CN211206650U - Base plate testing arrangement at station terminal - Google Patents

Abstract

The utility model provides a base plate testing arrangement of station terminal, including three telemetering measurement unit, two remote signalling units and two remote control units, the telemetering measurement unit includes telemetering measurement test connection port, and the remote signalling unit includes remote signalling test connection port, and the remote control unit includes remote control test connection port, and telemetering measurement test connection port, remote signalling test connection port, remote control test connection port all are used for connecting the base plate that awaits measuring; the device also comprises an indicator lamp group and a key group, wherein the indicator lamp group comprises a plurality of indicator lamps, and the on and off of the indicator lamps are used for indicating whether the substrate to be detected is qualified or not; the key group comprises a plurality of keys for starting the test items and a power switch. The utility model provides a test function of compatible telemetering measurement of base plate testing arrangement, remote signaling, remote control to can satisfy the simultaneous test of station terminal multichannel telemetering measurement, remote signaling, remote control, convenient operation is swift, test result shows directly perceived, has reduced production and administrative cost, has improved production efficiency.

Description

Base plate testing arrangement at station terminal

Technical Field

The utility model relates to a distribution network automation technical field, in particular to base plate testing arrangement at station terminal.

Background

The distribution network automation station terminal is a novel distribution network automation station terminal integrating data acquisition, protection control and communication management, and is suitable for places such as 10KV power distribution rooms, ring main units, switch rooms, comprehensive rooms, distribution transformers and switching stations (stations).

The functional modules in the terminal are designed in a layered and distributed mode, real-time monitoring of 10kV line electrical parameters including voltage, current, power, frequency, equipment running conditions, board card states, fault information and the like is achieved, functions of remote signaling, remote measuring, remote control, communication data uploading and the like are achieved through division processing of the component modules, and real-time monitoring and data management of distribution network integration are achieved.

In engineering implementation, remote signaling, remote measurement, remote control and other detection need to be carried out on a substrate of a power distribution website terminal, and once a problem occurs, the service life of the power distribution terminal is directly influenced, the manufacturing cost and the management cost of the power distribution terminal are increased, and the production efficiency is reduced. Therefore, how to quickly and accurately carry out remote signaling, remote measuring and remote control detection on the substrate has important significance on the stable operation of the power distribution terminal.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a base plate testing arrangement at station terminal to convenient and fast ground carries out telemetering measurement, remote signalling, remote control test to the base plate at station terminal, and demonstrate the test result to the tester directly perceivedly, improves production efficiency.

In order to solve the technical problem, an embodiment of the present invention provides a substrate testing apparatus for a station terminal, including three telemetry units, two remote signaling units and two remote control units, where the telemetry units include telemetry test connection ports, the remote signaling units include remote signaling test connection ports, the remote control units include remote control test connection ports, and the telemetry test connection ports, the remote signaling test connection ports, and the remote control test connection ports are all used to connect a substrate to be tested;

the substrate testing device also comprises an indicator lamp group and a key group, wherein the indicator lamp group comprises a plurality of indicator lamps, and the on and off of the indicator lamps are used for indicating whether the substrate to be tested is qualified or not; the key group comprises a plurality of keys for starting the test items and a power switch.

Preferably, the three remote measuring units are respectively a first remote measuring unit, a second remote measuring unit and a third remote measuring unit, the two remote signalling units are respectively a first remote signalling unit and a second remote signalling unit, and the two remote control units are respectively a first remote control unit and a second remote control unit;

the indication lamp set comprises two groups which are arranged side by side, and each group comprises a first telemetering indication lamp, a second telemetering indication lamp, a third telemetering indication lamp, a first remote signaling indication lamp, a second remote signaling indication lamp, a first remote control indication lamp and a second remote control indication lamp;

the on and off of the first telemetering indicator lamp is used for indicating whether a substrate to be detected connected with the first telemetering unit is qualified or not;

the on and off of the second telemetering indicator lamp is used for indicating whether the substrate to be detected connected with the second telemetering unit is qualified or not;

the on and off of the telemetering indicator lamp III is used for indicating whether the substrate to be detected connected with the telemetering unit III is qualified or not;

the on-off of the first remote signaling indicator lamp is used for indicating whether a substrate to be detected connected with the first remote signaling unit is qualified or not;

the on and off of the remote signaling indicator lamp II is used for indicating whether the substrate to be tested connected with the remote signaling unit II is qualified or not;

the on and off of the first remote control indicator lamp is used for indicating whether a substrate to be detected connected with the first remote control unit is qualified or not;

and the on and off of the second remote control indicator lamp is used for indicating whether the substrate to be tested connected with the second remote control unit is qualified or not.

Preferably, the substrate testing apparatus further includes a power supply unit, and the power supply unit is configured to supply power to the substrate testing apparatus and perform power management.

Preferably, the substrate testing apparatus further comprises a data processing board, wherein the data processing board comprises a data interface for transmitting the test data to an external device.

Preferably, the substrate testing apparatus further includes a reserved expansion unit, and the expansion unit is used for connecting an external device to perform function expansion.

The utility model discloses an above-mentioned technical scheme's beneficial effect as follows:

the utility model provides a test function of compatible telemetering measurement of base plate testing arrangement, remote signaling, remote control to can satisfy the simultaneous test of station terminal multichannel telemetering measurement, remote signaling, remote control, convenient operation is swift, test result shows directly perceived, has reduced production and administrative cost, has improved production efficiency.

Drawings

Fig. 1 is a schematic structural diagram of a substrate testing apparatus according to an embodiment of the present invention;

fig. 2 a-2 b are schematic diagrams of an implementation manner of the internal structure of the remote signaling unit in the embodiment of the present invention.

In the figure: the remote control test system comprises a remote measuring unit 1, a remote measuring test connection port 101, a remote signaling unit 2, a remote signaling test connection port 201, a remote control unit 3, a remote control test connection port 301, an indicator lamp set 4, a key set 5, a power supply unit 6, a data processing board 7, a data interface 701 and an expansion unit 8.

Detailed Description

In order to make the technical problems, technical solutions and advantages to be solved by the present invention clearer, the following detailed description will be given with reference to the accompanying drawings and specific embodiments.

The embodiment of the utility model provides a base plate testing arrangement at station terminal, as shown in fig. 1, base plate testing arrangement includes three telemetering measurement unit 1, two remote signalling units 2 and two remote control units 3, telemetering measurement unit 1 includes telemetering measurement test connection port 101, remote signalling unit 2 includes remote signalling test connection port 201, remote control unit 3 includes remote control test connection port 301, telemetering measurement test connection port 101, remote signalling test connection port 201, remote control test connection port 301 all are used for connecting the base plate that awaits measuring;

the substrate testing device also comprises an indicator lamp group 4 and a key group 5, wherein the indicator lamp group 4 comprises a plurality of indicator lamps, and the on and off of the indicator lamps are used for indicating whether the substrate to be tested is qualified or not; the key group 5 includes a plurality of keys for starting the test items, and a power switch.

The utility model provides a test function of compatible telemetering measurement of base plate testing arrangement, remote signaling, remote control to can satisfy the simultaneous test of station terminal multichannel telemetering measurement, remote signaling, remote control, convenient operation is swift, test result shows directly perceived, has reduced production and administrative cost, has improved production efficiency.

Further, the three remote measuring units 1 are respectively a first remote measuring unit, a second remote measuring unit and a third remote measuring unit, the two remote signalling units 2 are respectively a first remote signalling unit and a second remote signalling unit, and the two remote control units 3 are respectively a first remote control unit and a second remote control unit;

the indicating lamp group 4 comprises two groups which are arranged side by side, and each group comprises a first telemetering indicating lamp, a second telemetering indicating lamp, a third telemetering indicating lamp, a first remote signaling indicating lamp, a second remote signaling indicating lamp, a first remote control indicating lamp and a second remote control indicating lamp;

the on and off of the first telemetering indicator lamp is used for indicating whether a substrate to be detected connected with the first telemetering unit is qualified or not;

the on and off of the second telemetering indicator lamp is used for indicating whether the substrate to be detected connected with the second telemetering unit is qualified or not;

the on and off of the telemetering indicator lamp III is used for indicating whether the substrate to be detected connected with the telemetering unit III is qualified or not;

the on-off of the first remote signaling indicator lamp is used for indicating whether the substrate to be detected connected with the first remote signaling unit is qualified or not;

the on and off of the remote signaling indicator lamp II is used for indicating whether the substrate to be tested connected with the remote signaling unit II is qualified or not;

the on-off of the first remote control indicator lamp is used for indicating whether the substrate to be detected connected with the first remote control unit is qualified or not;

and the on-off of the second remote control indicator lamp is used for indicating whether the substrate to be tested connected with the second remote control unit is qualified or not.

Further, the substrate testing apparatus further includes a power supply unit 6, and the power supply unit 6 is configured to supply power to the substrate testing apparatus and perform power management.

Further, the substrate testing apparatus further includes a data processing board 7, and the data processing board 7 includes a data interface 701 for transmitting the test data to an external device. The data interface 701 may be a network port or a USB interface.

Further, the substrate testing device further comprises a reserved extension unit 8, and the extension unit 8 is used for connecting external equipment to perform function extension. For example, a printer is connected to print the test result, or a display is connected to display the test result.

A specific operation process of this embodiment is as follows:

inserting a terminal substrate of a station to be tested into a corresponding test interface, fastening and inserting a corresponding terminal, turning on a power switch, pressing a start key button, and starting testing;

after the wiring test of the three substrates of the remote measuring unit is completed without problems, the first remote measuring indicator lamp, the second remote measuring indicator lamp and the third remote measuring indicator lamp are turned on, and if the problems exist, the corresponding lamps are turned off;

after the wiring test of the second base plate of the remote signaling unit is finished and no problem exists, the first remote signaling indicator lamp and the second remote signaling indicator lamp are turned on, and if a problem exists, the corresponding lamps are turned off;

and after the wiring test of the two substrates of the remote control unit is completed and no problem exists, the first remote control indicator lamp and the second remote control indicator lamp are turned on, and if a problem exists, the corresponding lamps are turned off.

During testing, the type of the telemetering voltage and the wiring mode are set according to the testing requirement, the relay protection output voltage is added according to the configured pt secondary rated value, for example, 100V is configured, then 100V is added, and the relay protection output current outputs 3A current for testing.

Fig. 2 a-2 b show an implementation of the internal structure of a remote signalling unit, the test procedure being as follows:

output 12L EDs light, enter test;

outputting opening 1, reading in opening 1-30, having opening signals corresponding to opening 1, 13, 25, correctly turning off L ED01, and turning off the output;

outputting opening 2, reading in opening 1-30, having opening signals corresponding to opening 2, 14 and 26, correctly turning off L ED02, and turning off the output;

outputting opening 3, reading in opening 1-30, having opening signals corresponding to the opening 3, 15 and 27, correctly turning off L ED03, and turning off the output;

outputting opening 4, reading in opening 1-30, having opening signals corresponding to opening 4, 16 and 28, correctly turning off L ED04, and turning off the output;

outputting opening 5, reading in opening 1-30, having opening signals corresponding to the openings 5, 17 and 29, correctly turning off L ED05, and turning off the output;

outputting opening 6, reading in opening 1-30, having opening signals corresponding to opening 6, 18 and 30, correctly turning off L ED06, and turning off the output;

outputting opening 7, reading in opening 1-30, having opening signal corresponding to opening 7 and 19, correctly turning off L ED07, and turning off output;

outputting opening 8, reading in opening 1-30, having opening signal corresponding to opening 8 and 20, correctly turning off L ED08, and turning off output;

outputting the opening 9, reading in the opening 1-30, having opening signals corresponding to the opening 9 and 21, correctly turning off L ED09, and turning off the output;

outputting the opening 10, reading in the opening 1-30, having opening signals corresponding to the openings 10 and 22, correctly turning off L ED10, and turning off the output;

outputting the opening 11, reading in the opening 1-30, having opening signals corresponding to the openings 11 and 23, correctly turning off L ED11, and turning off the output;

outputting opening 12, reading in opening 1-30, having opening signal corresponding to opening 12, 24, turning off L ED12, and turning off output.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (5)

1. The substrate testing device of the station terminal is characterized by comprising three remote measuring units, two remote signaling units and two remote control units, wherein each remote measuring unit comprises a remote measuring test connection port;

the substrate testing device also comprises an indicator lamp group and a key group, wherein the indicator lamp group comprises a plurality of indicator lamps, and the on and off of the indicator lamps are used for indicating whether the substrate to be tested is qualified or not; the key group comprises a plurality of keys for starting the test items and a power switch.

2. The substrate testing apparatus of claim 1, wherein three of the telemetry units are a first telemetry unit, a second telemetry unit, and a third telemetry unit, two of the telemetry units are a first telemetry unit and a second telemetry unit, and two of the remote units are a first remote unit and a second remote unit, respectively;

the indication lamp set comprises two groups which are arranged side by side, and each group comprises a first telemetering indication lamp, a second telemetering indication lamp, a third telemetering indication lamp, a first remote signaling indication lamp, a second remote signaling indication lamp, a first remote control indication lamp and a second remote control indication lamp;

the on and off of the first telemetering indicator lamp is used for indicating whether a substrate to be detected connected with the first telemetering unit is qualified or not;

the on and off of the second telemetering indicator lamp is used for indicating whether the substrate to be detected connected with the second telemetering unit is qualified or not;

the on and off of the telemetering indicator lamp III is used for indicating whether the substrate to be detected connected with the telemetering unit III is qualified or not;

the on-off of the first remote signaling indicator lamp is used for indicating whether a substrate to be detected connected with the first remote signaling unit is qualified or not;

the on and off of the remote signaling indicator lamp II is used for indicating whether the substrate to be tested connected with the remote signaling unit II is qualified or not;

the on and off of the first remote control indicator lamp is used for indicating whether a substrate to be detected connected with the first remote control unit is qualified or not;

and the on and off of the second remote control indicator lamp is used for indicating whether the substrate to be tested connected with the second remote control unit is qualified or not.

3. The substrate testing apparatus of claim 1, further comprising a power supply unit for supplying power to the substrate testing apparatus and for power management.

4. The substrate testing apparatus of claim 1, further comprising a data processing board comprising a data interface for transmitting test data to an external device.

5. The substrate testing apparatus of claim 1, further comprising a reserved expansion unit, wherein the expansion unit is used for connecting an external device for function expansion.

Images