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The first step is to determine the output pressure of the pump.
Thrust = cylinder cross-sectional area * oil pressure.
If an axial piston pump with an output pressure of 25 MPa is selected, the bore is:
r=under the root number (160000 meters.)
Optional bore 100 mm (bore can only be selected from the standard series) If an axial piston pump with an output pressure of MPa is selected, the bore is:
r=under the root number (160000 meters.)
Optional bore 80 mm.
The flow rate of the pump should be selected according to the piston speed you need. The flow series of axial piston pumps with small flow rates are:
10 ml, 25 ml, 40 ml, etc. per revolution.
If you choose a pumping station with a flow rate of 25 ml per revolution and a pressure of 25 megapascals, the recommended cylinder parameters are:
Working pressure: stroke: 650mm
Fixed form: rear flange (front flange, four tie rods, middle hinge.
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It is good to use the motor with a 125*650mm cylinder!!
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1MPa = 10 kgf square centimeter, 160mm = 16cm, so the shirt guess has:
315 kgf square centimeter) * (256 * square centimeter) = kilogram force = 63 tons.
That is, the pressure of the orange chop is about 63 tons.
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Summary. Hello, I have helped you find the result; Whether the cylinder with a 3kw motor can meet your needs needs need to understand your specific application scenarios and job requirements, here are some general suggestions: Determine the cylinder size:
Depending on the workload and stroke length, select the appropriate cylinder diameter and rod size. Calculate the maximum working pressure of the cylinder: Calculate the maximum working pressure required based on the maximum thrust required and the area of the selected cylinder.
It should be noted that depending on the application, it may be necessary to add some spare pressure and ensure that the selected cylinder can meet the maximum working pressure requirements. Choose the right seals and materials: Using the right seals can help extend the life of your cylinder.
Choosing the right seal material ensures that they perform well in the working environment, can withstand the required temperatures and pressures, and prevent leaks. Choose the right motor: Calculate the required motor power based on the cylinder workload, and the motor should generally have enough power to ensure that the cylinder provides enough thrust.
Proper installation and maintenance: The installation and maintenance of the cylinder is the key to ensuring its proper operation and prolonging its service life. Proper installation and maintenance in accordance with the operating instructions, regular inspection and replacement of seals, oils, and filter elements, etc. are required.
It should be noted that before planning and designing a hydraulic system, it is recommended that you consult a professional hydraulic equipment manufacturer or technician to obtain specific recommendations for your application scenario.
Are you there. Hello, I have helped you find the result; Whether the cylinder with a 3kw motor can meet your needs needs need to understand your specific application scenarios and job requirements, here are some general suggestions: Determine the cylinder size:
Depending on the workload and stroke length, select the appropriate cylinder diameter and rod size. Calculate the maximum working pressure of the cylinder: Calculate the maximum working pressure required based on the maximum thrust required and the area of the selected cylinder.
It should be noted that depending on the application, it may be necessary to add some spare pressure and ensure that the selected cylinder can meet the maximum working pressure requirements. Choose the right seals and materials: Using the right seals can help extend the life of your cylinders.
Choosing the right seal materials ensures that they perform well in the working environment, can withstand the required temperatures and pressures, and prevent leaks. Choose the right motor: Calculate the required motor power based on the cylinder workload, and the motor should generally have enough power to ensure that the cylinder provides enough thrust.
Proper installation and maintenance: The installation and maintenance of the cylinder is the key to ensuring its proper operation and prolonging its service life. Proper installation and maintenance in accordance with the operating instructions, regular inspection and replacement of seals, oils, and filter elements, etc. are required.
It should be noted that before planning and designing the hydraulic system, it is recommended that you consult a professional hydraulic equipment supplier or technician to obtain specific advice for your application scenario.
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Hello, according to the information you provided, the 80 ton cylinder uses a 3kw motor, which needs to meet the requirements of the hydraulic station. First of all, the diameter and stroke of the cylinder need to be determined in order to calculate the required cylinder thrust. Then, based on the cylinder thrust and working pressure, the required cylinder area is calculated.
Finally, according to the area and stroke of the cylinder, choose the appropriate cylinder model. When choosing a cylinder, you need to pay attention to whether the rated working pressure and maximum working pressure of the cylinder meet the requirements of the hydraulic station, and also consider the quality and reliability of the cylinder. In addition, the matching of the cylinder and the motor also needs to pay attention to whether the rated power and speed of the motor are suitable for the working requirements of the cylinder.
In addition to the choice of cylinders and motors, it is also necessary to pay attention to the design and installation of the hydraulic system. The hydraulic system of the rubber section needs to be designed and manufactured in accordance with the standard to ensure the stability and safety of the system. During the installation process, it is also necessary to pay attention to the layout of the pipeline and the dense beam seal of the pipeline to ensure the normal operation of the system.
In addition, the maintenance of the hydraulic system is also very important. Regular inspection and maintenance of the system, timely detection and problem solving, can extend the service life of the system, improve the reliability and safety of the system. In short, choosing the right cylinder and motor, designing and making a stable and reliable hydraulic system, and carrying out regular maintenance and inspection can meet your requirements.
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Summary. To determine whether the cylinder is suitable for 3kw motors and hydraulic stations, it is necessary to understand the design parameters of the cylinder, including: rated working pressure, nominal diameter, piston rod diameter, effective stroke, cylinder volume, etc.
At the same time, it is also necessary to understand the rated power, speed, voltage, current and other parameters of the motor. Generally speaking, the rated working pressure of the cylinder should be higher than the maximum pressure of the hydraulic station to ensure safety and reliability. If the rated working pressure of the 80 ton cylinder is higher, it can be considered.
In addition, it is necessary to calculate the maximum flow rate required by the cylinder according to the rated power of the motor and select the corresponding flow control valve. It is recommended that you consult a hydraulic technical professional to ensure that your cylinders are compatible with the hydraulic station, and at the same time meet the actual use requirements to avoid potential safety hazards.
To determine whether the cylinder is suitable for 3kw motors and hydraulic stations, it is necessary to understand the design parameters of the cylinder, including: rated working beam pressure, nominal diameter, piston rod diameter, effective stroke, cylinder volume, etc. At the same time, it is also necessary to understand the rated power, speed, voltage, current and other parameters of the motor.
Generally speaking, the rated working pressure of the cylinder should be higher than the maximum pressure of the hydraulic station to ensure safety and reliability. If the rated spike working pressure of the 80 ton cylinder is higher, it can be considered. In addition, it is necessary to calculate the maximum flow rate required by the cylinder according to the rated power of the motor and select the corresponding flow control valve.
It is recommended that you consult a hydraulic technical professional to ensure that your cylinders are compatible with the hydraulic station, and at the same time meet the actual use requirements to avoid potential safety hazards.
To use an 80 ton cylinder with a 3kw motor and a hydraulic dry swimming station, it needs to be designed according to the hydraulic requirements. First of all, the rated working pressure of the oil cylinder should be higher than the maximum pressure of the hydraulic station to ensure safety and reliability. Secondly, the diameter of the piston rod of the cylinder should be determined according to the force it is subjected to to avoid deformation or breakage.
In addition, the effective stroke and volume of the cylinder also need to be designed according to the actual needs. Finally, it is also necessary to calculate the maximum flow rate required by the cylinder according to the rated power of the motor and select the corresponding flow control valve. In short, ensure that the cylinder matches the hydraulic station to meet the actual use requirements and avoid potential safety hazards.
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Summary. When the pressure of the 400mm cylinder is set to 30MP, the pressure is tons and the force is 377 tons.
When the pressure of a 400mm cylinder is set to 30MP, the pressure is tons.
When the pressure of the 400mm cylinder is set to 30MP, the pressure is tons and the force is 377 tons.
The formula for calculating the force is as follows, pi()*400 2 4*30 10 1000.
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According to the engineering calculation formula: the working time of the hydraulic cylinder is delayed = the effective volume of the hydraulic cylinder The displacement of the oil pump can be obtained: 1
The effective volume of the hydraulic cylinder = inner diameter 2) stroke = 63 2) = milliliter 2Oil pump displacement = 16 ml seconds Therefore, the working time of the hydraulic cylinder = 16 seconds Therefore, under the given conditions, the hydraulic cylinder needs about a second of time to complete the work task with a stroke of meters.
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Summary. Kiss! Hello, the power of the hydraulic system working is the power * speed, i.e.:
p= f v, known, the movement speed of the hydraulic cylinder v = , the output pressure of the hydraulic pump f =; It can be obtained that the electrical energy required for the hydraulic pump to work for B minutes is: p = f v t, that is: p = mpa 60s = j
The output pressure of the pump is; The good width of the two hydraulic cylinders is the speed of movement + is: the hydraulic pump works for one minute, and it needs more socks and less electrical energy to drive.
Kiss! Hello, the power of the hydraulic system is the dynamic force * speed, that is: p= f v, the vertical draft is known, the movement speed of the hydraulic cylinder v = , the output pressure of the hydraulic pump f =; From this, it can be obtained that the electrical energy required for the hydraulic pump to work in one minute is:
Yu Xiao p=f v t, i.e.: p = mpa 60s = j
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Two 80 cylinders have a load of 10 tons and a speed of 3 meters, so how big the oil pump needs to be.
I am glad to answer for you with 9 or 10 more suitable, the thrust is about 6 tons, the single-cylinder pushes the good force of about tons, a megapascal low-pressure oil pump, according to the speed to select the flow, the hydraulic cylinder core starts 80 * 30 * 1200 - 10, for reference only, the single-cylinder thrust is changed to a finch if you want five tons, a total of two cylinders Hello, I am happy to answer for you You can choose 5 tons of single cylinder DPQ-60KN
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