Release time:2023-11-21 09:56:03 Hits: Current position: Home > News
This article mainly introduces:
Italy hydraulic cylinder,tilting furnace hydraulic cylinder manufacturer,tilting furnace hydraulic cylinder(Italy tilting furnace hydraulic cylinder,produced by Hebei Hengyu company)
tilting furnace hydraulic cylinder are widely used in Italy,because of simple structure and reliable operation,excellent temperature resistance,no transmission clearance.So our company has designed tilting furnace hydraulic cylinder for customers from Italy.
Factors that should be considered when selecting the oil seal in the tilting furnace hydraulic cylinder: some specific factors should be taken into account when selecting the oil seal in the tilting furnace hydraulic cylinder, so as to have correct consideration and get accurate results, and then avoid wrong selection. The factors and aspects that should be taken into account are eight: tilting furnace hydraulic cylinder diameter, piston rod diameter, piston rod and piston groove size, tilting furnace hydraulic cylinder working pressure, tilting furnace hydraulic cylinder movement speed, hydraulic system oil temperature and tilting furnace hydraulic cylinder working environment.
The difference between the integral tilting furnace hydraulic cylinder and the split tilting furnace hydraulic cylinder: The integral tilting furnace hydraulic cylinder and the split tilting furnace hydraulic cylinder in the tilting furnace hydraulic cylinder are two different tilting furnace hydraulic cylinders, and they are very different. The whole tilting furnace hydraulic cylinder, which is cast in one body, is not prone to problems such as oil leakage; The split tilting furnace hydraulic cylinder is welded twice, so if it is not handled well at the welding, it is prone to problems such as oil leakage and tilting furnace hydraulic cylinder damage. Therefore, it is obvious that the answer to this question is for difference.
tilting furnace hydraulic cylinder installation precautions: Before installing the tilting furnace hydraulic cylinder into the system, the parameters on the tilting furnace hydraulic cylinder label should be compared with the parameters when ordering. The base of the tilting furnace hydraulic cylinder must have sufficient stiffness, otherwise the tilting furnace hydraulic cylinder will bend upward into a bow when pressurized, so that the piston rod will bend.
The cavitation of the tilting furnace hydraulic cylinder has a great influence, and to avoid it, it is necessary to use the hydraulic oil reasonably and ensure the quality of the hydraulic oil. If the anti-foam property of the oil is poor, it is easy to produce foam, resulting in cavitation. Secondly, the change frequency of oil pressure is too fast and too high, which will also directly cause the formation of bubbles and accelerate the rupture rate of bubbles. The test shows that the speed of cavitation will be accelerated in the part with high frequency of pressure change. For example, at the inlet and outlet of the tilting furnace hydraulic cylinder, due to the relatively high frequency of pressure changes, the degree of cavitation is also relatively higher than that of other parts. In addition, overheating of the oil will also increase the probability of cavitation.
How to calculate cylinder speed?
If there is a throttle valve, the cylinder speed will be adjustable. When the throttle is fully opened, the speed of the cylinder reaches the maximum: maximum speed = oil pump displacement ÷ cylinder cavity cross-sectional area The displacement of the oil pump is a main indicator, which can be found on the nameplate, and some can also be known by the oil pump model; The cross-sectional area of the cylinder cavity can be easily calculated. Just make sure the units are the same. And because the cross-sectional area of the rod cavity and the rodless cavity of the cylinder is different, the speed of advance and retreat may also be different.
How does the clamping cylinder work?
Hydraulic transmission principle: oil as the working medium, through the change of the sealing volume to transfer movement, through the internal pressure of the oil to transfer power. 1. The power part - converts the mechanical energy of the prime mover into the pressure energy of the oil (hydraulic energy). For example: hydraulic pump. 2, The executive part - the hydraulic pump input oil pressure energy into the mechanical energy to drive the working mechanism. For example: hydraulic cylinder, hydraulic motor. 3, The control part - used to control and adjust the oil pressure, flow and flow direction. For example: pressure control valve, flow control valve and direction control valve. 4, The auxiliary part - the first three parts are connected together to form a system, which plays the role of oil storage, filtration, measurement and sealing.