WO2020045757A1

WO2020045757A1 - Warning light system and method for outputting real-time condition of device

Info

Publication number: WO2020045757A1
Application number: PCT/KR2018/015952
Authority: WO
Inventors: 이영규
Original assignee: 주식회사 아이티공간
Priority date: 2018-08-26
Filing date: 2018-12-14
Publication date: 2020-03-05
Also published as: KR20200023596A

Abstract

Disclosed is a warning light system for outputting the real-time condition of a device, the system comprising: a collection unit for collecting a real-time state value of a device to be managed; a reference-setting unit for distinguishing, as a good state and a bad state, the states of a device to be managed, dividing the values between the distinguished good state and bad state into n equal parts, and setting reference grade values; a detection unit for detecting the real-time condition of the device by comparing the state value of the device, collected by the collection unit, with the reference grade values, set by the reference-setting unit; and a control unit for controlling the output of a warning light in response to the condition of the device, detected by the detection unit.

Description

Real-time condition output of device Warning light system and real-time condition output method of device

The present invention relates to a real-time condition output warning light system of the device and a real-time condition output method of the device, and more particularly, to collect the state value of the device in real time through the collecting unit, the reference value set in the reference setting unit By detecting the condition of the device against the class value and outputting the light source color of the warning light variably according to the detection information, the administrator clearly recognizes the real-time condition of the device and checks the device based on the condition information of the device. In addition, it is possible to make a plan for its own management, so that the overall device management is very active and stable, which greatly reduces safety accidents caused by device failure. It is about a method.

In general, in the production sites of various industrial products, the reality is that the factors that can cause fatal safety accidents are scattered due to failure of production equipment.

Therefore, in the production site, a general warning lamp is installed and used to alert the manager to prevent a safety accident when a failure of the device occurs.

However, these warning lights provide a fractional alarm using sound or light, and the administrator who confirms the alarm has an obligation to repair or inspect the device immediately (mandatory), so that the device and the manager maintain a very passive relationship. It is difficult to expect the active management of the device through the effective inspection and management of the device is not performed, this reason has caused the frequent failure of the device.

In addition, the warning light has a problem in that the management of the device is more inefficiently performed because the manager cannot recognize a factor which may occur before the device fails through the warning light due to the characteristic of alarming when a failure element is found in the device.

The present invention has been proposed to solve the above-mentioned problems, the object of which is to collect the state value of the device in real time through the collecting unit, and compares the collected state value with the reference grade value set in the reference setting unit By detecting the condition of the device and variably outputting the light source color of the warning light according to the detection information, the administrator clearly recognizes the real-time condition of the device and plans to check or manage the device based on the condition information of the device. It is possible to establish a self-contained system to manage the overall device very proactively and reliably, thereby providing a real-time condition output warning light system of the device and a real-time condition output method of the device, which can greatly reduce the safety accidents caused by the device failure. .

Moreover, through the condition information of the device, which is output in real time through the warning lamp, the administrator can recognize and manage the device status (condition) just before the failure in advance, thereby significantly reducing the damage of safety accidents caused by the device failure in the past. The present invention provides a real-time condition output warning light system and a real-time condition output method of a device.

The real-time condition output warning light system of the device according to the present invention for achieving the above object is divided into a good state and a bad state of the device to be managed, and the value between the divided good and bad state divided into n equal parts A reference setting unit configured to set a reference level value; and a collection unit detecting a real time state of a device to be managed and collecting a real time state value of the device; and a state value and the reference setting of the device collected by the collection unit. A detection unit for detecting a real-time condition of the device in comparison with the reference class value set by the unit; and a controller for controlling light emission of a warning light so that the color of the light source is variably output in response to the condition of the device detected by the detection unit. But

The collection unit continuously detects the state of the device to collect the real-time state value of the device, the detection unit detects the condition of the device continuously by comparing the state value of the real-time device collected by the collection unit with the reference class value, The control unit continuously controls the output of the warning light in response to the condition of the device to provide the condition information of the device to the administrator continuously in real time,

The state value for detecting the state of the device is selected from the current consumed by the device, vibration or noise generated when the device is operating, the frequency of the supply power supplied to the device, and temperature, humidity, and pressure generated when the device is operated. It is characterized by being used to calculate the value.

The reference setting unit may further include a first process of collecting a state value of a device measured in a normal state of the device, a second process of collecting a state value of the device measured before a failure of the device occurs, and the first process. Set the good state value of the device based on the state value of the device collected at, and set the bad state value of the device based on the state value of the device collected in the second step, and then set the good and bad state values The reference grade value is set through a third process of dividing the space into n equal parts and setting the reference grade value.

In addition, the control unit variably outputs the light source color of the warning light in response to the condition of the device detected by the detection unit, and instead of varying the condition of the device detected by the detection unit, the control unit may adjust vibration, sound intensity, or light brightness. It is characterized in that the output to the administrator to provide the physical condition information of the device in real time.

As described above, according to the real-time condition output warning light system of the device according to the present invention, collects the state value of the device in real time through the collecting unit, and compares the collected state value with the reference class value set in the reference setting unit of the device By detecting the condition and variably outputting the color of the light source of the warning light according to the detected information, the administrator clearly recognizes the real-time condition of the device, and based on the condition information of the device, the administrator can make a plan for checking or managing the device. Since the overall device management is very active and stable, safety accidents caused by device failure can be greatly reduced.

Moreover, through the condition information of the device, which is output in real time through the warning lamp, the administrator can recognize and manage the device status (condition) just before the failure in advance, thereby significantly reducing the damage of safety accidents caused by the device failure in the past. It has an effect.

1 is a conceptual diagram of a real-time condition output warning light system of a device according to an embodiment of the present invention.

2 is a view for explaining a real-time condition output warning light system of the device shown in FIG.

The real-time condition output warning light system of the device according to the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention will be omitted.

1 and 2 illustrate a real-time condition output warning light system of a device according to an embodiment of the present invention, Figure 1 is a conceptual diagram of a real-time condition output warning light system of the device according to an embodiment of the present invention, Figure 2 Figures for explaining the real-time condition output warning light system of the device shown in Figure 1 are shown respectively.

As shown in the figure, the real-time condition output warning light system 100 of the device according to an embodiment of the present invention is the reference setting unit 10, the collection unit 20, the detection unit 30, the control unit 40 ) Is included.

As shown in FIG. 1, the reference setting unit 10 divides a state (condition) of a device to be managed from a good state to a bad state, and divides the value between the divided good state and bad state into n equal parts. By setting the reference grade value 11, the reference grade value 11 is set through a first process, a second process, and a third process.

The first process is a process of collecting a state value of the device measured in the normal state of the device, the state value of the collected device is to set the reference grade value 11 to be set in the third process to be described later Used as a base.

Here, the state value for detecting the state of the device is any one of the current consumed by the device, vibration or noise generated when the device is operating, the frequency of the supply power supplied to the device and the temperature, humidity, pressure generated during the device operation. Although it is selected and calculated as a value, it is of course not limited to this kind of value.

The second process is a process of collecting a state value of the device measured before the failure of the device occurs, the state value of the device is thus set the reference class value 11 to be set in the third process to be established later Used as a basis for

As shown in FIG. 2B, the third process sets the good state value of the device based on the state value of the device collected in the first process, and based on the state value of the device collected in the second process. After setting the bad state value of the device, it is a process of setting the reference grade value 11 by dividing the set good and bad state values into n equal parts.

Here, the good state value of the device is set to an average value of the state values of the device repeatedly measured in the normal state of the device, and the bad state value of the device is a failure of the device in the second process. It is possible to set the average value of the state value of the repeated measurement before occurrence.

In addition, the equal parts between the good and bad state values set as described above are set according to how finely the condition of the device to be detected and outputted (output) by the detection unit to be settled, for example, the good and bad state of the device. Of course, dividing 100 equally by dividing the value by 10 can output the condition of the more precise device.

In the real-time condition output warning light system 100 of the device of the present invention, the reference grade value 11 is set by dividing the good and bad state values of the device by 10 equal parts in the third process, but is limited to such equal setting. no.

As shown in FIG. 1, the collection unit 20 detects a real-time state of a device to be managed to collect real-time state values of the device.

Here, the collection unit 20 may be implemented as a variety of sensors installed in the device to collect the state value of the device, and the like, the information collected in this way can be relegated through a conventional wired / wireless communication method Of course, the transmission to the detection unit.

As shown in FIG. 1, the detection unit 30 compares the state value of the device collected by the collection unit 20 with the reference grade value 11 set by the reference setting unit 10 in real time condition of the device. To be detected.

For example, as shown in FIG. 2B, when the reference grade value 11 is divided into ten equal parts and the state value of the device collected in real time by the collection unit 20 is transmitted to the detection unit 30, the detection unit ( 30) detects the condition of the device by comparing the state value of the device with respect to the reference class value 11. When the state value of the device is close to the good state value of the reference class value 11, the condition of the device is good. On the contrary, if the state value of the device is close to the bad state value of the reference grade value 11, the condition of the device is detected as bad.

As shown in FIG. 1, the controller 40 controls the light emission of the warning light 1 to variably output the color of the light source in response to the condition of the device detected by the detector 30.

That is, the controller 40 controls the light emission of the warning light 1 based on the detection information of the detector 30 so that the administrator can clearly recognize the condition of the device.

For example, as illustrated in FIG. 2B, the controller 40 controls the light source of the warning light 1 to be output in blue in the good state of the reference grade value 11, and in the bad state, the light source of the warning light 1 is turned off. Assuming that the control is to be output in red, if the state value of the device is close to the good state of the reference grade value 11 through the detection information of the detection unit 30, the control unit 40, the warning light (1) is a blue system When the state value of the device is located in the middle of the reference grade value 11, the control unit 40 controls the warning light (1) to emit light in the middle color of blue and red, When the state value is close to the bad state of the reference grade value 11, it is controlled to emit light with a red system color.

Therefore, the manager can actively plan and perform an action on the inspection or management of the device through the condition of the device that can be recognized by the color of the variable light source such as a warning light output in real time through the control of the control unit 40. Induce.

Meanwhile, the control unit 40 variably outputs the light source color of the warning light 1 in response to the condition of the device detected by the detection unit 30, instead of outputting the light source color of the warning light 1 to the condition of the device detected by the detection unit 30. In response, vibration, sound intensity, or light brightness may be variably output to provide the manager with the condition information of the device in real time.

The real-time condition output warning light system 100 of the device of the present invention having the configuration as described above collects the state value of the device in real time through the collection unit 20, the reference state setting unit 10 By detecting the condition of the device in comparison with the reference grade value 11 set in the above, and outputting a light source color of the warning light 1 in accordance with the detection information, the administrator clearly recognizes the real-time condition of the device, and Based on the condition information of the device, it is possible to establish a plan for the inspection or management of the device by itself, so that the overall management of the device is very active and stable, which greatly reduces the safety accidents caused by the failure of the device. .

Furthermore, through the condition information of the device output in real time through the warning light (1), the administrator can recognize and manage the device status (condition) immediately before the failure in advance, thereby significantly reducing the damage of safety accidents caused by the failure of the device. There is an effect that can be reduced.

The real-time condition output warning light system 100 of the device according to the embodiment of the present invention having the configuration as described above provides the condition of the device in real time through the color of the warning light source.

First, the state values of the device are collected in real time through the collection unit 20 installed in the device to be managed, and the collected state values of the device are transmitted to the detection unit 30.

Here, the collection unit 20 is implemented as a sensor for measuring the current value consumed to drive the device, to collect the current value consumed to drive the device as the state value of the device.

Then, as illustrated in FIG. 2B, the detector 30 compares the current value of the real-time device collected through the collection unit 20 with the reference class value 11 set through the reference setting unit 10. The controller 40 detects a condition of, and the controller 40 outputs the condition of the device in real time while changing the light source color of the warning light 1 based on the detection information of the detector 30.

Therefore, the manager can induce active management of the device through real-time interaction (communication) of the device with the manager through the variable color change of the warning light (1) light source according to the condition of the device.

The present invention has been described with reference to the embodiments illustrated in the accompanying drawings, which are illustrative and not limited to the above-described embodiments, and various modifications and equivalent embodiments thereof are possible to those skilled in the art. You will understand the point. In addition, modifications by those skilled in the art are possible without departing from the scope of the present invention. Therefore, the scope of the claims in the present invention will not be defined within the scope of the detailed description, but will be defined by the following claims and their technical spirit.

The real-time condition output warning light system of the device according to the present invention, the administrator clearly recognizes the real-time condition of the device, and based on the condition information of the device can establish a plan for the inspection or management of the device itself, the overall device It is possible to greatly reduce the safety accidents caused by the failure of the equipment by carrying out very active and stable management.

Claims

Collecting unit for collecting the real-time state value of the device to be managed;

A reference setting unit for dividing a state of a device to be managed into a good state and a bad state and dividing the value between the divided good state and the bad state by n equal parts;

A detector configured to detect a real-time condition of the device by comparing the state value of the device collected by the collection unit with a reference class value set by the reference setting unit; And

And a control unit for controlling the output of the warning lamp in response to the condition of the device detected by the detection unit.
According to claim 1,

The state value of the device is

And at least one of a current consumed by the device, vibration generated during operation of the device, noise, temperature, humidity, pressure, and a frequency of a power supply supplied to the device.
According to claim 1,

The collection unit,

Collecting the status value of the device in the normal state of the device, the real-time condition output warning light system of the device, characterized in that to collect the status value of the device before the device failure occurs.
The method of claim 3, wherein

The reference setting unit,

Set the good state value of the device based on the state value of the device collected in the normal state of the device, and set the bad state value of the device based on the state value of the device collected before the failure of the device. A real-time condition output warning light system of a device, characterized by setting a reference grade value by dividing the good and bad state values by n equal parts.
According to claim 1,

And the controller controls the warning lamp to variably output at least one of color, vibration, sound, and brightness of the warning lamp in response to the condition of the device detected by the detection unit.
A collecting unit, collecting real-time state values of devices to be managed;

Setting a reference grade value by dividing a state of a device to be managed into a good state and a bad state by dividing the value between the divided good state and the bad state by n equal parts;

Detecting, by a detector, a real-time condition of the device by comparing the state value of the device collected by the collection unit with a reference class value set by the reference setting unit; And

And controlling, by the control unit, outputting a warning light in response to the condition of the device detected by the detection unit.
The method of claim 6,

The state value of the device is

At least one of a current consumed by the device, vibration generated during operation of the device, noise, temperature, humidity, pressure, and a frequency of a power supply supplied to the device.
The method of claim 6,

The collecting step,

Collecting a state value of the device in the normal state of the device; And

And collecting a state value of the device before the failure of the device occurs.
The method of claim 8,

Setting the reference grade value,

Setting a good state value of the device based on the state value of the device collected in the normal state of the device;

Setting a bad state value of the device based on the state value of the device collected before the failure of the device occurs; And

And dividing the set good state and bad state values into n equal parts to set a reference grade value.
The method of claim 6,

The controlling may include controlling a warning light such that at least one of color, vibration, sound, and brightness of the warning light is variably output in response to the condition of the device detected by the detection unit.