WO2020157847A1

WO2020157847A1 - Purified water quality management device, purified water quality management system, method, and non-transitory computer-readable medium

Info

Publication number: WO2020157847A1
Application number: PCT/JP2019/003104
Authority: WO
Inventors: 石川　肇; リジャラベコリアナ; 豊冨依
Original assignee: 日本電気株式会社
Priority date: 2019-01-30
Filing date: 2019-01-30
Publication date: 2020-08-06

Abstract

Provided are: a purified water quality management device which makes it possible to supply purified water that has water quality meeting a predetermined standard to a user; a purified water quality management system; a method; and a non-transitory computer-readable medium. A purified water quality management device (11) is provided with: a measurement instructing means (112) for outputting a measurement instruction to measure the quality of purified water in a tank (12a, 14, 15) in which the purified water is to be stored when the occurrence of a given event for the tank (12a, 14, 15) is detected; and an acquiring means (113) for acquiring information showing the quality of the purified water in the tank (12a, 14, 15) which has been measured with the measurement instruction.

Description

Water purification quality control device, water purification quality control system, method and non-transitory computer readable medium

The present disclosure relates to a purified water quality control device, a purified water quality management system, a method, and a non-transitory computer-readable medium, and particularly to a purified water quality capable of supplying purified water having a water quality satisfying a predetermined standard to a user. The present invention relates to a management device, a water purification quality management system, a method, and a non-transitory computer-readable medium.

　A water purification quality control system that supplies purified water to users is known. In such a purified water quality control system, it is desirable to provide users with high quality purified water.

Patent Document 1 discloses a water quality monitoring system for monitoring water quality by transmitting water quality data measured by a water quality measuring device (measurement side) to a management unit (management side) via the Internet and analyzing the data. There is. In Patent Document 1, the measurement side sends the measurement data by the water quality inspection device to a server on the management side by mail, and the management side receives the measurement data, analyzes the measurement data, creates a database, and at a predetermined time. Water quality data and/or alert information of the above is sent to the mobile terminal of the client by e-mail, and predetermined data is sent to the communication terminal in the water quality measuring device by e-mail in response to an instruction from the PC of the client. There is disclosed a water quality monitoring system for monitoring the water quality based on the water quality data and/or the alert information displayed on the screen.

JP-A-2005-250557

By the way, in developing countries and in times of disaster, it may be required to provide purified water without using distribution pipes. Patent Document 1 does not disclose that the quality of the purified water is provided when the purified water is provided to the user through the tank, and there has been a problem to achieve this.

An object of the present disclosure is to provide a water purification quality control device, a water purification quality control system, a method, and a non-transitory computer-readable medium that solve the above problems.

The water purification quality control device according to the present disclosure,
When a predetermined event for the tank storing the purified water is detected, a measurement instruction means for outputting a measurement instruction for measuring the quality of the purified water in the tank,
An acquisition unit that acquires information indicating the quality of the purified water in the tank measured by receiving the measurement instruction,
Have.

The water purification quality control system according to the present disclosure is
It has a water purification quality control device, a tank terminal, and a user terminal,
The water purification quality control device,
A measurement instruction unit that detects an abnormality relating to the tank based on the state of the tank that stores the purified water, and outputs a measurement instruction that measures the quality of the purified water in the tank,
An acquisition unit that acquires information indicating the quality of the purified water in the tank measured by receiving the measurement instruction,
If the acquired information indicating the quality of the purified water does not satisfy a predetermined standard, an output unit that outputs to the user terminal a message that the predetermined standard is not satisfied, is provided.
The tank terminal is
A transmission unit that transmits information indicating the quality of the purified water in the tank measured in response to the state of the tank and the measurement instruction to the purified water quality management device,
The user terminal is
It has a display means for displaying information on the quality of the purified water in the tank when it is received that the predetermined criterion is not met.

The water purification quality control system according to the present disclosure is
It has a water purification quality control device, a tank terminal, and a user terminal,
The water purification quality control device,
When a request for sending purified water is obtained, a measurement instruction means for outputting a measurement instruction for measuring the quality of the purified water in the tank,
An acquisition unit that acquires information indicating the quality of the purified water in the tank measured by receiving the measurement instruction,
When the acquired information indicating the quality of the purified water satisfies a predetermined standard, a delivery instruction for outputting the purified water to the tank terminal is output, and the acquired information indicating the quality of the purified water satisfies the predetermined standard. And output means for outputting to the user terminal that the predetermined criterion is not satisfied,
The tank terminal is
Transmitting means for transmitting information indicating the quality of purified water in the tank measured in response to the measurement instruction to the purified water quality control device,
Control means for receiving purified water from the tank in response to the delivery instruction,
The user terminal is
Transmitting means for transmitting the purified water delivery request,
And a display unit for displaying information regarding the quality of the purified water in the tank when the fact that the predetermined criterion is not satisfied is received.

The method according to the present disclosure is
Outputting a measurement instruction for measuring the quality of the purified water in the tank when a predetermined event for the tank storing the purified water is detected,
Acquiring information indicating the quality of purified water in the tank measured in response to the measurement instruction,
Equipped with.

Non-transitory computer readable media according to this disclosure includes:
Outputting a measurement instruction for measuring the quality of the purified water in the tank when a predetermined event for the tank storing the purified water is detected,
Acquiring information indicating the quality of purified water in the tank measured in response to the measurement instruction,
A program that causes a computer to execute is stored.

According to the present disclosure, it is possible to provide a purified water quality control device, a purified water quality control system, a method, and a non-transitory computer-readable medium that can supply purified water whose water quality satisfies a predetermined standard to a user.

It is a block diagram which illustrates the water purification quality control apparatus which concerns on embodiment. It is a block diagram which illustrates the water purification quality control system which concerns on embodiment. It is a flowchart which illustrates operation|movement of the water purification quality management system which concerns on embodiment. It is a block diagram which illustrates the water purification quality control system which concerns on embodiment. It is a flowchart which illustrates operation|movement of the water purification quality management system which concerns on embodiment. It is a block diagram which illustrates the water purification quality control system which concerns on embodiment. It is a flowchart which illustrates operation|movement of the water purification quality management system which concerns on embodiment. It is a figure which illustrates the order management table which concerns on embodiment. It is a block diagram which illustrates the water purification quality control system which concerns on embodiment. It is a flowchart which illustrates operation|movement of the water purification quality management system which concerns on embodiment. It is a block diagram which illustrates the water purification quality control apparatus which concerns on embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In each drawing, the same or corresponding elements are designated by the same reference numerals, and repeated explanations are omitted as necessary for the sake of clarity.

[Embodiment]
In the embodiment, an example will be described in which purified water is dispensed from a water purifier tank to a shared tank shared by a plurality of users via a delivery tank. In this example, the water purifier tank may be referred to as an upstream tank, the delivery tank may be referred to as a midstream tank, and the shared tank may be referred to as a downstream tank. An outline of the water purification quality control device according to the embodiment will be described.

FIG. 1 is a block diagram illustrating a water purification quality control device according to an embodiment.
FIG. 2 is a block diagram illustrating a water purification quality management system according to the embodiment.
FIG. 3 is a flowchart illustrating the operation of the water purification quality management system according to the embodiment.

As shown in FIG. 1, the water purification quality management device 11 according to the embodiment includes a measurement instruction unit 112 and an acquisition unit 113. The measurement instructing means 112 of the purified water quality control device 11 detects whether a predetermined event has occurred in the tank for storing purified water (the water purifier tank 12a, the delivery tank 15 or the common tank 14 shown in FIG. 2). The measurement instruction for measuring the quality of the purified water is output to the tank terminal. The acquisition unit 113 acquires, from the tank terminal, information indicating the quality of the purified water in the tank measured in response to the measurement instruction. The water purification quality management device 11 is realized by, for example, a server, a personal computer, or the like.

As shown in FIG. 2, the water purification quality management system 10 according to the embodiment includes a water purification quality management device 11, a water purifier 12, a water purifier tank 12 a, a shared tank 14, and a delivery tank 15. The purified water quality management system 10 further includes

tank terminals

12d, 14d, 15d and a user terminal (not shown).

The tank terminal has a communication function for communicating with the water purification quality control device 11, and receives measurement instructions and transmits water quality measurement results with the water purification quality control device 11. The user terminal has a communication function for communicating with the water purification quality management device 11. User terminals include terminals used by system administrators, terminals used by (end) users, and the like. The user terminal is realized by, for example, a mobile phone, a smartphone, a tablet terminal, a mobile personal computer, or the like.

Note that the water purifier tank 12a, the shared tank 14, and the delivery tank 15 are collectively referred to as a tank. The tank terminal 12d, the tank terminal 14d, and the tank terminal 15d are collectively referred to as a tank terminal.

The measurement instructing means 112 of the purified water quality control device 11 gives a measurement instruction for measuring the quality of purified water in the tank when a predetermined event to the water purifier tank 12a, the delivery tank 15 or the common tank 14 is detected. Output to the terminal. The case where the predetermined event is detected includes at least one of a case where the purified water quality management apparatus 11 acquires a request for sending purified water from the user terminal and a case where an abnormality regarding the tank is detected. The predetermined event includes, for example, an impact on the tank, a reduction in the remaining amount of purified water in the tank when there is no delivery instruction, a reduction in the remaining amount equal to or greater than the amount instructed by the delivery instruction, and the like.

For example, when the measurement instruction unit 112 acquires a request for transmitting purified water from the tank terminal 12d of the water purifier tank 12a, it outputs a measurement instruction for measuring the quality of the purified water in the water purifier tank 12a to the tank terminal 12d. .. Further, for example, when the measurement instruction unit 112 acquires a request for transmitting purified water from the tank terminal 15d of the delivery tank 15, the measurement instruction unit 112 outputs a measurement instruction for measuring the quality of the purified water in the delivery tank 15 to the tank terminal 15d. .. Further, for example, when the measurement instruction unit 112 acquires a request for transmitting purified water from the tank terminal 14d of the shared tank 14, it outputs a measurement instruction for measuring the quality of the purified water in the shared tank 14 to the tank terminal 14d. ..

Further, the measurement instruction means 112 detects an abnormality relating to the tank based on the state of the tank that stores the purified water, and outputs a measurement instruction to measure the quality of the purified water in the tank to the tank terminal. The state of the tank includes the position of the tank (delivery vehicle), vibration with respect to the tank, the remaining amount of purified water, and the like. The measurement instruction unit 112 outputs the measurement instruction to the tank terminal 15d even when the delivery tank 15 has an unplanned action or when there is an abnormal state such as an impact on the delivery tank 15, for example.

The water purifier tank 12a has a water quality sensor 12b and a remaining amount sensor 12c. The water quality sensor 12b measures the quality of purified water in the water purifier tank 12a. The remaining amount sensor 12c measures the remaining amount of purified water in the water purifier tank 12a or the time change of the amount of purified water flowing into and out of the water purifier tank 12a. The tank terminal 12d receives the measurement instruction from the measurement instruction means 112, controls the water quality sensor 12b and the remaining amount sensor 12c to measure the water quality and the remaining amount, and the information measured by the water quality sensor 12b and the remaining amount sensor 12c. To the purified water quality control device 11.

The delivery tank 15 has a water quality sensor 15b and a remaining amount sensor 15c. The water quality sensor 15b measures the quality of purified water in the delivery tank 15. The remaining amount sensor 15c measures the remaining amount of purified water in the delivery tank 15 or the time change of the amount of purified water flowing into and out of the delivery tank 15. The delivery vehicle has a delivery vehicle sensor 15e. The delivery vehicle sensor 15e acquires information about the position of the delivery vehicle, information about the opening and closing of the delivery tank, and information about the behavior of the delivery vehicle such as acceleration, shaking, and impact. In response to the measurement instruction from the measurement instruction means 112, the tank terminal 15d controls the water quality sensor 15b, the remaining amount sensor 15c, and the delivery vehicle sensor 15e to measure the water quality, the remaining amount, the position, etc., and the remaining water quality sensor 15b and the remaining amount. Information measured by the quantity sensor 15c and the delivery vehicle sensor 15e is transmitted to the water purification quality management device 11.

The common tank 14 has a water quality sensor 14b and a remaining amount sensor 14c. The water quality sensor 14b measures the quality of purified water in the shared tank 14. The remaining amount sensor 14c measures the remaining amount of purified water in the shared tank 14 or the time change of the amount of purified water flowing into and out of the shared tank 14. The tank terminal 14d receives the measurement instruction from the measurement instruction means 112, controls the water quality sensor 14b and the remaining amount sensor 14c to measure the water quality and the remaining amount, and the information measured by the water quality sensor 14b and the remaining amount sensor 14c. To the purified water quality control device 11.

The water purification quality control device 11 may further include an output unit 111. When the information indicating the quality of the purified water acquired by the acquisition unit 113 satisfies a predetermined standard, the output unit 111 outputs a sending instruction to send the purified water to the tank terminal. In addition, when the information indicating the quality of the purified water acquired by the acquisition unit 113 does not satisfy the predetermined standard, the output unit 111 outputs to the user terminal that the predetermined standard is not satisfied.

The tank terminal has a transmission means and a control means. The transmission means of the tank terminal transmits to the purified water quality management device 11 information indicating the quality of the purified water in the tank measured in response to the state of the tank and the measurement instruction. Further, the control means of the tank terminal receives the sending instruction and sends the purified water from the tank.

The user terminal has a transmission means and a display means. The transmitting means of the user terminal transmits a request for sending purified water to the purified water quality management device 11. The display means of the user terminal displays the information on the quality of the purified water in the tank when it is received that the predetermined standard is not satisfied.

The water purifier 12 has a water purifier tank 12a that stores purified water produced by using the water purifying function. The water purifier 12 has a production means (not shown) for producing purified water. The tank terminal 12d of the water purifier 12 has a water purifier receiving means (not shown), a water purifier transmitting means (not shown), and a water purifier control means (not shown). The water purifier receiving means receives the sending instruction and the measurement instruction from the water purification quality management device 11. The water purifier transmitting means transmits information indicating the quality of the purified water in the water purifier tank 12a measured in response to the measurement instruction to the water purification quality management device 11. Upon receiving the sending instruction, the water purifier control means controls to send the purified water from the water purifier tank 12 a to the delivery tank 15.

A delivery vehicle such as a truck loads a delivery tank 15 on a bed and delivers purified water to the shared tank 14. The tank terminal 15d of the delivery tank 15 has delivery tank receiving means (not shown), delivery tank transmitting means (not shown), and delivery tank control means (not shown). The delivery tank receiving means receives the sending instruction and the measuring instruction from the water purification quality control device 11. The delivery tank transmission means transmits information indicating the quality of the purified water in the delivery tank 15 measured in response to the measurement instruction to the purified water quality management device 11. The delivery tank control means receives the delivery instruction and controls the delivery tank 15 to deliver the purified water to the shared tank 14.

The driver terminal used by the driver of the delivery vehicle has a communication function for communicating with the water purification quality control device 11, and receives a movement instruction to move the delivery tank 15 from the water purification quality control device 11. The driver receives the movement instruction and moves the delivery tank 15 near the common tank 14. The driver terminal is realized by, for example, a mobile phone, a smartphone, a tablet terminal, a mobile personal computer, or the like.

The tank terminal 14d of the shared tank 14 has a shared tank reception means (not shown), a shared tank transmission means (not shown), and a shared tank control means (not shown). The common tank receiving means receives the sending instruction and the measuring instruction from the water purification quality control device 11. The shared tank transmitting means transmits information indicating the quality of the purified water in the shared tank 14 measured in response to the measurement instruction to the purified water quality management device 11. The shared tank control means receives the sending instruction and controls so as to dispense purified water from the shared tank 14 to the user. The shared tank 14 is a tank shared by a plurality of users. The user goes to the shared tank 14 to receive the purified water to be dispensed.

When the information indicating the quality of purified water (water quality) satisfies a predetermined standard, the purified water quality management device 11 outputs a sending instruction to send the amount of purified water reserved by the user to the tank terminal 14d of the shared tank 14. The tank terminal 14d of the shared tank 14 receives the sending instruction and controls the shared tank 14 to dispense purified water to the user. As a result, it is possible to provide a purified water quality control device capable of supplying purified water having a water quality satisfying a predetermined standard to a user.

The purified water quality management device 11 may output information regarding the quality of purified water to the user terminal used by the user. Further, when the information indicating the quality of the purified water does not satisfy the predetermined standard (water quality deterioration), the purified water quality management device 11 issues an alarm to the outside such as the user terminal because it is suspected that the purified water is replaced. Alternatively, the delivery vehicle may be recalled (outputted) or output to the driver terminal.

In this example, the tank terminal 15d and the driver terminal are described as separate terminals, but the invention is not limited to this. The tank terminal 15d and the driver terminal may be the same terminal.

The following are examples of water quality satisfying a predetermined standard.
-TDS (Total dissolved solids), which indicates substances dissolved in water, is 300 ppm or less.
-PH (potential of Hydrogen) is 6.5 or more and 8.0 or less.
-NTU (Nephelometric Turbidity Units) indicating the degree of turbidity of water is 0.1 or more and 1.0 or less.
However, these numerical values are a guideline and are not limited to these numerical values.

Also, judgment of water quality is not limited to judgment based on absolute value. For example, the water quality value immediately after being dispensed from the water purifier tank 12a may be set as an initial value, and the deterioration amount (difference) from the initial value may be used as the water quality determination standard.

Details of the operation of the water purification quality control device will be described.
As shown in FIG. 2 and FIG. 3, the acquisition means 113 of the purified water quality control device 11 acquires a notification of the start of the operation of dispensing purified water from the water purifier tank 12a to the delivery tank 15 from the tank terminal 15d of the delivery tank 15. Yes (step S101).

The water purification quality management device 11 has an order management table 111a that centrally manages all reservation orders from users. The order management table 111a also serves as a delivery work process management table that manages the process of work related to delivery.

After step S101, the purified water quality control device 11 confirms in the order management table 111a whether the notified purified water dispensing work is a scheduled purified water dispensing work or a scheduled delivery vehicle (step S101). S102). Specifically, the water purification quality management device 11 acquires a delivery vehicle ID (IDentification) for identifying a delivery vehicle, a scheduled delivery work date (time), a driver ID for identifying a driver who drives the delivery vehicle, and the like. Then, confirmation is made by collating these with the contents of the delivery work process (delivery schedule) stored in advance in the order management table 111a. A delivery tank ID for identifying the delivery tank may be used instead of the delivery vehicle ID.

The order management table 111a replies that the notified purified water dispensing work is the scheduled purified water dispensing work and that the delivery vehicle used in the delivery work is the scheduled delivery vehicle (step S103).

The purified water quality control device 11 compares the reduced amount of purified water in the tank with the increased amount of purified water in the downstream tank that stores the purified water sent from the tank, and then determines the purified water in the downstream tank. Outputs a measurement instruction to measure the quality of. In the relationship between the water purifier tank 12a and the delivery tank 15, the delivery tank 15 is a downstream tank. In the relationship between the delivery tank 15 and the shared tank 14, the shared tank 14 is a downstream tank.

Specifically, the water purification quality control device 11 acquires the remaining amount of purified water in the water purifier tank 12a from the tank terminal 12d of the water purifier tank 12a, and purifies the inside of the delivery tank 15 from the tank terminal 15d of the delivery tank 15. Get the remaining amount of water. The purified water quality control device 11 compares the reduced amount of purified water in the water purifier tank 12a with the increased amount of purified water in the delivery tank 15 (step S104).

When the purified water quality control device 11 dispenses the purified water from the water purifier tank 12a to the delivery tank 15, the post-completion reduced amount that is the amount of the purified water in the water purifier tank 12a that has decreased from the start of dispensing to the completion of dispensing, It is confirmed whether the difference between the amount of purified water in the delivery tank 15 increased from the start of delivery to the completion of delivery, which is the amount of purified water, is within a predetermined difference (step S105).

When the difference between the amount of reduced purified water in the water purifier tank 12a after completion and the amount of increased purified water in the delivery tank 15 after completion is less than or equal to a predetermined difference (step S105: Yes), the measurement instructing unit 112 determines that the delivery tank is in the delivery tank. The measurement instruction|indication which measures the water quality in the delivery tank 15 is output to the tank terminal 15d of 15 (step S107).

The processing of step S106 described below may be executed instead of or in parallel with the processing of step S105.

When the purified water quality control device 11 dispenses the purified water from the water purifier tank 12a to the delivery tank 15, the purified water quality control device 11 decreases the amount of purified water that has flowed out of the water purifier tank 12a within a unit time and the shared tank 14 within a unit time. It is confirmed whether or not the difference between the increased amount of purified water that has flowed in and increased is within a predetermined difference (step S106). The decrease amount of the purified water within the unit time is referred to as a decrease amount gradient, and the increase amount of the purified water within the unit time is referred to as an increase amount gradient. The process of step S106 is also to confirm whether the difference between the decreasing gradient of the purified water in the water purifier tank 12a and the increasing gradient of the purified water in the delivery tank 15 is within a predetermined gradient difference.

Here, the decrease amount and the decrease amount gradient after the completion of the water purifier tank 12a will be described.
The water purifier tank 12a uses the remaining amount sensor 12c attached to the water purifier tank 12a, which measures the remaining amount of the purified water, to detect the remaining amount of the purified water in the water purifier tank 12a. It measures and outputs the remaining amount to the purified water quality control device 11. The water purification quality control device 11 calculates the post-completion decrease amount and the decrease amount gradient of the water purifier tank 12a based on the remaining amount of the purified water in the water purifier tank 12a output from the water purifier tank 12a.

Here, the increase amount after the completion of the delivery tank 15 and the increase amount gradient will be described.
The tank terminal 15d of the delivery tank 15 is a remaining amount sensor 15c attached to the delivery tank 15, and uses the remaining amount sensor 15c for measuring the remaining amount of purified water. Is measured and the remaining amount is output to the purified water quality control device 11. The water purification quality management device 11 calculates the post-completion increase amount and the increase amount gradient of the delivery tank 15 based on the remaining amount output from the tank terminal 15d of the delivery tank 15.

By the processing of step S105 or step S106, when the purified water is discharged from the water purifier tank 12a to the delivery tank 15, it is possible to detect the withdrawal of the purified water, the mixing of the purified water of low quality, or the like.

In this example, the water purification quality control device 11 performs the process of step S104, but the process is not limited to this. For example, each tank has a calculation means, the calculation means calculates the reduction amount and the increase amount of the purified water, and transmits the calculated reduction amount and the increase amount from each tank terminal to the water purification quality management device 11, You may perform the process of step S104 based on the reduction amount and increase amount which the water purification quality control apparatus 11 received from each tank terminal.

Returning to FIG. 2 and FIG. 3, in the purified water quality control device 11, the difference between the reduced amount after the completion of the purified water in the water purifier tank 12a and the increased amount after the completion of the purified water in the delivery tank 15 is larger than the predetermined difference. In the case (step S105: No), it recognizes that there is an abnormality in at least one of the water purifier tank 12a and the delivery tank 15 and issues an alarm (step S110). When issuing the alarm, the water purification quality control device 11 issues the alarm to the outside such as a user terminal used by the user. In this case (step S105: No), the delivery vehicle may be called back by outputting an alarm to the driver terminal used by the driver of the delivery vehicle.

After step S107, when the information (water quality) indicating the quality of the purified water in the delivery tank 15 satisfies a predetermined criterion (step S108: Yes), the output unit 111 causes the driver terminal of the driver of the delivery vehicle to A movement instruction for moving the delivery tank 15 to the vicinity of the shared tank 14 is output. The driver receives the movement instruction and moves the delivery tank 15 toward the vicinity of the common tank 14. The delivery vehicle departs for the shared tank (step S109).

When the information indicating the quality of the purified water in the delivery tank 15 does not satisfy the predetermined standard (step S108: No), the output means 111 executes the process of step S110. When the information indicating the quality of the purified water in the delivery tank 15 does not satisfy the predetermined standard (step S108: No), the purified water quality control device 11 instructs the tank terminal 12d of the purifier tank 12a to perform the purified water again. You can output it.

It should be noted that the comparison of the amount of increase in purified water and the amount of decrease in purified water shown in step S104 is not essential. Further, the purified water quality control device 11 may perform only one of the comparison between the increased amount and the decreased amount of the purified water shown in step S104 and the water quality check shown in steps S107 and S108.

Next, the operation during delivery after the delivery vehicle departs for the shared tank 14 will be described.
FIG. 4 is a block diagram illustrating a water purification quality management system according to the embodiment.
FIG. 5: is a flowchart which illustrates operation|movement of the water purification quality management system which concerns on embodiment.

As shown in FIGS. 4 and 5, after the delivery vehicle departs for the shared tank (step S109), the acquisition unit 113 of the water purification quality management device 11 receives the delivery tank 15 from the tank terminal 15d of the delivery tank 15. The delivery tank information is acquired (step S201). The delivery tank information includes at least one of the position of the delivery tank 15, the vibration value of the delivery tank 15, and the delivery route of the delivery tank 15. The delivery vehicle has a delivery vehicle sensor 15e. The delivery vehicle sensor 15e has an acceleration sensor, a GPS (Global Positioning System), and the like. The delivery vehicle sensor 15e uses the acceleration sensor, GPS, and the like to acquire information about the delivery vehicle position, information about the opening and closing of the delivery tank, and information about the behavior of the delivery vehicle such as acceleration, sway, and shock.

The water purification quality management device 11 stores the delivery tank information in the delivery vehicle status management table 111b (step S202).

The water purification quality control device 11 monitors the state of the delivery vehicle based on the delivery vehicle state management table 111b (step S203).

In step S203, the water purification quality control device 11 determines whether the delivery vehicle has stopped for a certain period of time or longer without moving out of the predetermined area, or whether the delivery vehicle is subjected to unexpected shaking or impact. Monitor the delivery vehicle for an unexpected delivery route, or a combination of these. The water purification quality management device 11 does not move the delivery vehicle from the predetermined area to the outside for a certain time or more based on the elapsed time of the position of the delivery vehicle measured by using the GPS of the delivery vehicle sensor 15e, for example. Check if

The purified water quality control device 11 has a delivery vehicle state that is not in the plan based on the delivery vehicle state management table 111b, or a predetermined time has passed since the quality (water quality) of the purified water in the delivery tank 15 was measured. It is confirmed whether or not (step S204). The state of the delivery vehicle that is not in the plan is, for example, an unexpected long-term stop of the delivery vehicle or an unexpected delivery route traveled by the delivery vehicle.

When there is a delivery vehicle state that is not in the plan or when a predetermined time has elapsed since the quality of the purified water in the delivery tank 15 was measured (step S204: Yes), the measurement instructing unit 112 of the delivery tank 15 A measurement instruction (remeasurement instruction) for measuring the quality of the purified water again and a residual amount measurement instruction for measuring the residual amount of the purified water in the delivery tank 15 are output to the tank terminal 15d (step S205).

After the delivery vehicle departs (starts to move) toward the shared tank 14 by the process of step S109, for example, when the delivery tank 15 does not move out of a predetermined area for a certain period of time or more, the measurement instruction unit 112 delivers the delivery. A measurement instruction of the quality of purified water may be output to the tank terminal 15d of the tank 15. With this, even when foreign matter is mixed in the purified water, for example, when the delivery vehicle is stopped for a certain time or longer and does not move out of the predetermined area, the foreign matter can be immediately detected.

In addition, the measurement instructing unit 112, if the vibration value of the delivery tank 15 measured by the delivery vehicle sensor 15e is equal to or more than the vibration threshold, and the delivery route is different from the predetermined delivery route, the delivery tank You may output the measurement instruction|indication of the quality of purified water to the tank terminal 15d of 15.

If the step S204 is No, the purified water quality control device 11 returns to the step S201.

The tank terminal 15d that has received the measurement instruction controls the water quality sensor 15b so as to measure the quality of the purified water in the delivery tank 15, and outputs the information indicating the quality of the measured purified water (measurement result of the water quality) to the purified water. Output to the quality control device 11. The tank terminal 15d that has received the remaining amount measurement instruction controls the remaining amount sensor 15c so as to measure the remaining amount of the purified water in the delivery tank 15, and measures the remaining amount of the purified water (result of the remaining amount measurement). Is output to the purified water quality control device 11.

The acquisition unit 113 acquires the water quality measurement result and the remaining amount measurement result from the tank terminal 15d of the delivery tank 15 (step S206).

When the information indicating the quality of the purified water in the delivery tank 15 satisfies a predetermined standard and the change in the remaining amount of the purified water in the delivery tank 15 is less than or equal to a predetermined change amount, the purified water quality control device 11 (step S207). : Yes), and returns to step S201.

When the step S207 is No, the water purification quality management apparatus 11 calls back the delivery vehicle by recognizing the abnormality, issuing an alarm to the outside such as the user terminal, and outputting the alarm to the driver terminal (step S208). The water purification quality control device 11 performs the processing from step S201 to step S208 until the delivery vehicle arrives at the shared tank 14. The processing from step S201 to step S208 may be repeated at predetermined intervals.

Next, an operation from when the delivery vehicle (delivery tank 15) arrives at the common tank 14 to when the purified water is discharged to the common tank 14 will be described.
FIG. 6 is a block diagram illustrating a water purification quality management system according to the embodiment.
FIG. 7 is a flowchart illustrating the operation of the water purification quality management system according to the embodiment.

As shown in FIGS. 6 and 7, the delivery vehicle arrives at the shared tank 14 (step S301). The acquisition unit 113 of the water purification quality control device 11 acquires the start of the payout work to the shared tank 14 from the tank terminal 15d of the delivery tank 15 (step S302).

The water purification quality management device 11 confirms whether the payout work is a scheduled work stored in advance in the order management table 111a (step S303).

Here, the process of step S303 will be described.
FIG. 8 is a diagram exemplifying an order management table according to the embodiment.
The horizontal axis shown in FIG. 8 represents time.
Each square box in the order management table 111a shown in FIG. 8 indicates a purified water dispensing operation. The left side of each square box shows the start time of the payout work, and the right side shows the end time of the payout work.

As shown in FIG. 8, the order management table 111a shows the correspondence relationship between the delivery service, the information regarding the shared tank 14, and the information regarding another shared tank 24 (see FIG. 6).

The delivery service defines information about each delivery time of each delivery vehicle and is delivery information of the delivery tank 15. For example, the scheduled delivery date and time of the first delivery of the first delivery vehicle is defined as the MMYY DD day in YYYY, and the delivery ID is defined as the delivery flight of 0001. However, the MMYY DD day of YYYY indicates an arbitrary delivery date. The delivery ID includes a delivery vehicle ID for identifying the delivery vehicle, information on the number of deliveries within a predetermined period, and the like.

The information on the shared tank includes information on the payout of the shared tank 14 and user's reservation information.

The information regarding the payout of the shared tank 14 includes the scheduled work date and time for paying out purified water, the payout amount of purified water, and the like. The reservation information includes a desired delivery date of purified water for each user, a user ID, a delivery amount of purified water, and the like.

In the order management table 111a, the delivery service and the information of the shared tank 14 are associated with each other, and the delivery service and the information of another shared tank 24 are associated with each other. For example, for the delivery flight with the delivery ID 0001, as shown in the relationship R101 shown in FIG. 8, the purified water is dispensed to the common tank 14 on the MM month DD of YYYY. Further, as shown in the relationship R102 shown in FIG. 8, purified water is dispensed to another common tank 24 on the MM month DD of YYYY.

Further, in the order management table 111a, information on the shared tank 14 and reservation information are associated with each other. For example, the shared tank 14 supplies the purified water for the reservation indicated in the reservation information, out of the amount paid out from the delivery tank 15, to the user whose user ID is U0001 on M1 D1 of YYY1. Further, the shared tank 14 supplies the purified water for the reservation indicated in the reservation information, out of the amount paid out from the delivery tank 15, to the user having the user ID U0002 on M2, D2, YYY2.

In this way, the order management table 111a stores in advance the order details of all reservations acquired from the user terminal and the delivery work process (delivery schedule) of the delivery tank 15.

The water purification quality control device 11 stores in advance the information (including the delivery vehicle ID and the scheduled delivery work date and time) of the delivery work to the shared tank 14 acquired from the tank terminal 15d of the delivery tank 15 and the order management table 111a. It collates with the information of the delivery work process (delivery schedule) which was done. Thereby, the water purification quality control device 11 confirms whether the process of step S303, that is, the payout work to the shared tank 14 is a scheduled work prestored in the order management table 111a.

Returning to FIG. 6 and FIG. 7, the water purification quality control device 11 outputs a delivery instruction to the tank terminal 15d of the delivery tank 15 when the delivery work is scheduled work (step S304: Yes), and the delivery tank 15 outputs it. Purified water is delivered to the shared tank 14, and the amount of reduced purified water in the delivery tank 15 is compared with the amount of increased purified water in the shared tank 14 (step S305).

When the pay-out work is not the scheduled work (step S304: No), the water purification quality control device 11 recognizes the abnormality and issues an alarm to the outside such as the driver terminal to confirm the status of the delivery vehicle ( Step S312).

The purified water quality control device 11 compares the reduced amount of purified water in the delivery tank 15 with the increased amount of purified water in the shared tank 14 (step S305).

The purified water quality control device 11 confirms whether the difference between the reduced amount of the purified water in the delivery tank 15 after the completion and the increased amount of the purified water in the common tank 14 after the completion is within a predetermined difference (step S306).

When the difference between the post-completion decrease amount of the delivery tank 15 and the post-completion increase amount of the common tank 14 is within a predetermined difference (step S306: Yes), the measurement instructing unit 112 measures the quality of the purified water in the common tank 14. The measurement instruction to be performed is output to the tank terminal 14d of the shared tank 14 (step S308).

When the difference between the post-completion decrease amount of the delivery tank 15 and the post-completion increase amount of the common tank 14 is larger than a predetermined difference (step S306: No), the water purification quality control device 11 recognizes an abnormality and detects such as a driver terminal. An alarm is issued to the outside (step S311).

When the information (water quality) indicating the quality of the purified water in the shared tank 14 satisfies a predetermined criterion (step S309: Yes), the output unit 111 directs the delivery vehicle (delivery tank 15) to another shared tank 24. The movement instruction is output to the driver terminal. The driver terminal receives the movement instruction. In response to the movement instruction, the driver moves the delivery vehicle toward another shared tank 24 (step S310).

When the information indicating the quality of the purified water in the shared tank 14 does not satisfy the predetermined standard (step S309: No), the purified water quality management device 11 recognizes the abnormality and issues an alarm to the outside such as the user terminal. At the same time, the delivery vehicle is called back by outputting an alarm to the driver terminal (step S313).

Note that the processing of step S307 described below may be executed instead of or in parallel with the processing of step S306.

The purified water quality control device 11 confirms whether the difference between the decreasing gradient of the purified water in the delivery tank 15 and the increasing gradient of the purified water in the common tank 14 is within a predetermined gradient difference (step S307). When the difference between the decrease gradient of the delivery tank 15 and the decrease gradient of the common tank 14 is within the predetermined gradient difference (step S307: Yes), the measurement instruction unit 112 performs the process of step S308. When the difference between the decreasing gradient of the delivery tank 15 and the increasing gradient of the common tank 14 is larger than the predetermined gradient difference (step S307: No), the water purification quality control device 11 performs the process of step S311.

Next, the operation after the purified water is dispensed to the common tank and before the purified water is dispensed to the user will be described.
FIG. 9: is a block diagram which illustrates the water purification quality control system which concerns on embodiment.
FIG. 10 is a flowchart illustrating the operation of the water purification quality management system according to the embodiment.

As shown in FIGS. 9 and 10, the measurement instructing means 112 of the purified water quality control device 11 issues a measurement instruction to periodically measure the quality (water quality) of the purified water in the shared tank 14 at preset time intervals. The data is output to the tank terminal 14d (step S401).

The acquisition unit 113 acquires from the user terminal used by the user, the fact that the user has come out (received) the purified water (step S402). The measurement instruction unit 112 outputs a measurement instruction for measuring the quality of the purified water in the shared tank 14 to the tank terminal 14d in order to show the current quality of the purified water to the user (step S403). The acquisition means 113 acquires the information (measurement result) regarding the quality of the purified water in the shared tank 14 (step S404).

The application may be downloaded in advance to the user terminal used by the user, and information may be transmitted/received to/from the water purification quality management device 11 via the application.

When the information (water quality) indicating the quality of the purified water in the shared tank 14 satisfies a predetermined criterion (step S405: Yes), the output unit 111 outputs information on the quality of the purified water to the user terminal used by the user. .. The user terminal displays information indicating the quality of the purified water in the shared tank 14 (step S406). The output unit 111 outputs information indicating the quality of the purified water in the shared tank 14 to the tank terminal 14d of the shared tank 14, and the tank terminal 14d displays information on the quality of the purified water on the display device of the shared tank 14. (Step S406).

The output means 111 of the purified water quality control device 11 outputs a sending instruction for paying out the amount of purified water reserved by the user to the tank terminal 14d of the shared tank 14 (step S407). As a result, the user can be supplied with purified water whose water quality satisfies a predetermined standard.

If the difference between the water quality immediately after being dispensed from the water purifier tank 12a and the water quality immediately after the quality measurement is within a predetermined quality difference, the output unit 111 dispenses the amount of purified water reserved by the user. The sending instruction may be output to the tank terminal 14d of the shared tank 14. If the difference between the water quality immediately after being discharged from the water purifier tank 12a and the water quality immediately after the quality measurement is larger than the predetermined quality difference, the output unit 111 has information about the quality of the purified water (measurement result). May be output to the user terminal.

When the information indicating the quality of the purified water in the shared tank 14 does not satisfy the predetermined standard (step S405: No), the purified water quality management device 11 recognizes the abnormality and, for example, externally uses the user terminal or the like used by the user. An alarm is issued to (step S408). When the alarm is issued, the purified water is not dispensed from the shared tank 14 to the user.

Further, the output unit 111 may output the information on the quality of the purified water to the user terminal when the information on the quality of the purified water in the shared tank 14 does not satisfy the predetermined standard. This allows the user to know the current quality of purified water.

Further, the output unit 111 may output the information on the quality of the purified water to the user terminal even when the information on the quality of the purified water in the shared tank 14 satisfies a predetermined standard. As a result, the user can safely receive the purified water.

In addition, when the water quality satisfies a predetermined standard, it may mean that the water quality is higher than a predetermined reference value, it may mean that the water quality is within a predetermined range, or the upstream tank ( It may mean that the value of the water quality immediately after being discharged from the water purifier tank 12a) is used as an initial value and the deterioration amount from the initial value falls within a predetermined range.

Further, when the delivery tank 15 has a water purifier different from the water purifier 12, and the information regarding the quality of the purified water in the delivery tank 15 does not satisfy the predetermined standard, the water purification quality management device 11 causes the delivery tank 15 The water purifier may output to the tank terminal 15d an instruction to perform water purification again.

In addition, when the shared tank 14 has another water purifier and the information regarding the quality of the purified water in the shared tank 14 does not satisfy the predetermined standard, the purified water quality management device 11 determines that the water purifier of the shared tank 14 is again in operation. An instruction to redo the purified water may be output to the tank terminal 14d.

Further, when the information regarding the quality of the purified water in each tank does not satisfy a predetermined standard, the purified water quality control device 11 gives an instruction to put a disinfectant for purifying the water in each tank, the tank terminal of each tank. May be output to.

Further, when the information regarding the quality of the purified water in each tank does not meet the predetermined standard, the purified water quality control device 11 outputs a water supply instruction for supplying the water in each tank to the disinfection device to the tank terminal of each tank. May be.

Further, when the information regarding the quality of the purified water does not meet the predetermined standard, the purified water quality management device 11 changes the price of the purified water to be paid out to the user, and outputs the changed price to the user terminal used by the user. Is also good. Specifically, the purified water quality control device 11 stores in advance a price list (table) according to the quality value of the purified water, and determines the price of the purified water based on the price list.

Further, the purified water quality management device 11 may output an instruction to return to a predetermined position to an automatically driven delivery vehicle, when the information on the quality of the purified water does not satisfy a predetermined standard. Further, instead of the delivery vehicle, a flying object such as a drone or a ship may be used.

As shown in FIG. 11, the water purification quality management device 11 according to the embodiment has a CPU (Central Processing Unit) 1101, a RAM (Random Access Memory) 1102, a storage unit 1103, a reception unit 1104, and a transmission unit. And a unit 1105. The CPU 1101, RAM 1102, storage unit 1103, reception unit 1104, and transmission unit 1105 are connected to the common bus 1106. The CPU 1101 operates by executing a program stored in the storage unit 1103, and functions as a control unit that controls the overall operation of the water purification quality management device 11. Further, the CPU 1101 executes the programs stored in the storage unit 1103 to execute various processes as the water purification quality management device 11. The RAM 1102 provides a memory area necessary for the operation of the CPU 1101. The storage unit 1103 is composed of a storage medium such as a flash memory or a non-volatile memory such as a hard disk drive. The storage unit 1103 stores programs such as a specific application program executed by the CPU 1101 and data referred to by the CPU 1101 when the program is executed. For example, the storage unit 1103 stores the delivery work process and the like of the order management table 111a. CPU1101 outputs the measurement instruction|indication which measures the water quality of the purified water in a tank based on the state of a tank, for example. The CPU 1101 corresponds to the measurement instruction means 112. Under the control of the CPU 1101, the transmission unit 1105 and the reception unit 1104 transmit/receive information to/from external devices such as a tank terminal, a user terminal, and a driver terminal via a network, for example. The communication standard, method, etc. used by the transmitting unit 1105 and the receiving unit 1104 are not particularly limited. The receiving unit 1104 corresponds to the acquisition unit 113. The transmission unit 1105 corresponds to the output unit 111. Further, the output unit 111, the measurement instruction unit 112, and the acquisition unit 113 may be realized by different devices.

In the above embodiment, the present invention has been described as a hardware configuration, but the present invention is not limited to this. The present invention can also realize the processing of each component by causing a CPU (Central Processing Unit) to execute a computer program.

In the above embodiment, the program can be stored using various types of non-transitory computer readable medium and supplied to the computer. Non-transitory computer readable media include various types of tangible storage media. Examples of non-transitory computer readable media are magnetic recording media (specifically flexible disks, magnetic tapes, hard disk drives), magneto-optical recording media (specifically magneto-optical disks), CD-ROMs (Read Only Memory). ), CD-R, CD-R/W, semiconductor memory (specifically, mask ROM, PROM (Programmable ROM), EPROM (Erasable PROM)), flash ROM, RAM (Random Access Memory). In addition, the program may be supplied to the computer by various types of transitory computer readable media. Examples of transitory computer-readable media include electrical signals, optical signals, and electromagnetic waves. The transitory computer-readable medium can supply the program to the computer via a wired communication path such as an electric wire and an optical fiber, or a wireless communication path.

Although the present invention has been described with reference to the exemplary embodiments, the present invention is not limited to the above. Various modifications that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the invention.

It should be noted that the present invention is not limited to the above-described embodiment, and can be modified as appropriate without departing from the spirit of the present invention.

10: Water purification quality management system 11: Water purification quality management device 111: Output means 111a: Order management table 111b: Delivery vehicle state management table 112: Measurement instruction means 113: Acquisition means 12: Water purifier 12a: Water purifier tank 12b: Water quality sensor 12c: Remaining amount sensor 12d: Tank terminal 14: Shared tank 14b: Water quality sensor 14c: Remaining amount sensor 14d: Tank terminal 15: Delivery tank 15b: Water quality sensor 15c: Remaining amount sensor 15d: Tank terminal 15e: Delivery vehicle sensor 24: Another shared tank

Claims

When a predetermined event for the tank storing the purified water is detected, a measurement instruction means for outputting a measurement instruction for measuring the quality of the purified water in the tank,
An acquisition unit that acquires information indicating the quality of the purified water in the tank measured by receiving the measurement instruction,
Water purification quality control equipment.
The case where the predetermined event is detected includes at least one of when a request for delivering purified water is obtained, and when an abnormality regarding the tank is detected.
The purified water quality control device according to claim 1.
The acquisition unit acquires tank information including the position of the tank,
The measurement instructing means outputs the measurement instruction to the tank if the tank does not move out of a predetermined area for a predetermined time or more after the tank starts to move,
The purified water quality control device according to claim 1.
The tank information includes at least one of a position of the tank, a vibration value of the tank, and a delivery route of the tank,
The measurement instruction means outputs the measurement instruction to the tank when the vibration value is equal to or more than a vibration threshold, and the delivery route is different from a predetermined delivery route.
The water purification quality control device according to claim 3.
When the acquired information indicating the quality of the purified water satisfies a predetermined standard, the apparatus further includes an output unit that outputs a delivery instruction to deliver the purified water to the tank.
The purified water quality control device according to any one of claims 1 to 4.
The measurement instructing means, based on a comparison between a reduction amount of the purified water in the tank and an increase amount of the purified water in the downstream tank that stores the purified water sent from the tank, Outputs measurement instructions to measure the quality of purified water,
The purified water quality control device according to any one of claims 1 to 5.
It has a water purification quality control device, a tank terminal, and a user terminal,
The water purification quality control device,
A measurement instruction unit that detects an abnormality relating to the tank based on the state of the tank that stores the purified water, and outputs a measurement instruction that measures the quality of the purified water in the tank,
An acquisition unit that acquires information indicating the quality of the purified water in the tank measured by receiving the measurement instruction,
If the acquired information indicating the quality of the purified water does not satisfy a predetermined standard, an output unit that outputs to the user terminal a message that the predetermined standard is not satisfied, is provided.
The tank terminal is
A transmission unit that transmits information indicating the quality of the purified water in the tank measured in response to the state of the tank and the measurement instruction to the purified water quality management device,
The user terminal is
When it is received that the predetermined criteria are not met, it has display means for displaying information regarding the quality of the purified water in the tank,
Water purification quality control system.
It has a water purification quality control device, a tank terminal, and a user terminal,
The water purification quality control device,
When a request for sending purified water is obtained, a measurement instruction means for outputting a measurement instruction for measuring the quality of the purified water in the tank,
An acquisition unit that acquires information indicating the quality of the purified water in the tank measured by receiving the measurement instruction,
When the acquired information indicating the quality of the purified water satisfies a predetermined standard, a delivery instruction for outputting purified water to the tank terminal is output, and the acquired information indicating the quality of the purified water satisfies the predetermined standard. And output means for outputting to the user terminal that the predetermined criterion is not satisfied,
The tank terminal is
Transmitting means for transmitting to the purified water quality control device information indicating the quality of purified water in the tank measured in response to the measurement instruction,
Control means for receiving purified water from the tank in response to the delivery instruction,
The user terminal is
Transmitting means for transmitting the purified water delivery request,
When it is received that the predetermined criteria are not met, display means for displaying information regarding the quality of the purified water in the tank,
Water purification quality control system.
Outputting a measurement instruction for measuring the quality of the purified water in the tank when a predetermined event for the tank storing the purified water is detected,
Acquiring information indicating the quality of purified water in the tank measured in response to the measurement instruction,
A method comprising.
Outputting a measurement instruction for measuring the quality of the purified water in the tank when a predetermined event for the tank storing the purified water is detected,
Acquiring information indicating the quality of purified water in the tank measured in response to the measurement instruction,
A non-transitory computer-readable medium that stores a program that causes a computer to execute.