JP7342682B2 - Equipment interlocking system - Google Patents

Description

Aspects of the present invention relate to a device interlocking system for operating a plurality of devices used in a bathroom or washroom in conjunction with each other, and in particular, to a power supply for the device interlocking system.

In recent years, multiple devices used in bathrooms and washrooms have become more multifunctional and diversified, and space can be saved by sharing the power supply section of these multiple devices.
However, if a plurality of devices share a single power supply section, there is a problem in that all of the plurality of devices become unusable when the power supply section fails.

To solve this problem, in a system where the power supply unit is shared so that two or more power supply units are provided for multiple devices, if power cannot be supplied from the specified power supply unit due to a failure etc. , a system is disclosed in which a power source is backed up so that a device that normally operates with power from a predetermined power source is supplied with power from a power source other than the predetermined power source.

Japanese Patent Application Publication No. 1993-236678

In the case of Patent Document 1, it is necessary to prepare a plurality of power supply units capable of covering the power supply capacity of all the plurality of installed devices. In other words, since a power supply unit having an extra power supply capacity than the originally required power supply capacity is prepared, there is a problem in that the cost of the power supply unit increases.

The present invention has been made based on the recognition of this problem, and an object of the present invention is to provide a device interlocking system that can back up power with a power supply unit that does not have extra power supply capacity.

A first invention is a device interlocking system for operating a plurality of devices used in a bathroom or a washroom in conjunction with each other, comprising: a first control unit for operating the plurality of devices; and a first control unit for operating the plurality of devices. a second control section, a third control section that operates the plurality of devices, a first power supply section that supplies power to the first control section and the second control section, and a first power supply section that supplies power to the third control section. a second power supply unit that monitors power supply from the first power supply unit; a switch that supplies power from the second power supply unit to the second control unit via the third control unit; , a device interlocking system comprising: a switch drive unit that receives a signal from the power supply monitoring unit and switches the switch; and an operation restriction determination unit that receives a signal from the power supply monitoring unit and limits the operation of the third control unit. .

According to this device interlocking system, when the first power supply unit fails and the second control unit is backed up from the second power supply unit, by limiting the operation of the third control unit, the second power supply unit It is possible to back up the second control unit without increasing the number of units.

A second invention further includes a common power supply section that houses the first power supply section and the second power supply section in one, and the common power supply section branches a power supply line therein to connect the first power supply section and the second power supply section. This is a device interlocking system that supplies power to a power supply unit and the second power supply unit.

According to this equipment interlocking system, the power wiring can be branched inside the common power supply section to supply power to each power supply section (first power supply section and second power supply section), simplifying power supply construction. can do.

A third invention is a device interlocking system further comprising a backflow prevention diode that prevents current backflow to the first power supply section.

According to this device interlocking system, by supplying power from the first power supply section to the second control section via the backflow prevention diode, the backup power supply from the second power supply section is transferred to the first power supply via the second control section. It is possible to prevent the second control section from being unable to operate as a result of the second control section flowing into the second control section, and it is possible to reliably back up the second control section.

In a fourth aspect of the present invention, the third control unit is capable of controlling a plurality of functions, and the operation restriction determining unit receives a signal from the power supply monitoring unit and determines the power capacity of the second power supply unit. By stopping all functions or stopping some functions among the plurality of functions of the third control unit so as to reduce the number of functions, it is possible to supply a minimum amount of power to the second control unit. It is a device interlocking system.

According to this device interlocking system, when backing up, it is necessary to limit the operation of the third control section and reduce the power capacity of the second power supply section, but how much reduction is necessary is up to the customer. It is variable. Therefore, the operation restriction determining section can determine how much the function is to be restricted, and the operation restriction determining section stops all or some of the functions of the third control section. This enables backup with the minimum necessary operational restrictions.

A fifth invention further includes a fourth control section that is provided in a bathroom or washroom and is supplied with power from the second power supply section, and the operation restriction determination section is provided with power from the second power supply section. The device interlocking system grasps the connection status of the third control section and the fourth control section, and determines the priority order of the functions of the third control section and the fourth control section to be stopped.

According to this device interlocking system, when backing up, it is necessary to limit the operation of the third control section and reduce the power capacity of the second power supply section, but how much reduction is necessary is up to the customer. It is variable. Therefore, by using the operation restriction determining section to determine which control section's functions are to be restricted, backup can be performed with the minimum necessary operational restriction.

According to the present invention, it is possible to provide a device interlocking system that can back up power with a power supply unit that does not have extra power supply capacity.

FIG. 1 is a block diagram illustrating a device interlocking system according to a first embodiment. FIG. 1 is a block diagram illustrating a switch system according to a first embodiment. FIG. 2 is a block diagram illustrating a device interlocking system according to a second embodiment. FIG. 3 is a block diagram illustrating a device interlocking system according to a third embodiment. FIG. 3 is a block diagram illustrating a device interlocking system according to a fourth embodiment. FIG. 12 is a block diagram illustrating a device interlocking system according to a fifth embodiment.

The first embodiment will be described below with reference to the drawings. Note that in each drawing, similar components are denoted by the same reference numerals, and detailed explanations are omitted as appropriate.

FIG. 1 is a block diagram illustrating a device interlocking system according to a first embodiment.
FIG. 2 is a block diagram illustrating a switch system according to the first embodiment.
As shown in FIGS. 1 and 2, the device interlocking system 10 according to the first embodiment includes a first power supply section 12A, a second power supply section 12B, a switch 13, a first control section 14A, a second control section 14B, It has a third control section 14C.
Further, the device interlocking system 10 includes a power supply monitoring system 30.
Note that the first power supply section 12A, the second power supply section 12B, the first control section 14A, the second control section 14B, and the third control section 14C are each connected by power supply wiring.
The device interlocking system 10 operates a plurality of devices used in bathrooms and washrooms in conjunction with each other. For example, the plurality of devices include a lighting device, a water discharging device, a cleaning device, an air conditioner, an AV device, a massage device, and the like. The water discharging device includes a faucet device and a water heater connected to the faucet device. The water discharging device controls water discharge stop, water discharge temperature, water discharge flow rate, and the like. Further, the water discharging device has a function of automatically storing hot water in the bathtub. The cleaning device sprays detergent, water (hot water), sterilizing water, etc. onto the floor panel of the bathroom 2c. Further, the cleaning device has a function of automatically cleaning the bathtub. A massage device is installed in a bathtub, for example, and generates water flow or bubbles in the bathtub. The massage device may also have a function of flowing hot water toward the user's shoulders in the bathtub.

The first power supply unit 12A converts the AC power supply 11 into a DC power supply, and supplies the DC power to the first control unit 14A and the second control unit 14B.
Further, the second power supply unit 12B converts the AC power supply 11 into DC power and supplies the DC power to the third control unit 14C.
The first control unit 14A is operated by the DC power supplied from the first power supply unit 12A, and operates one of the plurality of devices provided in the bathroom or washroom.
The second control 14B is operated by the DC power supplied from the first power supply unit 12A, and operates one of the plurality of devices provided in the bathroom or washroom.
The third control unit 14C is operated by the DC power supplied from the second power supply unit 12B, and operates one of the plurality of devices provided in the bathroom or washroom.

Further, the switch 13 switches the power supply circuit so that the second control unit 14B can be supplied with the DC power supplied from the second power supply unit 12B, which is the DC power supplied to the third control unit 14C.

The power source monitoring system 30 includes a power source monitoring section 13A, a switch driving section 13B, and an operation restriction determining section 13C.
The power supply monitoring unit 13A monitors the power supply from the first power supply unit 12A.
Specifically, the power supply monitoring unit 13A monitors whether the power supply voltage of the second control unit 14B has decreased or whether power is not being supplied from the first power supply unit 12A.
The switch driving section 13B can switch the switch 13 in response to a signal from the power supply monitoring section 13A.
Furthermore, upon receiving the signal from the power supply monitoring section 13A, the operation restriction determining section 13C limits the operation of the third control section 14C.

Here, when the power supply monitoring unit 13A detects that the supply of DC power from the first power supply unit 12A is cut off, the switch driving unit 13B switches the switch 13, so that, for example, the first power supply unit 12A When power cannot be supplied to the second control unit 14B due to a failure or the like, DC power is supplied to the third control unit 14C from the second control unit 14B whose supply of DC power is cut off from the first power supply unit 12A. DC power can be supplied as a backup power source.
Note that the power supply monitoring system 30 may be integrated into any of the first control section 14A, the second control section 14B, and the third control section 14C.

Here, the supply capacities of the first power supply unit 12A and the second power supply unit 12B are, for example, the maximum power usage capacity of the first control unit 14A is 20W, the maximum power usage capacity of the second control unit 14B is 40W, and the maximum power usage capacity of the third power supply unit 14A is 40W. If the maximum usable power capacity of the control unit 14C is 50W, at least the first power supply unit 12A requires a power capacity of 60W (20W+40W), and the second power supply unit 12B requires a power capacity of 50W.
In addition, only for the second power supply unit 12B, considering the backup of the second control unit 12B (40W), it is necessary to secure a power capacity of 90W (50W + 40W), and the second power supply unit has an extra power capacity. (leading to increased costs).

In the present invention, when backing up the second control section 14B, the operation restriction determining section 13C limits the operation of the third control section 14C.
For example, the operation restriction determination unit 13C limits the third control unit 14C to operate at a maximum of 10 W or less.
As a result, the maximum usage capacity of the third control unit 14C and the second control unit 14B is a total of 50W (10W+40W), and the second power supply unit 12B can back up the second control unit 12B without increasing the power capacity from 50W. I can do it.

Next, a second embodiment will be described with reference to the drawings. Portions common to those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted.
FIG. 3 is a block diagram illustrating a device interlocking system according to the second embodiment.
In the second embodiment, as shown in FIG. 3, the function interlocking system 10 further includes a common power supply section 12M that houses the first power supply section 12A and the second power supply section 12B into one. The common power supply section 12M is configured to branch the power supply line internally and supply power to the first power supply section 12A and the second power supply section 12B.

For example, when constructing a home, if there are a plurality of power supply parts, the builder needs to connect the power supply parts to the AC power supply 11 supplied to the home as many as the number of power supply parts.
As described in the second embodiment, the power supply parts connected to the first control part 14A, the second control part 14B, and the third control part 14C are all integrated into the common power supply part 12M, so that the power supply wiring It is possible to branch the power supply inside the common power supply part 12M and supply power to each power supply part (first power supply part and second power supply part), and the power supply work can be simplified. For the builder, the connection to the AC power supply 11 supplied to the home can be completed only once.

Next, a third embodiment will be described with reference to the drawings. Portions common to those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted.
FIG. 4 is a block diagram illustrating a device interlocking system according to the third embodiment.
In the third embodiment, as shown in FIG. 4, the functionally linked system 10 further includes a backflow prevention diode 15 that prevents current backflow to the first power supply section 12A.

The backflow prevention diode 15 has a role of preventing the backed up current from flowing back to the first power supply section 12A when backup power is supplied from the third control section 14C to the second control section 14B.
This prevents the backup power from the second power supply section 12B from flowing to the first power supply section 12A via the second control section 14B, and as a result, the second control section 14B cannot be operated. Therefore, it is possible to reliably back up the second control section 14B.

Next, a fourth embodiment will be described with reference to the drawings. Portions common to those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted.
FIG. 5 is a block diagram illustrating a device interlocking system according to the fourth embodiment.
As shown in FIG. 5, in the device interlocking system 10 according to the fourth embodiment, the third control unit 14C can control the first function 16A and the second function 16B.

Further, in the device interlocking system 10 according to the fourth embodiment, when the operation restriction determining unit 13C receives a signal from the power supply monitoring unit 13A and suppresses the power consumption of the third control unit 14C, the first function 16A Alternatively, either one of the second functions 16B or both the first function 16A and the second function 16B can be stopped. In other words, the operation restriction determining unit 13C receives a signal from the power supply monitoring unit 13A, and stops all of the functions of the third control unit 14C so as to reduce the power capacity of the second power supply unit 12B, or By stopping some functions, it is possible to supply a minimum amount of power to the second control unit 14B.
Here, when backing up, it is necessary to limit the operation of the third control section and reduce the power capacity of the second power supply section, but how much it is necessary to reduce it can be varied depending on the customer's selection. As described above, the operation restriction determining section 13C can determine to what extent a function is to be restricted, and the operation restriction determining section 13C can stop all of the functions of the third control section 14C, or By stopping the functions of the parts, backup can be performed with minimal operational restrictions.
For example, if the maximum power usage of the first function 16A is 10W and the second function 16B is 40W, if you want to secure 30W of power for backup, the operation restriction determination unit 13C stops the operation of the second function 16B, By restricting usage, a power capacity of 30W can be secured.

Next, a fifth embodiment will be described with reference to the drawings. Portions common to those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted.
FIG. 6 is a block diagram illustrating a device interlocking system according to the fifth embodiment.
The device interlocking system 10 according to the fifth embodiment further includes a fourth control section 14D, as shown in FIG. The fourth control unit 14D is provided in a bathroom or a washroom, operates by the DC power supplied from the second power supply unit 12B, and operates one of the plurality of devices provided in the bathroom or washroom.
Further, in the fifth embodiment, the operation restriction determination unit 13C grasps the status of the third control unit 14C and the fourth control unit 14D that are supplied with power from the second power supply unit 12B, and determines which of them to stop. The priority order of the functions of the third control section 14C and the fourth control section 14D is determined, and the operations thereof are restricted.

For example, the maximum power capacity of the first power supply unit 12A and the second power supply unit 12B is 50W, the maximum power usage of the first control unit 14A is 20W, the maximum power usage of the second control unit 14B is 30W, and the maximum power usage of the third control unit 14A is 30W. It is assumed that the maximum power usage is 40W, and the maximum power usage of the fourth control section is 10W.
If the first power supply section 12A is unable to supply power due to a failure or the like, the power supply monitoring system 30 causes the third control section 14C to limit its operation (in the above example, it is limited from 40W to 10W), or By being stopped, power capacity for the second control unit 14B is ensured, and by operating the switch 13, it is possible to back up the second control unit 14B.
In this case, the second power supply unit will supply a total of 40W to the second control unit 14B (maximum power 30W) and the fourth control unit 14D (maximum power 10W), but the second power supply unit 12B has a maximum power capacity of 50W. will not exceed. (Even if the third control unit 14C is restricted in operation and operates at 10W, the total power will be 50W (=30+10+10), so the maximum power capacity will not be exceeded.)
In other words, by determining which control unit's function is to be restricted by the operation restriction determining unit 13C, backup can be performed with the minimum necessary operational restriction.

The embodiments of the present invention have been described above. However, the invention is not limited to these descriptions. Appropriate design changes made by those skilled in the art with respect to the above-described embodiments are also included within the scope of the present invention as long as they have the characteristics of the present invention. For example, the shape, size, material, arrangement, etc. of each element included in the device interlocking system etc. are not limited to those illustrated and can be changed as appropriate.
Furthermore, the elements provided in each of the embodiments described above can be combined to the extent technically possible, and combinations of these are also included within the scope of the present invention as long as they include the features of the present invention.

10 equipment interlocking system, 11 AC power supply, 12 power supply section, 13 switch 14 control section, 15 backflow prevention diode, 16 functional section,
30 Power supply monitoring system

Claims (5)

A device interlocking system that connects and operates multiple devices used in bathrooms and washrooms,
a first control unit that operates the plurality of devices;
a second control unit that operates the plurality of devices;
a third control unit that operates the plurality of devices;
a first power supply section that supplies power to the first control section and the second control section;
a second power supply section that supplies power to the third control section;
a power supply monitoring unit that monitors power supply from the first power supply unit;
a switch that supplies power from the second power supply unit to the second control unit via the third control unit;
a switch driving unit that receives a signal from the power supply monitoring unit and switches the switch;
A device interlocking system comprising: an operation restriction determining section that receives a signal from the power supply monitoring section and limits the operation of the third control section. further comprising a common power supply unit that houses the first power supply unit and the second power supply unit in one,
2. The device interlocking system according to claim 1, wherein the common power supply section branches a power line therein to supply power to the first power supply section and the second power supply section. 3. The device interlocking system according to claim 1, further comprising a backflow prevention diode that prevents current backflow to the first power supply section. The third control unit is capable of controlling a plurality of functions,
The operation restriction determining section receives the signal from the power supply monitoring section, and stops all or some of the functions of the third control section so as to reduce the power capacity of the second power supply section. 4. The device interlocking system according to claim 1, wherein a minimum amount of power can be supplied to the second control section by stopping the function of the second control section. further comprising a fourth control unit provided in a bathroom or washroom and supplied with power from the second power supply unit,
The operation restriction determination section grasps the connection status of the third control section and the fourth control section that are supplied with power from the second power supply section, and stops the third control section and the fourth control section from among them. The device interlocking system according to any one of claims 1 to 4, characterized in that the priority order of the functions of the control section is determined.