CN205353735U - Numerical control system mainboard failure test platform - Google Patents

Abstract

The utility model relates to a numerical control system mainboard failure test platform, which comprises a controller, the controller passes through the EMG end and connects the EMG switch, hold through LCD, the display is connected to INV end and backlight converter, connect the CF card through the FRONT end, connect the menu key through the MENU end, through CG71 end attended operation cabinet IO unit, mechanical operation panel and manual impulse generator are connected respectively to operation cabinet IO unit, the controller passes through the RIO1 end and connects long -range IO unit, it feeds encoder and manual impulse generator the same period to connect through the ENC end, connect the spindle servo driver through the OPT end, the spindle servo driver is the connector contact ware respectively, the AC reactor, circuit protector and non -fuse breaker, connect outside RS232 equipment through the SIO end, connect through the DCIN end, connect external network through the LAN end. The utility model discloses convenient and practical, safe and reliable, low cost.

Description

A kind of digital control system main board failure testboard

Technical field

This utility model relates to a kind of fault test platform, particularly relates to a kind of digital control system main board failure testboard.

Background technology

Digital control system is usually to be joined by machine tool plant's trade mark and is arranged on Digit Control Machine Tool, use procedure in the future after all has machine failure or other are reported to the police, being usually at present and undertaken judging to be because problem or other the peripheral problems caused that main board failure causes by experience and the survey of lathe hands by old engineer, test is got up very inconvenient.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of digital control system main board failure testboard, to solve deficiency of the prior art.

In order to achieve the above object, the purpose of this utility model is achieved through the following technical solutions:

A kind of digital control system main board failure testboard, wherein, including controller, backlight converter, display, Menu key, remote I/O unit, main axle servo driver, manual impulsator, operation cabinet I/O unit, mechanically actuated panel, catalyst, AC reactor, circuit brake, 24V regulated power supply, CF card, feeding same period encoder, non-fuse breaker and EMG switch, described controller has EMG end, LCD end, INV end, FRONT end, MENU end, CG71 end, RIO1 end, ENC end, OPT end, SKIP end, SIO end, DCIN end and LAN end, described controller connects described EMG switch by described EMG end, and described controller passes through described LCD end, described INV end and described backlight converter connect described display, described controller connects described CF card by described FRONT end, described controller connects described Menu key by described MENU end, described controller connects described operation cabinet I/O unit by described CG71 end, described operation cabinet I/O unit connects described mechanically actuated panel and described manual impulsator respectively, described controller connects described remote I/O unit by described RIO1 end, described controller connects described feeding same period encoder and described manual impulsator by described ENC end, described controller connects described main axle servo driver by described OPT end, and described main axle servo driver connects described catalyst respectively, described AC reactor, described circuit brake and described non-fuse breaker, described controller is by the outside jump signal input of described SKIP termination, described controller connects outside RS232 equipment by described SIO end, described controller connects described 24V regulated power supply by described DCIN end, described controller connects external network by described LAN end, and described 24V regulated power supply connects described main axle servo driver by described circuit brake.

Above-mentioned digital control system main board failure testboard, wherein, described display is LED LCDs.

Compared with the prior art, the beneficial effects of the utility model are in that:

Convenient and practical, safe and reliable, low cost.

Accompanying drawing explanation

The accompanying drawing constituting a part of the present utility model is further appreciated by of the present utility model for providing, and schematic description and description of the present utility model is used for explaining this utility model, is not intended that improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 illustrates the logical structure schematic diagram of this utility model digital control system main board failure testboard.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model, rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of this utility model protection.

It should be noted that when not conflicting, the embodiment in this utility model and the feature in embodiment can be mutually combined.

With reference to shown in Fig. 1, this utility model digital control system main board failure testboard includes controller 1, backlight converter 2, display 3, Menu key 4, remote I/O unit 5, main axle servo driver 6, manual impulsator 7, operation cabinet I/O unit 8, mechanically actuated panel 9, catalyst 10, AC reactor 11, circuit brake 12, 24V regulated power supply 13, CF card 14, feeding same period encoder 15, non-fuse breaker 16 and EMG switch 17, controller 1 has EMG end, LCD end, INV end, FRONT end, MENU end, CG71 end, RIO1 end, ENC end, OPT end, SKIP end, SIO end, DCIN end and LAN end, controller 1 connects EMG switch 17 by EMG end, and controller 1 is by LCD end, INV end and backlight converter 2 connect display 3, controller 1 connects CF card 14 by FRONT end, controller 1 connects Menu key 4 by MENU end, controller 1 is by CG71 end attended operation cabinet I/O unit 8, operation cabinet I/O unit 8 connects mechanically actuated panel 9 and manual impulsator 7 respectively, controller 1 connects remote I/O unit 5 by RIO1 end, controller 1 connects feeding same period encoder 15 and manual impulsator 7 by ENC end, controller 1 connects main axle servo driver 6 by OPT end, and main axle servo driver 6 connects catalyst 10 respectively, AC reactor 11, circuit brake 12 and non-fuse breaker 16, controller 1 is by the outside jump signal input of SKIP termination, controller 1 connects outside RS232 equipment 18 by SIO end, controller 1 connects 24V regulated power supply 13 by DCIN end, controller 1 connects external network by LAN end, and 24V regulated power supply 13 connects main axle servo driver 6 by circuit brake 12.

In preferred embodiment of the present utility model, display 3 is LED LCDs.

The operation principle of this testboard is after mainboard powers on, each action command is completed by the signal of PLC, it is delivered to main axle servo driver 6 by controller 1 again to carry out drive motor and complete corresponding actions, motor owing to being arranged on fixing panel beating so can be only done simple rotating and braking, but this may determine that the control circuit of this mainboard is intact, it is not necessary to operates on true lathe, it is not necessary to consider peripheral circuit, without the concern for mechanical part and pneumatic part, hydraulic part.Having EMG emergency stop switch, handwheel pattern, automatic mode, Manual Mode on easy guidance panel, mode switch is all the PLC signal of bespoke.

Test detailed programs be following some: the operating of mainboard house dog basic circuit, display signal line output signal, hardboard supply voltage, EMG signal, RS232 input and output, CF draw-in groove function, network interface network savvy, CG71 interface bus communication function, RIO remote I/O interface communication function, OPI optical fiber input/output signal, handwheel pulse signal and voltage and MENKEY menu key etc..

From the above it can be seen that advantage of the present utility model is in that:

Convenient and practical, safe and reliable, low cost.

Above specific embodiment of the utility model being described in detail, but this utility model is not restricted to particular embodiments described above, it is intended only as example.To those skilled in the art, any equivalent modifications and replacement are also all among category of the present utility model.Therefore, impartial conversion done under without departing from spirit and scope of the present utility model and amendment, all should be encompassed in scope of the present utility model.

Claims (2)

1. a digital control system main board failure testboard, it is characterised in that include controller (1), backlight converter (2), display (3), Menu key (4), remote I/O unit (5), main axle servo driver (6), manual impulsator (7), operation cabinet I/O unit (8), mechanically actuated panel (9), catalyst (10), AC reactor (11), circuit brake (12), 24V regulated power supply (13), CF card (14), feeding same period encoder (15), non-fuse breaker (16) and EMG switch (17), described controller (1) has EMG end, LCD end, INV end, FRONT end, MENU end, CG71 end, RIO1 end, ENC end, OPT end, SKIP end, SIO end, DCIN end and LAN end, described controller (1) connects described EMG by described EMG end and switchs (17), and described controller (1) is by described LCD end, described INV end and described backlight converter (2) connect described display (3), described controller (1) connects described CF card (14) by described FRONT end, described controller (1) connects described Menu key (4) by described MENU end, described controller (1) connects described operation cabinet I/O unit (8) by described CG71 end, described operation cabinet I/O unit (8) connects described mechanically actuated panel (9) and described manual impulsator (7) respectively, described controller (1) connects described remote I/O unit (5) by described RIO1 end, described controller (1) connects described feeding same period encoder (15) and described manual impulsator (7) by described ENC end, described controller (1) connects described main axle servo driver (6) by described OPT end, described main axle servo driver (6) connects described catalyst (10) respectively, described AC reactor (11), described circuit brake (12) and described non-fuse breaker (16), described controller (1) is by the outside jump signal input of described SKIP termination, described controller (1) connects outside RS232 equipment (18) by described SIO end, described controller (1) connects described 24V regulated power supply (13) by described DCIN end, described controller (1) connects external network by described LAN end, and described 24V regulated power supply (13) connects described main axle servo driver (6) by described circuit brake (12).

2. digital control system main board failure testboard as claimed in claim 1, it is characterised in that described display (3) is LED LCDs.