KR20230115112A - Smart management system for factory - Google Patents

Abstract

The present invention relates to a smart factory management system capable of providing a flexible situation solution even in the case of an urgent situation in a factory, and event information including at least one of temperature and humidity, harmful gas, fire occurrence, and vibration above a reference value in a target factory An environment monitoring unit that transmits in-sensing data to a user device, a process monitoring unit that transmits process data, which is the event information, including at least one of product production volume per standard time and quality inspection quantity per standard time of the target factory to the user device. and a map provider configured to transmit map data reflecting the map of the target factory to the user device.
The map providing unit may link a location corresponding to the event information to the map data.

Description

Smart factory management system {Smart management system for factory}

The present invention relates to a smart factory management system, and more particularly, to monitor various status information of a target factory, to share such monitoring information with officials of the factory, and to assist in the management of the factory It is about a smart factory management system.

In various manufacturing factories, production, quality inspection, etc. are routinely performed, and in addition, in order to smoothly proceed with such production, various management supervision and monitoring are performed for management and safety maintenance in the factory.

However, most of these factory monitoring processes depend on manpower, which causes a problem that considerable labor cost is forced and coping with monitoring blind spots such as after work hours may be insufficient.

As part of solving this problem, a preceding Korean Patent Publication No. 10-2021-0075358 discloses a smart factory operation analysis system and method.

According to the prior literature, after various monitoring elements in a factory are sensed by various sensors, analysis results thereof can be provided to factory managers, and thus, the factory monitoring task is automated and standardized.

However, when an urgent situation such as fire occurs, immediate action or evacuation is required, but the prior literature does not disclose any means for assisting this, making it difficult to solve the problem early and minimize various damages. problems will arise.

Republic of Korea Patent Publication No. 10-2021-0075358

As part of solving the above problems, an object of the present invention is to provide a smart factory management system capable of providing a flexible situation solving means even when an urgent situation occurs in a factory.

A smart factory management system according to the present invention includes an environment monitoring unit that transmits sensing data, which is event information including at least one of temperature and humidity in a target factory, harmful gas, occurrence of fire, and occurrence of vibration above a reference value to a user device, and the target factory and a process monitoring unit for transmitting process data, which is the event information including at least one of product production volume per reference time and quality inspection quantity per reference time, to the user device.

In addition, the smart factory management system is characterized in that it further comprises a map provider for transmitting map data reflecting the map of the target factory to the user device.

The map providing unit may link a location corresponding to the event information to the map data.

In addition, the map provider may display real-time location information of the user device on the map data.

According to the smart factory management system according to the present invention, all factory management and operation information, such as various environmental information and production volume information, can be provided to user devices owned by the relevant factory personnel, thereby enhancing the convenience of factory management effect will occur.

In addition, as map data reflecting the geography of the factory is provided and various events occurring in the factory are linked and applied to the map data, users in the factory can easily and visually through the map data in the event of an emergency. It is possible to identify the point of occurrence of a problem, and to easily find an emergency escape route through the map data that reflects one's real-time location. This results in the effect of minimizing damage.

1 is a block diagram showing a smart factory management system according to the present invention.
2A and 2B are diagrams illustrating an embodiment of the map providing unit shown in FIG. 1 .
FIG. 3 is a detailed configuration diagram illustrating an environment monitoring unit shown in FIG. 1 .
4A and 4B are diagrams illustrating an embodiment of an environment monitoring unit shown in FIG. 1 .
5 is a detailed configuration diagram illustrating a process monitoring unit shown in FIG. 1 .
6 is a diagram illustrating an embodiment of the process monitoring unit shown in FIG. 1 .

Prior to the detailed description of the present invention, specific details for carrying out the present invention are included in the following embodiments and drawings, and the same reference numerals described throughout the specification denote the same components.

In addition, the singular expressions in this specification will also include the plural unless specifically stated in the phrase.

Hereinafter, a smart factory management system according to the present invention will be described with reference to the drawings.

1 is a block diagram showing a smart factory management system according to the present invention.

Referring to FIG. 1 , a smart factory management system 1000 according to the present invention may include a map providing unit 100 , an environment monitoring unit 200 and a process monitoring unit 300 .

In addition, each component of the smart factory management system 1000 may communicate with each other through the network (1).

At this time, the network network 1 can be understood as a means for integrating wired Internet computing networks, long-term evolution, Wi-Fi, Bluetooth, IoT means, artificial satellites, and various other wired/wireless communication means not mentioned.

In addition, each component of the smart factory management system 1000 may mutually communicate with the user device 10 through the network 1.

At this time, the user device 10 is a device owned by a related person such as an employee of a target factory to which the smart factory management system 1000 is applied, and in addition to the smart terminal shown in FIG. 1, a laptop, desktop, PDA, and other not mentioned Various means that are not included may correspond to the selection of the user device 10 .

Subsequently, FIGS. 2A and 2B are diagrams illustrating an embodiment of the map providing unit shown in FIG. 1 .

Further referring to FIGS. 2A and 2B , the map providing unit 100 may provide map data (m) reflecting a map of a target factory to the user device 10, and the map data (m) may be map It may be separately entered into the study (100).

In addition, the map data (m) can be visually displayed on the display of the user device 10, can be provided in various formats such as 2D / 3D, and can be enlarged, rotated, etc. can

Also, referring to FIG. 2A , location information c that is the current location of the corresponding user device 10 may be displayed in map data m.

In addition, as illustrated in the order of FIG. 2A to FIG. 2B , the real-time movement status of the user device 10 may be reflected in the map data m.

Subsequently, FIG. 3 is a detailed configuration diagram illustrating the environment monitoring unit shown in FIG. 1 .

And, FIGS. 4A and 4B are diagrams illustrating an embodiment of an environment monitoring unit shown in FIG. 1 .

Referring further to FIG. 3 , the environment monitoring unit 200 may include a temperature and humidity sensor 210, a harmful gas sensor 220, a fire sensor 230, and a vibration sensor 240. there is.

In addition, each of the temperature and humidity sensor 210, the harmful gas sensor 220, the fire sensor 230, and the vibration sensor 240 mentioned above may be provided in plurality for each element in the target factory, and may be provided by various sensing means. It can be configured, and various sensing data (s) corresponding to it can be generated.

More specifically, the temperature and humidity sensor 210 senses event information (e), such as the current state of temperature and humidity of the installed place, whether or not a temperature and humidity higher than a reference value have been established, and transmits this event information (e) to the user device 10, etc. can be sent to

In addition, the noxious gas detection unit 220 senses event information (e) such as the current state of noxious gas concentration in the air at the place where it is installed and the detection of noxious gas concentration above a standard value, and transmits this event information (e) to the user device 10 etc. can be sent.

In addition, the fire detection unit 230 may sense event information (e), such as whether or not a fire has occurred in the installed place, and transmit the event information (e) to the user device 10 or the like.

In addition, the vibration sensor 240 may sense event information (e), such as whether or not vibration exceeds a reference value of the installed place, and transmit the event information (e) to the user device 10 or the like.

In addition, the environment monitoring unit 200 may link the above-described event information (e) to the above-described map data (m).

For example, further referring to FIG. 4A , when a concentration of noxious gas higher than a reference value is detected, the corresponding location may be reflected in map data (m), and through this, users can easily identify the place where the problem occurs and take necessary measures. be able to

Further, referring to FIG. 4B , the user device 10 may further provide detailed information related to harmful gases as exemplified above, and sub-parameters such as such detailed information may be preset by the user device 10 or the like. can

In addition, in addition to the above examples related to harmful gases, other event information (e) that can be provided by other sub-elements of the environment monitoring unit 200 mentioned above may also be provided to the user device 10 in the same way. there is.

Subsequently, FIG. 5 is a detailed configuration diagram illustrating the process monitoring unit shown in FIG. 1 .

And, Figure 6 is a view showing an embodiment of the process monitoring unit shown in Figure 1

Referring further to FIG. 5 , the process monitoring unit 300 may include a production monitoring unit 310 and a quality monitoring unit 320, and event information (e) related to product production and quality inspection in the target factory Process data (f) can be created.

More specifically, the production monitoring unit 310 may collect various status information related to product production in the target factory and transmit it to the user device 10 .

At this time, product production-related information collected by the production monitoring unit 310 may be transmitted from a user device 10 owned by an employee in charge of product production.

Further, referring to FIG. 6 , the process data (f) transmitted to the user device 10 may include various detailed parameters such as product production volume (n) per reference time, and these detailed parameters are It may be preset.

In addition, the quality monitoring unit 320 may collect various status information related to quality inspection in the target factory and transmit it to the user device 10 .

At this time, the quality inspection-related information collected by the quality monitoring unit 320 may be transmitted from the user device 10 owned by an employee in charge of quality.

In addition, referring to FIG. 6 , the process data f transmitted to the user device 10 may include various detailed parameters such as the quality inspection quantity q for each standard time, and these detailed parameters are It may be preset.

As described above, the main technical idea of the present invention is to provide a smart factory management system, and the embodiment described above with reference to the drawings is only one embodiment, and the scope of the present invention is not only the claims Rather, it will extend to equivalent embodiments that can exist in various ways.

1000: Smart factory management system according to the present invention
100: map provision unit
200: environmental monitoring unit
210: temperature and humidity sensor
220: harmful gas detection unit
230: fire detection unit
240: vibration sensor
300: process monitoring unit
310: production monitoring unit
320: quality monitoring unit

Claims (4)

an environmental monitoring unit that transmits sensing data, which is event information including at least one of temperature and humidity, harmful gas, fire, and vibration above a reference value, to a user device; and
A smart factory management system comprising a process monitoring unit for transmitting process data, which is the event information, including at least one of product production volume per standard time and quality inspection amount per standard time of the target factory to the user device. According to claim 1,
The smart factory management system,
Smart factory management system further comprising a map providing unit for transmitting map data reflecting the map of the target factory to the user device. According to claim 2,
The map provider,
Factory management system, characterized in that for linking the location corresponding to the event information to the map data.
According to claim 2,
The map provider,
Smart factory management system, characterized in that for expressing the real-time location information of the user device on the map data.