Iziko lomatshini wokwenza intonga yobhedu oluzenzekelayo GJCNC-CMC
Iimpawu eziphambili zokusebenza
• Iziko lomatshini lekhabhathi yeringi lingagqibezela ngokuzenzekelayo ibha yobhedu ene-dimensional space multi-dimensional Angle yokugoba okuzenzekelayo, ukubethelwa kwe-CNC, ukucandwa kwexesha elinye, ukucheba i-chamfering kunye nobunye ubuchwepheshe bokucubungula;
• I-Angle yokugoba yomatshini ilawulwa ngokuzenzekelayo, ulwalathiso olude lwentonga yobhedu lubekwe ngokuzenzekelayo, isalathiso se-circumference yentonga yobhedu ijikeleziswa ngokuzenzekelayo, isenzo sophumezo siqhutywa yi-servo motor, umyalelo wokuphuma ulawulwa yi. inkqubo ye-servo, kunye nesithuba sokugoba i-multi-angle ifezekisiwe.
• Umatshini uqaphela ukulungiswa kokumisa ngokuzenzekelayo xa ibha yobhedu inqunyulwe, inqunyulwe, ibethelwe kwaye ihlanjululwe, kunye nokusebenza okulula kunye nokuchaneka okuphezulu kwe-machining, ukunciphisa ubunzima kunye nephutha lokubala ngesandla kunye nokulawula i-Angle direction control.
• Ukusebenzisa i-interface yomatshini womntu, thelekisa umzobo we-workpiece, i-input parameters ehambelanayo, i-Angle, ukusetwa kwedatha kulula, ngokukhawuleza, ukuchaneka okuphezulu.
• Umatshini wamkela ukondla okuncediswayo okwenziwa ngesandla kunye nentonga yobhedu yokutyisa ngokuzenzekelayo ukuqonda ukusetyenzwa okuzenzekelayo okuqhubekayo.
• Umatshini uxhotyiswe nge-screw ephezulu yebhola echanekileyo kunye ne-linear guide rail ukuqinisekisa ukuchaneka okuphezulu kunye nokusebenza okuphezulu.
• Umatshini uxhotyiswe nge-screw ephezulu yebhola echanekileyo kunye ne-linear guide rail ukuqinisekisa ukuchaneka okuphezulu kunye nokusebenza okuphezulu.
• Izixhobo zombane zomatshini zenziwe ngeempawu ezaziwayo ekhaya nakwamanye amazwe, kunye nobomi benkonzo ende kunye nokuqinisekiswa komgangatho.
• Yenza iintonga zobhedu phakathi koluhlu lwe-∅8 ukuya ku-∅25. Ubude bexesha elinye: 50mm,
IiParameters eziphambili zobuGcisa
| Umxholo | Iyunithi | Idatha | |
| Ukugoba | Amandla uNomal | kN | 260 |
| Ukugoba ukuchaneka kwe-Angle | Inani lezidanga | <±0.3 | |
| Impazamo yokujikeleziswa kwendawo | Inani lezidanga | <±0.3 | |
| I-axial stroke | mm | 1500 | |
| Ukuchaneka kobude bokutya | mm | 0.2 | |
| Uluhlu oluvumelekileyo lwentonga yobhedu | mm | Ф8~Ф25 | |
| Ubuncinci i-engile yokujika | Inani lezidanga | 70° | |
| Impazamo yobude bokugoba | mm | 0.5 | |
| I-Axial yokujikeleza i-Angle | Inani lezidanga | 360°(<±0.2°) | |
| Ukuchaneka kokubeka okuphindaphindiweyo | mm | ±0.1 | |
| Amandla e-servo ewonke | kW | 2.3 | |
| Ukwenza umcaba, ukucheba, ukubethelwa ngamanqindi, ukutsala nzima | Amandla uNomal | kN | 1000 |
| Uluhlu oluvumelekileyo lwentonga yobhedu | mm | Ф8~Ф25 | |
| Eyona punch | mm | Ф32×26 | |
| Ubude obuninzi bokucaba ngexesha | mm | 50 | |
| Impazamo yentshukumo yokucaba | mm | 0.1 | |
| Impazamo yobude bokucaba | mm | 0.3 | |
| Ubude bezinto eziseleyo | mm | 150 | |
| Ubunzima bomatshini | T | 3.36 | |
| Ubungakanani bomatshini (ubude * ububanzi * ubude) | mm | 3200*1500*2200 | |
| Amandla apheleleyo okubonelela | kW | 11.05 | |
IiParameters eziphambili zobuGcisa
| Inkcazo | Iyunithi | Ipharamitha | |
| Iyunithi yokugoba | Ngenyanzelo | kN | 200 |
| Ukugoba Ukuchaneka | 度 | <±0.3* | |
| Primary Axial Stroke | mm | 1500 | |
| Ubungakanani bentonga | mm | 8~420 | |
| Min Ukugoba engile | Isidanga | 70 | |
| I-engile yokujikeleza | isidanga | 360 | |
| Amandla eMoto | kw | 1.5 | |
| Amandla eServo | kw | 2.25 | |
| Iyunithi yokusika | Ngenyanzelo | kN | 300 |
| Amandla eMoto | kW | 4 | |
| Ubungakanani bentonga | mm | 8~420 | |
| Iyunithi yePunch | Ngenyanzelo | kN | 300 |
| Ubungakanani bokuNgqobhoza obukhulu | mm | 26×32 | |
| Amandla eMoto | kw | 4 | |
| Iyunithi yeFlethi yeCofa | Ngenyanzelo | kN | 600 |
| Ubude boKucofa okuphezulu |
| 4s | |
| Amandla eMoto | kw | 4 | |
| Iyunithi yeChamfer | Iyunithi | kN | 300 |
| Amandla eMoto | kw | 4 | |
