KR20060005812A - Loading system and method of controlling the same - Google Patents

Abstract

The present invention relates to a stacking system and a control method thereof, comprising: an image input unit for photographing a load accumulation state in a stacking box; An A / D conversion circuit for converting an analog image signal output from the image input unit into a digital signal; A loading image storage unit for storing images of the storage box converted into digital; A load calculation unit configured to analyze a load image stored in the load image storage unit and calculate an alluvial ratio of the load; A network interface for communicating with the outside; When the image of the loading box through the image input unit and the A / D conversion circuit is stored in the loading image storage unit, and the charge ratio of the load is calculated by the load calculation unit so that the charge ratio of the load is greater than or equal to the full load standard charge ratio, It characterized in that it comprises a load control unit for providing the result to the outside through the network interface. In this way, by monitoring the loading status of scrap metal, industrial waste, garbage, etc. discharged from the industrial site in real time, it is automatically notified to the remote collection company, and by automatically controlling the loading state according to the loading status of the plurality of loading boxes, Not only does it save on-site manpower, but it also facilitates monitoring and management of loading conditions and improves reliability of load management.

Description

LOADING SYSTEM AND METHOD OF CONTROLLING THE SAME}             

1 is a configuration diagram of a loading system according to an embodiment of the present invention;

2 is a control block diagram of the loading system of FIG.

3 is a control flow diagram of the loading system of FIG.

4 is a configuration diagram of a loading system according to another embodiment of the present invention;

5 is a control block diagram of the loading system of FIG.

6 is a control flowchart of the loading system of FIG.

*** Explanation of symbols for the main parts of the drawing ***

 1: Internet 3: Stacking Box

 5: load 7: transport vehicle

10: image input unit 12: A / D conversion circuit

14: loading image storage unit 16: loading amount calculation unit

18: network interface 20: loading control unit

21: loading management server 22: loading system

24: distribution device drive unit 26: distribution device

30: manager 40: collector

The present invention relates to a loading system and a control method thereof, and in particular, to automatically monitor the loading status of scrap metal, industrial waste, garbage, etc. discharged from an industrial site to automatically notify a remote collection company and to load a plurality of loading boxes. The present invention relates to a loading system and a control method thereof, which not only saves on-site input manpower but also facilitates monitoring and management of loading state by automatically controlling the loading state of the load according to the state.

In modern industrial sites, characterized by mass production, by-products and wastes are also generated in large quantities according to the production of goods. The waste generated in this way is collected separately and processed by a collection company that handles the waste. Currently, the industrial waste collection method does not have enough automation to check the state of waste collection or to request the treatment of the collected waste. Most of the work is done directly by the site operator.

For example, in the auto parts press factory, the rebars left after cutting the coils are collected into a designated stacker through a distribution device such as a conveyor belt, and the manager checks the loading status of the stacker. I'm going to go. In other words, the collection process of waste is automated, but the management process such as checking the loading status of the loading box and requesting the collection of loads is not automated and is directly proceeded by the manager.

Accordingly, there is a problem in that the management manpower for making a request for collection by checking the loading state of the waste from time to time is consumed, and continuous monitoring is virtually impossible due to direct progress by manpower, which may cause problems such as an excessive load amount.

The present invention has been made to solve the above-mentioned problems, the real-time monitoring of the loading state of scrap metal, waste, garbage, etc. discharged from the industrial site to automatically notify the remote collection company, to the loading state of a plurality of loading boxes Accordingly, the purpose of the present invention is to provide a loading system and a method of controlling the loading state that can be easily monitored and managed, as well as saving on-site manpower.

According to an aspect of the present invention, there is provided a loading system and a control method thereof, including: an image input unit for capturing a load-bearing state in a loading box; An A / D conversion circuit for converting an analog image signal output from the image input unit into a digital signal; A loading image storage unit for storing images of the storage box converted into digital; A load calculation unit configured to analyze a load image stored in the load image storage unit and calculate an alluvial ratio of the load; A network interface for communicating with the outside; When the image of the loading box through the image input unit and the A / D conversion circuit is stored in the loading image storage unit, and the charge ratio of the load is calculated by the load calculation unit so that the charge ratio of the load is greater than or equal to the full load standard charge ratio, It characterized in that it comprises a load control unit for providing the result to the outside through the network interface.

Here, the distribution device for injecting the load into the loading box; A dispensing device driver for driving the dispensing device; The loading control unit receives an image of each inside of the loading box through a plurality of image input units installed in the plurality of loading boxes, calculates a charging ratio of each loading box through the loading calculation unit, and compares the results of the charging ratios of the respective loading boxes. Accordingly, it is most preferable to control the distribution device driver so that the plurality of stackers are sequentially stacked.

On the other hand, the load calculation unit may calculate the alluvial ratio by confirming that the initial color area is reduced as the load is loaded, based on the color of the wall surface of the loading box when the loading box is empty.

In addition, the load control unit may display the charge ratio of the stack at the request of the administrator.

In addition, when the charge ratio of the load is more than the reference charge ratio, it is preferable that the load control unit provides the charge ratio to a remote collection company by accessing the Internet through the network interface.

On the other hand, the object according to another field of the present invention, the step of imaging the inside of the loading box; Converting the captured load image into a real-time digital image and storing the image; Calculating an alluvial ratio of the load in the stack by analyzing an image of the stack; Determining whether the alluvium ratio is equal to or greater than a full-scale standard alluvial ratio; If the alluvium ratio is more than the full-scale alluvial ratio, it can also be achieved by the control method of the loading system, characterized in that it comprises the step of notifying the remote collection company.

In addition, the object of the present invention comprises the steps of: imaging each of the interior of the plurality of loading boxes in which the loads input from the distribution apparatus are loaded; Converting and storing the captured images of each load into real-time digital images; Analyzing the images of each of the bins to calculate a charge ratio of the loads in each bin; Comparing the alluvial ratios of the respective loading boxes with each other; According to the result of the charge ratio comparison, it may be achieved by the control method of the loading system, characterized in that it comprises the step of controlling the distribution device so that the plurality of loading boxes are sequentially stacked.

Hereinafter, a stacking system and a control method thereof according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a loading system according to an embodiment of the present invention. As shown in FIG. 1, the system analyzes and loads an image of the loading unit 3, which captures the loading state of the loading box 3, and an image of the load 5 captured by the image input unit 10. Analyzes the degree of alluvial charge and provides the result to the manager 30's computer, and requests the collection company 40 to collect the load 5 through a network such as the Internet 1 when the loading box 3 is full. It includes a load management server 21.

The loading box 3 is installed at an industrial site to collect wastes, wastes, and wastes. The interior of the loading compartment 3 applied to the system should be colored in the same color in a batch, and when the interior of the loading shipment 5 is imaged, the inner wall of the loading compartment 3 and the color of the loading shipment 5 are clearly visible. It is desirable to be distinguished.

The load management server 21 receives an image of the inside of the stacking box 3 through the image input unit 10 and calculates the charge ratio of the load 5 according to the exposure degree of the inner wall of the stacking box 3. In the meantime, if it is determined that the load 5 is loaded in the loading box 3, the collector 40 requests the collection company 40 to collect the load 5 through the Internet 1. Accordingly, the collector 40 may take measures such as dispatching the transport vehicle 7 to the site.

On the other hand, the manager 30 can not only continuously check the state of the loading box 3 through the loading data provided by the loading system 22, but also the manager 30 does not recognize the full facts of the loading box 3. Even if the collection request can be made to the collection company 40 automatically.

The control configuration of such a loading system will be described in detail with reference to FIG. 2 is a control block diagram of a loading system according to an embodiment of the present invention. As shown in FIG. 2, the loading system includes an image input unit 10 for capturing a loading state of a loading box 3, and an image. An A / D conversion circuit 12 for converting an analog image signal output from the input unit 10 into a digital signal, a loaded image storage unit 14 storing an image of the imaged loading box 3, and a loaded image Image of the load 5 captured by the load calculation unit 16, the network interface 18 for communicating with the outside, and the image input unit 10 to calculate the degree of alluviality of the stack 3 And a load control unit 20 which stores the storage 14 and controls the load calculation unit 16 to calculate the degree of alleviation of the stack 3 and provide the result to the outside through the network interface 18. .

The image input unit 10 outputs an analog image signal by real-time imaging the inside of the storage box 3, and the analog image signal is converted into a digital image signal through the A / D conversion circuit 12 and provided to the loading control unit 20.

The stacked image storage unit 14 stores digital image signals inside the stacked box 3 captured in real time. Here, since the inside of the stacking box 3 is collectively colored with the same color as described above, the stacking image shows the loading state of the load 5 against the wall surface of the stacking box 3 of the same color.

The load calculation unit 16 analyzes the load image and calculates the degree of alluvial of the stack 3. The load calculation unit 16 calculates the degree of alluvial load of the load 5 using the change of the color of the load image. When the load box 3 is empty, the load calculation unit 16 calculates an area value of 100 based on the color of the wall in the load box 3. It sets to% and calculates the degree of alluvial of the stack 3 through an image recognition program that checks that the initial color area decreases as the stack 5 is loaded.

The stack control unit 20 stores an image of the stack 3 inputted through the image input unit 10 and the A / D conversion circuit 12 in the stack image storage unit 14, while storing the load calculation unit 16. If it is determined that the loading capacity (3) is more than the standard amount by calculating the degree of alluvial load of the loading container (3) through the network such as the Internet (1), request the collection of the load (5) to the remote collector 40 do.

In addition, the stack control unit 20 displays an image of the stack 3 stored in the stack image storage unit 14 on the monitor of the manager 30 or displays the load calculation unit 16 at the request of the manager 30. By displaying the loading rate of the loading box 3 confirmed through, the manager 30 can check the loading status.

Control flow of the loading system according to the present invention having such a configuration is as shown in FIG.

First, the inside of the stacking box 3 installed at the industrial site is imaged through the image input unit 10 (S10), and the image of the picked-up load 5 is converted into a real-time digital image and stored (S12).

The stack controller 20 analyzes an image of the stack 3 through a predetermined image recognition program to calculate a stack ratio of the stack 3 (S14), and whether the stack 3 is full according to the calculated stack ratio. It is determined (S16). Here, the image recognition program for calculating the degree of alluvial of the stack 3 can check that the initial color area decreases as the stack 5 is loaded on the basis that the stack 3 is empty.

When it is determined that the load 5 is loaded more than the reference amount as a result of calculating the charge ratio through the image of the loading box 3, the loading control unit 20 transmits the loading amount information through the network (S18). Here, the loading system 22 can provide the loading information to various media such as a PC, a mobile phone, a wired telephone, a PDA, and the like through various communication networks such as a wired / wireless internet and a mobile communication network. Therefore, the load information provided to the counterpart may be provided in various forms, such as an alarm, voice message, short message, automatic answering phone, internet message, and e-mail, depending on the type of medium receiving the information.

With this configuration, the system not only monitors the loading status of scrap metal, waste, garbage, etc. discharged from the industrial site in real time through image input means such as a camera, but also analyzes the input image and automatically loads the loading status. By calculating and automatically notifying the collection company 40 of the remote place when the stack (3) is full, it enables continuous management while minimizing the manpower to manage the stack (3).

On the other hand, Figure 4 is a block diagram of a loading system according to another embodiment of the present invention, such that the load is introduced into the plurality of loading boxes (3a, 3b, 3c ...) through a distribution device such as a conveyor belt 26 In case of management, the configuration of the loading system is shown.

As shown in Fig. 4, according to another embodiment of the present invention, the system includes a plurality of image input units 10 for capturing respective loading states for a plurality of stacking boxes 3a, 3b, 3c .... Is provided and photographed through each image input unit 10, and the charge ratio of each of the stacked boxes 3a, 3b, 3c.... While controlling the distribution device driver 24 to maintain the charge ratio evenly, if the loading box 3 is determined to be full, request the collection company 40 to collect the load 5 through a network such as the Internet 1. It includes a load management server 21.

Emissions are introduced into the plurality of stacks 3a, 3b, 3c .... by means of the corresponding distribution device 26, and the inner walls of all stacks 3a, 3b, 3c .... In the case of imaging the inside of the load 5, which is colored with the same color, the inner wall surface of the stack 3a, 3b, 3c .... and the color of the load 5 are clearly distinguished.

The load management server 21 receives the images of the stacks 3a, 3b, 3c .... through the respective image input units 10, and loads the stacks 3a, 3b, 3c. Calculate the alluvial ratio The loading management server 21 compares the relative alluvial state between each of the loading boxes (3a, 3b, 3c ....) through the calculated alluvial ratios, and loads that are significantly different from the other loading boxes (3). (3) to control the driving of the distribution device 26 to put the load into the load (3) to adjust the amount of the load.

And, the loading management server 21, if it is determined that the charge ratio is in a full state as the result of the charge ratio check of each of the loading boxes (3a, 3b, 3c ....), the collector (40) through the Internet (1) Request collection of the load (5).

In this way, the load management server 21 outputs a control command to the distribution device driver 24 to adjust the loading amount of the load 5 in each of the stacks 3a, 3b, 3c.... 3b, 3c ....) can be sequentially stacked, and when the distribution device 26 corresponding to each of the plurality of loading boxes (3a, 3b, 3c ....) is driven, each loading box (3a, It is possible to adjust the loading degree of the load 5 so that the charge ratio of 3b, 3c ....) is constantly increased.

On the other hand, the manager 30 can not only continuously check the state of the loading box 3 through the loading data provided by the loading system 22, but also the manager 30 does not recognize the full facts of the loading box 3. Even if the collection request can be made to the collection company 40 automatically.

The control configuration of such a loading system will be described in detail with reference to FIG. FIG. 5 is a control block diagram of a loading system according to another embodiment of the present invention. As shown in FIG. 5, the loading system includes a distribution device 26 for loading loads 5 into respective loading boxes 3. A distribution device driver 24 for controlling the driving of the drive, a plurality of image input units 10 for capturing the loading state of each stacker 3, and analog image signals outputted from the respective image input units 10 to digital signals An A / D conversion circuit 12, a loading image storage unit 14 for storing images of each image pickup box 3, and a loading calculation unit for calculating the degree of allegiance of the loading box 3 by analyzing the loading image. 16, a network interface 18 for communicating with the outside, and images of the load imaged through the plurality of image input units 10 in the loaded image storage unit 14, while the load calculation unit 16 Calculate the alluvial ratio of the stacking box 3 through the loading and the loading to each loading box 3 based on the result The amount of the load and a control unit 20 for controlling the distribution unit driving unit 24 to control.

An image of each stacking box 3 input through the plurality of image input units 10 and the A / D conversion circuit 12 is provided to the stacking control unit 20.

The stacked image storage unit 14 stores digital image signals inside the stacked box 3 captured in real time. Here, since the inside of the stacking box 3 is collectively colored with the same color as described above, the stacking image shows the loading state of the load 5 against the wall surface of the stacking box 3 of the same color.

The load calculation unit 16 calculates the charge ratio of the load 5 using the change in the color of the load image.

The loading control unit 20 analyzes the loading image of each loading box 3a, 3b, 3c .... through the loading calculation unit 16 to calculate the charge ratio of each loading box 3a, 3b, 3c .... The load to be put into each of the stackers 3a, 3b, 3c .... by applying a control signal to the distribution device driver 24 according to the result of the calculation of the charge ratio and controlling the driving of each distribution device 26. Adjust the amount of (5a, 5b, 5c ....).

For example, when it is determined that the charge ratio of the first loading box 3a has reached a predetermined reference ratio, the loading control unit 20 applies a control signal to the distribution device driver 24 to load the second loading box 3b. By controlling the driving of the dispensing device 26 so as to be fed in, the plurality of stackers 3a, 3b, 3c.... Can be sequentially stacked. Alternatively, when the distribution devices 26 respectively corresponding to the plurality of storage boxes 3a, 3b, 3c .... are driven independently of each other, the charge ratios of the storage boxes 3a, 3b, 3c .... Therefore, it is also possible to control the loading degree of the load so that each stack 3a, 3b, 3c ....

Here, the loading control unit 20 not only reports the state of the charges of the stacks 3a, 3b, 3c .... to the manager 30, but also the stacks 3a, 3b, 3c .... If it is determined that more than the reference amount is accumulated, the remote collector (40) is requested to collect the load (5) through a network such as the Internet (1).

Control flow of the loading system according to the present invention having such a configuration is as shown in FIG.

The loading state of the plurality of loading boxes 3a, 3b, 3c .... installed at the industrial site is captured and input through the respective image input units 10a, 10b, 10c .... (S30). The images of the picked up stacks 3a, 3b, 3c .... are converted into real-time digital images and stored (S32).

The stack control unit 20 analyzes the images of the stacks 3a, 3b, 3c .... to calculate the charge ratios of the stacks 3a, 3b, 3c .... (S34). The charge ratios of the loading boxes 3a, 3b, and 3c .... are compared with each other (S36).

The loading control unit 20 controls the distribution device driver 24 so that the load 5 is loaded in the loading box 3 having a small loading amount according to the result of the charging ratio comparison, and thus the plurality of loading boxes 3a, 3b, 3c ... .) To be sequentially stacked (S38).

If it is determined that the load 5 is loaded more than the standard amount as a result of analysis of the internal image of the loading boxes 3a, 3b, 3c ...., the charges are notified to the collector 40 through a network such as the Internet (S40). ).

With this configuration, the system can control the load to be appropriately distributed according to the alluvial state of the plurality of stackers, and when the stack is full, the collection request can be made to the remote collection company automatically.

As described above, the embodiment according to the present invention is not limited to the above, and various modifications can be made within the scope apparent to those skilled in the art in connection with the present invention.

As described above, the loading system of the present invention and its control method, by real-time monitoring the loyalty of the stacker by imaging the loading state of scrap metal, industrial waste, garbage, etc. discharged from the industrial site and loading it to the remote collectors It automatically notifies the status and controls the dispensing device according to the load accumulation ratio of the plurality of loading boxes to adjust the loading state of the loadings.

As a result, it is possible not only to reduce on-site manpower, but also to easily monitor and manage the loading state of waste and to improve the reliability of load management.

Claims (7)

An image input unit which captures a state of loading of the load in the stacking box; An A / D conversion circuit for converting an analog image signal output from the image input unit into a digital signal; A loading image storage unit for storing images of the storage box converted into digital; A load calculation unit configured to analyze a load image stored in the load image storage unit and calculate an alluvial ratio of the load; A network interface for communicating with the outside; When the image of the loading box through the image input unit and the A / D conversion circuit is stored in the loading image storage unit, and the charge ratio of the load is calculated by the load calculation unit so that the charge ratio of the load is greater than or equal to the full load standard charge ratio, And a loading control unit for providing the result to the outside through the network interface. The method of claim 1, A dispensing apparatus for putting a load into the loading box; A dispensing device driver for driving the dispensing device; The loading control unit receives an image of each inside of the stacking box through a plurality of image input units installed in the plurality of stacking boxes, calculates a stacking ratio of each stacking box through the stacking capacity calculating unit, and compares the stacking ratio comparison results of the stacking boxes. And the distribution apparatus driver to control the plurality of stackers to be sequentially stacked. The method according to claim 1 or 2, And the load calculation unit calculates an alluvial ratio by confirming that an initial color area decreases as the load is loaded, based on the color of the wall surface of the storage box when the loading box is empty. The method according to claim 1 or 2, The stacking control unit displays a stacking ratio of the stack at the request of the manager. The method according to claim 1 or 2, And the load control unit provides the charge rate to a remote collection company by accessing the Internet through the network interface when the charge rate of the load is equal to or greater than a reference charge rate. Imaging the interior of the loading bin; Converting the captured load image into a real-time digital image and storing the image; Calculating an alluvial ratio of the load in the stack by analyzing an image of the stack; Determining whether the alluvium ratio is equal to or greater than a full-scale standard alluvial ratio; If the charge ratio is equal to or greater than the charge-based charge rate, notifying the remote collection company of the result. Imaging each of a plurality of stacking boxes on which loads loaded from a distribution device are loaded; Converting and storing the captured images of each load into real-time digital images; Analyzing the images of each of the bins to calculate a charge ratio of the loads in each bin; Comparing the alluvial ratios of the respective loading boxes with each other; And controlling the distribution device such that the plurality of stacks are sequentially stacked according to the result of the charge ratio comparison.

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