JP2015014383A - Hot water heating system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a hot water heating system preventing a user from experiencing a cold feeling while heating of hot water is stopped by ON/OFF control of a heat source machine, while restricting frequent switching of an operation and stop of the heat source machine.SOLUTION: A heat source machine controller 26, in a state where a circulation pump 16 is operated by opening a heat source thermomotive valve 11, performs a heating operation by executing ON/OFF control for repeating processing in which fire of a burner 15 is extinguished when a detection temperature of a heating low temperature thermistor 20 becomes equal to or more than a fire extinguishing temperature, and after that, the burner is fired when the detection temperature of the heating low temperature thermistor 20 becomes equal to or less than a firing temperature. When ON/OFF cycle time is equal to or more than a first predetermined temperature, the firing temperature is increased.

Description

  The present invention relates to a hot water heating system that circulates and supplies hot water heated by a heat source device to a heating terminal.

  2. Description of the Related Art Conventionally, there has been known a hot water heating system in which warm water heated by a heat source device is supplied to a heating terminal via a hot water circulation path so that heat is radiated from the heating terminal (see, for example, Patent Document 1).

  In the hot water heating system described in Patent Document 1, the amount of heat (burner of the burner) is adjusted so that the temperature (outward temperature) of the hot water supplied from the hot water circulation path to the heating terminal becomes the target temperature (80 ° C.). Proportional combustion control is performed to control the amount of combustion). In the case of the proportional combustion control, if the forward temperature exceeds the upper limit temperature (extinguishing temperature), the combustion of the burner is stopped, and if the forward temperature drops to the lower limit temperature (ignition temperature), the combustion is stopped. ON-OFF combustion control is restarted.

In the hot water heating system described in Patent Document 1, in addition to the control range of the combustion amount in the normal proportional control mode (minimum combustion amount P _min to maximum combustion amount P _max ), the minimum in comparison with the normal proportional control mode. An extended proportional control mode is employed in which the burner is proportionally burned in a control range of the combustion amount (extended minimum combustion amount Ps to maximum combustion amount P _max ) that is expanded to the lower side.

  Switching from the normal proportional control mode to the extended proportional control mode is performed when the ON-OFF combustion cycle time becomes equal to or shorter than the set switching time, and the frequency of switching between burner combustion and fire extinguishing by ON-OFF control by this switching. Is prevented from increasing.

JP 2006-38390 A

  In the hot water heating system described in Patent Literature 1, the proportional control is switched to the ON-OFF control when the heating load of the heating terminal is low. When the burner is extinguished in the ON-OFF control, a certain amount of time elapses until the temperature of the hot water supplied from the heat source device to the heating terminal is reduced to the ignition temperature and combustion of the burner is resumed.

  And in this case, when the temperature of the hot water supplied from the heat source machine to the heating terminal decreases and the amount of heat released from the heating terminal continues, for example, when the heating terminal is a hot air heater There is a risk that the user may experience the cold due to the cold wind. In addition, it is preferable to frequently switch between operation and stop of the heat source unit by ON-OFF control in consideration of durability of components of the heat source unit (such as an electromagnetic valve that switches supply and stop of fuel gas to the burner). Absent.

  The present invention has been made in view of such a background, and it is frequently operated and stopped that the user feels cold while heating of hot water is stopped by ON-OFF control of the heat source apparatus. An object of the present invention is to provide a hot water heating system that can prevent switching while limiting the switching.

The present invention has been made in order to achieve the above object, and the hot water heating system of the present invention includes:
A heat source connected to the hot water circuit and heating the hot water flowing through the hot water circuit;
A heating terminal connected in the middle of the hot water circulation path and heating by heat radiation from the hot water flowing through the hot water circulation path;
A circulation pump for circulating hot water in the hot water circulation path;
A forward temperature sensor for detecting a temperature of hot water supplied from the hot water circulation path to the heating terminal;
Proportional control for controlling the amount of heating by the heat source unit so that the detected temperature of the forward temperature sensor becomes a predetermined target hot water temperature in a state where the circulation pump is operated, and the amount of heating by the heat source unit by the proportional control When the detected temperature of the forward temperature sensor exceeds the target hot water temperature even when the predetermined temperature is decreased to a predetermined lower limit heating amount, the forward temperature sensor is equal to or higher than the heating stop temperature higher than the target hot water temperature. ON-OFF control that stops heating by the heat source unit and then repeats the process of restarting heating by the heat source unit when the temperature detected by the forward temperature sensor becomes equal to or lower than the heating restart temperature lower than the target hot water temperature And a heating control unit that performs the heating operation,
It has.

And the 1st aspect of the hot water heating system of this invention is:
ON, which is the time from when heating by the heat source unit is started to when the heating by the heat source unit is restarted after heating is started by the ON-OFF control. A cycle time measuring unit for measuring the OFF cycle time;
When the ON-OFF cycle time measured by the cycle time measurement unit is equal to or longer than a first predetermined time, the heating restart temperature is changed to a temperature higher than the heating restart temperature at the time of the measurement. And a changing unit.

  According to this invention, when the heating operation by the ON-OFF control is performed by the heating control unit, the cycle time measuring unit measures the ON-OFF cycle time. When the ON-OFF cycle time is equal to or longer than the first predetermined time, when the heating of the hot water by the heat source machine is stopped, the temperature of the hot water supplied to the heating terminal is continuously reduced. The user may experience the cold. In addition, it is not preferable to frequently switch between operation and stop of the heat source unit by the ON-OFF control in consideration of durability of the components of the heat source unit.

  Therefore, when the ON-OFF cycle time is equal to or longer than the first predetermined time, the heating restart temperature changing unit sets the heating restart temperature higher than the heating restart temperature at the time of measuring the ON-OFF cycle time. Change to temperature. Thereby, the time until the heating by the heat source machine is restarted is shortened, and the time during which the heating of the hot water by the heat source machine is stopped is shortened. Therefore, it can prevent that a user senses cold by the state where the temperature of the hot water supplied to the said heating terminal fell continues.

  Moreover, the change of the heating restart temperature by the heating restart temperature changing unit is performed only when the ON-OFF cycle time is equal to or longer than the first predetermined time. Therefore, when the ON-OFF cycle time is a short time, it is possible to limit the frequency at which the heating restart temperature is changed to be high and the operation and stop of the heat source machine are switched.

Next, the second aspect of the hot water heating system of the present invention is:
When the heating operation by the ON-OFF control is being performed, the ON cycle time, which is the time from when the heating by the heat source device is started until the heating stops, or the heating by the heat source device has stopped A cycle time measuring unit for measuring an OFF cycle time which is a time from the time point until the heating is restarted;
When the ON cycle time measured by the cycle time measuring unit is equal to or longer than a second predetermined time, or when the OFF cycle time measured by the cycle time measuring unit is equal to or longer than a third predetermined time, the heating And a heating restart temperature changing unit that changes the restart temperature to a temperature higher than the heating restart temperature at the time of the measurement.

  According to the present invention, when the heating operation by the ON-OFF control is performed by the heating control unit, the cycle time measuring unit measures the ON cycle time or the OFF cycle time. When the ON cycle time is equal to or longer than the second predetermined time, or when the OFF cycle time is equal to or longer than the third predetermined time, when heating of the hot water by the heat source unit is stopped, the heating terminal If the temperature of the supplied hot water continues to decrease, the user may experience cold. In addition, it is not preferable to frequently switch between operation and stop of the heat source unit by the ON-OFF control in consideration of the durability of the components of the heat source unit.

  Therefore, when the ON cycle time is equal to or longer than the second predetermined time or when the OFF cycle time is equal to or longer than the third predetermined time, the heating restart temperature changing unit sets the heating restart temperature to the ON The temperature is changed to a temperature higher than the heating restart temperature at the time of measuring the cycle time or the OFF cycle time. Thereby, the time until the heating by the heat source machine is restarted is shortened, and the time during which the heating of the hot water by the heat source machine is stopped is shortened. Therefore, it can prevent that a user senses cold by the state where the temperature of the hot water supplied to the said heating terminal fell continues.

  The change of the heating restart temperature by the heating restart temperature changing unit is limited to when the ON cycle time is the second predetermined time or more, or when the OFF cycle time is the third predetermined time or more. Done. Therefore, when the ON cycle time or the OFF cycle time is a short time, it is possible to limit the frequency at which the heating restart temperature is changed to be high and the operation and stop of the heat source unit are switched.

The block diagram of a hot water heating system. The operation | movement flowchart of a hot water heating system. Explanatory drawing of ON-OFF control.

  An example of an embodiment of the present invention will be described with reference to FIGS. FIG. 1 is an overall configuration diagram of the hot water heating system of the present embodiment. The hot water heating system of the present embodiment includes a heat source unit 1 installed outdoors, a heat source unit 1 installed in a bathroom, and a terminal hot water circuit 2. The hot air heater 3 (corresponding to the heating terminal of the present invention) connected via the heat source unit 1 and the floor heating panel 4 (corresponding to the heating terminal of the present invention) connected via the terminal hot water circuit 2. ).

  The heat source device 1 is provided in the middle of the main hot water circuit 13 and the main hot water circuit 13 connected to the terminal hot water circuit 2 through the connection parts a, b, c, and heats the water flowing through the main hot water circuit 13. Heat exchanger 14, burner 15 that heats heat exchanger 14, circulation pump 16 that circulates hot water in main hot water circuit 13 and terminal hot water circuit 2, and expansion and contraction of hot water in main hot water circuit 13 and terminal hot water circuit 2 , A high temperature thermistor 18 for detecting the temperature of hot water discharged from the heat exchanger 14 (corresponding to the forward temperature sensor of the present invention), the upstream side (inlet side) and the downstream side of the heat exchanger 14 A bypass passage 19 communicating with the main hot water circuit 13 on the (exit side), and hot water sent from the circulation pump 16 (hot water supplied from the heat exchanger 14 via the bypass passage 19 and hot water returning from the terminal hot water circuit 2; Is mixed And heating the low-temperature thermistor 20 for detecting the temperature of the hot water) (corresponding to forward temperature sensor of the present invention) is provided.

  The terminal hot water circuit 2, the main hot water circuit 13, and the bypass passage 19 constitute the hot water circulation path of the present invention.

  Further, the heat source unit 1 is provided with a combustion fan 21 that supplies combustion air to the burner 15, and a gas supply pipe 22 that supplies fuel gas to the burner 15, and an original gas electromagnetic valve 23 that opens and closes the gas supply pipe 22. And a gas solenoid valve 24, a gas proportional valve 25 that adjusts the fuel gas supply flow rate by changing the opening of the gas supply pipe 22, a heat source controller 26 that controls the overall operation of the heat source unit 1, and the heat source unit 1 A heat source device thermistor 28 for detecting the temperature inside is provided.

  The heat source device controller 26 is an electronic circuit unit configured by a CPU, a memory, and the like (not shown), and controls the operation of the heat source device 1 by executing a control program for the hot water heating system held in the memory by the CPU. Perform functions. The heat source controller 26 controls the amount of combustion of the burner 15 (the amount of hot water heated by the heat source unit 1) by adjusting the rotational speed of the combustion fan 21 and the opening of the gas proportional valve 25.

  The terminal hot water circuit 2 includes a heating high temperature hot water circuit 30 that supplies hot water to the hot air heater 3 and a heating low temperature hot water circuit 31 that supplies hot water to the floor heating panel 4. High temperature hot water discharged from the heat exchanger 14 is supplied as it is to the heating high temperature hot water circuit 30, and the warm water returning from the terminal hot water circuit 2 and the heat exchanger 14 through the bypass passage 19 are supplied to the heating low temperature hot water circuit 31. The hot water is supplied at a low temperature mixed with the hot water supplied.

  And when supplying hot water only to the warm air heater 3, the heat source controller 26 circulates in a state where the heat source heat valve 11 is closed and the terminal heat valve 45 of the warm air heater 3 is opened. The pump 16 is operated, and the combustion amount of the burner 15 is controlled so that the detected temperature of the heating high temperature thermistor 18 becomes the first target temperature (for example, 80 ° C., corresponding to the target hot water temperature of the present invention).

  When supplying hot water to both the hot air heater 3 and the floor heating panel 4, the heat source controller 26 opens both the heat source heat valve 11 and the terminal heat valve 45 of the hot air heater 3. In this state, the circulation pump 16 is operated, and the combustion amount of the burner 15 is controlled so that the detected temperature of the heating high temperature thermistor 18 becomes the first target temperature.

  When supplying hot water only to the floor heating panel 4, the heat source controller 26 opens the heat source heat valve 11 and closes the terminal heat valve 45 of the hot air heater 3 to close the circulation pump 16. And the combustion amount of the burner 15 is controlled so that the detected temperature of the heating low temperature thermistor 20 becomes the second target temperature (for example, 60 ° C., corresponding to the target hot water temperature of the present invention).

  Next, the warm air heater 3 includes a heating heat exchanger 41, a warm air fan 42, a warm air heating operation panel 43 provided with a switch for instructing start / stop of the warm air heating, and the room temperature (warm air fan). Supply / stop of warm water to the heating heat exchanger 41 by opening and closing the warm air heating thermistor 44 for detecting the temperature of the indoor air sucked into the warm air heater 3 by the operation of 42 and the heating high temperature hot water circuit 30 And a hot air heater controller 46 for controlling the overall operation of the hot air heater 3.

  The hot air heater controller 46 is an electronic circuit unit configured by a CPU, a memory, and the like (not shown), and the hot air heater 3 is executed by the CPU executing a control program for the hot air heater 3 held in the memory. Functions to control the operation of The hot air heating controller 46 is communicably connected to the heat source machine controller 26 via the communication cable 40. The hot air heating controller 46 opens the terminal thermal valve 45 and instructs the heat source device controller 26 to start the heating operation when the hot air heating operation panel 43 instructs to start the hot air heating. Send a signal to

  As a result, the heat source unit 1 starts operating and the supply of hot water from the heat source unit 1 to the hot air heater 3 is started, and the hot air heating controller 46 detects the detected temperature of the hot air heating thermistor 44 and the hot air heating operation panel. The amount of heat released to the bathroom by the hot air is controlled by adjusting the rotational speed of the hot air fan 42 and the opening / closing duty of the terminal thermal valve 45 so that the difference from the target room temperature set by 43 decreases.

  Further, the heat source controller 26 is connected to a floor heating terminal 50 installed in the vicinity of the floor heating panel 4 through a communication cable 51 so as to be communicable. The floor heating terminal 50 controls a floor heating operation panel 52 provided with a switch for instructing start / stop of floor heating, a floor heating thermistor 53 for detecting a room temperature, and a hot water supply amount to the floor heating panel 4. A floor heating controller 54 is provided.

  The floor heating controller 54 is an electronic circuit unit configured by a CPU, a memory, and the like (not shown), and the floor heating panel 4 is heated by executing a control program for the floor heating panel 4 held in the memory by the CPU. Perform the function to control.

  When the floor heating operation panel 52 instructs the floor heating operation panel 54 to start floor heating, the floor heating controller 54 transmits a signal instructing the heat source machine controller 26 to start operation. Thereby, the heat source machine 1 starts operation, and the heat source machine controller 26 opens the heat source heat valve 11 and operates the circulation pump 16.

  Thereby, circulation supply of the warm water from the heat source unit 1 to the floor heating panel 4 is started. The heat source controller 26 executes proportional control for controlling the combustion amount of the burner 15 so that the detected temperature of the heating low temperature thermistor 20 becomes the second target temperature (60 ° C.).

  Further, even when the combustion amount of the burner 15 is minimized (corresponding to the lower limit heating amount of the present invention) by proportional control, the heat source device controller 26 performs heating when the detected temperature of the heating low temperature thermistor 20 exceeds the second target temperature. The burner 15 is extinguished when the detected temperature of the low temperature thermistor 20 becomes equal to or higher than the fire extinguishing temperature (set to a temperature higher than the second target temperature, corresponding to the heating stop temperature of the present invention). When the detected temperature is equal to or lower than the ignition temperature (set to a temperature lower than the second target temperature, corresponding to the heating resumption temperature of the present invention), the process of igniting the burner 15 and restarting the combustion of the burner 15 is repeated. Execute ON-OFF control.

  In addition, the structure which performs the heating operation of the floor heating panel 4 by proportional control and ON-OFF control in this way corresponds to the heating control unit of the present invention.

  Hereinafter, according to the flowchart shown in FIG. 2, the execution procedure of the proportional control and ON-OFF control by the heat source controller 26 will be described.

  When the heat source controller 26 recognizes that a heating switch (not shown) of the floor heating operation panel 52 has been turned ON (heating start operation) through communication with the floor heating controller 54, the floor according to the flowchart of FIG. Start heating operation.

  In STEP 1, the heat source machine controller 26 opens the heat source heat valve 11 and operates the circulation pump 16. Thereby, the hot water in the heating low temperature hot water circuit 31 of the main hot water circuit 13 and the terminal hot water circuit 2 is circulated through the heat exchanger 14 and the floor heating panel 4 of the heat source unit 1.

  In subsequent STEP2, the heat source device controller 26 determines whether or not the detected temperature of the heating low temperature thermistor 20 is equal to or lower than the ignition temperature. When the detected temperature of the heating / low temperature thermistor 20 is equal to or lower than the ignition temperature, the process proceeds to STEP3. When the detected temperature of the heating / low temperature thermistor 20 is equal to or lower than the ignition temperature, the determination process of STEP2 is repeated.

  In STEP 3, the heat source controller 26 performs ignition processing of the burner 15, and in subsequent STEP 4, whether or not the previous fire extinguishing of the burner 15 is due to the operation of the heating switch (heating stop operation) of the floor heating operation panel 52. Judging.

  When the previous fire extinguishing of the burner 15 is due to the operation of the heating switch, the process proceeds to STEP 6 and the heat source controller 26 controls the combustion amount of the burner 15 by proportional control. On the other hand, when the previous fire extinguishing of the burner 15 is not due to the operation of the heating switch (when the fire is extinguished by the ON-OFF control), the process proceeds to STEP5.

  In STEP5, the heat source controller 26 determines the ON-OFF cycle time in the previous ON-OFF control (from the time when combustion of the burner 15 is started until the burner 15 is extinguished and then combustion of the burner 15 is resumed. Is determined to be equal to or longer than a first predetermined time Tim1 (for example, 3 minutes, determined in consideration of the durability of components such as the gas solenoid valve 24).

  When the ON-OFF cycle time is equal to or longer than the first predetermined time Tim1, the process branches to STEP10, and when the ON-OFF cycle time is shorter than the first predetermined time Tim1, the process proceeds to STEP6.

  Here, during the first predetermined time Tim1, the number of operations (cumulative operation number) of the component parts such as the gas solenoid valve 24 and the original gas solenoid valve 23 that are operated in accordance with the ignition and extinguishing of the burner 15 is the use of the heat source unit 1. It is set so that the service life is not exceeded within the period.

  In STEP 10, the heat source machine controller 26 determines whether or not the ignition temperature is equal to or lower than the ignition temperature upper limit value. When the ignition temperature is equal to or lower than the ignition temperature upper limit value, the process proceeds to STEP 11 where the heat source controller 26 sets the ignition temperature to α ° C. (for example, 1 ° C.) higher than the ignition temperature set at the time of measuring the ON-OFF cycle time. ) Change to a higher temperature and proceed to STEP 6. On the other hand, when the current ignition temperature exceeds the ignition temperature upper limit value in STEP 10, the process branches to STEP 6, and in this case, the ignition temperature is not changed.

  The configuration for measuring the ON-OFF cycle time determined in STEP 5 corresponds to the cycle time measuring unit of the present invention. Moreover, the structure which raises ignition temperature (alpha) degreeC by STEP11 is equivalent to the heating resumption temperature change part of this invention.

  In STEP7, the heat source controller 26 determines whether or not the detected temperature of the heating low temperature thermistor 20 is equal to or higher than the fire extinguishing temperature. When the detected temperature of the heating low temperature thermistor 20 is equal to or higher than the fire extinguishing temperature, the process proceeds to STEP 8, extinguishes the burner 15, returns to STEP 2, and executes the processes after STEP 2 again. On the other hand, when the detected temperature of the heating low temperature thermistor 20 is lower than the fire extinguishing temperature, the process branches to STEP 6 and the heat source controller 26 continues to burn the burner 15 by proportional control.

  When the heat source controller 26 recognizes that the heating switch of the floor heating operation panel 52 has been turned off (heating stop operation) through communication with the floor heating controller 54, the heat source controller 26 extinguishes the burner 15 and heat source heat The valve 11 is closed, the circulation pump 16 is stopped, and the heating operation of the floor heating panel 4 is finished.

  Next, with reference to FIG. 3A and FIG. 3B, the effect of raising the ignition temperature when the ON-OFF cycle time is equal to or longer than the first predetermined time Tim1 in the ON-OFF control will be described. To do.

  In FIG. 3A, the vertical axis is set to the detected temperature Tg (hereinafter referred to as the forward temperature Tg) of the heating low temperature thermistor 20 and the burner 15 is ON (combustion state) / OFF (fire extinguishing state), and the horizontal axis is time. It is explanatory drawing which illustrated the change of the going temperature Tg and ON / OFF state of the burner 15 which are set to (t) and ON-OFF control is performing.

  In FIG. 3A, at each time point t10, t12, t14, the forward temperature Tg becomes equal to or lower than the ignition temperature Ton1, and the burner 15 is switched from OFF (fire extinguishing state) to ON (combustion state), at t11, t13, t15. At each time point, the forward temperature Tg becomes equal to or higher than the fire extinguishing temperature Toff, and the burner 15 is switched from ON to OFF.

  Here, the heat source controller 26 determines the time from when the burner 15 starts combustion until the burner 15 extinguishes until the next burner 15 starts burning (the time Won1 (ON when the burner 15 continues to burn) Cycle time) + ON-OFF cycle time, which is the time Woff1 (OFF cycle time) when the burner 15 stops combustion, is measured. When the ON-OFF cycle time is equal to or longer than the first predetermined time Tim1, the ignition temperature is raised.

  Note that the ON cycle time or the OFF cycle time is measured instead of the ON + OFF cycle time, and the ignition is performed when the ON cycle time becomes the second predetermined time or more, or when the OFF cycle time becomes the third predetermined time or more. You may make it raise temperature. In this case, in STEP 5 of FIG. 2, it is determined whether the ON cycle time in the previous ON-OFF control is equal to or longer than the second predetermined time or the OFF cycle time is equal to or longer than the third predetermined time. 2 When the predetermined time or more or the OFF cycle time is the third predetermined time or more, the process branches to STEP 10, and when the ON cycle time is shorter than the second predetermined time and the OFF cycle time is shorter than the third predetermined time, the process proceeds to STEP 6. What should I do?

  In this case, the second predetermined time and the third predetermined time are determined in consideration of the service life of the component parts, similarly to the first predetermined time. If the ON cycle time or the OFF cycle time is equal to or longer than the first predetermined time, the ON-OFF cycle time is equal to or longer than the first predetermined time.

  Next, FIG. 3B shows the forward temperature Tg and ON / OFF of the burner 15 when the ignition temperature is changed from Ton1 to Ton2 higher than in FIG. It is explanatory drawing which illustrated change of.

  In FIG. 3B, the forward temperature Tg becomes equal to or lower than the ignition temperature Ton2 at each point of time t20, t22, t24, and the burner 15 is switched from OFF (extinguishing state) to ON (combusting state), at t21, t23, t25. At each time point, the forward temperature Tg becomes lower than the fire extinguishing temperature Toff, and the burner 15 is switched from ON to OFF.

  In FIG. 3B, the OFF cycle time Woff2 is shorter than the OFF cycle time Woff1 in FIG. 3A by increasing the ignition temperature from Ton1 to Ton2. Therefore, during a long OFF cycle time, the situation where hot water having a temperature lower than the second target hot water temperature is supplied to the floor heating panel 4 continues, and the user in the room where the floor heating panel 4 is installed is cold. Can be prevented from experiencing.

  In the present embodiment, the heat source device 1 using a gas burner is shown. However, a heat source device using a burner that burns other fuel such as oil or a heat source device using an electric heater or the like as a heating source may be adopted. Good.

  Further, in the present embodiment, the example in which the heating operation of the floor heating panel 4 is performed by the ON-OFF control is shown, but the present invention is also applied to the case where the heating operation of the hot air heater 3 is performed by the ON-OFF control. Is possible.

  DESCRIPTION OF SYMBOLS 1 ... Heat source machine, 2 ... Terminal warm water circuit, 3 ... Hot air heater, 4 ... Floor heating panel, 16 ... Circulation pump, 18 ... Heating high temperature thermistor, 20 ... Heating low temperature thermistor, 26 ... Heat source machine controller (heating control part) , Cycle time measuring unit, heating resumption temperature changing unit), 30 ... heating high temperature hot water circuit, 31 ... heating low temperature hot water circuit, 46 ... hot air heating controller, 50 ... floor heating terminal, 54 ... floor heating controller.

Claims (2)

A heat source connected to the hot water circuit and heating the hot water flowing through the hot water circuit;
A heating terminal connected in the middle of the hot water circulation path and heating by heat radiation from the hot water flowing through the hot water circulation path;
A circulation pump for circulating hot water in the hot water circulation path;
A forward temperature sensor for detecting a temperature of hot water supplied from the hot water circulation path to the heating terminal;
Proportional control for controlling the amount of heating by the heat source unit so that the detected temperature of the forward temperature sensor becomes a predetermined target hot water temperature in a state where the circulation pump is operated, and the amount of heating by the heat source unit by the proportional control When the detected temperature of the forward temperature sensor exceeds the target hot water temperature even when the predetermined temperature is decreased to a predetermined lower limit heating amount, the forward temperature sensor is equal to or higher than the heating stop temperature higher than the target hot water temperature. ON-OFF control that stops heating by the heat source unit and then repeats the process of restarting heating by the heat source unit when the temperature detected by the forward temperature sensor becomes equal to or lower than the heating restart temperature lower than the target hot water temperature And a heating control unit that performs the heating operation,
ON, which is the time from when heating by the heat source unit is started to when the heating by the heat source unit is restarted after heating is started by the ON-OFF control. A cycle time measuring unit for measuring the OFF cycle time;
When the ON-OFF cycle time measured by the cycle time measurement unit is equal to or longer than a first predetermined time, the heating restart temperature is changed to a temperature higher than the heating restart temperature at the time of the measurement. A hot water heating system comprising a change unit. A heat source connected to the hot water circuit and heating the hot water flowing through the hot water circuit;
A heating terminal connected in the middle of the hot water circulation path and heating by heat radiation from the hot water flowing through the hot water circulation path;
A circulation pump for circulating hot water in the hot water circulation path;
A forward temperature sensor for detecting a temperature of hot water supplied from the hot water circulation path to the heating terminal;
Proportional control for controlling the amount of heating by the heat source unit so that the detected temperature of the forward temperature sensor becomes a predetermined target hot water temperature in a state where the circulation pump is operated, and the amount of heating by the heat source unit by the proportional control When the detected temperature of the forward temperature sensor exceeds the target hot water temperature even when the predetermined temperature is decreased to a predetermined lower limit heating amount, the forward temperature sensor is equal to or higher than the heating stop temperature higher than the target hot water temperature. ON-OFF control that stops heating by the heat source unit and then repeats the process of restarting heating by the heat source unit when the temperature detected by the forward temperature sensor becomes equal to or lower than the heating restart temperature lower than the target hot water temperature And a heating control unit that performs the heating operation,
When the heating operation by the ON-OFF control is being performed, the ON cycle time, which is the time from when the heating by the heat source device is started until the heating stops, or the heating by the heat source device has stopped A cycle time measuring unit for measuring an OFF cycle time which is a time from the time point until the heating is restarted;
When the ON cycle time measured by the cycle time measuring unit is equal to or longer than a second predetermined time, or when the OFF cycle time measured by the cycle time measuring unit is equal to or longer than a third predetermined time, the heating A hot water heating system comprising: a heating restart temperature changing unit that changes a restart temperature to a temperature higher than the heating restart temperature at the time of the measurement.