Release time:2023-11-09 08:46:04 Hits: Current position: Home > News
This article mainly introduces:
Kenya hydraulic cylinder,punch machine hydraulic cylinder manufacturer,punch machine hydraulic cylinder(Kenya punch machine hydraulic cylinder,produced by Hengyu Hydraulic Cylinder Factory)
punch machine hydraulic cylinder are widely used in Kenya,because of smooth movement,high work efficiency,excellent fatigue and impact resistance.So our company has designed punch machine hydraulic cylinder for customers from Kenya.
In the case of serious wear on the inner surface of the punch machine hydraulic cylinder, or when there is a deep longitudinal tensile mark, it should be mapped according to the physical object and re-produced by the professional manufacturer according to the punch machine hydraulic cylinder manufacturing process for replacement. The punch machine hydraulic cylinder can also be repaired with TS311 antiwear repair agent. TS311 anti-wear repair agent is mainly used for the repair of worn and slipped metal parts.
Under normal circumstances, the punch machine hydraulic cylinder is composed of the rear end cover, body, piston, piston rod and front end cover and other main parts. In order to prevent the working medium from leaking out of the punch machine hydraulic cylinder or from the high pressure chamber to the low pressure chamber, a sealing device (sealing ring) is arranged between the punch machine hydraulic cylinder and the end cover, the piston and the piston rod, the piston and the punch machine hydraulic cylinder, the piston rod and the front end cover. A dustproof device is also provided on the outside of the front end cover. In order to prevent the piston from impacting the end cap when it moves rapidly to the end of the stroke, the end of the punch machine hydraulic cylinder can also be provided with a buffer device. If necessary, the exhaust device should be set in order to exhaust.
The scar on the sliding surface of the punch machine hydraulic cylinder piston will transfer with use. Before the piston is installed, there are scars on its sliding surface, which are installed intact and untreated, and these scars will in turn scratch the inner surface of the punch machine hydraulic cylinder wall. Therefore, before installation, these scars must be fully repaired.
The punch machine hydraulic cylinder is not the same as the punch machine hydraulic cylinder, because the pressure of the pneumatic system is generally within the range of 0.2-1.0Mpa, the punch machine hydraulic cylinder can not be used as a high-power power component, but the punch machine hydraulic cylinder can be used as a relatively large power component, or the punch machine hydraulic cylinder system can be used.
How to achieve hydraulic cylinder self-locking?
Hydraulic cylinder self-locking is divided into oil self-locking and mechanical self-locking. The oil self-locking is equipped with a valve to maintain pressure, so that the hydraulic oil of the cylinder does not return to the tank, and the oil chamber of the cylinder is filled with a certain pressure of oil. However, this pressure holding self-locking is not very safe and reliable, and the plunger will slowly return if there is a leak. Mechanical self-locking is to install a nut on the plunger of the cylinder, and when the cylinder rises to the required position, the nut on the cylinder plunger is rotated to the end, and the cylinder block is in contact, so that the plunger will be fixed to the required height. When it is necessary to relieve the pressure, screw the nut on again and let the plunger return to the position. This kind of cylinder has a special name, called self-locking hydraulic cylinder.
How to calculate the tonnage of the hydraulic press without konowing the diameter of the cylinder?
To know the tonnage of the hydraulic cylinder, you first need to know the working pressure of the hydraulic system, the inner diameter of the hydraulic cylinder and the outer diameter of the cylinder rod (the outer diameter of the cylinder rod is needed when calculating the hydraulic cylinder tension). The thrust of the hydraulic cylinder (that is, the force that the hydraulic cylinder can produce by extending out) = the cross-sectional area of the hydraulic cylinder (or the cross-sectional area of the piston) × the working pressure of the cylinder (the cross-sectional area of the piston) =pi*D^2/4= PI (take 3.14) × the square of the cross-sectional area of the piston ÷4 working pressure to see the pressure displayed on the pressure gauge when the maximum load is working.