鳞片式盔甲护罩
耐快速位移120米/分 | Allows for traverse rate 120 M/min |
A. 固定卡扣 | A. Fastener |
B. 高硬度不锈钢 | B. High hardness stainless steel |
C. 风琴式伸缩护罩 | C. Bellows cover |
D. 支撑板 | D. Stiffener |
鳞片式盔甲护罩应用于工作区域有大量的高温切削屑,超大行程或钣金式护盖安装空间不足的解决方案,如:卧式加工中心机、动柱式加工中心机及各类型的CNC加工中心均可使用,可防止高温切削屑破坏,防护效果佳。
The finned bellows cover are suitable for large amounts of high-temperature chips, ultra large travel and insufficient space for mounting metal sheet guard. Applicable machines include horizontal machining centers, traveling column machining centers and various CNC machining centers. The corrugation top is equipped with stainless steel or aluminum alloy sheet for surface protection to prevent high temperature from damaging the cover while ensuring superior protection effect.
高速位移 / 耐高温切屑 / 质量轻
风琴式护罩搭配高硬度不锈钢,适用于金属加工切屑。优异成型技术与结构设计,可应用于超大行程轨道防护。低噪音、高寿命、使用滑动与同步机构,可快速位移。客制化生产。
High speed traveling / Resist high temperature Chips / Light weight
Bellows cover in combination with high hardness stainless steel make it suitable for metal cutting chips. Outstanding forming technology and structure design enable the series of cover to be ideal for protecting slide ways with extra large traveling. Low noise and long service life. Available to equip with sliding and synchronized mechanism for rapid traverse. Customized product.
不可掀式 Don't lift type
可掀式 Lift type
L max = 最大伸长长度 | Lmax = Open length |
L min = 最小压缩长度 | Lmin = Closed length |
ST = 最大行程-最小行程=工作行程 | ST = Open length - closed length |
W = 防护罩宽度 | W = Outside width |
A = 防护罩高度 | A = Outside height |
H = 折页高度 | H = Fold height |
h = 焊接高度 | h =Weld height |
Z = 盔甲片延伸长度 | Z =Extending length of protective sheet metal |
L = 盔甲片累积厚度 | L =Accumulated thickness of protective metal sheet |
AP = 展开一折长度 Opening of 1 fold =H *2-16 | Example(案例): |
SM = 面料厚 Fabric thickness | Given that: Fold height =30 mm |
SS = 支撑板厚 Stiffener thickness | Open length = 1500 mm |
SF =固定钣金厚 Flange thickness | Opening of 1 fold = 30* 2 - 16 = 44 |
NP = 折页数量 Number of folds =Lmax/AP+2 | Number of folds = 1500/44+2= 37 |
Lmin= (SM *8 + SS) . NP + (SF*2) | Closed length = (0.35*8 + 1.5)*37 + (3*2) |
Closed length = 4.3 x 37 + 6 = 166 | |
Closed length = 166mm |