KR20210027309A - IoT based retroreflective film with improved washing durability manufacturing management system - Google Patents

Abstract

The present invention relates to an IoT based retroreflective film manufacturing management system having improved washing durability, which includes: a retroreflective film manufacturing device having multiple types of washing durability; an artificial intelligence monitoring server monitoring the operating state of the retroreflective film manufacturing device having washing durability based on information on each module operation state and surrounding environment information received from the retroreflective film manufacturing device having multiple types of washing durability; and a monitoring terminal accessing the artificial intelligence monitoring server and requesting and confirming the monitoring results of the retroreflective film manufacturing device having multiple types of washing durability, and controlling the operation of the retroreflective film manufacturing device having washing durability based on the monitoring result.

Description

IoT based retroreflective film with improved washing durability manufacturing management system}

The present invention relates to a retroreflective film manufacturing management system having Internet of Things-based laundry durability, and more specifically, an IoT installed in a retroreflective film manufacturing device belonging to the group by grouping a plurality of retroreflective film manufacturing devices connected through a network communication network. Based on the status information sensed by IoT from the sensors, the retroreflective film manufacturing device is managed, remotely managed through wireless communication, and the failure history of the retroreflective film manufacturing device is collected and transmitted to the artificial intelligence monitoring server, It relates to a retroreflective film manufacturing management system with IoT-based laundry durability for integrated management.

Retroreflection refers to reflection that sends incident rays back to the incident direction as it is to a light source. That is, when light from a light source reaches another object, retroreflection is reflected by returning the incident light, which is the reached light, to the light source as it is. In simple terms, it refers to the reflection of light from an object hitting an object and returning to its original position.

It is commonly seen on road signs, and when light from the headlights of a vehicle running at night illuminates the road sign, the road sign appears bright to the eyes of the vehicle driver. This is because the light from the headlight hits the surface of the road sign, which is a reflective product, and then is reflected back to the light source by retroreflection.

Using this principle of retroreflection, most of the signs of roads with severe curves or work signs on night roads use retroreflective products so that objects can be easily recognized at night. In some countries, it is mandatory to wear retro-reflective products to reduce traffic accidents at night.

The retroreflective film is a film or sheet made using the principle of retroreflection in which incident light is reflected back in a unique pattern layer, such as a bead layer or a prism layer, and returns to the incident direction.

As discussed above, there are two types of retroreflective sheets. The first is a glass bead (bead) type retroreflective sheet. Fine glass beads are evenly applied on the fabric or film so that incident light is totally reflected inside the glass beads. Try to return to the direction of the light source. At this time, in order to improve the retroreflective performance, the reflection performance may be improved by applying a special coating treatment on the back side of the glass bead.

Second, as a prism-type retroreflective sheet, a triangular pyramidal prism is regularly applied to the fabric or film so that the incident light is refracted at the inclined surface of the prism and returned to the light source. The performance of the prism type retroreflective sheet is determined by the angle at which the prism is formed.

The retroreflective film according to the prior art has a problem in that luminance decreases due to damage or damage to the reflective layer by substances such as washing water or detergent according to repeated washing. Accordingly, there is an urgent need for a retroreflective film that improves durability by minimizing deterioration of luminance even during repeated washing.

In addition, since the quality of the retroreflective film varies depending on the manufacturing environment and conditions, there is a need to perform manufacturing management of the retroreflective film based on IoT and artificial intelligence to solve this problem.

Patent Publication No. 10-2014-0029980

The present invention is to overcome the above-described conventional problem, grouping a plurality of retroreflective film manufacturing apparatuses connected through a network communication network, and based on IoT-sensed state information from IoT sensors installed in a retroreflective film manufacturing apparatus belonging to the group. Internet of Things-based laundry to manage retroreflective film manufacturing equipment with a remote control, remotely manage through wireless communication, collect fault history details of the retroreflective film manufacturing equipment, and transmit it to an artificial intelligence monitoring server, and manage it in an integrated manner. It is to provide a durable retroreflective film manufacturing management system.

An IoT-based retroreflective film manufacturing management system having durability according to an exemplary embodiment of the present invention includes: a retroreflective film manufacturing apparatus having a plurality of washing durability; It is connected to the manufacturing of the retroreflective film having the plurality of washing durability through a network communication network, and a recursion having washing durability based on the operation state information and surrounding environment information of each module received from the manufacturing of the retroreflective film having the plurality of washing durability. An artificial intelligence monitoring server that monitors the operating state of the reflective film manufacturing apparatus; And connected to the artificial intelligence monitoring server through a network communication network, and connected to the artificial intelligence monitoring server to request and check the monitoring result of a retroreflective film manufacturing apparatus having a plurality of laundry durability, and determine the laundry durability based on the monitoring result. It includes; a monitoring terminal for controlling the operation of the retroreflective film manufacturing apparatus having.

Each of the apparatus for manufacturing a retroreflective film having a plurality of washing durability includes: a retroreflective film manufacturing unit for manufacturing a retroreflective film having washing durability; A power supply unit converting the voltage to operate the retroreflective film manufacturing unit and supplying the converted power to the retroreflective film manufacturing unit; And an IoT sensing unit that measures and collects information on an operation state of the retroreflective film manufacturing unit and information on a surrounding environment.

The IoT sensing unit may include an operation state IoT sensing module configured to sense an operation state of the retroreflective film manufacturing unit and power consumption information; And an environment information IoT sensing module that senses the temperature and humidity of the surrounding environment in which the retroreflective film manufacturing unit is installed.

The retroreflective film manufactured by the retroreflective film manufacturing unit includes a glass beads layer composed of a plurality of glass beads, a primer layer formed on the glass beads layer, and formed on the primer layer, and the glass beads layer The reflective layer protective film and the reflective layer protective film formed on the reflective layer to prevent penetration of foreign substances including washing water or detergent into the reflective layer, formed on the glass beads layer and the reflective layer reflecting the light collected through the glass beads layer and the outside, and the reflective layer protective film An adhesive layer formed thereon; And a base fabric layer formed on the adhesive layer.

According to the present invention, a plurality of retroreflective film manufacturing devices connected to a network communication network are grouped, monitored for abnormalities based on state information sensed by retroreflective film manufacturing devices belonging to the group, and remotely controlled each device. By controlling and managing defects, it is possible to maintain and manage a retroreflective film manufacturing apparatus having washing durability that can guarantee productivity improvement as well as quality reliability.

1 is a schematic configuration diagram of a retroreflective film manufacturing management system having an IoT-based laundry durability according to the present invention.
2 is a schematic configuration diagram of a retroreflective film manufacturing apparatus having washing durability of the present invention.
3 is a diagram showing a retroreflective film having washing durability.
4 is a cross-sectional view of a retroreflective film having improved washing durability according to another embodiment of the present invention.
5 is a schematic configuration diagram of an artificial intelligence monitoring server according to an embodiment of the present invention.
6 is a schematic configuration diagram of a monitoring terminal.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic configuration diagram of a retroreflective film manufacturing management system having an IoT-based laundry durability according to the present invention.

Referring to FIG. 1, a retroreflective film manufacturing management system having an Internet of Things-based laundry durability according to the present invention includes an apparatus 100 for manufacturing a retroreflective film having laundry durability, a network communication network 200, and an artificial intelligence monitoring server 300. And a monitoring terminal 400.

The retroreflective film manufacturing apparatus 100 having washing durability includes a glass bead layer composed of a plurality of glass beads, a primer layer formed on the glass beads layer, and formed on the primer layer, the glass beads layer. On the reflective layer protective film and the reflective layer protective film that is formed on the reflective layer and prevents foreign substances including washing water or detergent from penetrating into the reflective layer during washing, the glass beads layer and a reflective layer that reflects the light collected through the glass beads layer and the outside. An adhesive layer formed on the; And a retroreflective film having washing durability composed of a base fabric layer formed on the adhesive layer.

The retroreflective film manufacturing apparatus 100 having each washing durability includes an IoT sensing module capable of IoT sensing information on the operation state and surrounding environment of each module. It stores operation status information and surrounding environment information. Then, the operation state information and the surrounding environment information are transmitted to the artificial intelligence monitoring server 300 connected through the network communication network 200.

In addition, the retroreflective film manufacturing apparatus 100 having each washing durability performs a control operation such as an on/off operation according to a control command signal transmitted from the artificial intelligence monitoring server 300 or the monitoring terminal 400.

The artificial intelligence monitoring server 300 is connected to the retroreflective film manufacturing apparatus 100 having a plurality of washing durability through the network communication network 200. In addition, the artificial intelligence monitoring server 300 is connected to the monitoring terminal 400 through a network communication network 200.

The artificial intelligence monitoring server 300 stores operation state information and surrounding environment information of each module received from the retroreflective film manufacturing apparatus 100 having a plurality of washing durability. In addition, by comparing the received information with reference data on the retroreflective film manufacturing apparatus module having pre-stored washing durability, the operation state of each module is monitored, and learning is performed by an artificial intelligence learning model.

In addition, the artificial intelligence monitoring server 300 transmits the monitoring result to the monitoring terminal 400, and a control signal for controlling the operation of the retroreflective film manufacturing apparatus 100 having washing durability received from the monitoring terminal 400 Is transmitted to the retroreflective film manufacturing apparatus having the washing durability, and the operation is controlled.

The monitoring terminal 400 is connected to the artificial intelligence monitoring server 300 through the network communication network 200, and connected to the artificial intelligence monitoring server 300 to monitor the retroreflective film manufacturing apparatus 100 having a plurality of washing durability. You can check the result by requesting it. And, based on the monitoring result, the operation of the retroreflective film manufacturing apparatus 100 having a plurality of washing durability installed in a remote location is individually controlled.

2 is a schematic configuration diagram of a retroreflective film manufacturing apparatus having washing durability according to the present invention, and FIG. 3 is a diagram showing a retroreflective film having washing durability.

2, a retroreflective film manufacturing apparatus 100 having washing durability includes a power supply unit 110, a retroreflective film manufacturing unit 120, a power supply unit 130, a data storage unit 140, and an IoT sensing unit ( 150), and a communication unit 160 and a control unit 190. The IoT sensing unit 150 includes an operating state IoT sensing module, an environmental information IoT sensing module, and a battery IoT sensing module.

The retroreflective film manufacturing unit 120 includes a glass bead layer composed of a plurality of glass beads, a primer layer formed on the glass bead layer, and light condensed through the glass bead layer, formed on the primer layer. A reflective layer that reflects the glass beads layer and the outside; ; And a retroreflective film having washing durability composed of a base fabric layer formed on the adhesive layer.

The power supply unit 130 receives power from the power supply unit, converts it into a voltage for operating the retroreflective film manufacturing unit 120, and supplies it.

The IoT sensing unit 150 performs a function of measuring and collecting information on the operation state and surrounding environment information of the retroreflective film manufacturing apparatus. The IoT sensing unit 150 includes an operation state IoT sensing module, an environment information IoT sensing module, and a battery IoT sensing module.

Operation status The IoT sensing module performs a function of IoT sensing information such as the operation status of retroreflective film manufacturing, power consumption, and failure status of each module.

The environment information IoT sensing module performs a function of IoT sensing information about the surrounding environment in which the retroreflective film manufacturing device is installed, such as ambient moisture content, humidity, and temperature.

The communication unit 160 transmits the IoT-sensed information through the IoT sensing unit 150 to the artificial intelligence monitoring server 300 through a communication network, or a control signal transmitted from the artificial intelligence monitoring server 300 or the monitoring terminal 400 It performs the function of receiving.

The control unit 190 performs a function of controlling the operations of the retroreflective film manufacturing unit 120, the power supply unit 130, the data storage unit 140, the IoT sensing unit 150, and the communication unit 160.

Referring to FIG. 3, the retroreflective film having improved washing durability according to the present embodiment includes a carrier film 110, a temporary fixing layer 120, a glass beads layer 130, a primer layer 140, and a reflective layer 150. , A reflective layer protective film 160, an adhesive layer 170, a base fabric layer 180, and a protective layer 190.

The carrier film 110 serves as a release film that is finally removed when the retroreflective film is actually used.

The temporary fixing layer 120 is formed on the carrier film 110 and performs a function of temporarily bonding the carrier film 110 and the glass beads layer 130. The temporary fixing layer 120 may be made of a thermoplastic synthetic resin having adhesive properties such as polyethylene or polypropylene.

The glass beads layer 130 is formed on the temporary fixing layer 120 and is composed of a plurality of glass beads. The glass beads layer 130 is formed on the temporary fixing layer 120 to focus incident light on the reflective layer, and serves to reflect light returning from the reflective layer in the incident direction.

The primer layer 140 is formed on the glass bead layer 130 and serves to allow the reflective layer to be formed in close contact with the glass bead layer 130 during a process for forming the reflective layer 150.

The primer layer 140 may be formed by applying a synthetic resin such as polyurethane resin or acrylic resin by a method of comma coating, gravure coating, or micro gravure coating.

The reflective layer 150 is formed on the primer layer 140 and serves to reflect the light collected through the glass beads layer 130 to the glass beads layer 130 and to the outside. The reflective layer 150 is formed by depositing a metal material having excellent reflection efficiency, for example, a metal material such as Al or Cu.

The reflective layer protective film 160 is formed on the reflective layer 150 and performs a function of minimizing penetration of external substances such as washing water or detergent into the reflective layer 150 during washing.

In this embodiment, the reflective layer protective film 160 includes a first protective film 161 and a second protective film 162. The first protective film 161 is formed on the reflective layer 150, and the second protective film 162 is formed on the first protective film 161.

The first protective film 161 is formed on the reflective layer 150, and the first protective film 161 performs a function of protecting the reflective layer, and is a chemical reaction curable adhesive synthetic resin, for example, a polyester resin, Polyurethane resin or acrylic resin is formed using wet forming methods such as gravure printing, silk screen, flexo printing, offset printing or comma coating, or by dry forming methods such as evaporation, sputtering, or CVD.

The second protective film 162 is formed on the first protective film 161 and performs a function of additionally preventing external pollutants or moisture from penetrating into the reflective layer 150 and the first protective film 161. The second protective film 162 is formed on the first protective film 161 using a material composed of an inorganic film. In this embodiment, a _{transparent oxide film such as SiO 2} or TiO ₂ is formed as the second protective film in a wet method or a dry method.

The second protective film has a low water molecule transmittance and has already become an oxide film, and thus suppresses oxidation of the reflective layer of metal, thereby preventing deterioration of washing luminance.

The adhesive layer 170 is formed on the reflective layer protective film 160 and serves to bond the reflective layer 150 and the base fabric layer 180.

The base fabric layer 180 is formed of a fabric, a fabric, or a synthetic resin film. The base fabric layer 180 may be implemented in various colors as needed.

The protective layer 190 is formed on the base fabric layer 180 to perform a function of protecting the base fabric layer 180, and may be omitted if necessary.

4 is a cross-sectional view of a retroreflective film having improved washing durability according to another embodiment of the present invention.

Referring to FIG. 4, the retroreflective film having improved washing durability according to the present embodiment includes a carrier film 510, a temporary fixing layer 520, a glass beads layer 530, a primer layer 540, and a reflective layer 550. , A pollutant penetration prevention layer 555, a reflective layer protective film 560, an adhesive layer 570, a base fabric layer 580, and a protective layer 590.

In this embodiment, a pollutant penetration prevention layer 555 is additionally configured as an additional component for preventing the penetration of pollutants.

The pollutant penetration prevention layer 555 is formed on the reflective layer 550 and is formed under the reflective layer protective film 560. In some cases, only the pollutant penetration prevention layer 555 may be formed, and the reflective layer protective film 560 may be deleted.

In this embodiment, the pollutant penetration prevention layer 555 is composed of a first penetration prevention film 555a, a second penetration prevention film 555b, and a third penetration prevention film 555c, and the first penetration prevention film 555a is a reflective layer ( 550), the second penetration prevention film 555b is formed on the first penetration prevention film 555a, and the third penetration prevention film 555c is sequentially stacked on the second penetration prevention film 555b. .

The first penetration prevention layer 555a and the third penetration prevention layer 555c are formed of an organic layer, and the second penetration prevention layer 555b interposed therebetween is formed of an inorganic layer. When the organic film and the inorganic film are alternately stacked in this way, it is possible to significantly reduce the passage rate of contaminants.

The contaminant penetration prevention layer may be formed by sequentially stacking at least two or more times, so that the passage rate of the contaminant can be further lowered.

5 is a schematic configuration diagram of an artificial intelligence monitoring server according to an embodiment of the present invention, and FIG. 6 is a schematic configuration diagram of a monitoring terminal.

5, the artificial intelligence monitoring server according to the present embodiment includes a user authentication unit 310, a monitoring database unit 320, a monitoring unit 330, a monitoring communication unit 340, a monitoring display unit 350, and an alarm unit. (360) and an artificial intelligence monitoring server control unit 390.

The user authentication unit 310 accesses the artificial intelligence monitoring server 300 and authenticates the monitoring terminal 400 requesting a monitoring result. By comparing the previously stored user information with the user information transmitted through the monitoring terminal 400, it is determined whether they match or not, and authentication of the monitoring terminal 400 is performed.

The monitoring database unit 320 stores operation state information and surrounding environment information received from the IoT sensing unit of each retroreflective film manufacturing apparatus. In addition, the monitoring database unit 320 stores basic information, user information, and manufacturer information of the retroreflective film manufacturing apparatus.

The monitoring unit 330 monitors the operation state of each retroreflective film manufacturing unit and the presence or absence of an abnormality based on the information stored in the monitoring database unit 320. In addition, the monitoring unit 330 determines a monitoring sequence and a monitoring period of a plurality of retroreflective film manufacturing units, and monitors a plurality of retroreflective film manufacturing apparatuses according to the determined monitoring sequence and monitoring period.

The monitoring communication unit 340 performs a function of transmitting and receiving data and control signals through a communication network with the manufacturing of a plurality of retroreflective films 100. In addition, the monitoring communication unit 340 performs a function of transmitting and receiving data and control signals through a communication network with the monitoring terminal 400.

The monitoring display unit 350 performs a function of displaying the monitoring result, and the alarm unit 360 performs a function of notifying when an abnormality occurs in the operation of the retroreflective film manufacturing apparatus as a result of monitoring or when maintenance is required. do.

The artificial intelligence monitoring server control unit 390 controls the operation of the user authentication unit 310, the monitoring database unit 320, the monitoring unit 330, the monitoring communication unit 340, the monitoring display unit 350, and the alarm unit 360 Performs the function of

The monitoring database unit 320 includes a retroreflective film manufacturing device DB, a basic DB of a retroreflective film manufacturing device, an operation state DB of a retroreflective film manufacturing device, a manufacturer DB, a maintenance DB, a maintenance company DB, a user DB and a history. Includes DB.

Referring to FIG. 6, the monitoring terminal includes a terminal interface unit 410, a terminal communication unit 420, a terminal display unit 430, a terminal storage unit 440, and a terminal control unit 490.

The terminal interface unit 410 performs a function of inputting data or command signals by a monitoring manager or an operator of the retroreflective film manufacturing apparatus. In the case of a smartphone or tablet PC, input through the touch screen, and in the case of a PC, input through a keyboard or mouse. The administrator or operator inputs user information through the terminal interface unit 410, requests a monitoring result of the retroreflective film manufacturing apparatus, or inputs an operation control signal.

The terminal communication unit 420 performs a function of transmitting and receiving data and control signals with the artificial intelligence monitoring server 300 through a communication network.

The terminal display unit 430 performs a function of displaying input data or received data to a user. The LED monitoring result received from the artificial intelligence monitoring server is displayed.

The terminal storage unit 440 stores data received from the artificial intelligence monitoring server 300.

The terminal control unit 490 controls the operation of the terminal interface unit 410, the terminal communication unit 420, the terminal display unit 430, and the terminal storage unit 440.

What has been described above is only an exemplary embodiment of a retroreflective film manufacturing management system having Internet of Things-based laundry durability according to the present invention, and the present invention is not limited to the above-described embodiment, and is claimed in the following claims. As described above, without departing from the gist of the present invention, anyone of ordinary skill in the field to which the present invention pertains will have the technical spirit of the present invention to the extent that various changes can be implemented.

100: retroreflective film manufacturing apparatus having washing durability
130: power supply unit 140: battery unit
150: IoT sensing unit 160: communication unit
190: control unit
200: network communication network
300: artificial intelligence monitoring server
310: user authentication unit 320: monitoring database unit
330: monitoring unit 340: monitoring communication unit
350: monitoring display unit 360: alarm unit
390: artificial intelligence monitoring server control unit
400: monitoring terminal
410: terminal interface unit 420: terminal communication unit
430: terminal display unit 440: terminal storage unit
490: terminal control unit

Claims (4)

In the retroreflective film manufacturing management system having Internet of Things-based laundry durability,
A retroreflective film manufacturing apparatus having a plurality of washing durability;
It is connected to the manufacturing of the retroreflective film having the plurality of washing durability through a network communication network, and the recursion having washing durability based on the operation state information and the surrounding environment information received from the manufacturing of the retroreflective film having the plurality of washing durability An artificial intelligence monitoring server that monitors the operating state of the reflective film manufacturing apparatus; And
It is connected to the artificial intelligence monitoring server through a network communication network, and by connecting to the artificial intelligence monitoring server, it requests and checks the monitoring results of a retroreflective film manufacturing apparatus having a plurality of laundry durability, and has laundry durability based on the monitoring results. A monitoring terminal for controlling the operation of the retroreflective film manufacturing apparatus; and a retroreflective film manufacturing management system having Internet of Things-based laundry durability.
The method of claim 1,
Each of the retroreflective film manufacturing apparatus having a plurality of washing durability,
Retroreflective film manufacturing unit for manufacturing a retroreflective film having washing durability;
A power supply unit converting the voltage to operate the retroreflective film manufacturing unit and supplying the converted power to the retroreflective film manufacturing unit; And
An IoT sensing unit that measures and collects information on an operation state of the retroreflective film manufacturing unit and surrounding environment information; a retroreflective film manufacturing management system having durability for Internet of Things-based laundry.
The method of claim 2,
The IoT sensing unit,
An operation state IoT sensing module for sensing the operation state of the retroreflective film manufacturing unit and information on power consumption; And
A retroreflective film manufacturing management system having an Internet of Things-based laundry durability, comprising: an environmental information IoT sensing module that senses the temperature and humidity of the surrounding environment in which the retroreflective film manufacturing unit is installed.
The method of claim 2,
The retroreflective film manufactured by the retroreflective film manufacturing unit,
A glass beads layer composed of a plurality of glass beads, a primer layer formed on the glass beads layer, and a primer layer formed on the primer layer, and reflecting light collected through the glass beads layer to the glass beads layer and the outside. A reflective layer, a reflective layer protective film formed on the reflective layer and preventing foreign substances including washing water or detergent from penetrating into the reflective layer during washing, and an adhesive layer formed on the reflective layer protective film; And a base fabric layer formed on the adhesive layer.

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