KR20040070536A - Data hook up analyzing apparatus - Google Patents

Abstract

PURPOSE: A device for analyzing data hookup is provided to shorten time for checking communication ports, and accurately diagnose the abnormality of equipments by applying to a data hookup device. CONSTITUTION: A rear panel is equipped with the second connectors for the connection with the first connectors connected to the data hookup device that a communication state is checked. On the opposite side, a front panel is equipped with the LEDs(Light Emitting Diode) for confirming that a signal is normally inputted/output from the second connectors. An LCD part(350) displays whether the signal is normally inputted/output from the second connectors or not.

Description

DATA HOOK UP ANALYZING APPARATUS}

The present invention relates to a data hook-up analysis device, and more particularly, to a data hook-up analysis device for reducing the time when checking the communication port.

Generally, a data relay device measures sensing data provided from various environmental sensors based on a central processing unit in a facility, and stores the measured sensing data in packet units. If the data analysis server requests the stored sensing data through serial communication, the sensing data is transmitted to the corresponding data analysis server.

In addition, up to 16 relay devices can be connected in parallel in a daisy chain (Data chain) through RS-485 communication, and can be connected locally through RS-232 communication to facilitate facility inspection.

1A is a diagram for explaining a general data relay system, and FIG. 1B is a logic block diagram for explaining a data relay device.

1A and 1B, a general data relay system includes a data analysis server 110 and a plurality of data relay devices 120, 130, 140, and 150 connected in series, and various equipment connected in parallel to the data relay device. The sensor receives data from the sensor (not shown) and provides the sensed data to the data analysis server 110 via an adjacent data relay device. In this case, typically, the data analysis server 110 and the relay device are connected by the RS-232 communication method, and the relay devices are connected by the RS-485 communication method.

However, if one plant fails, all of the plants connected in parallel will go down. That is, when the data relay device B (130) is down, the data analysis server 110, which performs a host function due to the RS-485 facility control characteristic, controls several devices by address through one serial communication port. In the process of initializing the system, the data communication device (120, 130, 140, 150) is all down at the same time because the communication equipment may block the communication port communication so that the troubled equipment does not control other equipment. .

Therefore, there is a problem in which it is not possible to determine whether there is a problem in the equipment connected to the data relay. In this case, a lot of time and tools are required to check the two communication ports 132 and 133 and the 16 analog communication ports 134, respectively, in order to determine the cause of the equipment down. That is, there is a problem that the process is complicated and difficult to perform the test in a state where separate equipment, software, and communication cable are provided in order to confirm the communication port abnormality of the data relay device and to check whether or not there is data communication.

2 is a flowchart for explaining a process of checking for a communication error of a general data relay system.

As shown in Fig. 2, the process of checking for communication errors using a general data relay device checks each of 16 analog communication ports for abnormalities (step S20), and then checks for RS-232 communication abnormalities (step S20). S30), then check whether there is an error in RS-485 communication (step S40), and then check and replace the data relay device error point (step S50).

However, this work process has a problem that the method is complicated, takes a long time required for work, and the work efficiency is also low.

Therefore, the technical and problem of the present invention is to solve such a conventional problem, and an object of the present invention is to be adopted in the data relay system, to reduce the time required for the inspection of the communication port and to accurately diagnose the abnormality of the equipment It is to provide a hook-up analysis device.

1A is a diagram for explaining a general data relay system, and FIG. 1B is a logic block diagram for explaining a data relay device.

2 is a flowchart for explaining a process of checking for a communication error of a general data relay system.

3 is a view for explaining a data relay system according to the present invention.

4 is a flowchart illustrating a process of checking for communication abnormality using the data hook-up analysis apparatus of FIG. 3.

5A to 5C are diagrams for explaining the data hook-up analysis apparatus according to the present invention. In particular, FIG. 5A is a perspective view for explaining the appearance of the data hook-up analysis apparatus, and FIG. 5B is a diagram for explaining the rear panel. 5C is a diagram for explaining the front panel.

6A to 6E schematically illustrate various communication ports provided in the data relay device according to the present invention and circuit diagrams provided in the data hook-up analysis device corresponding thereto.

<Description of the symbols for the main parts of the drawings>

110, 210: data analysis server 300: data hook-up analysis device

120, 130, 140, 150, 220, 230, 240, 250: data relay

According to one aspect of the present invention, a data hook-up analysis apparatus includes a plurality of second connectors for connection with a plurality of first connectors connected to a data relay device to check a communication state. Rear panel portions; A front panel unit facing the rear panel unit to mount a light emitting unit for confirming whether signals are normally input / output to the plurality of second connectors; And a display unit which displays whether or not a signal is normally input and output to the plurality of second connectors.

According to the data hook-up analysis device, it is possible to reduce the time required to check whether the corresponding communication port is operating normally based on the signal flowing through the mounted connector, and to check the abnormality of the equipment. Can be diagnosed accurately.

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

3 is a view for explaining a data relay system according to the present invention.

As shown in FIG. 3, the data relay system according to the present invention includes a data analysis server 210, a plurality of data relay devices 220, 230, 240, and 250, and a data hook-up analysis device 300. Various sensing data are received from various facilities (not shown) connected in parallel to the data relay devices 220, 230, 240, and 250, and are provided to the data analysis server 110 via an adjacent data relay device. At this time, the data analysis server 110 and the first data relay device 220 is typically connected by RS-232 communication method, and the data relay devices 220, 230, 240, 250 adjacent to each other are RS-485 communication method. Is connected.

In the drawings, the data hook-up analyzing apparatus 300 according to the present invention is shown connected to the first data relay, but this is only connected to confirm whether the data relay system operates normally, the data hook-up analyzing apparatus 300 described above. Is a portable, removable structure that can be connected to a second, third, and fourth data relay system to verify normal operation.

4 is a flowchart illustrating a process of checking for communication abnormality using the data hook-up analysis apparatus of FIG. 3.

3 and 4, by checking whether or not the communication error of the data relay devices 220, 230, 240, and 250 is checked (step S100), the data hook-up analysis device 300 when it is checked that the communication error is checked. It is mounted in a connector connection method to the data relay device to be checked, and the power of the data hook-up analysis device 300 is turned on (step S110). In this case, the communication error check operation of the data relay device may be performed when the data analysis server 100 does not receive the sensed data normally, or the operator may check the operation of the data relay device at regular intervals. .

As the power is turned on, the plurality of light emitting parts corresponding to the connector connected to the data relay device perform light emission on the data hook-up analysis device 300 in response to a signal flowing through the corresponding connector. That is, the light emitting device is normally operated based on an arbitrary light emitting unit, but if it is abnormal, the non-light emitting device is used to check whether the connector-connected data relay device operates normally.

Then, the abnormal point of the data relay device currently being checked is checked, and the abnormal point is replaced (step S120). The abnormal point is a connector in which an abnormal operation occurs among a plurality of connectors.

According to the data hook-up analysis apparatus according to the present invention, by using the data hook-up analysis apparatus can not only reduce the inspection time or the inspection process required during the communication error check of the data relay system, but also to perform the inspection operation more easily. Can be.

5A to 5C are diagrams for explaining the data hook-up analysis apparatus according to the present invention. In particular, FIG. 5A is a perspective view for explaining the appearance of the data hook-up analysis apparatus, and FIG. 5B is a diagram for explaining the rear panel. 5C is a diagram for explaining the front panel.

5A to 5C, the data hook-up analyzing apparatus 300 according to the present invention is made of a portable unit, and a rear panel visible to an observer includes a plurality of connectors for connection with a plurality of connectors connected to a data relay device. Connectors are mounted, the front panel opposite to the rear panel is provided with a light emitting unit for checking whether or not signals are normally input and output to a plurality of connectors, and an input / output communication port, and an LCD display unit 350 at the side. A display device such as) is mounted.

Specifically, the connector provided on the rear panel includes a plurality of analog connectors 310 for confirming whether the analog communication port provided in the data relay device operates normally, and an input for confirming whether the RS-485 communication port operates normally. / Output connectors (320, 330), and RS-232 connector 340 for confirming whether or not the normal operation of the RS-232 communication port. Of course, although the configuration of the photo is shown as a female connector in the drawings, it may be implemented as a male connector.

Meanwhile, the front panel includes a plurality of light emitting units, preferably light emitting diodes, and an input / output connector connected to a network input / output communication port, respectively, corresponding to the plurality of analog connectors 310 provided in the rear panel. It is provided.

In the operation for checking whether there is a communication error, a data hook-up analysis device is mounted in a manner of connecting a connector to the data relay device, and the inspection of each analog connector checks whether there is an error through a light emitting part provided in the front panel. For example, when the light emitting part emits light, it is checked as normal, and when the light emitting part is not emitted, it is checked as abnormal.

On the other hand, to check whether the RS-232 communication port or RS-485 communication port abnormality is equipped with an IC implemented in logic, the normal operation of the data relay device by providing a signal output from the IC to the LCD display unit 350 Check whether or not.

Then, with reference to Figures 6a to 6e attached to check the abnormality of the analog communication port, RS-232 communication port, RS-485 communication port, various communication ports provided in the data relay device and the various communication A circuit diagram corresponding to the port will be described schematically.

6A to 6E schematically illustrate various communication ports provided in the data relay device according to the present invention and circuit diagrams provided in the data hook-up analysis device corresponding thereto.

First, as shown in FIGS. 6A and 6B, as the odd-side analog connectors of the 15 communication ports provided in the rear panel are mounted to the odd / even side analog connectors provided in the data relay 220, The light emitting unit is provided with light emission or non-light emission in response to a current flowing between both ends to check the analog communication port of the data relay device.

Specifically, a voltage of 24 volts is provided for communication port 2 of the odd-numbered analog connectors of communication port 15, input current of 4 to 20 mA for communication port 3, and return current of 4 to 20 mA for communication port 4 , Ground is connected to communication port 5, respectively, corresponding to the forward light emitting diode (LED1) between communication port 2 and communication port 3 of the front panel, respectively, and resistor (R1) for communication port 4 and 5 ) Is connected, and the light emitting diode LED1 emits light or not emits light in response to currents applied to communication ports 2 and 3.

Among the even-side analog connectors of the 15 communication port, the communication port No. 2 has a voltage of 24 volts, the communication port No. 4 has a current of 4 to 20 mA, the communication port No. 4 has a return current of 4 to 20 mA, Ground is connected to communication port 5, corresponding to the forward light emitting diode (LED2) between communication port 2 and communication port 3 of the front panel, respectively, resistor (R2) to communication ports 4 and 5 Is connected, and the light emitting diode LED2 emits light or emits light in response to currents applied to communication ports 2 and 3.

Meanwhile, as shown in FIGS. 6C and 6D, the RS-485 connector, which is a network input connector of the 9 communication ports provided in the rear panel, is mounted in the communication port provided in the data relay device 220, A signal according to a normal or abnormal operation is applied to the provided microcomputer 322, and a signal applied to the microcomputer 322 is displayed on the LCD display 350 to check the communication error of the RS-485 communication port of the data relay device. do.

Specifically, the transmission signal (TX) is inverted in the communication port No. 2 of the RS-485 connector, the inverted transmission signal (/ TX) in the communication port No. 3, the reception signal (RX) is in the communication port No. 4, and the communication port No. 5 Inverted received signal (/ RX) is applied to the microcomputer 322 is supplied, the microcomputer 322 whether the normal operation of the RS-485 communication port of the data relay device based on the transmitted and received signals (TX, RX) After confirming the message is provided to the LCD display unit 350.

Meanwhile, as shown in FIG. 6E, as the RS-232 connector of the 25 communication port provided in the rear panel is mounted on the connector provided in the data relay 220, the microcomputer 322 provided in the front panel is normal. Alternatively, a signal according to the abnormal operation is applied, and a signal applied to the microcomputer 322 is displayed on the LCD display 350 to check the RS-232 communication port of the data relay device.

Here, to check the RS-232 communication port, ground (GND) is used for communication port 1, transmit signal (TX) for communication port 2, receive signal (RX) for communication port 3, and for communication port # 7. RS-232 connector of 25 communication ports connected to the ground is connected, and in the microcomputer 322, RS-232 communication is performed based on the transmission signal (TX) and the reception signal (RX) provided from communication port 2 and communication port 3. After confirming the normal operation of the port, a message about this is provided to the LCD display 350.

Although described above with reference to the embodiments, those skilled in the art can be variously modified and changed within the scope of the present invention without departing from the spirit and scope of the invention described in the claims below. I can understand.

As described above, according to the present invention, a plurality of connectors for checking an analog communication port, a connector for checking an RS-232 communication port, and a connector for checking an RS-484 communication port in order to confirm whether the data relay device operates normally. By mounting the light emitting unit corresponding to each of the connectors, it is possible to reduce the time required to check whether the equipment is abnormal by checking the normal operation of the communication port based on the signal flowing through the connector, each communication It is easy and accurate to diagnose the abnormality of the port.

Claims (3)

A rear panel unit for mounting a plurality of second connectors for connection with a plurality of first connectors connected to a data relay device for checking a communication state; A front panel unit facing the rear panel unit to mount a light emitting unit for confirming whether signals are normally input / output to the plurality of second connectors; And And a display unit configured to display whether or not signals are normally input and output to the plurality of second connectors. The method of claim 1, wherein the second connector is a plurality of analog connectors for confirming the normal operation of the analog communication port, RS-485 connector for confirming the normal operation of the RS-485 communication port, RS-232 RS-232 connector to check the normal operation of the communication port. Analyzing whether the analog connector, the RS-485 connector and the RS-232 connector abnormal operation based on the signal provided via the second connector, and provides a microcomputer for providing an analysis message according to the abnormal operation to the display unit A data hook-up analysis device further comprising. The data hook-up analyzer of claim 1, wherein the front panel unit further includes an input / output connector for confirming whether an input / output communication port is normally operated.