KR20000055057A - device of sequence programmer on inverter system - Google Patents

Abstract

PURPOSE: A device for sequence programmer embodiment of an inverter system is provided to write a sequence program easily and quickly by modifying the sequence with an interface based upon a graphical user interface(GUI) and transmitting the modified sequence to an inverter system controller. CONSTITUTION: A device for sequence programmer embodiment of an inverter system includes followings. An interface based upon GUI is provided to a sequence programming unit(11). The user modifies sequence data using GUI provided by the sequence programming unit(11). The modified sequence is stored in the sequence database(12). The sequence written in the sequence programming unit(11) is downloaded to an invert system controller(20) through a communication interface(13). The controller(20) controls the communication interface(21) of the inverter system and outputs the sequence written in the sequence programming unit(11) through a data decoder(22). The data decoder(22) decodes and transmits the sequence data to a code executer(23). The code executer(23) transforms the decoded codes into execution codes for the materialization of sequence function.

Description

Device for sequence programmer implementation of inverter system

The present invention relates to an apparatus for implementing a sequence programmer of an inverter system, in particular, to provide a graphical user interface (GUI) -based sequence programming function in order to quickly respond to sequence changes in an inverter system installation environment.

Most of the induction motors, which occupy more than 80% of the industrial electric energy, are fluid transfer devices such as pumps, fans, and blowers. Electric energy savings of -70% are possible.

In addition to the controller operating algorithms in the inverter system, the user-centered user interface for the entire system is also very important, and it is essential to provide the user with fast and accurate information on the comprehensive and optimal operation of the system operation.

To this end, the inverter information management system provides the system console function to perform general data collection, fault diagnosis, and operation operation, and monitors the operation status of the inverter to predict and diagnose the system's performance and notify the user of the performance prediction result. And if a malfunction occurs, it provides optimum operation condition of inverter system by notifying user of the optimal measures to supplement the malfunction.

1 is a block diagram of an inverter information management system (IIMS), which is a group of inverters capable of managing inverter systems installed in a plant through a fieldbus or a TCP / IP interface. It provides management function and aggregates the status information of such inverter system and provides it to the server and upper level SCADA of external inverter information management system through the Internet.

In addition, the collected inverter operating status information is transmitted to the inverter system expert, the expert provides the optimal operating conditions based on this information.

However, in the prior art, the sequence method of the sequence and analog signals are different in each site where the inverter system is installed and operated, and the sequence program can be executed more quickly because an expert must modify the ROM program for application thereof when the sequence is changed. There was a problem that could not be changed.

In the present invention, by providing a graphic (GUI) -based interface to the sequence programmer, the user modifies the change of the sequence using the graphical interface and then downloads it to the control unit of the inverter system through communication, and during the sequence change and verification of the control unit The present invention provides a sequence programmer implementing apparatus that can easily and quickly create a sequence program by uploading, modifying, and downloading the file into a sequence programmer.

1 is a block diagram of an inverter information management system

2 is a block diagram of an apparatus for implementing a sequence programmer of the inverter system of the present invention.

3 is a flowchart illustrating a sequence programming process of an inverter system according to the present invention.

As shown in FIG. 2, the configuration of the programmer implementing apparatus of the inverter system of the present invention provides a graphic (GUI) based interface to a user to easily perform a sequence programming change operation. A sequence programmer 10 for transmitting the created sequence data to the inverter system controller through communication, a controller 20 for controlling each unit of the inverter system, and a sequence transmitted from the sequence programmer 10 under the control of the controller 20. Communication interface unit 21 for receiving or transmitting a sequence in the control unit 20 to the sequence programmer 10, a decoder 22 for analyzing the sequence data transmitted from the communication interface unit 21, and the decoder ( The code execution unit 23 converts the code interpreted in 22) into execution code and implements it as a sequence function. It is.

In this case, the sequence programmer 10 may include a sequence programming unit 11 to perform sequence editing through a graphical user interface (GUI), and a sequence in which the sequence created by the sequence programming unit 11 is stored. And a communication interface 13 for performing communication control such as receiving the sequence data generated by the sequence programming unit 11 and the sequence data transmitted to or from the inverter system.

3 is a flowchart illustrating a sequence programming process implemented by the above configuration.

Referring to Figures 2 and 3 the operation of the sequence programmer implementation device of the present invention inverter system configured as described above is as follows.

First, when a user wants to change a sequence program by providing a graphic (GUI) -based interface to the sequence programming unit 11 so that the user can easily perform the sequence programming change operation, the sequence programming unit through the PC screen. The sequence data is modified using a graphical interface (GUI) provided from (11), and the modified sequence is stored in the sequence database 12.

The sequence created by the sequence programming unit 11 is downloaded to the inverter system control unit 20 via the communication interface unit 13.

At this time, the control unit 20 controls the communication interface 21 on the inverter system side to receive the sequence created by the sequence programming unit 11 and output it to the data decoder 22.

Then, the data decoder 22 interprets (decodes) the input sequence data and transmits it to the code execution unit 23. The code execution unit 23 converts the interpreted code into execution code and converts it into a sequence function. By implementing, the sequence program change operation of the inverter system is completed.

On the other hand, when the sequence change and verification in the inverter system control unit 20 are performed, the sequence of the control unit 20 is uploaded to the communication interface unit 11 of the sequence programmer 10 through the communication interface unit 21 (up). After the load is received, the sequence programming unit 11 receives it, modifies it, and downloads it to the inverter system controller 20 again, thereby making it easier to perform the sequence change and verification in the controller 20 through a graphic interface.

As described above, in the present invention, the user performs a sequence change using a graphic (GUI) -based interface, and then transmits the data to the inverter system controller through communication, thereby creating a sequence program conveniently and quickly.

Claims (2)

A sequence programmer that provides a graphic (GUI) -based interface to the user to easily perform sequence programming changes, and transmits the sequence data created by the graphic-based interface to the inverter system controller through communication. A control unit for controlling a unit, a communication interface unit for receiving a sequence transmitted from a sequence programmer under the control of the control unit or transmitting a sequence in the control unit to a sequence programmer, a decoder for analyzing the sequence data transmitted from the communication interface unit; And a code execution unit for converting the code interpreted by the decoder into execution code and implementing the sequence function. The method of claim 1, wherein the sequence programmer is configured to perform sequence editing through a graphical interface (GUI), a sequence database storing a sequence created by the sequence programming unit, and the sequence programming unit. And a communication interface unit configured to receive the generated sequence to be transmitted or transmitted to the interleaver system control unit.