JP6899643B2 - Water supply device and water supply system - Google Patents

Description

The present invention relates to a water supply device and a water supply system.

Water supply devices are widely used to supply tap water to water supply targets such as buildings. As the water supply method of the water supply device, the water supply tank method in which the water in the water main is temporarily stored in the water receiving tank and the water in the water receiving tank is pressurized to the water supply target by a pump, and the main pressure of the water main are used. A direct water supply system that supplies water to a water supply target by increasing the pressure with a pump is known. In the water supply device, the pump is controlled by the control unit, and for example, the estimated terminal pressure constant control or the target pressure constant control is performed based on the discharge side pressure of the pump. When the water supply device includes a plurality of pumps, the number of operating pumps is controlled and the starting pumps are controlled according to the amount of water supplied. The pump is controlled by such a control unit based on a set value (setting information) stored in advance in the storage unit according to the installation status of the water supply device and the water supply target.

The setting information of the water supply device may be required to be changed according to the usage situation of the building and the change of the environment. Generally, the setting information is changed by the operation panel provided in the water supply device. However, since the water supply device is usually automatically controlled, there are few opportunities for the operation panel to be operated. Further, the water supply device may be installed in an environment with a lot of electrical noise such as a machine room or a pump room, and a 7-segment LED and an indicator light which are resistant to electrical noise are used. For this reason, the operation panel has a relatively simplified configuration, and the operation of changing the setting information is infrequent, so that the operation tends to be complicated without emphasizing convenience. In particular, when changing a plurality of setting information, the operation of the operation panel becomes complicated.

In recent years, a water supply device that can be operated by a mobile terminal has been proposed. By operating the water supply device with the mobile terminal, the operation panel of the water supply device can be simplified, and even a user who is unfamiliar with the water supply device can easily operate the water supply device by using the operation unit of the mobile terminal. Can be done.

Japanese Unexamined Patent Publication No. 2005-171788

As the water supply device, in addition to the one that can be operated by the mobile terminal as described above, the one that can communicate with the external communication device via the Internet or the like has been proposed. When the water supply device can communicate with an external device such as a mobile terminal and an external communication device in this way, it is assumed that communication is simultaneously performed from a plurality of external devices to the water supply device. It is also assumed that the operation panel is operated while the external device and the water supply device are communicating with each other. In such a case, the water supply device may operate unintentionally because a plurality of setting inputs are simultaneously made to the water supply device or the water supply device is operated when the setting information of the water supply device is changed.

The present invention has been made in view of the above circumstances, and an object of the present invention is to suppress an unintended operation in a water supply device capable of communicating with an external device.

(Means 1)
The water supply device of the present invention is a water supply device for supplying water to a building, and includes a communication unit capable of communicating with an external device. The water supply device determines whether or not the external device satisfies the predetermined condition, and authenticates the external device when it is determined that the external device satisfies the predetermined condition. Then, the communication unit can communicate various information of the water supply device with the external device when the external device is authenticated.
With such a configuration, the water supply device communicates various information of the water supply device with the external device when the external device satisfies a predetermined condition and is authenticated. As a result, it is possible to prevent various information from being communicated between the water supply device and the unauthenticated external device, and it is possible to prevent the water supply device from operating unintentionally.

(Means 2)
The water supply device according to the means 1 may further include a setting unit capable of changing various setting information in the water supply device. Further, the various setting information may include change restriction information for restricting a change based on a signal from an external device for at least a part of the information of the various setting information. Then, the water supply device may be able to change various setting information based on the signal from the external device and the change restriction information.
In this way, various setting information in the water supply device can be changed by a signal from the external device. Further, by setting the change restriction information, it is possible to restrict the change based on the signal from the external device, and in particular, it is possible to prevent various setting information from being changed to unintended information by the external device away from the water supply device.

(Means 3)
The water supply device according to means 1 or 2, further comprising a control unit for controlling the pump, and the setting unit may further include a switch for controlling the water supply device. Then, the control unit may invalidate the operation of the switch when the operation of the switch is performed while the external device is authenticated.
In this way, it is possible to prevent the water supply device from performing an unintended operation when the switch of the setting unit is operated while the external device is authenticated and the water supply device and the external device are communicating with each other.

(Means 4)
The water supply device according to any one of means 1 to 3, wherein the water supply device may further have a display unit for displaying various information of the water supply device. Then, the display unit may perform a predetermined display when the communication unit authenticates the external device.
In this way, the user who operates the display unit can recognize whether or not the external device has been authenticated.

(Means 5)
In the water supply device according to any one of means 1 to 4, when the external device is certified, the communication unit may not communicate with the external device different from the certified external device.
By doing so, it is possible to prevent the water supply device from being input with settings from a plurality of external devices at the same time, and it is possible to prevent the water supply device from operating unintentionally.

(Means 6)
The water supply device according to any one of means 1 to 5, and the certification of the external device may be canceled after a predetermined time has elapsed from the certification of the external device.
In this way, it is possible to prevent the setting input from the setting unit or another external device from being accepted from the water supply device for a long period of time exceeding a predetermined period.

(Means 7)
The water supply device according to any one of means 1 to 6, wherein the water supply device may allow the setting unit to change various setting information in a predetermined setting mode. Then, the water supply device does not have to allow the change of various setting information based on the signal from the external device when it is in the predetermined setting mode.
By doing so, it is possible to prevent the setting input from the external device from being accepted when the setting input is made by the operation display unit.

(Means 8)
In the water supply device according to any one of means 1 to 7, the communication unit may have a control unit side antenna unit that receives radio waves from an external device and converts the radio waves into electric power.

(Means 9)
In the water supply device according to any one of means 1 to 8, the communication unit may transmit various information to an external device by short-range wireless communication (NFC).

(Means 10)
The water supply device according to any one of means 1 to 9, further having a memory for storing individual identification information of the water supply device. Then, when the water supply device receives the authentication information corresponding to the individual identification information from the external device, the water supply device may determine that the external device satisfies a predetermined condition and authenticate the external device.

(Means 11)
The water supply system according to the present invention includes the water supply device according to the means 10, an external server that stores the individual identification information of the water supply device and the authentication information in association with each other, and is capable of communicating with the external device. To be equipped. Then, when the external server receives the individual identification information of the water supply device from the external device, the external server may transmit the authentication information associated with the individual identification information of the water supply device to the external device.
In this way, the external device can communicate with the external server to acquire the authentication information of the water supply device, and can be authenticated from the water supply device using the acquired authentication information. As a result, security in authentication can be improved.

(Means 12)
In the water supply system according to the means 11, the external server may store the device information of the water supply device in association with the individual identification information of the water supply device. Then, when the external server receives the individual identification information of the water supply device from the external device, the external server may transmit the device information of the water supply device associated with the individual identification information of the water supply device to the external device.
In this way, the external device can communicate with the external server to acquire the device information of the water supply device. The external device may change the display on the external device or change the content of communication with the water supply device based on the acquired device information.

(Means 13)
Another water supply device of the present invention is a water supply device for supplying water to a building, and includes a setting unit capable of changing various setting information in the water supply device and a communication unit capable of communicating with an external device. The various setting information includes change restriction information for restricting a change based on a signal from an external device for at least a part of the information of the various setting information. Then, the water supply device can change various setting information based on the signal from the external device and the change restriction information.
With such a configuration, various setting information in the water supply device can be changed by a signal from the external device. Further, by setting the change restriction information, it is possible to restrict the change based on the signal from the external device, and in particular, it is possible to prevent various setting information from being changed to unintended information by the external device away from the water supply device.

(Means 14)
The water supply device according to any one of the means 3 to 12 for quoting the means 2, or the water supply device according to the means 13, in which changes in various setting information are restricted by the change restriction information. When present, it is not necessary to communicate with the external device regarding the change of various setting information.
In this way, the water supply device can prevent the various setting information from being changed by the external device when the change of the various setting information is restricted by the change restriction information.

(Means 15)
The water supply device according to any one of the means 3 to 12 for quoting the means 2, or the water supply device according to the means 13 or 14, and the change restriction information is an external device for each information of various setting information. It may be information that can limit changes based on the signal from. Then, the water supply device can change the information whose change is not restricted by the change restriction information among the various setting information based on the signal from the external device, and the change is restricted by the change restriction information among the various setting information. The information provided may not be changed based on a signal from an external device.
In this way, it is possible to prohibit the change of some of the various setting information and allow the change of the remaining information by the change restriction information.

(Means 16)
The water supply device according to any one of means 3 to 12 for quoting means 2, or the water supply device according to any one of means 13 to 15, and the water supply device is an unauthorized communication from an external device. When this is done, the change restriction information may be set so that the change based on the signal from the external device is restricted for at least a part of the information of various setting information.
In this way, when unauthorized communication is performed from the external device, it is possible to prohibit the external device from changing at least a part of the various setting information, and it is possible to improve the security against unauthorized access.

It is a top view which shows an example of the water supply device which concerns on embodiment of this invention. It is a front view which shows an example of the water supply device which concerns on embodiment of this invention. It is a left side view which shows an example of the water supply device which concerns on embodiment of this invention. It is a schematic block block diagram which shows an example of a control part. It is a flowchart which shows an example of the setting information change processing executed by a control part. It is a flowchart which shows an example of the operation display part setting process executed by a control part. It is a figure which shows the control part and the external display of the modification. It is a figure which shows an example of a water supply system.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawings, the same or corresponding components are designated by the same reference numerals, and duplicate description will be omitted.

1 to 3 are schematic views showing an example of a water supply device according to an embodiment of the present invention, FIG. 1 is a plan view, FIG. 2 is a front view, and FIG. 3 is a left side view. As shown in the figure, in the water supply device 10, two pumps 30A and 30B and a pressure tank 50 arranged between the pumps 30A and 30B are mounted on the base 20. Further, the water supply device 10 includes a discharge pipe 40 connected to the discharge side of the pumps 30A and 30B, and a control panel 60 installed above the pressure tank 50. Each component will be described below.

First, as the water supply method to the building of the water supply device 10, the water supply tank method in which the water in the water main is temporarily stored in the water receiving tank and the water in the water receiving tank is pumped up to the water supply target, and the water main There is a direct water supply system that supplies water to the water supply target by increasing the pressure with a pump using the main pressure. In addition, as a water supply method to the water supply target, a direct pumping method in which the water boosted by the pump is directly pumped, or a water boosted by the pump is temporarily stored in a tank on the roof and water is supplied by natural flow. There is an elevated water tank system, etc.

The base 20 has a substantially rectangular flat plate shape, and both sides in the longitudinal direction are bent downward and then bent outward to form L-shaped fixed sides 23, 23.

The pumps 30A and 30B include pump units 31A and 31B, and motor units 33A and 33B for driving them, respectively. Suction parts 35A and 35B for connecting a water receiving tank (not shown) or a supply pipe (not shown) branched from the water main to a water receiving tank or a water supply main, which are not shown, are provided on the front end faces of the pump parts 31A and 31B, and the upper surfaces of the pump parts 31A and 31B. Is provided with discharge portions 37A and 37B. In the case of the direct water supply system, the suction units 35A and 35B are connected to the supply pipe branched from the water main via a backflow prevention device (not shown), and the pressure of the water main is detected in the supply pipe. A pressure sensor (not shown) is provided. Hereinafter, the pressure value detected by the pressure sensor that measures the pressure of the water mains provided in the supply pipe is referred to as "suction side pressure".

The discharge pipe 40 is a substantially T-shaped pipe, and both ends thereof are connected to the discharge portions 37A and 37B of both pumps 30A and 30B via a flow switch 49A and 49B and a check valve (check valve) 47A and 47B. Has been done. A discharge collecting pipe 43 is provided in the center of the discharge pipe 40. As a result, the discharge sides of both pumps 30A and 30B are connected in parallel, and the discharge fluids of both pumps 30A and 30B merge at the discharge collecting pipe 43. Further, the check valves 47A and 47B prevent the water in the discharge pipe 40 from flowing back to the pumps 30A and 30B when the pumps 30A and 30B are stopped. Further, a connecting pipe 45 for connecting the discharge pipe 40 to the pressure tank 50 is attached to the lower center of the discharge pipe 40, and a pressure sensor 48 for detecting the pressure inside the pipe is attached to the discharge pipe 40. Due to the effects of the pressure tank 50 and the check valves 47A and 47B, the pressure in the discharge pipe 40 after the pumps 30A and 30B are stopped is maintained at a constant pressure unless water is used. Hereinafter, the pressure value detected by the pressure sensor 48 is referred to as “discharge side pressure”.

In this embodiment, the pumps 30A and 30B and two pumps are configured, but the number of pumps may be one or a plurality of three or more pumps.

The control panel 60 is configured by incorporating a control unit 65 including various electric circuits for controlling the operation of the pump in the case 61. The control unit 65 includes a communication unit 73 that communicates with the external display 80 by wire or wirelessly. As the external display 80, for example, a general-purpose terminal device such as a smartphone, a mobile phone, a personal computer, or a tablet, or a dedicated terminal device such as a remote monitor is adopted.

FIG. 4 is a schematic block configuration diagram showing an example of the control unit. As shown in the figure, the control unit 65 includes a control memory 66, a calculation unit 69, an I / O unit (input unit and output unit) 70, a communication unit 73, an operation panel (operation display unit) 79, and the like. It has. The operation panel (operation display unit) 79 includes a setting unit 71 and a display unit 72.

Further, as shown in FIG. 3, the control unit 65 may be a separate substrate from the communication unit 73. In that case, the control unit 65 and the communication unit 73 are connected by serial communication, a signal line, or the like. When the control unit 65 and the communication unit 73 are used as separate boards, they are installed in a place away from the water supply device 10 (for example, a manager's room or a remote monitoring room), and serial communication, signal lines or wireless with the control unit 65. The communication unit 73 may be configured in the remote monitor connected by communication or the like.

The setting unit 71 is used to set various setting values (setting information) necessary for supplying water by an external operation (setting input). Various setting values set in the setting unit 71 are stored in the control memory 66. As an example, the user can input (set input) and change the stop pressure, the starting pressure, and other information necessary for control as setting information via the setting unit 71.

The setting information may include change restriction information that restricts the change of the setting information by the external display 80. When the change restriction information prohibits the change of the setting information, the setting information cannot be changed from the external display 80. In this case, by changing the change restriction information through the setting unit 71, the change of the setting information by the external display 80 is allowed. Thereby, for example, it is possible to prevent a third party from changing the setting information by the external display 80 during the maintenance work. In addition, the water supply device 10 may be installed on the outer wall surface of the condominium or building facing the road, and there is a concern that a third party may use the external display 80 to gain unauthorized access. When these unauthorized accesses are confirmed, the control unit 65 may prohibit the change of the setting information by the external display 80 by changing the change restriction information. Then, the setting input cannot be performed on the external display 80, and unauthorized access by a third party can be prevented. Further, the control unit 65 may prohibit the communication by the external display 80 by the change restriction information. Then, since various information of the water supply device 10 cannot be viewed on the external display 80, the security against unauthorized access is further improved. The change restriction information may be set for each content of the setting information.

In the present embodiment, the setting unit 71 is provided with a setting button 75 for setting the setting mode for setting various setting information. When the setting button 75 is pressed and held for a predetermined time (for example, 1 second), the setting unit 71 (operation display unit 79) enters the setting mode, and the user can set various setting information from the setting unit 71.

The display unit 72 functions as a user interface, and various data such as set values stored in the control memory 66 and the current operating status (operation information) of the pumps 30A and 30B, for example, the pumps 30A and 30B, respectively. It displays operation or stop, operation frequency, current, suction side pressure, discharge side pressure, trip of the inverter that drives the motor units 33A and 33B, suction side pressure drop alarm, water receiving tank alarm, and the like.

As the control memory 66, a non-volatile memory such as ROM, HDD, EEPROM, FeRAM, and a flash memory, and a volatile memory such as RAM are used. The control memory 66 stores a control program for controlling the water supply device 10, device information of the water supply device 10, failure history, operation history, setting information input through the setting unit 71, and the like. Further, in the control memory 66, various data, for example, data of the calculation result in the calculation unit 69 (operating time, integrated value, etc.), pressure value (suction side pressure, discharge side pressure), setting input through the setting unit 71. Information, data input through the I / O unit 70, data output through the I / O unit 70, and the like are also stored.

A port or the like is used as the I / O unit 70. The I / O unit 70 receives the input signal of the pressure sensor 48, the signals of the flow switches 49A and 49B, and the like, and sends them to the calculation unit 69. A CPU is used as the calculation unit 69. The calculation unit 69 sets, clocks, and sets various data for operating the pumps 30A and 30B based on the program and various data stored in the control memory 66 and the signal input from the I / O unit 70. And perform calculations and the like.

Further, the I / O unit 70 and the inverter for driving the pumps 30A and 30B are connected to each other by communication means such as RS422, 232C and 485. Control signals such as various set values, frequency command values, and start / stop signals (operation / stop signals) are sent from the I / O section 70 to the pumps 30A and 30B to the inverter, and the pumps 30A and 30B send the control signals to the I / O section 70. The operation status (operation information) such as the actual frequency value and current value is sequentially sent from the inverter to.

An analog signal and / or a digital signal can be used as the control signal transmitted / received between the I / O unit 70 and the inverters driving the pumps 30A and 30B. For example, an analog signal can be used for the rotation frequency and the like, and a digital signal can be used for the operation stop command and the like. Further, when the variable speed control of 30A and 30B is not performed, the inverter may not be provided.

The communication unit 73 is configured to be able to communicate with the external display 80 by wired communication or wireless communication. As wireless communication, for example, near field communication (NFC) technology can be used. In addition, any type of wireless communication such as Bluetooth (registered trademark) and Wi-Fi can be used. However, NFC is advantageous in that communication can be completed only by bringing the control unit 65 and the external display 80 close to each other. Further, as for wired communication, for example, the control unit 65 may be provided with an external connection terminal such as a USB (Universal Serial Bus), and communication may be performed by connecting the external display 80 to the external connection terminal, or RS422. Serial communication such as 232C and 485 may be used.

In the present embodiment, a simple display such as a 7-segment LED and an indicator light can be adopted as the display unit 72. However, the display unit 72 is not limited to such an example, and may be a liquid crystal display by a dot matrix method or the like. Further, as the external display 80, a high-performance display on a liquid crystal screen using a touch input method or a press button method can be adopted. In this case, simple information can be displayed on the display unit 72, and a large amount of information can be displayed on the external display 80. With such a configuration, information regarding the operating status of the pumps 30A and 30B by the control unit 65 and the like (for example, target pressure SV, current pressure PV, operation / stop of the pumps 30A and 30B, and pump 30A, are displayed on the external display 80. By displaying (such as the frequency of 30B) on the same screen, even a user who is unfamiliar with the water supply device can recognize the state of the water supply device 10 and change the setting without misunderstanding. Further, the water supply device 10 may be installed in an environment with a lot of electrical noise such as a machine room or a pump room. In preparation for such a case, as the display unit 72, a display composed of a 7-segment LED, an indicator lamp, a mechanical pressing button, or the like, which is more resistant to electrical noise than a liquid crystal display or a touch panel, may be used. As a result, even if an abnormality occurs in the liquid crystal display or touch panel operation of the external display 80 due to electrical noise generated from the external environment, the display unit 72 displays and operates the minimum necessary for operating the water supply device 10. It can be performed. Therefore, the water supply device 10 can be installed even in an environment with a lot of electrical noise.

Further, when a general-purpose terminal device such as a smartphone, a mobile phone, a personal computer, or a tablet is adopted as the external display 80, dedicated application software for acting as the external display 80 is provided to these devices. You may install it. In this case, a plurality of dedicated application software may be prepared according to the user's level or purpose.

The control unit 65 may not be provided with the operation panel 79 or the display unit 72, but may be provided with only the external display (high-performance display) 80. In this case, all the functions of the operation panel 79 described above can be performed by the external display 80. Since it is not necessary to provide the water supply device 10 with the display itself, the cost of the water supply device 10 as a whole can be further reduced.

Next, the water supply control (automatic operation mode) of the water supply device 10 by the control unit 65 will be described. When the discharge side pressure drops to a predetermined starting pressure while the pumps 30A and 30B are stopped, the control unit 65 starts at least one of the pumps 30A and 30B. Specifically, the control unit 65 issues a command to the motor units 33A and 33B (inverter if the inverter is provided) so as to start driving the pumps 30A and 30B. During the operation of the pumps 30A and 30B, control such as estimated terminal pressure constant control or target pressure constant control is performed by the set pressure (set pressure). Specifically, in the case of constant estimated terminal pressure control, the target pressure (SV) is set using the rotation speeds of the pumps 30A and 30B and the target pressure control curve, and in the case of constant target pressure control, the set pressure is set as the target pressure ( SV). Further, the discharge side pressure is set to the current pressure (PV). Then, the PID calculation is performed based on the deviation between SV and PV, and the command rotation speeds of the pumps 30A and 30B are set. When the estimated terminal pressure is constantly controlled by the direct water supply, the target pressure control curve may be corrected based on the suction side pressure. Specifically, the target pressure control curve is added only to the suction side pressure to calculate the target pressure (SV). Further, when there are a plurality of pumps as in the present embodiment, the control unit 65 also controls the number of pumps according to the amount of water by the number of pumps that can be started at the same time (the number of pumps operating in parallel).

When the use of water in the building is reduced during the operation of the pumps 30A and 30B, the flow switches 49A and 49B detect the insufficient amount of water and send the detection signal to the control unit 65. Upon receiving this detection signal, the control unit 65 issues a command to the pumps 30A and 30B to increase the rotation speed of the pumps 30A and 30B until the discharge side pressure reaches a predetermined operation stop pressure, accumulates pressure in the pressure tank 50, and then pumps. Stop 30A and 30B (stop small amount of water). When water is used again in the building after the pumps 30A and 30B are stopped by a small amount of water, the discharge side pressure drops to the starting pressure or less and the pumps 30A and 30B are started. When there are a plurality of pumps as in the present embodiment, it is preferable to rotate the starting pumps 30A and 30B to prevent water from staying in the pumps 30A and 30B. Further, as a method for detecting a small amount of water, other means such as a low load due to the current value of the motor units 33A and 33B and a deadline pressure may be used without using the flow switches 49A and 49B.

FIG. 5 is a flowchart showing an example of the setting information change process executed by the control unit. The setting information change process of the present embodiment is started when the communication between the water supply device 10 and the external display 80 is established. Here, the control unit 65 may refer to the change restriction information that restricts the change of the setting information by the external display 80, and determine whether or not to establish communication with the external display 80. Specifically, when the change restriction information prohibits the change of the setting information, the communication request from the external display 80 is rejected and the process of FIG. 5 is not performed.

When the control unit 65 starts the setting information change process, it first determines whether or not the operation display unit (operation panel) 79 is in the setting mode (step S100). The setting mode indicates a state in which the user is changing the setting using the operation display unit 79. For example, when the setting button 75 is pressed and held for a predetermined time (for example, 1 second) by the user, the setting mode is selected. Next, in step S105, the control unit 65 confirms whether or not authentication by another external display 80 has been performed depending on the state of the input permission flag Fp. The input permission flag Fp is a flag indicating that authentication is in progress. Now, consider a case where the operation display unit 79 is not in the setting mode and the other external display 80 is not authenticated.

When the operation display unit 79 is not in the setting mode (S100: No) and the input permission flag Fp is a value 0 (S105: Yes), the control unit 65 whether or not to authenticate the external display 80 communicating with the communication unit. Determine (step S110). The process of step S110 is a process of confirming whether or not the external display 80 transmitting the setting information change command (setting input) has an appropriate authority satisfying a predetermined condition, and the control unit 65 is, for example, a process of confirming. It is determined that the external display 80 is authenticated when the predetermined password is received. When the external display 80 cannot be authenticated (S110: No), the control unit 65 ends the setting information change process as it is. Further, the control unit 65 says that unauthorized access to the water supply device 10 is confirmed when the external display 80 is not authenticated or when the external display 80 is not authenticated a predetermined number of times (for example, three times) in succession. You may judge. At this time, the control unit 65 may set the change restriction information so that the change is restricted for at least a part of the setting information.

The authentication means in step S110 is not limited to the means using communication with the external display 80. The control unit 65 may authenticate the external display 80 by a predetermined operation on the operation display unit 79 or the like. In that case, the processes of steps S100 and S105 may be omitted. As an example, the external display 80 may be authenticated by the user using the operation display unit 79 to perform a predetermined operation such as inputting a password or device information unique to the external display 80. Alternatively, a switch or button for permitting communication by the external display 80 may be provided on the board of the control unit 65 or the setting unit 71, or an operation procedure may be provided. By providing the authentication means by operating the water supply device 10, even if the application software of the external display 80 is forged by a third party, the setting input is permitted unless the authentication in the operation of the water supply device 10 is performed. It means that it will not be done. Further, these authentication methods may be divided into levels for each user who operates the external display 80 (for example, a general user, a maintenance worker, etc.). For example, the authentication of the setting information that can be changed by a general user is performed by the application software of the external display, and the authentication of the setting information that can be changed only by the maintenance worker is performed by the authentication means using the operation display unit 79. .. By separating the rewritable setting information for each user level, it is possible to prevent a setting error of the setting information of the water supply device 10 and improve the security for setting input.

When authenticating the external display 80 (S110: Yes), the control unit 65 sets the value 1 in the input permission flag Fp (step S120), resets the permission time counter Cp, and starts timing (step S130). .. As a result, the control unit 65 is put into the setting input permission state. Further, the permission time counter Cp is a time measuring value indicating the time after the authentication of the external display 80 is performed, that is, the time after the control unit 65 is set to the input permission state.

Subsequently, the control unit 65 determines whether or not the setting change is requested from the external display 80 (step S140). Now, consider the case where the external display 80 requests a setting change. When the setting change is requested (S140: Yes), the control unit 65 determines whether or not the setting change request is appropriate (step S150). The control unit 65 determines, for example, whether or not the request for setting change is within the permissible range for allowing the change of setting information. This permissible range may be, for example, at least one of an upper limit value and a lower limit value allowed as a set value, or may be an upper limit value of a change amount allowed to be changed from the currently stored set value. Further, the control unit 65 may determine whether or not the signal received from the external display 80 follows a predetermined coding rule. Examples of this determination include error detection using a parity bit, a checksum, or the like. Further, the control unit 65 may also determine whether or not the synchronization codes of the signals received from the external display 80 match, and whether or not an abnormality has occurred in communication with the external display 80.

Further, the control unit 65 may determine that the request for setting change is not appropriate when the setting information whose change is restricted by the change restriction information is requested to be changed. Especially when multiple changes to the setting information are requested when some of the setting information is restricted by the change restriction information, the change request for the restricted setting information is not appropriate and the change is made. It may be determined that the request for change to the setting information for which is not restricted is appropriate. As a result, the change restriction information restricts the change of some setting information and allows the change of the remaining setting information.

When the request for setting change from the external display 80 is not appropriate (S150: No), the control unit 65 determines whether or not a predetermined number of repetitions (for example, 10 times) is continuously determined to be inappropriate. (Step S160). When the improper determination is less than the predetermined number of repetitions (S160: No), the control unit 65 determines that there is a temporary communication error, returns to the process of step S140 again, and changes the setting from the external display 80. Receive the request. On the other hand, when the improper determination is repeated a predetermined number of times (S160: Yes), the control unit 65 determines that the change of the setting information from the external display 80 cannot be accepted, and sets the input permission flag Fp to a value of 0. After setting (step S180), the setting information change process ends. As a result, the setting input from the external display 80 is not accepted, and the input permission state of the control unit 65 is released.

Then, when the request for changing the setting from the external display 80 is appropriate (S150: Yes), the control unit 65 stores the setting information in the control memory 66 (step S160). Subsequently, the control unit 65 compares the permission time counter Cp with the reference value Clef (step S170). When the permission time counter Cp is equal to or less than the reference value Clef (S170: No), the control unit 65 returns to the process of step S140 again and determines whether the setting change is requested from the external display 80. The process of step S170 is a process of determining whether or not a predetermined time (for example, several seconds) has elapsed since the external display 80 was authenticated. Then, until the predetermined time elapses, the command for changing the setting information from the external display 80 is accepted again without performing the authentication again. As a result, the number of communications required for the authentication procedure between the water supply device 10 and the external display 80 can be reduced, and communication efficiency can be improved. However, the present invention is not limited to these examples, and the control unit 65 may perform an authentication process on the external display 80 each time the setting information is changed and stored.

When a plurality of setting information change commands are issued from the external display 80, the control unit 65 repeatedly executes the processes of steps S140 to S170. Further, when the setting change request is not made from the external display 80 (S140: No), the control unit 65 proceeds to step S170 and compares the permission time counter Cp with the reference value Clef. Then, when the permission time counter Cp exceeds the reference value Clef (S170: Yes), the control unit 65 sets the value 0 in the input permission flag Fp (step S180), and ends the setting information change process. As a result, when a predetermined time elapses after the authentication of the external display 80 is performed, the certification of the external display 80 is canceled.

Every time the setting is normally changed in step S160, the permission time counter Cp may be reset and the timing may be restarted. By doing so, even when a large number of set values are continuously changed, the authentication can be maintained until the set value change is completed without the permission time counter Cp counting up during the setting change.

When the operation display unit 79 is in the setting mode (S100: Yes) in the process of step S100, the control unit 65 ends the setting information change process as it is. As a result, when the setting information is changed in the operation display unit 79, the external display 80 is not authenticated, so that it is possible to prevent the setting information from being changed from the external display 80. Further, when the input permission flag Fp is a value 1 in the process of step S110 (S105: No), it is determined that the input permission state has already been set by another external display, and the authentication request of the external display 80 is accepted. Therefore, it is possible to prevent the setting input from the plurality of external display 80s from being accepted. Here, in the present embodiment, the authentication of the external display 80 is canceled when a predetermined time elapses after the authentication of the external display 80 is performed, so that something other than the external display 80 that has been authenticated for a long time is used. It is possible to prevent the state in which the change of the setting information in the means is not accepted continues.

Further, when the operation display unit 79 is in the setting mode (S100: Yes) in the process of step S100, the control unit 65 may notify the external display 80 of the setting mode. When the external display 80 receives the notification of the communication unit setting mode from the water supply device 10, it is preferable to notify the user that the setting is not possible. Further, the external display 80 may display the state of the permission flag Fp and the state of the permission time counter Cp. By doing so, the user of the external display 80 can check the state of the water supply device 10.

Next, the control when the operation display unit (operation panel) 79 of the present embodiment is operated will be described. FIG. 6 is a flowchart showing an example of processing related to the setting of the operation display unit executed by the control unit. This operation display unit setting process is started when the operation display unit 79 is operated by the user.

When the operation display unit setting process is started, the control unit 65 first determines whether or not the input permission flag Fp has a value of 0 (step S200). As described above, the value 1 of the input permission flag Fp is set when the setting input is received from the external display 80 and the external display 80 is authenticated.

When the input permission flag Fp has a value of 0 (S200: Yes), the control unit 65 determines that the setting input by the external display 80 has not been performed, and enables the operation of the operation display unit 79 (step S210). .. Subsequently, the control unit 65 determines whether or not the setting mode is requested by pressing the setting button 75 for a predetermined time (step S220). Then, when the setting mode is not requested (S220: No), the operation display unit setting process is terminated as it is, and when the setting mode is requested (S220: Yes), the operation display unit 79 is set to the setting mode (S220: Yes). Step S230), the operation display unit setting process is terminated. By setting the operation display unit 79 to the setting mode, the user can operate the operation display unit 79 to change the setting information. Further, at this time, in the process of step S100 of the setting information change process of FIG. 5 described above, the operation display unit 79 is determined to be in the setting mode, and the setting input by the external display 80 is not accepted.

When the input permission flag Fp is a value 1 in step S200 (S200: No), the control unit 65 invalidates the operation of the operation display unit 79 (step S240). As a result, it is possible to prevent the operation display unit 79 from being operated and the water supply device 10 from malfunctioning when the setting information is changed by the external display 80. Here, the control unit 65 controls the external display 80 when a switch (not shown) such as a toggle switch or a push switch of the operation display unit 79 is operated while the operation of the operation display unit 79 is disabled. Control based on the operation of the switch may be performed after the input permission state is released by. By such control, even if the switch of the operation display unit 79 is operated while the setting information is changed by the external display 80, it is possible to prevent the water supply device 10 from performing an unintended operation.

Further, when the input permission flag Fp is a value 1, the control unit 65 displays on the operation display unit 79 that the input permission state by the external display 80 is in the operation display unit 79 (step S250), and ends the operation display unit setting process. .. The display on the operation display unit 79 may be arbitrary, and for example, a symbol imitating "Con" may be displayed on the 7-segment LED (not shown) of the display unit 72. As a result, the user who operates the operation display unit 79 can recognize that the input is permitted by the external display 80.

In the configuration of FIG. 4, an arithmetic unit (not shown) and a memory (not shown) may be additionally provided in the operation display unit 79. Further, a calculation unit (not shown) and a memory (not shown) may be additionally provided in the communication unit 73. In that case, the processing of FIGS. 5 and 6 may be performed by any arithmetic unit. By distributing the arithmetic units to a plurality of units, for example, the arithmetic unit 69 executes the processing related to water supply, the authentication processing with the external display 80 is executed by the arithmetic unit of the communication unit, and the processing related to the display operation is executed by the display unit. It is recommended to carry out in the calculation unit of. As a result, the number of processes that can be processed at the same time increases, and the processing speed is improved. Further, various setting values and various information related to the water supply device 10 may be stored in any storage unit, or may be stored in a plurality of memories. As a result, even if any one of the plurality of memories is damaged, various setting values and various information related to the water supply device 10 can be recovered by using the information of the memory that operates normally.

As another configuration of FIG. 4, the calculation unit 69 and the control memory 66 may be provided in the operation display unit 79, the communication unit 73, or the operation display unit 79 and the communication unit 73 may be provided in the control unit. It may be configured to be connected to the 65 by communication or a bus as a separate board.

(Modification example)
FIG. 7 is a diagram showing a control unit and an external display of a modified example. In the modified example, the communication unit 73 includes a control unit side antenna unit 76 and an integrated circuit 77. The integrated circuit 77 is electrically connected to the control unit side antenna unit 76 and the storage unit 78. Although the control unit 65A shown in FIG. 7 does not include the display unit 72, the control unit 65A may include the display unit 72. Further, the control unit 65A of the modified example may be provided integrally with other configurations of the water supply device 10 such as the pumps 30A and 30B, or the water supply device 10 as a device for relaying the data of the water supply device 10. It may be provided apart from other configurations.

The external display 80 of the modified example includes a display unit side antenna unit 81 for transmitting and receiving radio waves, a display unit 82, a battery 83, and a data reader 84. In the external display 80, the data received by the display side antenna unit 81 is read by the data reader 84. Then, the data read by the data reader 84 (for example, the target pressure SV, the current pressure PV, the frequencies of the pumps 30A and 30B, etc.) is displayed on the display unit 82. The battery 83 supplies electric power to the display unit 81, the data reader 84, and the display unit 82.

As the external display 80, for example, a general-purpose terminal device such as a smartphone, a mobile phone, a personal computer, or a tablet may be used, or a dedicated terminal device such as a remote monitor may be used. In particular, if a general-purpose terminal device such as a smartphone is used as an external display, the cost of producing a dedicated display can be reduced, so that the cost of the water supply device can be reduced. Further, since a plurality of users can display and set the status of the water supply device 10 on each general-purpose terminal device, it is possible to provide a display operation according to the user's level or purpose. For example, it is possible to inexpensively provide a water supply device that can easily inform a user who does not have expertise in the water supply device such as a condominium or building manager about information related to the control of the pumps 30A and 30B.

The external display 80 is connected to the control unit 65A by the technology of Near Field Communication (NFC). More specifically, when the display unit side antenna unit 81 generates a radio wave while the external display 80 is brought close to the control unit 65A, the control unit side antenna unit 76 receives the radio wave and the control unit side antenna unit 76. Converts radio waves into electric power. This electric power is supplied to the integrated circuit 77 and the storage unit 78 to drive the integrated circuit 77 and the storage unit 78. When the external display 80 reads the data of the storage unit 78, the integrated circuit 77 reads the data stored in the storage unit 78 based on the communication data included in the radio wave, and outputs the data to the antenna unit 76 on the control unit side. send. The control unit side antenna unit 76 transmits radio waves together with the data to the display unit side antenna unit 81. The data reader 84 reads the data received by the display unit 81 and causes the display unit 82 to display the data. When the external display 80 changes the data of the storage unit 78, the integrated circuit 77 changes the data of the storage unit 78 based on the communication data included in the radio wave, and changes the data to the antenna unit 76 on the control unit side. Sends data that means that has been executed. The control unit side antenna unit 76 transmits radio waves together with the data to the display unit side antenna unit 81. The data reader 84 reads the data received by the display unit side antenna unit 81, and causes the display unit 82 to display that the data change has been executed.

The external display 80 may include a clear button 86 for erasing the display and a reset button (not shown) for resetting the data. When the user presses the clear button 86, the display on the display unit 82 is erased. When the reset button is pressed, a reset signal is transmitted to the control unit 65A, and the control unit 65A that receives the reset signal resets data such as maintenance information. The clear button 86 of the present embodiment is a virtual button that appears on the screen of the display unit 82, but the clear button 86 may be a mechanical button provided outside the display unit 82. A clear button and a reset button may be provided on the control units 65 and 65A of the embodiments and modifications.

In the modified example, the data stored in the storage unit 78 of the control unit 65A is sent from the control unit 65A to the external display 80 by wireless communication. According to the modified example, even when the power supply device 10 is not turned on, the control unit side antenna unit 76 generates electric power from the radio waves emitted from the external display 80 to drive the integrated circuit 77 and the storage unit 78. Can be done. Therefore, even when power is not supplied to the control unit 65A during maintenance of the water supply device 10, the external display 80 acquires data from the storage unit 78 of the control unit 65A and displays it, or displays the data in the storage unit 78. The stored data can be changed. At this time, the integrated circuit 77 of the control unit 65A may perform the setting information change process shown in FIG.

NFC is a technology for mutual communication at a short distance of several cm. When the control unit 65A of the modified example is provided integrally with other configurations of the water supply device 10, when displaying or changing various information on the external display 80, the user and the maintenance staff can communicate with each other up to a distance. The external display 80 will be brought closer to the control unit 65A. This means that the user and the maintenance personnel are near the water supply device 10 when operating the external display 80. For this reason, it is possible to prevent unexpected operation of the water supply device 10 due to an erroneous operation such as the reset button being pressed and the pump being started during the replacement work of consumables. In addition, at the site where a plurality of water supply devices 10 are installed, mutual communication is possible at a short distance of the water supply device 10 to be displayed, so that an erroneous display that the state of another water supply device is unintentionally displayed or the setting is changed is erroneously displayed. Alternatively, erroneous operation can be prevented.

The communication unit 73 of the water supply device 10 of the present embodiment or the modified example is a remote monitoring device (for example, a personal computer, a smartphone) provided in a maintenance management company or a manager's room via a public line, a network, a dedicated line, or the like. Alternatively, it may communicate with a dedicated monitor), or a communication unit (not shown) for a remote monitoring device may be provided separately. In this case, pump operation information and the like are transmitted from the communication unit 73 or the communication unit for the remote monitoring device to the remote monitoring device. The remote monitoring device may include a display unit that displays received data. Further, the remote monitoring device may transmit the data received from the water supply device 10 to the external display 80, or may transmit the state of the water supply device to the remote monitoring device via the external display 80. Further, the external display 80 and the remote monitoring device may transmit the data received from the water supply device 10 to an external server and store it. Further, various data may be written from the remote monitoring device, various data may be written from the external display to the remote monitoring device, and various data may be written from the remote monitoring device to the water supply device 10. At this time, the water supply device 10 executes the above-mentioned setting information change process when the setting information change command is received from the remote monitoring device in the same manner as when the setting information change command is received from the external display 80. Then, when the remote monitoring device is authenticated, the value 1 may be set in the input permission flag Fp.

Further, the device information may include model identification information (for example, model name, model number, etc.) indicating the configuration of the water supply device 10. Further, the control unit 65 uses the correspondence table stored in advance to obtain at least one of the device information of the water supply device 10 (for example, the number of pumps, the output of the pump, the diameter of the pump, and the water supply method) from the model name. Information) may be obtained. On the contrary, the control unit 65 may acquire the model identification information of the water supply device based on the device information stored in the storage unit 78. Then, the control unit 65 may display the acquired device information or model identification information on the external display 80.

Further, the device information may include a serial number for identifying the individual water supply device 10. Further, the external display 80 and the remote monitoring device transmit the serial number received from the water supply device 10 to the external server, and the device information of the water supply device 10 corresponding to the serial number stored in the external server (for example, the number of pumps). , Pump output, pump diameter, and water supply system, at least one piece of information). Then, the data may be displayed on the external display 80 based on the acquired device information or the model identification information, or the setting of the water supply device 10 may be changed from the external display 80. Further, the water supply device 10 may use a password associated with the serial number when authenticating the external display 80. This password is stored and managed on the external server, and the external display 80 acquires the authentication password from the external server each time the setting is changed to the water supply device 10, thereby improving the security in authentication. FIG. 8 is a diagram showing an example of a water supply system 90 capable of realizing such contents. Note that FIG. 8 shows an external display 80 in addition to the water supply system 90. The water supply system 90 includes a water supply device 10 and an external server 92. The external server 92 stores individual identification information (model identification information, serial number, etc.) of a plurality of water supply devices 10, and also stores authentication information (authentication password, etc.) and device information in association with the individual identification information. Has been done. The external server 92 can communicate with an external device such as an external display 80 and a remote monitoring device, and when receiving individual identification information from the external device, transmits the corresponding authentication information and device information to the external device.

Although the embodiments of the present invention have been described above, the above-described embodiments of the invention are for facilitating the understanding of the present invention and do not limit the present invention. The present invention can be modified and improved without departing from the spirit thereof, and it goes without saying that the present invention includes an equivalent thereof. In addition, any combination or omission of the claims and the components described in the specification is possible within the range in which at least a part of the above-mentioned problems can be solved, or in the range in which at least a part of the effect is exhibited. Is.

10 ... Water supply device 20 ... Base 30A, 30B ... Pump 40 ... Discharge piping 45 ... Connecting piping 48 ... Pressure sensor 50 ... Pressure tank 60 ... Control panel 65, 65A ... Control unit 66 ... Control memory 69 ... Calculation unit 70 ... I / O unit 71 ... Setting unit 72 ... Display unit 73 ... Communication unit 76 ... Control unit side antenna unit 77 ... Integrated circuit 78 ... Storage unit 79 ... Operation panel 80 ... External display 81 ... Display side antenna unit 82 ... Display unit 83 ... Battery 84 ... Data reader 90 ... Water supply system 92 ... External server

Claims (13)

A water supply device for supplying water to a building, in which a plurality of users including a user who is unfamiliar with the operation of the water supply device and a maintenance worker communicate with the water supply device by individual external indicators, and the plurality of users. A water supply device capable of displaying the status of the water supply device on the individual external display or setting the water supply device by the individual external display according to the user level of the water supply device.
A control unit that controls a pump, a communication unit that can communicate with the external display, a memory that stores individual identification information of the water supply device, a setting unit that can change the setting information of the water supply device, and electricity resistance. Equipped with an operation display unit with noise
The communication unit is configured on a substrate different from the substrate on which at least one of the control unit and the operation display unit is formed, and the communication unit is composed of at least one of the control unit and the operation display unit, and the communication unit. Connected by serial communication,
When the water supply device receives authentication information based on the serial number as the individual identification information of the water supply device from the external display, the water supply device authenticates the external display.
The communication unit Ki out that the information of the water supply device including a setting information of the water supply device communicating with the external display unit when the external display device is authenticated,
The setting information includes change restriction information for restricting changes based on a signal from the external display for at least a part of the information of the setting information.
The change restriction information is set according to the user level.
The water supply device can change the setting information based on the signal from the external display and the change restriction information.
Water supply apparatus. The setting unit further has a switch for controlling the water supply device.
When the switch is operated while the external display is authenticated, the control unit invalidates the operation of the switch.
The water supply device according to claim 1. The operation display unit performs a predetermined display when the communication unit authenticates the external display unit.
The water supply device according to claim 1 or 2. The communication unit is configured when the external display device is authenticated, characterized in that it does not authenticate the different external indicator and the external display device being authenticated,
The water supply device according to any one of claims 1 to 3. Water supply apparatus according to any one of claims 1 to 4, wherein the said the authentication of the external display unit and a predetermined time elapses external indicator authentication is released. The water supply device, permits the change before Ki設constant information by the setting unit in a predetermined setting mode, and, before Ki設constant information based on a signal from the external display unit when the a predetermined setting mode Do not allow changes,
The water supply device according to any one of claims 1 to 5. The water supply device according to any one of claims 1 to 6 , wherein the communication unit has a control unit-side antenna unit that receives radio waves from the external display and converts the radio waves into electric power. The communication unit communicates with the external display previous Kijo report by Near Field Communication (NFC), a water supply device according to any one of claims 1 7. The water supply device according to any one of claims 1 to 8.
An external server that stores the individual identification information of the water supply device and the authentication information in association with each other and can communicate with the external display.
With
When the external server receives the individual identification information of the water supply device from the external display , the external server transmits the authentication information associated with the individual identification information of the water supply device to the external display.
Water supply system. The water supply device according to any one of claims 1 to 8.
Stores the information device which is information indicating a structure of individual identification information in association with the water supply device of the prior SL water supply apparatus, the identification information of the water supply device when received from the external display device, the water supply device and an external server which the device information associated with the individual identification information corresponding water supply device sent to the external display unit,
Water supply system equipped with. The water supply device, when it is limited to change the pre Ki設constant information by the change restriction information does not communicate with the external display unit with respect to changes from the previous Ki設constant information,
The water supply device according to any one of claims 1 to 8, or the water supply system according to claim 9 or 10 . The change restriction information, before Ki設each information of the constant information is the information that can limit the change based on the signal from the external display unit,
The water supply device, before Ki設for information changed by the change restriction information is not limited within the constant information may be changed based on the signal from the external display device, the change of the front Ki設constant information Information whose change is restricted by the restriction information is not changed based on the signal from the external display.
The water supply device according to any one of claims 1 to 8, or the water supply system according to any one of claims 9 to 11 . The water supply device, when the unauthorized communication from the external display is performed, the change restriction information so that changes based on the signal from the external display for at least a portion of the information before Ki設constant information is limited To set,
The water supply device according to any one of claims 1 to 8, or the water supply system according to any one of claims 9 to 12 .

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