KR100638000B1 - Home network system - Google Patents

Abstract

The present invention relates to a home network system, and more particularly, to a home network system in which a home code is set only in a home code setting state.

The home network system of the present invention is connected to a first electrical device that transmits data including a home code input from the outside to a second electrical device through a predetermined network, and the first electrical device is connected through the network. In the code setting state, the second electronic device receives the data, reads the home code, and sets the home code as its own home code.

Description

Home Network System {HOME NETWORK SYSTEM}             

1 is a block diagram of a general overall home network system.

2 is an embodiment of a home network system according to the prior art.

3 is a flowchart of a method for setting a home code in a modem according to the prior art.

4A to 4C are diagrams illustrating the first to third embodiments of the home network system according to the present invention.

5 is a flowchart illustrating an operation of a home network system according to the present invention.

<Description of the symbols for the main parts of the drawings>

10, 12: slave device 20: master device

30a, 40, 70: modem 71: power supply

72: transmission unit 73: micom

74: power line 75: input means

The present invention relates to a home network system, and more particularly, to a home network system in which a home code is set only in a home code setting state.

At present, home automation for automatic control of home appliances in each home or remote is almost commercialized. In the early stages of home automation, each device was controlled separately using a telephone or an infrared ray, and there was no connection between the devices, but now, there is a controller that controls the network by establishing a network between home appliances using communication means. A method for integrated management is used.

1 is a block diagram of a general overall home network system. As shown, a home network means that various digital home appliances can be connected to each other to enjoy convenient, safe and economical living services at home and at any time.

In the background of the appearance of the home network, refrigerators and washing machines, which have been called white household appliances, have been gradually digitized due to the development of digital signal processing technology. Also, due to the rapid development of home appliance operating system technology and high-speed multimedia communication technology, This is because these technologies are emerging as a form of integrated new information appliances.

Here, the IT network refers to a network type established for exchanging data or providing Internet service between a personal computer and peripheral devices, and the AV network refers to a network type between home appliances that handle audio or video information. And, the living network is a network constructed for the purpose of simple control of home appliances, such as home automation and remote meter reading, and may be composed of a refrigerator, a washing machine, a microwave oven, a light lamp, a gas alarm, an air conditioner, a telephone, and the like.

A home network system configured in such a home is a master device, which is an electric device capable of controlling or monitoring the operation of other electric devices, and a function of responding to a request of the master device by the characteristics or other factors of the electric device, and its status. It consists of a slave device, which is an electrical appliance having a function of informing information of a change. As used herein, the electric appliance is meant to include not only home appliances for living network services described above, such as a washing machine and a refrigerator, but also home appliances for IT network services and AV network services.

2 is an embodiment of a home network system according to the prior art.

The home network system is mounted on a master device 20 that performs a unique function, a master device 20 that communicates with the slave device 10 to perform control and / or status check, and a slave device 10. It consists of an external modem 30 that enables communication with the device 20.

In detail, the slave device 10 communicates with the external modem 30 via the signal line 50, and has a communication interface 10a for such communication.

In addition, the master device 20 is provided with a modem device (not shown) and / or a communication interface (not shown) for communicating through a predetermined transmission line 60.

The external modem 30 further includes a power line 32 that receives an external power supply (AC power supply) from the plug 31 and an external power supply applied through the power line 32 as a DC power supply (for example, 5V). The power supply unit 33 to convert, the transmission unit 34 for transmitting and receiving a predetermined signal through the master device 20 and the transmission line 60, and the signal received from the master device 20 from the transmission unit 34 The microcomputer 35 receives and transmits the signal received from the slave device 10 to the master device 20 by transmitting the signal received from the slave device 10 to the transmission unit 34.

3 is a flowchart of a method for setting a home code in a modem according to the prior art. 3 is a method of setting a home code of a modem corresponding to a general-purpose network (for example, a power line, a wireless network, etc.) for which an identification number such as a home code is required.

Due to the nature of such a universal network, the modem 30 requires an identification code such as a home code. This identification code is transmitted from the master device 20 by user input or by automatic number selection. The modem herein includes both an external modem 30 and an internal modem (not shown) which are classified according to the mounting type of the electric device.

In detail, in step S41, the modem determines whether the home code is set after the power is supplied. If the home code has been set, the operation ends. Otherwise, the flow goes to step S42.

In step S42, the modem determines whether it has received a home code from an electric device or another electric device. If the home code is received, the process proceeds to step S43 to set the received home code as its own home code. If not, it will wait until a home code is received.

In the modem, a home code setting method receives a home code from an electric device or another electric device. The network in which the home code is used is a general-purpose network, which communicates freely with other homes besides the home where the home network system is installed. This becomes possible. That is, there is a problem in setting that the modem can receive a home code set by another user in the surrounding house and set the home code as its own home code. This setting problem of home codes causes more problems in the use of electrical appliances and in security.

In order to solve this problem, an object of the present invention is to provide a home network system that allows a legitimate user to set a home code for legitimate use and security in a home network system in which a modem is installed.

The home network system of the present invention is connected to a first electrical device that transmits data including a home code input from the outside to a second electrical device through a predetermined network, and the first electrical device is connected through the network. In the code setting state, the second electronic device receives the data, reads the home code, and sets the home code as its own home code.

The second electrical device may further include an input means for receiving a home code setting command by a user, and converts a current state into the home code setting state according to the home code setting command.

In addition, the input means is preferably a predetermined switch.

In addition, the input means is preferably in the form of a key input pad.

In addition, the second electric device determines whether the home code is set, and if the home code is not set, it is preferable not to transmit predetermined data through the network.

In addition, the second electric device preferably discards data received from the network when the current state is a home code release state.

Preferably, the second electric device includes a modem for connection with the network, and when the modem is in the home code setting state, the modem sets the home code to its home code.

Preferably, the input means is provided independently of the modem so that the second electric device sends the home code setting command to the modem to convert the current state of the modem.

In addition, the input means is provided connected directly to the modem, the modem preferably receives the home code setting command from the input means to convert the current state.

In addition, the home code setting method in the home network system of the present invention, in a home network system in which at least a first electric device and a second electric device are connected through a predetermined network, the home code input from the outside of the first electric device is input. Receiving, transmitting, by the first electric device, data including the home code to the second electric device through the network, and determining whether the second electric device is in a home code setting state. And reading the home code from the data when the second electric device is currently in the home code setting state according to the determination, and setting the home code as its own home code by the second electric device. It includes a step.

In the following, the invention is explained in detail on the basis of the embodiments of the invention and the accompanying drawings. However, the scope of the present invention is not limited by the following embodiments and drawings, and the scope of the present invention should be limited only by the contents described in the claims to be described later.

4A to 4C are diagrams illustrating the first to third embodiments of the home network system according to the present invention.

As shown in FIG. 4A, the modem 30a of the home network system may allow the slave device 12 and the master device 20 to communicate with each other, as shown in FIG. 2. The power supply unit 33, the transmission unit 34, and the microcomputer 35 are provided in the same manner, and additionally, the input unit 36 is provided. Here, the microcomputer 35 is provided with a predetermined storage means (not shown) for storing the home code.

This input means 36, like the on / off switch, includes at least two options for setting the current state of the modem 30a in the home code setting state and in the release of the home code setting state. The microcomputer 35 allows the home code to be set or the home code not to be set according to the setting state of the input means 36. A description thereof will be described in detail with reference to FIG.

As shown in FIG. 4B, the internal modem 40 includes a transmitter 41 and a microcomputer 42 which perform the same functions as the transmitter 34 and the microcomputer 35 of the external modem 30a of FIG. 4A. Equipped. However, since the DC power supply (for example, DC 5V) required by the internal modem 40 is supplied through the power line 44 directly from a power supply unit (not shown) in the slave device 10, the internal modem 40 is separately provided. Power supply is not provided.

The built-in modem 40 further includes the input means 43 described in FIG. 4A, and the operation for setting the home code of the input means 43 is as described above.

As shown in FIG. 4C, the home network system includes a slave device 12 performing a unique function, a master device 20 communicating with the slave device 12 to perform control and / or status check, and a slave. It is configured with a modem 70 mounted to the device 12 to enable communication with the master device 20.

In detail, the slave device 12 communicates with the modem 70 via the signal line 50, and transmits an external power source (alternating power source) through the power line 74 of the modem 70 as it is. ). The modem 70 may be embedded in the slave device 12 or externally mounted. In addition, while the modem 70 is connected to the slave device 12, each of them performs its own function but should be considered as one electric device in an integrated manner. At this time, from the standpoint of power supply and performance of the product-specific function, the slave device 12 becomes a main body device and the modem 70 becomes a predetermined part, but the slave device 12 and the modem 70 in terms of signal processing. Each has its own function.

In addition, the master device 20 is provided with a modem device (not shown) and / or a communication interface (not shown) for communicating through a predetermined transmission line 60. This master device 20 is also one of the electrical devices described above, but the modem 70 may be mounted in the same manner as the master device 20, but the description will be made with respect to the one mounted in the slave device 12 in the present specification. .

In addition, the modem 70 receives an external power supply (AC power supply) from the slave device 12 (i.e., main unit) through the power line 74, and converts the external power supply to DC power supply (for example, 5V). Transmits and receives a predetermined signal through the power supply unit 71, the master device 20, and the transmission line 60, transmits and receives a predetermined data with the microcomputer 73, and performs mutual conversion between the signal and the predetermined data. The transmission unit 72 and the signal received from the master device 20 are received from the transmission unit 72 as predetermined data and processed according to a predetermined data processing method, and a predetermined packet is constructed according to the processing result. The microcomputer 73 transmits the signal received from the slave device 12 to the slave device 12 via the signal line 50, converts the packet received from the slave device 12 into data, and transmits the data to the transfer unit 72. Setting of home code setting status It consists of input means 75 for setting and releasing.

In detail, the power supply unit 71 receives AC power, which is an external power source, directly from the slave device 12, that is, the slave device 12 is plugged into an outlet (not shown) in which an external power source is installed in the home. After input via the power line 90 connected through, the input external power is applied through the power line 74 to the power supply unit 71 of the modem 70 without any processing. That is, although the power line 74 and the power line 90 are connected to each other, an external power source applied from the power line 90 is applied to the power line 74 without processing such as rectification. This power line 74 is shown as one line, but consists of at least two lines (for a two-phase power source).

In addition, the transmission unit 72 operates by receiving DC power from the power supply unit 71, and converts data between the data from the microcomputer 73 and the signal from the transmission line 60 (ie, the master device 20). Format conversion, etc.) to provide information on which appropriate conversion has been performed according to the receiver. That is, since the format of the information to be transmitted is different according to the transmission line 60, the transmission unit 72 performs signal and data conversion according to the transmission line 60. For example, the data between the microcomputer 73 and the transmission unit 72 has a constant format, but when the transmission line 60 is cable or wireless, the format of each transmitted information is different. ) Performs the appropriate conversion.

In addition, the transmission unit 72 may include a separate circuit (not shown) to separate power between the transmission line 60 and the microcomputer 73 so that physical separation may be performed.

Next, the microcomputer 73 converts the data transmitted from the transmission unit 72 into a packet of a predetermined format readable by the slave device 12, in order to transmit the data to the slave device 12, and vice versa. The packet transmitted from 12) is converted into a data format that can be processed by the transmission unit 72 and transmitted. In particular, the microcomputer 73 converts the packet transmitted through the signal line 50 into data, and then performs data processing according to a MAC (Message Authentication Code) algorithm. Here, the signal line 50 is, for example, a line corresponding to the RS-232 standard, and the microcomputer 73 includes a separate transmission / reception means (not shown) for communication through the signal line 50. The means may communicate with the microcomputer 73 through a universal asynchronous receiver / transmitter (UART), and communicate with the slave device 12 in an RS-232 manner. In addition, other means for communication between the microcomputer 73 and the slave device 12 may be provided.

In addition, the microcomputer 73 may process the data independently of the slave device 12 by reading the contents of the data transmitted from the actual transmission unit 72 as well as the conversion between the data and the packet described above. For this processing, the microcomputer 73 is provided with storage means (not shown) for storing predetermined information or the like.

In addition, the input means 75 operates in the same manner as the input means 36 and 43 of FIGS. 4A and 4B described above.

However, as shown in FIGS. 4A to 4C, in addition to the user operating the input means 36, 42, 75 directly connected to the modems 30a, 40, 70, a predetermined input means (for example, a key input button) is provided. , Touch pads, etc.) may be provided in the slave devices 10 and 12. When a command for the home code state from this input means is input by the user, the slave device 10, 12 generates a packet or signal for it and transmits it to the modems 30a, 40, 70, and thereby the modem 30a. The microcomputers 35, 42, and 73 of 40, 70, and 70 may switch or release the current state to the home code setting state according to this command.

In the following, slave devices 10, 12 are described as including at least one modem 30a, 40, 70.

5 is a flowchart illustrating an operation of a home network system according to the present invention.

In detail, in step S81, when power is applied, the microcomputers 35, 42, and 73 search the storage means to determine whether there is a home code set by the master device 20. If there is no home code, the home code is not set and the flow proceeds to step S82. If the home code has already been set, no further home code setting is required, so it is terminated. In this step S81, the microcomputer 73 may stop the communication via the network 60 and / or the communication with the slave device 12.

In step S82, the microcomputers 35, 42, and 73 determine whether the current state is a home code setting state. This determination is made, as described above, depending on whether the microcomputer 35, 42, 73 has received a setting command from the input means 36, 43, 75 or from the slave devices 10, 12. At this time, the microcomputer 73 may set the communication with the slave device 12 to the communication enabled state according to the home code setting method. If it is in the home code setting state, the process proceeds to step S83, otherwise, the process waits for the home code setting state. In this standby state, the microcomputer 73 stops any communication through the transmission line 60.

In step S83, the microcomputers 35, 42, and 73 control the transmission units 34, 41, and 72 to receive data received through the transmission line 60, and the data includes a home code. Determine if you are. If the home code is not included, the data not including the home code is discarded and the data is waited until the data including the home code is received. If the home code is included, the process proceeds to step S84, whereby the microcomputers 35, 42, and 73 read the home code from the received data, and set the home code as its own home code and store it.

After this setting, the microcomputer 73 switches both the communication with the slave device 12 and the communication via the transmission line 60 to a communication enabled state.

The above-described home code setting method is a home code only after setting a state of the modems 30a, 40, and 70 as a home code setting state when a legitimate user (ie, owner or installer of a home network system) arbitrarily sets a home code. Can be set. Therefore, when the home code is not in this home code setting state, even if a signal including a home code arbitrarily set by an external user is received through the transmission line 60, the homes of the modems 30a, 40, and 70 according to this home code are used. The code is not set. However, when a legitimate user sets the home code, the external user can set the preset time from setting the state of the modems 30a, 40, 70 to the home code setting state until the actual home code is input and set. It is practically possible to set the home code by, but since the setting time is considerably short, the probability is quite small.

The present invention having such a configuration has an effect of allowing a legitimate user to set a home code for legitimate use and security in a home network system in which a modem is installed.                     

In addition, the present invention has the effect of setting the home code before the communication of the predetermined data.

Claims (13)

A transmission unit for communicating with another electric device through a network; An input unit for receiving a home code setting command by a user; And converting a current state into a home code setting state according to the home code setting command, and reading the home code included in the data received from the other electric device through the transmission unit and setting the home code as its own home code. Characterized by network electrical equipment. The network controller of claim 1, wherein the controller determines whether the home code is set by the other electric device, and when the home code is not set, converts the current state to the home code setting state. device. The network electric device of claim 2, wherein the controller discards data received from the network when the current state is not a home code setting state. delete A modulation / demodulation device configured to communicate with another electric device through a network, and read a home code included in data received from the other electric device and set it as its own home code when the current state is a home code setting state; An input unit for receiving a home code setting command by a user; And a main body device which transmits the home code setting command to the modulation / demodulation device and converts the current state of the modulation / demodulation device into a home code setting state. delete The network electrical device of claim 5, wherein the demodulation and demodulation device determines whether there is a home code set by the other electric device, and when there is no home code, converts a current state to a home code setting state. 8. The network electrical device of claim 7, wherein the demodulation device discards data received from the network when the current state is not a home code setting state. delete A method of setting a home code of a network electric device, the method comprising: Receiving, by the network electric device, a home code setting command by a user; Converting a current state into the home code setting state according to the home code setting command; Determining, by the network electric device, whether a current state is a home code setting state; When the home code is set according to the determination, reading, by the network electric device, a home code from data received from another electric device; And setting, by the network electric device, the home code as its own home code. delete The method of claim 10, wherein the setting method further comprises a second determination step of determining whether the network electric device has a home code set by the other electric device before the determination step, and The home code setting method of the home network system, characterized in that for performing the determination step if there is no home code. The home network system of claim 12, wherein the setting method further comprises discarding data received from the network when the current state is not a home code setting state in the determining step. How to set up your code.

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