KR20120058018A - Communication path set method from radio each room control system - Google Patents

Abstract

PURPOSE: A communication route establishment method in a wireless room control system is provided to reduce numbers of data transmission and reception by continuously maintaining communication. CONSTITUTION: A boiler receives signals of apparatuses. The boiler transmits response signals. The apparatuses monitor control signals and the response signals transmitted from an apparatus of other addresses. In case the apparatus which transmits the control signal does not receive the response signal, the control signal for monitoring other apparatus is transmitted to the boiler. Other apparatus receives the response signal. Other apparatus immediately transmits the response signal to transmission apparatus.

Description

{Communication path set method from radio each room control system}

According to the present invention, in a wireless room control system that wirelessly communicates with a plurality of devices, the entire device receives communication data of a device having a different address from itself and monitors a response signal sent by the boiler to prevent one device from communicating with the boiler. If it is possible to transmit the communication signal in place of the control signal of the communication device is disconnected from the other device relates to the invention to resolve the communication loss state with a minimum of transmission and reception without communication interference with other devices.

In general, even when wireless communication is running smoothly, if the communication cannot be performed due to the interruption of communication due to factors such as noise or failure of the repeating device due to factors such as noise. Devices that communicate with other devices over long distances are disconnected.

Also, even if the route is changed in this situation, if there are a lot of devices that use batteries such as wireless room control system, and there is a restriction to communicate only for a specified time, it is determined that the communication has failed, search for neighboring routers, and change or set the route to the router. If a request is made, the response is changed, and the path is changed and the existing data is sent again, at least two or three times may be transmitted as needed, which may interfere with communication of a device using a power-sensitive battery.

In other words, a problem of unoccupying the channel unnecessarily for routing may occur.

The present invention has been made in order to solve the above-mentioned conventional problems, and when the control signal from the controller of each room to the boiler sends a response signal that the boiler receives the control signal to the controller to inform that the communication is being made, If there is no response signal due to a broken or low sensitivity, the other controller monitoring the signal of each controller sends the signal of the broken controller to the boiler so that the communication can be made continuously without interruption. It is an object of the present invention to provide a communication path setting method in a wireless room control system that can reduce power consumption because it does not need to reduce the routing.

According to an aspect of the present invention, there is provided a control signal wireless communication method of a boiler having one or more wireless communication devices, the method comprising: sending a control signal to a boiler by devices having a predetermined address; Receiving a signal from the devices in the boiler and sending a response signal; Monitoring, by the devices, a control signal and a response transmitted from a device at an address other than its own address; Transmitting a control signal monitored by another device to the boiler and receiving a response when the device which has sent the control signal does not receive a response; And sending the response back to the original transmission device.

On the other hand, the device is characterized in that the communication order is determined at regular time intervals according to the number is given to its own number when forming a wireless network.

On the other hand, when the device that sent the control signal did not receive a response, the step of transmitting the control signal monitored by the other device to the boiler and receiving the response is to give the order of signal transmission to a plurality of devices at a predetermined time interval and simultaneously in the multiple devices. Characterized in that the control signal does not occur.

On the other hand, the relay device stores the relayed device as a child and receives a response from the relay device, and the device that can communicate with the device that wants to communicate data has a path to communicate again by registering the relay device as a parentage. Characterized in that the method is changed through the pairs.

As described above, the present invention can avoid confusion by minimizing the number of times of data transmission and reception because one device does not find and communicate with another path instead of communicating with another path. Since there is no need to send and receive data for routing, there is an advantage of reducing power consumption.

In addition, by monitoring the communication status of other devices as well as their own data is a very useful invention that has the advantage that can be applied in any situation without interruption communication.

1 is a flowchart illustrating the flow of control signal data when one of two controllers has lost communication;
2 is a flowchart showing an operating state of the controller 1 of FIG. 1;
3 is a flowchart showing an operating state of the controller 2 of FIG. 1;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

A control signal wireless communication method of a boiler having one or more wireless communication devices, the method comprising the steps of sending a control signal to the boiler device having a predetermined address, receiving a signal from the devices in the boiler, and the devices themselves Monitoring the control signal and response transmitted from the device of other address besides the address of, and transmitting the control signal monitored by the other device to the boiler and receiving the response when the device which sent the control signal does not receive the response; And sending the response back to the original sending device.

The step of sending a control signal to the boiler by a device having a predetermined address is a step in which the valve controller sends a control signal to adjust the temperature by controlling the combustion or fan driving of the boiler.

Sending a response signal by receiving the signals of the devices in the boiler sends a response signal after receiving a signal for controlling the combustion or fan operation of the boiler in the valve controller to recognize that the communication of the control signal is normal will be. That is, the controller sends a control signal to the boiler and receives a response so that it can recognize that normal communication is being made. If the controller does not receive a response signal after sending the control signal, the boiler does not receive the signal from the controller. This indicates that there is a breakdown or low communication sensitivity, and thus no communication is occurring.

The monitoring of the control signals and the response transmitted from the devices having other addresses besides their own addresses is the step of receiving the control signal data and the response signal from the boiler from the controller installed in each room. .

That is, in each control boiler, each valve controller is given its own number when forming a wireless network, and communication is interrupted by monitoring control signal data and response signals of valve controllers having different numbers as well as their own control signals. To find a controller that has a high or low sensitivity.

If the device that sent the control signal did not receive a response, the control signal sent by the other device is sent to the boiler and the response is received by the other device that is monitoring the communication when there is a loss of communication or a controller with low sensitivity. Recognize and send data that you monitor instead.

In this case, a signal transmission order is given to a plurality of devices at predetermined time intervals so that a control signal is not simultaneously generated from the plurality of devices.

In other words, if the communication of the controller that sent the first control signal is lost, another controller monitors the signal of the controller that sent the first control signal and sends it instead. It is to prevent the redundant transmission of control signals by sending control signals at regular time intervals to determine the order in which the controller sends signals instead.

In the step of sending the response back to the first transmitting device, when the control signal of the controller that has lost communication is transmitted from another controller, the boiler transmits the response signal to the controller that sent the response signal, and the controller receiving the response signal is the original control signal. By sending a response signal to the controller that sends the control signal to determine that the umbilical cord has been delivered.

On the other hand, the device may be given a number when forming a wireless network so that the communication order is determined at regular intervals according to the number.

In each room control boiler, each valve controller is given its own number when forming a wireless network, and the communication order is determined using this number. The boiler collects the data from the valve controller and turns the boiler on / off and hot water on / off. Function such as off. The valve controller assigned to No. 1 sends data by broadcasting, and the boiler receiving this data transmits the response data to the No. 1 valve controller.

The next two valve controllers broadcast and transmit data. If the communication is interrupted and the boiler does not receive this data, the boiler does not transmit the response data. In this case, when the first valve controller receives this data, the first valve controller also waits for a certain time for the response data transmitted from the boiler, and when the response data is not received, the data received from the second valve controller is transmitted to the boiler. .

On the other hand, the relay device stores the relayed device as a child and receives a response from the relay device, and the device that can communicate with the device that wants to communicate data has a path to communicate again by registering the relay device as a parentage. It can be changed by way of pairs.

If the controller that sent the first signal is lost, another controller relays the original signal to the boiler and receives the response and sends a response signal to the controller that sent the first signal. Register as a child, and the controller that sends the first signal may register the relayed controller as a parent to transmit data and receive a response through the relay controller when communication is lost in the future.

When explaining the operation and effect of the present invention through one embodiment of the present invention made of such steps as follows.

1 illustrates a communication state between a controller 1 and a controller 2 controlling a valve of a boiler.

As shown in the figure, when the controller 1 transmits the control signal data to the boiler, the controller 2 receives the control signal data of the controller 1 and also receives and monitors the response data transmitted from the boiler to the controller 1 as well.

The controller 1 recognizes that the boiler has processed the control signal data by receiving the response signal and waits for the next control signal.

The control signal data sent from the controller 2 is also transmitted in the same manner. At this time, the controller 1 receives and monitors the control signal data sent from the controller 2 and receives and monitors the response signal sent from the boiler to the controller 2.

At this time, if the controller 2 is in communication with the boiler, the boiler does not receive the control signal data sent from the controller 2, but the controller 1 receives and monitors the control signal data of the controller 2.

At this time, the controller 1 recognizes that the communication between the controller 2 and the boiler is lost because the controller 1 receives the control signal data from the controller 2 but does not receive the response signal transmitted to the controller 2.

After recognizing the communication interruption, the controller 1 transmits the control signal data received from the controller 2 to the boiler, and the boiler receives the control signal data received from the controller 1 and transmits a response signal to the controller 1.

The controller 1 receiving the response signal can recognize that the control signal data transmitted from the controller 2 to the boiler is normally transmitted and controlled by transmitting the response signal to the controller 2.

On the other hand, in each control boiler, each valve controller is given its own number when forming a wireless network, and the communication order is determined based on this number, and the boiler collects data from the valve controller to turn on / off the boiler and hot water. Functions such as on / off. The valve controller assigned to No. 1 sends data by broadcasting, and the boiler receiving this data transmits the response data to the No. 1 valve controller.

The next two valve controllers broadcast and transmit data. If the communication is interrupted and the boiler does not receive this data, the boiler does not transmit the response data. In this case, when the first valve controller receives this data, the first valve controller also waits for a certain time for the response data transmitted from the boiler, and when the response data is not received, the data received from the second valve controller is transmitted to the boiler. .

When the boiler receives data of valve controller 2 from valve controller 1, it sends response data to valve controller 1, and valve controller 1 sends response data to valve controller 2 again to communicate with the boiler. At this time, the valve controller 1 stores the valve controller 2 becomes its child and the valve controller 2 stores the valve controller 1 becomes its parent. If the sensitivity strength of the received data is lowered below a certain level by a certain number of times during the communication, the sensitivity strength received from the valve controller of different number is compared to communicate with the boiler through the highest valve controller. .

It should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (4)

CLAIMS 1. A control signal wireless communication method of a boiler having one or more wireless communication devices, the method comprising: sending control signals to devices having a predetermined address; Receiving a signal from the devices in the boiler and sending a response signal; Monitoring, by the devices, a control signal and a response transmitted from a device at an address other than its own address; Transmitting a control signal monitored by another device to the boiler and receiving a response when the device which has sent the control signal does not receive a response; And sending the response back to the first transmission device.
The method according to claim 1,
The device is assigned a number when the wireless network is formed, the communication path setting method in the wireless room control system, characterized in that the communication order is determined at regular intervals according to the number.
The method according to claim 1,
If the device that sent the control signal did not receive a response, the control signal monitored by the other device is transmitted to the boiler and the response is given to a plurality of devices at a predetermined time interval so that the signal is transmitted at the same time. Communication path setting method in a wireless room control system, characterized in that not to occur.
The method according to claim 1 or 3,
The relay device saves the relayed device as a child and receives the response from the relay device to communicate with the device that wants to communicate with the device. The relay device registers the relay device as a parental and establishes a path to communicate again. Communication path setting method in a wireless room control system, characterized in that for changing in the way through.

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