JP7486051B2 - Communication system for plumbing equipment - Google Patents

Description

The present invention generally relates to communication systems for plumbing equipment.

A communication system is known that allows a manager to manage restrooms using a manager's terminal by transmitting the state of the restrooms to an external device via a network (for example, see Patent Document 1).

In addition, a communication system for bathroom equipment is also known that allows an administrator to centrally manage the usage status and need for maintenance of bathroom equipment such as warm-water washing toilet seats, toilet bowls, hand washing basins, soap dispensers, electric water heaters, and hand dryers on an administrator's terminal.

In such a communication system for plumbing devices, information such as the status and usage of the plumbing devices is transmitted from a network device such as a gateway to an external device. In this case, one network device is connected to each of the plumbing devices by using a communication standard that allows communication with multiple plumbing devices.

Patent No. 6636892

In a communication system for plumbing devices, in order to build a network, pairing work must be performed between the network device and each plumbing device. In this case, the pairing work may require complex work processes to prevent erroneous pairing. If this complex work process is performed individually for multiple plumbing devices, a lot of work time will be required, and there is a risk of reduced efficiency in the pairing work. It is also possible to prevent erroneous pairing by making pairing possible within a certain period of time after power-on. However, in devices where the power source is not necessarily exposed to the outside and the power cannot be easily operated, there is a risk of reduced efficiency in the pairing work.

The present invention was made based on the recognition of such problems, and aims to provide a communication system for plumbing devices that can reduce the workload involved in pairing multiple plumbing devices with network devices.

The first invention is a communication system for wet-area devices, comprising a network device connected to an external device via a network, a communication device connected to the network device, and a plurality of wet-area devices each having a human body detection unit that detects a human body, and a command device that transmits a pairing command signal to the wet-area devices for pairing the network device with the communication device, wherein the communication device does not transition to a pairing mode for pairing with the network device when the wet-area device receives the pairing command signal if the human body detection unit does not detect a human body, and transitions to a pairing mode for pairing with the network device when the wet-area device receives the pairing command signal if the human body detection unit detects a human body.

According to this communication system for wet-area devices, the human body detection unit provided in the wet-area device can be used to efficiently transition the communication device to pairing mode. Furthermore, even if the communication device receives a pairing command signal, it will not transition to pairing mode unless the human body detection unit of the wet-area device detects a human body, so erroneous pairing between a network device and the communication device can be suppressed. This reduces the workload of pairing multiple wet-area devices with a network device.

The second invention is a communication system for plumbing devices according to the first invention, characterized in that pairing between the communication device and the network device is performed when both the communication device and the network device have transitioned to a pairing mode.

According to this communication system for plumbing devices, for example, by transitioning multiple plumbing devices to pairing mode and then transitioning the network device to pairing mode, it is possible to pair multiple plumbing devices with a network device all at once. This therefore reduces the workload of pairing multiple plumbing devices with a network device.

The third invention is a communication system for plumbing equipment according to the first or second invention, characterized in that the plumbing equipment has a warm water washing toilet seat having a toilet seat, and the human body detection unit has a seating sensor that detects sitting on the toilet seat.

According to this communication system for bathroom equipment, the seating sensor of the bathroom seat can be used to easily switch the communication device of the bathroom seat into pairing mode. Furthermore, the communication devices of other bathroom equipment will not switch into pairing mode even if they receive a pairing command signal unless the human body detection unit of the other bathroom equipment detects a human body. This makes it possible to prevent the communication devices of other bathroom equipment from unintentionally switching into pairing mode.

The fourth invention is a communication system for a plumbing device according to the first or second invention, characterized in that the plumbing device has a urinal, and the human body detection unit has a human body detection sensor that detects a human body located in front of the urinal.

According to this communication system for bathroom equipment, the human body detection sensor in the urinal can be used to easily switch the urinal's communication device into pairing mode. Furthermore, the communication devices of other bathroom equipment will not switch into pairing mode even if they receive a pairing command signal unless the human body detection unit of the other bathroom equipment detects a human body. This makes it possible to prevent the communication devices of other bathroom equipment from unintentionally switching into pairing mode.

According to an aspect of the present invention, a communication system for plumbing devices is provided that can reduce the workload involved in pairing multiple plumbing devices with network devices.

FIG. 1 is an explanatory diagram illustrating a network system. 1 is a block diagram showing a schematic diagram of a communication system for a plumbing device according to a first embodiment of the present invention; 4 is a flowchart showing a control process executed by a control unit of the communication device. 4 is a flowchart showing a control process executed by a control unit of the device main body. 4 is a flowchart showing a control process executed by a control unit of the network device. FIG. 11 is an explanatory diagram for a case where the communication device is shifted to a pairing mode. FIG. 11 is an explanatory diagram for a case where a network device is shifted to a pairing mode. FIG. 11 is an explanatory diagram showing a state in which pairing is completed. FIG. 2 is a perspective view of the plumbing equipment in the form of a warm-water washing toilet seat. FIG. 2 is a perspective view of a bathroom equipment in the form of a urinal. FIG. 11 is a block diagram showing a schematic diagram of a communication system for plumbing equipment according to a second embodiment of the present invention. 4 is a flowchart showing a control process executed by a control unit of the communication device. 4 is a flowchart showing a control process executed by a control unit of the device main body. FIG. 11 is an explanatory diagram showing pairing settings of a communication system for a plumbing device according to a modified example of the present invention.

Hereinafter, an embodiment will be described with reference to the drawings. In the drawings, like elements are designated by like reference numerals and detailed description thereof will be omitted as appropriate.
FIG. 1 is an explanatory diagram illustrating a network system.
As shown in FIG. 1, the network system 101 includes a plumbing device 10, an external device 40 connected to the plumbing device 10 via a network 30, and an administrator terminal 50 connected to the external device 40 via the network 30.

The plumbing equipment 10 is, for example, equipment installed in facilities used by an unspecified number of people, and is used in connection with, for example, public toilets TR, toilets in buildings, hotel unit baths, and public baths. Examples of the plumbing equipment 10 include warm water washing toilet seats, toilet bowls, urinals, automatic faucets, automatic soap dispensers, electric water heaters, hand dryers, paper roll holders, human/queue sensors, door/lock sensors, storage shelves, lighting, speakers, music players, video displays, and eco-sensors.

The network device 20 transmits multiple pieces of device information related to, for example, the usage status and the need for maintenance of the water-related devices 10 to the external device 40 via the network 30. In this way, the network device 20 is connected to multiple water-related devices 10 and transmits multiple pieces of device information for each water-related device 10 to the external device 40, etc. The network device 20 also receives various command signals transmitted from the external device 40 and transmits them to each water-related device 10.

The network device 20 wirelessly communicates with the external device 40 via the network 30, and also wirelessly communicates with each of the plumbing devices 10 via the network 35. The network device 20 is, for example, a gateway that converts between the protocol of the network 30 on the external device 40 side and the wireless communication protocol of the plumbing device 10. Note that the network device 20 is not limited to a gateway, and may be any communication device that is capable of communicating with the outside. The communication between the network device 20 and the plumbing device 10 is bidirectional. Also, the communication between the network device 20 and the external device 40 is bidirectional.

The network 30 is, for example, the Internet or a LAN (Local Area Network), and connects the network device 20, the administrator terminal 50, and the display unit 60 via the external device 40. The network 30 may connect the external device 40 and the administrator terminal 50, the external device 40 and the network device 20, and the external device 40 and the display unit 60 with a wire, may connect them wirelessly, or may be a combination of wire and wireless. The network 30 may be any network that enables communication between the network device 20, the external device 40, and the administrator terminal 50.

The external device 40 is provided at a location away from the plumbing device 10. The external device 40 is, for example, a cloud server, which is connected to the administrator terminal 50 via the network 30 and manages information about the plumbing device 10.

The administrator terminal 50 is a terminal held by an administrator who manages the toilet room TR, and is, for example, a mobile terminal 50a or a PC terminal 50b. The administrator terminal 50 is connected to the external device 40 via the network 30. The administrator can, for example, connect to the external device 40 and obtain (view) various information on the bathroom equipment 10 installed in the toilet room TR. In addition, the administrator can operate the administrator terminal 50 to output various command signals from the external device 40 to the bathroom equipment 10.

The display unit 60 is installed, for example, at the entrances and exits of public facilities and buildings, or at information centers, and displays information within the facility. For example, the display unit 60 displays whether the toilet room TR is full or empty, the cleaning status, and the like. This allows the user to recognize the situation within the facility by checking the display unit 60.

In this way, the network system 101 makes the toilet TR an IoT (Internet of Things) facility, allowing the administrator to centrally manage the usage status of each bathroom device 10 and the need for maintenance. This allows the administrator to keep track of malfunctions, maintenance, and usage status of the bathroom devices 10 from a location away from the toilet TR. In addition, the administrator can operate the administrator terminal 50 to make various settings related to the bathroom devices 10. Therefore, the administrator can manage the toilet TR without having to go to a public toilet TR, etc.

Next, a description will be given of the communication system 1 for the plumbing devices for performing pairing to mutually authenticate the plumbing device 10 and the network device 20 before the network system 101 is used.
FIG. 2 is a block diagram showing a schematic diagram of a communication system for plumbing equipment according to the first embodiment of the present invention.
2, the communication system 1 for plumbing equipment includes a plumbing equipment 10, a network device 20, and a command device 25. The communication system 1 for plumbing equipment is a system for constructing a network 35 between the plumbing equipment 10 and the network device 20 before using the network system 101.

The plumbing device 10 has a device body 11 and a communication device 15 electrically connected to the device body 11. The plumbing device 10 transmits information about the usage status of the device body 11, the need for maintenance, and the like from the communication device 15 to the network device 20.

The device body 11 operates the plumbing device 10 and includes, for example, a human body detection unit 12 that detects a human body, a control unit 13 that controls the operation of the device body 11, and a memory unit 14 that stores the state and usage of the device body 11. For example, the device body 11 may be a heat retention device that keeps the toilet seat warm or a sanitary washing device that washes the buttocks in the case of a warm water washing toilet seat, a flushing device that flushes flushing water for flushing the toilet in the case of a urinal, or a faucet device that spouts hot and cold water in the case of an automatic faucet.

The human body detection unit 12 detects a human body. Examples of the human body detection unit 12 include a seating sensor 12a (see FIG. 9) that detects a person sitting on the seat 11a of the warm water washing toilet seat 10a, and a human body detection sensor 12c (see FIG. 10) that detects a human body in front of the urinal 10e. The human body detection unit 12 may also be a human body detection sensor 12b that detects a human body in front of the warm water washing toilet seat 10a, a human body detection sensor that detects hands to cause hot water to be discharged from an automatic faucet, a human body detection sensor that detects hands to cause soapy water to be discharged from an automatic soap dispenser, a human body detection sensor that detects a human body in front of an electric water heater, and a human body detection sensor that detects hands to cause air to be blown from a hand dryer. In other words, the human body detection unit 12 detects the presence of a person around the plumbing device 10.

The control unit 13 controls the operation of the device body 11 of the plumbing device 10. In addition, when constructing a network between the communication device 15 and the network device 20, the control unit 13 determines whether the device body 11 of the plumbing device 10 is in a state that does not allow pairing between the communication device 15 and the network device 20, or is in a state that allows pairing. The pairing control between the communication device 15 and the network device 20 will be described later.

The storage unit 14 is a memory that stores the usage history of the plumbing device 10, the status of various devices provided in the plumbing device 10, and whether or not a human body has been detected by the human body detection unit 12. The storage unit 14 also stores a control program executed by the control unit 13. The storage unit 14 may be provided within the control unit 13.

When establishing a network with the network device 20, the communication device 15 receives a first pairing command signal transmitted from the command device 25, and communicates with the network device 20 after the network is established. That is, the communication device 15 has two communication units (receiving units) capable of receiving a signal from the command device 25 and a signal from the network device 20. The command device 25 is a device for transitioning the communication device 15 to a pairing mode. The first pairing command signal constitutes the pairing command signal of the present invention. The communication device 15 has a first communication unit 16, a second communication unit 17, a control unit 18, and a memory unit 19.

The first communication unit 16 is connected to the command device 25 and has a receiver 16a that receives the first pairing command signal transmitted from the command device 25, and a transmitter 16b that transmits to the control unit 13 a notification that the receiver 16a has received the first pairing command signal.

The second communication unit 17 is connected to the network device 20 and has a receiving unit 17a that receives various command signals from the network device 20, and a transmitting unit 17b that transmits the command signals received by the receiving unit 17a to the control unit 13 and transmits information about the water-related device 10 to the network device 20.

The control unit 18 controls the operation of the communication device 15. For example, the control unit 18 stores the first pairing command signal received by the receiving unit 16a of the first communication unit 16 in the memory unit 19, and transmits a signal indicating that a first pairing command signal is present from the transmitting unit 16b of the first communication unit 16 to the control unit 13 of the device body 11. In addition, the control unit 18 transitions the communication device 15 to pairing mode in response to the first pairing command signal transmitted from the command device 25 and the pairing permission signal transmitted from the control unit 13 of the device body 11.

The storage unit 19 is a memory that stores the first pairing command signal received by the receiver 16a of the first communication unit 16, the signal transmitted and received by the second communication unit 17, and the like. The storage unit 19 also stores identification information of the paired network device 20. This identification information is set individually for each network device 20. The storage unit 19 also stores a control program executed by the control unit 18. The storage unit 19 may be provided within the control unit 18.

The network device 20 is installed, for example, in a public restroom TR, a restroom in a building, a hotel unit bath, a public bath, etc., with one for each of the plurality of bathroom equipment 10. The network device 20 is connected to the plurality of bathroom equipment 10 via a network 35, and communicates information regarding each of the bathroom equipment 10 with an external device 40 and a communication device 15. The network device 20 has a communication unit 21, a control unit 22, and a memory unit 23.

The communication unit 21 is connected to the setting device 27 and has a receiving unit 21a that receives a second pairing command signal transmitted from the setting device 27, and a transmitting unit 21b that transmits identification information of the network device 20. The setting device 27 is a device for transitioning the network device 20 to a pairing mode.

The control unit 22 controls the operation of the network device 20. For example, the control unit 22 stores the second pairing command signal received by the receiving unit 21a of the communication unit 21 in the memory unit 23, and transmits identification information of the network device 20 from the transmitting unit 21b of the communication unit 21 to each water-related device 10. In addition, the control unit 22 transitions the network device 20 to a pairing mode in response to the second pairing command signal transmitted from the setting device 27.

The storage unit 23 is a memory that stores the second pairing command signal received by the receiving unit 21a of the communication unit 21, signals transmitted and received by the communication unit 21, and the like. The storage unit 23 also stores identification information of the communication device 15 of the paired plumbing device 10. This identification information is set individually for each communication device 15. The storage unit 23 also stores a control program executed by the control unit 22. The storage unit 23 may be provided within the control unit 22.

The command device 25 transmits a first pairing command signal to the communication device 15 for pairing the communication device 15 with the network device 20. In other words, the command device 25 transitions the communication device 15 of the water-related device 10 to a pairing mode. The command device 25 is, for example, a remote control owned by an administrator who manages the water-related device 10.

The command device 25 transmits a first pairing command signal to the communication device 15 using the first communication standard. The first communication standard is, for example, one-way communication from the command device 25 to the communication device 15. The first communication standard also enables communication without pairing with the communication device 15. In other words, the first communication standard uses the same communication protocol between the command device 25 and the communication device 15 of each plumbing device 10.

Therefore, each communication device 15 within the radio wave range of the command device 25 can simultaneously receive the first pairing command signal transmitted from the command device 25. Furthermore, a single command device 25 can transition the communication devices 15 of each plumbing device 10 to pairing mode without providing a dedicated command device for each communication device 15 of each plumbing device 10. In other words, the first pairing command signal is a signal common to each communication device 15. In other words, the first communication standard is a method in which each communication device 15 judges the signal from the command device 25.

On the other hand, communication between the network device 20 and each communication device 15 is based on a second communication standard, which has a different communication protocol from the first communication standard. The second communication standard allows two-way communication between the network device 20 and the communication device, for example, by performing pairing (network construction), but information cannot be communicated until pairing (network construction) is performed. Therefore, each communication device 15 is capable of receiving communications having two different communication protocols.

The setting device 27 transmits a second pairing command signal to the network device 20 for pairing the communication device 15 with the network device 20. In other words, the setting device 27 transitions the network device 20 to a pairing mode. The setting device 27 is, for example, a tablet terminal owned by an administrator who manages the plumbing equipment 10. Note that the setting device 27 is not limited to a tablet terminal, and may be, for example, a switch provided in the network device 20.

The communication system 1 for plumbing devices according to this embodiment has the configuration described above. Next, we will explain the pairing process for pairing the communication device 15 of the plumbing device 10 with the network device 20.

FIG. 3 is a flow chart showing a control process executed by the control unit of the communication device.
FIG. 4 is a flowchart showing the control process executed by the control unit of the device main body.
FIG. 5 is a flowchart showing the control process executed by the control unit of the network device.
3 to 5, each step is indicated by "S", for example, "step 1" is indicated by "S1".
The control process shown in Fig. 3 is stored in advance in the storage unit 19 of the communication device 15. The control process shown in Fig. 4 is stored in advance in the storage unit 14 of the device main body 11. The control process shown in Fig. 5 is stored in advance in the storage unit 23 of the network device 20.

First, the pairing control process executed by the control unit 18 of the communication device 15 will be described with reference to FIG. 3.

In S1, it is determined whether or not a first pairing command signal has been received from the command device 25. That is, the control unit 18 determines whether or not the receiving unit 16a has received the first pairing command signal.

If S1 is "YES", i.e., the control unit 18 determines that the first pairing command signal has been received, the first pairing command signal is stored in the storage unit 19 and the process proceeds to S2. On the other hand, if S1 is "NO", i.e., the control unit 18 determines that the first pairing command signal has not been received, the process ends.

In S2, the control unit 18 transmits to the control unit 13 of the device body 11 that the first pairing command signal has been received. That is, the control unit 18 transmits a control signal to the control unit 13 of the device body 11 to notify that the first pairing command signal has been received.

In the next step S3, it is determined whether or not a pairing permission signal has been received from the control unit 13 of the device main body 11. The pairing permission signal transmitted by the control unit 13 is executed based on the control process of FIG. 4. The control by which the control unit 13 transmits the pairing permission signal to the control unit 18 of the communication device 15 will be described later.

If S3 is "YES", i.e., the control unit 18 determines that a pairing permission signal has been received, the process proceeds to S4. On the other hand, if S3 is "NO", i.e., the control unit 18 determines that a pairing permission signal has not been received, the process ends.

In S4, the communication device 15 transitions to pairing mode. That is, the control unit 18 transitions to a state in which it accepts the identification information of the network device 20 in order to perform pairing with the network device 20. The pairing mode continues for a predetermined time (e.g., 3 to 10 minutes). During the pairing mode, the control unit 18 causes the communication device 15 to transmit the identification information of the network device 20.

In S5, it is determined whether or not the identification information of the network device 20 has been received. That is, the control unit 18 determines whether or not the identification information of the network device 20 transmitted by the network device 20 transitioning to the pairing mode has been received. The pairing control in which the network device 20 transitions to the pairing mode is executed based on the control process of FIG. 5. The control process of FIG. 5 will be described later.

If S5 returns "YES", that is, if the control unit 18 determines that the identification information of the network device 20 has been received, the process proceeds to S6. On the other hand, if S5 returns "NO", that is, if the control unit 18 determines that the identification information of the network device 20 has not been received, the control unit 18 monitors the identification information of the network device 20 for the predetermined time (e.g., 3 to 10 minutes). When this predetermined time has elapsed, the pairing mode is released and the process ends.

In the next step S6, the identification information of the network device 20 is stored. That is, the control unit 18 causes the storage unit 19 to store the identification information of the network device 20, and then ends the process.

Next, the pairing control process executed by the control unit 13 of the device main body 11 will be described with reference to FIG. 4.

In S11, it is determined whether or not a pairing command signal has been received from the communication device 15. That is, the control unit 13 determines whether or not the communication device 15 has received a first pairing command signal from the command device 25.

If S11 is "YES", that is, if the control unit 13 determines that a pairing command signal has been received from the communication device 15, the process proceeds to S11. That is, the "YES" in S11 is based on S2 in FIG. 3. On the other hand, if S11 is "NO", that is, if the control unit 13 determines that a pairing command signal has not been received from the communication device 15, the process ends.

In S12, the control unit 13 determines whether the human body detection unit 12 has detected a human body. That is, for example, in the case of a warm water washing toilet seat 10a, the control unit 13 can set the state to one in which the seating sensor 12a serving as the human body detection unit 12 detects a person sitting on the toilet seat 11a (see FIG. 9). In the case of a urinal 10e, the control unit 13 can set the state to one in which the human body detection sensor 12b serving as the human body detection unit 12 detects a human body in front of the urinal 10e (see FIG. 10). In the case of an automatic faucet, hand dryer, electric water heater, and automatic soap dispenser, the control unit 13 can set the state to one in which the photoelectric sensor serving as the human body detection unit 12 detects a human body (hands).

If S12 is "YES", that is, if the control unit 13 determines that the human body detection unit 12 has detected a human body, the process proceeds to S13. On the other hand, if S12 is "NO", that is, if the control unit 13 determines that the human body detection unit 12 has not detected a human body, the process ends. In other words, if the human body detection unit 12 has not detected a human body, the control unit 13 refuses the communication device 15 from transitioning to pairing mode.

In S13, the control unit 13 transmits a pairing permission signal to the communication device 15. That is, the control unit 13 permits the communication device 15 to enter pairing mode, and then ends the process.

Next, the pairing control process executed by the control unit 22 of the network device 20 will be described with reference to FIG. 5.

First, in S21, it is determined whether or not a second pairing command signal has been received from the setting device 27. That is, the control unit 22 determines whether or not the receiving unit 21a has received the second pairing command signal.

If S21 returns "YES", i.e., the control unit 22 has determined that the second pairing command signal has been received, the second pairing command signal is stored in the storage unit 23 and the process proceeds to S22. On the other hand, if S21 returns "NO", i.e., the control unit 22 has determined that the second pairing command signal has not been received, the process ends.

In S22, the mode transitions to pairing mode. That is, the control unit 22 transitions to a state in which it accepts the identification information of the communication device 15 in order to perform pairing with the communication device 15. The pairing mode continues for a predetermined time (e.g., 3 to 10 minutes). During the pairing mode, the control unit 22 causes the identification information of the network device 20 to be transmitted to the communication device 15.

In the next step S23, it is determined whether or not the identification information of the communication device 15 has been received. In other words, the control unit 22 determines whether or not the identification information of the communication device 15 that was transmitted by the communication device 15 transitioning to the pairing mode has been received.

If S23 returns "YES", i.e. the control unit 22 has determined that it has received the identification information of the communication device 15, the process proceeds to S24. On the other hand, if S23 returns "NO", i.e. the control unit 22 has determined that it has not received the identification information of the communication device 15, the control unit 22 monitors the identification information of the communication device 15 for the predetermined time (e.g., 3 to 10 minutes). When this predetermined time has elapsed, the pairing mode is released and the process ends.

In the next step S24, the identification information of the communication device 15 is stored. That is, the control unit 22 stores the identification information of the communication device 15 in the storage unit 23, and then ends the process.

Next, with reference to Figures 6 to 8, the pairing process between the communication device 15 provided in the warm water washing toilet seat 10a as the bathroom equipment 10 and the network device 20a will be described.

FIG. 6 is an explanatory diagram of a case where the communication device is shifted to the pairing mode.
FIG. 7 is an explanatory diagram of a case where a network device is shifted to a pairing mode.
FIG. 8 is an explanatory diagram showing a state in which pairing is completed.
FIG. 9 is a perspective view of the plumbing equipment being a warm-water washing toilet seat.
FIG. 10 is a perspective view of a plumbing device that is a urinal.

The toilet rooms TR shown in Figures 6 to 8 are adjacent to a male toilet room TR1 and a female toilet room TR2. The toilet room TR1 is provided with water-related equipment 10 such as warm-water washing toilet seats 10a to 10d, urinals 10e to 10i, automatic faucets 10j and 10k, and a hand dryer 10m. The toilet room TR2 is provided with water-related equipment 10 such as warm-water washing toilet seats 10n, 10p to 10t, automatic faucets 10u and 10v, and a hand dryer 10w.

The water-related equipment 10 is not limited to this, and other equipment such as an automatic soap dispenser or an electric water heater (not shown) may be provided. A network device 20a for the toilet room TR1 is provided in the toilet room TR1, and a network device 20b for the toilet room TR2 is provided in the toilet room TR2.

As shown in FIG. 9, the warm water washing toilet seat 10a is provided above the toilet bowl 100. The device body 11 of the warm water washing toilet seat 10a includes a toilet seat 11a, a washing nozzle 11b that sprays washing water onto the body parts (such as the buttocks) of a user sitting on the toilet seat 11a, a lid 11c that covers the top of the toilet seat 11a, a human body detection unit 12 that detects the human body, a control unit 13 that controls the operation of the warm water washing toilet seat 10a, and a memory unit 14 in which a control program executed by the control unit 13 is stored.

In this example, the communication device 15 is set to be able to switch to pairing mode when the seating sensor 12a of the warm water washing toilet seat 10a detects a person sitting on the toilet seat 11a. The communication device 15 may also be set to be able to switch to pairing mode when the human body detection sensor 12b, which detects a human body in front of the warm water washing toilet seat 10a, detects a human body.

As shown in FIG. 6, the administrator can switch the communication device 15 of the warm water washing toilet seat 10a to pairing mode by operating the command device 25 while seated on the toilet seat 11a of the warm water washing toilet seat 10a. For ease of explanation, the seated state of the toilet seat 11a is indicated by diagonal lines in FIG. 6. That is, when the communication device 15 receives a pairing command signal while the seating sensor 12a of the warm water washing toilet seat 10a detects seating, it switches to pairing mode.

Note that if the administrator operates the command device 25 without sitting on the toilet seat 11a, the communication device 15 cannot be switched to pairing mode. In other words, when the command device 25 is operated to switch the communication device 15 of the warm-water washing toilet seat 10a to pairing mode, even if the adjacent warm-water washing toilet seat 10b receives a pairing command signal, the communication device 15 of the warm-water washing toilet seat 10b does not switch to pairing mode because the seating sensor does not detect a person being seated. Similarly, for the urinals 10e-10i, automatic faucets 10j, 10k, hand dryer 10m, and other plumbing devices 10 installed in the toilet room TR2, even if they receive a pairing command signal, the human body detection unit 12 does not detect a human body, so the respective communication devices 15 do not switch to pairing mode.

Next, as shown in FIG. 7, the administrator operates the setting device 27. In this case, since both network device 20a and network device 20b are provided within the communication range of the setting device 27, a selection screen for selecting which network device 20 to transition to pairing mode is displayed on the setting device 27. Then, the administrator can transition network device 20a to pairing mode by selecting network device 20a.

As shown in FIG. 8, when both the communication device 15 of the warm water washing toilet seat 10a and the network device 20a enter pairing mode, the communication device 15 and the network device 20a are automatically paired. In this case, the setting device 27 displays the identification information of the paired communication device 15. If an erroneous pairing is displayed, the setting device 27 can cancel the pairing between the erroneously paired communication device 15 and the network device 20. After pairing is performed, the communication device 15 of the warm water washing toilet seat 10a and the network device 20a store each other's identification information, and data communication can be performed according to the second communication standard.

Other bathroom equipment 10 can also pair the communication device 15 with the network device 20 by using a similar procedure. For example, in the urinal 10e shown in Fig. 10, an administrator can switch the communication device 15 of the urinal 10e to the pairing mode by operating the command device 25 while standing in front of the urinal 10e. That is, when the communication device 15 of the urinal 10e receives a pairing command signal while the human body detection sensor 12c of the urinal 10e detects a human body, the communication device 15 of the urinal 10e switches to the pairing mode.

Note that if the manager operates the command device 25 without being detected by the human body detection sensor 12b of the urinal 10e, the communication device 15 cannot be switched to pairing mode. In other words, when the command device 25 is operated to switch the communication device 15 of the urinal 10e to pairing mode, even if the adjacent urinal 10f receives a pairing command signal, the communication device 15 of the urinal 10f does not switch to pairing mode because the human body detection sensor has not detected a human body.

The communication device 15 can continue the pairing mode for a predetermined time. Therefore, by switching the communication devices 15 of multiple bathroom devices 10 to the pairing mode and switching the network device 20 to the pairing mode within the predetermined time, the communication devices 15 of multiple bathroom devices 10 can be paired with the network device 20 collectively. This can prevent erroneous pairing and reduce the work time required for pairing, thereby improving the work efficiency of the pairing work.

Thus, the communication system 1 for plumbing devices according to this embodiment includes a network device 20 connected to an external device 40 via a network 30, a communication device 15 connected to the network device 20, a plurality of plumbing devices 10 each having a human body detection unit 12 that detects a human body, and a command device 25 that transmits a pairing command signal to the plumbing devices 10 to pair the network device 20 with the communication device 15.

When the bathroom device 10 receives a pairing command signal, the communication device 15 does not transition to a pairing mode for pairing with the network device 20 if the human body detection unit 12 does not detect a human body, and transitions to a pairing mode for pairing with the network device 20 if the bathroom device 10 receives a pairing command signal and the human body detection unit 12 detects a human body.

This allows the communication device 15 to efficiently transition to pairing mode by utilizing the human body detection unit 12 provided in the bathroom device 10. Furthermore, even if the communication device 15 receives a pairing command signal, it will not transition to pairing mode unless the human body detection unit 12 of the bathroom device 10 detects a human body, so erroneous pairing between the network device 20 and the communication device 15 can be suppressed. This reduces the workload of pairing multiple bathroom devices 10 with the network device 20.

Furthermore, pairing between the communication device 15 and the network device 20 is performed when both the communication device 15 and the network device 20 have transitioned to the pairing mode. As a result, for example, by transitioning multiple plumbing devices 10 to the pairing mode and then transitioning the network device 20 to the pairing mode, it is possible to pair multiple plumbing devices 10 and the network device 20 together. Therefore, the workload of pairing multiple plumbing devices 10 and the network device 20 can be reduced.

The bathroom equipment 10 also has a warm-water washing toilet seat 10a having a toilet seat 11a, and the human body detection unit 12 has a seating sensor 12a that detects sitting on the toilet seat 11a. This allows the seating sensor 12a of the warm-water washing toilet seat 10a to be used to easily switch the communication device 15 of the warm-water washing toilet seat 10a to pairing mode. Furthermore, the communication device 15 of the other bathroom equipment 10 will not switch to pairing mode even if it receives a pairing command signal unless the human body detection unit 12 of the other bathroom equipment 10 detects a human body. This prevents the communication device 15 of the other bathroom equipment 10 from unintentionally switching to pairing mode.

The plumbing device 10 also has a urinal 10e, and the human body detection unit 12 has a human body detection sensor 12c that detects a human body located in front of the urinal 10e. This allows the communication device 15 of the urinal 10e to easily transition to pairing mode by using the human body detection sensor 12c of the urinal 10e. Furthermore, the communication device 15 of the other plumbing device 10 will not transition to pairing mode even if it receives a pairing command signal unless the human body detection unit 12 of the other plumbing device 10 detects a human body. This prevents the communication device 15 of the other plumbing device 10 from unintentionally transitioning to pairing mode.

Next, a communication system for plumbing equipment according to a second embodiment of the present invention will be described with reference to Figures 11 to 13. The second embodiment is characterized in that a pairing command signal is received by a communication unit in the equipment body. In the second embodiment, the same components as those in the first embodiment described above are given the same reference numerals, and their description will be omitted.
FIG. 11 is a block diagram showing a schematic diagram of a communication system for plumbing equipment according to a second embodiment of the present invention.
FIG. 12 is a flowchart showing the control process executed by the control unit of the communication device.
FIG. 13 is a flowchart showing the control process executed by the control unit of the device main body.

The communication unit 70 is provided in the device main body 11. The communication unit 70 has a receiving unit 70a that receives a pairing command signal transmitted from the command device 25, and a transmitting unit 70b that transmits a pairing permission signal controlled by the control unit 13 to the communication device 15. Note that the communication unit 70 is not limited to communicating with the command device 25, and may communicate with other devices such as an operating device (remote control) for operating the plumbing device 10.

As shown in FIG. 13, in the control unit 13 of the device body 11, S31 (whether a first pairing command signal has been received from the command device 25) is applied instead of S11 in FIG. 4. Then, the control unit 13 of the device body 11 transmits a pairing permission signal to the communication device 15 based on the first pairing command signal and human body detection by the human body detection unit 12. Also, as shown in FIG. 12, in the control unit 18 of the communication device 15, S1 and S2 in FIG. 3 are omitted, and the control unit 18 transitions to pairing mode in response to a pairing permission signal from the control unit 13 of the device body 11.

In the second embodiment configured in this manner, the workload of pairing multiple plumbing devices 10 with a network device 20 can be reduced, as in the first embodiment. In the second embodiment, the network can be constructed by using, for example, a communication unit 70 provided in the plumbing device 10.

Next, referring to FIG. 9, a communication system for a plumbing device according to a third embodiment of the present invention will be described. The third embodiment is characterized in that, instead of a dedicated command device 25 for pairing, an operating device for operating the plumbing device 10 is provided with the function of a command device. In the second embodiment, the same components as those in the first embodiment described above are given the same reference numerals, and their description will be omitted.

The operating device 80 is, for example, a remote control provided on a wall that stands to the side of the warm water washing toilet seat 10a. This operating device 80 has, for example, switches or buttons, and is used to operate each function, such as toilet flushing and private parts washing. The operating device 80 also serves as a remote control that transmits a pairing command signal to the plumbing device 10.

The pairing command signal is not transmitted, for example, during normal use of the operating device 80. For example, the operating device 80 may have a switch for pairing commands inside a lid that can only be opened by an administrator. The operating device 80 may also transmit a pairing command signal by performing a special operation on the switch that differs from normal use, such as operating a toilet flush switch multiple times within a specified period of time, or operating multiple switches in an arbitrary order.

In the third embodiment configured in this manner, the workload of pairing multiple plumbing devices 10 with the network device 20 can be reduced, as in the first embodiment. In the third embodiment, a network can be constructed using an operation device 80 that operates the plumbing devices 10. Therefore, there is no need to prepare a dedicated command device for network construction, and the administrator does not need to carry a command device, allowing efficient network construction.

FIG. 14 is an explanatory diagram showing pairing settings in a communication system for plumbing devices according to a modified example of the present invention.
In the above-described first embodiment, as shown in Fig. 8, a case has been described in which pairing is automatically performed when both the communication device 15 and the network device 20 are in the pairing mode. However, the present invention is not limited to this. For example, as shown in a modified example shown in Fig. 14, when both the communication device 15 and the network device 20 are in the pairing mode, the setting device 27 may confirm whether or not to pair the communication device 15 and the network device 20 before pairing the communication device 15 and the network device 20. In other words, the communication device 15 and the network device 20 may be paired after both the communication device 15 and the network device 20 transition to the pairing mode and the setting device 27 issues an instruction to permit pairing. This also applies to the second and third embodiments.

In the above-described first embodiment, the control unit 13 of the device main body 11 determines whether the bathroom device 10 has detected a human body and transmits a pairing permission signal to the communication device 15. However, the present invention is not limited to this, and for example, the control unit 18 of the communication device 15 may detect whether the bathroom device 10 has detected a human body and determine whether the control unit 18 should enter pairing mode. This also applies to the second and third embodiments and the modified examples.

In the above-mentioned third embodiment, an example was described in which the operating device 80 is a remote control provided at a location separate from the plumbing device 10. However, the present invention is not limited to this, and for example, the operating device may be provided directly on the plumbing device 10. In other words, the operating device (command device 25) may be connected to the communication device 15 or the communication unit 70 by wire.

In the above-mentioned first embodiment, the case where the external device 40 is a cloud server has been described as an example. However, the present invention is not limited to this, and for example, the control processing performed by the external device 40 may be performed by the administrator terminal 50. That is, the administrator terminal 50 may have a control function for the external device 40. In other words, the administrator terminal 50 may directly manage the plumbing device 10. This also applies to the second and third embodiments and the modified examples.

The above describes the embodiments of the present invention. However, the present invention is not limited to these descriptions. Any design changes made by a person skilled in the art to the above-mentioned embodiments are also included within the scope of the present invention as long as they include the features of the present invention. For example, the shape, dimensions, materials, arrangement, etc. of each element of the communication system 1 for plumbing equipment are not limited to those exemplified, and can be changed as appropriate. Furthermore, each element of each of the above-mentioned embodiments can be combined to the extent technically possible, and such combinations are also included within the scope of the present invention as long as they include the features of the present invention.

1 Communication system for wet-water equipment, 10 Wet-water equipment, 10a-10d, 10n, 10p-10t Warm-water washing toilet seat, 10e-10i Urinal, 11 Equipment body, 11a Toilet seat, 11b Cleaning nozzle, 11c Lid, 12 Human body detection unit, 12a Sitting sensor, 12b, 12c Human body detection sensor, 13 Control unit, 14 Memory unit, 15 Communication device, 16 First communication unit, 16a Receiving unit, 16b Transmitting unit, 17 Second communication unit, 17a Receiving unit, 17b Transmitting unit, 18 Control unit, 19 Memory unit, 20 Network device, 21 Communication unit, 21a Receiving unit, 21b Transmitting unit, 22 Control unit, 23 Memory unit, 25 Command device, 27 Setting device, 30, 35 Network, 40 External device, 50 Administrator terminal, 50a Mobile terminal, 50b PC terminal, 60 Display unit, 70 Communication unit, 70a Receiving unit, 70b Transmitting unit, 80 Operation device, 100 Toilet, 101 Network system, TR Toilet room

Claims (4)

A network device connected to an external device via a network;
A plurality of plumbing devices each having a communication device connected to the network device and a human body detection unit that detects a human body;
A command device that transmits a pairing command signal to the plumbing device for pairing the network device and the communication device;
Equipped with
The communication device includes:
When the plumbing device receives the pairing command signal, if the human body detection unit does not detect a human body, the plumbing device does not enter a pairing mode for pairing with the network device,
A communication system for plumbing equipment, characterized in that when the plumbing equipment receives the pairing command signal, if the human body detection unit detects a human body, it transitions to a pairing mode for pairing with the network device. The communication system for plumbing devices according to claim 1, characterized in that pairing between the communication device and the network device is performed when both the communication device and the network device have transitioned to a pairing mode. The plumbing equipment includes a warm water washing toilet seat having a toilet seat,
3. The communication system for plumbing equipment according to claim 1, wherein the human body detection unit has a seating sensor that detects a seating on the toilet seat. The plumbing equipment includes a urinal,
3. The communication system for plumbing equipment according to claim 1, wherein the human body detection unit includes a human body detection sensor that detects a human body located in front of the urinal.

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