JP3561584B2 - Control method of floor heating device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention includes a plurality of floor heat exchangers provided in parallel, and a heat source unit for supplying heating water to these floor heat exchangers, and the heat source unit supplies a relatively low temperature for supplying heating water at a relatively low temperature. Control method of floor heating device operated by switching between heating mode (for example, a mode for supplying 60 ° C. heating water) and high-temperature heating mode for supplying high-temperature heating water (for example, mode for supplying 80 ° C. heating water) It is about.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, as this type of floor heating device, for example, one having a structure shown in FIG. 2 is known.
In this figure, a floor heating device denoted by reference numeral 1 includes a floor heat exchanger 2 (2a to 2c) such as a hot water mat installed in each of a plurality of rooms A to C, and a floor heat exchanger 2 (2a to 2c). 2c), and a heat source unit 3 for heating the heating water supplied to each of them.
[0003]
The indoors A to C are provided corresponding to the floor heat exchangers 2 (2a to 2c), detect indoor temperatures, and operate the floor heat exchangers 2 (2a to 2c). Is provided.
[0004]
Further, the heat source unit 3 is provided with a heater 6 provided with a gas burner 5, and a hot water supply for feeding heated heating water to the floor heat exchanger 2 at a tapping portion of the heater 6. A pipe 7 is connected, and a distribution header 8 for distributing and supplying heating water to each floor heat exchanger 2 (2a to 2c) is provided at a downstream end of the hot water supply pipe 7. The distribution header 8 is provided with a thermal valve 9 for supplying and stopping the heating water to each of the floor heat exchangers 2 (2a to 2c).
[0005]
Further, the heater 6 is connected to a heating water return pipe 10 for returning the heating water that has completed the heat exchange in the floor heat exchangers 2 (2A to 2c). An aggregate header 11 to which the floor heat exchangers 2 (2a to 2c) are connected is provided at the upstream end.
[0006]
In the middle of the heating water return pipe 10, an expansion tank 12 for absorbing a volume change due to a temperature change of the heating water circulated in the floor heating apparatus 1 and separating gas mixed therein. A circulation pump 13 for circulating the heating water is provided, and a low-temperature water temperature sensor 14 for detecting the temperature of the heating water returned to the heater 6 is provided in the middle of the heating water return pipe 10. Have been.
[0007]
The expansion tank 12 is connected to a pair of water level sensors 15 and an overflow pipe 16 for discharging excess heating water to the outside of the machine, and based on a detection signal from the water level sensor 15, A water supply pipe 17 for replenishing water is connected.
[0008]
On the other hand, in the vicinity of the heater 6 of the hot water supply pipe 7, a high temperature water temperature sensor 18 for detecting a temperature of the heating water sent out from the heater 6 is provided.
[0009]
The one designated by reference numeral 19 is disposed in the heat source unit 3 to control the heating capacity of the heater 6 based on a signal from each controller 4, and to control each heating valve 9. And the amount of heat supplied to each floor heat exchanger 2 (2a to 2c) is adjusted.
[0010]
The action of the heating operation of the floor heating apparatus 1 configured as described above will be described with reference to the flowchart shown in FIG. 3. First, when the heating operation is started, any one of the floor heat exchangers 2 of the floor heat exchanger 2 is heated. The operation of the exchanger 2a is started (step S1), and a timer for measuring an elapsed time from the start of the heating operation is set (step S2).
[0011]
Then, the process proceeds to step S3, where it is determined whether or not the high-temperature heating mode is selected by the controller 4a provided corresponding to the floor heat exchanger 2a in the operating state. Is selected on the condition that is selected, and it is determined whether or not the next heat exchanger 2b is in the operating state. If the low-temperature heating mode is selected, it will be described later. In step S10, the heat source unit 3 is set to the low-temperature heating mode, and thereafter, the heat source unit 3 is set to the low-temperature heating mode regardless of the heating modes set in the other floor heat exchangers 2b and 2c. Mode.
[0012]
If it is determined in step S4 that the next floor heat exchanger 2b is in the operating state, the process proceeds to the next step S5, where the controller 4b provided for the floor heat exchanger 2b is provided. It is determined whether or not the high-temperature heating mode has been selected, and the process proceeds to the next step S6 on condition that the high-temperature heating mode has been selected. If the low-temperature heating mode has been selected, the above-described step is performed. The process proceeds to S10 and subsequent steps, where the heat source unit 3 is maintained in the low-temperature heating mode, and when the floor heat exchanger 2b is in the operation stop state in the step S4, the process directly proceeds to step S6.
[0013]
In step S6, it is determined whether or not the remaining floor heat exchanger 2c is in the operating state. If it is determined that the floor heat exchanger 2c is in the operating state, the following is performed. The process proceeds to step S7, where it is determined in the controller 4c provided corresponding to the floor heat exchanger 2c whether or not the high-temperature heating mode is selected, and on the condition that the high-temperature heating mode is selected. The process proceeds to the next step S8, and after the heat source unit 3 is set to the high-temperature heating mode, the process proceeds to the next step S9, and the operation of the floor heat exchanger 2c is stopped in the step S6. If it is determined, the process directly proceeds to step S8, and the heat source unit 3 is set to the high-temperature heating mode.
[0014]
On the other hand, when it is determined in step S7 that the low-temperature heating mode has been selected for the floor heat exchanger 2c, the process proceeds to step S10 and the subsequent steps, and the heat source device 3 is switched to the low-temperature heating mode. Is held.
[0015]
After the process proceeds to step S8 and the heat source unit 3 is set to the high-temperature heating mode, the elapsed time elapses, for example, 60 minutes based on the elapsed time from the start of the heating operation measured in the next step S9. If 60 minutes have elapsed, the process proceeds to the next step S10, in which the heat source unit 3 is switched to the low-temperature heating mode. Shifts to the processing after step S3.
[0016]
As described above, in the conventional floor heating device 1, when at least one of the plurality of floor heat exchangers 2 is set to the low-temperature heating mode, the other floor heat exchangers 2 are set to the high-temperature heating mode. Even if so, the heat source unit 3 is kept in the low-temperature heating mode, and this state is released only when the operation of the whole-bed heat exchanger 2 is stopped.
[0017]
Such operation control prevents high-temperature heating water from being supplied to the floor heat exchanger 2 in the stable heating state, and prevents overheating of the floor heat exchanger 2 in the stable heating state. This is the action taken to
[0018]
In the process of step S10, the high-temperature heating mode is forcibly shifted to the low-temperature heating mode 60 minutes after the start of the heating operation. The heating state is reached, but a rise in the indoor temperature cannot be detected due to a failure of a device such as a temperature sensor or the like, and high-temperature heating water is continuously supplied even though a sufficient temperature rise is obtained. This is to prevent the floor heat exchanger 2 from being overheated.
[0019]
[Problems to be solved by the invention]
By the way, according to the conventional operation control as described above, once the heat source unit 3 is set to the low-temperature heating mode, the operation of the floor heat exchanger 2 in which the low-temperature heating mode is set in the stable heating state is stopped. Also, even in a case where the high-temperature heating mode is set in another floor heat exchanger 2, the operation mode of the heat source unit 3 is maintained in the low-temperature heating mode, Switching to is not performed.
[0020]
Even in such a situation, even if high-temperature heating water is circulated in the circulation system, the operation of the floor heat exchanger 2 set in the low-temperature heating mode is stopped. Although the high-temperature heating water is not supplied to the heater 2 and the overheating state is not established, the low-temperature heating water is supplied to the floor heat exchanger 2 set in the high-temperature heating mode.
[0021]
As a result, even if high-temperature heating water is supplied, even in a state where no trouble occurs in the apparatus, high-temperature heating water is not supplied to the floor heat exchanger 2 set in the high-temperature heating mode, and therefore, There is a problem that the rise of heating in the floor heat exchanger 2 is delayed.
[0022]
The present invention has been made in view of such a conventional problem, and in a state in which high-temperature heating water can be supplied, by returning the heat source unit operation state to the high-temperature heating mode, the floor heat exchanger is provided. It is an object of the present invention to provide a control method of a floor heating device that can speed up the rise of heating as a whole while preventing overheating.
[0023]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, a control method of a floor heating device according to claim 1 of the present invention includes a plurality of floor heat exchangers provided in parallel, and heating water supplied to these floor heat exchangers. And a heat source unit for supplying a relatively low-temperature heating water, and a high-temperature heating mode for supplying a high-temperature heating water. After the heat source unit is once shifted to the low-temperature heating mode, when a high-temperature heating mode request is made in some of the plurality of floor heat exchangers, the high-temperature heating is performed in all of the other floor heat exchangers. The heat source device is returned to the high-temperature heating mode on condition that a heating mode request is made.
[0024]
In addition, a control method of a floor heating device according to claim 2 of the present invention includes a plurality of floor heat exchangers provided in parallel, and a heat source unit that supplies heating water to the floor heat exchangers. A method of controlling a floor heating device in which the heat source device is operated to switch between a low-temperature heating mode for supplying relatively low-temperature heating water and a high-temperature heating mode for supplying high-temperature heating water, wherein the heat source device is once operated. After a transition to the low-temperature heating mode, when a high-temperature heating mode request is made in some of the plurality of floor heat exchangers, the circulation of the heating water in all other floor heat exchangers is stopped. The condition is that the heat source device is returned to the high-temperature heating mode.
[0025]
Further, in the control method of the floor heating device according to claim 3 of the present invention, in claim 1 or claim 2, after a predetermined time has elapsed after the operation of the floor heating device has been started, the high temperature heating mode is set. The feature is to prevent migration.
[0026]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the flowchart shown in FIG.
Since the heating device to which the control method according to the present embodiment is applied is the same as the conventional heating device, the description of the device in the following description will be given with reference to FIG.
[0027]
The control method of the floor heating device 1 according to the present embodiment includes a plurality of floor heat exchangers 2 (2a to 2c) provided in parallel, and heating water for the floor heat exchangers 2 (2a to 2c). The control of the floor heating device 1 which comprises a heat source unit 3 for supplying, and the heat source unit 3 is operated to switch between a low-temperature heating mode for supplying relatively low-temperature heating water and a high-temperature heating mode for supplying high-temperature heating water. A method wherein, after the heat source unit 3 is once shifted to the low-temperature heating mode, when a high-temperature heating mode request is made in some of the plurality of floor heat exchangers 2 (2a to 2c), The high-temperature heating mode request is made in all the other floor heat exchangers 2 (2a to 2c), and the operation of all the other floor heat exchangers 2 (2a to 2c) is stopped. Under the condition, the heat source unit 3 is set to the high-temperature heating mode. It is obtained so as to brought back.
[0028]
Further, the control method of the present embodiment will be described in detail with reference to the flowchart of FIG.
This control method includes steps S11 to S18 which are performed subsequently to steps S3, S5, and S7 in the control flow relating to the conventional control method shown in FIG. 3 when it is determined that the low-temperature heating mode is set. When the controller 4a-4b determines that the low-temperature heating mode has been set in step S3, step S5, and step S7, the process proceeds to step S11, and the heat source device 3 Once set to low temperature heating mode.
[0029]
Then, it is determined in step S12 whether or not the elapsed time of the heating operation time has elapsed 60 minutes. If 60 minutes have elapsed, the process proceeds to step S10 and the subsequent steps, and the heat source device 3 The low temperature heating mode is maintained.
[0030]
If the duration of the heating operation is within 60 minutes, the process proceeds to the next step S13, where it is determined whether or not the floor heat exchanger 2a is in the operating state. The process proceeds to the next step S14 as a condition, and it is determined whether or not the high-temperature heating mode is set in the floor heat exchanger 2a. If the high-temperature heating mode is set in this step S14, the next step S15 is performed. If it is determined in step S13 that the operation of the floor heat exchanger 2a has been stopped, the process directly proceeds to step S15.
[0031]
If the low-temperature heating mode has been set in step S24, the process proceeds to step S11 and subsequent steps.
[0032]
In the step S15, it is determined whether or not the next floor heat exchanger 2b is in the operating state, and the process proceeds to the next step S16 on condition that the next floor heat exchanger 2b is in the operating state. It is determined whether or not the high-temperature heating mode is set. If the high-temperature heating mode is set, the process proceeds to the next step S17, and the operation of the floor heat exchanger 2b is stopped in the step S15. If it is determined that there is, the process directly proceeds to step S17.
[0033]
On the other hand, if it is determined in step S16 that the low-temperature heating mode has been set, the process proceeds to step S11 and subsequent steps.
[0034]
Further, in the step S17, it is determined whether or not the remaining floor heat exchanger 2c is in the operating state. If the remaining state is in the operating state, the process proceeds to the next step S18, where It is determined whether or not the high-temperature heating mode is set in the exchanger 2c. If the high-temperature heating mode is set, the process proceeds to step S8 of the conventional processing flow, where the heat source device 3 After the mode is shifted to the heating mode, the processing of step S9 and subsequent steps for cedar is continuously performed.
[0035]
With such control, immediately after the heating operation, if the operating state of each of the floor heat exchangers 2 (2a to 2c) does not match the condition for supplying the high-temperature heating water, the heat source unit 3 is temporarily set to the low-temperature state. By setting the heating mode, the supply of high-temperature heating water to each of the floor heat exchangers 2 (2a to 2c) is stopped, and overheating is prevented.
[0036]
If the continuation time of the heating operation is within 60 minutes, the operation state of each of the floor heat exchangers 2 (2a to 2c) is checked by the processing of steps S12 to S18, and the mutual operation state is checked. However, in the present embodiment, when the high-temperature heating water supply condition is met, in the present embodiment, the high-temperature heating mode is set in all the floor heat exchangers 2 (2a to 2c), When the high-temperature heating mode is set in the exchanger 2 and the operation of the other heat exchangers is stopped, the process shifts to step S8, and shifts to the high-temperature heating mode.
[0037]
Therefore, in the present embodiment, when high-temperature heating water is supplied, if there is a possibility that even one of the plurality of floor heat exchangers 2 (2a to 2c) may be in an overheated state, the heat source device 3 The transition to or holding in the low-temperature heating mode prevents the supply of the high-temperature heating water, thereby preventing the floor heat exchanger 2 (2a to 2c) from overheating.
[0038]
Further, within a predetermined time, the operating state of each of the floor heat exchangers 2 (2a to 2c) changes, and the mutual operating state of the floor heat exchangers 2 (2a to 2c) is changed even if high-temperature heating water is supplied. At the point in time when the relationship is such that overheating does not occur, the heat source unit 3 is shifted to the high-temperature heating mode, high-temperature heating water is sent to the heating water circulation system, and the floor in which the high-temperature heating mode is set. The high-temperature heating water is supplied to the heat exchanger 2, and the heating operation is quickly started.
[0039]
Furthermore, in the present embodiment, in step S10 and step S12, after a predetermined time (60 minutes in this example) has elapsed since the heating operation was started, the operation state is maintained in the low-temperature heating mode, or It is immediately shifted to the low-temperature heating mode.
[0040]
This prevents the high-temperature heating water from being excessively supplied due to a malfunction of the device or the like, and further enhances the overheating prevention effect.
[0041]
The above embodiment is merely an example, and various changes can be made based on design requirements and the like.
For example, in the above embodiment, the condition for returning to the high-temperature heating mode is that the high-temperature heating mode is set in all the floor heat exchangers 2 (2a to 2c), or that some floor heat exchangers 2 In the above, an example is shown in which the high-temperature heating mode is set and the operation of all other floor heat exchangers 2 is stopped, but it is also possible to set only one of these conditions. is there.
[0042]
The stopped state of the operation of the floor heat exchanger 2 as a condition for returning to the high-temperature heating mode indicates a state in which the use of the floor heat exchanger 2 has been completely terminated. However, it is also possible to set a state in which hot water supply to the floor heat exchanger 2 is stopped for keeping the temperature warm as a condition for returning to the high-temperature heating mode.
[0043]
【The invention's effect】
As described above, in the control method of the floor heating device according to claim 1 of the present invention, the operation mode of the heat source device is set to the high-temperature heating mode for supplying high-temperature heating water to a plurality of floor heat exchanges connected in parallel. And, in the floor heating device that performs floor heating by switching to a low-temperature heating mode for supplying low-temperature heating water, after the heat source device is once shifted to the low-temperature heating mode, the plurality of floor heat exchangers When a high-temperature heating mode request is made in some of them, the heat source unit is returned to the high-temperature heating mode on condition that the high-temperature heating mode request is made in all the other floor heat exchangers. As a result, the heat source units that have once shifted to the low-temperature heating mode are returned to the high-temperature heating mode, and high-temperature heating water is supplied to the entire floor heat exchanger. It is possible to accelerate the.
[0044]
In addition, since the high-temperature heating water is supplied in a state where the whole-bed heat exchanger is set to the high-temperature heating mode, overheating does not occur in these.
[0045]
Further, in the floor heating device control method according to claim 2 of the present invention, the operation mode of the heat source unit includes a high-temperature heating mode for supplying high-temperature heating water to a plurality of floor heat exchanges connected in parallel, and a low-temperature heating mode. In a floor heating device configured to perform floor heating by switching to a low-temperature heating mode for supplying heating water, after the heat source device is temporarily shifted to the low-temperature heating mode, the number of the plurality of floor heat exchangers is changed. When the high-temperature heating mode request is made in the above, on the condition that the circulation of the heating water in all other floor heat exchangers is stopped, the heat source unit was returned to the high-temperature heating mode, The high-temperature heating water can be supplied to the floor heat exchanger requiring the high-temperature heating mode without being sent to the sufficiently heated floor heat exchanger.
[0046]
Therefore, while preventing the supply of high-temperature heating water to the floor heat exchanger that does not require heating and preventing its overheating, the high-temperature heating water is supplied to the floor heat exchanger that requires heating. The rise of heating can be made quick.
[0047]
Furthermore, in the floor heating apparatus control method according to claim 3 of the present invention, in claim 1 or claim 2, after a predetermined time has elapsed after the operation of the floor heating apparatus has been started, a transition to the high-temperature heating mode is performed. Therefore, it is possible to prevent the high-temperature heating water from being supplied excessively due to a malfunction of the device or the like, and to further improve the overheating prevention effect.
[Brief description of the drawings]
FIG. 1 is a control flowchart for explaining a control method of a floor heating device according to an embodiment of the present invention.
FIG. 2 is a system configuration diagram showing one structural example of a floor heating device.
FIG. 3 is a control flowchart for explaining a conventional method of controlling a floor heating device.
[Explanation of symbols]
1 floor heating device 2 floor heat exchanger 3 heat source unit 4 controller

Claims (3)

A plurality of floor heat exchangers provided in parallel, and a heat source device for supplying heating water to these floor heat exchangers, and a low-temperature heating mode in which the heat source device supplies heating water at a relatively low temperature, A method for controlling a floor heating device that is operated to be switched to a high-temperature heating mode for supplying high-temperature heating water, the method comprising: When a high-temperature heating mode request is made in some of the above, the heat source unit is returned to the high-temperature heating mode on condition that the high-temperature heating mode request is made in all other floor heat exchangers. Floor heating system control method. A plurality of floor heat exchangers provided in parallel, and a heat source device for supplying heating water to these floor heat exchangers, and a low-temperature heating mode in which the heat source device supplies heating water at a relatively low temperature, A method for controlling a floor heating device that is operated to be switched to a high-temperature heating mode for supplying high-temperature heating water, the method comprising: When a high-temperature heating mode request is made in some of the above, the heat source unit is returned to the high-temperature heating mode on condition that circulation of the heating water in all other floor heat exchangers is stopped. Floor heating device control method. The control method for a floor heating device according to claim 1 or 2, wherein a transition to a high-temperature heating mode is prevented after a predetermined time has elapsed since the operation of the floor heating device was started.

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