KR20200073564A - System for monitoring discharge path static electricity - Google Patents

Abstract

The present invention relates to an electrostatic discharge path monitoring system, which comprises: a resistance measuring unit located between production equipment and electrostatic discharge equipment and measuring a resistance value between the production equipment and the electrostatic discharge equipment; and a control unit connected to the resistance measuring unit, determining whether the resistance value determined using a signal applied from the resistance measuring unit exists in a set range, and generating determination result information including a determination result determining whether the electrostatic discharge equipment is normal.

Description

Electrostatic discharge path monitoring system {SYSTEM FOR MONITORING DISCHARGE PATH STATIC ELECTRICITY}

The present invention relates to an electrostatic discharge path monitoring system.

Static electricity may not be a major problem in everyday life, but elements sensitive to static electricity, such as semiconductor devices, are also affected by a small amount of static electricity.

Therefore, in a production facility that manufactures devices or equipment sensitive to such static electricity, discharge of static electricity can be stably performed.

To this end, electrostatic discharge equipment is installed to provide a discharge path of a discharge device connected to a production facility or an operator.

At this time, if the discharge of static electricity is performed too rapidly or too slowly, even during the discharge operation of static electricity, the device or equipment is adversely affected. Therefore, the electrostatic discharge equipment has a set resistance value so that the electrostatic discharge operation can be performed in a predetermined state.

Republic of Korea Registered Patent No. 10-1056478 (Announcement date: August 12, 2011, title of the invention: electrostatic discharge monitoring and manufacturing process control system)

The problem to be solved by the present invention is to monitor the state of the electrostatic discharge equipment that provides an electrostatic discharge path.

Another problem to be solved by the present invention is to guide a production facility that affects the static discharge equipment in an abnormal state by determining a production facility operating when the static discharge equipment is in an abnormal state.

Electrostatic discharge path monitoring system according to one aspect of the present invention for solving the above problems is located between the production equipment and the electrostatic discharge equipment, a resistance measuring unit for measuring the resistance value between the production equipment and the electrostatic discharge equipment, and A determination result including a determination result connected to the resistance measurement unit and determining whether the resistance value determined using a signal applied from the resistance measurement unit is within a set range and determining whether the electrostatic discharge equipment is normal or not. And a control unit generating information.

The electrostatic discharge equipment may be worn on a worker's body.

The electrostatic discharge path monitoring system according to the above feature is further connected to the control unit, a work notification switch operated by an operator to notify the operator of the operation, and a human body detecting unit connected to the control unit to detect the operator. The operation control unit may read the signal applied from the human body detection unit when the operation notification switch is in operation and determine the resistance value using the signal applied from the resistance measurement unit when an operator is detected within a set range. Can.

The electrostatic discharge path monitoring system according to the above feature may further include a communication unit connected to the control unit, an operation server communicating with the control unit through the communication unit, and a database connected to the operation server, wherein the control unit comprises The determination result information is transmitted to the operation server through the communication unit, and the operation server may store the transmitted determination result information in a database.

The determination result information may further include a determination time point, an identification number of the discharge path monitoring apparatus, and an identification number of the electrostatic discharge equipment associated with the discharge path monitoring apparatus.

The operation server determines whether there is a discharge path monitoring device that transmits determination result information when the state of the electrostatic discharge equipment is determined to be abnormal by using the determination time when the state of the electrostatic discharge equipment is determined to be abnormal. When the state of the electrostatic discharge equipment is determined to be an abnormal production state, the production equipment connected to the discharge path monitoring device that has transmitted the determination result information is determined to be an operational production facility, and when the state of the electrostatic discharge equipment is determined to be an abnormal state. Calculate the total number of times of each discharge path monitoring device that has transmitted the determination result information for each time, calculate the frequency of operation of the production equipment operated when the discharge path monitoring device is in an abnormal state, and abnormality of the discharge route monitoring device It is possible to determine the production facilities up to a predetermined frequency or a predetermined number of times during operation in a state, and determine the production facilities affecting the abnormal state of the discharge path monitoring device.

According to the features of the present invention, since the discharge path or the state of the electrostatic discharge equipment is quickly determined using the resistance value of the discharge path of the production facility, the replacement or repair of the electrostatic discharge equipment having an abnormal resistance value Is easy.

In addition, by the operation of the operation server, by inferring the production equipment causing the abnormal operation of the electrostatic discharge equipment, and transmits the results to the desired manager to determine the relationship between the electrostatic discharge equipment operating abnormally and the associated production equipment. . In addition, since the relationship between production facilities that cause abnormal operation of the electrostatic discharge equipment is easily grasped, it is easy to repair or manage the electrostatic discharge equipment or production equipment associated with each other.

1 is a conceptual diagram of an electrostatic discharge path monitoring system according to an embodiment of the present invention.
2 is a block diagram of an electrostatic discharge path monitoring system according to an embodiment of the present invention.
3 is a flowchart illustrating an operation of a discharge path monitoring apparatus in an electrostatic discharge path monitoring system according to an embodiment of the present invention.
4 is an operation flowchart for an operation server of an electrostatic discharge path monitoring system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that adding a detailed description of a technology or configuration already known in the art may obscure the gist of the present invention, some of them will be omitted from the detailed description. In addition, the terms used in the present specification are terms used to properly express the embodiments of the present invention, which may vary according to persons or practices related to the field. Therefore, definitions of these terms should be made based on the contents throughout the specification.

The terminology used herein is for the purpose of referring only to specific embodiments and is not intended to limit the invention. The singular forms used herein also include plural forms unless the phrases clearly indicate the opposite. As used herein, the meaning of'comprising' embodies specific properties, regions, integers, steps, actions, elements and/or components, and other specific properties, regions, integers, steps, actions, elements, components and/or groups It does not exclude the existence or addition of.

Hereinafter, an electrostatic discharge path monitoring system according to an embodiment of the present invention will be described with reference to the accompanying drawings.

Referring to Fig. 1, the concept of an electrostatic discharge path monitoring system according to this example will be described.

As shown in FIG. 1, each of the plurality of production facilities 31-3n is connected to the electrostatic discharge equipment 21-2n connected to ground.

Therefore, the static electricity generated in the production facility 31-3n is discharged through the corresponding static discharge equipment 21-2n.

At this time, the electrostatic discharge equipment 21-2n may be fixed equipment or a wearable device such as a wrist strap mounted on an entire body (eg, wrist) of an operator.

It is normal that each electrostatic discharge equipment 21-2n has a resistance value (for example, 10 ⁶ to 10 ⁹ Ω) set so that an electrostatic discharge operation can be performed in an appropriate state, but this may not be the case.

Therefore, each discharge path monitoring device 11-1n is located between the production facilities 3-3n and the electrostatic discharge equipment 21-2n connected to each other, and the electrostatic discharge equipment 21- at the production facility 31-3n. 2n) to monitor stable electrostatic discharge.

To this end, each discharge path monitoring device 11-1n measures the resistance value between the production equipment (3-3n) and the electrostatic discharge equipment (21-2n) connected to each other, which are discharge paths of static electricity, and the measured resistance value is set. It detects whether it is within the range (eg 10 ⁶ to 10 ⁹ Ω) and notifies it to the external device.

At this time, a unique identification number is assigned to the discharge path monitoring device 11-1n, the electrostatic discharge equipment 21-2n, and the production facility 31-3n, and each discharge route monitoring device 11-1n has its own The identification numbers for the electrostatic discharge equipment 21-2n connected to the are stored in a storage unit or the like.

All of these discharge path monitoring devices 11-1n have the same structure, and the structure of the discharge path monitoring device (eg, 11) will be described with reference to FIG. 2.

As shown in FIG. 2, each discharge path monitoring device 11-1n communicates with the operation server 50 connected to the database 60, and has a determination result of each discharge path monitoring device 11-1n. The determination result information is transmitted to the operation server 50, which is an external device, and the operation server 50 stores the determination result information applied from each discharge path monitoring device 11-1n in the database 60.

The operation server 50 and the database 60 form a static discharge path monitoring system together with a plurality of discharge path monitoring devices 11-1n.

Referring again to FIG. 2, one discharge path monitoring device 11 includes a job notification switch 111, a human body detection unit 112, a communication unit 113, a job notification switch 111, and a human body detection unit 112. ) And a control unit 114 connected to the communication unit 113, a display unit 115 connected to the control unit 114, and a resistance measurement unit 116 connected to the control unit 114.

The operation notification switch 111 is a switch operated by an operator and notifies whether or not an operator is working, and outputs a signal of the corresponding state according to an operation state (eg, on and off).

Accordingly, when a worker works near the production facility 31 or the electrostatic discharge equipment 21, the worker performs the corresponding operation after operating the job notification switch 111, that is, after turning it on.

The human body detection unit 112 detects whether an operator exists within a set range, such as near the electrostatic discharge equipment 21 or the production facility 31, and may be a sensor that detects infrared rays or heat.

The communication unit 113 is for wired communication or wireless communication with the operation server 50.

The control unit 114 is a control unit that controls the overall operation of the discharge path monitoring apparatus 11, and the operation of the control unit 114 will be described in detail below.

In this example, the control unit 114 is connected to a storage unit (not shown) such as a memory located inside or outside.

The display unit 115 is a status display unit indicating whether the resistance value of the corresponding electrostatic discharge equipment 21 measured according to the operation of the control unit 114 is normal, and may be a display device such as a light emitting diode (LED) or a liquid crystal display device. And additionally, a warning sound generator may be provided.

The resistance measurement unit 116 measures a resistance value (for example, a line resistance value or a sheet resistance value) between the corresponding electrostatic discharge equipment 21 and the production facility 31 and outputs a corresponding electric signal to the control unit 114.

Accordingly, the control unit 114 determines the resistance value of the corresponding discharge path by using the electrical signal applied from the resistance measurement unit 116 to determine whether it is within a set range, and determines whether the electrostatic discharge equipment 21 is normal. .

The operations of the discharge path monitoring apparatus 11-1n having such a structure are all the same, and the operation of the discharge path monitoring apparatus 11 is exemplarily described with reference to FIG. 3.

When power required for the operation of the discharge path monitoring apparatus 11 is supplied from a power supply unit (not shown), the discharge path monitoring apparatus 11 starts operation.

Accordingly, the control unit 114 of the discharge path monitoring apparatus 11 starts an operation (S10) and reads a signal applied from the job notification switch 111 (S11).

If the state of the applied signal is the operation notification switch 111 is on (S12), the control unit 114, the worker is working in the field, and the electrostatic discharge equipment 21 is the body of the worker (eg, wrist) It is judged as worn.

Therefore, when the job notification switch 111 is on (S12), the control unit 114 reads the signal applied from the human body sensing unit 112 (S13).

If a person, that is, an operator is not detected within a corresponding range by the detected signal of the human body sensing unit 112 (S14), the control unit 114 determines that a worker is not actually present at the corresponding site.

Therefore, the control unit 114 does not perform the operation of measuring the resistance value of the electrostatic discharge equipment 21 because there is no operator wearing the electrostatic discharge equipment 21 (S100).

However, when it is determined by the signal of the human body detection unit 112 that a worker wearing the electrostatic discharge equipment 21 within the corresponding range exists (S14), the control unit 114 is applied from the resistance measurement unit 116. The signal to be read is read (S15), the resistance value of the corresponding discharge path measured by the resistance measurement unit 116 is determined using the read signal, and the resistance value determined by the display unit 115 is output (S16). .

As described above, since the current resistance value of the corresponding discharge path is displayed in real time through the display unit 115 of the discharge path monitoring apparatus 11, the manager accurately recognizes the current state of each electrostatic discharge equipment 21.

Next, the control unit 114 determines whether the determined resistance value is within an appropriate range that is a set range (S17).

When the determined resistance value is within an appropriate range (S17), the control unit 114 sets the state of the electrostatic discharge equipment 21 to a normal state, that is, a resistance value between the production equipment 31 and the electrostatic discharge equipment 21. By maintaining this appropriate value, static electricity generated in the production facility 31 is determined to be a state capable of stably discharging through the electrostatic discharge equipment 21 without adversely affecting the production facility 31, and the normal state is displayed. It is output as 115 (S18).

However, when the determined resistance value is out of the appropriate range, the control unit 114 sets the state of the corresponding electrostatic discharge equipment 21 to an abnormal state, that is, the size of the resistance value on the electrostatic discharge path is too large or too small to produce the equipment 31 The static electricity generated in the electrostatic discharge equipment 21 is determined to be stably discharged and the abnormal state is output to the display 115 (S119).

Therefore, the manager can quickly determine whether the resistance value of the corresponding electrostatic discharge equipment 21, specifically, the resistance value between the production equipment 31 and the electrostatic discharge equipment 21 is normal using the operating state of the display 115. Then, it is judged correctly and it takes a quick and proper action on the electrostatic discharge equipment having an abnormal resistance value and the corresponding discharge path. Due to this, the product produced in the production facility 31 prevents or reduces the phenomenon of damage or damage due to static electricity, thereby significantly reducing the defect rate of the product.

Next, the control unit 114 transmits the determination result information to the operation server 50 through the communication unit 113. At this time, the determination result information includes a determination time point, a determination result (that is, whether the resistance value is normal), and identification numbers of the discharge path monitoring device 11 and the electrostatic discharge equipment 21 associated with each other. The determination time is calculated by a timer (not shown) located inside or outside the control unit 114.

Again, the process goes to step (S12), the control unit 114, when the signal state of the operation notification switch 111 is determined to be off, the control unit 114, the worker wearing the electrostatic discharge device 21 in the field The electrostatic discharge equipment 21 that does not exist and provides the electrostatic discharge path of the production facility 31 is determined to be a mechanical device that is not worn on the operator's body.

Accordingly, when the job notification switch 111 is in the off state (S12), the control unit 114 moves to step S15 to measure the resistance value of the electrostatic discharge equipment 21 using the resistance measurement unit 116.

The discharge path monitoring device 11-1n performing this operation transmits the determination result information based on the measured resistance value of the electrostatic discharge equipment 21-2n to the operation server 50 using the communication unit 113, The operation server 50 stores the transmitted decision result information in the database 60.

The operation of the operation server 50 will be described with reference to FIG. 3.

First, when the predetermined time has elapsed (S21), when the state of each electrostatic discharge equipment 21-2n is determined to be abnormal using the determination result information stored in the database 60, The production equipment 32-3n in operation is determined (S22).

To this end, the operation server 50 uses the determination time when the state of the electrostatic discharge equipment (eg, 21) is determined to be abnormal, and the determination result when the state of the electrostatic discharge equipment 21 is determined to be abnormal It is determined whether the discharge path monitoring device 22-2n that transmitted the information exists. Accordingly, the operation server 50 operates when the state of the electrostatic discharge equipment 21 is determined to be an abnormal state of the production facility 32-3n connected to the discharge path monitoring device 22-2n that has transmitted the determination result information. It is judged as a production facility.

Next, the operation server 50 calculates the total number of times of each discharge path monitoring device 22-2n that transmits the determination result information whenever the state of the electrostatic discharge equipment 21 is determined to be abnormal during the set time.

Therefore, through this operation, the operation server 50 calculates the frequency of operation of the production facilities 31-3n operated when the operation state of each discharge path monitoring device 11-1n is abnormal, and the operation is performed. After the list of facilities 31-3n is aggregated, it is stored in the database 60.

Next, the operation server 50 determines the production facilities up to a predetermined number of times or the frequency of operation during the abnormal state of each discharge path monitoring device 11, and when the abnormal state of each discharge route monitoring device 11 is determined It is determined as an influential production facility and stored in the database 60.

Therefore, upon request of an external device, the operation server 50 uses data stored in the database 60 to produce facilities that adversely affect the operation of the corresponding electrostatic discharge devices (eg, 21) (eg, 32-35). You can send a list of

Due to this, it is possible to infer the electrostatic discharge device 21-2n or a production facility causing the state of the corresponding discharge path to be abnormal, and the electrostatic discharge device 21-2n operating abnormally or related peripheral equipment ( Yes, it is easy to repair the connecting line).

In the above, embodiments of the electrostatic discharge path monitoring system of the present invention have been described. The present invention is not limited to the above-described embodiments and the accompanying drawings, and various modifications and variations will be possible from the viewpoint of a person having ordinary knowledge in the field to which the present invention pertains. Therefore, the scope of the present invention should be defined not only by the claims of the present specification, but also by the claims and equivalents thereof.

11-1n: Discharge path monitoring device 21-2n: Electrostatic discharge equipment
31-3n: Production equipment 111: Job notification switch
112: human body detection unit 113: communication unit
114: control unit 115: display unit
116: resistance measurement unit 50: operating server
60: database

Claims (6)

Located between the production equipment and the electrostatic discharge equipment, a resistance measuring unit for measuring the resistance value between the production equipment and the electrostatic discharge equipment, and
A determination result including a determination result connected to the resistance measurement unit and determining whether the resistance value determined using a signal applied from the resistance measurement unit is within a set range and determining whether the electrostatic discharge equipment is normal or not. Control unit for generating information
Electrostatic discharge path monitoring system comprising a. In claim 1,
The electrostatic discharge equipment is an electrostatic discharge path monitoring system worn on a worker's body. In claim 2,
It is connected to the control unit, the operation notification switch that is operated by the operator to notify the operator of the operation, and
A human body detection unit connected to the control unit and detecting an operator
Further comprising,
The operation control unit reads a signal applied from the human body detection unit when the job notification switch is in an operation state and determines the resistance value using a signal applied from the resistance measurement unit when an operator is detected within a set range.
Electrostatic discharge path monitoring system. In claim 1,
A communication unit connected to the control unit,
Operation server for communicating with the control unit through the communication unit, and
Database connected to the operating server
Further comprising,
The control unit transmits the determination result information to the operation server through the communication unit,
The operation server stores the transmitted decision result information in a database
Electrostatic discharge path monitoring system. In claim 4,
The determination result information includes a determination time point, an identification number of the discharge path monitoring apparatus, and an identification number of the electrostatic discharge equipment associated with the discharge path monitoring apparatus. In claim 5,
The operating server,
Using the determination time point when the state of the electrostatic discharge equipment is determined to be abnormal, it is determined whether or not there is a discharge path monitoring device that transmits determination result information when the state of the electrostatic discharge equipment is determined to be abnormal,
The production equipment connected to the discharge path monitoring device that transmitted the determination result information is determined as the production equipment operating when the state of the electrostatic discharge equipment is determined to be abnormal,
Whenever the state of the electrostatic discharge equipment is determined to be abnormal, the total number of times of the discharge path monitoring device that transmits the determination result information is calculated, and the operation of the production facility operated when the discharge route monitoring device is in an abnormal state. Calculate the frequency,
When the frequency of operation in the abnormal state of the discharge path monitoring apparatus is determined to be a production facility up to a set frequency or up to a predetermined sequence number, it is determined as a production facility that affects the abnormal condition of the discharge path monitoring apparatus.
Electrostatic discharge path monitoring system.

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