32KCHMIMZ14M100A11144

80KCHMDRN14M100A11144

80CHMDRN14M100A11144

80SBDHMDRN14M100A11144

80CSBDHMDRN14M100A11144

80KSBDHMDRN14M100A11144

80SBDHMDRN14M100A11144

80DDHMDRN14M100A11144

80CDDHMDRN14M100A11144

80KDDHMDRN14M100A11144

80DDHMDRN14M100A11144

80TBHMDRN14M100A11144

80CTBHMDRN14M100A11144

80KTBHMDRN14M100A11144

80TBHMDRN14M100A11144

80TCHMDRN14M100A11144

80CTCHMDRN14M100A11144

80KTCHMDRN14M100A11144

80TCHMDRN14M100A11144

80TDHMDRN14M100A11144

80CTDHMDRN14M100A11144

80KTDHMDRN14M100A11144

80TDHMDRN14M100A11144

80BHMDRN14M100A11144

80CBHMDRN14M100A11144

80KBHMDRN14M100A11144

80BHMDRN14M100A11144

80BBHMDRN14M100A11144

80CBBHMDRN14M100A11144

80KBBHMDRN14M100A11144

80BBHMDRN14M100A11144

80DHMDRN14M100A11144

80CDHMDRN14M100A11144

80KDHMDRN14M100A11144

80DHMDRN14M100A11144

80DBHMDRN14M100A11144

80CDBHMDRN14M100A11144

80KDBHMDRN14M100A11144

80DBHMDRN14M100A11144

100KBBHMDMN14M14M180M1144

80BBHMIMN14M100A11144

80CBBHMIMN14M100A11144

80KBBHMIMN14M100A11144

80BBHMIMN14M100A11144

80HHHMIMN14M100A11144

80CHHHMIMN14M100A11144

80KHHHMIMN14M100A11144

80HHHMIMN14M100A11144

80CHMIMN14M100A11144

80CCHMIMN14M100A11144

80KCHMIMN14M100A11144

80CHMIMN14M100A11144

80SBDHMIMN14M100A11144

80CSBDHMIMN14M100A11144

80KSBDHMIMN14M100A11144

80SBDHMIMN14M100A11144

80DDHMIMN14M100A11144

80CDDHMIMN14M100A11144

80KDDHMIMN14M100A11144

80DDHMIMN14M100A11144

80TBHMIMN14M100A11144

80CTBHMIMN14M100A11144

80KTBHMIMN14M100A11144

80TBHMIMN14M100A11144

80TCHMIMN14M100A11144

80CTCHMIMN14M100A11144

80KTCHMIMN14M100A11144

80TCHMIMN14M100A11144

80TDHMIMN14M100A11144

80CTDHMIMN14M100A11144

80KTDHMIMN14M100A11144

80TDHMIMN14M100A11144

80BHMIMN14M100A11144

80CBHMIMN14M100A11144

80KBHMIMN14M100A11144

80BHMIMN14M100A11144

80BBHMIMN14M100A11144

80CBBHMIMN14M100A11144

80KBBHMIMN14M100A11144

80BBHMIMN14M100A11144

80DHMIMN14M100A11144

80CDHMIMN14M100A11144

80KDHMIMN14M100A11144

80DHMIMN14M100A11144

80DBHMIMN14M100A11144

80CDBHMIMN14M100A11144

80KDBHMIMN14M100A11144

80DBHMIMN14M100A11144

80BBHMDMN14M100A11144

80CBBHMDMN14M100A11144

80KBBHMDMN14M100A11144

80BBHMDMN14M100A11144

80HHHMDMN14M100A11144

80CHHHMDMN14M100A11144

80KHHHMDMN14M100A11144

80HHHMDMN14M100A11144

80CHMDMN14M100A11144

80CCHMDMN14M100A11144

80KCHMDMN14M100A11144

80CHMDMN14M100A11144

80SBDHMDMN14M100A11144

80CSBDHMDMN14M100A11144

80KSBDHMDMN14M100A11144

80SBDHMDMN14M100A11144

80DDHMDMN14M100A11144

80CDDHMDMN14M100A11144

32KCHMIMZ14M100A11144

6、節約成本：此機去除了液壓油的成本和引起的麻煩，沒有硬管或軟喉，無須對液壓油冷卻，大幅度降低了冷卻水成本等。

㈢.氣壓

優點

1)以空氣為工作介質，工作介質獲得比較容易，用后的空氣排到大氣中，處理方便，與液壓傳動相比不必設置回收的油箱和管道。

2)因空氣的粘度很小(約為液壓油動力粘度的萬分之一)，其損失也很小，所以便于集中供氣、遠距離輸送。外泄漏不會像液壓傳動那樣嚴重污染環境。

3)與液壓傳動相比，氣壓傳動動作迅速、反應快、維護簡單、工作介質清潔，不存在介質變質等問題。

4)工作環境適應性好，特別在易燃、易爆、多塵埃、強磁、輻射、振動等惡劣工作環境中，比液壓、電子、電氣控制優越。

5)成本低，過載能自動保護。

缺點

1)由于空氣具有可壓縮性，因此工作速度穩定性稍差。但采用氣液聯動裝置會得到較滿意的效果。

2)因工作壓力低(一般為0.31.0MPa)，又因結構尺寸不宜過大，總輸出力不宜大于10～40kN。

3)噪聲較大，在高速排氣時要加消聲器。

4)氣動裝置中的氣信號傳遞速度在聲速以內比電子及光速慢，因此，氣動控制系統不宜用于元件級數過多的復雜回路。

㈣.液壓

優點

1)從結構上看，其單位重量的輸出功率和單位尺寸輸出功率在四類傳動方式中是力壓群芳的，有很大的力矩慣量比，在傳遞相同功率的情況下，液壓傳動裝置的體積小、重量輕、慣性小、結構緊湊、布局靈活。

32KCHMIMZ14M100A11144