KR20210035836A - Equipment management system and equipment management method - Google Patents

Abstract

A plurality of coating liquid generating devices (1), (1) installed in different places… Each can be managed individually, and provides a system capable of unified management of the operating conditions of each coating liquid generating device (1) in a spaced place. The substrate management system includes a coating liquid generating device 1 and a server device 5 for managing measurement values of the flow meter M2 of the device 1 and the like. The coating liquid generating device 1 includes a coating composition generator 81 that is a consumable product and capable of circulating a liquid (water as a raw material of the coating liquid), a flow meter M2 for measuring a liquid flow rate in the coating composition generator 81, and , A transmitter 7 for transmitting measured value information about the measured value of the flow meter M2 to the server device 5 is provided. It is preferable that the flow meter M2 is installed upstream of the coating composition generator 81. The transmitter 7 is electrically connected to a flow meter provided in the coating liquid generating device.

Description

Equipment management system and equipment management method

The present invention relates to a system and method for unified management of a coating liquid generating device [substrate] placed in a number of different places using a server device, and specifically, a coating composition generator provided in each coating liquid generating device It relates to a substrate management system and a substrate management method for managing the amount of used (degree of consumption of the coating composition), and the like.

The coating liquid generating device does not easily contaminate the surface of various coating targets, such as cars or walls, structures used outdoors, structures exposed to outside air, etc., and also removes contamination easily even if contaminated. It is a device for generating a "coating liquid" that makes it possible to coat the surface of an object using this coating liquid.

As a means for removing contamination adhering to vehicles, walls, and various structures exposed to the outside air, various cleaning devices and cleaning solutions have been proposed in the past.

However, since the exterior walls of vehicles and various structures used outdoors are constantly exposed to the outside air, there is a problem that even if the contamination is removed, it becomes contaminated again in an extremely short time, and re-cleaning is forced within a short period of time. In addition, since contamination adhering to a vehicle or an exterior wall that is constantly exposed to the outside air is extremely close and cannot be removed simply, there is a problem that labor and time are required for cleaning. In addition, in the case of rubbing and removing contaminants adhering to the body surface of a vehicle or the like by rubbing with a scrubber, etc., there is a fear that the body may be scratched. In the case of sports cars, vintage cars), etc., there is a problem that contamination on the surface of the body cannot be easily removed.

Therefore, among persons involved in cleaning and owners of vehicles, etc., there has been a strong demand over the years for a means that makes it possible to easily remove contamination even if the surface of a car, wall, etc. is not easily contaminated and contaminated.

In view of this demand, it is not easy to contaminate the surfaces of various structures, such as cars, walls, structures used outdoors, structures exposed to the outside air (e.g., solar panels), etc., and to remove contamination easily even when contaminated. A coating liquid generating device and a coating device that make it possible have been proposed by the present inventors. The configuration of this coating liquid generating device is as shown in FIGS. 6 and 7.

The coating liquid generating apparatus proposed by the present inventor is equipped with a coating composition generator which is a consumable product.

The coating composition generator is a consumable that consumes the coating composition therein as the liquid circulates. The specific configuration of this coating composition generator is disclosed in Patent Document 1 as a "cylinder device".

The liquid circulation device is configured including a storage tank, a pump, and the like.

Liquid (for example, tap water) is first supplied from the outside to the inlet of the coating composition generator. Then, inside the coating composition generator, it is exposed to the coating composition, and then, the liquid (tap water exposed to the coating composition) is discharged from the outlet of the coating composition generator. The liquid discharged from the coating composition generator is stored in a storage tank of the liquid circulation device, and then, again, is introduced into the coating composition generator.

Then, the liquid derived from tap water circulates and repeatedly passes through the interior of the coating composition generator, so that the coating composition contained in the liquid (composition eluted from the coating composition generator) gradually adds its concentration, and as a result, a coating solution is generated. do.

Coating liquid generating apparatuses having the above-described characteristics are beginning to be spread in Japan and other countries around the world. In addition, since the coating composition generator included in the coating liquid generating device is a consumable product, the demand for the coating composition generator is expected to increase in the future.

Japanese Unexamined Patent Publication No. 2011-000518

In the coating composition generator included in the coating liquid generating device, a liquid can flow through the inside thereof. When the liquid flows through the interior of the coating composition generator, the elution of the coating composition exposed to the liquid gradually proceeds. Therefore, the coating composition generator is a consumable that consumes the coating composition according to the amount of liquid (flow amount) flowing therein. That is, in proportion to the flow rate of the liquid flowing through the interior of the coating composition generator, the coating composition is consumed. In more detail, the amount of consumption of the coating composition is proportional to the flow rate (amount of water) of the liquid flowing through the interior, regardless of the water quality conditions (soft water, hard water, etc.) in each country of the world.

Accordingly, the present inventors providing a coating liquid generating device are developing businesses such as charging according to the liquid flow rate in the coating composition generator, or exchanging the generator for an oil phase at the stage of reaching a predetermined liquid flow rate. Therefore, in order to stably continue the above business, it is indispensable to accurately grasp the operating conditions of the coating liquid generating device, including the liquid flow rate in the coating composition generator.

However, among those who use the coating liquid generating device provided by the present inventors as a business, it is assumed that there are not a few people with malicious intent.

Therefore, for example, even if a flow meter is installed in the coating liquid generating device, it is expected that false reports of the measured values of the flow meter and the meter modulation of the flow meter will occur.

So, in order to solve the above-described problem related to the negation, the object of the present invention is, under a situation where a plurality of coating liquid generating devices are installed in different places in the world, the amount of use of the coating composition generator provided by each of the plurality of coating liquid generating devices In addition, it is to provide a system and method capable of reliably grasping a state of operation of a coating liquid generating device, a state of occurrence of a problem, and the like.

The above purpose is:

A coating liquid generating device including a coating composition generator in which liquid is circulated and is a consumable, and a flow meter for measuring a liquid flow rate (flow rate of liquid passing through the coating composition generator) in the coating composition generator,

A server device for managing the measured value of the flow meter of the coating liquid generating device,

This is achieved by a substrate management system including measurement value information transmitting means for transmitting measurement value information about the measurement value of the flow meter to the server device via the Internet.

In the coating liquid generating device, preferably,

The flow meter is installed on the upstream side of the coating composition generator, and the coating composition generator is installed on the downstream side of the flow meter.

That is, the flow meter is installed just in front of the liquid inlet of the coating composition generator.

In addition, the coating liquid generating device,

The coating liquid generating device,

A circulation flow path that enables the liquid to repeatedly circulate through the coating composition generator by circulating the liquid, and

A filter installed in the circulation flow path and for preventing foreign matters leaked from the coating composition generator from entering the flow meter

You may have more.

In addition, the coating liquid generating device,

It is provided in the circulation flow path, and may further include a check valve for preventing reverse flow of the liquid.

Further, in the coating liquid generating device, the measurement value information transmitting means, for example,

It is composed of a measurement value information transmission device (transmitter) that is electrically connected to a flow meter provided in the coating liquid generating device and is capable of communication using the Internet.

Further, in the coating liquid generating device, the measurement value information transmitting means, for example,

Communication using the Internet is possible, and it is composed of a portable terminal separate from the coating liquid generating device.

In this case, the portable terminal,

A camera for photographing the flow meter of the coating liquid generating device,

Reading means for reading the measured value of the flow meter from the image data of the flow meter obtained by the photographing;

Communication unit for transmitting measurement value information related to the read measurement value to the server device via the Internet

It is equipped with.

In addition, the coating liquid generating device,

An input port that is a flow path connection port for inputting a liquid, which is a raw material of the coating solution to be generated, from a liquid supply source to the coating solution generating device;

Output port, a channel connection port for outputting the coating liquid generated by the coating liquid generating device to the outside

You may be provided with the connection device provided with.

Further, the connection device provided in the coating liquid generating device may be provided with security means for electronically locking/unlocking the connection device.

in this case,

When the connection device is unlocked by the security means, it is possible to connect a flow path to the input port and the output port of the connection device, respectively, and when the connection device is locked by the security means, the input of the connection device It is impossible to connect the flow path to the port and output port.

Further, in the coating liquid generating device, the security means provided in the connection device may include a communication unit that performs short-range wireless communication with the security key. In this case, the connection device is electronically locked/unlocked by performing short-range wireless communication between the communication unit of the security means and the security key.

In addition, in the coating liquid generating device,

Security means provided in the connection device,

A camera for reading 2D information displayed on a portable item,

Authentication means for performing authentication based on the two-dimensional information read by the camera,

Control means for electronically locking/unlocking the connection device when the authentication is successful

You may have.

In this case, the two-dimensional information displayed on the portable article includes, for example, identification information for identifying a user of the coating liquid generating device.

Alternatively, the two-dimensional information displayed on the portable article may include identification information for identifying the coating liquid generating device.

In addition, the above-described purpose,

As a substrate management method using a system having the above features,

A step in which the measurement value information before the operation regarding the measurement value at the time before the start of the coating operation on the coating object, as the measurement value of the flow meter provided in the coating liquid generating device, is transmitted by the measurement value information transmission means to the server device through the Internet. Wow,

A step in which the measurement value information of the flow meter provided in the coating liquid generating device, and the measurement value information after completion of the measurement value at the time point after the completion of the coating operation on the coating object, and the measurement value information transmission means transmits the measurement value information to the server device through the Internet. Wow,

A step of recording, in the server device, the measured value information before and after the operation received from the transmission of the measured value information through the Internet by the server device, respectively.

It is achieved by a substrate management method comprising a.

According to the substrate management system and the substrate management method of the present invention, the values of the flowmeters of a plurality of coating liquid generating devices (that is, many coating liquid generating devices in the world) placed in different places can be managed in a single way by using a server device.

Further, from among a number of coating liquid generating devices, the value of the flow meter in a specific coating liquid generating device can be accurately grasped at any time from a spaced apart location.

And, from the value of the flow meter, it is possible to indirectly grasp the amount of use (consumption) of the coating composition generator provided in the coating liquid generating device, so that the replacement timing of the coating composition generator can be accurately grasped. Accordingly, it is possible to continuously maintain all of the plurality of coating liquid generating devices placed in different places in an optimal state.

Further, in the substrate management system of the present invention, the flow meter is installed upstream from the coating composition generator, and the coating composition generator is installed downstream from the flow meter. That is, the flow meter is installed just in front of the liquid inlet of the coating composition generator. In this way, by installing the flow meter right in front of the coating composition generator, even if a foreign material (eg, fragments of the coating composition) leaks from the coating composition generator, entry of the foreign material into the flow meter is prevented. It is possible to prevent the failure or problem of the flow meter by.

Further, in the substrate management system of the present invention, the coating liquid generating device includes a flow passage for circulation of liquid, and a foreign matter filter is provided in the circulation flow passage.

Thereby, it is possible to more reliably prevent foreign matter flowing out of the coating composition generator from entering the flow meter.

In addition, in the substrate management system of the present invention, the coating liquid generating device is provided with a flow path for circulation of liquid, and a check valve is provided in the circulation flow path to prevent backflow of liquid in the flow path.

Thereby, it is possible to more reliably prevent foreign matter flowing out of the coating composition generator from entering the flow meter.

Further, in the substrate management system of the present invention, the measurement value information transmission means is constituted by a device electrically connected to a flow meter provided in the coating liquid generating device. This measurement value information transmission device is configured to be able to communicate using the Internet.

When the coating liquid generating device is provided with such a measured value information transmitting device, it is possible to reliably transmit the measured value of the flow meter to the server device at any time.

In addition, in the substrate management system of the present invention, the measurement value information transmission means can communicate using the Internet, and is configured as a portable terminal separate from the coating liquid generating device.

According to this feature, since it is possible to transmit the measured value of the flow meter to the server device using a portable terminal such as a smart phone, which is generally widely used, it is necessary to install a communication means for transmitting the measured value of the flow meter to the coating liquid generating device. Disappears.

Further, in the substrate management system of the present invention, the coating liquid generating device is provided with a connection device including an input port and an output port.

Thereby, for example, in the case of using "water" as a liquid as a raw material of the coating liquid, it becomes possible to connect the faucet of the water supply to the input port through a flow path such as a hose.

Further, it is possible to connect a flow path such as a hose for outputting the coating liquid generated by the coating liquid generating device to the outside, to the output port, so that the coating liquid can be sprayed toward the object to be coated.

In addition, in the substrate management system of the present invention, a connection device included in the coating liquid generating device includes security means for electronically locking/unlocking the connection device.

Thereby, when the connection device is locked, it becomes impossible to connect the flow path to the input port and the output port of the connection device, so that the use of the coating liquid generating device by an unauthorized person can be prevented. In addition, it becomes possible to manage the coating liquid generating device more strictly (for example, so as not to be used illegally).

In addition, in the base material management system of the present invention, the security means included in the connection device includes a communication unit that performs short-range wireless communication with the security key. Then, by performing short-range wireless communication between the communication unit of the security means and the security key, the connection device is electronically locked/unlocked.

Thereby, it is possible to electronically lock/unlock the connection device without cumbersome operation, simply and quickly, and management of the coating liquid generating device is facilitated.

In addition, in the substrate management system of the present invention, the security means provided in the connection device reads two-dimensional information displayed on a portable article such as a security card with a camera, and authenticates based on the two-dimensional information. And further, if this authentication is successful, the connection device is electronically corrected/unlocked.

Thereby, it is possible to electronically lock/unlock the connection device without cumbersome operation, simply and quickly.

Further, in the substrate management system of the present invention, for example, the two-dimensional information displayed on a portable article such as a security card includes identification information (ID) for identifying a user of the coating liquid generating device.

And, the two-dimensional information (including the ID) read by the connection device may be transmitted to the server device through a communication means, whereby the connection device is locked/unlocked to allow individuals or organizations to use the coating liquid generating device, In the server device, it becomes possible to grasp and manage as a whole. Further, the operation status of the coating liquid generating device can be grasped in the server device.

In addition, in the substrate management system of the present invention, for example, in the two-dimensional information displayed on a portable article such as a security card, identification information (ID) for identifying identification information for identifying individual coating liquid generating devices is included. Included.

And, the two-dimensional information (including the ID) read by the connection device may be transmitted to the server device through a communication means, whereby the connection device is locked/unlocked to allow individuals or groups to use the coating liquid generating device, In the server device, it becomes possible to grasp and manage in one unit. In addition, it is possible to grasp the operating state of the coating liquid generating device in the server device.

1 is a diagram showing a schematic configuration of a substrate management system (first embodiment) configured including a coating liquid generating device, a cylinder device (coating composition generator), and the like.
Fig. 2 is a diagram showing a schematic configuration of a substrate management system (second embodiment) including a coating liquid generating device, a cylinder device (coating composition generator), and the like.
Fig. 3 is a diagram showing a schematic configuration of an embodiment of electronically locking/unlocking a connection device provided in the coating liquid generating device using a portable terminal (for example, a smart phone) functioning as a security key.
Fig. 4 shows a schematic configuration of an embodiment in which a connection device provided in the coating liquid generating device is electronically locked/unlocked using a management card (e.g., a personal authentication card such as an employee ID) that functions as a security key. It is a drawing.
5 is a diagram showing a specific example of a card-type security key for electronically locking/unlocking a connection device provided in the coating liquid generating device.
6 is a cross-sectional view showing a cylinder device (coating composition generator).
7 is a cross-sectional view taken along line AB of the cylinder device shown in FIG. 6.
Fig. 8 is a diagram showing a schematic configuration of a substrate management system (prior art) including a coating liquid generating device, a cylinder device (coating composition generator), and the like.

(Schematic configuration of coating liquid generating device and coating device)

1 shows a schematic configuration of a substrate management system including a coating liquid generating device 1.

As shown in Fig. 1, the coating liquid generating device 1,

* A coating composition generator 81 (cylinder device) that allows liquid to circulate inside,

* A liquid circulation device (3) for circulating a liquid to repeatedly pass through the coating composition generator (81),

* It has a flow path 21 for liquid circulation that connects one outlet of the coating composition generator 81 and the liquid circulation device 3 to the other inlet.

The liquid circulation device 3 is configured to include a tank during production and for storing the produced coating liquid, a pump serving as a power source for circulating the liquid, and the like.

In addition, as shown in Fig. 1, the coating device 2 is configured to include a spray nozzle or a pump for spraying the coating liquid generated by the coating liquid generating device 1 onto various coating objects such as vehicles. have.

In addition, as a representative example of "liquid" and "liquid" mentioned in this application, that is, a representative example of the liquid used as the base of a coating liquid, "water", such as tap water, is mentioned. However, the liquid to which the present invention can be applied is not necessarily limited to water such as tap water, and a liquid containing water as a main component is widely included. As a liquid other than water to which the present invention can be applied, for example, a cleaning liquid containing water as a main component and a cleaning chemical liquid may be mentioned.

In this embodiment, a liquid serving as a source, such as tap water or a washing liquid, is pumped using a pump. The liquid pumped and pumped passes through the inside of the cylindrical body (cylinder) of the coating composition generator 81 (cylinder device), and then, through the liquid circulation device 3, the coating composition generator 81 (cylinder device). ) Repeatedly.

In this way, when a liquid such as tap water or a washing liquid is pumped and the liquid is repeatedly circulated through the liquid circulation passage 21, the liquid repeatedly passes through the coating composition generator 81 (cylinder device). In the process, the liquid is repeatedly exposed to the coating composition in the coating composition generator 81 (cylinder device), so that the original liquid such as tap water or washing liquid is changed to the coating liquid. That is, the coating liquid is produced by circulating the original liquid such as tap water or washing liquid using the coating liquid generating device 1.

The coating liquid generated by the coating liquid generating device 1 is stored in a tank, and is a coating object such as a structure exposed to the body of a vehicle, the exterior wall of a building, and the outside air by the coating device 2 equipped with a pump or spray nozzle, etc. Is sprayed against.

The object to be sprayed with the coating liquid is not particularly limited, and specific examples thereof include the body of various moving bodies such as vehicles, ships, and aircraft, outer walls of permanent structures such as buildings, walls exposed to outside air, structures used outdoors, and exposed to outside air. And a window provided with a permeable portion made of glass or transparent resin, and a surface portion of various structures such as structures and equipment.

(Configuration of cylinder device/coating composition generator)

Next, a specific embodiment of a "cylinder device" that is a part of a coating liquid generating device will be described with reference to FIGS. 6 and 7. The cylinder device corresponds to the "coating composition generator" described in the claims, and is a device that generates a non-aqueous silicon oxide solution.

Fig. 6 is a cross-sectional view showing a cylinder device, and in Fig. 6, the cylinder device is a so-called horizontal cylinder device 81 of a type disposed sideways and used, and a cylindrical body 83 having both ends closed, that is, a cylinder It consists of 83, and filters 86 and 87 are provided in the vicinity of both ends, respectively.

A ceramic composite 88 is provided between the filters 86 and 87, and the ceramic composite 88 is preferably a granular body. The ceramics composite 88 corresponds to the "coating composition" described in the claims.

The filling rate of this ceramic composite 88 is arbitrary, but is preferably 20% to 80%, more preferably 30% to 70%, and most preferably around 50%.

It is preferable that the filters 86 and 87 have a mesh that does not pass through the particles of the ceramic composite 88.

The cylinder device 81 is provided with a liquid inlet 91 and a liquid outlet 92 at both ends, wherein the liquid inlet 91 is formed at one end of the liquid ejection pipe 82. That is, this liquid ejection pipe 82 is provided at one end of the tubular body, is made of a pipe that has passed through the filter 86 in the vicinity of the one end, and extends to the vicinity of the filter 87 at the other end. . The liquid flowing out from the liquid outlet 92 flows into the liquid circulation device through the connecting flow path.

In addition, the liquid ejection pipe 82 is provided with a liquid inlet 91 as described above, and the tip is closed, and one or two or more liquid ejection holes 85 in the side wall of the pipe. ). As shown in Fig. 7, when the angle of the liquid ejection hole 85 is 45° downward with respect to the vertical, the ejection liquid rotates to keep the particles of the ceramics composite 88 in a floating state. Although it is preferable from a point, it is not specifically limited to this.

In the cylinder device 81, when, for example, tap water is introduced from the liquid inlet 91 of the liquid ejection pipe 82, the tap water ejected from the liquid ejection hole 85 rotates and the ceramics composite 88 The particles of can be suspended satisfactorily.

The particles of the ceramics composite 88 used in the present invention are composed of a ceramics composite obtained by sintering an initial polymer condensation product of silicon dioxide and tourmaline, which is dispersed in a liquid and subjected to mechanical stimulation to release silicon oxide. By eluting, a non-aqueous silicon oxide solution can be obtained. Further, by circulating this non-aqueous silicon oxide solution through the cylinder device 81, a concentrated non-aqueous silicon oxide solution can be obtained.

(Pre-treatment of coating)

When coating an object to be coated (structure) such as a vehicle body or an exterior wall of a building using the above-described coating device, it is preferable to perform a "cleaning treatment" on the object to be coated before that. That is, it is preferable to perform a "cleaning treatment" prior to the object, and then to coat the object (a structure from which contamination such as mold or oil contamination has fallen by the washing treatment) using a coating device.

(First embodiment of the equipment management system)

In addition, the first embodiment of the substrate management system configured including the coating liquid generating device of the above-described configuration is as shown in FIG. 1.

As shown in Fig. 1, the substrate management system includes a plurality of coating liquid generating devices (1), (1) installed in different places in the world. As a system for individually managing each of the coating liquid generating apparatus 1, it relates to a system for collectively managing the amount of operation or the operation situation of each coating liquid generating device 1 at a spaced apart place using a server device.

The substrate management system of the first embodiment, as shown in Fig. 1,

* A coating liquid generating device (1) that uses water to generate a coating liquid,

* It has a server device 5 that manages the measured values of the flow meter M2 of the coating liquid generating device 1, and the like.

The schematic configuration of the coating liquid generating device 1 is as described above.

Specifically, this coating liquid generating device 1, as shown in Fig. 1,

* Coating composition generator 81 (cylinder device) capable of circulating liquid water,

* Flow meter (M2) for measuring the liquid flow rate in the coating composition generator 81,

* Circulation flow path 21 for circulating liquid water,

* A plurality of filters (F1, F2, F3) installed in the circulation passage 21,

* Check valve (CV) installed in the circulation flow path (21),

* Measurement value information transmitting device 7 (measured value information transmitting means/transmitter) for transmitting measured value information about the measured value of the flow meter M2 to the server device 5 via the Internet,

Etc.

The coating composition generator 81 is constituted by including the cylinder device 81 and the like shown in Figs. 6 and 7. The details are as described above.

In addition, the coating composition included in the coating composition generator 81 is composed of the ceramic composite 88 included in the cylinder device 81 described above.

In the coating composition generator 81 (cylinder device), water, which is a raw material of the coating liquid, flows through the inside, so that a coating liquid is generated, and instead, the coating composition inside it is consumed. Thus, the coating composition generator 81 is a consumable product. The consumption amount of the coating composition is proportional to the flow rate of water flowing inside the coating composition generator 81.

As shown in FIG. 1, this coating composition generator 81 is provided downstream of the flow meter M2.

In this embodiment, the flow meter M2 is provided just in front of the liquid inlet of the coating composition generator 81.

The flow meter M2 is a measuring device for measuring the liquid flow rate (the flow rate of water passing through the inside of the coating composition generator) in the coating composition generator 81. This flow meter M2 is installed upstream of the coating composition generator 81.

The circulation flow path 21 is a flow path for circulating liquid water, and makes it possible to repeatedly circulate the water through the coating composition generator 81. When this water is repeatedly exposed to the coating composition in the coating composition generator 81, the water changes into a coating liquid.

The filters F1, F2, F3 and the check valve CV are provided in the circulation flow path 21.

The filters F1, F2, F3 prevent foreign matter (eg, fragments of the coating composition) leaked from the coating composition generator 81 from entering the flow meter M2 via the circulation flow path 21 I am in charge of a role.

The check valve CV plays a role of preventing reverse flow of liquid in the circulation flow path 21.

The measured value information transmitting device 7 (measured value information transmitting means/transmitter) is a part of the coating liquid generating device 1 and is configured by a device capable of communication using the Internet. This measured value information transmission device 7 is electrically connected to a flow meter M2 provided in the coating liquid generating device, and can read and transmit a measured value from the flow meter M2. Further, the measurement value information transmission device 7 (measurement value information transmission means) is responsible for transmitting the measurement value information about the measurement value of the flow meter M2 to the server device 5 via the Internet.

The server device 5 manages the measured value of the flow meter M2 of each coating liquid generating device 1 installed in a large number in the world. In this embodiment, the measured value of the flow meter M2 managed by the server device 5 is transmitted through the measured value information transmitting device 7 (measured value information transmitting means) provided in the coating liquid generating device 1 Information.

(Second Embodiment of Equipment Management System)

The second embodiment of the substrate management system including the coating liquid generating device is as shown in FIG. 2.

As shown in Fig. 2, the substrate management system includes a plurality of coating liquid generating devices (1), (1) installed in different places in the world. As a system for individually managing each of the coating liquid generating devices 1, it relates to a system for unified management of the amount of operation or the operation status of each coating liquid generating device 1 using a server device.

The substrate management system of the second embodiment, as shown in Fig. 2,

* A coating liquid generating device (1) that uses water to generate a coating liquid,

* Server device (5) that manages the measured values of the flow meter (M2) of the coating liquid generating device (1),

* A portable terminal 9 (measured value information transmitting means) for transmitting measured value information related to the measured value of the flow meter M2 to the server device 5,

Has a back.

The portable terminal 9 (measured value information transmission means) used in this embodiment can communicate using the Internet, and is configured by a device separate from the coating liquid generating device 1. The portable terminal 9 is constituted by, for example, a smart phone or a mobile phone.

This portable terminal 9,

A camera for photographing the flow meter M2 (a part displaying the measured value) of the coating liquid generating device 1,

Reading means (e.g., a control circuit such as a CPU) for reading the measured value of the flow meter from the image data of the flow meter M2 obtained by the photographing;

Communication unit for transmitting measurement value information related to the read measurement value to the server device 5 via the Internet

It is equipped with.

The photographing of the flow meter M2 by the portable terminal 9 is performed by a user who uses the coating liquid generating device 1 by manual operation.

Reading of the measured value of the flow meter M2 by the portable terminal 9 is performed by image recognition.

The server device 5 manages the measured value of the flow meter M2 of each coating liquid generating device 1 installed in a large number in the world.

In this embodiment, the measured value of the flow meter M2 managed by the server device 5 is information transmitted through the portable terminal 9. In this respect, it differs from the first embodiment described above.

The schematic configuration of the coating liquid generating device 1 is as described above.

Specifically, this coating liquid generating device 1, as shown in Fig. 2,

* A coating composition generator 81 (cylinder device) capable of circulating liquid water,

* A flow meter (M2) for measuring the liquid flow rate in the coating composition generator (81),

* A circulation passage 21 for circulating liquid water,

* A plurality of filters (F1, F2, F3) installed in the circulation passage 21, and

* A check valve (CV) installed in the circulation flow path (21),

* Connection device 23 having an input port and an output port

It includes.

The coating composition generator 81 is constituted by including the cylinder device 81 and the like shown in Figs. 3 and 4. The details are as described above.

In addition, the coating composition included in the coating composition generator 81 is composed of the ceramic composite 88 included in the cylinder device 81 described above.

In the coating composition generator 81 (cylinder device), water, which is a raw material of the coating liquid, flows through the inside, so that a coating liquid is generated, and instead, the coating composition inside it is consumed. Thus, the coating composition generator 81 is a consumable product. The consumption amount of the coating composition is proportional to the flow rate of water flowing inside the coating composition generator 81.

As shown in FIG. 2, this coating composition generator 81 is provided downstream of the flow meter M2. In this embodiment, the flow meter M2 is provided just in front of the liquid inlet of the coating composition generator 81.

The flow meter M2 is a measuring device for measuring the liquid flow rate (the flow rate of water passing through the inside of the coating composition generator) in the coating composition generator 81. This flow meter M2 is installed upstream of the coating composition generator 81.

The circulation flow path 21 is a flow path for circulating liquid water, and makes it possible to repeatedly circulate the water through the coating composition generator 81. When this water is repeatedly exposed to the coating composition in the coating composition generator 81, the water changes into a coating liquid.

The filters F1, F2, F3 and the check valve CV are provided in the circulation flow path 21.

The filters F1, F2, F3 prevent foreign matter (eg, fragments of the coating composition) leaked from the coating composition generator 81 from entering the flow meter M2 via the circulation flow path 21 I am in charge of a role.

The check valve CV plays a role of preventing reverse flow of liquid in the circulation flow path 21.

The connection device 23 is provided with an input port, an output port, and an open/closed cover capable of covering and concealing each of these ports. The flow path can be connected to each port of the input port and output port only when the cover is open.

An input port provided in the connection device 23 is a flow path connection port for inputting a liquid used as a raw material for the coating liquid to be generated from a liquid supply source (for example, a faucet of a water supply) to the coating liquid generating device. The output port provided in the connection device 23 is a flow path connection port for outputting the coating liquid generated by the coating liquid generating device to the outside.

Further, the connection device 23 included in the coating liquid generating device includes an electronic locking/unlocking device (security means) for electronically locking/unlocking the connection device 23.

In the state in which the connection device 23 is unlocked by the electronic locking and unlocking device (security means), for example, the cover covering the input port and the output port can be opened and closed freely, and as shown in FIG. The flow path can be connected to the input port and the output port of the connection device, respectively. That is, in the state where the connection device 23 is unlocked, the coating liquid generating device 1 can be freely used (so that its function can be exhibited).

In a state in which the connection device 23 is locked by an electronic locking/unlocking device (security means), for example, a cover covering and concealing the input port and the output port is locked in a closed state, and the input port of the connection device and the It is impossible to connect the flow path to the output port. That is, when the connection device 23 is locked, the coating liquid generating device 1 cannot be used.

(First embodiment of the connection device included in the coating liquid generating device)

The first embodiment of the connection device 23 included in the coating liquid generating device is as shown in FIG. 3.

The electronic lock and unlock device (security means) included in the connection device 23 shown in Fig. 3 includes a communication unit that performs short-range wireless communication with a security key. As a security key, a portable terminal 9 equipped with a chip for short-range wireless communication is mentioned, for example.

The connection device 23 is electronically locked/unlocked by performing short-range wireless communication between the communication unit of the electronic locking/unlocking device (security means) provided in the connection device 23 and the portable terminal 9 as a security key. .

That is, by bringing the portable terminal 9 close to the connection device 23, the cover of the connection device 23 can be opened, and the cover of the connection device 23 can be locked in a closed state. .

As a specific example of the two-dimensional information displayed on the management card 10, a barcode, a QR code (registered trademark), etc. are mentioned, for example. In this embodiment, a QR code (registered trademark) is employed as a specific example of two-dimensional information.

In addition, as a specific example of the management card for security that displays two-dimensional information, a personal authentication card as shown in FIG. 5 is exemplified. As shown in Fig. 5, on this personal authentication card, two-dimensional information is displayed, and the two-dimensional information includes identification information for identifying a user of the coating liquid generating device.

In addition, as another specific example of the management card for security that displays two-dimensional information, a base card as shown in FIG. 5 is exemplified. On this base card, as shown in Fig. 5, two-dimensional information is displayed, and the two-dimensional information includes identification information for identifying individual coating liquid generating devices.

Two-dimensional information (including the identification information) read from the management card 10 at the time of authentication may be transmitted to the server device. In this case, the connection device 23 is provided with a communication unit for transmitting information to the server device 5. In this way, by transmitting the two-dimensional information (including the identification information) read from the management card 10 to the server device 5, in the server device, the operation status of the coating liquid generating device can be grasped in more detail. Things become possible.

Incidentally, in the present embodiment, a management card is exemplified as an article displaying two-dimensional information, but the two-dimensional information may be displayed on any article as long as it is a portable article.

(First embodiment of the equipment management method)

In the substrate management method using the substrate management system of the first embodiment shown in Fig. 1, as the measured value of the flow meter M2 provided in the coating liquid generating device 1, measurement at the time before the start of the coating operation on the coating object The measurement value information transmission device 7 transmits the "measured value information before work" related to the value to the server device 5 via the Internet.

Also,

As the measured value of the flow meter M2 provided in the coating liquid generating device 1, "measured value information after completion" related to the measured value at the point of time after completion of the coating operation on the coating object is transmitted, the measured value information transmitting device 7 ) Transmits to the server device 5 via the Internet.

And,

The server device 5 records in the server device the "measured value information before work" and "measured value information after completion" received from the measured value information transmitting device 7 via the Internet, respectively.

(Second embodiment of the equipment management method)

In the substrate management method using the substrate management system of the second embodiment shown in Fig. 2, as the measured value of the flow meter M2 provided in the coating liquid generating device 1, the measurement at the time before the start of the coating operation on the object to be coated The portable terminal transmits the "measured value information before work" related to the value to the server device 5 via the Internet.

Also,

As the measured value of the flow meter M2 provided in the coating liquid generating device 1, "measured value information after completion" related to the measured value at the point of time after completion of the coating work on the coating object is provided, and the mobile terminal 9 is connected to the Internet. Is transmitted to the server device 5 via

And,

The server device 5 records the "measured value information before work" and "measured value information after completion" received from the portable terminal 9 via the Internet in the server device, respectively.

1: coating liquid generating device
2: coating device
3: liquid circulation device
5: Management server device
7: Measurement value information transmission device (transmitter)
9: mobile terminal
10: management card
21: circulation flow path
23: connection device
M1: flow meter
M2: flow meter
F1: filter
F2: filter
F3: filter
CV: check valve
81: cylinder device (coating composition generator)
82: water jet pipe
83: cylindrical body (cylinder)
85: spout
86: filter (mesh network)
87: filter (mesh network)
88: ceramics composite (coating composition)
91: water inlet
92: water outlet

Claims (13)

A coating liquid generating device 1 including a coating composition generator 81 that is capable of flowing liquid and is a consumable product, and a flow meter M2 for measuring a liquid flow rate in the coating composition generator 81;
A server device 5 for managing the measured value of the flow meter M2 of the coating liquid generating device 1; And
Measurement value information transmission means for transmitting measurement value information about the measurement value of the flow meter M2 to the server device 5 via the Internet;
Containing, a substrate (機材) management system. The method of claim 1,
In the coating liquid generating device (1),
The flow meter M2 is installed upstream of the coating composition generator 81,
The coating composition generator (81) is provided on a downstream side of the flow meter (M2). The method of claim 1,
The coating liquid generating device 1,
A circulation flow path 21 that enables the liquid to repeatedly flow through the coating composition generator 81 by circulating the liquid; And
Filters (F1, F2, F3) installed in the circulation flow path and for preventing foreign substances leaked from the coating composition generator 81 from entering the flow meter; further comprising, a substrate management system. The method of claim 3,
The coating liquid generating device 1,
A substrate management system provided in the circulation flow path 21 and further comprising a check valve for preventing backflow of liquid. The method of claim 1,
The measurement value information transmission means,
A substrate management system comprising a measurement value information transmission device 7 electrically connected to a flow meter provided in the coating liquid generating device 1 and capable of communication using the Internet. The method of claim 1,
The measurement value information transmission means is capable of communication using the Internet, and is composed of a portable terminal 9 separate from the coating liquid generating device 1,
The portable terminal 9,
A camera for photographing the flow meter M2 of the coating liquid generating device 1;
Reading means for reading a measured value of the flow meter M2 from the image data of the flow meter obtained by the photographing; And
And a communication unit for transmitting measurement value information related to the read measurement value to the server device 5 via the Internet. The method of claim 1,
The coating liquid generating device 1,
An input port that is a flow path connection port for inputting a liquid used as a raw material of the generated coating liquid from a liquid supply source to the coating liquid generating device; And
An output port that is a channel connection port for outputting the coating liquid generated by the coating liquid generating device to the outside;
A base material management system comprising a connection device comprising a. The method of claim 7,
The connection device 23 provided in the coating liquid generating device 1,
And a security means for electronically locking/unlocking the connection device 23,
In a state in which the connection device is unlocked by the security means,
It is possible to connect a flow path to the input port and the output port of the connection device 23, respectively,
In a state in which the connection device (23) is locked by the security means, it is impossible to connect a flow path to the input port and the output port of the connection device (23). The method of claim 8,
Security means provided in the connection device 23,
It has a communication unit that performs short-range wireless communication with the security key,
A base management system for electronically locking/unlocking the connection device (23) by performing short-range wireless communication between the communication unit of the security means and the security key. The method of claim 8,
Security means provided in the connection device 23,
A camera for reading 2D information displayed on a portable article;
Authentication means for performing authentication based on the two-dimensional information read by the camera; And
And a control means for electronically locking/unlocking a connection device when the authentication is successful. The method of claim 10,
In the two-dimensional information displayed on the portable article,
A substrate management system containing identification information for identifying a user of the coating liquid generating device 1. The method of claim 10,
In the two-dimensional information displayed on the portable article,
A substrate management system containing identification information for identifying the coating liquid generating device (1). In the substrate management method using the system according to claim 1,
As the measurement value of the flow meter provided in the coating liquid generating device 1, the measurement value information before the operation regarding the measurement value at the time before the start of the coating operation on the coating object is provided, and the measurement value information transmission means is connected to the Internet. Transmitting to the server device via;
As a measurement value of a flow meter provided in the coating liquid generating device, the measurement value information after completion of the measurement value at the time point after completion of the coating operation on the coating object is transmitted to the server device 5 through the Internet. Transmitting; And
Recording, in the server device (5), measurement value information before work and measurement value information after completion, by a server device, received from transmission of measurement value information through the Internet;
Containing, substrate management method.

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