سیستم FANUC چیست؟
فانوک سیستمهای پیشرفته CNC و کنترل حرکت را برای طیف گستردهای از کاربردها توسعه میدهد – از تولید اولیه کالا با حجم بالا و با تکرار بالا گرفته تا قطعات منحصر به فرد و بسیار پیچیده که به بالاترین دقت و تکنیکهای ماشینکاری پیشرفته نیاز دارند.
مکان تاسیس فانوک:
کارخانههایی در پردیس مرکزی در اوشینو-مورا، استان یاماناشی بنا شده اند. کارخانه ها شامل مونتاژ CNC، سروو آمپلی فایر، سرو موتور، ربات، ROBOSHOT و ROBOCUT می باشند.
انواع فانوک :
با 18 سری مدل، FANUC گسترده ترین طیف وسیعی از ربات های صنعتی را در جهان ارائه می کند که به طور کامل از مشتریان در بیش از 100 کشور( ژاپن،آمریکا،آسیا،اروپا،اقیانوسیه،افریقای جنوبی) بیش از 260 مکان خدمات پس از فروش در سراسر جهان پشتیبانی می کند.
بزرگترین دستگاه CNC فانوک:
دستگاه فلزکاری که M400 نامیده می شود، 51 تن وزن دارد و بر روی یک پد بتنی تقویت شده فولادی جدا شده خاص نصب شده است.
انوع متداول ماشین های فانوکCNC :
ماشینهای تراش CNC و تراشکاری. …
- 2 – ماشین های فرز CNC. …
- 3 – دستگاه لیزر CNC. …
- 4 – ماشینهای تخلیه الکتریکی CNC (EDM) …
- 5 – ماشینهای برش پلاسما CNC. …
نام شرکت ها:
| 1 | MBH3 | Maschinenfabrik Berthold Hermle AG |
| 2 | 6103 | Okuma |
| 3 | DAR | Datron AG |
| 4 | Mazak |
CNC FANUC:
FANUCپیشرفته ترین CNC و سیستم های کنترل حرکت را برای طیف گسترده ای از کاربردها توسعه می دهد – از تولید اولیه کالا با حجم بالا و با تکرار بالا تا قطعات منحصر به فرد و بسیار پیچیده که به بالاترین دقت و تکنیک های ماشینکاری پیشرفته نیاز دارند. فانوک کنترل ها، نرم افزارها، کنترل کننده های حرکتی، درایوها، موتورها، و شبیه سازهای CNC برای انجام انواع ماشین کاری ها دارد.
موتورها و درایوهای FANUC میتوانند ماشینهای شما را در بزرگترین چالشهای شما نیرو دهند. FANUC گسترده ترین انواع موتورها را ارائه می دهد که دقیقاً با آمپرهای بسیار قابل اعتماد جفت شده اند تا ماشین های شما همیشه در بهترین حالت خود کار کنند. رمزگذارهای با وضوح بالا، جفت شده با جدیدترین SERVO و SPINDLE HRV Control ترکیب می شوند تا سیستم سروو کنترل نانو را برای سرعت بالا، دقت بالا و کارایی بالا ارائه دهند.
نام مدل های مختلف دستگاه ها:
| Various model names | Type | Series | Notes |
| FANUC-0MA, FANUC 0-MA, FANUC 0M-A, FANUC 0M/A, FANUC 0-M-A, FANUC 0-M/A, FANUC 0 M-A, FANUC 0 M/A, FANUC-0M Model A, FANUC 0-M Model A, FANUC 0/M Model A | Milling | A | number 0 |
| FANUC-OPA, FANUC O-PA, FANUC OP-A, FANUC OP/A, FANUC O-P-A, FANUC O-P/A, FANUC O P-A, FANUC O P/A, FANUC-OP Model A, FANUC O-P Model A, FANUC O/P Model A | Punching | A | letter O |
| FANUC-0TB, FANUC 0-TB, FANUC 0T-B, FANUC 0T/B, FANUC 0-T-B, FANUC 0-T/B, FANUC 0 T-B, FANUC 0 T/B, FANUC-0T Model B, FANUC 0-T Model B, FANUC 0/T Model B | Turning | B | number 0 |
| FANUC-0TTB, FANUC 0-TTB, FANUC 0TT-B, FANUC 0TT/B, FANUC 0-TT-B, FANUC 0-TT/B, FANUC 0 TT-B, FANUC 0 TT/B, FANUC-0TT Model B, FANUC 0-TT Model B, FANUC 0/TT Model B | Twin Turret | B | number 0 |
| FANUC-0GC, FANUC 0-GC, FANUC 0G-C, FANUC 0G/C, FANUC 0-G-C, FANUC 0-G/C, FANUC 0 G-C, FANUC 0 G/C, FANUC-0G Model C, FANUC 0-G Model C, FANUC 0/G Model C | Grinding | C | number 0 |
برخی از کنترلرهای FANUC NC عبارتند از:
| Control name | Series or version | Differences and capabilities |
| FANUC 20 | Series A | Series 20A was a two axis (usually lathe) NC controller that used stepper motors. Resolution was 10μm. Optional tool offsets were via “decade” switches and selected by program. A machine reference point was optional. |
| FANUC 20 | Series B | Series 20C had a 1μm resolution |
| FANUC 30 | Series A | Series 30A was a three axis (milling) NC controller that used stepper motors. Resolution was 10μm. |
| FANUC 30 | Series B | Series 30C had a 1μm resolution |
| FANUC 2000 | Series A | Series 2000C was a 2 axis (usually lathe) CNC controller that used DC thyristor drives and had a 1 μm resolution. User memory was optional. Data was displayed by a one-word LCD, addresses (letters such as G, F, X, Y, &etc.) were selected by buttons on the control panel. A two-line position display was optional. |
| FANUC 3000 | Series A | Series 3000C was a 3 axis (usually milling) CNC controller that used DC thyristor drives and had a 1 μm resolution. User memory was optional. Data was displayed by a one-word LCD, addresses (letters such as G, F, X, Y, &etc.) were selected by buttons on the control panel. A three-line position display was optional. |
| There is no model 4/4000, likely because it is a Japanese unlucky number. But in recent days these models are also available because of the application requirement. | ||
| FANUC 5 | Series A | System 5 was similar to 2000/3000, it was an 8 bit CNC that used a standard paper tape drive and optional user memory with battery back up. 5T had options of constant surface speed, Multiple repetitive cycles G71, G72, G73, G74, G75, and G76. Tool nose radius compensation was available. Incremental and absolute programming were possible in the same block. The display was a one-word LCD the same as the 2000/3000. |
| FANUC 7 | Series A | FANUC System 7 was a joint venture between FANUC and Siemens because FANUC were then unable to produce a 5 axis controller. |
| FANUC 6 | Series A | System 6A was the first FANUC controller based on the Intel 8086 16 bit micro processor. System 6A had the standard one-word LCD, but was optionally available with a 9″ CRT. It was available with Custom Macro (variable programming with user defined calculations) and could hold multiple programs in its memory. Non-volatile Bubble memory was used. |
| FANUC 5 | Series B | |
| FANUC 6 | Series B | System 6B had a standard CRT, up to 512 kb of memory and most of the programming features found in modern CNC machines. Whereas the earlier systems were obsolete within a few years of manufacture, system 6 machines are still in operation today (2018), 35 years later. Early system 6 machines used the “Black Cap” thyristor drives from earlier controls, later machines from 1981 onwards used the legendary “Yellow Cap” transistor drives. AC spindle drive were optional with system 6 and these were reliable, unlike the earlier DC units. 8 bit paper readers or RS232C ports were used to input programs. 8 kb of bubble memory was standard, 128 kb was a $10,000 + option. System 6 level two came out in 1983 and is distinguished by 3 extra buttons on the control panel. Level 2 had many bug fixes and a few extra features, notably, 5 axis milling. later 6MB systems had an optional 14″ CRT with expanded operator panel and optional FAPT programming. System 6 had a built in PLC. |
| FANUC 3 | Systems 3 and 2 were low-cost alternatives to system 6, although a fully optioned system was quite powerful, if somewhat slow in processing. System 3 used battery-backed CMOS memory with 4 kb being standard. System 3TF had a 12″ 4 colour CRT and FAPT automatic programming. 3M and 2T controllers were typically used on simple machines like CNC drills and gang-tooled lathes. | |
| FANUC 10 | ||
| FANUC 11 | ||
| FANUC 15 | ||
| FANUC 0 | Series A, 1985–1986 | |
| FANUC 0 | Series B, 1987–1989 | |
| FANUC 0 | Series C, 1990–1998 | |
| FANUC 6 | ||
| FANUC 12 | ||
| FANUC 16i | ||
| FANUC 18i | ||
| FANUC 21i | ||
| FANUC 30i | First production: 2003 | |
| FANUC 31i | First production: 2004 | |
| FANUC 32i | First production: 2004 | |
| FANUC 160 | ||
| FANUC 180 | ||
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