This tie rod hydraulic cylinder is adept at handling heavy-duty applications, providing reliable and precise movement in various industrial settings. Engineered with robust tie rods, it ensures structural integrity and durability.
Specification
Model |
ATO-MOB-32150 |
ATO-MOB-40150 |
ATO-MOB-50150 |
ATO-MOB-63150 |
ATO-MOB-80150 |
ATO-MOB-100150 |
Acting Type |
Double Acting |
Stroke |
6 inch (150mm) |
Bore Diameter |
φ32mm |
φ40mm |
φ50mm |
φ63mm |
φ80mm |
φ100mm |
Piston Rod Diameter |
16mm |
20mm |
20mm |
25mm |
32mm |
40mm |
Action Direction |
Push |
Pull |
Push |
Pull |
Push |
Pull |
Push |
Pull |
Push |
Pull |
Push |
Pull |
Pressure Area (cm2) |
8.03 |
6.03 |
12.56 |
9.42 |
19.62 |
16.48 |
31.16 |
26.25 |
50.24 |
42.20 |
78.50 |
65.94 |
Working Pressure (70kg/cm2) |
562 |
422 |
880 |
660 |
1373 |
1150 |
2180 |
1635 |
3516 |
2954 |
5495 |
4616 |
Note: If you need to customize tie rod hydraulic cylinders of other sizes, including bore diameter, stroke, etc., please feel free to contact us.
Dimension (Unit: mm)
Bore Diameter |
ΦA |
ΦB |
C |
□D |
□DE |
E |
F |
G |
N |
I |
J |
K |
S |
Z |
PT |
Φ32 |
35 |
16 |
M14*1.5 |
52 |
36 |
28 |
10 |
15 |
25 |
53 |
100 |
M8 |
50 |
153 |
ZG1/4 |
Φ40 |
38 |
20 |
M16*1.5 |
64 |
45 |
28 |
17 |
20 |
30 |
65 |
110 |
M8 |
50 |
175 |
ZG3/8 |
Φ50 |
43 |
20 |
M16*1.5 |
70 |
52 |
28 |
17 |
20 |
30 |
65 |
110 |
M10 |
50 |
175 |
ZG3/8 |
Φ63 |
53 |
25 |
M22*1.5 |
87 |
60 |
40 |
20 |
30 |
31 |
90 |
112 |
M10 |
50 |
202 |
ZG3/8 |
Φ80 |
60 |
30 |
M26*1.5 |
106 |
74 |
40 |
20 |
32 |
37 |
92 |
129 |
M12 |
55 |
221 |
ZG1/2 |
Φ100 |
75 |
40 |
M30*1.5 |
121 |
89 |
45 |
20 |
32 |
37 |
97 |
154 |
M14 |
80 |
251 |
ZG1/2 |
Tips: What causes a hydraulic cylinder rod to break?
A hydraulic cylinder rod can break due to various reasons, primarily stemming from excessive stress or wear. Overloading the cylinder beyond its rated capacity can lead to mechanical failure, causing the rod to fracture. Abrupt pressure changes, sudden impacts, or severe shocks can also contribute to rod breakage. Inadequate lubrication and maintenance may lead to increased friction and wear, weakening the rod over time. Corrosion, often accelerated by a harsh operating environment or insufficient protection, can compromise the structural integrity of the rod. Additionally, manufacturing defects or material flaws can play a role in premature failure. Regular inspection, proper maintenance, and adherence to load and pressure limits are essential to prevent hydraulic cylinder rod breakage and ensure reliable performance.