SMC 氣動(dòng)元件雙聯(lián)氣缸 cylinder  CXSL10-75

雙聯(lián)氣缸CXSM15-15-Z73L是一種常用的氣動(dòng)執(zhí)行元件，也被稱為“雙桿氣缸”或“雙作用氣缸”。它由兩個(gè)氣缸和一個(gè)活塞組成，其中活塞兩端各有一個(gè)桿。當(dāng)氣體進(jìn)入其中一個(gè)氣缸時(shí)，活塞會(huì)沿著氣缸軸向移動(dòng)，同時(shí)推動(dòng)另一個(gè)氣缸內(nèi)的活塞相應(yīng)地運(yùn)動(dòng)。這樣的設(shè)計(jì)允許同時(shí)進(jìn)行雙向運(yùn)動(dòng)，并且在整個(gè)行程中都能保持相同的推力。

雙聯(lián)氣缸CXSM15-15-Z73L通常用于需要控制兩個(gè)工作部位的機(jī)械系統(tǒng)，例如工廠流水線或自動(dòng)化設(shè)備。在這些應(yīng)用中，一個(gè)氣缸可以控制物體的升降或旋轉(zhuǎn)，而另一個(gè)氣缸可以控制物體的移動(dòng)或夾持。因此，使用雙聯(lián)氣缸可以實(shí)現(xiàn)更復(fù)雜的機(jī)械運(yùn)動(dòng)和自動(dòng)化過程。

與其他氣缸不同的是，雙聯(lián)氣缸雙聯(lián)氣缸可以通過使用同步器來確保兩個(gè)桿的同步運(yùn)動(dòng)，從而避免了可能出現(xiàn)的偏差和錯(cuò)誤。此外，雙聯(lián)氣缸也可以選擇使用具有不同直徑的氣缸和桿，以實(shí)現(xiàn)不同的輸出力和速度。之，雙聯(lián)氣缸是一種可靠、高效、靈活的氣動(dòng)執(zhí)行元件，廣泛應(yīng)用于各種機(jī)械系統(tǒng)和自動(dòng)化設(shè)備中。

CXSL10-10 CXSL10-75-Y59AL CXSL15-70-Y69BS CXSL20-75-Y69B CXSL25-75-Y7BW

CXSL10-100-XB11 CXSL10-75-Y59ALS CXSL15-70-Y7BWL CXSL20-75-Y69BL CXSL25-75-Y7NWVL

CXSL10-10-J79L CXSL10-75-Y59AS CXSL15-70-Z73 CXSL20-75-Y69BLS CXSL25-75-Y7P

CXSL10-10R CXSL10-75-Y59B CXSL15-70-Z73L CXSL20-75-Y69BS CXSL25-75-Y7PL

CXSL10-10-R73 CXSL10-75-Y59BL CXSL15-70-Z73LS CXSL20-75-Y7BW CXSL25-75-Z73

CXSL10-10-R73L CXSL10-75-Y59BLS CXSL15-70-Z73S CXSL20-75-Y7BWL CXSL25-75-Z73L

CXSL10-10-R73LS CXSL10-75-Y59BS CXSL15-70-Z73Z CXSL20-75-Y7NWL CXSL25-75-Z73LS

SMC pneumatic components dual cylinder CXSL10-75

The dual cylinder CXSM15-15-Z73L is a commonly used pneumatic actuator, also known as a "double rod cylinder" or "double acting cylinder". It consists of two cylinders and a piston, with a rod at each end of the piston. When gas enters one of the cylinders, the piston will move axially along the cylinder, while pushing the piston in the other cylinder to move accordingly. This design allows for simultaneous bi-directional movement and maintains the same thrust throughout the entire stroke.

The dual cylinder CXSM15-15-Z73L is typically used in mechanical systems that require control of two working parts, such as factory assembly lines or automation equipment. In these applications, one cylinder can control the lifting or rotation of objects, while another cylinder can control the movement or clamping of objects. Therefore, using dual cylinders can achieve more complex mechanical movements and automated processes.