two types of electrodes 13 so as to face the antenna unit 35 provided. Therefore, the radio wave transmitted from the antenna unit 35 easily reaches the coil-on-chip 11 of the power plug 10, and power can be reliably supplied to the coil-on-chip 11.
[0073]
As described above, when the coil-on-chip 11 of the power plug 10 is provided at a common position relative to the electrode 13, in a state where the electrode 13 is inserted into the positioning hole 36 of the handy reader / writer device 31, The coil-on-chip 11 and the antenna unit 35 are located at the same place. Therefore, the communication distance between the coil-on-chip 11 and the antenna unit 35 can be kept constant. Thereby, the information stored in the coil-on-chip 11 can be accurately recognized, and the information of the coil-on-chip 11 can be accurately and reliably recognized.
[0074]
Further, when the relative positions of the electrodes of the power plug 10 and the coil-on-chip 11 are made common, the positioning holes 36 in the hand-held reader / writer device 31 correspond to the positions of the electrodes 13 and the coil-on-chip 11. And the installation position of the antenna unit 35 can be set. Therefore, the positioning hole 36 and the antenna section 35 can be efficiently formed without the design time of the positioning hole 36 and the antenna section 35. Thereby, the design cost of the positioning hole 35 and the antenna unit 35 can be reduced, the production cost of the handy reader / writer device 31 can be reduced, and the production cost of the entire electric device recognition system can be reduced.
[0075]
Further, since the power plug 10 is easily fixed by the positioning holes 36, it is possible to reliably transmit radio waves to the coil-on-chip 11 of the power plug 10. This makes it possible to read information from the electric device 20 in a stable state, or to write information to the electric device 20 in a stable state with the power plug 10 securely fixed.
[0076]
FIG. 6 is a perspective view showing another example of the position where the coil-on-chip is installed. As shown in FIG. 6, the coil-on-chip can be provided on the upper surface or the side surface of the power plug 10. Here, in FIG. 6, the coil-on-chip provided on the power plug 10 is illustrated as a coil-on-chip 11a, and the coil-on chip provided on the side surface of the power plug 10 is illustrated as a coil-on-chip 11b.
[0077]
As described above, when the power plug 10 is connected to the handheld reader / writer device 31, it is preferable that the coil-on-chip of the power plug 10 and the antenna unit of the handheld reader / writer device 31 face each other. When both are opposed to each other, if the coil-on-chip is provided on the upper surface or the side surface of the power plug 10 like the coil-on-chips 11a and 11b, even if the antenna unit 35 is provided between the positioning holes 36 as shown in FIG. It is difficult to make them face each other. Therefore, for example, as shown in FIG. 7, by changing the shape of the distal end portion where the positioning hole 36 of the handy type reader / writer device 11 is formed, both can be opposed to each other.
[0078]
As shown in FIG. 7A, the distal end portion 37a of the handy type reader / writer device 31 is formed in an L-shape so as to cover the upper surface of the power plug 10. Thus, when the electrode 13 of the power plug 10 is inserted into the positioning hole 36, the antenna 35b faces the coil-on-chip 11a formed on the upper surface of the power plug 10. In FIG. 7A, the shape is such that the upper surface is covered as an L-shape. However, a concave portion is formed at the tip portion 37a, an antenna portion 35b is provided on the side surface of the concave portion, and positioning is performed at the bottom portion of the concave portion. A hole 36 may be provided. In this case, the entire power plug 10 is fitted into the recess, and the electrode 13 is inserted into the positioning hole 36. At the same time, with the electrode 13 fitted in the positioning hole 36, the coil-on-chip 11a and the antenna section 35b face each other.
[0079]
Similarly, when the coil-on-chip 11b is provided on the side surface of the power plug 11, the coil-on-chip and the antenna unit can be opposed to each other. As shown in FIG. 7B, the distal end portion 37 b of the handy type reader / writer device 31 is formed in an L-shape to cover the side surface of the power plug 10. Thus, when the electrode 13 of the power plug 10 is inserted into the positioning hole 36, the antenna section 35c faces the coil-on-chip 11b formed on the upper surface of the power plug 10. Also, in FIG. 7B, the shape is such that the side surface is covered as an L-shape. However, a concave portion is formed at the tip portion 37b, the antenna portion 35c is provided on the side surface of the concave portion, and positioning is performed at the bottom portion of the concave portion. A hole 36 may be provided. In this case, the entire power plug 10 is fitted into the recess, and the electrode 13 is inserted into the positioning hole 36. At the same time, with the electrode 13 fitted in the positioning hole 36, the coil-on-chip 11b and the antenna section 35b face each other.
[0080]
As described above, when the coil-on-chip is formed on the upper surface or side surface of the power plug 10, for example, the power plug 10 is fitted into the concave portion by forming the tip portion 37 into a concave shape, and the positioning hole 36 formed at the bottom of the concave portion is formed. The electrode 13 is inserted. Thereby, the power plug 10 can be held by the recess and fixed more reliably, and the information of the electric device 20 can be read in a stable state. Further, the power plug 10 can be more securely fixed, and information can be written in the electric device 20 in a stable state.
[0081]
The coil-on-chip 11 has an IC element and an antenna coil connected to the IC element, which will be described later, though not shown individually. The IC element includes a memory for storing information such as identification information for identifying the electric device 20, and a logic control circuit such as a clock and a CPU. The memory is composed of a ROM, a RAM, an EEPROM, an FRAM or the like for storing data, and the logic control circuit is composed of a CPU or the like. The IC element can transmit information of the electric device 20 to the handy-type reader / writer device 31, and the CPU can perform predetermined processing.
[0082]
Further, the IC element has a transmission / reception circuit including a demodulation circuit and a modulation circuit, and a power supply circuit capable of purchasing a received radio wave for power. The modulation circuit and the demodulation circuit are controlled by the logic control circuit and operate in synchronization with the clock. The coil-on-chip 11 does not include a battery, and the power supply circuit obtains its operating power from electromagnetic waves received by the antenna coil by electromagnetic induction. The demodulation circuit of the transmission / reception circuit restores the baseband signal to obtain data after detecting the received radio wave. In addition, the modulation circuit of the transmission / reception circuit changes a carrier wave according to transmission data to transmit data, and transmits the carrier wave to the antenna coil. As a modulation method, for example, ASK (Amplitude Shift Keying) for changing the amplitude of a carrier (carrier) frequency, PSK (Phase Shift Keying) for changing a phase, or the like can be used.
[0083]
The IC element has a pair of connection terminals to which an antenna coil made of copper or the like is connected. Further, the IC element and the antenna coil may be formed integrally. The antenna coil is connected to the IC element, and when the power plug 10 is connected to the handy reader / writer device 31, it is electromagnetically coupled to the antenna of the antenna unit 35 in a non-contact manner. The antenna coil and the antenna of the antenna unit 35 are arranged close to each other or close to each other with a small gap, and the antenna coil functions as a communication unit in the coil-on-chip 11. When the electrode 13 of the power plug 10 is inserted into the positioning hole 36 of the hand-held reader / writer device 31, the antenna coil is arranged close to or close to the antenna of the antenna unit 35, so that the communication distance is limited to the antenna unit. It is very small compared to the size of 35 antennas. The antenna coil has a desired size, shape, self-inductance, and mutual inductance according to the arrangement with the antenna, the mounting area, and other conditions. For example, when viewed from above, the shape of the coil is not limited to a circle, but may be a square, an ellipse, or the like.
[0084]
In the memory of the IC element, for example, the name of the manufacturer of the electric device 20, the product type, the date of manufacture (lot No.), the type and material of the components constituting the electric device 20, and the electric device 20 are disassembled. The disassembly method at the time is stored, and such information is stored as identification information for identifying the electric device 20. Further, as another example, the name of the store where the electric device 20 was purchased, the date of purchase, information on the purchaser, and the like are stored.
[0085]
For example, when the electric device 20 is purchased, the warranty information such as the warranty period of the electric device 20 and the name of the purchase store can be written in the coil-on-chip 11 at the purchase store where the purchase was made. Can be saved. Thus, even if the purchaser loses the written warranty in which the warranty information is described, the warranty information can be read out from the coil-on-chip 11 of the power plug 10 to know the content of the warranty. Therefore, the warranty information can be securely stored without storing the security information as a written warranty that is easily lost.
[0086]
When the warranty information is stored in the coil-on-chip 11 of the power plug 10 as described above, when the electric device 20 breaks down, the warranty information is transmitted from the handy reader / writer device 31 or the stationary reader / writer device 31a to the purchase store. By reading, it is possible to easily determine whether or not the electrical device 20 is in the warranty period, the warranty period has passed, or at which purchase store it is purchased at any time.
[0087]
Further, the manufacturer receiving the electric device 20 from the purchase store can obtain information on the electric device 20 from the coil-on-chip 11 of the power plug 10 using the handy type reader / writer device 31. Therefore, for example, when a part is ordered, it is possible to easily know when the part is manufactured, where the part is manufactured, and the like, and it is possible to perform the repair efficiently.
[0088]
Further, when performing the recycle work of the electric device 20 and its parts to be recycled, the above-mentioned information is read out by the handy type reader / writer device 31 so that desired information can be obtained instantly before disassembly. And appropriate separation of the parts can be efficiently performed.
[0089]
Further, the name, product type, date of manufacture, and the like of the manufacturer are read out by the handy-type reader / writer device 31 and are read into a database managed by the home appliance manufacturer connected online with the host computer 30 or a database provided by the home appliance manufacturer. By accessing and comparing the read information, more detailed information can be obtained.
[0090]
Further, when the electric device 20 is illegally dumped, it is possible to obtain a clue to determine the dumper based on the name of the purchase store and information on the purchaser, and it is possible to efficiently search for the illegally dumped person.
[0091]
As shown in FIG. 8, the coil-on-chip 11 is modularized and installed in the plug housing 10 a of the power plug 10 in the state of the mini-mold 14. Here, FIG. 8 shows a case where the coil-on-chip 11 is provided between the electrodes 13 of the power plug 10. As shown in FIG. 8A, the mini mold 14 is formed by covering the coil-on-chip 11 with a material such as rubber or resin. The material for covering the coil-on-chip 22 is preferably an insulating material because it covers the coil-on-chip 11 including the antenna coil and the IC element in an electrically insulated state. Thereafter, as shown in FIG. 8B, the mini mold 14 is arranged on the plug housing 10a. At this time, as shown in FIG. 8B, the mini-mold 14 transmits and receives radio waves to and from the antenna unit of the handy-type reader / writer device 31, so that the mini-mold 14 is close to the surface of the plug housing 10a of the power plug 10. Placed in
[0092]
The mini-mold 14 can be formed in various shapes, as long as it can protect the coil-on-chip 11 inside. The shape is also determined by the arrangement of the mini mold 14 on the plug housing 10a. For example, as shown in FIG. 8A, the mini-mold 14 can have a substantially flat shape with the coil-on-chip 11 inside. In order to arrange the substantially flat mini-mold 14 in the plug housing 10a, for example, as shown in FIG. 8B, a concave portion for embedding the mini-mold 14 is formed on the bottom surface of the plug housing 10a.
[0093]
In FIG. 8, when embedding the mini-mold 14 in a recess formed in the plug housing 10 a of the power plug 10, insert one end of the mini-mold 14 avoiding a portion protruding from the inner wall of the recess, and distort the mini-mold 14. The other end of the mini-mold 14 is embedded in the recess. As shown in FIG. 8B, when the mini-mold 14 is embedded in the recess, a part of the substantially flat mini-mold 14 presses the inner wall of the recess, and the mini-mold 14 is fixed inside the recess. At this time, the mini-mold 14 may be fixed by embedding an adhesive resin in the concave portion. As shown in FIG. 8 (a), the mini-mold 14 is configured such that a part of the substantially flat-shaped mini-mold 14 presses the inner wall of the concave portion, and when the one end of the mini-mold 14 is inserted into the concave portion, the mini-mold 14 Since the mold 14 is not caught, a part of the substantially flat side wall can be formed to protrude. Further, since the mini-mold 14 is distorted when the mini-mold 14 is embedded in the concave portion, the coil-on-chip 11 can be formed of a flexible material such as plastic or rubber.
[0094]
As described above, when the coil-on-chip 11 is provided on the plug housing 10a, by providing the mini-mold 14 on the plug housing 10a, handling of the minute coil-on-chip 11 becomes easy. In addition, by handling the coil-on-chip 11 in the mini mode 14, the coil-on-chip 11 inside the mini-mold 14 can be protected, and the coil-on-chip 11 can be prevented from being damaged.
[0095]
The communication operation when the handy reader / writer device 31 reads information of the electric device 20 from the power plug 10 and writes information to the power plug will be described. When the handheld reader / writer device 31 reads information such as identification information of the electric device 20 from the coil-on-chip 11, when the handheld reader / writer device 31 applies a voltage to the antenna of the antenna unit 35, Electric current flows. When a current flows through the antenna of the antenna unit 35, it is electromagnetically coupled by the antenna and transmits a radio wave to the coil-on-chip 11 of the power plug 10. The coil-on-chip 11 receives radio waves with an antenna coil connected to an internal IC element. When the antenna coil receives a radio wave, an antenna coil induced current is generated and flows, and the induced current causes a current to flow through the IC element. Since the induced current is an alternating current, it is changed to a direct current in the power supply circuit of the IC element, and a constant current for operating the IC element is obtained.
[0096]
When a current flows through the IC element, information such as identification information for identifying the electric device 20 stored in the memory of the IC element is read through a demodulation circuit connected to the antenna coil and the input / output terminal. The read information such as the identification information flows through the modulation circuit as a current to the antenna coil, and is emitted from the antenna coil to the outside as a radio wave. The emitted radio waves are received by the antenna of the antenna unit 35, are electromagnetically coupled by the antenna, and an induced current is generated on the antenna. The handy-type reader / writer device 31 identifies the manufacturer name, product type, and the like of the electric device 20 based on the induced current.
[0097]
When the handheld reader / writer device 31 writes information such as warranty information into the coil-on-chip 11, when the handheld reader / writer device 31 applies a voltage to the antenna of the antenna unit 35, a current flows through the antenna. At this time, information to be written is incorporated in the current flowing through the antenna as an electric signal. When a current flows through the antenna of the antenna unit 35, it is electromagnetically coupled by the antenna and transmits a radio wave to the coil-on-chip 11 of the power plug 10. The coil-on-chip 11 receives radio waves with an antenna coil connected to an internal IC element. When the antenna coil receives a radio wave, an antenna coil induced current is generated and flows, and the induced current causes a current to flow through the IC element. Since the induced current is an alternating current, it is changed to a direct current in the power supply circuit of the IC element, and a constant current for operating the IC element is obtained. At the same time, when a current flows through the IC element, information from the handy type reader / writer device 31 is written and stored in the memory of the IC element via the demodulation circuit connected to the antenna coil and the input / output terminal.
[0098]
The configuration and manufacturing method of the IC element 50 used for the above-described coil-on-chip 11 will be described. The IC element 50 is, for example, similar to the IC element disclosed in JP-A-2000-323643.
[0099]
First, the configuration of the IC element 50 will be described. As shown in FIGS. 9 and 10, the IC element 50 has a rectangular spiral formed on an input / output terminal 50 a side of the IC element 50 via an insulating surface protection film 51 such as a silicon oxide film or a resin film. It is formed by integrally forming a coil 52 having a shape.
[0100]
The IC element 50 of FIG. 9 has the coil 52 formed only on the outer peripheral portion except for the circuit forming portion 53, and prevents the generation of stray capacitance between the coil 52 and the circuit formed on the IC element 50. As a result, the efficiency of receiving power from the supply unit 63 described later can be improved.
[0101]
In order to receive a practically sufficient supply of electric power and secure communication characteristics with the supply unit 63, the coil 52 must have a line width of 7 μm or more, a line distance of 5 μm or less, and a number of turns of 20 or less. It is preferable to make the number of turns or more.
[0102]
The connection between the input / output terminal 50a of the IC element 50 and the coil 52 is performed through a through hole 54 formed in the surface protection film 51. In this case, even if the formation position of the coil 52 is slightly shifted, the diameter or width of the through hole 54 is changed as shown in FIG. 10 so that the connection between the input / output terminal 50a and the coil 52 is securely performed. More preferably, the line width is smaller than 52.
[0103]
The conductor constituting the coil 52 has a multilayer structure including a metal deposition layer 55 and a metal plating layer 56, as shown in FIG. The metal deposition layer 55 and the metal plating layer 56 can be formed of any conductive metal. However, since the metal deposition layer 55 is relatively inexpensive and has high conductivity, the metal deposition layer 55 is made of aluminum, nickel, copper, and chromium. It is preferably formed of a selected metal or an alloy of two or more metals selected from these metal groups. In addition to a uniform single-layer structure, another layer structure in which different metal layers or alloy layers are laminated in multiple layers It can also be. On the other hand, the metal plating layer 56 is preferably formed of copper, and can be formed by electroless plating, electroplating, or precision electroforming.
[0104]
A method for manufacturing the IC element 50 will be described with reference to FIGS. 11 is a plan view of a so-called completed wafer 57 completed through a predetermined process, FIG. 12 is a process diagram showing a method of manufacturing the IC element 50, and FIG. 13 is a completed view in which a required conductive pattern including a coil is formed. FIG. 4 is a plan view of a wafer 57.
[0105]
As shown in FIG. 11, on the completed wafer 57, a large number of IC element circuits 53 are formed at equal intervals on the inner peripheral portion except for the outermost peripheral portion. A surface protection film 51 is formed (see FIG. 12).
[0106]
In the method for manufacturing an IC element having the structure shown in FIG. 10, first, as shown in FIG. 12A, aluminum, aluminum alloy, copper, or copper is formed on the surface protection film 51 formed on the circuit formation surface of the completed wafer 57. The metal deposition layer 55 is formed uniformly using a copper alloy. Next, as shown in FIG. 21B, a photoresist layer 58 is uniformly formed on the metal deposition layer 55, and a mask 59 on which a required pattern including a coil is formed is formed on the formed photoresist layer 58. Then, the photoresist layer 58 is exposed by irradiating a light 60 of a predetermined wavelength from outside the mask 59.
[0107]
Thereafter, the exposed photoresist layer 58 is subjected to a development process, and as shown in FIG. 12C, the exposed portion of the photoresist layer 58 is removed, and the portion of the metal deposition layer 55 corresponding to the exposure pattern is removed. To expose. As shown in FIG. 13, the exposed pattern of the metal deposition layer 55 includes a ring-shaped electrode portion 61, a coil 52 formed at a portion facing each of the circuit forming portions 53, 52 and a lead portion 62 connecting the lead portion 52 with the lead portion 52. Next, using the electrode portion 61 as one electrode, electroplating or precision electroforming is performed on the exposed portion of the metal deposition layer 55, and as shown in FIG. 56 are stacked.
[0108]
Next, the photoresist layer 58 adhered to the surface of the completed wafer 57 is removed by an ashing process or the like, and as shown in FIG. 12 (e), the electrode portion 61, the coil 52, and the lead portion 62 are formed on the uniform metal deposition layer 55. A completed wafer 57 on which the metal plating layer 56 having Next, the metal deposition layer 55 exposed from the metal plating layer 56 is selectively etched to remove the metal deposition layer 55 exposed from the metal plating layer 56, as shown in FIG. As a result, a completed wafer 57 in which both the metal deposition layer 55 and the metal plating layer 56 are formed into the required conductive patterns shown in FIG. 13 is obtained. Finally, the completed wafer 57 is scribed to obtain the required IC elements 50 shown in FIG.
[0109]
Finally, a network system to which the above-described electrical device recognition system is applied will be described. The network system includes an electric device 20 having a power plug 10, and a host computer 30 connected to the electric device 20 using a wireless LAN. Further, an external terminal computer is connected to the host computer 30 via a general network such as the Internet. Hereinafter, the above-described television 20a will be described as the electric device 20, but other electric devices such as an air conditioner and a refrigerator may be used.
[0110]
Although a network system configured by a wireless LAN will be described, for example, a LAN in which the electric device 20 and the host computer 30 are connected by a cable such as a cable may be used.
[0111]
FIG. 14 is a schematic diagram when the information of the television 20a is transmitted from the television 20a to the host computer 30. As shown in FIG. 14, the power plug 10 of the television 20a is connected to a handy reader / writer device 31 connected to the host computer 30. When the power plug 10 and the handheld reader / writer device 31 are connected, the handheld reader / writer device 31 reads information on the television 20 a from the coil-on-chip 11 of the power plug 10. Here, identification information for identifying the television 20a is stored in the IC element of the coil-on-chip 11 provided in the power plug 10, and the identification information is used as an identification ID in the LAN. This identification ID can be generated from identification information corresponding to each electric device 20 including, for example, a manufacturer name, a product type, a purchase shop, and the like. The generated identification ID is stored in the coil-on-chip 11 in advance, for example, when the television 20a is manufactured or sold at a purchase store.
[0112]
Information on the television 20 a read by the handy type reader / writer device 31 is transmitted to the host computer 30. When the host computer 30 receives the information on the television 20a, as shown in FIG. 14, the host computer 30 stores and manages information on the television 20a such as a manufacturer name and a product model. At the same time, the host computer 30 receives and manages an identification ID for identifying the television 20a and control information for controlling the electric device 20 to perform a desired operation.
[0113]
The host computer 30 transmits information of not only the television 20a but also other electric devices 20 in the same manner. As shown in FIG. 15, the received information of each electric device 20 is managed on an ID table based on the identification ID. In FIG. 15, for example, an identification ID “0101” is assigned to the television 20a, and an identification ID “0102” is assigned to the air conditioner. Further, control information for controlling each electric device 20 is managed on a control information table for each identification ID.
[0114]
For example, in FIG. 15, control information “1000” is assigned to “turn on power” information, and control information “1001” is assigned to “turn off power” information. These pieces of control information may be created for each electric device 20. Further, for example, common control information may be assigned to common information such as “turn on power” information for each electric device 20. When allocating common control information, it is determined which electric device 20 is the control information based on the identification ID corresponding to each electric device 20.
[0115]
As shown in FIG. 15, the control information managed by the host computer 30 is transmitted to each electric device including the television 20a. At this time, communication between the host computer 30 and the television 20a is performed by a wireless LAN. The control information transmitted from the host computer 30 to the television 20a is stored in a storage device such as a RAM provided in the television 20a.
[0116]
FIG. 17 shows a schematic diagram when the terminal computer 40 remotely operates the television 20a. As shown in FIG. 17, the terminal computer 40 specifies an operation to be performed on the television 20a from a graphical user interface. For example, in FIG. 17, an operation designation screen of “TV” is displayed on the Web browser, a “power ON” field is clicked on the screen, and “power ON time” is further entered. Then, when the "send" field is clicked, the entered information is transmitted to the host computer 30 via the network 41 such as the Internet.
[0117]
When the information regarding the operation of the television 20a is transmitted from the terminal computer 40 to the host computer 30, the host computer 30 transmits this information to the television 20a. At this time, information is transmitted from the host computer 30 to each electric device 20 via the wireless LAN. This information has an identification ID and control information as shown in FIG. In FIG. 17, the identification ID is information stored in the ID table and assigned to each electric device 20, and the control signal is “power ON” information or “power OFF” stored in the control information table. This is information that specifies an operation such as "do" information.
[0118]
As described above, when the operation of the television 20a is specified from the terminal computer 40, for example, when the “turn on the power at 20:00” operation is specified for the television 20a, the host computer 30 transmits information to the television 20a. "010110002000 ..." is transmitted. Here, the four numbers “0101” from the left indicate the identification ID of the television 20a, the next four numbers “1000” indicate the control information “turn on the power”, and the next four numbers “2000” indicate the television ID. The control information indicates the time at which the power of the power supply 20a is turned on. Note that a detection code may be inserted between the identification ID and each control information.
[0119]
Information transmitted from the host computer 30 to each electric device 20 via the wireless LAN is first received based on the identification ID. For example, when the identification ID is "0101" as described above, the television 20a having the matching identification ID receives the information. After the received television 20a temporarily stores the received information in a storage device such as a RAM, a processing device such as a CPU generates a control signal for controlling the operation of the television 20a. This control signal incorporates the received information, and the television 20a performs an operation as specified by the terminal computer 40.
[0120]
As described above, the identification information for identifying the electric device 20 is stored in the coil-on-chip 11, and the identification information can be used as the identification ID in the wireless LAN. Thus, the operation of the electric device 20 can be controlled from the host computer 30 using the identification information. Further, it is possible to cause the electric device 20 to perform a desired operation from the terminal computer 40 externally connected to the host computer 30 via the network via the host computer 30. Therefore, for example, using the power plug 10 provided with the coil-on-chip 11 and the handy-type reader / writer device 31 to perform an operation designation or the like by time reservation from an external place remote from the electric device 20 such as a destination. And the handling of the electric device 20 becomes convenient.
[0121]
As described above, when the coil-on-chip 11 is provided in the power plug 10, since the power plug 10 for supplying electric power to the electric device 20 is provided, the information of each electric device 20 is It can be stored in the coil-on-chip 11. Therefore, the information of the electric device 20 can be easily read and obtained for any electric device 20 using the reader / writer device 31. Thus, a work requiring information on the electric device 20 can be efficiently performed.
[0122]
Further, by providing the positioning hole 36 for inserting the electrode 13 of the power plug 10 in the reader / writer device 31, the power plug 10 can be securely fixed to the reader / writer device 31. Therefore, it is possible to stably transmit and receive radio waves between the antenna unit 35 of the reader / writer device 31 and the coil-on-chip 11 of the power plug 10. Thereby, the reader / writer device 31 can reliably read the information of the electric device 20 from the coil-on-chip 11.
[0123]
When the display unit 34 is provided in the reader / writer device 31, the power plug 10 is connected to the reader / writer device 31 to read the information of the electric device 20 and to check the information of the electric device 20 on the spot. it can. Therefore, when performing a work requiring information on the electric device 20, the work can be performed reliably and efficiently while checking the read information.
[0124]
When identification information for identifying the electric device 20 is stored in the coil-on-chip 11, the operation of the electric device 20 can be remotely performed via the wireless LAN by using the identification information. Therefore, a more convenient network can be constructed by including the electric device 20 in the LAN.
[0125]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, the power supply plug which can transmit easily the information containing the identification information of an electric device, the electric device recognition apparatus and the electric device recognition method which can easily recognize the information containing the identification information of an electric device, and the electricity An electrical device recognition system capable of easily recognizing information including device identification information can be provided.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view showing a configuration example of an electric device recognition system according to an embodiment of the present invention.
FIG. 2 is a schematic perspective view showing another example of the configuration of the electric device recognition system according to the embodiment of the present invention.
FIG. 3 is a schematic perspective view showing the electric device recognition device according to the embodiment of the present invention.
FIG. 4 is a schematic perspective view showing a configuration example of a power plug according to the embodiment of the present invention.
FIG. 5 is a schematic perspective view showing a power plug according to the embodiment of the present invention.
FIG. 6 is a schematic perspective view showing another configuration example of the power plug according to the embodiment of the present invention.
FIG. 7 is a schematic perspective view showing another configuration example of the power plug according to the embodiment of the present invention.
FIG. 8 is a schematic sectional view showing a configuration example of a power plug according to the embodiment of the present invention.
FIG. 9 is a configuration diagram showing an IC element used in the embodiment of the present invention.
FIG. 10 is a sectional view showing an IC element used in the embodiment of the present invention.
FIG. 11 is a configuration diagram showing a completed wafer used in the embodiment of the present invention.
FIG. 12 is a process chart showing a method for manufacturing an IC element used in the embodiment of the present invention.
FIG. 13 is a configuration diagram showing a completed wafer used in the embodiment of the present invention.
FIG. 14 is a schematic diagram illustrating a network system according to an embodiment of the present invention.
FIG. 15 is a schematic diagram showing a network system according to an embodiment of the present invention.
FIG. 16 is a schematic diagram showing communication data according to the embodiment of the present invention.
FIG. 17 is a schematic diagram showing a network system according to an embodiment of the present invention.
[Explanation of symbols]
Reference Signs List 10 power plug, 10a plug housing, 11 coil-on-chip, 11a coil-on-chip, 12 power cord, 13 electrodes, 14 mini-mold, 20 electric equipment, 20a TV, 30 host computer, 31, 31a reader / writer device, 32 reading Button, 33 write button, 34 display section, 35 antenna section, 35a antenna section, 36 positioning hole, 37 tip section, 37a tip section, 39 USB interface, 39a USB interface, 40 terminal computer, 41 network, 50 IC element, 50a I / O terminal, 51 surface protection film, 52 coil, 53 circuit formation part, 55 metal deposition layer, 56 metal plating layer, 57 completed wafer, 58 photoresist layer, 59 mask, 60 light, 61 electrode part, 62 lead part

Claims (21)

A power plug connected to electrical equipment,
Storage means for storing information including identification information for identifying the electrical device,
And a communication unit for wirelessly transmitting the information stored in the storage unit. 2. The power plug according to claim 1, wherein the communication unit includes an antenna, and the antenna has a predetermined position relative to an electrode of the power plug. The power plug according to claim 2, wherein the antenna is provided on a front surface of the power plug. The power supply according to claim 1, wherein the storage unit is an IC element that stores the information, and the communication unit is an antenna coil provided on the IC element and transmitting the information. plug. The power plug according to claim 1, wherein the information includes information necessary for recycling the electric device. The power plug according to claim 1, wherein the information includes warranty information of the electric device. The power plug according to claim 1, wherein the information includes control information for controlling an operation of the electric device. The power plug according to claim 1, wherein the identification information included in the information is used in a wireless LAN. An electrical device recognition device that recognizes the information from a power plug that can transmit information including identification information for identifying the electrical device,
Positioning means for inserting an electrode of the power plug and positioning the power plug;
Communication means for wirelessly receiving the information from the power plug,
A recognizing means for recognizing the information received by the communication means. The apparatus according to claim 9, wherein the recognition unit includes a display unit that displays the recognized information. An electrical device recognition method for recognizing the information from a power plug capable of transmitting information including identification information for identifying the electrical device,
Inserting an electrode of the power plug;
Wirelessly receiving the information from the power plug;
Recognizing the received information. An electric device recognition system comprising: a power plug connected to an electric device; and a recognition device connected to the power plug and recognizing information including identification information of the electric device,
The power plug is
Storage means for storing information including identification information for identifying the electrical device,
First communication means for wirelessly transmitting the information stored in the storage means,
The recognition device,
Positioning means for inserting an electrode of the power plug and positioning the power plug;
Second communication means for receiving the information wirelessly from the power plug,
A recognizing means for recognizing the information received by the second communication means. The electric device recognition system according to claim 12, wherein the first communication unit includes an antenna, and the antenna has a predetermined position relative to an electrode of a power plug. The electric device recognition system according to claim 13, wherein the antenna is provided on a front surface of a power plug. 14. The device according to claim 12, wherein the storage unit is an IC element for storing the information, and the first communication unit is an antenna coil provided on the IC element and transmitting the information. Electrical equipment recognition system. 13. The electric device recognition system according to claim 12, wherein the information includes information necessary for recycling the electric device. The electric device recognition system according to claim 12, wherein the information includes guarantee information of the electric device. 13. The electric device recognition system according to claim 12, wherein the information includes control information for controlling an operation of the electric device. 13. The electric device recognition system according to claim 12, wherein the identification information included in the information is used in a wireless LAN. 13. The electric device recognition system according to claim 12, wherein the recognition unit includes a display unit that displays the recognized information. An electric device recognition method, comprising: a power plug connected to an electric device; and a recognition device connected to the power plug and recognizing information including identification information for identifying the electric device,
Inserting the electrode of the power plug into the recognition device;
The power plug storing the information;
The power plug wirelessly transmits the information to the recognition device,
The recognition device wirelessly receives the information,
A step of recognizing the information by the recognizing device.

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