JP2015183925A - air conditioning system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioning system that prevents freezing of water in a hot water circulation passage in a heating terminal from occurring before treatment for freezing prevention is started by a heat source machine.SOLUTION: A bathroom heating device 2 includes: a bathroom temperature sensor 42 for detecting a temperature in a bathroom BR; a bathroom suction port 17 communicated with a ventilation device 3; a bathroom damper 27 for opening/closing the bathroom suction port 17; and a heating controller 40 that performs heating operation with hot water supplied from a heat source machine 8 as a heat source and ventilation operation for operating the ventilation device 3, and when the detection temperature of the bathroom temperature sensor 42 is equal to or less than a first freezing determination temperature, closes the bathroom suction port 17 by the bathroom damper 27.

Description

  The present invention relates to an air conditioning system that performs indoor heating and ventilation.

  2. Description of the Related Art Conventionally, there is known an air conditioning system that heats a room by exchanging heat between hot water circulated and supplied from a heat source machine and indoor air (see, for example, Patent Document 1).

  In the air conditioning system described in Patent Document 1, a heat source device installed outdoors and a plurality of heating terminals (bathroom heating device, floor heater, etc.) installed indoors are connected via a hot water circuit. The room where each heating terminal is installed is heated by the hot water sent from the heat source unit.

  And in order to prevent the water in a warm water circulation path from freezing by the fall of outside temperature, in the air-conditioning system described in patent document 1, the detection temperature of the outside temperature sensor provided in the heat source machine is below freezing index temperature. When it becomes, the process which supplies warm water also to the heating terminal which has stopped heating operation is performed.

JP 2005-61815 A

  There is a heating terminal having a ventilation function in addition to a heating function, such as a bathroom heating device. And in such a heating terminal with a ventilation function, in addition to a configuration in which a ventilation fan is provided exclusively, a common ventilation device that communicates with a ventilation port of another room is operated, so that the ventilation function of the heating terminal is The realized configuration is adopted.

  The common ventilator operates in response to a request from a heating terminal with a ventilation function, and also operates when a ventilation switch or the like provided in another room (toilet, dressing room, etc.) is operated, Exhaust indoor air outdoors.

  In the heating terminal that ventilates using the common ventilator in this way, the heating terminal before the freeze prevention process by the heat source machine is started when the room temperature is low. It has been found that water may freeze in the hot water circulation path.

  Then, an object of this invention is to provide the air-conditioning system which prevented that the water in the hot water circuit of a heating terminal freezes before the process of the antifreezing by a heat source machine is started.

The present invention has been made to achieve the above object, and the air conditioning system of the present invention includes:
A heating terminal with a ventilation function connected to a hot water circulation path to which hot water is supplied from a heat source unit, and an intake port of the heating terminal and other intake and exhaust ports, and an intake port of the heating terminal or the An air-conditioning system comprising a ventilator that draws air from another inlet and exhausts it from the outlet,
The ventilator operates in response to a ventilation request from the heating terminal, or another ventilation request corresponding to the other inlet,
The heating terminal includes a terminal temperature detection unit that detects the temperature of the room in which the heating terminal is provided or the temperature of water in the hot water circulation path in the heating terminal, and a damper that opens and closes the intake port of the heating terminal. Heating operation using hot water supplied from the heat source machine as a heat source, and operating the ventilator with the damper opening the intake port of the heating terminal, so that the indoor air in which the heating terminal is installed Is ventilated through the intake port of the heating terminal and discharged from the exhaust port, and when the temperature detected by the terminal temperature detection unit is equal to or lower than the first anti-freezing temperature, the damper takes in the intake air of the heating terminal And a heating terminal control unit that sets the opening of the mouth to a predetermined opening or less.

  According to the present invention, the ventilator operates in response to a ventilation request from the heating terminal and has another ventilation request (such as a ventilation request by operating a ventilation switch provided in a toilet or a dressing room). It also works when And when the ventilation device is activated in response to another ventilation request, if the air inlet of the heating terminal is open, the air in the room where the heating terminal is installed passes through the heating terminal. It is sucked into the ventilator and discharged from the exhaust port.

  In this case, when hot water circulates in the hot water circulation path due to the heating operation or the freeze prevention operation of the heat source machine executed under a predetermined condition, the hot water circulation path in the heating terminal is frozen. Will not occur. However, when the temperature of the room in which the heating terminal is installed is lowered to around 0 ° C. with the supply of hot water from the heat source unit to the hot water circulation path stopped, the room flowing into the heating terminal There is a possibility that the water staying in the hot water circulation path in the heating terminal is cooled and frozen by the low temperature air.

  Therefore, when the temperature detected by the terminal temperature detection unit is equal to or lower than the anti-freezing temperature, the heating terminal control unit causes the opening degree of the ventilation port of the heating terminal to be equal to or lower than the predetermined opening level by the damper. Thus, as described above, since the freeze-preventing operation or the like of the heat source unit is not performed, hot water is not circulating in the hot water circulation path, and the room where the heating terminal is installed is at a low temperature. Under certain circumstances, when the ventilator is activated by a ventilation request from other than the heating terminal, the indoor cold air is prevented from being sucked into the heating terminal, and the anti-freezing operation of the heat source unit is performed. It is possible to prevent the water in the hot water circulation path in the heating terminal from freezing before starting the operation.

Further, the heating terminal includes an air volume sensor that detects a flow rate of air sucked into the ventilator through an intake port of the heating terminal,
The heating terminal control unit is configured such that when the detected temperature of the terminal temperature detection unit is equal to or lower than the anti-freezing temperature and the detected air volume of the air volume sensor is equal to or less than a predetermined air volume, the damper controls the air intake port of the heating terminal. The opening is set to be equal to or less than the predetermined opening.

  According to this configuration, when the air volume is less than the predetermined air volume and the possibility that the water in the hot water circulation path in the heating terminal is frozen is low, the opening degree of the ventilation port of the heating terminal is set to the predetermined air volume. It is possible to maintain a state in which ventilation in the room where the heating terminal is installed can be made larger than the opening degree.

The block diagram of the air-conditioning system of this invention. Explanatory drawing of the control system of the water heater of the bathroom heating apparatus shown in FIG. The flowchart of the opening / closing control of the damper according to the temperature of a bathroom.

  An embodiment of the present invention will be described with reference to FIGS.

  Referring to FIG. 1, an air conditioning system 1 of the present embodiment includes a heat source device 8 installed outdoors and a bathroom heating device 2 installed in a bathroom BR (corresponding to a heating terminal with a ventilation function of the present invention). And a ventilator 3 installed on the ceiling of the bathroom BR.

  The heat source device 8 and the bathroom heating device 2 are connected by a hot water circulation path 12, and hot water heated by the heat source device 8 is circulated and supplied to the bathroom heating device 2. The ventilation device 3 includes a duct 22 that communicates with the ventilation port of the dressing room DR, a duct 24 that communicates with the ventilation port of the toilet TR, an intake port 17 (see FIG. 2) of the bathroom heating device 2, and an exhaust port (not shown). The bathroom BR, the dressing room DR, and the toilet TR are ventilated by being connected to the communicating duct 20 and inhaling the air in the bathroom BR, the dressing room DR, and the toilet TR and exhausting the air from the exhaust port to the outside.

  The dressing room DR is provided with a remote controller 34 for operating the bathroom heater 2 and the ventilator 3, and the toilet TR is provided with a toilet switch 35 for instructing the operation and stop of the ventilator 3.

  Next, referring to FIG. 2, the heat source device 8 and the bathroom heating device 2 are connected by a communication cable 41 so that they can communicate with each other, and the bathroom heating device 2 and the ventilation device 3 are connected by a communication cable 46. It is configured to be able to communicate with each other. The remote controller 34 is communicably connected to the bathroom heating device 2 and the ventilation device 3.

  The bathroom heating device 2 is provided in a casing 5 having a suction port and a blow-out port (not shown) communicating with the bathroom BR, in the middle of a circulation fan 7 driven by a motor 6 and a hot water circulation path 12. A heat exchanger 9 through which hot water supplied from the heat source unit 8 flows and a heating controller 40 (corresponding to the heating terminal control unit of the present invention) for controlling the operation of the bathroom heating device 2 are accommodated.

  A variable louver 11 driven by a stepping motor 10 is provided at the outlet, and the direction of air flow from the bathroom heating device 2 to the bathroom BR can be changed by the variable louver 11. The hot water circulation path 12 between the heat source device 8 and the heat exchanger 9 is provided with a thermal valve 13 that opens and closes the hot water circulation path 12 and switches between supply and stop of hot water to the heat exchanger 9. Yes.

  A bathroom damper 27 (corresponding to the damper of the present invention) driven by the stepping motor 26 is provided in the bathroom inlet 17 (corresponding to the inlet of the heating terminal of the present invention) that communicates the bathroom BR with the ventilation device 3. The opening degree of the bathroom inlet 17 can be adjusted by the position of the bathroom damper 27.

  The bathroom heating device 2 includes a bathroom temperature sensor 42 that detects the temperature in the bathroom BR (corresponding to the terminal temperature detection unit of the present invention), and a bathroom water temperature sensor that detects the temperature of hot water in the hot water circuit 12. 43.

  The heating controller 40 is a control unit configured with a CPU, a memory, an interface circuit, and the like (not shown), and the bathroom heating device 2 is executed by the CPU executing a control program for the bathroom heating device 2 held in the memory. Serves to control the operation of

  The heating controller 40 receives a temperature detection signal from the bathroom temperature sensor 42, a temperature detection signal from the bathroom water temperature sensor 43, and an operation signal from the remote controller 34. The operation of the circulation fan 7, the variable louver 11, the thermal valve 13, and the bathroom damper 27 is controlled by a control signal output from the heating controller 40.

  When the start operation of bathroom heating is performed by the remote controller 34, the heating controller 40 opens the thermal valve 13 and transmits a signal requesting the supply of hot water to the heat source device 8, whereby the heat source device 8. Supply of hot water to the heat exchanger 9 is started, and the bathroom air intake 17 is closed by the bathroom damper 27 and the circulation fan 7 is operated to execute the bathroom heating operation.

  The heating controller 40 also sends a signal instructing ventilation operation to the ventilator 3 by opening the bathroom inlet 17 with the bathroom damper 27 when the remote controller 34 starts the bathroom ventilation. This corresponds to a ventilation request from the heating terminal of the invention), and the bathroom drying operation is executed by operating the ventilation device 3.

  The ventilation device 3 is configured by housing a ventilation fan 16 driven by a motor 15 and a ventilation controller 45 in a housing 14 adjacent to the housing 5 of the bathroom heating device 2. The housing 14 includes a bathroom air inlet 17 communicating with the bathroom BR via the bathroom heating device 2, a dressing room air inlet 18 communicating with the dressing room DR, and a bathroom air inlet 19 communicating with the toilet TR. An exhaust port 21 communicating with the outside via the duct 20 is formed.

  By the operation of the ventilation fan 16, air is sucked from the bathroom air inlet 17, the dressing room air inlet 18, and the toilet air inlet 19 and is discharged to the outside through the air outlet 21. A duct 22 (see FIG. 1) communicating with the dressing room DR is connected to the dressing room air inlet 18 via a pipe joint 23. Similarly, a duct 24 (see FIG. 1) communicating with the toilet TR is connected to the toilet inlet 19 via a pipe joint 25.

  The dressing room intake 18 is provided with a dressing room damper 29 driven by a stepping motor 28, and the dressing room damper 29 can open and close the dressing room intake 18 and adjust the opening. Yes. Similarly, a toilet damper 31 driven by a stepping motor 30 is provided at the toilet inlet 19, and the toilet damper 31 can be opened and closed and the opening thereof can be adjusted.

  The ventilation controller 45 is a control unit that includes a CPU, a memory, an interface circuit, and the like (not shown). The ventilation controller 45 operates the ventilation device 3 by executing a control program for the ventilation device 3 held in the memory by the CPU. It fulfills the function of controlling.

  An operation signal from the remote controller 34 and an operation signal from the toilet switch 35 are input to the ventilation controller 45. The operation of the ventilation fan 16, the dressing room damper 29, and the toilet damper 31 is controlled by a control signal output from the ventilation controller 45.

  The ventilation controller 45 receives a signal (corresponding to another ventilation request corresponding to another intake port of the present invention) for instructing ventilation of the dressing room DR from the remote controller 34, and the dressing room damper 29 uses the dressing room damper 29 for the dressing room. By opening the intake port 18 and operating the ventilation fan 16, the ventilation operation of the dressing room DR is executed.

  When the ventilation controller 45 receives a signal instructing ventilation of the toilet TR from the toilet switch 35 (corresponding to another ventilation request of the present invention), the ventilation controller 45 opens the toilet inlet 19 by the toilet damper 31, The ventilation operation of the toilet TR is executed by operating the ventilation fan 16.

  Furthermore, the ventilation controller 45 operates the ventilation fan 16 when receiving a signal (corresponding to a ventilation request from the heating terminal of the present invention) instructing ventilation of the bathroom BR from the heating controller 40. In this case, the heating controller 40 changes the ventilation amount of the bathroom BR by adjusting the opening of the bathroom inlet 17 by the bathroom damper 27.

  The heat source unit 8 includes a heat source controller 50 (corresponding to the heat source unit control unit of the present invention) that controls the operation of the heat source unit 8, and an ambient temperature sensor 51 (the present invention) that detects the ambient temperature (outside air temperature) of the heat source unit 8. And a heat source water temperature sensor 52 (corresponding to the heat source temperature detection unit of the present invention) for detecting the temperature of water in the hot water circulation path 12.

  When the heat source controller 50 receives a signal requesting the supply of hot water from the bathroom heater 2, the heating unit (not shown) (a heat exchanger provided in the middle of the hot water circulation path 12 (not shown) and this heat exchanger And a circulating pump is operated to supply hot water to the bathroom heating device 2 via the hot water circulation path 12.

  Further, the heat source controller 50 has a temperature detected by the ambient temperature sensor 51 equal to or lower than the freezing prevention outside air temperature (for example, 5 ° C.) and a temperature detected by the heat source water temperature sensor 52 equal to or lower than the anti-freezing heat source water temperature (for example, 20 ° C.). When it becomes, the process (freezing prevention driving | operation) which supplies warm water to the bathroom heating apparatus 2 via the warm water circulation path 12 is performed, and the water in the warm water circulation path 12 is prevented from freezing.

  It should be noted that whether or not to perform the process of supplying hot water to the bathroom heating device 2 via the hot water circulation path 12 is determined based on the detected temperature of one of the ambient temperature sensor 51 and the heat source water temperature sensor 52. Good.

  Next, a process for preventing water from freezing in the hot water circulation path 12 in the bathroom heating device 2 will be described with reference to FIG.

  The heating controller 40 determines whether or not the freeze prevention condition is satisfied in STEP1. As freezing prevention conditions, the detection temperature of the bathroom temperature sensor 42 is not higher than the freezing prevention room temperature (for example, 8 ° C.), and the detection temperature of the bathroom water temperature sensor 43 is not higher than the freezing prevention terminal temperature (for example, 15 ° C.). Is set.

  When the freeze prevention condition is established in STEP 1, the process proceeds to STEP 2 and the heating controller 40 opens the thermal valve 13. When the heat source valve 8 is opened, when the heat source device 8 starts the anti-freezing process, hot water is supplied to the bathroom heating device 2 via the hot water circulation path 12, whereby water in the hot water circulation path 12 is supplied. Freezing is prevented.

  In subsequent STEP 3, the heating controller 40 determines whether or not the temperature detected by the bathroom temperature sensor 42 is equal to or lower than −5 ° C. (corresponding to the anti-freezing temperature of the present invention). Then, when the temperature detected by the bathroom temperature sensor 42 is −5 ° C. or lower, the process proceeds to STEP 4, and the heating controller 40 closes the bathroom inlet 17 by the bathroom damper 27. Then, in the subsequent STEP 5, the heating controller 40 keeps the bathroom inlet 17 closed until the temperature detected by the bathroom temperature sensor 42 becomes −3 ° C. or higher.

  When the detected temperature of the bathroom temperature sensor 42 is higher than −3 ° C. in STEP 5, the process proceeds to STEP 6, and the heating controller 40 operates the bathroom damper 27 to open the bathroom inlet 17. As a result, the bathroom BR can be ventilated.

  In subsequent STEP 7, the heating controller 40 determines whether or not the freeze prevention condition is satisfied. If the anti-freezing condition is satisfied, the process returns to STEP 3, and if the anti-freezing condition is not satisfied, the process proceeds to STEP 8.

  In STEP8, the heating controller 40 closes the thermal valve 13 and proceeds to STEP9 to finish the process.

  In STEP 4, the heating controller 40 fully closes the bathroom inlet 17 (opening degree 0%). However, the heating controller 40 does not necessarily need to be fully closed, and the bathroom inlet 17 does not necessarily have water in the hot water circulation path 12. The effect of the present invention can be obtained by setting the opening to an extent that can prevent freezing (corresponding to the predetermined opening of the present invention).

  Further, in a highly airtight house such as an apartment house, the ventilation device 3 opens the bathroom air inlet 17, the dressing room air inlet 18, and the toilet air inlet 19 to activate the ventilation fan 16. Regular ventilation to maintain (24-hour ventilation) is performed, but in this case as well, the process according to the flowchart shown in FIG. 3 is performed, and the bathroom inlet 17 is closed with priority on prevention of freezing. Is preferred.

[Other Embodiments]
The bathroom heating device 2 is provided with an air volume sensor 44 that detects the flow rate of air sucked from the bathroom air inlet 17. In STEP 3 of FIG. 3, as a condition for determining whether or not the bathroom air inlet 17 is closed. Alternatively, the detection temperature of the bathroom temperature sensor 42 may be −5 ° C. or lower, and the detection air volume of the air volume sensor 44 may be a predetermined air volume or more. According to this condition, the air intake from the bathroom BR by the ventilation device 3 is large, and the intake air for the bathroom is limited to the case where the possibility of water freezing in the hot water circulation path 12 in the bathroom heating device 2 is high. The mouth 17 can be closed.

  Further, in STEP 3 and STEP 5 of FIG. 3, the bathroom air inlet 17 is opened / closed according to the temperature detected by the bathroom temperature sensor 42, but the bathroom air inlet is opened / closed according to the temperature detected by the bathroom water temperature sensor 43. Also good. In this case, the bathroom water temperature sensor 43 corresponds to the terminal temperature detection unit of the present invention.

  DESCRIPTION OF SYMBOLS 1 ... Air conditioning system, 2 ... Bathroom heating device (heating terminal), 3 ... Ventilation device, 8 ... Heat source machine, 12 ... Hot water circuit, 13 ... Thermal valve, 16 ... Ventilation fan, 27 ... Bathroom damper, 34 ... Remote control 40 ... Heating controller, 42 ... Bathroom temperature sensor (first temperature detection unit), 43 ... Bathroom water temperature sensor, 44 ... Air flow sensor, 45 ... Ventilation controller, 50 ... Heat source controller, 51 ... Ambient temperature sensor (second temperature) Detection unit), 52... Heat source water temperature sensor.

Claims (2)

A heating terminal with a ventilation function connected to a hot water circulation path to which hot water is supplied from a heat source unit, and an intake port of the heating terminal and other intake and exhaust ports, and an intake port of the heating terminal or the An air-conditioning system comprising a ventilator that draws air from another inlet and exhausts it from the outlet,
The ventilator operates in response to a ventilation request from the heating terminal, or another ventilation request corresponding to the other inlet,
The heating terminal includes a terminal temperature detection unit that detects the temperature of the room in which the heating terminal is provided or the temperature of water in the hot water circulation path in the heating terminal, and a damper that opens and closes the intake port of the heating terminal. Heating operation using hot water supplied from the heat source machine as a heat source, and operating the ventilator with the damper opening the intake port of the heating terminal, so that the indoor air in which the heating terminal is installed Is ventilated through the air intake of the heating terminal and discharged from the exhaust, and when the temperature detected by the terminal temperature detection unit is equal to or lower than the freezing prevention temperature, the damper causes the air intake of the heating terminal to An air conditioning system comprising: a heating terminal control unit that sets the opening to a predetermined opening or less. The air conditioning system according to claim 1,
The heating terminal includes an air volume sensor that detects a flow rate of air sucked into the ventilator through an intake port of the heating terminal,
The heating terminal control unit is configured such that when the detected temperature of the terminal temperature detection unit is equal to or lower than the anti-freezing temperature and the detected air volume of the air volume sensor is equal to or less than a predetermined air volume, the damper controls the air intake port of the heating terminal. An air conditioning system characterized in that an opening is made equal to or less than the predetermined opening.