KR100930126B1 - System for governing a divergence and control method of the same - Google Patents

Abstract

PURPOSE: A measurement control system and a measurement control method are provided to reduce a purchase cost, needed when a central management server is constructed, by decentralizing the measured values and the data values related to the simultaneously proceeded manufacturing processes. CONSTITUTION: The measurement control system includes: many measurers(100), carrying out the measurement in relation to the manufacturing processes so as to generate different measured data; and many fabrication processing servers(200), storing the different measured data respectively; wherein the measurers are connected to the fabrication processing servers in a one-to-one matched manner, and wherein one of the fabrication processing servers decentralizes and stores the different measured data respectively when at least one of the different measured data is requested by the communication terminals(300).

Description

Instrumentation Control System and Control Method {System for governing a Divergence and Control Method of the Same}

The present invention relates to an instrument control technology, and in particular, a measurement control system capable of performing data communication between a local area network and a plurality of process processing servers connected to each other, and distributing measurement and data values relating to a manufacturing process that is simultaneously performed. The control method is related.

Conventional instrument control systems provide a central server that controls or controls signal processing between multiple instruments and multiple input and output devices connected thereto, whereby at least one of the multiple input and output devices causes a failure or connection failure to input from multiple instruments. Temporarily store and recover data, and comprehensively control each drive of a plurality of instruments and a plurality of input / output devices included in the entire system.

However, the problem of the prior art is that since the signal processing between a plurality of instruments and a plurality of input and output devices connected thereto is concentrated in the central server, the entire operation of the instrument control system may be paralyzed at any time due to the malfunction or serious failure of the central server. There is a flaw.

In addition, since data processing for all signals is operated and processed in the central server, there is a problem that the data processing speed or data transmission speed for the large data processing request is greatly reduced, and at least one of a plurality of instruments or a plurality of input / output devices. If the error is found to be an operation error, a number of important data to be transmitted is temporarily stored in the internal memory without being delivered to the central server, but there is a problem that cannot be utilized until recovery to a normal state due to the interruption of transmission.

The measurement control system and control method thereof of the present invention have been devised to solve the problems of the prior art. The first object of the present invention is to enable data communication between a local area network and a plurality of process processing servers connected to each other, and simultaneously. By distributing measurement and data values related to multiple manufacturing processes, it reduces the purchasing cost and management required when constructing the central management server, and measures the manufacturing process by using multiple process processing servers instead of the central management server. This is to improve the processing speed.

In addition, the second object of the present invention is to replace the measurement process with another process server even if any one of the plurality of process server is unable to transmit and receive the measurement data due to failure or malfunction to reduce the loss caused by the process interruption Minimization, and easy to identify the manufacturing process status that appears as an error / error, and to facilitate the upgrade of the operating program or application used in the work process server.

The present invention for achieving the above object includes the following configuration.

That is, the measurement control method according to an embodiment of the present invention is a measurement control method in which data communication is performed between a plurality of process processing servers connected to a local area network, and a plurality of different measurement data measured from a plurality of instruments are distributed. Generating a plurality of different pieces of measurement data by the number of the plurality of instruments as measurement of a manufacturing process is performed by a plurality of instruments each connected in a 1: 1 match with the plurality of process servers; Storing each of the plurality of different measurement data in a plurality of process processing servers connected in a 1: 1 match with the plurality of instruments; When at least one of the plurality of different measurement data is requested by a communication terminal connected to the local area network, a request signal generated by the communication terminal is transmitted to any one of a plurality of process processing servers connected to the local area network. step; Extracting a plurality of different measurement data stored in the plurality of processing servers as the at least one measurement data is inquired by any one of the processing servers receiving the request signal; And after the extracted plurality of different measurement data are distributed by one of the process servers receiving the request signal, are stored in the cabin.

In addition, the measurement control system according to an embodiment of the present invention is a measurement control system that performs data communication between a plurality of process processing servers connected to a local area network, and distributed a plurality of different measurement data measured from a plurality of instruments, respectively A plurality of measuring instruments connected to the plurality of process processing servers in a 1: 1 connection, and measuring a manufacturing process to generate a plurality of different measurement data by the quantity; And a plurality of process processing servers that are connected in a 1: 1 connection with the plurality of measuring instruments and store the plurality of different measuring data, respectively, wherein at least one of the plurality of different measuring data is connected to the local area network. When requested by a connected communication terminal, any one of the process servers receiving the request signal generated from the communication terminal distributes the plurality of different measurement data extracted from the plurality of process servers, respectively, and then inflights the aircraft. Characterized in that stored in.

The measurement control system and its control method of the present invention enable data communication between a local area network and a plurality of process processing servers connected to each other, and by centrally distributing measurement and data values relating to a manufacturing process that is simultaneously performed, the central management server It reduces the purchasing cost and management required in the construction, and has a first effect of improving the measurement processing speed for the manufacturing process by using a plurality of processing servers instead of a central management server.

In addition, even if one of a plurality of processing server is unable to transmit or receive measurement data due to failure or malfunction, it is possible to minimize the loss caused by the process interruption by replacing the measurement implementation with another process processing server, In addition to easily grasping the status of the manufacturing process, it has a second effect of facilitating the upgrade of the operating program or application used in the business process process server.

EXAMPLE

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

1 is a diagram illustrating a measurement control system according to an exemplary embodiment of the present invention.

Referring to FIG. 1, the metrology control system 1000 includes a plurality of meters 100, a plurality of process servers 200, and a communication terminal 300.

The measurement control system 1000 performs data communication between a plurality of process processing servers 200 connected through a local area network, and is a system for distributing a plurality of different measurement data measured from a plurality of measuring instruments 100.

First, the plurality of measuring instruments 100 are matched with a plurality of process processing servers 200 in a 1: 1 connection, and perform a measurement on a manufacturing process to generate a plurality of different measurement data by the corresponding quantity.

The plurality of measuring instruments 100 are at least one selected from an RFID reader, a rudder, a scanner, a tester, a stabilizing power supply, a condenser flowmeter, an LCR meter, a signal generator, a frequency counter, an oscilloscope, and a vernier caliper. To generate a number of different measurement data.

The plurality of process processing servers 200 are matched to the plurality of instruments 100 in a 1: 1 connection, and store a plurality of different measurement data measured by the plurality of instruments 100, respectively.

Each of the plurality of process server 200 senses the measurement operation of the manufacturing process of each measuring instrument 100 connected in a 1: 1 match in real time, and a plurality of different measuring data generated by each measuring instrument 100 Controls the input and output status of

The communication terminal 300 connected to the local area network generates a predetermined request signal when it wants to receive at least one of a plurality of different measurement data.

The communication terminal 300 transmits the generated request signal to any one of the plurality of process server 200 connected to the local area network.

In other words, the communication terminal 300 randomly selects any one of the plurality of process processing servers 200 which normally operates, and requests a signal to the selected one of the process servers 200. Send it.

Any one of the process server 200 receiving the request signal automatically generates a search signal for inquiring the storage location of the at least one measurement data, and transmits it to the plurality of process server 200 in a batch.

As the plurality of process server 200 receives the search signal automatically generated by any one of the process server 200 receiving the request signal, the plurality of process processing server 200 extracts different stored measurement data.

Any one of the process server 200 receiving the request signal is distributed through a plurality of different measurement data extracted from the plurality of process server 200 and stored in each of the instrumented memory unit.

In addition, any one process server 200 determines whether at least one measurement data is included in a plurality of different measurement data received from the plurality of process server 200, respectively.

That is, when any one of the process server 200 confirms that at least one measurement data to be received by the communication terminal 300 is included in a plurality of different measurement data stored in the plurality of process server 200 The at least one measurement data requested by the communication terminal 300 is transmitted to the communication terminal 300 from among a plurality of previously stored measurement data.

However, when any one of the processing server 200 does not find at least one measurement data requested from the communication terminal 300 among a plurality of different measurement data received from each of the plurality of processing server 200, The predetermined error message or error message is transmitted to the communication terminal 300.

When the communication terminal 300 receives the error message or the error message sent from any one of the process server 200, the communication terminal 300 re-requests or cancels the request for at least one measurement data to be transmitted.

FIG. 2 is a diagram illustrating another embodiment of the measurement control system 1000. When the at least one process server 210 that is abnormal among the plurality of process servers 200 is malfunctioning or inoperable, a plurality of processes At least one process server 200 that is normal among the process servers 200 receives at least one measurement data output from the at least one instrument 100 in place of the at least one process server 210 that is abnormal.

That is, the at least one instrument 100 is at least one process that is abnormal because the already generated at least one measurement data is already 1: 1 connected to the at least one process server 200 that operates abnormally. Each is sent to the processing server 210.

At least one abnormal processing server 210 receives at least one measurement data sent from the at least one measuring instrument 100 and stores each of the at least one measurement data in a memory provided in the aircraft.

The normal at least one process server 200 receiving the request signal from the communication terminal 300 accesses the at least one abnormal process server 210 to call at least one previously stored measurement data, and then is called. Read / write at least one measurement data.

Accordingly, the normal at least one process server 200 receives at least one measurement data from the at least one process server 210 which is abnormal.

Here, at least one abnormal process processing server 210 has only a malfunction or an inoperability in an operational process surface, and therefore, it is assumed that there is no obstacle in receiving and storing at least one measurement data.

FIG. 3 is a diagram illustrating another embodiment of the metrology control system 1000. When the at least one process server 210, which is abnormal among the process servers 200, is malfunctioning or inoperable, At least one process server 200 that is normal among the process server 200 directly receives at least one measurement data output from the at least one instrument 100 in place of the at least one process server 210 that is abnormal. do.

That is, the at least one measuring instrument 100 is already 1: 1 connected to the at least one processing server 210 that operates abnormally, but the at least one measuring instrument pre-generated by the at least one measuring instrument 100. Data is sent directly to at least one process server 200 that is normal, instead of being input to at least one process server 210 which is abnormal depending on the access of at least one process server 200 operating normally.

The at least one normal processing server 200 uses a local area network to directly receive at least one measurement data measured by the at least one measuring instrument 100 without passing through the abnormal at least one processing server 210. The access signal for accessing the plurality of instruments 100 is transmitted.

The plurality of measuring instruments 100 receiving the access signal through the local area network transmits its own measurement data to at least one normal processing server 200, and at least one normal processing server 200 is thus at least one. To directly receive the measurement data of the at least one measuring instrument (100).

Here, at least one abnormal processing server 210 is assumed to be excluded from consideration between at least one processing server 200 and at least one measuring device 100 which are normal due to malfunction or inoperability.

4 is a flowchart illustrating a measurement control method according to an exemplary embodiment of the present invention.

Referring to FIG. 4, a measurement control method is a method of performing data communication between a local area network and a plurality of process processing servers connected to each other, and is a method of distributing measurement and data values related to a manufacturing process that is simultaneously performed.

That is, in the measurement control method, data communication is performed between a plurality of process servers connected through a local area network, and a plurality of different measurement data measured from a plurality of instruments are distributed.

The operation process for the measurement control method will be described in more detail below.

First, the measurement control method performs data communication between a plurality of process processing servers, and measures a plurality of different measurement data from a plurality of measuring instruments (S10).

As the measurement of the manufacturing process is performed by a plurality of measuring devices connected in a 1: 1 match with a plurality of processing servers, a plurality of different measuring data are generated by the number of measuring devices (S20 and S30).

Here, the plurality of measuring instruments are at least one selected from an RFID reader, a rudder, a scanner, a tester, a stabilized power supply, a condenser flow meter, an LCR meter, a signal generator, a frequency counter, an oscilloscope, and a vernier caliper, Generate multiple different measurement data.

A plurality of different measurement data is stored in each of the plurality of process processing servers connected in a 1: 1 match with a plurality of measuring instruments (S40).

When at least one of a plurality of different measurement data is requested by a communication terminal connected to a local area network, a request signal generated by the communication terminal is transmitted to any one of a plurality of process processing servers connected to the local area network (S50, S60). ).

As at least one measurement data is inquired by any one of the process servers receiving the request signal, a plurality of different measurement data stored in the plurality of process servers are extracted, respectively (S70 and S80).

That is, a search signal for inquiring the storage location of the at least one measurement data is automatically generated by any one of the process servers receiving the request signal and collectively transmitted to the plurality of process servers.

A plurality of extracted different measurement data are distributed by any one of the process servers receiving the request signal, and then stored in the prepared memory (S90).

Thereafter, any one process server receiving the request signal checks whether at least one measurement data is included in a plurality of previously stored measurement data.

If at least one measurement data is included in a plurality of different measurement data stored in any one process server receiving a request signal, the at least one measurement data is any one process server receiving the request signal Is sent to the communication terminal.

However, if at least one measurement data is not included among a plurality of different measurement data stored in the plurality of processing servers, a predetermined error message or error message is generated by any one of the processing servers receiving the request signal. .

When a pre-generated error message or error message is delivered to the communication terminal, at least one measurement data requested by the communication terminal is re-requested or canceled.

Here, in another embodiment, when at least one process processing server abnormal among the plurality of process servers is malfunctioning or inoperable, at least one process processing server in which at least one process processing server that is normal among the plurality of process processing servers is abnormal Access to receive at least one measurement data.

Here, in another embodiment, when at least one of the plurality of process server is abnormal or malfunctioning, at least one process server that is normal among the plurality of process server is at least one process abnormal Assuming that the processing server is excluded, the at least one measurement data measured by the at least one instrument is directly received through direct access to the at least one instrument.

While the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art will be able to variously modify and change the present invention without departing from the spirit and scope of the invention as set forth in the claims below. It will be appreciated.

1 is a diagram illustrating a measurement control system according to an exemplary embodiment of the present invention.

2 is a diagram illustrating a measurement control system according to another exemplary embodiment of the present invention.

3 is a diagram illustrating a measurement control system according to another exemplary embodiment of the present invention.

4 is a flowchart illustrating a measurement control method according to an exemplary embodiment of the present invention.

Claims (16)

Data communication is performed between a plurality of process processing servers connected to a local area network, and a measurement control method in which a plurality of different measurement data measured from a plurality of instruments are distributed and processed. Generating a plurality of different pieces of measurement data by the number of the plurality of instruments as measurement of a manufacturing process is performed by a plurality of instruments that are 1: 1 matched with the plurality of process servers; Storing each of the plurality of different measurement data in a plurality of process processing servers connected in a 1: 1 match with the plurality of instruments; When at least one of the plurality of different measurement data is requested by a communication terminal connected to the local area network, a request signal generated by the communication terminal is transmitted to any one of a plurality of process processing servers connected to the local area network. step; Extracting a plurality of different measurement data stored in the plurality of processing servers as the at least one measurement data is inquired by any one of the processing servers receiving the request signal; And And the extracted plurality of different measurement data are distributed by one of the process servers receiving the request signal and stored in the cabin. The method of claim 1, After a search signal for inquiring a storage location of the at least one measurement data is automatically generated by any one of the process servers receiving the request signal, the search signal is collectively transmitted to the plurality of process servers. Measurement control method further comprising. The method of claim 1, And determining whether the at least one measurement data is included in the stored plurality of different measurement data by one of the process servers receiving the request signal. . The method of claim 3, wherein When the at least one measurement data is included in the stored plurality of different measurement data, the step of transmitting the at least one measurement data to the communication terminal by any one of the process processing server receiving the request signal Measurement control method comprising a. The method of claim 3, wherein If the at least one measurement data is not included in the stored plurality of different measurement data, the step of generating a predetermined error message or error message by any one of the processing server received the request signal Measurement control method characterized by the above-mentioned. The method of claim 5, wherein And when the generated error message or error message is transmitted to the communication terminal, the at least one measurement data being re-requested or canceled by the communication terminal. The method of claim 1, If at least one of the plurality of process servers is abnormal or malfunctioning, at least one process server that is normal among the plurality of process servers may be stored in the at least one process server. And receiving the input in place of the at least one measurement data. The method of claim 1, wherein the plurality of measuring instruments, At least one selected from among an RFID reader, a rudder, a scanner, a tester, a stabilized power supply, a condenser flow meter, an LCR meter, a signal generator, a frequency counter, an oscilloscope, and a vernier caliper, and a plurality of different measurement data measured by the manufacturing process. And generating a dog. It is a measurement control system that performs data communication between a plurality of process processing servers connected to a local area network, and distributes a plurality of different measurement data measured from a plurality of measuring instruments. A plurality of measuring units connected to the plurality of process servers in a 1: 1 connection and performing measurement on a manufacturing process to generate a plurality of different measurement data by the quantity; And And a plurality of process processing servers that are connected in a 1: 1 connection with the plurality of measuring instruments and respectively store the plurality of different measuring data. When at least one of the plurality of different measurement data is requested by a communication terminal connected to the local area network, any one of the process servers receiving the request signal generated from the communication terminal is extracted from the plurality of process servers. And a plurality of different measurement data, each of which is distributed and stored in the cabin. The method of claim 9, One process processing server receiving the request signal, And automatically generating a search signal for inquiring a storage position of the at least one measurement data, and then transmitting the search signal to the plurality of process processing servers in a batch. The method of claim 9, One process processing server receiving the request signal, And determining whether the at least one measurement data is included in the stored plurality of different measurement data. The method of claim 11, When the at least one measurement data is included in the stored plurality of different measurement data, any one of the process server receives the request signal is characterized in that for transmitting the at least one measurement data to the communication terminal. Instrumentation control system. The method of claim 11, When the at least one measurement data is not included in the stored plurality of different measurement data, any one of the process server receives the request signal, the measurement control, characterized in that for generating a predetermined error message or error message system. The method of claim 13, And when the generated error message or error message is transmitted to the communication terminal, the communication terminal re-requests or cancels the request of the at least one measurement data. The method of claim 9, If at least one abnormality of the plurality of process servers is malfunctioning or inoperable, at least one process server that is normal among the plurality of process servers is stored in the abnormal at least one process server. Measurement control system, characterized in that for receiving input in place of at least one measurement data to be. The method of claim 9, wherein the plurality of measuring instruments, At least one selected from an RFID reader, a rudder, a scanner, a tester, a stabilized power supply, a condenser flow meter, an LCR meter, a signal generator, a frequency counter, an oscilloscope, and a vernier caliper. Measurement control system, characterized in that for generating measurement data.

Images