KR200464359Y1 - Heating System using heat of boiler and solar - Google Patents

Abstract

The present invention checks the heat storage state of the solar system when the boiler is operated by the indoor controller and receives the power required for control from the solar system, and controls the hot water required for heating to be supplied from the solar system to the boiler system, thereby improving energy efficiency. Determination unit for determining whether or not to operate the boiler installed in the boiler system for providing a boiler and a solar combined heating system; A circuit power supply unit for receiving electric power generated from the solar system when the hot water stored in the solar heat storage tank installed in the solar system is above a preset temperature; A storage unit which stores whether the boiler is operating; A boiler control unit for controlling the boiler according to the set temperature; And a pump control unit controlling to supply hot water stored in the solar thermal storage tank to the boiler according to the set temperature.
According to the boiler and the solar combined heating system as described above, since the power required by the automatic linkage control device of the existing boiler system and the solar system can be supplied from the solar system at night, the power consumption can be significantly reduced. .

Description

Heating system using heat of boiler and solar}

The present invention relates to a boiler and a solar combined heating system, and more particularly, a boiler and a solar combined heating system to receive electric power required by a control device from a solar system, and to use an indoor controller and a heating circulation pump of an existing boiler system. It's about the system.

In general, a solar system converts solar energy into heat and transfers it to a heat transfer medium to be used as a heating and hot water supply facility.

The solar system includes a heat collecting means for collecting solar heat, a solar heat storage tank (heat storage tank) for accumulating the collected heat by a heat transfer medium, a heat sink to absorb high temperature heat, and heat exchange between the heat transfer medium and the solar heat storage tank. Heat exchanger and the like. In addition, the solar system can be used not only for such hot water facilities, but also for power generation or combined use thereof.

However, if the solar system is already equipped with the existing boiler facilities, such as at home, to use for heating requires a control means for integration and control with the existing boiler system.

[Patent Documents] Japanese Patent Laid-Open No. 2005-77050

The purpose of the present invention is to solve the problems as described above, it is easy to integrate and control the existing boiler system and the additionally installed solar system, the solar system according to the heat storage state of the solar system when operating the boiler as an indoor controller It is to provide a boiler and a solar complex heating system that can receive energy from the solar power system to supply the power required for control from the solar system, and to supply the boiler system from the solar system.

Boiler and solar combined heating system according to the present invention for achieving the above object is a boiler comprising a burner and a blowing fan for supplying air to the burner, and a circulation pump for supplying hot water generated from the boiler to the heat radiating means for heating; And a known boiler system including a controller for controlling the operation of the boiler and a boiler controller for controlling the burner, the blower fan, and the circulation circulation pump in response to a signal set by the controller. In the boiler and the combined solar heating system comprising: a solar system for supplying hot water; and an automatic linkage control device for operating in conjunction with the existing boiler system and the solar system, the solar system is hot water heated by solar heat A heat storage tank for storing and the heat storage tank And a generator for generating power in a runkin cycle method by the heat of the hot water stored therein, and supplying electric power generated from the generator to the heating circulation pump, wherein the automatic linkage control device is configured to supply the hot water stored in the heat storage tank to a predetermined temperature or more. A circuit power supply unit receiving power generated by the generator to supply power to each circuit in the automatic linkage control device; A determination unit determining whether a boiler installed in the existing boiler system is operating in at least one of a current sensing unit sensing a current applied to a blowing fan of the boiler and a voltage sensing unit sensing a voltage supplied to the boiler; A storage unit for storing a result of the determination by the determination unit as to whether the boiler is operating; A boiler controller for controlling the boiler controller to stop operation of the boiler when the hot water stored in the heat storage tank is above the set temperature and the boiler is stored in the storage device; And a pump controller configured to control the heating circulation pump to supply the hot water to the boiler when the hot water stored in the heat storage tank is higher than or equal to the set temperature.

In addition, in the boiler and the solar complex heating system according to the present invention, the current sensing unit is characterized in that it further comprises a current sensing display.
In addition, the boiler and the solar combined heating system according to the present invention, characterized in that it further comprises a timer unit for resetting the information on the determination result of whether or not the boiler stored in the storage unit for each preset time interval. It is done.

In addition, in the boiler and solar combined heating system according to the present invention, the predetermined time interval is characterized in that 20 to 180 seconds.

According to the present invention, the following effects are obtained.

1) The size of the system can be minimized because the boiler system can be controlled by using the indoor controller of the existing boiler system and the circulation pump for heating.

2) Since the power required by the solar system and the automatic linkage control device of the boiler system is supplied from the solar system at daytime as well as at night when the existing boiler system is operating, the power consumption can be greatly reduced, and the facilities for power supply are also provided. It is easy to install.

3) Since hot water can be supplied through the circulation pump for heating of the existing boiler system, not only the size of the entire system can be reduced but also the manufacturing cost can be reduced.

1 is a block diagram for explaining the configuration of a boiler and a solar complex heating system according to the present invention,
Figure 2 is a circuit diagram showing an example of the automatic linkage control device of the boiler and the solar complex heating system according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 is a block diagram illustrating the configuration of a boiler and a solar thermal heating system according to the present invention. Here, reference numeral 2000 denotes an indoor controller for controlling an existing boiler, and reference numeral 3000 denotes a solar system. In addition, in FIG. 1, each component is configured by mutual operation, and shows a state in which the components are arranged in a row for convenience of description.

The automatic linkage control device 1000 of the boiler and the solar combined heating system according to the present invention is controlled by connecting these systems through mutual communication with the indoor controller 2000 and the solar system 3000 for controlling the existing boiler system. Done.

The automatic linkage control device 1000 stores a determination unit 100 that determines whether the boiler system is operating, a circuit power supply unit 200 for receiving electric power generated from the solar system 3000, and whether the boiler system is operated. The storage unit 300 includes a boiler control unit 400 and a pump control unit 500 for controlling the boiler system. Hereinafter, these components will be described in more detail.

The determination unit 100 may use any one that can know the operation of the boiler, but whether the blower fan or the burner is driven, that is, the current sensing or the voltage sensing supplied to the boiler to easily recognize the actual boiler operation. Will be done. The determination unit 100 includes a current sensing unit 110 and a voltage sensing unit 120 for current sensing and voltage sensing. In addition, the current sensing unit 110 may further configure the current sensing display unit 111 to display the sensed current amount. The current sensing display unit 111 may use a display or a segment using an LED.

In the preferred embodiment of the present invention, the determination unit 100 is the current sensing unit 110 and the voltage sensing unit 120 in a time unit set by the user, for example, 2 minutes by the timer unit 600 to be described later. Determine whether the boiler is running through.

The circuit power supply unit 200 applies the power generated by the solar thermal system 3000 to the automatic linkage control apparatus 1000 by, for example, a runkin cycle method. That is, the circuit power supply unit 200 processes the power generated by the solar system 3000 in the form required for the power of the automatic linkage control device 1000 and provides the constant voltage.

In a preferred embodiment of the present invention, the circuit power supply 200 is preferably configured to operate according to the set temperature of the heat storage tank constituting the solar system 3000. That is, when the temperature of the hot water of the heat storage tank is higher than the set value, it is preferable to configure the power so that the generated power can be applied to the automatic connection control device 1000 to be used.

The storage unit 300 stores whether the boiler is operated, and when a signal for operating the boiler is input from the indoor controller 2000, the boiler system is controlled through the boiler controller 400 and the pump controller 500, which will be described later. To control.

That is, when the boiler is running and the user operates the boiler through the indoor controller 2000, the storage unit 300 stores the operating state of the boiler system, and when the solar system 3000 is available, the boiler controller ( The operation of the control unit 400 stops the operation of the boiler system and controls the pump control unit 500 to supply hot water from the solar system to the heating device.

The boiler controller 400 stops the operation of the boiler system through the indoor controller 2000 according to the above-described temperature of the heat storage tank. That is, the boiler control unit 400 determines that the hot water from the solar system 3000 can be supplied to the heating apparatus using the boiler system when the temperature of the hot water of the heat storage tank is equal to or higher than a set value. In addition, the boiler controller 400 stops the operation of the boiler system and supplies the hot water obtained from the solar system 3000 to the boiler. Of course, if the temperature of the hot water of the heat storage tank is lower than the set value it will continue to operate the boiler.

The pump controller 500 supplies hot water to a heating device connected to the boiler system when hot water supply is required under the control of the boiler controller 400. At this time, the hot water is supplied to the hot water stored in the solar system 3000, that is, the solar heat storage tank.

On the other hand, in the preferred embodiment of the present invention, the automatic connection control device 1000 of the boiler and the solar complex heating system to inform that the timer unit 600 and the solar heating state is made to determine whether the boiler is operating regularly. The solar heating display unit 700 may be configured to further include.

The timer unit 600 is for periodically monitoring the operating time of the boiler system, the monitoring period is preferably 20 to 180 seconds. This is because, if the monitoring period is shorter than this, frequent operation change may cause problems such as increase of power consumption. If the monitoring period is longer, the response to boiler system operation may be delayed.

In addition, the timer unit 600 further includes a memory canceling unit 610. The memory canceling unit 610 resets and initializes the memory contents of the memory device 300 when the monitoring time set in advance by the timer unit 600 passes.

The heating display unit 700 may indicate that power is supplied from the solar system 3000 to the automatic connection control device 1000 or that heating is performed through the solar system 3000. The heating display unit 700 may use an LED light or a display.

In addition, the automatic connection control device 1000 of the preferred boiler and the solar complex heating system of the present invention is mounted on the boiler side, it is preferable not only to protect the device, but also to allow the user to easily grasp the state of use.

The control circuit of the automatic connection control apparatus 1000 according to the present invention configured as described above may be configured as a control circuit as shown in FIG.

Hereinafter, the operation of the automatic linkage control device 1000 according to the present invention will be described.

First, the automatic connection control apparatus 1000 always monitors the operation state of the indoor controller 2000 at a predetermined monitoring time period by the timer unit 600. As a result, when it is determined that the boiler system is to be operated through the indoor controller 2000, the determination unit 100 determines whether the boiler system is operating based on the current of the blowing fan or the voltage supplied to the boiler system.

In addition, the automatic linkage control device 1000 detects a set temperature set in the heat storage tank of the solar system 3000. If the hot water temperature is greater than or equal to the set value, it is determined that the circuit power and the hot water are available, and otherwise, the hot water temperature is determined to be unavailable. In addition, when the power and hot water is available, the power generated by the solar system 3000 is supplied to the automatic connection control device 1000 through the circuit power supply 200.

On the other hand, the storage unit 300 monitors and stores the boiler operation. In addition, when the boiler system is operated, that is, heating is required, hot water is supplied from the solar system 3000 while the boiler system is stopped.

At this time, the operation of the boiler system is made by the boiler control unit 400, by controlling to stop the operation of the burner and the blowing fan of the boiler. And the supply of hot water is made by the pump control unit 500, the pump control unit 500 is provided in the boiler system to control a hot water pump (not shown) for supplying hot water. At this time, the hot water pump is configured to select the hot water supply to the heating device through the three-way valve to enable hot water supply from the solar system 3000 as well as the existing boiler system.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art may recognize that various changes and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the attached utility model registration claims.

The automatic linkage control device of the boiler and the solar complex heating system according to the present invention can use hot water and power generated from the solar system in connection with the existing boiler system.

In addition, it can also be used to control the use of hot water and power separately.

100: determination unit 110: current detection unit
111: current sensing display unit 120: voltage sensing unit
200: circuit power supply 300: memory device
400: boiler control unit 500: pump control unit
600: timer unit 610: memory release unit
700: heating display unit 1000: automatic connection control unit
2000: indoor controller 3000: solar system

Claims (5)

A boiler including a burner and a blowing fan for supplying air to the burner, a heating circulation pump for supplying hot water generated from the boiler to a heat radiating means, an indoor controller for controlling operation of the boiler, and the indoor controller Known conventional boiler system including a boiler controller for controlling the burner, the blowing fan and the heating circulation pump in response to the signal set in;
Solar system for supplying hot water to the existing boiler system; And
In the boiler and the solar combined heating system comprising; automatic linkage control device for operating in conjunction with the existing boiler system and the solar system,
The solar system
A heat storage tank for storing hot water heated by solar heat; and a generator for generating power in a runkin cycle method by the heat of the hot water stored in the heat storage tank; and supplying electric power generated from the generator to the heating circulation pump.
The automatic linkage control device
A determination unit determining whether a boiler installed in the existing boiler system is operating in at least one of a current sensing unit sensing a current applied to a blowing fan of the boiler and a voltage sensing unit sensing a voltage supplied to the boiler;
A storage unit for storing a result of the determination by the determination unit as to whether the boiler is operating;
A boiler controller for controlling the boiler controller to stop the operation of the boiler when the hot water stored in the heat storage tank is above a preset temperature and the boiler is stored in the storage device; And
A pump controller configured to control the heating circulation pump to supply the hot water to the boiler when the hot water stored in the heat storage tank is equal to or higher than the set temperature;
A circuit power supply unit supplying electric power generated by the generator when the hot water stored in the heat storage tank is equal to or higher than the preset temperature to supply power to the automatic linkage control device;
Boiler and solar complex heating system comprising a. delete The method of claim 1,
The current sensing unit further comprises a current sensing display unit boiler and solar complex heating system, characterized in that made. The method according to claim 1 or 3,
And a timer unit for resetting information on a determination result of whether the boiler stored in the storage unit is operated at each preset time interval. 5. The method of claim 4,
The preset time interval is a boiler and a solar complex heating system, characterized in that 20 ~ 180 seconds.

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