JP3894885B2 - Heat medium supply equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention includes a heating medium supply operation for supplying a heating medium to a terminal through a heating medium circulation path in a heating state in which the heating medium is heated by a heating medium heating means, and a heating medium that is not heated by the heating medium heating means. A heat medium supply facility provided with a heat source device capable of performing an air bleeding operation for supplying a heat medium to the terminal through the heat medium circulation path in a heated state, and a control means for controlling the operation of the heat source device About.
[0002]
[Prior art]
In the heat medium supply equipment as described above, when the control means performs the heat medium supply operation in response to an operation request from a remote controller or the like, the heat medium heated by the heat medium heating means is used as a floor heating device or a bathroom heating / drying device. When the air is supplied to the terminal and the control means performs the air venting operation, the air that has entered the heat medium circulation path is returned to the expansion tank that is open to the atmosphere provided in the heat source device together with the heat medium, and the heat medium circulation path It is designed to remove the air that has entered inside.
[0003]
To explain the cause of the air venting operation, for example, when the heat source machine is installed on the first floor and the terminal is installed on the third floor, and the terminal is installed at a position higher than the installation position of the heat source machine, the heat medium supply When not in operation, the terminal installation position is higher than the heat source machine installation position, so the heat medium circulation path from the terminal to the heat source machine is in a negative pressure state, depending on the negative pressure state. Air enters the heat medium circulation path. And as the elapsed time of the non-operating state becomes longer, the amount of air entering the heating medium circulation path also increases, so if the air that has entered the heating medium circulation path is left as it is, the heating medium will be Insufficient circulation occurs, or the amount of heat medium stored in the open air expansion tank provided in the heat source increases by the amount of air that has entered the heat medium circulation path. An overflowing heat medium leak will occur.
From the above, the control means performs an air venting operation to remove air that has entered the heat medium circulation path, thereby preventing the occurrence of poor circulation and heat medium leakage.
[0004]
In a conventional heat medium supply facility, the heat source device is configured to be able to execute a heat medium supply operation and an air bleeding operation for a plurality of terminals, and the control means is in an operation state in which the heat medium supply operation is performed. Regardless of whether or not the heating medium supply operation is not performed, every time the elapsed time reaches a set time (for example, 720 hours), the air bleeding operation is performed for all terminals. (For example, refer to Patent Document 1).
[0005]
[Patent Document 1]
JP 2002-162051 A
[0006]
[Problems to be solved by the invention]
In the heat medium supply facility as described above, the control means performs the heat medium supply operation so that the heat medium is circulated in the heat medium circulation path, so even if air enters the heat medium circulation path, The air is returned together with the heat medium to the expansion tank that is open to the atmosphere provided in the heat source device, and the air that has entered the medium circulation path can be removed.
Therefore, when not much time has passed since the heat medium supply operation has been performed, almost no air has entered the heat medium circulation path, and in order to prevent the occurrence of poor circulation and heat medium leakage, the air is still vented. It is not necessary to drive.
[0007]
However, in the above-described conventional heat medium supply equipment, the control means performs the heat medium supply operation when the elapsed time reaches the set time regardless of whether the control means is in the operating state or the non-operating state. Even if the time has not passed, the air venting operation will be performed.Therefore, almost no air has entered the heat medium circulation path, and the air is still in order to prevent poor circulation and heat medium leakage. The air venting operation is also performed when it is not necessary to perform the venting operation.
Therefore, even when it is not necessary to perform the air bleeding operation yet, noise and running costs due to the air bleeding operation are generated, which makes the user uncomfortable.
[0008]
In addition, in the above-described conventional heat medium supply facility, when the elapsed time to be measured reaches the set time regardless of whether the control means is in the operating state or the non-operating state, the air is removed from all terminals. Since the operation is to be performed, the heating medium supply operation is performed for at least one terminal until just before the elapsed time reaches the set time regardless of whether it is in an operating state or a non-operating state. The heating medium will be supplied to all the terminals even when the terminal is on.
Therefore, since the time from the end of the heat medium supply operation to the air vent operation is short, the high temperature heat medium heated by the heat medium heating means by the execution of the heat medium supply operation is not cooled, The heat medium is supplied to all terminals, and the high-temperature heat medium is also supplied to the terminals for which the user does not request the heat medium supply operation.
[0009]
For example, if a floor heating device is included in a terminal for which the user does not request a heating medium supply operation, the user intends that a high-temperature heating medium will be supplied to the floor heating device. This means that the floor is heated in a part that is not, and this also makes the user uncomfortable.
[0010]
This invention is made paying attention to this point, and the objective is to provide the heat-medium supply equipment which can improve a user's comfort.
[0011]
[Means for Solving the Problems]
  In order to achieve this object, according to the invention described in claim 1, the heating medium supply operation for supplying the heating medium to the terminal through the heating medium circulation path in a heating state in which the heating medium is heated by the heating medium heating means. And a heat source device capable of performing an air vent operation for supplying the heat medium to the terminal through the heat medium circulation path in a non-heated state in which the heat medium is not heated by the heat medium heating means, and an operation of the heat source device In the heat medium supply equipment provided with a control means for controlling
  The control means is configured to perform the air bleeding operation when an elapsed time of a non-operating state in which the heating medium supply operation is not performed reaches a set time.,
The heat source unit is configured to be able to execute the heat medium supply operation and the air bleeding operation for a plurality of terminals,
The control means is configured to perform the air bleeding operation on a terminal of which the elapsed time of the non-operating state has reached a set time among the plurality of terminals.ing.
[0012]
That is, when the elapsed time in the non-operating state reaches the set time, the control means performs the air bleeding operation, so the elapsed time in the non-operating state prevents the occurrence of poor circulation and heat medium leakage. In addition, when it is time to perform the air bleeding operation, the air bleeding operation can be performed.
In other words, the control means has a short non-operating time since the heat medium supply operation has been performed, almost no air has entered the heat medium circulation path, and it is not necessary to perform the air vent operation yet. Sometimes, without the air venting operation, the elapsed time in the non-operating state is lengthened, the amount of air entering the medium circulation path is increased, and the air venting operation before the occurrence of poor circulation or heat medium leakage is performed When it should be, the air bleeding operation can be performed.
[0013]
Therefore, the control means can perform the air bleeding operation when the air bleeding operation should be performed, and can prevent the execution of the air bleeding operation when it is not necessary to perform the air bleeding operation. When it is not necessary to perform the operation, it is possible to prevent generation of noise, running cost, and the like due to the air bleeding operation.
[0014]
From the above, when it is not necessary to perform the air bleeding operation yet, it is possible to prevent noise and running costs from being generated by performing the air bleeding operation and to prevent the user from feeling uncomfortable. As a result, it has become possible to provide a heat medium supply facility that can improve the comfort of the user.
[0015]
  Also,Claim1According to the invention described in the above, the heat source unit is configured to be capable of executing the heat medium supply operation and the air bleeding operation with respect to a plurality of terminals, and the control means includes the plurality of terminals out of the plurality of terminals. The terminal is configured to perform the air bleeding operation on a terminal whose elapsed time in the non-operating state has reached a set time.
[0016]
That is, the control means performs the heating medium supply operation for each of the plurality of terminals, and performs the air bleeding operation for the terminals whose elapsed time in the non-operating state has reached the set time among the plurality of terminals. Therefore, the control means manages the non-driving state elapsed time for each of the plurality of terminals among the plurality of terminals, and for the terminal whose non-driving state elapsed time has reached the set time. The air bleeding operation can be performed.
[0017]
Among the plurality of terminals, there are terminals where the heating medium supply operation is periodically performed and terminals where the heating medium supply operation is hardly performed, so the elapsed time of the non-operation state among the plurality of terminals. The control means performs the air bleeding operation for each of the plurality of terminals according to the difference in the elapsed time of the non-operating state that has occurred among the plurality of terminals.
Therefore, since the timing of performing the air bleeding operation differs for a plurality of terminals, the number of terminals performing the air bleeding operation at the same time can be reduced, and each of the plurality of terminals is in the heat medium circulation path. Incoming air can be extracted accurately.
[0018]
In addition, when there are a large number of terminals that perform air bleeding operation simultaneously, such as when performing air bleeding operation for all of a plurality of terminals, the capacity of the circulation pump provided in the heat source device is constant. For this reason, the flow rate of the heat medium supplied to each terminal is lower than when a small number of terminals simultaneously perform the air bleeding operation.
Accordingly, when there are a large number of terminals that perform the air venting operation at the same time, the flow rate of the heat medium flowing in the heat medium circulation path becomes slow, so that the air that has entered the heat medium circulation path can be The open expansion tank cannot be accurately returned, and the air that has entered the heating medium circulation path cannot be accurately removed.
On the other hand, when the number of terminals that perform the air venting operation at the same time is small, the flow rate of the heat medium flowing in the heat medium circulation path is also high, and the air that has entered the heat medium circulation path is provided in the air The open expansion tank can be accurately returned, and the air that has entered the heat medium circulation path can be accurately extracted.
From the above, by reducing the number of terminals that simultaneously perform the air bleeding operation, the air that has entered the heat medium circulation path can be accurately extracted from each of the plurality of terminals.
[0019]
  Claim2According to the invention described in claim1When the elapsed time of the non-operating state reaches a set time, the control means releases the air under a condition that a heat medium supply temperature supplied from the heat source unit to the terminal is equal to or lower than a set temperature. It is configured to drive.
[0020]
That is, when the elapsed time of the non-operating state reaches the set time, the control means does not perform the air bleeding operation unless the heat medium supply temperature is lower than the set temperature, and the heat medium supply temperature is lower than the set temperature. Since the air venting operation is performed, the heat medium supplied to the terminal can be set to the set temperature or lower by performing the air venting operation.
Therefore, by performing the air venting operation, it is possible to prevent the user from feeling uncomfortable by preventing the high temperature heat medium from being supplied to the terminal for which the user does not require the heat medium supply operation. The comfort of the person can be further improved.
[0021]
  For example, claims1In the above, the control means performs the air bleeding operation for the terminal whose elapsed time in the non-operating state has reached the set time among the plurality of terminals, so that the heat medium supply to the heat medium supply operation target terminal Immediately after performing the operation, when the elapsed time in the non-operating state reaches the set time at the terminal not subject to the heat medium supply operation, the air vent operation is performed for the terminal outside the heat medium supply operation target. Become.
  In this case, since the time from the end of the heat medium supply operation to the air vent operation is short, the high temperature heat medium heated by the heat medium heating means is cooled by performing the heat medium supply operation. In such a state, the heating medium is supplied to a terminal outside the heating medium supply operation target, and the high temperature heating medium is not supplied to the terminal outside the heating medium supply operation target for which the user does not request the heating medium supply operation. Will be supplied.
[0022]
On the other hand, in the terminal that is not subject to the heat medium supply operation, the control means performs the air bleeding operation under the condition that the heat medium supply temperature is equal to or lower than the set temperature when the elapsed time of the non-operation state reaches the set time Therefore, even in the case described above, by performing the air venting operation, the temperature of the heat medium supplied to the terminal not subject to the heat medium supply operation becomes lower than the set temperature, and the user requests the heat medium supply operation. It is possible to prevent a high-temperature heat medium from being supplied to terminals that are not subject to the heat medium supply operation.
[0023]
  Claim3According to the invention, the heat medium supplying operation for supplying the heat medium to the terminal through the heat medium circulation path in the heating state in which the heat medium is heated by the heat medium heating means, and the heat medium heating means by the heat medium heating means. There is provided a heat source device capable of performing an air venting operation for supplying the heat medium to the terminal through the heat medium circulation path in a non-heated state without heating, and a control means for controlling the operation of the heat source device. In the heat medium supply equipment,
  The control means performs the air bleeding operation under a condition that a heat medium supply temperature supplied from the heat source unit to the terminal is equal to or lower than a preset temperature when the air bleeding timing for performing the air bleeding operation is reached. It is configured.
[0024]
That is, the control means does not perform the air bleeding operation and the heat medium supply temperature is equal to or lower than the set temperature if the heat medium supply temperature is not lower than the set temperature when the air bleeding timing for executing the air bleeding operation is reached. Since the air venting operation is performed, the heat medium supplied to the terminal can be set to the set temperature or lower by performing the air venting operation.
Therefore, even if it is time to release air, the heat medium supplied to the terminal becomes lower than the preset temperature by performing the air removal operation. Since the supply of the heat medium can be prevented, a heat medium supply facility capable of improving the user's comfort can be provided.
[0025]
By the way, in the case where a plurality of terminals are provided and the control means is configured to perform the air bleeding operation on a plurality of terminals at the same time, the heat medium supply operation is performed on the terminal that is the heat medium supply operation target. Even if it is just after performing, the temperature of the heat medium supplied to the terminal outside the heat medium supply operation target is equal to or lower than the set temperature, and the terminal outside the heat medium supply operation target for which the user does not request the heat medium supply operation. In addition, since it is possible to prevent the supply of a high-temperature heat medium, the comfort of the user can be improved especially when there are a plurality of terminals.
[0026]
  Claim4According to the invention described in the above, the air bleeding timing is timed regardless of whether the heating medium supply operation is performed or the non-operating state where the heating medium supply operation is not performed. The elapsed time is set to the timing when the set time is reached.
[0027]
That is, when the control means is in the operating state in which the heating medium supply operation is performed or in the non-operating state in which the heating medium supply operation is not performed, the elapsed time to be measured reaches the set time. Since it is determined that the air bleeding timing has been reached, it is possible to determine whether or not the air bleeding timing has been reached based on simple timing.
Therefore, it is possible to determine whether or not it is the air bleeding timing with an easy configuration, and it is possible to simplify the configuration.
[0028]
  Claim5According to the invention described above, the air bleeding timing is set to a timing at which the elapsed time in the non-operating state in which the heating medium supply operation is not performed reaches a set time.
[0029]
That is, when the elapsed time of the non-operating state in which the heating medium supply operation is not performed reaches the set time, the control unit determines that the air bleeding timing has been reached. In the timing when the non-operating state has elapsed since the start of the operation, the air hardly enters the heat medium circulation path, and the air bleeding operation does not have to be performed yet, it is not determined as the air bleeding timing. The time that the elapsed time of the operating state becomes longer, the amount of air that has entered the medium circulation path increases, and the timing for performing the air bleeding operation before the occurrence of poor circulation or heat medium leakage is determined as the air bleeding timing. It will be.
Therefore, the control means can accurately determine the timing at which the air bleeding operation should be performed as the air bleeding timing, and can perform the air bleeding operation at an appropriate timing, further enhancing the comfort of the user. It can be improved.
[0030]
  Claim6According to the invention, the heat medium supplying operation for supplying the heat medium to the terminal through the heat medium circulation path in the heating state in which the heat medium is heated by the heat medium heating means, and the heat medium heating means by the heat medium heating means. There is provided a heat source device capable of performing an air venting operation for supplying the heat medium to the terminal through the heat medium circulation path in a non-heated state without heating, and a control means for controlling the operation of the heat source device. In the heat medium supply equipment,
  The control means is configured to perform the air bleeding operation when the air bleeding timing for performing the air bleeding operation is performed, and the heating medium supply operation within a set time range for delay before the air bleeding timing. When the air release operation is performed, the air release operation is performed when the delay air release timing after a set time comes after the air release timing.
[0031]
That is, when the heating medium supply operation is not performed within the set delay time range prior to the air bleeding timing, the control unit performs the air bleeding operation at the air bleeding timing, and delays before the air bleeding timing. When the heating medium supply operation is performed within the set time range, the air bleeding operation is performed at the delay air bleeding timing.
Therefore, when the heat medium supply operation is performed within the set time range for delay, the control unit performs the heat medium supply operation after the temperature of the high-temperature heat medium heated by the heat medium heating unit decreases. The air venting operation can be performed, and even if the heating medium supply operation is performed within the set time range for delay, the air medium can be supplied to the terminal by the air venting operation. .
[0032]
From the above, by performing the air bleeding operation, it is possible to prevent the high temperature heat medium from being supplied to the terminal where the user does not request the heat medium supply operation. It has been possible to provide a heat medium supply facility that can improve the comfort of the user without causing discomfort.
[0033]
By the way, in the case where a plurality of terminals are provided and the control means is configured to perform the air bleeding operation on a plurality of terminals at the same time, the heat medium supply operation is performed on the terminal that is the heat medium supply operation target. Even if it is just after performing, the temperature of the heat medium supplied to the terminal outside the heat medium supply operation target is equal to or lower than the set temperature, and the terminal outside the heat medium supply operation target for which the user does not request the heat medium supply operation. In addition, since it is possible to prevent the supply of a high-temperature heat medium, the comfort of the user can be improved especially when there are a plurality of terminals.
[0034]
DETAILED DESCRIPTION OF THE INVENTION
A heat medium supply facility according to the present invention will be described with reference to the drawings.
[First Embodiment]
As shown in FIG. 1, the heat medium supply facility includes a plurality of heating terminals 1 such as a floor heating device and a bathroom heating / drying device, and a heat source that supplies the heat medium to the plurality of terminals 1 through a heat medium circulation path 2. And a control unit 4 as a control means for controlling the operation of the heat source unit 3, a remote controller 5 provided corresponding to each terminal 1 and capable of communicating with the control unit 4.
Incidentally, in this embodiment, the terminal 1 is composed of the first terminal 1a, the second terminal 1b, and the third terminal 1c, and the remote controller 5 also includes the first remote controller 5a and the second remote controller 5 corresponding to the first terminal 1a. It is comprised from the 2nd remote control 5b corresponding to the terminal 1b, and the 3rd remote control 5c corresponding to the 3rd terminal 1c.
[0035]
The heat source unit 3 includes an expansion tank 7 that is open to the atmosphere that stores the heat medium in the flow path 6 in the heat source unit, a circulation pump 8 that circulates and supplies the heat medium to the terminal 1, and a heat source. A heat exchanger 10 for heating a heat medium flowing through the in-machine flow path 6 by combustion of a burner 9 as a heat medium heating means is provided, and a fan 11 for supplying combustion air to the burner 9 is provided. ing.
The fuel supply passage 12 for supplying the fuel gas to the burner 9 is provided with a fuel gas on / off valve 13 for intermittently supplying the fuel gas and a fuel gas adjusting valve 14 for adjusting the fuel gas supply amount. An igniter 15 to be fired and a frame rod 16 for confirming the ignition of the burner 9 are also provided.
[0036]
A return thermistor 17 for detecting the temperature of the heat medium is provided upstream of the expansion tank 7 in the heat source machine flow path 6 in the heat medium circulation direction, and heat is higher than that of the heat exchanger 10 in the heat source machine flow path 6. A forward thermistor 18 for detecting the temperature of the heat medium is provided downstream of the medium circulation direction, and the upstream thermistor in the heat medium circulation direction and the forward thermistor in the heat source internal flow path 6 with respect to the location of the return thermistor 17. The downstream side in the heat medium circulation direction is connected to the downstream side in the heat medium circulation direction with respect to the arrangement place of 18 by the bypass passage 19.
[0037]
The heat medium circulation path 2 includes an outward flow path 2a and a return flow path 2b, and the forward flow path 2a and the return flow path 2b are connected to each of the plurality of terminals 1a to 1c. Has been.
The heat source internal flow path 6 of the heat source apparatus 3 is branched and connected to the plurality of forward flow paths 1a by the header 20 on the heat medium forward side, and the heat medium return side is connected to the plurality of return side flows by the header 20. A thermal valve 21 is provided in each of the plurality of forward-side flow paths 1a.
The heat source unit 3 is configured to supply a heat medium to the plurality of terminals 1 a to 1 c by opening and closing the plurality of thermal valves 21 individually.
[0038]
The heat source unit 3 includes a heating medium supply operation for supplying the heating medium to the terminal 1 through the heating medium circulation path 2 in a heating state in which the heating medium is heated by combustion of the burner 9, and the heating medium is not burned. An air venting operation for supplying the heat medium to the terminal 1 through the heat medium circulation path 2 in a non-heated state without heating is configured to be executable.
[0039]
The heat medium supply operation will be described. First, the fan 11 is operated to open the fuel gas on-off valve 13 and the fuel gas adjustment valve 14 to start combustion of the burner 9 and the circulation pump 8 is operated. The operation of the heat source device 3 is started, and the opening and closing of the thermal valve 21 is controlled so that the heat medium heated by the combustion of the burner 9 is supplied to the terminal 1 that is the target of the heat medium supply operation. I am doing so.
When the heating medium supply operation is finished, the fuel gas on-off valve 13 and the fuel gas regulating valve 14 are closed to stop the combustion of the burner 9, and then the operation of the fan 11 is stopped and all the heat valves are operated. 21 is closed, the operation of the circulation pump 8 is stopped, and the operation of the heat source unit 3 is stopped.
[0040]
The air venting operation will be described. Only the circulation pump 8 is operated, the burner 9 is not burned, the operation of the heat source unit 3 is started, and the heating medium which is not heated without burning the burner 9 is The opening and closing of the thermal valve 21 is controlled so as to be supplied to the terminal 1 that is the target of the punching operation.
When a set time for air bleeding operation (for example, 5 to 10 minutes) elapses after the circulation pump 8 is operated, all the thermal valves 21 are closed, the operation of the circulation pump 8 is stopped, and the heat source The operation of the machine 3 is stopped and the air bleeding operation is finished.
[0041]
The control unit 4 and each of the remote controllers 5a to 5c provided corresponding to the plurality of terminals 1a to 1c are configured to be able to communicate control information such as operation start and operation stop of the terminal 1, and the control unit 4 The operation of the heat source unit 3 is controlled in a state where the heat medium supply operation and the air bleeding operation are separately performed for the plurality of terminals 1a to 1c.
[0042]
In other words, when the operation of the terminal 1 is instructed from the remote controller 5, the control unit 4 starts the operation of the heat source device 3 and performs the heat medium supply operation for the terminal 1 corresponding to the remote controller 5. When the start of operation of the terminal 1 is instructed from another remote controller 5, the heating medium supply operation is also performed for the terminal 1 corresponding to the remote controller 5.
The control unit 4 responds to the remote controller 5 while continuing the operation of the heat source unit 3 when there is a remote controller 5 that has not commanded the operation stop among the remote controllers 5 that have commanded the operation start of the terminal 1. The operation of supplying heat to the terminal 1 is performed, and when the operation stop of the terminal 1 is instructed from all of the remote controllers 5 that instructed the operation start of the terminal 1, the operation of the heat source device 3 is stopped. .
[0043]
In addition, the control unit 4 includes timers 22a to 22c corresponding to the plurality of terminals 1a to 1c, and sets the elapsed time of the non-operating state in which the heat medium supply operation is not performed for each of the plurality of terminals 1a to 1c. It is configured to be managed separately.
And the control part 4 supplies to the terminal 1 from the heat-source equipment 3 with respect to the terminal 1 which reached the setting time (for example, 720 hours) of the non-operation state elapsed time among the some terminals 1a-1c. The air venting operation is performed under the condition that the heating medium supply temperature is equal to or lower than the set temperature.
[0044]
In other words, the control unit 4 always operates the first timer 22a and resets the first timer 22a when the heating medium supply operation is performed on the first terminal 1a. The elapsed time in the non-operating state in which the heating medium supply operation is not performed on the terminal 1a is measured.
Further, similarly to the first timer 22a, the control unit 4 always operates the second timer 22a and the third timer 22c, and performs the heating medium supply operation to the second terminal 1b. When the second timer 22b is reset and the heating medium supply operation is performed on the third terminal 1c, the third timer 22c is reset and the heating medium supply operation is performed on the second terminal 1b and the third terminal 1c. The elapsed time of the non-driving state which is not performed is measured.
[0045]
Then, when the time measured by the first timer 22a reaches a set time (for example, 720 hours), the control unit 4 determines that the temperature detected by the forward thermistor 18 is equal to or lower than the set temperature with respect to the first terminal 1a. The air venting operation is performed.
Further, when the measurement time of the second timer 22b reaches a set time (for example, 720 hours), the control unit 4 determines that the temperature detected by the forward thermistor 18 is equal to or lower than the set temperature, with respect to the second terminal 1b. When the air removal operation is performed and the measurement time of the third timer 22c reaches a set time (for example, 720 hours), if the detected temperature by the forward thermistor 18 is equal to or lower than the set temperature, the third terminal 1c The air venting operation is performed.
[0046]
When the elapsed time of the non-driving state reaches a set time (for example, 720 hours) for any one of the plurality of terminals 1a to 1c, the control unit 4 When the heat medium supply operation is performed, after the heat medium supply operation is completed, the air vent operation is performed under the condition that the heat medium supply temperature is equal to or lower than the set temperature.
In addition, the control unit 4 sets the timers 22a to 22 in the initial setting so that the timing at which the elapsed time of the non-driving state reaches a set time (for example, 720 hours) is different for each of the plurality of terminals 1a to 1c. The timing for starting the time counting operation of 22c is set so as to deviate every set time (for example, 10 minutes).
[0047]
The control operation for the air bleeding operation of the control unit 4 will be described based on the flowchart of FIG.
The control unit 4 starts the timer operation of the timers 22a to 22c based on the initial setting, always performs the timer operation of the timers 22a to 22c, and performs the heating medium supply operation to the first terminal 1a. The first timer 22a is reset (steps 1 and 2), and when the heating medium supply operation is performed for the second terminal 1b, the second timer 22b is reset (steps 3 and 4). If the heating medium supply operation is performed for the terminal 1c, the third timer 22c is reset (steps 5 and 6).
[0048]
When the measurement time T1 of the first timer 22a reaches the set time Tn, if the detected temperature Q of the forward thermistor 18 is equal to or lower than the set temperature Qn, the first terminal 1a is vented and the first timer 22a is reset (steps 7 to 10).
[0049]
When the measurement time T2 of the second timer 22b reaches the set time Tn, if the detected temperature Q of the forward thermistor 18 is equal to or lower than the set temperature Qn, the second terminal 1b is vented and the second timer 22b is reset (steps 11-14).
[0050]
When the measurement time T3 of the third timer 22c reaches the set time Tn, if the detected temperature Q of the forward thermistor 18 is equal to or lower than the set temperature Qn, the third terminal 1c is purged, and the third timer 22c is reset (steps 15 to 18).
[0051]
[Second Embodiment]
The second embodiment is another embodiment of the air bleeding operation in the first embodiment, and the air bleeding operation will be described below.
Incidentally, since other configurations are the same as those in the first embodiment, detailed description thereof will be omitted by using the same reference numerals.
[0052]
When there is a terminal 1 in which the elapsed time of the non-driving state has reached a set time (for example, 720 hours) among the plurality of terminals 1a to 1c, the control unit 4 is configured for all of the plurality of terminals 1a to 1c. The air venting operation is performed.
If it demonstrates, the heat-source equipment 3 is comprised so that execution of a heat-medium supply operation and an air bleeding operation is possible with respect to several terminal 1a-1c.
And the control part 4 manages the elapsed time of the non-operation state which is not performing the heat-medium supply operation | movement about each of several terminal 1a-1c by timer 22a-22c separately, and measures the 1st timer 22a When any one of the time, the measurement time of the second timer 22b, and the measurement time of the third timer 22c reaches a set time (for example, 720 hours), the first terminal 1a, the second terminal 1b, and the third terminal The air bleeding operation is performed for all of 1c.
[0053]
By the way, in the second embodiment, in the initial setting, the timings at which the timers 22a to 22c start timing are set to the same timing.
[0054]
The control operation for the air bleeding operation of the control unit 4 will be described based on the flowchart of FIG.
The control unit 4 always performs the time counting operation of the timers 22a to 22c, and resets the first timer 22a when the heating medium supply operation is performed for the first terminal 1a (steps 21 and 22). When the heating medium supply operation is performed on the second terminal 1b, the second timer 22b is reset (steps 23 and 24), and when the heating medium supply operation is performed on the third terminal 1c, 3 The timer 22c is reset (steps 25 and 26).
[0055]
When one of the measurement time T1 of the first timer 22a, the measurement time T2 of the second timer 22b, and the measurement time T3 of the third timer 22c reaches the set time Tn, the first terminal 1a, the second terminal 1b, And the air bleeding operation is performed for all the terminals 1 of the third terminal 1c, and all the timers 22 of the first timer 22a, the second timer 22b, and the third timer 22c are reset (steps 27 to 29). ).
[0056]
[Third Embodiment]
This 3rd Embodiment shows another embodiment about the air bleeding operation in the said 1st Embodiment, and adds description hereafter.
Incidentally, since other configurations are the same as those in the first embodiment, detailed description thereof will be omitted by using the same reference numerals.
[0057]
The control unit 4 performs the air bleeding operation for all of the plurality of terminals 1a to 1c under the condition that the heating medium supply temperature is equal to or lower than the set temperature when the air bleeding timing for performing the air bleeding operation is reached. Is configured to do.
The air bleeding timing is set to a timing at which the elapsed time in the non-operating state in which the heating medium supply operation is not performed reaches the set time.
[0058]
If it demonstrates, the heat source machine 3 will be comprised so that execution of a heat-medium supply operation and air bleeding operation is possible with respect to several terminal 1a-1c, and the control part 4 is several terminal 1a by timer 22a-22c. About each of -1c, the elapsed time of the non-operation state which is not performing the heat medium supply operation is managed separately.
Then, the control unit 4 moves the forward thermistor when any one of the measurement time of the first timer 22a, the measurement time of the second timer 22b, and the measurement time of the third timer 22c reaches a set time (for example, 720 hours). When the detected temperature by 18 is equal to or lower than the set temperature, the air bleeding operation is performed for all of the first terminal 1a, the second terminal 1b, and the third terminal 1c.
[0059]
The control operation for the air bleeding operation of the control unit 4 will be described based on the flowchart of FIG.
The control unit 4 always performs the time counting operation of the timers 22a to 22c, and resets the first timer 22a when the heating medium supply operation is performed for the first terminal 1a (steps 31 and 32). When the heating medium supply operation is performed on the second terminal 1b, the second timer 22b is reset (steps 33 and 34), and when the heating medium supply operation is performed on the third terminal 1c, 3 The timer 22c is reset (steps 35 and 36).
[0060]
When one of the measurement time T1 of the first timer 22a, the measurement time T2 of the second timer 22b, and the measurement time T3 of the third timer 22c reaches the set time Tn, the detected temperature Q by the forward thermistor 18 is set to the set temperature. If it is equal to or less than Qn, the first terminal 1a, the second terminal 1b, and the third terminal 1c perform the air bleeding operation, and the first timer 22a, the second timer 22b, All the timers 22 of the three timers 22c are reset (steps 37 to 40).
[0061]
[Fourth Embodiment]
This 4th Embodiment shows another embodiment about the heat-source equipment 3 in the said 1st Embodiment, and an air bleeding operation, and adds description hereafter about the heat-source equipment 3 and an air bleeding operation.
Incidentally, since other configurations are the same as those in the first embodiment, detailed description thereof will be omitted by using the same reference numerals.
[0062]
As shown in FIG. 5, the heat source unit 3 is divided into two channels on the downstream side of the heat source unit flow path 6 in the heat source unit flow path 6, and an on-off valve for remedy is provided on one of them. 23, a liquid heat exchange type heat exchanger for remedy 24 is provided.
The bath circulation path 25 connected to the bathtub P is provided with a bath circulation pump 26. By operating the bath circulation pump 26, hot water in the bathtub P passes through the bath circulation path 25 and the bath P and the heat for remedy. It is configured to circulate with the exchanger 24.
[0063]
The heat source unit 3 opens the remedy on-off valve 23 and activates the bath circulation pump 26 in a state where the burner 9 is burned. In the remedy heat exchanger 24, the heat exchanger 10 By performing heat dissipation from the heat medium heated in step 602 to the hot water in the bathtub P flowing in the bath circulation path 25, a chasing operation for heating the hot water in the bathtub P can be performed.
Incidentally, the start and stop of the chasing operation are instructed by a remote controller (not shown), and the control unit 4 is configured to perform the chasing operation based on the command of the remote controller (not shown).
[0064]
Further, the heat source device 3 is configured to be able to execute the heat medium supply operation and the air bleeding operation for one terminal 1, and the control unit 4 is configured to perform the air bleeding operation for performing the air bleeding operation. The air venting operation is performed under the condition that the heat medium supply temperature supplied from the heat source unit 3 to the terminal 1 is equal to or lower than the set temperature.
The air bleeding timing is set to a timing at which the elapsed time in the non-operating state in which the heating medium supply operation is not performed reaches the set time.
[0065]
When the explanation is added, the control unit 4 always keeps the timer 22 running, and when the heating medium supply operation is performed on the terminal 1, the timer 22 is reset and the heating medium is supplied to the terminal 1. The elapsed time of the non-driving state in which driving is not performed is measured.
Then, when the time measured by the timer 22 reaches a set time (for example, 720 hours), the control unit 4 determines that the temperature detected by the forward thermistor 18 is equal to or lower than the set temperature, and performs the air bleeding operation on the terminal 1a. Like to do.
[0066]
In this way, even when the control unit 4 comes to the air bleeding timing, if the temperature detected by the forward thermistor 18 is not lower than the set temperature, the air venting operation is not performed and the temperature detected by the forward thermistor 18 is lower than the preset temperature. If it exists, by performing air bleeding operation, the heat medium supplied to the terminal 1 can be made below into preset temperature by performing air bleeding operation.
Therefore, when the heating medium in the heat source machine internal flow path 6 is at a high temperature, such as immediately after the follow-up operation, the high-temperature heating medium is used without being supplied to the terminal 1 even when the air bleeding timing comes. It is possible to prevent the high-temperature heat medium from being supplied to the terminal that the person does not request the heat medium supply operation.
[0067]
The control operation for the air bleeding operation of the control unit 4 will be described based on the flowchart of FIG.
The control unit 4 always performs the time counting operation of the timer 22, and resets the timer 22 when the heating medium supply operation is performed on the terminal 1 (steps 41 and 42).
When the measured time T of the timer 22 reaches the set time Tn, if the detected temperature Q by the forward thermistor 18 is equal to or lower than the set temperature Qn, the terminal 1 is purged and the timer 22 is reset. (Steps 43 to 46).
[0068]
[Fifth Embodiment]
The fifth embodiment shows another embodiment of the air bleeding operation of the first embodiment, and the air bleeding operation will be described below.
Incidentally, since other configurations are the same as those in the first embodiment, detailed description thereof will be omitted by using the same reference numerals.
[0069]
The control unit 4 is configured to perform the air bleeding operation when the air bleeding timing for executing the air bleeding operation is reached, and performs the heating medium supply operation within the set range for delay before the air bleeding timing. When it is, the air bleeding operation is performed when the delay air bleeding timing after the set time comes after the air bleeding timing.
The air bleeding timing is the timing at which the elapsed time reaches the set time regardless of whether the heating medium supply operation is being performed or the heat medium supply operation is not being performed. It has been established.
[0070]
If it demonstrates, the heat-source equipment 3 is comprised so that execution of a heat-medium supply operation and an air bleeding operation is possible with respect to several terminal 1a-1c.
The control unit 4 includes a single timer 22 and always operates the timer 22 to measure the elapsed time measured regardless of whether it is in an operating state or a non-operating state. When the measurement time of the timer 22 reaches a set time (for example, 720 hours), all the terminals 1 of the plurality of terminals 1a to 1c are configured to perform the air bleeding operation.
And the control part 4 performs a heat-medium supply operation within the setting range for delay (for example, 4 hours) before the air bleeding timing when the measurement time of the timer 22 has reached the set time (for example, 720 hours). When the air is discharged, the air bleeding operation is performed for all the terminals 1 of the plurality of terminals 1a to 1c at the delay air bleeding timing after a set time (for example, 1 hour) after the air bleeding timing. It is configured.
[0071]
Incidentally, the control part 4 has memorize | stored the newest timing which performed the heat-medium supply operation | movement with respect to at least 1 terminal 1 among several terminal 1a-1c, and the latest timing is rather than the air bleeding timing. When it is within the previous delay setting range (for example, 4 hours), it is configured to determine that the heating medium supply operation is performed within the delay setting range (for example, 4 hours) before the air bleeding timing. Has been.
[0072]
The control operation for the air bleeding operation of the control unit 4 will be described based on the flowchart of FIG.
The control unit 4 always performs the time counting operation of the timer 22, and when the measurement time T of the timer 22 reaches the set time Tn, the air bleeding timing at which the measurement time T of the timer 22 reaches the set time Tn. If the heating medium supply operation is not performed within the previous delay setting range (steps 51 and 52), the air bleeding operation is performed for all the terminals 1 of the plurality of terminals 1a to 1c, and the timer 22 is set. Reset (steps 53 and 54).
Further, when the heating medium supply operation is performed within the delay setting range before the air bleeding timing at which the measurement time T of the timer 22 has reached the set time Tn (step 52), after the set time from the air bleeding timing. When the delay air bleeding timing is reached (step 55), the air bleeding operation is performed on all the terminals 1 of the plurality of terminals 1a to 1c, and the timer 22 is reset (steps 53 and 54).
[0073]
[Another embodiment]
(1) In the said 1st Embodiment, the control part 4 is changed from the heat source machine 3 to the terminal 1 with respect to the terminal 1 in which the elapsed time of the non-operation state reached setting time among several terminals 1a-1c. The air venting operation is performed under the condition that the supply temperature of the heat medium to be supplied is equal to or lower than the set temperature. However, the control unit 4 sets the elapsed time in the non-operating state among the plurality of terminals 1a to 1c to the set time. It is also possible to configure and carry out the air bleeding operation on the terminal 1 that has reached the above.
[0074]
(2) In the said 2nd and 5th embodiment, although the heat-source equipment 3 is comprised so that execution of a heat-medium supply operation and an air bleeding operation is possible with respect to several terminal 1a-1c, for example, FIG. As shown, the heat source device 3 can be configured to be capable of performing the heat medium supply operation and the air bleeding operation for one terminal 1.
[0075]
(3) In the third and fourth embodiments, the air bleeding timing is determined to be a timing at which the elapsed time of the non-operating state in which the heating medium supply operation is not performed reaches the set time. Regardless of whether the heating medium supply operation is in operation or the non-operation state in which the heating medium supply operation is not performed, it is possible to determine the timing at which the elapsed time reaches the set time. It is.
[0076]
(4) In the first, second, third, and fifth embodiments, three terminals of the first terminal 1a, the second terminal 1b, and the third terminal 1c are provided as the terminal 1, but the terminal The number of can be changed as appropriate, such as two or four or more.
[0077]
(5) In the first, second, third, and fifth embodiments, the heat source unit 3 is configured to be capable of performing the heat medium supply operation and the air bleeding operation. For example, as shown in FIG. In addition to the heat medium supply operation and the air bleeding operation, the heat source device 3 can be configured to be capable of performing a chasing operation.
[0078]
(6) In the first to fifth embodiments, the configuration in which the heating medium is heated by the combustion of the burner 9 is exemplified as the heating medium heating unit. However, the heating medium is heated using another heating unit such as an electric heater. It is also possible to change the configuration of the heating medium heating means as appropriate.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a heat medium supply facility.
FIG. 2 is a flowchart showing a control operation in the first embodiment.
FIG. 3 is a flowchart showing a control operation in the second embodiment.
FIG. 4 is a flowchart showing a control operation in the third embodiment.
FIG. 5 is a schematic configuration diagram of a heat medium supply facility in a fourth embodiment.
FIG. 6 is a flowchart showing a control operation in the fourth embodiment.
FIG. 7 is a flowchart showing a control operation in the fifth embodiment.
[Explanation of symbols]
1 terminal
2 Heat transfer circuit
3 heat source machine
4 Control means
9,10 Heating medium heating means

Claims (6)

In a heating state in which the heating medium is heated by the heating medium heating means, a heating medium supply operation for supplying the heating medium to the terminal through the heating medium circulation path, and in a non-heating state in which the heating medium is not heated by the heating medium heating means. A heat medium supply facility provided with a heat source machine capable of performing an air bleeding operation for supplying a heat medium to the terminal through the heat medium circuit, and a control means for controlling the operation of the heat source machine,
The control means is configured to perform the air bleeding operation when an elapsed time of a non-operating state in which the heating medium supply operation is not performed reaches a set time ,
The heat source unit is configured to be able to execute the heat medium supply operation and the air bleeding operation for a plurality of terminals,
The said control means is a heat-medium supply equipment comprised so that the said air bleeding operation may be performed with respect to the terminal from which the elapsed time of the said non-operation state reached | attained setting time among these terminals . When the elapsed time of the non-operating state reaches a set time, the control means performs the air bleeding operation under a condition that a heat medium supply temperature supplied from the heat source unit to the terminal is equal to or lower than a set temperature. heating medium supply system of claim 1 Symbol mounting is configured as. In a heating state in which the heating medium is heated by the heating medium heating means, a heating medium supply operation for supplying the heating medium to the terminal through the heating medium circulation path, and in a non-heating state in which the heating medium is not heated by the heating medium heating means. A heat medium supply facility provided with a heat source machine capable of performing an air bleeding operation for supplying a heat medium to the terminal through the heat medium circuit, and a control means for controlling the operation of the heat source machine,
The control means performs the air bleeding operation under a condition that a heat medium supply temperature supplied from the heat source unit to the terminal is equal to or lower than a preset temperature when the air bleeding timing for performing the air bleeding operation is reached. Heat medium supply equipment configured in The air bleeding timing is a timing at which the elapsed time reaches the set time regardless of whether the heating medium supply operation is performed or the non-operating state where the heating medium supply operation is not performed. The heating medium supply facility according to claim 3, which is defined in claim 3 . The heating medium supply facility according to claim 3 , wherein the air bleeding timing is set to a timing at which an elapsed time in a non- operating state in which the heating medium supply operation is not performed reaches a set time. In a heating state in which the heating medium is heated by the heating medium heating means, a heating medium supply operation for supplying the heating medium to the terminal through the heating medium circulation path, and in a non-heating state in which the heating medium is not heated by the heating medium heating means. A heat medium supply facility provided with a heat source machine capable of performing an air bleeding operation for supplying a heat medium to the terminal through the heat medium circuit, and a control means for controlling the operation of the heat source machine,
The control means is configured to perform the air bleeding operation when the air bleeding timing for performing the air bleeding operation is performed, and the heating medium supply operation within a set time range for delay before the air bleeding timing. when performing the, when the now delayed for air bleeding time after time setting than air bleeding time, heating medium supply system that is configured to perform the air bleeding operation.

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