JP2001108285A - Heating system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a heating system which does not mar the fine view in external appearance, by solving the difficulty of wiring work. SOLUTION: This heating system is equipped with an air conditioner 3 and a hot water floor heater 5, and further is equipped with a controller 7 which controls the air conditioner 3 and the hot water heater 5 as a whole, and the controller 7b and the air conditioner 3 can communicate with each other by radio.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to a heating system provided with an air conditioner and a hot water floor heater.

[0002]

2. Description of the Related Art Hitherto, a system has been constructed in which a room to be conditioned is provided with an air conditioner and a hot water floor heater, and the room to be conditioned is air-conditioned from the floor and an upper space at one time.

In this type, when the heating operation is started, the heat capacity of the floor is large, so that the air temperature generally rises before the floor temperature.

[0004] Therefore, the air temperature is raised in advance, and after the floor temperature follows the set temperature, the operation of the air conditioner is stopped, and thereafter, only the hot water floor heater is operated and the air conditioner is operated. System control for heating the harmony room is performed.

[0005]

However, conventionally,
Because the air conditioner and the hot water floor heater are controlled separately,
There is a problem that the system control described above becomes difficult.

In order to solve this problem, if a controller for controlling the air conditioner and the hot water floor heater at the same time is provided, if these devices are connected by wire, depending on the mounting position of the air conditioner, wiring work may be required. There is a problem that becomes difficult. In addition, it is necessary to route the wiring in the room, and there is a problem that the appearance is impaired.

[0007] Therefore, an object of the present invention is to solve the above-mentioned problems of the prior art, to facilitate system control,
Another object of the present invention is to provide a heating system that eliminates difficulties in wiring work and does not impair the aesthetic appearance.

[0008]

According to the first aspect of the present invention,
An air conditioner and a hot water floor heater are provided, and a controller for controlling the air conditioner and the hot water floor heater collectively is provided.This controller and the air conditioner are configured to be able to communicate wirelessly. Features.

According to the first aspect of the present invention, since it is not necessary to connect the controller and the air conditioner with a wired connection, it is possible to solve a difficulty in wiring work, and for example, wiring is not routed indoors. The appearance is not spoiled.

According to a second aspect of the present invention, there is provided an air conditioner and a hot water floor heater, and a controller for integrally controlling the air conditioner and the hot water floor heater. A switch, a hot water floor heater independent control switch, and a simultaneous control switch for both units, wherein the controller and the air conditioner are configured to be communicable by wireless.

According to the second aspect of the present invention, the controller includes the air conditioner independent control switch, the hot water floor heater independent control switch, and the simultaneous control switch for both air conditioners. When controlling individually,
When a switch corresponding to the switch is selected and the air conditioner and the hot water floor heater are controlled simultaneously, the switch for simultaneous control of the two devices is selected. When this simultaneous control switch is selected,
The system control described above becomes possible, and the required room temperature and floor temperature can be easily controlled. Further, since the controller and the air conditioner are configured to be able to communicate wirelessly, there is no need to connect the controller and the air conditioner by wire.
For this reason, the difficulty in wiring work can be eliminated, and the appearance is not spoiled.

According to a third aspect of the present invention, in the first or second aspect of the invention, when the hot water floor heater is connected to a heat source unit by a pipe and the operation of the hot water floor heater is controlled, the heat source unit is controlled by the controller. Is controlled.

According to the third aspect of the present invention, the heat source device is controlled by the controller, and for example, the temperature and flow rate of hot water supplied to the hot water floor heater are controlled.

According to a fourth aspect of the present invention, in the third aspect of the present invention, the controller and the heat source device are configured to be capable of wireless communication.

According to the fourth aspect of the present invention, since it is not necessary to connect the controller and the heat source device by wire, it is possible to solve the difficulty of wiring work.

According to a fifth aspect of the present invention, in the third aspect of the present invention, the controller and the heat source unit are configured to be capable of wired communication.

According to the fifth aspect of the present invention, since the controller and the heat source unit are configured to be able to perform wired communication, even in the existing heat source unit in which the controller and the heat source unit cannot perform wireless communication, the controller can be connected to the hot water floor heater by wire. The temperature of the supplied hot water and the flow rate of the hot water can be remotely controlled.

According to a sixth aspect of the present invention, in the first aspect of the present invention, an interface unit wired to the air conditioner is provided, and wireless communication between the interface unit and the controller is enabled. It is characterized by comprising.

According to the sixth aspect of the present invention, since the air conditioner is connected to the air conditioner by a wire, the existing air conditioner can be used. Also,
Since the controller and the interface unit are configured to be communicable wirelessly, it is possible to solve difficulties in wiring work and does not impair the aesthetic appearance.

[0020]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the drawings.

In FIG. 1, reference numeral 1 denotes a heating system. The heating system 1 includes an air conditioner 3, a hot water floor heater 5, and a controller 7 that controls them collectively. The hot water floor heater 5 generates and supplies hot water to a heat source device 9.
Is connected to the piping. A circulating pump 11 as a heating pump is built in the heat source device 9, and a thermal valve 13 is provided between the circulating pump 11 and the hot water floor heater 5. Various signals can be wirelessly transmitted and received between the controller 7 and the air conditioner 3 and between the controller 7 and the heat source device 9. The controller 7 controls the surface temperature of the hot-water floor heater 5 by controlling the heat source device 9 by wireless communication.

FIG. 2 shows a control block diagram.

The air conditioner 3 is designed as a wireless device and includes a microcomputer 15, to which a communication circuit 17 having an antenna 17a for enabling wireless communication is connected.

The controller 7 has a microcomputer 19, which includes a communication circuit 21 having an antenna 21a for enabling wireless communication, a room temperature thermistor 23, a floor temperature thermistor 25, and a key input unit 27. , And the display unit 29 are connected. The key input unit 27 is provided with an air conditioner independent control switch 27a, a hot water floor heater independent control switch 27b, and a simultaneous control switch 27c for both units. The floor temperature thermistor 25 is connected to the hot water floor heater 5 via a lead wire (not shown), and can detect the surface temperature of the hot water floor heater 5.

The heat source unit 9 has a microcomputer 31 to which a communication circuit 33 having an antenna 33a for enabling wireless communication, a combustion control circuit 35, and a driver 37 are connected. When the combustion of the heat source device 9 is controlled, the gas valve 39 is opened and closed based on a signal from the combustion control circuit 35, and the ignition of the igniter 41 is controlled. When hot water is supplied from the heat source unit 9 to the hot water floor heater 5, the driver 37 is driven, the heating pump 11 operates, and the heat valve 1
3 is controlled to open and close.

In this embodiment, the communication circuit 17 is connected to the microcomputer 15 of the air conditioner 3, the communication circuit 21 is connected to the microcomputer 19 of the controller 7, and the communication circuit 33 is connected to the microcomputer 31 of the heat source device 9. ing. And
Between the antenna 17a of the communication circuit 17 of the air conditioner 3 and the antenna 21a of the communication circuit 21 of the controller 7, and between the antenna 21a of the communication circuit 21 of the controller 7 and the heat source device 9.
The wireless communication by radio waves is enabled between the antennas 33a of the communication circuit 33, and the air conditioner 3 and the heat source device 9 are controlled by the controller 7. In this case, the radio wave is a radio wave used corresponding to the low power device.

In this embodiment, the controller 7
Air conditioner independent control switch 27a, hot water floor heater independent control switch 27b, and simultaneous control switch 27c for both units
When the air conditioner 3 and the hot water floor heater 5 are individually controlled, the switches 27a,
When selecting 7b and controlling the air conditioner 3 and the hot water floor heater 5 simultaneously, the simultaneous control switch 27c for both air conditioners is selected.

When the air conditioner independent control switch 27a is selected, the control 7 transmits an air conditioner operation start signal to the air conditioner 3, and when the hot water floor heater independent control switch 27b is selected, the control 7 transmits the hot water floor. A heater operation start signal is transmitted to the hot water heater 5, and when the simultaneous control switch 27c is selected, the air conditioner operation start signal and the hot water floor heater operation start signal are simultaneously transmitted to the air conditioner 3 and the hot water heater. 5 and transmitted.

When the simultaneous control switch 27c is selected, since the heat capacity of the floor is large at the start of the heating operation, the air temperature generally rises before the floor temperature. Therefore, when the two-machine simultaneous control switch 27c is selected, the controller 7 simultaneously operates the air conditioner 3 and the hot water floor heater 5, and particularly, fully operates the air conditioner 3 to increase the air temperature, After the floor temperature follows the set temperature, the operation of the air conditioner 3 is automatically stopped, and thereafter, only the hot water floor heater 5 is operated to heat the conditioned room. This control is called system control.

In this embodiment, the above-described system control becomes possible, and the required room temperature and floor temperature can be easily controlled.

FIG. 3 shows a flowchart. The normal operation of the heating system 1 will be described according to this flowchart. When any one of the air conditioner independent control switch 27a, the hot water floor heater independent control switch 27b, and the dual control switch 27c of the controller 7 is pressed, the microcomputer 19 of the controller 7 determines which switch is pressed. . First, it is determined whether the pressed switch is the simultaneous control switch 27c (S1).
If it is not the both-machine simultaneous control switch 27c, it is determined whether the switch is the hot-water floor heater single control switch 27b (S
2) If it is not the hot water floor heater single control switch 27b, it is determined that the air conditioner single control switch 27a has been pressed. When it is determined that the air conditioner independent control switch 27a has been pressed, the controller 7 performs carrier sensing and wirelessly transmits an air conditioner operation start signal to the air conditioner 3 by radio waves (S3). The carrier sense refers to an operation of confirming whether or not another radio wave of substantially the same frequency is emitted in the space. If another radio wave of substantially the same frequency is emitted, wireless transmission is not performed. In short, in S3, the controller 7 executes the carrier sense, and when no emission of another radio wave of the same frequency is confirmed, the controller 7 transmits the radio wave to the air conditioner 3 by radio.

When the air conditioner 3 receives the air conditioner operation start signal (S4), the air conditioner 3 performs carrier sensing and wirelessly transmits an air conditioner return signal to the controller 7 by radio waves (S5). When receiving the air conditioner reply signal, the controller 7 enters a standby state (S
6).

These air conditioner return processing operations (S4, S
Simultaneously with 5), in S4, the communication circuit 17 of the air conditioner 3 outputs the received air conditioner operation start signal to the microcomputer 15. The output air conditioner operation start signal is stored in a memory (not shown) of the microcomputer 15 and the microcomputer 15 starts operation of the air conditioner 3 by this data output operation (S7).

In S2, the microcomputer 19 of the controller 7 determines that the hot water floor heater independent control switch 27b is pressed.
Is determined, the controller 7 performs carrier sense, and wirelessly transmits a hot water floor heater operation start signal to the heat source device 9 by radio waves (S8). When the heat source device 9 receives the hot water floor heater operation start signal (S9), the heat source device 9 performs carrier sensing and wirelessly transmits a hot water floor heating return signal to the controller 7 by radio waves (S10). When receiving the hot water floor heating return signal, the controller 7 enters a standby state (S11).

These heat source device return processing operations (S9, S1)
In step S9, the communication circuit 33 of the heat source device 9 outputs the received hot water floor heater operation start signal to the microcomputer 31 in step S9. The outputted hot-water floor heater operation start signal is stored in a memory (not shown) of the microcomputer 31, and the microcomputer 31 starts the operation of the heat source unit 9 and opens the heat valve 13 by this data output operation. (S12).

In step S1, the simultaneous control switch 27 for the two machines
When the microcomputer 19 of the controller 7 determines that c has been pressed, the controller 7 performs carrier sensing, and sends an air conditioner operation start signal to the air conditioner 3 and a hot water floor heater operation start signal to the heat source device 9 by radio waves. Wireless transmission (S
13). When the air conditioner 3 and the heat source device 9 receive the air conditioner operation start signal and the hot water floor heater operation start signal, respectively (S14), the air conditioner 3 and the heat source device 9 respectively perform carrier sense, and The conditioner 3 wirelessly transmits the air conditioner reply signal to the controller 7 by radio waves, and the heat source device 9 wirelessly transmits the hot water floor heater reply signal to the controller 7 by radio waves (S15). When receiving the air conditioner return signal and the hot water floor heater return signal, the controller 7 enters a standby state (S16).

Simultaneously with these reply processing operations (S14, S15), in S14, the communication circuit 17 of the air conditioner 3 sends the received air conditioner operation start signal to the microcomputer 1
5 is output. The output air conditioner operation start signal is stored in a memory (not shown) of the microcomputer 15 and
By this data output operation, the microcomputer 15 starts the operation of the air conditioner 3 (S17). In addition, the communication circuit 33 of the heat source device 9 outputs the received hot water floor heater operation start signal to the microcomputer 31. The output of the hot water floor heater operation start signal is stored in a memory (not shown) of the microcomputer 31 and the data output operation causes the microcomputer 31 to output the signal.
Starts the operation of the heat source device 9 and opens the heat valve 13 (S2).
9).

When the air conditioner 3 starts operating, the controller 7 detects the current room temperature by the room temperature thermistor 23, and the current room temperature is set to the room temperature set upper limit temperature T1 ° C.
It is determined whether or not this is the case (S18). If the current room temperature is not higher than T1 ° C., the room temperature is repeatedly detected. If the room temperature has become equal to or higher than T1 ° C., the controller 7 executes carrier sense and transmits an air conditioner operation stop signal to the air conditioner 3 (S19). When the air conditioner 3 receives the air conditioner operation stop signal (S2
0), execute carrier sense, and transmit an air conditioner return signal to the controller 7 (S21). Controller 7
Receives the air conditioner reply signal, enters a signal waiting state (S22).

These air conditioner return processing operations (S20,
At the same time as S21), at S20, the air conditioner 3
The communication circuit 17 outputs the received air conditioner operation stop signal to the microcomputer 15. The output air conditioner operation stop signal is stored in a memory (not shown) of the microcomputer 15 and the data output operation causes the microcomputer 15 to stop.
Stops the operation of the air conditioner 3 (S23).

When the operation of the air conditioner 3 is stopped, the controller 7 detects the current room temperature by the room temperature thermistor 23, and the current room temperature is set to the room temperature setting lower limit temperature T2 ° C.
It is determined whether it is below (S24). If the current room temperature is not lower than T2 ° C., the room temperature is repeatedly detected. When the room temperature becomes equal to or lower than T2 ° C., the controller 7 executes carrier sense and transmits an air conditioner operation start signal to the air conditioner 3 (S25). When the air conditioner 3 receives the air conditioner operation start signal (S2
6) Carrier sensing is performed, and an air conditioner reply signal is transmitted to the controller 7 (S27). Controller 7
Receives the air conditioner reply signal, enters a signal waiting state (S28).

In S26, when the air conditioner 3 receives the air conditioner operation start signal, the process returns to S17, and the air conditioner 3 starts operation again.

In S14, when the heat source unit 9 receives the hot water floor heater operation start signal, it starts operation and opens the heat valve 13 (S29). The controller 7 detects the current surface temperature of the hot water floor heater 5 with the floor temperature thermistor 25, and determines whether the current surface temperature of the hot water floor heater 5 is equal to or higher than the floor temperature set upper limit temperature T3 ° C ( S30).
If the current surface temperature of the hot water floor heater 5 is not higher than T3 ° C., the surface temperature of the hot water floor heater 5 is repeatedly detected. When the surface temperature of the hot water floor heater 5 becomes T3 ° C. or higher, the controller 7 executes carrier sense,
A heat valve closing signal is transmitted to the heat source device 9 (S31). When the heat source device 9 receives the thermal valve closing signal (S32), it executes carrier sense and transmits a thermal valve closing reply signal to the controller 7 (S33). When receiving the heat valve closing reply signal, the controller 7 enters a signal waiting state (S34).

These heat source device return processing operations (S32, S3
Simultaneously with 3), in S32, the communication circuit 33 of the heat source device 9 outputs the received thermal valve closing signal to the microcomputer 31. The outputted thermal valve closing signal is stored in a memory (not shown) of the microcomputer 31, and the microcomputer 31 closes the thermal valve 13 by this data output operation (S3).
5).

When the thermal valve 13 is closed, the controller 7
Is the current hot water floor heater 5 by the floor temperature thermistor 25.
Is detected, and it is determined whether the current surface temperature of the hot water floor heater 5 is equal to or lower than the floor temperature setting lower limit temperature T4 ° C. (S36). If the current room temperature is not lower than T4 ° C., the surface temperature of the hot water floor heater 5 is repeatedly detected.
When the surface temperature of the hot water floor heater 5 becomes T4 ° C. or lower, the controller 7 executes carrier sense and transmits a heat valve opening signal to the heat source device 9 (S37). Upon receiving the heat valve opening signal (S38), the heat source unit 9 performs carrier sensing and transmits a heat valve opening reply signal to the controller 7 (S39). When the controller 7 receives the heat valve opening reply signal, it enters a signal waiting state (S40).

These heat source device return processing operations (S38, S3
In step S38, the communication circuit 33 of the heat source device 9 outputs the received heat valve opening signal to the microcomputer 31 in step S38. The output thermal valve opening signal is stored in a memory (not shown) of the microcomputer 31 and the microcomputer 31 opens the thermal valve 13 by this data output operation (S4).
1) Returning to S30 again, the controller 7 detects the current surface temperature of the hot water floor heater 5 with the floor temperature thermistor 25, and the current surface temperature of the hot water floor heater 5 becomes the floor temperature setting upper limit temperature T3. It is determined whether the temperature is higher than or equal to
0).

In this embodiment, a wireless function is added to the controller 7 so that the controller 7 and the air conditioner 3 can communicate with each other wirelessly. Therefore, it is necessary to connect the controller 7 and the air conditioner 3 by wire. There is no. For this reason, the difficulty in wiring work can be eliminated, and the appearance is not spoiled.

In this embodiment, when each signal is transmitted and received by radio waves, carrier sense is performed. In this case, each of the communication circuits 17, 21, 3,
3 and each of the microcomputers 15, 19, and 31 perform the operation of returning the received signal and the operation of outputting the data to the air conditioner 3 and the heat source device 9 separately in each case, and temporarily store the data. Store. According to this, it is possible to reliably correct the time delay of communication required for executing carrier sense, waiting for a signal request from the air conditioner 3 or the heat source device 9, and the like, and performing communication due to this time delay. The occurrence of abnormalities can be avoided.

FIG. 4 shows another embodiment.

The air conditioner 43 in this embodiment is
It is assumed that the control unit (not shown) does not have a wireless communication function. In this case, the interface unit 45 having a wireless communication function is connected to a control unit (for example, the microcomputer 15 in FIG. 2) of the air conditioner 43 via the communication line L1.

In FIG. 4, reference numeral 1 denotes a heating system. The heating system 1 includes an air conditioner 43, a hot water floor heater 5, and a controller 7 that controls the hot water floor heater 5 and the hot water floor heater 5, and the hot water floor heater 5 is connected to a heat source device 9 that generates and supplies hot water. I have. A circulating pump 11 as a heating pump is built in the heat source device 9, and a thermal valve 13 is provided between the circulating pump 11 and the hot water floor heater 5. The heat source device 9 is provided with a microcomputer 31, which is connected to a driver 37.
Is connected to the circulation pump 11 and the thermal valve 13.

Various signals can be wirelessly transmitted and received between the controller 7 and the interface unit 45 of the air conditioner 43 and between the controller 7 and the heat source device 9. The controller 7 controls the surface temperature of the hot-water floor heater 5 by controlling the heat source device 9 by wireless communication.

The interface unit 45 performs carrier sense when transmitting and receiving each signal by radio waves. In this case, for example, the interface unit 45
As in the operation shown in (1), the response processing operation of the received signal and the data output operation to the air conditioner 3 and the heat source device 9 are separately executed each time, and the data is temporarily stored. According to this, for example, as shown in S5 and S6 in FIG. 3, the execution of the carrier sense, the air conditioner 43 and the heat source device 9 are performed.
If there is a signal request wait from the communication device, the time delay of the communication required for the signal request can be corrected without fail, and the occurrence of communication abnormality due to the time delay can be avoided.

Further, since the interface unit 45 capable of wireless communication is connected to the air conditioner 43 via the communication line L1, a so-called existing wired air conditioner that does not include the communication circuit 17 shown in FIG. The wireless compatible device can be changed and used. In the case of the wireless compatible device, it is possible to eliminate the difficulty in wiring work for connecting the controller 7 and the interface unit 45, and does not impair the appearance.

FIG. 5 shows another embodiment.

In this embodiment, unlike the one shown in FIG. 1, the controller 7 and the microcomputer 31 of the heat source device 9 are connected by a wire via a communication line L2. Other configurations are
Since the configuration is substantially the same as that of FIG. 1, the description is omitted.

In this case, the controller 7 performs wireless communication with the air conditioner 3 by radio waves used for low power equipment, and performs wired communication with the heat source device 9. Therefore, the controller 7 includes a conversion unit (not shown) that converts a signal transmitted and received by wireless communication into a signal transmitted and received by wire.

The controller 7 executes carrier sense when transmitting and receiving each signal by radio waves. in this case,
The controller 7, for example, performs the operation of returning the received signal and the operation of outputting the data to the air conditioner 3 and the heat source device 9 in a similar manner to the operation shown in S14 of FIG. Store data temporarily. According to this, as shown in, for example, S15 and S16 in FIG. 3, when there is an execution of carrier sense or a signal request waiting from the air conditioner 43 or the heat source device 9, there is a time delay of communication required for the execution. Can be reliably corrected, and occurrence of communication abnormality due to this time delay can be avoided. Also, by connecting the heat source device 9 having no wireless communication function by wire, system control with the air conditioner 3 can be easily realized.

[0058]

According to the present invention, it is not necessary to connect the controller and the air conditioner by wire, so that it is possible to solve the difficulty in wiring work, and it is not necessary to route the wiring in the room. It does not spoil the aesthetics above.

Further, according to the present invention, since the controller is provided with the air conditioner independent control switch, the hot water floor heater independent control switch, and the simultaneous control switch for both air conditioners, the controller separately controls the air conditioner and the hot water floor heater. When a switch corresponding to the switch is selected and the air conditioner and the hot water floor heater are controlled simultaneously, the switch for simultaneous control of the two devices is selected. When the two-machine simultaneous control switch is selected, system control becomes possible, and required room temperature and floor temperature can be easily controlled.

[Brief description of the drawings]

FIG. 1 is a principle diagram showing an embodiment of a heating system according to the present invention.

FIG. 2 is a control block diagram of the heating system shown in FIG.

FIG. 3 is a flowchart showing a communication mode during normal operation.

FIG. 4 is a principle view showing another embodiment of the heating system according to the present invention.

FIG. 5 is a principle view showing another embodiment of the heating system according to the present invention.

[Explanation of symbols]

1 Heating System 3, 43 Air Conditioner (Air Conditioner) 5 Hot Water Floor Heater (Hot Water Floor Heater) 7 Controller 9 Heat Source Unit 27a Single Control Switch 27b Hot Water Floor Heater Single Control Switch (Hot Water Floor Heater Single Control Switch ) 27c Simultaneous control switch for both units 45 Interface part L1, L2 Communication line

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04Q 9/00 311 H04Q 9/00 311P 321 321B 9/02 9/02 B (72) Inventor Takuyuki Yajima Sanyo Electric Gas Equipment Co., Ltd. (1-1) Dainitsuto-cho, Moriguchi-shi, Osaka (72) Inventor Yoshio Muto 1-1, Dainitsuchi-cho, Moriguchi-shi, Osaka Sanyo Electric Gas Equipment Co., Ltd. (72) Inventor Kiyoshi Yamagishi Maro F-term (reference) in Sanyo Electric Gas Equipment Co., Ltd. 1-1 1-1 Dainitsuhigashi, Moriguchi-shi, Osaka 3L060 EE01 EE11 3L061 BA04 3L070 AA02 AA07 BB01 5K048 AA01 AA04 BA08 DA02 DB01 DC01 DC03 EB06 FC01 HA01 HA02

Claims (6)

[Claims] An air conditioner and a hot water floor heater are provided, and a controller is provided for integrally controlling the air conditioner and the hot water floor heater, and the controller and the air conditioner can be wirelessly communicated. A heating system characterized by: 2. An air conditioner and a hot water floor heater, and a controller for controlling the air conditioner and the hot water floor heater collectively, the controller being an air conditioner independent control switch, a hot water floor heater A heating system comprising an independent control switch and a simultaneous control switch for both units, wherein the controller and the air conditioner are configured to be able to communicate wirelessly. 3. The heating system according to claim 1, wherein when the hot water floor heater is connected to a heat source device by a pipe, and when the operation of the hot water floor heater is controlled, the heat source device is controlled by the controller. system. 4. The heating system according to claim 3, wherein the controller and the heat source device are configured to be capable of wireless communication. 5. The heating system according to claim 3, wherein the controller and the heat source device are configured to be able to perform wired communication. 6. The air conditioner according to claim 1, further comprising an interface unit connected to the air conditioner by wire, wherein the interface unit and the controller are configured to be able to wirelessly communicate with each other. Heating system.