JP2021069051A - Water area apparatus management system - Google Patents

Abstract

To provide a water area apparatus management system capable of reducing a burden with respect to setting of water area apparatuses.SOLUTION: A water area apparatus management system 1 capable of performing setting on a water area apparatus 10 via a network 30 from a manager terminal 50 comprises a management device 40 that is provided at a location apart from the water area apparatus 10 to manage setting on the water area apparatus 10 via the network 30. The management device 40 includes: a storage unit that stores an instruction signal for executing the setting on the water area apparatus 10 instructed at the manager terminal 50; a transmission unit for transmitting the instruction signal stored in the storage unit toward the water area apparatus 10; and a control unit for controlling the transmission unit. The control unit automatically transmits the instruction signal stored in the storage unit from the transmission unit toward the water area apparatus 10 at predetermined timing.SELECTED DRAWING: Figure 1

Description

The present invention generally relates to a water supply equipment management system that externally manages water supply equipment.

Many water-related devices (for example, toilet bowls, urinals, hand washers, and dryers) are installed in toilet rooms of public facilities and commercial facilities. The settings of such water-related equipment (for example, the temperature of the toilet seat and the temperature of the buttocks washing water) are managed by the administrator for the purpose of user comfort and energy saving. However, there is a risk that the settings of the water supply equipment may be changed due to mischief or the like. In order to deal with such mischief, it was a troublesome task for the manager to visit the toilet room each time. Therefore, Patent Document 1 proposes to remotely control the setting of the water supply device in each toilet room from the outside.

Japanese Unexamined Patent Publication No. 2016-122973

In Patent Document 1, changing the setting by remote control while using the toilet bowl may cause discomfort to the user. Therefore, it is prohibited to change the setting by remote control while using the toilet bowl. However, since the administrator has to execute the setting change many times in order to change the setting of all the toilet bowls, the workability of the setting change work may be deteriorated.

The present invention has been made based on the recognition of such a problem, and an object of the present invention is to provide a water supply equipment management system capable of reducing the burden of setting the water supply equipment.

The first invention is a water supply device management system capable of making settings related to a water supply device from an administrator terminal via a network, which is provided at a position away from the water supply device and relates to the water supply device. A management device for managing settings via a network is provided, and the management device has a storage unit that stores a command signal for executing a setting related to the water supply device instructed by the administrator terminal, and a storage unit in the storage unit. It has a transmission unit that transmits the stored command signal to the water supply device and a control unit that controls the transmission unit, and the control unit transmits the command signal stored in the storage unit. It is a water supply equipment management system characterized in that automatic transmission is performed from the transmission unit to the water supply equipment at a predetermined timing.

According to this water supply equipment management system, the command signal is transmitted at a predetermined timing, so even if the user changes the settings of the water supply equipment for mischievous purposes, the administrator's trouble is troubled. It is possible to automatically restore the settings of the water supply equipment to the settings based on the command signal. As a result, the burden on the administrator side can be reduced, and the settings intended by the administrator can be made.

A second invention is the water supply equipment management system according to the first invention, wherein the control unit repeatedly transmits the command signal at a timing when a certain time has elapsed.

According to this water supply device management system, even if the setting value of the water supply device is changed, the setting of the water supply device can be surely automatically restored to the setting based on the command signal.

According to a third aspect of the invention, in the first aspect of the invention, the management device further includes a receiving unit for receiving setting information regarding the water supply device, and the control unit is set so that the receiving unit corresponds to the command signal. It is a water supply equipment management system characterized in that the command signal is transmitted at the timing when information of a setting different from the above is received from the water supply equipment.

According to this water supply equipment management system, since the command signal is transmitted only when the setting change is not intended by the administrator, unnecessary communication can be suppressed. Further, even if the setting is changed due to mischief or the like, the setting can be restored to the desired setting by the administrator at an early stage.

In the fourth aspect of the invention, in any one of the first to third aspects, the management device manages a plurality of the water-related devices, and the plurality of water-related devices are grouped in the first group. The water supply device belongs to the water supply device and the water supply device belongs to the second group, and the storage unit receives a first command signal corresponding to the first group and a second command signal corresponding to the second group. It can be stored, and the control unit can separately control the timing of transmitting the first command signal to the first group and the timing of transmitting the second command signal to the second group. It is a characteristic water supply equipment management system.

According to this water supply equipment management system, it is possible to manage the set values of the water supply equipment for each of a plurality of facilities (groups) managed by the administrator. The manager can manage a plurality of types of water-related equipment by, for example, grouping them according to the type of water-related equipment. In addition, the administrator can set the optimum set value in different temperature locations by, for example, grouping each installation location.

A fifth invention is a water supply device management system capable of making settings related to a water supply device from an administrator terminal via a network, and the water supply device is instructed by the device main body and the administrator terminal. A receiving unit that receives a command signal for executing a setting related to the device main body via a network, and a control unit that controls a setting related to the device main body based on the command signal received by the receiving unit are provided. The receiving unit is a water supply device management system characterized in that the command signal is received at a predetermined timing.

According to this water supply equipment management system, the water supply equipment receives a command signal of the setting desired by the administrator at a predetermined timing, so even if the user changes the setting of the water supply equipment for mischievous purposes or the like. , The setting of the water supply device can be automatically restored to the setting based on the command signal without bothering the administrator. As a result, the burden on the administrator side can be reduced, and the settings intended by the administrator can be made.

According to the aspect of the present invention, there is provided a water supply device management system capable of returning the set value of the water supply device to the value intended by the administrator without burden.

It is explanatory drawing which shows typically the water-related equipment management system which concerns on 1st Embodiment of this invention. It is a block diagram which shows typically the water-related equipment and management apparatus in FIG. It is a flow chart which shows the control processing performed in the control part of the management apparatus. It is a flow chart which shows the control process performed in the control part of the management apparatus which concerns on 2nd Embodiment of this invention.

Hereinafter, embodiments will be described with reference to the drawings. In each drawing, similar components are designated by the same reference numerals and detailed description thereof will be omitted as appropriate.
FIG. 1 is an explanatory diagram schematically showing a water supply device management system according to the first embodiment of the present invention.
FIG. 2 is a block diagram schematically showing the water supply device and the management device in FIG.
As shown in FIG. 1, the water supply device management system 1 includes a water supply device 10 installed in the toilet room TR, a management device 40 connected to the water supply device 10 via a network 30, and a management device 40. It includes an administrator terminal 50 connected via a network 30. The water supply device management system 1 can make settings related to a plurality of water supply devices 10 from the administrator terminal 50 via the network 30.

The management device 40 manages a plurality of water supply devices 10. The plurality of water supply devices 10 are grouped into a water supply device 10a belonging to the first group and a water supply device 10b belonging to the second group. The first group and the second group are, for example, water-related devices 10 in toilet room TRs having different installation locations. For example, the first group is the water supply device 10a of the toilet room TR installed in Tokyo, and the second group is the water supply device 10b of the toilet room TR installed in Osaka. Further, the first group and the second group may be a toilet room TR installed in a different building or a water supply device 10 of a toilet room TR for men and women.

Further, the first group and the second group may be a group of water peripheral devices 10 having the same installation location but different. For example, in the same toilet room TR, the water supply device 10a of the first group may be a toilet bowl, and the water supply device 10b of the second group may be an automatic faucet. The number of groups may be one or three or more.

The water supply device 10 is, for example, a device provided in a facility used by an unspecified number of people, and is related to, for example, a public toilet room TR, a toilet room TR in a building, a hotel unit bath, a public bath, and the like. It is a device used as a toilet. As an example, the water supply device 10 includes a warm water washing toilet seat, a toilet bowl, a urinal, an automatic faucet, an auto soap dispenser, an electric water heater, a hand drying device, a remote controller 100, and the like arranged in the toilet room TR. Can be mentioned. The water supply device 10 may be one or a plurality. Each water supply device 10 transmits information on the usage status, the necessity of maintenance, and the like to the communication device 20.

Since the water supply equipment 10a of the first group and the water supply equipment 10b of the second group have the same configuration, the water supply equipment 10a of the first group will be described below, and the water supply equipment 10b of the second group will be described below. The description of the above will be omitted. As shown in FIG. 2, the water supply device 10a relates to a device main body 11, a human body detection unit 12 provided on the device main body 11 to detect a human body, a communication unit 13 capable of communicating with the communication device 20, and the device main body 11. It includes a control unit 14 that controls a set value. The device main body 11 is, for example, a toilet seat having a heat retaining function, a sanitary cleaning device for cleaning the buttocks, an automatic faucet capable of discharging hot water, and the like.

The human body detection unit 12 is provided with, for example, a human body detection sensor provided on the toilet bowl to detect the human body in front of the toilet bowl, a seating sensor provided on the toilet seat to detect a user sitting on the toilet seat, and hot water from an automatic faucet. A human body detection sensor that detects the user's hand to discharge water, a start switch of the sanitary cleaning device, and the like detect whether or not the water supply device 10a is in use.

The communication unit 13 has a receiving unit 13a for receiving a command signal for setting a set value for the device main body 11 and a transmitting unit 13b for transmitting information about the device main body 11. The receiving unit 13a receives a command signal for setting a setting value for the device main body instructed by the administrator terminal 50 via the network 30, the management device 40, and the communication device 20.

The transmission unit 13b transmits information about the device main body 11 to the administrator terminal 50 via the communication device 20, the network 30, and the management device 40. The transmission unit 13b transmits, for example, information regarding the changed set value of the device main body 11 to the management device 40. The receiving unit 13a receives a command signal from the management device 40 via the communication device 20 at a predetermined timing. The predetermined timing is the timing at which the management device 40 transmits the first command signal to the water supply device 10.

The control unit 14 controls the set value of the water supply device 10a with respect to the device main body 11. The set values for the device main body 11 are, for example, the temperature of the toilet seat, the temperature of the buttocks washing water, the amount of the buttocks washing water, the water temperature of the automatic faucet, and the like. These set values may be set to their own preference when the user uses the water supply device 10a, or may be set only by the administrator of the toilet room TR by a special operation.

For example, when the user operates the remote controller 100 or the like, the control unit 14 receives the operation signal via the reception unit 13a of the communication unit 13. Then, the control unit 14 executes the setting of the device main body 11 based on the operation signal. Further, the control unit 14 transmits a setting change signal related to the setting changed by the remote controller 100 or the like from the transmission unit 13b to the management device 40 via the communication device 20. Further, the control unit 14 controls the settings related to the device main body 11 based on the command signal instructed by the administrator terminal 50 and received by the reception unit 13a. The case where the setting is executed by the command signal will be described later.

The storage unit 15 is a memory that stores command signals, operation signals, and the like received by the reception unit 13a. Further, the storage unit 15 stores a control program executed by the control unit 14. The storage unit 15 may be provided in the control unit 14.

The communication device 20 transmits a plurality of device information related to, for example, the usage status of the water supply device 10 and the necessity of maintenance to the management device 40 via the network 30. In this way, the communication device 20 transmits a plurality of device information of the water peripheral device 10 to an external device such as the management device 40. Further, the communication device 20 receives the command signal transmitted from the management device 40 and transmits it to each water supply device 10a.

The communication device 20 wirelessly communicates with the management device 40 via the network 30, and also wirelessly communicates with each water supply device 10. The communication device 20 is, for example, a gateway that converts the protocol of the network 30 on the management device 40 side and the wireless communication protocol of the water supply device 10. The communication device 20 is not limited to the gateway, and may be any communication device as long as it can communicate with the outside. The communication between the communication device 20 and the water supply device 10 is bidirectional communication. Further, the communication between the communication device 20 and the management device 40 is bidirectional communication.

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

The management device 40 is provided at a position away from the water supply device 10. The management device 40 is, for example, a cloud server, and is connected to the water supply device 10 and the administrator terminal 50 via the network 30 to manage the settings related to the water supply device 10. The management device 40 has a communication unit 41, a control unit 42, and a storage unit 43.

The communication unit 41 has a reception unit 41a and a transmission unit 41b. The receiving unit 41a receives the information including the set value of the water supply device 10 transmitted from the communication device 20 and the command signal transmitted from the administrator terminal 50. On the other hand, the transmission unit 41b transmits a command signal to the communication device 20 and transmits information on the water supply device 10 to the administrator terminal 50. The transmission unit 41b transmits the command signal stored in the storage unit 43 toward the water supply device 10.

The control unit 42 controls the information of the water supply device 10 and the command signal transmitted to the water supply device 10. The control unit 42 controls the transmission unit 41b. The control unit 42 stores, for example, the information of the water supply device 10 received by the reception unit 41a and the command signal transmitted from the administrator terminal 50 in the storage unit 43. Further, the control unit 42 causes, for example, transmit the information and the command signal stored in the storage unit 43 from the transmission unit 41b to the communication device 20 and the administrator terminal 50. The control unit 42 operates according to the control program stored in the storage unit 43. Then, the control unit 42 automatically transmits the command signal stored in the storage unit 43 from the transmission unit 41b toward the water supply device 10 at a predetermined timing. The timing of transmitting the command signal to the water supply device 10 will be described later.

The storage unit 43 is a memory for storing the command signal received by the receiving unit 41a and the information of the water supply device 10. Further, the storage unit 43 stores various command signals for executing the setting of the water supply device 10 and a control program of the control unit 42. The storage unit 43 stores a command signal for executing the setting related to the water supply device 10 instructed by the administrator terminal 50. In this case, the storage unit 43 separately stores the first command signal corresponding to the water supply device 10a of the first group and the second command signal corresponding to the water supply device 10b of the second group.

The administrator terminal 50 is a terminal owned 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 management device 40 via the network 30. The manager can, for example, connect to the management device 40 to acquire (view) various information of the water supply device 10 installed in the toilet room TR. In addition, the administrator can operate the administrator terminal 50 to output a command signal for executing the setting from the management device 40 toward the water supply device 10.

In this way, the water supply equipment management system 1 makes the toilet room TR IoT (Internet of Things) so that the administrator can centrally manage the usage status of each water supply equipment 10 and the necessity of maintenance. It has become. As a result, the manager can grasp the failure, maintenance, and usage status of the water supply device 10 at a place away from the toilet room TR. In addition, the administrator can set the operating state of the water supply device 10 by operating the administrator terminal 50. Therefore, the manager can manage the toilet room TR without going to the public toilet room TR or the like.

The water supply device management system 1 according to the embodiment has the above-described configuration, and then the work of setting the set value of the water supply device 10 by the administrator terminal 50 will be described.

For example, the administrator inputs a user ID, a password, and the like from the PC terminal 50b to connect to the management device 40. Then, the administrator gives an instruction from the PC terminal 50b to set the set value of the water supply device 10. The administrator can divide the water supply device 10 into groups and determine a set value for each group.

As an example, the administrator sets the temperature of the toilet seat of the toilet room TR of the first group from the PC terminal 50b to "medium". As a result, the management device 40 stores the first command signal that the temperature of the toilet seat is “medium” in the storage unit 43. In addition, the administrator sets the temperature of the toilet seat of the toilet room TR of the second group from the PC terminal 50b to "high". As a result, the management device 40 stores the second command signal that the temperature of the toilet seat is “high” in the storage unit 43.

Then, the management device 40 transmits a first command signal that the temperature of the toilet seat is “medium” from the transmission unit 41b to the communication device 20 of the toilet room TR of the first group at a predetermined timing. In this case, the predetermined timing is a transmission interval in which the first command signal is transmitted at predetermined time intervals (for example, 1 hour interval), or at a predetermined time (for example, 23:00) every day. 1 It may be the transmission time for transmitting a command signal. The predetermined timing can be arbitrarily set by the administrator.

Then, the first command signal (the temperature of the toilet seat is "medium") is transmitted from the communication device 20 to the receiving unit 13a of each toilet seat (water supply device 10a). The control unit 14 of each water supply device 10a sets a set value based on the first command signal. For example, the toilet seat control unit 14 sets the toilet seat temperature to "medium" based on the first command signal of the toilet seat temperature "medium". As a result, the manager can set the water supply device 10a without going to the toilet room TR of the first group.

On the other hand, the management device 40 transmits a second command signal that the temperature of the toilet seat is “high” from the transmission unit 41b to the communication device 20 of the toilet room TR of the second group at a predetermined timing. The second command signal may be transmitted at the same timing as the first command signal, or may be transmitted at a different timing. Then, the second command signal (the temperature of the toilet seat is "high") is transmitted from the communication device 20 to the receiving unit 13a of each toilet seat (water supply device 10b). The control unit 14 of each water supply device 10b sets the set value based on the second command signal. For example, the toilet seat control unit 14 sets the toilet seat temperature to “high” based on the second command signal of the toilet seat temperature “high”. As a result, the manager can set the water supply device 10b without going to the toilet room TR of the second group.

Hereinafter, an example of the control process performed by the water supply device 10 will be described with reference to FIG. The control process according to FIG. 3 is executed independently for each group.
FIG. 3 is a flow chart showing a control process performed by the control unit of the management device. The control process shown in FIG. 3 is stored in the storage unit 43 in advance. The control process shown in FIG. 3 is repeatedly executed at a predetermined cycle. Further, in FIG. 3, each step is indicated by “S”, and for example, “step 1” is indicated by “S1”.

First, in S1, it is determined whether or not a command signal is received from the administrator terminal. That is, the control unit 42 determines whether or not the administrator has instructed the set value regarding the water supply device 10 on the administrator terminal 50. Then, if it is determined in S1 that "YES", that is, the command signal is received from the administrator terminal 50, the process proceeds to S2. On the other hand, if it is determined in S1 that "NO", that is, the command signal has not been received from the administrator terminal, the process proceeds to S4.

In S2, the received command signal is stored in the storage unit 43. That is, the control unit 42 stores the command signal instructed by the administrator terminal 50 in the storage unit 43, and proceeds to S3.

In S3, the command signal is transmitted to the water supply device 10. That is, the control unit 42 transmits the command signal stored in the storage unit 43 to the water supply device 10 via the network 30 and the communication device 20, and becomes an end. As a result, the control unit 14 of the water supply device 10 sets the set value of the device main body 11 based on the command signal. For example, the control unit 14 changes the temperature of the toilet seat set to "high" or "low" to "medium" if it is a command signal to set the temperature of the toilet seat to "medium". In addition, the temperature of the toilet seat set to "medium" is maintained at "medium". The command signal is not limited to "high", "medium", "low", etc., and may be a specific numerical value such as a specific temperature (for example, toilet seat temperature 30 ° C.).

In S4, it is determined whether or not the command signal is stored in the storage unit. That is, the control unit 42 determines whether or not the administrator has instructed the set value of the water supply device 10. Then, if "YES" in S4, that is, if it is determined that the command signal is stored in the storage unit 43, the process proceeds to S5. On the other hand, when it is determined in S4 that "NO", that is, the command signal is not stored in the storage unit 43, the administrator has not instructed the set value of the water supply device, so the end is reached.

In S5, it is determined whether or not the predetermined time has elapsed. That is, the control unit 42 determines whether or not a preset time has elapsed since the previous transmission of the command signal to the water supply device 10. The passage of the predetermined time may be set every hour, for example, or the time may be set such as 23:00 every day. Then, when "YES" in S5, that is, when it is determined that the predetermined time has elapsed, the process proceeds to S3, a command signal is transmitted to the water supply device 10, and the end is reached. On the other hand, when it is determined in S5 that "NO", that is, the predetermined time has not elapsed, the end is reached. In this case, the control unit 42 measures the time unless a new command signal is instructed from the administrator terminal 50.

In this way, when the management device 40 is instructed by the manager terminal 50, the management device 40 stores the command signal in the storage unit 43. Then, the control unit 42 repeatedly transmits the command signal at the timing when a certain time has elapsed since the command signal was transmitted to the water supply device 10. In other words, in the water supply device 10, the receiving unit 13a receives the command signal from the management device 40 at predetermined time intervals. As a result, even if the user changes the setting of the water supply device 10 for mischief, for example, the setting of the water supply device 10 is automatically restored to the setting based on the command signal without bothering the administrator. Can be done. Therefore, the burden on the administrator side can be reduced, and the settings intended by the administrator can be made.

Further, the control process shown in FIG. 3 can be performed independently for each group set by the administrator. That is, the control unit 42 can separately control the timing of transmitting the first command signal to the first group and the timing of transmitting the second command signal to the second group. As a result, the set value of the water supply device 10 can be managed for each of a plurality of facilities (groups) managed by the administrator. The administrator can manage a plurality of types of water-related equipment 10 by, for example, grouping each type of water-related equipment 10. In addition, the administrator can set the optimum set value in different temperature locations by, for example, grouping each installation location. The grouping is not limited to two, and a plurality of groups of three or more may be used.

Next, the water supply equipment management system according to the second embodiment of the present invention will be described with reference to FIG. A feature of the second embodiment is that when the setting of the water supply device 10 is changed, a command signal based on the setting instructed by the administrator is transmitted from the management device to the water supply device 10. In the second embodiment, the same components as those in the first embodiment described above are designated by the same reference numerals, and the description thereof will be omitted.

FIG. 4 is a flow chart showing a control process performed by the control unit of the management device according to the second embodiment of the present invention. The control process according to FIG. 4 is executed independently for each group.
The control process shown in FIG. 4 is stored in the storage unit 43 in advance. The control process shown in FIG. 4 is repeatedly executed at a predetermined cycle. Further, in FIG. 4, each step is indicated by "S", and for example, "step 11" is indicated by "S11".

First, in S11, it is determined whether or not the command signal is received from the administrator terminal. In this step, the same control processing as in S1 in FIG. 3 is performed. Then, if it is determined in S11 that "YES", that is, the command signal is received from the administrator terminal 50, the process proceeds to S12. On the other hand, if it is determined in S11 that "NO", that is, the command signal has not been received from the administrator terminal, the process proceeds to S15.

In S12, the received command signal is stored in the storage unit 43. That is, the control unit 42 stores the command signal instructed by the administrator terminal 50 in the storage unit 43, and proceeds to S13.

In S13, it is determined whether or not a setting change signal is received from the water supply device. That is, it is determined whether or not a setting change signal indicating that the set value of the device main body 11 of the water supply device 10 has been changed is output from the transmission unit 13b of the water supply device 10. Then, when it is determined in S13 that "YES", that is, the setting change signal is received from the water supply device 10, the process proceeds to S14. On the other hand, if it is determined in S13 that "NO", that is, the setting change signal has not been received from the water supply device 10, the end is reached.

In S14, a command signal is transmitted to the water supply device. That is, the control unit 42 transmits the command signal stored in the storage unit 43 to the water supply device 10 via the network 30 and the communication device 20, and becomes an end. As a result, the control unit 14 of the water supply device 10 sets the set value of the device main body 11 based on the command signal. For example, if the control unit 14 is a command signal to set the temperature of the toilet seat to "medium", the temperature of the toilet seat whose setting is changed from "medium" to "high" or "low" by the user of the water supply device 10 or the like. To "medium". The command signal is not limited to "high", "medium", "low", etc., and may be a specific numerical value such as a specific temperature (for example, toilet seat temperature 30 ° C.).

In S15, it is determined whether or not the command signal is stored in the storage unit. That is, the control unit 42 determines whether or not the administrator has instructed the set value of the water supply device 10. Then, if "YES" in S15, that is, if it is determined that the command signal is stored in the storage unit 43, the process proceeds to S13. On the other hand, when it is determined in S15 that "NO", that is, the command signal is not stored in the storage unit 43, the administrator has not instructed the set value of the water supply device, so the end is reached.

As described above, the control unit 42 transmits the command signal at the timing when the receiving unit 41a receives the information (setting change signal) of the setting different from the setting corresponding to the command signal. In other words, in the water supply device 10, when the setting of the device main body 11 is changed by a user or the like, the receiving unit 13a receives a command signal from the management device 40. As a result, even if the user changes the setting of the water supply device 10 for mischief, for example, the setting of the water supply device 10 is automatically restored to the setting based on the command signal without bothering the administrator. Can be done. Therefore, the burden on the administrator side can be reduced, and the settings intended by the administrator can be made. Further, since the command signal is transmitted only when the setting is changed unintentionally by the administrator, unnecessary communication can be suppressed.

Here, for example, it is conceivable that the user changes the set value to his / her own preference and uses the water supply device 10. In such a case, if the set value returns to the original value, it may cause discomfort to the user. Therefore, the timing at which the command signal is transmitted from the management device 40 to the water supply device 10 is not limited to immediately after the setting change signal is received. That is, the timing is included even after a predetermined time has elapsed after the management device 40 receives the setting change signal. This predetermined time corresponds to the time for the user to use the water supply device 10, and is, for example, several minutes to several tens of minutes. This predetermined time is set with reference to experiments, simulations, and the like on the usage status of each water supply device 10.

Further, the control unit 42 may receive the detection result of the human body detection unit 12 of the water supply device 10 and transmit a command signal based on the result. Specifically, the control unit 42 suspends the transmission of the command signal when the human body detection unit 12 detects the human body. Then, the control unit 42 may transmit a command signal to the water supply device 10 after the human body detection unit 12 stops detecting the human body. As a result, the set value of the water supply device 10 can be returned to the value desired by the administrator at the timing when the users of the water supply device 10 are replaced. In addition, it is possible to suppress giving discomfort to the user of the water supply device 10.

It should be noted that the holding of the water supply device 10 during use may be performed by each water supply device 10 instead of the management device 40. Specifically, the management device 40 transmits a command signal to the water supply device 10 immediately after receiving the setting change signal, and executes the command signal until the water supply device 10 finishes using the water supply device 10. You may put it on hold.

Further, the control process shown in FIG. 4 can be performed independently for each group set by the administrator. That is, the control unit 42 can separately control the timing of transmitting the first command signal to the first group and the timing of transmitting the second command signal to the second group. For example, the timing of transmitting the first command signal is set 3 minutes after receiving the setting change signal, and the timing of transmitting the second command signal is set 10 minutes after receiving the setting change signal. be able to.

As a result, the set value of the water supply device 10 can be managed for each of a plurality of facilities (groups) managed by the administrator. The administrator can manage a plurality of types of water-related equipment 10 by, for example, grouping each type of water-related equipment 10. In addition, the administrator can set the optimum set value in different temperature locations by, for example, grouping each installation location.

In the first embodiment described above, the case where the water supply device 10 is a device installed in a public toilet room TR has been described as an example. However, the present invention is not limited to this, and for example, the water supply device may be a device arranged in a public bath or a bathroom of each room of a hotel. This also applies to the second embodiment.

Further, in the above-described first embodiment, the case where the management device 40 is used as a cloud server has been described as an example. However, the present invention is not limited to this, and for example, the control process performed by the management device 40 may be performed by the administrator terminal 50. That is, the administrator terminal 50 may have a control function of the management device 40. In other words, the administrator terminal 50 may directly manage the water supply device 10. In this case, the administrator terminal 50 will be directly connected to each water supply device 10 via the network 30. This also applies to the second embodiment.

The embodiment of the present invention has been described above. However, the present invention is not limited to these descriptions. With respect to the above-described embodiments, those skilled in the art with appropriate design changes are also included in the scope of the present invention as long as they have the features of the present invention. For example, the shape, dimensions, material, arrangement, and the like of each element included in the water supply equipment management system 1 are not limited to those illustrated, and can be changed as appropriate. In addition, the elements included in each of the above-described embodiments can be combined as much as technically possible, and the combination thereof is also included in the scope of the present invention as long as the features of the present invention are included.

1 Water supply equipment management system, 10 Water supply equipment, 10a Water supply equipment of the first group, 10b Water supply equipment of the second group, 11 Equipment main unit, 12 Human body detection unit, 13 Communication unit, 13a Receiver unit, 13b Transmitter unit , 14 Control unit, 15 Storage unit, 20 Communication equipment, 30 Network, 40 Management device, 41 Communication unit, 41a Receiver unit, 41b Transmission unit, 42 Control unit, 43 Storage unit, 50 Administrator terminal, 50a Mobile terminal, 50b PC terminal, 100 remote control, TR toilet room

Claims (5)

It is a water supply equipment management system that allows you to make settings related to water supply equipment from the administrator terminal via the network.
A management device provided at a position away from the water supply device and managing settings related to the water supply device via a network is provided.
The management device is
A storage unit that stores a command signal for executing a setting related to the water supply device instructed by the administrator terminal, and a storage unit.
A transmission unit that transmits the command signal stored in the storage unit to the water supply device, and a transmission unit.
It has a control unit that controls the transmission unit, and has
The control unit
A water supply equipment management system characterized in that the command signal stored in the storage unit is automatically transmitted from the transmission unit to the water supply equipment at a predetermined timing. The water supply equipment management system according to claim 1, wherein the control unit repeatedly transmits the command signal at a timing when a certain time has elapsed. The management device further includes a receiving unit for receiving setting information regarding the water supply device.
The first aspect of claim 1, wherein the control unit transmits the command signal at a timing when the receiving unit receives information of a setting different from the setting corresponding to the command signal from the water supply device. Water supply equipment management system. The management device manages a plurality of the water-related devices.
The plurality of water supply devices are grouped into a water supply device belonging to the first group and a water supply device belonging to the second group.
The storage unit can store the first command signal corresponding to the first group and the second command signal corresponding to the second group.
The control unit can separately control the timing of transmitting the first command signal to the first group and the timing of transmitting the second command signal to the second group. The water supply equipment management system according to any one of 3 to 3. It is a water supply equipment management system that allows you to make settings related to water supply equipment from the administrator terminal via the network.
The water supply device
With the device body
A receiving unit that receives a command signal for executing a setting related to the device main body instructed by the administrator terminal via a network, and a receiving unit.
A control unit that controls settings related to the device main body based on a command signal received by the reception unit is provided.
The receiving unit is a water supply equipment management system characterized in that the command signal is received at a predetermined timing.

Images