Vicks Servo System for Injetion Moulding Machine Servo Oil Pump
Injection Molding Machine Hydraulic System
Structure of Hydraulic Servo System
After getting the pressure and flow command from the injection molding machine, it performs PID calculation with actual pressure and speed feedback to drive the servo motor and hydraulic pump with a fast response time and high repeat accuracy.
Features of Hydraulic Energy System ( Five features)
Main power consumption of traditional injection molding machine
When using a hydrualic system, the power consumption is more than 75% of the whole injection system. Different pressures and flows are required during the process, including mold closing, injection, holding pressure and mold openin. When the flow and pressure requirements exceed the settings, the relief or proportional valve will be adjusted, resulting in a 40%-75% higher power consumption.
Top Five Advantages
How to select the right Hybrid Energy System
(1) Motor Power Selection
● Required torque (Nm) T= q. ∆ p
● Output power (kw) P=2π·T·n = T · n = Q·∆ p
60,000 9550 60·πη
q: cc/rev Displacement (cm3) n: Rotation speed ∆ p: Valid pressure difference (Mpa)
Q: Required flow L/min ηm: Pump mechanical efficiency ηt: Pump total efficiency
(2) Solution for Signal Interference
When the drive is installed at the control panel, protection for the signal interference are:
● The wirings of main circuit and control circuit must be separate.
● Proper grounding when necessary
● Use shielding cable for the control circuit
● Use shielding wire for the main circuit wiring
(3) How to Choose a Suitable Hybrid Servo Drive and Motor
In actual applications, the selection of hybrid servo drive and motor wikl be different due to different oil systems.
In the following examples a flow rate of 64L/min and a max. Holding pressure of 17.5 Mpa are used.
● Displacement of Hydraulic Pumps: get the displacement of hydraulic pump (cc/rev) from max. System flow (L/min)
Example: Assume that max. system flow is 64L/min. and max. motor speed is 2000rpm. The displacement of hydraulic pump will be 64/2000*1000=32cc/rev
● Max. motor torque: get the max. torque from max. pressure and the displacement of hydraulic pump
Example: Assume that the max. pressure is 17.5 Mpa and the displacement of hydraulic pump is 32cc/rev. The torque will be 17.5*32*1.3/(2p)=116Nm ( the factor is for 1.3 for compensation of total system losses and it can be changed to 1.2 to 1.3 as required )
● Rated motor torque and rated motor power: The required torque for the holding pressure at the max. pressure should be double of the rated motor torque or less ( use the data provided from the motor plant as the first priority ). Because the motor temperature operated under this situation is easily over temperature. Assume that we choose the double of the rated torque, the motor cab be 9.1kW* with the rated speed 1500rpm when the rated motor torque is 58N-m.
*Motor Power Formula: P(W)=T(N-m)Xw (rpmX2π/ 60)
● Max. Motor Current:
If getting the coefficient kt (Torque/A)=3.31 in the motor specification, max. current is about 115/3.31=35A when the max. Torque is 116N-m.
● Select the Right Drive: Please choose the right drive by the customers’ requirement. Assume that the ability of drive’s overload is 150% for 60 seconds and 200% for 3 seconds. When the holding pressure is at max. pressure 17.5 Mpa with 32cc/rev hydraulic pump, the motor current it requires is 35A.
Note If there is no suitable motor, please use the next higher power motor.
Please contact Delta if you have any questions about hybrid servo drive or integration with your current system.