The following hydraulic circuit in Fig. 5 is aimed to brake the hydraulic eylinder in motion....
Part 5 The following hydraulic circuit in Fig. 5 is aimed to brake the hydraulic cylinder in motion. Analyze the control mechanism, especially the use of valve 2, 3, 4, 5 in braking process. (10 points) Fig. 5
Part 5 The following hydraulic circuit in Fig. 5 is aimed to brake the hydraulic cylinder in motion. Analyze the control mechanism, especially the use of valve 2, 3, 4, 5 in braking process. (10 points) Fig. 5
Part 5 The following hydraulic circuit in Fig. 5 is aimed to brake the hydraulic cylinder in motion. Analyze the control mechanism, especially the use of valve 2, 3, 4, 5 in braking process. (10 points) Fig. 5
Part 5 The following hydraulic circuit in Fig. 5 is aimed to brake the hydraulic cylinder in motion. Analyze the control mechanism, especially the use of valve 2, 3, 4, 5 in braking process. (10 points) Fig. 5
Answer the following: (Each Question carries 5 marks) 1. Design a Hydraulic circuit and electrohydraulic circuit for the Scissors Platform Lift. 2. Explain the concept of controlling electrical circuit remotely. 3. Critically explain the working of the crane with respect to the hydraulic circuit drawn. Main boom M Load Booming cylinder Counterbalance valve MB MX Main valve - Reducing valve w Pressure relief valve MA AI Joystick BI K2 T Directional control valve KI Main pump Make-up Check pump valve...
Part 4 Design a 3-stage pressure control hydraulic circuit in which a pilot-operated pressure relief valve is employed, illustrate your design by ploting the hydraulic circuit diagram. (10 points) Note: a 3-stage pressure control circuit is a circuit by which three different pressures can be preset.
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3. Shown is the hydraulic circuit of a load-lifting hydraulic system. The lowering speed is controlled by means of a throttle-check valve. Discuss the construction and operation of this system. Redraw the hydraulic circuit in the load-lowering mode, then calculate the pressure in the cylinder rod side, P the inlet flow rate, Qu outlet flow rate, Q pump flow rateé, Q pump output power, N, and the area of the throttle valve, A, Neglect...
EXAMPLE 16.5 The large window in Fig. 16-10 is opened using a hydraulic cylinder AB. If the cylinder extends at a constant rate of 0.5 m/s, determine the angular velocity and angular acceleration of the window at the instant 0 30° 1 m SOLUTION Position Coordinate Equation. The angular motion of the window can be obtained using the coordinate 0, whereas the extension or motion along the hydraulic cylinder is defined using a coordinate s, which measures its length from...
(4 pts.) 4. The graph of the motion of a bus is shown in fig. 2. Analyze the motion and find the total distance it travels. Practice both methods - geometric and algebraic VA 60+% - - 90 - - is) H 30 45 Gol 75 65 5. A spider at t; = 1.2 s is at a position Xı = 0.14 m and at t2 = 4.4 s it is located at X2 = .30 m a) What is...
Problem 3 (30 points): For the circuit in Fig. 3, te has an RMS value of 9.0 V and a frequency of 60 Hz. Assume that R--20 Ω and that 0.7 V for each diode. C R Figure 3: Circuit for Problem 3 1. Find the maximum value of V.. (10 points) 2. Find the value of C to guarante a ripple voltage of 0.25 V or less. (10 points) 3. For what fraction of the time is the diode...
Problem 3 (30 points): For the circuit in Fig. 3, v, has an RMS value of 9.0 V and a frequency of 60 Hz. Assume that R-20 Ω and that V,-0.7 V for each diode. Vs R o Figure 3: Circuit for Problem 3 (10 points) 1. Find the maximum value of Vo 2. Find the value of C to guarantee a ripple voltage of 0.25 V or less. (10 points) 3. For what fraction of the time is the...
power from the circuit (10 points)? Calculate that power (5 points)? Fig. 4a P5. (15 points) For the op amp circuit in Fig. 5a, find the voltage gain volvs. Assume that the op amp is ideal. 2 Fig. 5a 0 2 of 2