JP3756738B2 - Control system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a device that operates by being powered, a plurality of devices connected to the device, and each of the devices, and starts or stops power feeding to the device and operation of the device depending on an on / off state. The present invention relates to a control system provided with a remote control.
[0002]
[Prior art]
In such a control system, the “apparatus” is, for example, a hot water supply apparatus, and the “apparatus” is, for example, a heating apparatus that warms a room by receiving supply of hot water from the hot water supply apparatus. In this system, if any one of the remote controllers is turned on by a switch operation, the apparatus is powered and activated, and a device corresponding to the remote controller that is turned on operates. If an error state occurs in which the device stops even though any device is in operation, the operation of the device is forcibly stopped while the remote control corresponding to the device is turned on, and the remote controller Is displayed.
[0003]
When an error state occurs in this way, the device that has been operating until then is stopped with the remote control turned on. For this reason, the remote control corresponding to the stopped device remains in the on state even though it should be in the off state, and the operation state of the device and the on / off state of the remote control are not matched. To cancel the error state, the device must be stopped and then restarted.If one remote controller that was operating is turned off by a switch operation and the on / off state is matched, the other remote controller is turned on. If this is the case, the device cannot be restarted. Therefore, when the device is restarted from the error state, it is necessary to reset all the remote controllers to correspond to the reset of the control system, that is, all the devices are stopped. If any of the plurality of remote controllers is turned on after the control system is reset, the power supply to the apparatus is resumed, and the device corresponding to the remote controller that has been turned on resumes operation.
[0004]
However, in order to reset the control system, the user must turn off all the remote controllers that were turned on before the error state occurred by switching operation. In addition, since a plurality of remote controllers are often installed at remote locations within the same building, it is difficult to determine whether the plurality of remote controllers are in an on state or an off state. For this reason, the user has to go to all the remote control installation locations one by one, which makes it difficult to reset the control system.
[0005]
[Problems to be solved by the invention]
In view of such a background, an object of the present invention is to provide a control system capable of reducing the troublesomeness of reset.
[0006]
[Means for Solving the Problems]
The control system of the present invention for solving the above-described problems can be switched by a switch operation by a user corresponding to each of the devices that are powered and operated, a plurality of devices connected to the devices, and the devices. A control system including a plurality of remote controllers that start or stop power supply to the apparatus and operation of the device according to an on state and an off state, and any of the plurality of remote controllers is in an on state Nevertheless, the present invention is characterized by comprising remote control control means for switching all of the remote controllers that are in the on state to the off state when an error state in which the operation of the device stops occurs.
[0007]
According to the control system having such a configuration, when an error state occurs, all the remote controllers that have been on until then are switched to the off state by the remote control means, thereby stopping the operating devices. When all the devices are stopped and all the corresponding remote controllers are turned off, the operation state of the devices matches the on state / off state state of the remote control. That is, it is possible to avoid a situation in which one of the remote controllers is in an on state even though all the devices are stopped. Thus, the control system is reset. Therefore, when an error condition occurs, the user does not have to go to the installation locations of all remote controllers that were on and turn off the remote controller. It will be resolved.
[0008]
A memory for storing that the remote control is in an on state when the error state occurs; in the error state, all the remote controllers are in an off state; and any one of the plurality of remote controls to resume power supply to the device When is turned on, the remote control means is preferably stored in the memory as being in the on state, and the remote controller in the off state is preferably switched to the on state.
[0009]
According to this system, after an error state occurs, when the control system is reset and one of the remote controllers is turned on to resume power supply to the device, the memory stores that the error state was on when the error state occurred. All the remote controls that have been turned on are turned on by the remote control means. In addition, the device corresponding to the remote control that has been turned on resumes operation. Therefore, the user can restart all devices that have been forcibly stopped due to the occurrence of an error state by turning on one remote controller. For this reason, it is not necessary to go to the location of each remote controller to turn on all remote controllers corresponding to the device again, and the control system can be returned to the operating state prior to the occurrence of the error state, which is convenient for use. improves.
[0010]
In addition, the memory stores that the remote control was in an off state when the error state occurred, and in that error state, all the remote controllers were turned off and turned on to resume power supply to the device. When the remote control is stored in the memory as being in an off state, the remote control means preferably switches the remote control that has been turned on to an off state.
[0011]
According to the present system, if the control system is reset after the occurrence of the error state and the remote control turned on to resume power supply to the device is stored in the memory as being off when the error state occurs, the remote control It is switched off by the control means. Accordingly, there is an advantage that the device corresponding to the remote controller turned on for restarting the device does not operate, and it is not necessary to operate the remote controller again to switch to the off state in order to stop the device.
[0012]
It is preferable that the remote controller is provided with error display means for displaying the fact when the error state occurs. As a result, the user can quickly recognize that an error condition has occurred, and can prevent the timing of remote control operation from being significantly delayed in the reset control system.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of a control system of the present invention will be described with reference to the accompanying drawings. FIG. 1 is an explanatory diagram of the configuration of the control system of this embodiment, and FIG. 2 is an operation explanatory diagram of the control system of this embodiment.
[0014]
The control system shown in FIG. 1 comprises a hot water supply device 1 that is powered and operated, and heating devices 2a, 2b, and 2c provided in the rooms A, B, and C, respectively. Hot water mats 3a, 3b, and 3c for warming the room, and remote controllers 4a, 4b that are provided in each room and are turned on and off to start and stop the power supply to the hot water supply device 1 and the operation of the heating devices 2a to 2c, 4c.
[0015]
The hot water supply device 1 includes a controller 5 that controls the operation of the hot water supply device 1, a hot water circuit 6, and a burner 7 that heats water in the hot water circuit 6. The controller 5 transmits an error signal to the remote controllers 4a to 4c when an error state occurs. Here, the “error state” refers to a state in which the operation of the hot water supply device 1 is stopped even though any one of the remote controllers 4a to 4c is in the on state and the hot water supply device 1 should operate.
[0016]
The hot water circuit 6 receives the combustion heat of the burner 7 and heats the water in the hot water circuit 6, and a pump 9 that is upstream of the heat exchanger 8 and circulates hot water in the direction of the arrow in the figure. A cistern 10 that absorbs the expansion and contraction of the hot water in the hot water circuit 6 is provided upstream of the pump 9. The hot water circuit 6 includes three return passages 6a, 6b, and 6c that branch into three downstream from the heat exchanger 8 and merge upstream of the cistern 10 through the hot water mats 3a, 3b, and 3c, respectively. Further, a bypass path 11 is provided that branches downstream of the heat exchanger 8 and upstream of the branch point of the reflux paths 6 a to 6 c and joins downstream of the junction of the reflux paths 6 a to 6 c and upstream of the cistern 10. Open / close control valves 12a, 12b, 12c for adjusting the heat radiation amount from the hot water mats 3a-3c to the rooms A, B, C by controlling the open / close time upstream of the hot water mats 3a-3c are provided in the reflux paths 6a-6c. Is provided.
[0017]
A gas supply path 13 through which fuel gas is supplied is connected to the burner 7. The gas supply path 13 includes a source gas solenoid valve 14 and a gas solenoid valve 15 that switch between supply and cutoff of gas to the burner 7, and gas supply. A gas proportional valve 16 for adjusting the amount is provided. Further, a combustion fan 17 for supplying combustion air to the burner 7 is provided.
[0018]
The remote controllers 4a to 4c are contact-type remote controllers, and switches 18a to 18c, contacts 19a to 19c for supplying / cutting off electric power from the power source by opening and closing, and contacts 19a to 19c for opening and closing the contacts 19a to 19c. To 4c on / off states ("remote control switching means" of the present invention) 20a to 20c, and "error occurrence" to indicate that an error state has occurred when an error signal is received from the controller 5 The panels ("error status display means" of the present invention) 21a to 21c are provided. The microcomputers 20a to 20c include memories 22a to 22c that store whether the remote controllers 4a to 4c are on or off when an error state occurs. The contact-type remote controllers 4a to 4c are connected in parallel to the hot water supply device 1. If any one of the contact points 19a to 19c is closed, the hot water supply device 1 is powered and the hot water supply device 1 operates. It is configured.
[0019]
Here, the operation of the system configured as described above will be described with reference to FIGS. 1 and 2. Assume that the remote controller 4a is first turned on as shown in FIG. 2 from the state where all the three remote controllers 4a to 4c are off. As a result, power supply to the hot water supply device 1 is started, the combustion fan 17 is operated, combustion air is supplied to the burner 7, an igniter (not shown) is operated, the original gas solenoid valve 14 and the gas solenoid valve 15 are opened, Gas is supplied to the burner 7 and the burner 7 starts to burn. Thereby, the temperature of the water in the hot water circuit 6 is raised through the heat exchanger 8. When the controller 5 determines that the contact point 19a of the remote controller 4a is closed, an open signal is transmitted from the controller 5 to the open / close control valve 12a, the open / close control valve 12a is opened, and the pump 9 starts operating. The hot water generated in the heat exchanger 8 is supplied to the hot water mat 3a through the reflux path 6a, and the room A is warmed from the floor surface. Assume that after the remote controller 4a is turned on, the remote controller 4b is also turned on as shown in FIG. As a result, the open / close control valve 14b is opened, and warm water is also supplied to the warm water mat 3b via the reflux path 6b, thereby warming the room B.
[0020]
Then, it is assumed that an error state occurs in which the burner 7 stops burning while the remote controllers 4a and 4b are on. At this time, an error signal is transmitted from the controller 5 to the remote controllers 4a to 4c, the contacts 19a and 19b are closed by the microcomputers 20a and 20b, and the remote controllers 4a and 4b that have been in the ON state as shown in FIG. Switched off. Moreover, in the hot water supply device 1 due to the occurrence of the error state, the original gas solenoid valve 14 and the gas solenoid valve 15 are closed, the combustion fan 17 is stopped, the pump 9 is stopped, and the open / close control valves 12a and 12b are closed. The Further, “error occurrence” is displayed on each of the panels 21a to 21c of the remote controllers 4a to 4c. The memories 22a and 22b store that the remote controllers 4a and 4b are on when the error state occurs, and the memory 22c stores that the remote controller 4c is off when the error state occurs.
[0021]
Subsequently, when the user who notices the error display on the panel 21c turns on the remote controller 4c, the power supply to the hot water supply device 1 is resumed, and the hot water supply device 1 is restarted as shown in FIG. At this time, the display of “error occurrence” on the panels 21a to 21c disappears on the remote controllers 4a to 4c. Next, an on-state switching signal is transmitted from the controller 5 to the remote controllers 4a to 4c. At this time, the remote controllers 4a and 4b stored in the memories 22a and 22b as being in the on state when the error state occurs are switched from the off state to the on state by the microcomputers 20a and 20b. Moreover, since the remote controller 4c turned on for restarting the hot water supply device 1 stores that the memory 22c was turned off when the error state occurred, it is stored in the second memory 9. The remote controller 4c is switched from the on state to the off state by the microcomputer 20c.
[0022]
According to the control system, all the remote controllers 4a and 4b that were in the on state when the error state occurred are switched to the off state by the microcomputers 20a and 20b. Further, the open / close control valves 12a and 12b are closed, the hot water supply to the hot water mats 3a and 3b is stopped, and the heating devices 2a and 2b are forcibly stopped. For this reason, all the heating devices 2a to 2c are stopped and all the remote controllers 4a to 4c are turned off, so that the operating states of the heating devices 2a to 2c and the on / off states of the remote controllers 4a to 4c are matched. That is, although any of the remote controllers 4a to 4c is in the on state even though the heating devices 2a to 2c are stopped, it is not necessary to turn off all of the on state remote controllers. Thus, the control system is reset. Therefore, when an error state occurs, the user does not have to go to the rooms A and B to turn off the remote controllers 4a and 4b that are in the on state, and the trouble of resetting the control system is eliminated. .
[0023]
Further, when the remote controller 4c is turned on to resume power supply to the hot water supply device 1 after the occurrence of an error state, the remote controllers 4a and 4b stored as being on when the error state occurs by the memories 22a and 22b. Is turned on, and the heating devices 2a and 2b resume operation. Accordingly, the user can restart the heating devices 2a and 2b without turning on the remote controllers 4a and 4b by turning on the remote controller 4c.
[0024]
Furthermore, after the occurrence of the error state, the remote controller 4c turned on to resume the operation of the hot water supply device 1 stores in the memory 22c that it was in the off state when the error state occurred. For this reason, the remote control 4c is switched off by the microcomputer 20c, and the heating device 2c does not operate. Therefore, it is not necessary for the user to switch the remote controller 4c from the on state to the off state in order to stop the heating device 2c after the remote controller 4c is turned on to restart the hot water supply device 1.
[0025]
In addition, the user can quickly detect that an error condition has occurred by looking at the panels 21a to 21c, and avoids a significant delay in the operation timing of the remote controls 4a to 4c in the reset control system. be able to.
[0026]
In this embodiment, the remote controller 4c is turned on after the error state occurs. However, as another embodiment, the remote controller 4a or 4b may be turned on. In this case, since it is stored in the memories 22a and 22c that the remote controllers 4a and 4b are in the on state when the error state occurs, the remote controllers 4a and 4b are not switched to the off state and are left in the on state. Both 2a and 2b are restarted.
[0027]
In another embodiment, the memories 22a to 22c may not store that the remote controllers 4a to 4c were in the off state when the error state occurred. With such a configuration, in the above example, the heating device 2c corresponding to the remote controller 4c that is switched to the ON state when the control system is reset operates as it is. Furthermore, the memories 22a to 22c may be omitted as another embodiment. In this case, after the occurrence of the error state, only the heating device corresponding to the remote control that the user has turned on can be restarted.
[0028]
In this embodiment, the user can know that an error has occurred by displaying the characters “error occurred” on the panels 21a to 21c. However, as another embodiment, the lamps provided on the remote controls 4a to 4c are turned on. Alternatively, the user may be able to know that the user is in an error state by blinking or by sound generation from the sound generation device.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating the configuration of a control system according to the present embodiment. FIG. 2 is a diagram illustrating operation of the control system according to the present embodiment.
DESCRIPTION OF SYMBOLS 1 ... Hot water supply apparatus (apparatus), 2a-2c ... Heating apparatus (equipment), 4a-4c ... Remote control, 21a-21c ... Microcomputer (remote control switching means), 21a-21c ... Panel (error display means), 21a-21c ... memory

Claims (4)

A device that operates by being powered, a plurality of devices connected to the device, and a power supply to the device corresponding to each of the devices , depending on whether the device is switched on or off by a switch operation by the user And a control system comprising a plurality of remote controllers for starting or stopping the operation of the device,
Remote control means for switching all of the remote controllers that are in an on state to an off state when an error state occurs in which the operation of the device stops despite any of the plurality of remote controllers being in an on state; A control system characterized by A memory for storing that the remote control is in an on state when the error state occurs; in the error state, all the remote controllers are in an off state; and any one of the plurality of remote controls to resume power supply to the device 2. The control system according to claim 1, wherein when the remote controller is turned on, the remote controller control means stores the remote controller in the on state by the memory and switches the remote controller in the off state to the on state. The memory stores that the remote control is in an off state when the error state occurs, and in this error state, all the remote controllers are in an off state, and the remote controller is in an on state to resume power supply to the device. 3. The control system according to claim 2, wherein when the memory stores that the remote controller is in an off state, the remote controller control means switches the remote controller in the on state to an off state. The control system according to any one of claims 1 to 3, wherein the remote controller is provided with an error display means for displaying when the error state occurs.

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