KR20160074279A - Boiler Having a Main-Controller For Control Heating Temperature of Room - Google Patents

Abstract

The present invention greatly reduces component raw material values by simply configuring an on / off switch and reduces the wiring work time and cost by configuring the communication method between the on / off switch and the central control device by wireless communication or UTP communication According to the present invention, an on / off switch for transmitting a temperature value generated by measuring a current temperature of a room and an inputted on / off signal; A central control unit for calculating a driving value for driving the boiler, the hot / cold water dispenser, the lighting unit, and the electric heating unit according to the setting information after receiving the setting information; A boiler for generating and supplying hot water to each of the indoor pipes, the boiler being operated and stopped according to a driving signal of the central control unit; A hot / cold water distributor for opening / closing a switch for supplying and shutting hot water supplied from a boiler according to a hot water supply signal of the central control unit; And a device controller for driving the lighting device and the electric heating device with the power supplied from the switchboard according to the lighting signal or the driving signal of the central control device. To provide the boiler.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a boiler having a central control device for controlling the heating temperature of each room,

The present invention relates to a boiler having a central control device for controlling each room heating temperature, and more particularly, to a boiler having a central control device for controlling the heating temperature of each room, And a central control device for controlling the respective heating temperatures for controlling the operation of the lighting and the heating device, respectively.

The home network system for the home automation of the boiler, the room temperature controller, the other crime prevention, disaster prevention, lighting, etc., has a room controller for each room in order to operate and control the corresponding function indoors.

One mode of operation of the one-touch method of the 'Integrated lighting heater switch' and registered Korean Utility Model No. 20-0428202 (registered on September 28, 2006) of Korean Patent No. 0924578 (registered on October 26, 2009) The controller or the integrated switch includes a plurality of complicated setting buttons for automatically controlling the temperature and the illuminance of each room and includes a display device for displaying indoor environment information and voice guidance Respectively.

Such a complicated configuration of a room controller or switch is expensive. However, since the room controller or the switches must be installed in each room, the cost of the components is not only burdensome but also the wiring work between the room controller or the switches and the lighting and household appliances The construction cost will be increased.

More specifically, in the conventional lighting wiring, power lines are wired from each lighting to the wall where the corresponding switch is located, so that the number of power lines wired to the wall is increased in proportion to the number of lights.

In addition, there is a communication structure with the controller control box that controls the driver installed in the distributor that distributes the temperature controller of each house and the hot water to each room.

Such a conventional wiring structure has a complicated wiring and low wiring workability. In addition, the cost of material consumed due to the use of a thick power line having a large cost compared to a general communication line can not help but increase.

In addition, when these room controllers are arranged in each room or each area, it is time-consuming and time-consuming to move setting information to each of them in order to input setting information to each room,

In order to solve the above problems, an object of the present invention is to provide a system and method for controlling a boiler and an electric heater by using an on / off switch that is simply configured to transmit only a current temperature value measured in each room, And a central control device for controlling the respective room heating temperatures.

It is also an object of the present invention to provide a control system for controlling the heating and heating temperature of each boiler and an electric heater until the setting information is reached through a central control device for controlling temperature and illuminance according to inputted setting information, And to provide a boiler having a control device.

It is also an object of the present invention to provide a boiler having a central control device for controlling each room heating temperature in which a communication method between an on / off switch and a central control device is constituted by wireless communication such as Bluetooth or UTP communication.

The above object of the present invention can be achieved by an on / off switch for transmitting a temperature value generated by measuring a current temperature of a room and an inputted on / off signal; A central control unit for calculating a driving value for driving the boiler, the hot / cold water dispenser, the lighting unit, and the electric heating unit according to the setting information after receiving the setting information; A boiler for generating and supplying hot water to each of the indoor pipes, the boiler being operated and stopped according to a driving signal of the central control unit; A hot / cold water distributor for opening / closing a switch for supplying and shutting hot water supplied from a boiler according to a hot water supply signal of the central control unit; And a device controller for driving the lighting device and the electric heating device with the power supplied from the switchboard according to the lighting signal or the driving signal of the central control device. ≪ / RTI >

According to the present invention, the on / off switch includes: a temperature sensor for measuring a current temperature around the on / off switch at predetermined time intervals to generate a temperature value; An on / off input unit for generating an on / off signal corresponding to a button input, the on / off input unit including an illumination on / off and a heating on / off button; And a communication unit for transmitting the temperature value and the on / off signal to the central control unit.

Further, according to the present invention, it is preferable that the communication unit has any one of a wireless communication or a UTP communication modem.

According to the present invention, the central control device comprises buttons for inputting the set temperature, the setting illuminance, and the setting option of each room by time, day of the week, and date, and generates the heating temperature value, the illumination illuminance value, A setting information input unit for inputting the setting information; A heating temperature value, an illumination intensity value, and an option value; A device driver for generating a command signal for driving at least one of the lighting device, the heating device, the boiler, and the cold / hot water distributor according to the driving value and transmitting the generated command signal to the device controller; A storage unit for storing the setting information input to the central control unit and a model name list of the heating apparatus, the lighting apparatus, the boiler, and the cold / hot water distributor; And a communication unit that supports the same communication method as the on / off switch so as to receive the currently measured temperature value and the on / off signal from the on / off switch.

According to another aspect of the present invention, the calculating unit may calculate the time required to reach the set temperature in a state where the boiler or the apparatus controller is driven to raise the set temperature value to the present temperature value, Time calculating means; It is preferable to further include an option calculation means for calculating an operating time and a time of each of the boiler, the heating device, and the lighting device with respect to the option value.

Therefore, the boiler having the central control device for controlling the respective room heating temperatures according to the present invention can significantly reduce the component raw material value by simply configuring the on / off switch, By configuring the communication method between the switch and the central control device by wireless communication or UTP communication, it is possible to save the wiring work time and cost.

In addition, the central control device of the present invention can receive all of the setting information of each room, so that it is possible to avoid the troublesome operation to be performed for each room and for each room controller.

FIG. 1 is an overall configuration diagram of a boiler having a central control device for controlling each room heating temperature according to an embodiment of the present invention. FIG.
FIG. 2 is a detailed configuration diagram of the central control device of FIG. 1;
3 is a detailed configuration diagram of the on / off switch of FIG. 1,
4 is a flowchart illustrating an operation of a boiler having a central control device for controlling each room heating temperature according to an embodiment of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

Hereinafter, embodiments of a boiler having a central control device for controlling each room heating temperature according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an overall configuration diagram of a boiler having a central control device for controlling each room heating temperature according to an embodiment of the present invention, and FIG. 2 is a detailed configuration diagram of the central control device of FIG.

FIG. 3 is a detailed configuration diagram of the on / off switch of FIG. 1, and FIG. 4 is an operational flowchart of a boiler having a central control device for controlling each room heating temperature according to an embodiment of the present invention.

As shown in FIG. 1, the boiler having the central control unit for controlling the respective room heating temperatures according to the present invention includes an on / off switch 200 for transmitting a current temperature value and an on / off signal of each room, A central control device 100 for driving a boiler, an illuminating device and an electric heating device according to a current temperature value and an on / off signal, a boiler 11 operated and stopped by a central control device 100, a central control device 100 A cold / hot water distributor 10 for opening and closing a switch for supplying and shutting hot water to and from each room by means of a central control device 100 and an operation and stop command of the lighting device 22 and the electric heating device 23 And an apparatus controller 20 for controlling the apparatus.

The on / off switch 200 measures the current temperature value of the corresponding room, and controls the on / off switch 200 to receive the operation ON / OFF signal of at least one of the lighting device 22, the heat transfer device 23, It is a switch installed in a room.

The on / off switch 200 transmits the measured temperature value and the received on / off signal to the central control unit 100 through the communication unit.

2, the on / off switch 200 is attached at a middle height of the wall of each room and includes a temperature sensor 210, an on / off input unit 220, and a communication unit 230 .

The temperature sensor 210 measures a current temperature around the on / off switch 200 and generates a temperature value. The temperature sensor 210 transmits the generated temperature value to the communication unit 230.

At this time, the temperature sensor 210 regularly generates a temperature value at predetermined time intervals and transmits the temperature value to the communication unit 230.

The ON / OFF input unit 220 generates ON / OFF signals according to the on / off state change of the ON / OFF input unit 220, (230).

The communication unit 230 transmits the temperature value transmitted from the temperature sensor 210 and the on / off signal transmitted from the on / off input unit 220 to the central control unit 100. For this purpose, the central control unit 100 ) And a communication port to be connected by UTP communication method.

The UTP cable is wired in each room from the central control unit 100 and the terminal of the UTP cable is connected to the communication port of the communication unit 230 of the on / off switch 200, Directional communication of the control apparatus 100 is enabled.

The communication unit 230 may control the central control unit 100 to transmit the temperature value from the temperature sensor 210 and the on / off signal transmitted from the on / off input unit 220 to the central control unit 100. [ And a communication port to be connected by a wireless communication method.

At this time, the wireless communication method corresponds to Bluetooth or Zigbee communication, and the communication part of the central control device also supports the wireless communication method, thereby enabling bi-directional communication with each other.

The central control device 100 receives the temperature information, the illumination value, and the option value of the option value, stores the current temperature value and the on / off signal transmitted from the on / off switch 200, The boiler 11, the cold / hot water distributor 10, and the device controller 20 are driven so that the environment of each room becomes the set temperature, the illuminance, and the optional condition.

3, the central control apparatus 100 includes a setting information input unit 110, a calculating unit 120, a device driving unit 130, a storage unit 140, and a communication unit 150 .

The setting information input unit 110 includes buttons for inputting a set temperature, a setting illuminance, and a setting option of each room by time, day of the week, and date.

The set temperature corresponds to a desired heating temperature value of the room, the setting illuminance corresponds to a desired illuminance illuminance value of the room, and the setting option is an option value for heating time optimization and heating fuel optimization.

More specifically, the setting option is an option value for an option to reduce the heating time as much as possible and an option to reduce the fuel as much as possible, and a boiler having a relatively long heating time So that it can be optimized for either the heating time or the heating fuel through the combined operation of the heat generator 23, which consumes a large amount of fuel 11 (power consumption) and a relatively short set time for reaching the set heating time.

The calculating unit 120 calculates the operating time and time of each of the boiler 11, the heat transfer device 23 and the lighting device 22 with respect to the time required for reaching the set temperature, The arrival time calculating means 121 and the option calculating means 122.

The set temperature reaching time calculating means 121 drives the boiler 11 or the device controller 20 to raise the set temperature value to the set temperature value, .

The option calculation means 122 calculates the start time and the time of each of the boiler 11, the heat transfer device 23 and the illumination device 22 with respect to the option value.

The device driver 130 generates a command signal for driving each device according to the drive value calculated by the option calculation means 122, and transmits the command signal to the device controller 20.

More specifically, the device driver 130 generates a lighting device lighting signal, an electric heater driving signal, a boiler driving signal, and a hot water supply signal according to the calculated driving value, .

At this time, the illumination device turn-on signal includes an instruction for point / off operation and an illuminance value input to the setting information.

The storage unit 140 receives and stores the setting information input to the central control unit 100, and stores model name lists of the heating unit, the lighting unit, and the boiler and the hot / cold water distributor.

Accordingly, when a device, a boiler, and a hot / hot water distributor for driving the central control unit 100 are selected from the model name lists stored in the storage unit 140, the device information corresponding to the model names is transmitted to the calculation unit 120 .

At this time, the device information includes the amount of energy consumed per hour and is used as data for calculating the starting time of the boiler, the heating device, and the lighting device and the time for calculating the set temperature arrival time and the option value of the calculating unit 120 .

The communication unit 150 receives the currently measured temperature value and the on / off signal from the on / off switch 200.

The communication unit 150 transmits the lighting device lighting signal and the heating device driving signal generated by the device driving unit 130 of the central control device 100 to the device controller 20 and the boiler driving signal is transmitted to the boiler 11 And delivers the hot water supply signal to the cold / hot water distributor 10.

The communication unit 150 is connected to the device controller 20, the boiler 11 and the hot / cold water distributor 10 by wire communication. The on / off switch 200 is connected to the device controller 20, the boiler 11, It is connected.

The device controller 20 is connected to one side of the central control device 100 by a wire to receive an illumination device lighting signal and a heating device driving signal of the device driving device 130, And the heat transfer device 23 are driven.

For this, the device controller 20 also includes power line communication with the lighting device 22 and the electric heating device 23 to generate an illumination point / light-off command signal according to the lighting device lighting signal and deliver it to the lighting device, (22), generates an electric heater operation command signal corresponding to the electric heater driving signal, and transmits the electric heater operation command signal to the electric heater (23) to operate the electric heater (23).

The lighting device 22 is a general lighting device installed on a ceiling of each room and receives light / point light command signals through power line communication with the device controller 20 to perform point / light-off operations accordingly.

At this time, the illumination point / light off command signal includes a command for point / light off and an illuminance value of illumination.

The electric heating device 23 is a heating device such as a heater that is operated by receiving power from the power distribution board 21 through an outlet of each room and receives a electric heater operation command signal through power line communication with the device controller 20 And stop.

The boiler 11 is connected to one side of the central control unit 100 and is driven according to a boiler drive signal of the device driving unit 130 to supply hot water to a heating pipe.

The hot / cold water distributor 10 is connected to one side of the central control unit 100 and receives the hot water supply signal of the device driving unit 130, Respectively.

FIG. 4 shows an operation flow chart for controlling each room heating temperature according to an embodiment of the present invention.

As shown in FIG. 4, first, the setting information input unit 110 performs a setting information input step (S10) in which the set temperature, the setting illuminance, and the setting options of each room are inputted by time, day of the week, and date.

The set temperature corresponds to a desired heating temperature value of the room, the setting illuminance corresponds to a desired illuminance illuminance value of the room, and the setting option is an option value for heating time optimization and heating fuel optimization.

After the setting information input step S10, the on / off switch 200 measures the current temperature value of the room in the power supply state S11 supplied with power to the on / off switch 200, And a temperature value measuring step (S20) of transmitting the temperature value to the control device 100 is performed.

In the temperature value measurement step S20, the temperature sensor 210 of the on / off switch 200 measures the current temperature around the on / off switch 200 to generate a temperature value, OFF switch 200 to the central control unit 100. [0050]

At this time, the temperature sensor 210 regularly generates a temperature value at predetermined time intervals and transmits the temperature value to the communication unit 230.

After the temperature value measurement step S20 is performed, the on / off input unit 220 of the on / off switch 200 receives either one of illumination on / off and heating on / off signals, And transmits it to the central control unit 100 by transmitting the on / off signal to the communication unit 230 (S30).

At this time, if the signal of the heating signal is the OFF signal (S31), the control returns to the power supply step (S11). If the power supply is not supplied and it is not operated, a central control device for controlling each room heating temperature The boiler operation is terminated.

If the heating signal in the on / off signal transmission step S30 is an ON signal (S31), the set temperature value input by the calculation unit of the central control device 100 is compared with the measured current temperature value (S32) (S40) so as to calculate at least one of the boiler (11) and the electric heater (23) until the current temperature value becomes equal to or higher than the preset temperature value.

In the calculating step S40, the time required for the calculating unit 120 of the central control device 100 to reach the set temperature and the time required for the operation of the boiler 11 and the electric heater 23 Time and time are calculated.

More specifically, the set temperature reaching time calculating means 121 drives the boiler 11 or the device controller 20 to raise the set temperature value to the set temperature value, Of the time required to complete the process.

The option calculation means 122 calculates the start time and the time of each of the boiler 11, the heat transfer device 23 and the illumination device 22 with respect to the option value.

After performing the calculation step S40, the device driver 130 generates a command signal for driving each device according to the drive value calculated by the option calculation means 122, and transmits it to the device controller 20 / Hot water distributor 10 in step S50.

More specifically, the device driver 130 generates an electric heater drive signal, a boiler drive signal, and a hot water supply signal according to the calculated drive value, and transmits the electric heater drive signal, the boiler drive signal, and the hot water supply signal to the device controller 20 and the cold / hot water distributor 10.

At this time, the communication unit 150 transmits the electric heater driving signal generated by the device driving unit 130 of the central control device 100 to the device controller 20, transmits the boiler driving signal to the boiler 11, The supply signal is delivered to the cold / hot water distributor (10).

After the command signal generation step S50 is performed, the device controller 20 receives the electric heater driving signal of the device driving unit 130, drives the electric heater 23 powered by the wiring board, The hot / cold water distributor 10 receives the hot water supply signal of the device driving unit 130 and is supplied from the boiler 11 The heating device driving step S60 for opening and closing the hot water, which is distributed to the respective pipes, is performed, and then the process returns to the power supply step S11.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of illustration, It will 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 by the appended claims.

10: cold / hot water distributor 11: boiler
20: device controller 22: illuminator
23: Heating device 100: Central control device
110: setting information input unit 120:
130: Device driver 140:
150: communication unit 200: on / off switch
210: temperature sensor 220: on / off input part

Claims (5)

An ON / OFF switch for transmitting a temperature value generated by measuring the current temperature of the room and an input ON / OFF signal;
A central control unit for calculating a driving value for driving the boiler, the hot / cold water dispenser, the lighting unit, and the electric heating unit according to the setting information after receiving the setting information;
A boiler for generating and supplying hot water to each of the indoor pipes, the boiler being operated and stopped according to a driving signal of the central control unit;
A hot / cold water distributor for opening / closing a switch for supplying and shutting hot water supplied from a boiler according to a hot water supply signal of the central control unit;
And a device controller for driving the lighting device and the electric heating device with the power supplied from the switchboard according to the lighting signal or the driving signal of the central control device. Boiler having.
The method according to claim 1,
The on / off switch includes:
A temperature sensor for measuring a current temperature around the on / off switch at a predetermined time interval to generate a temperature value;
An on / off input unit for generating an on / off signal corresponding to a button input, the on / off input unit including an illumination on / off and a heating on / off button;
And a communication unit for transmitting the temperature value and the on / off signal to a central control unit. The boiler having a central control unit for controlling each room heating temperature.
3. The method of claim 2,
Wherein the communication unit has one of a wireless communication and a UTP communication modem. The boiler has a central control unit for controlling each room heating temperature.
The method according to claim 1,
Wherein the central control device comprises:
A setting information input unit configured to generate a heating temperature value, an illumination illuminance value, and an option value, the setting information input unit including buttons for inputting a set temperature, a setting illuminance, and a setting option of each room by time,
A heating temperature value, an illumination intensity value, and an option value;
A device driver for generating a command signal for driving at least one of the lighting device, the heating device, the boiler, and the cold / hot water distributor according to the driving value and transmitting the generated command signal to the device controller;
A storage unit for storing the setting information input to the central control unit and a model name list of the heating apparatus, the lighting apparatus, the boiler, and the cold / hot water distributor;
And a communication unit that supports the same communication method as the on / off switch so as to receive the currently measured temperature value and the on / off signal from the on / off switch. Boiler with equipment.
5. The method of claim 4,
The calculating unit calculates,
A set temperature reaching time calculating means for calculating a time required for driving the boiler or the appliance controller to raise the set temperature value to the set temperature value and reaching the set temperature in a state of supplying the heated set;
Further comprising an option calculating means for calculating an operating time and a time of each of the boiler, the heating device, and the lighting device with respect to the option value, and a central control device for controlling each room heating temperature.

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