JP2008275234A - Combination hot water supply system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To secure safety by surely stopping a water heater stopped by malfunction before electric power failure, even after the recovery from electric power failure in a combination hot water supply system. <P>SOLUTION: In a case when the water heater having malfunction exists before electric power failure (S22;Yes) in this combination hot water supply system, a stop command is transmitted to a control unit of the water heater from a system controller, the water heater having the malfunction is kept in a stopped state as a failed water heater (S23), "stop of #N water heater" is displayed for warning on a display of a remote controller (S24), and then a combination hot water supplying operation is restarted in the combination hot water supply system (S25). <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a connected hot water supply system, and more particularly, to a hot water heater that has been stopped due to an abnormality before a power failure and that is stopped after the power failure is restored.

  Conventionally, in various facilities such as hotels and hospitals, it is easy to follow large fluctuations in the amount of hot water supply, and it is possible to back up when a water heater fails. A connected hot water supply system that is connected may be used.

  For example, in the heat source facility described in Patent Document 1, a plurality of water heaters, a connection pipe that connects a plurality of water heaters in parallel, and a connected hot water supply that includes a system controller that performs connection control of the plurality of water heaters A system is disclosed, and by adjusting the number of hot water heaters to be operated by a system controller, the hot water temperature is adjusted to be a hot water supply set temperature.

Further, Patent Document 2 discloses an improved system that can stably supply hot water even when a part of the hot water heaters in the connected hot water system fails. In the operation control method of the parallel-installed water heaters described in Patent Document 2, when a water heater in which an abnormality has occurred is detected by an abnormality detection means provided in each water heater, the system controller detects the water heater in which the abnormality has occurred. By controlling to stop the operation and to operate only a normal water heater in which no abnormality has occurred, the hot water can be stably supplied.
JP 2000-205650 A JP-A-4-190042

  By the way, when a power failure occurs, the operator needs to manually return the connected hot water supply system to the operating state before the power failure after the power failure is restored. It is conceivable to provide an automatic operation return function. When the technology of Patent Document 2 is provided with an automatic operation return function, a power failure occurs in a state where an abnormality of some of the water heaters in the connected hot water system is detected and the operation of the water heater in which the abnormality has occurred is stopped. When this occurs, the system controller is restarted after the power failure is restored, and the operation stop of the water heater in which an abnormality has occurred is released, and all the water heaters in the connected hot water system are connected and controlled. As described above, when the hot water heater in which an abnormality that should originally be stopped occurs is connected and controlled, the safety of the connected hot water system may be reduced.

  An object of the present invention is to ensure safety in a linked hot water supply system by reliably stopping a water heater that has been stopped due to an abnormality before a power failure, even after recovery from the power failure.

  The connected hot water system according to claim 1 is a connected hot water system comprising a plurality of water heaters, a connection pipe connecting the plurality of water heaters in parallel, and a system controller that performs connection control of the plurality of water heaters. The system controller detects an abnormal water heater detector that detects an abnormal water heater among a plurality of water heaters, and detects the abnormal water heater detector regardless of whether power is supplied to the connected hot water system or during a power failure. An abnormal water heater storage unit capable of storing hot water heater specifying information for specifying the hot water heater, and the system controller is specified by the water heater specifying information stored in the abnormal water heater storage unit after a power failure recovery The hot water heater is stopped and the connection control is performed.

  In this connected hot water supply system, after power failure recovery, connection control is performed with the hot water heater specified by the hot water heater specifying information stored in the abnormal hot water heater storage unit stopped. If an abnormality is detected in some of the hot water heaters in the connected hot water system and a power failure occurs while the malfunctioning hot water heater has stopped operating, the connected hot water system will Even after returning to the operating state, the water heater in which an abnormality has occurred remains stopped.

  The connected hot water system of claim 2 is characterized in that, in the invention of claim 1, a warning display unit is provided for displaying that the abnormal hot water heater detection unit has detected a hot water heater in which an abnormality has occurred. To do.

  According to a third aspect of the present invention, there is provided the connected hot water supply system according to the second aspect of the invention, wherein the system controller causes the warning display unit to display information specifying the hot water heater stored in the abnormal hot water storage unit. .

  According to a fourth aspect of the present invention, there is provided the connected hot water supply system according to any one of the first to third aspects, wherein the system controller receives the abnormal hot water storage unit when a predetermined signal is input from an operation unit of the connected hot water supply system. The information specifying the hot water heater stored in is deleted.

  According to the first aspect of the present invention, the system controller includes an abnormal water heater detection unit and an abnormal water heater storage unit, and the system controller uses the hot water heater identification information stored in the abnormal water heater storage unit after power failure recovery. Since the specified hot water heater is maintained in the stopped state and linked control is performed, an error has occurred even if the system controller is restarted after the power failure is restored and the linked hot water system returns to the operating state before the power failure. Since the hot water heater maintains a stopped state, the safety of the connected hot water system can be ensured.

  According to the invention of claim 2, since the warning display part for displaying that the hot water heater in which the abnormality has occurred is detected by the abnormal hot water heater detection part is provided, an abnormality has occurred in the hot water heater. Can be reliably notified to the operator.

  According to the invention of claim 3, the system controller causes the warning display unit to display information for identifying the water heater stored in the abnormal water heater storage unit, so that the operator can identify the water heater in which an abnormality has occurred. It is possible to reliably notify. Therefore, it is possible to quickly repair the water heater in which an abnormality has occurred.

  According to the invention of claim 4, when the system controller receives a predetermined signal from the operation unit of the connected hot water supply system, the system controller deletes the information specifying the hot water heater stored in the abnormal hot water storage unit. By operating the operation part of the connected hot water system after repairing, the repaired water heater can be quickly returned to connection control by recognizing the repaired hot water heater as a normal hot water heater. .

  In the connected hot water system of the present invention, a system controller that performs connection control of a plurality of water heaters supplies power to the abnormal water heater detection unit that detects a water heater in which an abnormality has occurred among the plurality of water heaters, and the connected hot water system. It is equipped with an abnormal water heater storage unit that can store hot water heater identification information that identifies the hot water heater detected by the abnormal water heater detection unit regardless of whether it is during a power failure or during a power failure. The hot water heater specified by the hot water heater specifying information stored in the section is maintained in a stopped state to perform connection control.

Embodiments of the present invention will be described below with reference to the drawings.
As shown in FIG. 1, the connected hot water supply system 1 includes six water heaters 2 arranged in parallel and six water supply side connection pipes 20 and six connecting six water heaters 2 in parallel. The hot water supply side connection pipe 21 and a system controller 30 that controls the connection of the six hot water heaters 2 are provided. In this connected hot water supply system 1, an operation command and a hot water supply temperature are set for the system controller 30. A remote control 40 as an operation unit is provided.

Six water supply side connection pipes 20 are connected to the water supply pipes 22 connected to the water supply system 26, and the water supplied to the water supply pipes 22 is supplied to the respective water heaters 2 through the six water supply side connection pipes 20. The
Six hot water connection pipes 21 are connected to a hot water pipe 23 connected to a hot water tap 24 such as a currant or shower, and hot water heated by each hot water heater 2 is connected to the hot water pipe 23 via the hot water connection pipe 21. It is led out and discharged from the hot water tap 24. The water supply pipe 22 is provided with a pump 25 for circulating and flowing hot water. The feed action of the pump 25 causes hot water and water to circulate and flow from the water supply pipe 22 to the six water supply side connection pipes 20. .

Next, the water heater 2 will be described.
The six water heaters 2 all have the same configuration. The configuration will be described. As shown in FIG. 2, the water heater 2 includes a water heater body 3 and a gas supply for supplying fuel gas to the water heater body 3. A pipe 11, a water supply pipe 20 that supplies water to the water heater body 3, a hot water pipe 21 that discharges hot water from the water heater body 3, and a drainage path 14 that discharges the drain generated in the auxiliary heat exchanger 7 during latent heat recovery. And an operation panel 15 for operating the hot water supply device 2 and a control unit 16 (C / U) for controlling the entire water heater.

  The gas supply pipe 11 is connected to a gas supply port connected to a gas supply source and extends to the burner 5. The water supply side connection pipe 20 is connected to the sub heat exchanger 7, and the hot water side connection pipe 21 is connected to the main heat exchanger 6.

Next, the water heater main body 3 will be described.
As shown in FIG. 2, a combustion chamber 4 is formed in the water heater body 3. The combustion chamber 4 has a burner 5 that burns fuel and a main heat exchanger that recovers sensible heat from the combustion gas of the burner 5. 6 etc. are provided. In the upper end portion of the water heater body 3, a sub heat exchanger 7 that recovers latent heat in addition to sensible heat that could not be recovered by the main heat exchanger 6, and sub heat exchange by latent heat recovery in the sub heat exchanger 7. A drain receiver 8 for receiving drain generated on the surface of the vessel 7 is provided. In addition, a fan 10 that supplies combustion air to the burner 5 is provided at the lower end of the water heater body 3.

  The water heater main body 3 includes a water amount sensor, a tapping temperature sensor, a frame rod that detects the flame of the burner 5, a burner sensor that detects the flame temperature of the burner 5, and a rotation speed detection sensor that detects the rotation speed of the fan 10. Sensors are provided, and detection signals from various sensors are transmitted to the control unit 16 of the water heater 2.

  The control unit 16 having a microcomputer is electrically connected to the operation panel 15, the fan 10, the various sensors described above, and the control unit 16 has an operation switch (operation SW) provided on the operation panel 15. Control is performed so that the operating state of the water heater 2 is switched by a user operation.

  The control unit 16 performs self-diagnosis based on detection signals from various sensors while power is supplied. When the water heater 2 is normal, it indicates that the water heater 2 is in a normal state. A signal is transmitted to the system controller 30. On the other hand, when an abnormality occurs in the water heater 2 that cannot continue the connection operation, a signal indicating that the water heater 2 is in an abnormal state is transmitted to the system controller 30. The six water heaters 2 are assigned with unique water heater numbers N that are different for each water heater, and the water heater numbers N are stored in the ROM of the control unit 16 of each water heater 2. Yes.

Next, the control system of the connected hot water supply system 1 will be described.
As shown in FIG. 3, the control system of the connected hot water supply system 1 includes a system controller 30 and control units 16 of six hot water heaters 2.

  The system controller 30 includes a CPU 31, a ROM 32, a RAM 33, an EEPROM 32 (nonvolatile memory) as an abnormal water heater storage unit, and a bus 35 connecting them, and an input / output interface 36 for inputting and outputting to the microcomputer. And a communication interface 37 for transmitting / receiving to / from the remote controller 40. The control units 16 of the six water heaters 2 are connected to the input / output interface 36, respectively, so that the system controller 30 and the control units 16 of the six water heaters 2 can transmit and receive signals to and from each other.

  The ROM 32 includes a control program for operation control of the connected hot water supply system, a control program for system operation state storage control shown in the flowchart of FIG. 4, a control program for hot water heater state storage control shown in the flowchart of FIG. 5, and a flowchart of FIG. A control program for power failure recovery control is stored.

In the system operation state storage control, information indicating the current operation state of the connected hot water supply system 1 is stored in the EEPROM 32 every time the operation state of the connected hot water supply system 1 is changed.
In the hot water heater state storage control, based on the detection signal transmitted from the control unit 16 of the six water heaters 2, the hot water heater 2 in which an abnormality has occurred is detected from the six water heaters 2, and the detection is performed. The hot water heater number N as hot water heater specifying information for specifying the hot water heater 2 is stored in the EEPROM 32. In the power failure recovery control, after the power failure recovery, the hot water heater 2 specified by the water heater number N stored in the EEPROM 32 is maintained in a stopped state to perform connection control.
However, when a hot water heater 2 in which an abnormality has occurred in the hot water heater state storage control before a power failure is detected, the connection control is performed after the hot water heater 2 in which an abnormality has occurred is stopped by the operation control of the connected hot water system. Do.

  The EEPROM 32 is a non-volatile memory, and is configured to hold the stored contents stored in the EEPROM 32 regardless of whether the connected hot water supply system 1 is powered or out of power. The EEPROM 32 is controlled by the hot water heater state storage control. The hot water heater number N that identifies the detected hot water heater 2 and information indicating the current operating state of the connected hot water system 1 are stored.

  The remote controller 40 is configured to be able to transmit and receive with the system controller 30 via the communication interface 37, and is for switching the operating state of the connected hot water supply system 1 and the operating states of the six water heaters 2. The remote controller 40 is provided with a display 41 as a warning display unit for displaying that the hot water heater 2 in which an abnormality has occurred is detected.

  Next, the system operation state storage control executed by the system controller 30 will be described based on the flowchart of FIG. In the figure, Si (i = 1, 2,...) Indicates each step. This system operation state storage control is repeatedly executed while power is supplied to the connected hot water supply system 1. First, a signal indicating the operation content of the operation SW of the remote controller 40 is read (S1), and the operation SW is turned ON. It is determined whether or not the connected hot water supply system 1 has been changed from a stop to an operation. When the connected hot water supply system 1 is changed from the stop to the operation (S2; Yes), after the current operation state (operation) is stored in the EEPROM 32 (S3), the process returns to S1.

On the other hand, when the connected hot water supply system 1 is not changed from the stop to the operation (S2; No), it is determined whether or not the connected hot water supply system 1 is changed from the operation to the stop by turning off the operation SW. When the system 1 is changed from operation to stop (S4; Yes), the current operation state (stop) is stored in the EEPROM 32 (S3), and the process returns.
However, if the connected hot water supply system 1 is not changed from operation to stop (S4; No), the process returns.

  Next, the water heater state storage control executed by the system controller 30 will be described based on the flowchart of FIG. In the figure, Si (i = 10, 11,...) Indicates each step. This hot water heater state storage control is repeatedly executed while power is supplied to the connected hot water system 1, and first, signals transmitted from the control units 16 of the six water heaters 2 are read (S10), and the water heaters are read. 2 is determined whether or not an abnormality that cannot continue the linked operation has occurred.

  When an abnormality that cannot continue the linked operation has occurred in the water heater 2 (S11; Yes), information indicating the state of the water heater (abnormal) is sent from the water heater 2 in which the abnormality has occurred to the water heater 2 of the water heater 2. After the number N is read and stored in the EEPROM 32 (S12), the process returns to S10. On the other hand, if no abnormality has occurred in the water heater 2 that cannot continue the linked operation (S11; No), it is determined whether or not the water heater 2 that has been in an abnormal state has returned to its normal state by being repaired.

  When the water heater 2 that has been in an abnormal state returns to normal (S13; Yes), the water heater state (normal) is stored in the EEPROM 32 (S12). That is, after the water heater number N of the water heater 2 that has returned to normal is erased from the EEPROM 32, the process returns. However, if the water heater 2 that has been in an abnormal state has not returned to normal (S13; No), the process returns. The abnormal water heater detection unit includes S10 to S13 in the flowchart shown in FIG.

  Next, the power failure recovery control executed by the system controller 30 will be described based on the flowchart of FIG. In the figure, Si (i = 20, 21...) Indicates each step. This power failure recovery control is executed when power is supplied to the connected hot water supply system 1 after recovery from the power failure. First, information indicating the operating state of the connected hot water system 1 and the hot water heater number N as hot water heater specifying information indicating the hot water heater state (abnormality) are read from the EEPROM 32 (S20), and the operating state of the read connected hot water system 1 is read. Based on the information indicating that, the operating state of the connected hot water supply system 1 is restored (S21).

  Next, it is determined whether or not there is a water heater 2 in which an abnormality in which the linked operation cannot be continued before the power failure has occurred, and if there is a water heater 2 in which an abnormality has occurred (S22; Yes), before the power failure. A stop command is transmitted from the system controller 30 to the control unit 16 of the water heater 2 in which an abnormality that cannot continue the linked operation has occurred, and the water heater 2 in which the abnormality has occurred is maintained as a malfunctioning water heater. (S23) After the warning message “#N Hot water heater is stopped” is displayed on the display 41 of the remote controller 40 (S24), the connected hot water supply system 1 restarts the connected hot water supply operation (S25). However, when there is no hot water heater 2 in which an abnormality has occurred (S22; No), the process proceeds to S25, and the connected hot water supply operation is resumed in the connected hot water system 1 with all the hot water heaters 2 being subject to connection control ( S25).

  Next, after repairing the hot water heater 2 in which an abnormality has occurred, it is determined whether or not the operation SW of the remote controller 40 has been switched from ON to OFF and then to ON. That is, it is determined whether or not the hot water heater 2 in which an abnormality has occurred is repaired and a signal indicating a normal state is received from the control unit 16 of the hot water heater 2. When repairing the hot water heater 2 in which an abnormality has occurred (S26; Yes), the warning display on the display 41 of the remote control 40 is canceled (S27), and the hot water heater number N of the hot water heater 2 that has returned to normal is returned from the EEPROM 32. The hot water heater state stored in the EEPROM 32 is changed from abnormal to normal (S28).

  Next, an operation command is transmitted from the system controller 30 to the control unit 16 of the water heater 2 that has returned to normal, the handling of the malfunctioning water heater is canceled, and the water heater 2 is returned to the connection control as a normal water heater. (S29) The connected hot water supply operation is performed in the connected hot water system 1 (S25). However, if the hot water heater 2 in which an abnormality has occurred is not repaired (S26; No), the process proceeds to S25, and the connected hot water operation is continued while the hot water heater 2 is maintained in a stopped state.

Next, the operation and effect of the connected hot water supply system 1 described above will be described.
After the power failure recovery, the hot water heater 2 identified by the hot water heater number N of the hot water heater 2 in which an abnormality has occurred as the hot water heater identification information stored in the EEPROM 32 is maintained in the stopped state and the connection control is performed. When an abnormality is detected in some of the hot water heaters 2 in the connected hot water system 1, and a power failure occurs while the hot water heater 2 in which the abnormality has occurred is stopped, the connected hot water system 1 is restored after the power failure is restored. Even if the battery returns to the operating state before the power failure, the water heater 2 in which an abnormality has occurred remains stopped.

  As described above, the system controller 30 includes the EEPROM 32, and after the power failure is restored, the hot water heater 2 specified by the hot water heater number N stored in the EEPROM 32 is maintained in the stopped state, so that the connection control is performed. Even if the system controller 30 is restarted and the connected hot water supply system 1 returns to the operation state before the power failure, the hot water heater 2 in which an abnormality has occurred is maintained in a stopped state without being connected. Can be secured.

  Since the remote controller 40 is provided with a display 41 for displaying that the hot water heater 2 in which an abnormality has occurred is detected by the system controller 30, it is surely notified to the operator that an abnormality has occurred in the hot water heater 2. can do. Moreover, since the system controller 30 displays the water heater number N of the water heater 2 in which an abnormality has occurred on the display 41 of the remote controller 40, the system controller 30 can reliably notify the operator of the water heater 2 in which the abnormality has occurred. It is possible to repair the hot water heater 2 in which an abnormality has occurred.

  Furthermore, when a predetermined signal is input from the remote controller 40, the system controller 30 erases the hot water heater number N of the hot water heater 2 in which an abnormality has occurred from the EEPROM 32, so the hot water heater 2 in which an abnormality has occurred. By operating the operation SW of the remote controller 40 after repairing the product, the repaired water heater 2 is quickly returned to the connection control by recognizing the repaired water heater 2 as a normal water heater 2. Can be made.

Next, a second embodiment of the present invention will be described with reference to FIGS. However, the same reference numerals are given to the same components as those in the above embodiment, and only different components will be described.
In the second embodiment, not only the water heater number N of the water heater 2 in which an abnormality has occurred is displayed on the display 41 of the remote controller 40, but also an error code indicating the content of the abnormality is displayed.

  The ROM of the control unit 16 of each water heater 2 stores a water heater number N and a plurality of error codes. When an abnormality occurs in the water heater 2, an error code corresponding to the abnormality content is given by the control unit 16. It is transmitted to the system controller 30.

  Next, the water heater state storage control executed by the system controller 30 will be described based on the flowchart of FIG. In the figure, Si (i = 30, 31...) Indicates each step. The hot water heater state storage control is performed in the same manner as in the first embodiment, and S30, S31, and S33 are the same as S10, S11, and S13 in the first embodiment, and thus the description thereof is omitted.

  When an abnormality that cannot continue the linked operation has occurred in the water heater 2 (S31; Yes), the hot water supply 2 of the water heater 2 from the hot water heater 2 in which the abnormality has occurred is used as information indicating the state of the water heater (abnormal). The device number N and the corresponding error code are read and stored in the EEPROM 32 (S32). When the water heater 2 that has been in an abnormal state returns to normal (S33; Yes), the water heater state (normal) is stored in the EEPROM 32 (S32). That is, the water heater number N and the error code of the water heater 2 that has returned to normal are deleted from the EEPROM 32.

  Next, the power failure recovery control executed by the system controller 30 will be described based on the flowchart of FIG. In the figure, Si (i = 40, 41...) Indicates each step. The power failure recovery control is performed in the same manner as in the first embodiment, and S40 to S43, S45 to S47, and S49 are the same as S20 to S23, S25 to S27, and S29 of the first embodiment, and thus the description thereof is omitted.

  In S44, a warning message “#N Hot water heater stopped, error code XXX” is displayed on the display 41 of the remote controller 40. In S48, the hot water heater number N and the error code of the water heater 2 that has returned to normal are deleted from the EEPROM 32. Thus, the hot water heater state stored in the EEPROM 32 is changed from abnormal to normal.

  Thus, since the system controller 30 displays the hot water heater number N of the hot water heater 2 in which an abnormality has occurred and the error code indicating the abnormal content on the display 41 of the remote controller 40, the hot water heater 2 in which the abnormality has occurred. The abnormality content can be reliably notified to the operator, and the water heater 2 in which the abnormality has occurred can be repaired more quickly.

Next, a modified example in which the above embodiment is partially modified will be described.
1] The number of water heaters 2 is not limited to six and may be two or more.
2] Instead of operating the remote controller 40 after repairing the water heater 2 to return the water heater 2 to the connection control, the water heater 2 is operated by operating the operation SW provided on the operation panel 15 of each water heater 2. You may return to connection control.

3] When there is a hot water heater 2 in which an abnormality has occurred, instead of displaying the water heater number N on the display 41 of the remote controller 40, only a warning display may be performed.
4) In addition, those skilled in the art can implement the present invention in various forms added with various modifications without departing from the spirit of the present invention, and the present invention includes such modifications. .

It is a schematic block diagram of the connection hot water supply system which concerns on the Example of this invention. It is a schematic block diagram of a hot-water supply apparatus. It is a block diagram which shows the control system of a connection hot water supply system. It is a flowchart of system operation state memory control. It is a flowchart of water heater state storage control. It is a flowchart of a power failure recovery control. FIG. 6 is a diagram corresponding to FIG. FIG. 7 is a diagram corresponding to FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Connection hot water supply system 2 Water heater 20 Hot water supply side connection piping 21 Hot water supply side connection piping 30 System controller 34 EEPROM
41 display

Claims (4)

A connected hot water system comprising a plurality of water heaters, a connection pipe for connecting a plurality of water heaters in parallel, and a system controller for controlling the connection of the plurality of water heaters,
The system controller includes an abnormal water heater detection unit that detects a water heater in which an abnormality has occurred among a plurality of water heaters, and the abnormal water heater detection unit regardless of whether power is supplied to the connected hot water system or during a power failure. An abnormal water heater storage unit capable of storing hot water heater specifying information for specifying the detected water heater;
The system controller is configured to perform connection control while maintaining a water heater specified by hot water heater specifying information stored in the abnormal water heater storage unit in a stopped state after a power failure recovery.   The connected hot water supply system according to claim 1, further comprising a warning display unit for displaying that the abnormal hot water heater detection unit detects a hot water heater in which an abnormality has occurred.   The said system controller displays the information which specifies the water heater memorize | stored in the said abnormal water heater memory | storage part on a warning display part, The connection hot water system of Claim 2 characterized by the above-mentioned.   The said system controller erases the information which specifies the hot water heater memorize | stored in the said abnormal hot water heater memory | storage part, when a predetermined | prescribed signal is input from the operation part of the said connected hot water supply system. The connected hot-water supply system in any one of 1-3.