Stroke Length of Axial Piston Pump Calculator

✖Pitch Circle Diameter of Bore is the diameter of the bore of a piston pump.ⓘ Pitch Circle Diameter of Bore [d_b]			+10% -10%
✖Swash plate inclination is the inclination of the swash plate with axis of cylinder.ⓘ Swash Plate Inclination [θ]			+10% -10%

✖Stroke Length of Piston Pump is how far the piston travels within a cylinder.ⓘ Stroke Length of Axial Piston Pump [L_s]

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Formula

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Stroke Length of Axial Piston Pump

Formula

`"L"_{"s"} = "d"_{"b"}*tan("θ")`

Example

`"0.199957m"="0.1m"*tan("63.43°")`

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Stroke Length of Axial Piston Pump Solution

STEP 0: Pre-Calculation Summary

Formula Used

Stroke Length of Piston Pump = Pitch Circle Diameter of Bore*tan(Swash Plate Inclination)
L_s = d_b*tan(θ)
This formula uses 1 Functions, 3 Variables

Functions Used

tan - The tangent of an angle is a trigonometric ratio of the length of the side opposite an angle to the length of the side adjacent to an angle in a right triangle., tan(Angle)

Variables Used

Stroke Length of Piston Pump - (Measured in Meter) - Stroke Length of Piston Pump is how far the piston travels within a cylinder.
Pitch Circle Diameter of Bore - (Measured in Meter) - Pitch Circle Diameter of Bore is the diameter of the bore of a piston pump.
Swash Plate Inclination - (Measured in Radian) - Swash plate inclination is the inclination of the swash plate with axis of cylinder.

STEP 1: Convert Input(s) to Base Unit

Pitch Circle Diameter of Bore: 0.1 Meter --> 0.1 Meter No Conversion Required
Swash Plate Inclination: 63.43 Degree --> 1.1070623445398 Radian (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

L_s = d_b*tan(θ) --> 0.1*tan(1.1070623445398)

Evaluating ... ...

L_s = 0.199956820831798

STEP 3: Convert Result to Output's Unit

0.199956820831798 Meter --> No Conversion Required

FINAL ANSWER

0.199956820831798 ≈ 0.199957 Meter <-- Stroke Length of Piston Pump

(Calculation completed in 00.004 seconds)

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Created by Sagar S Kulkarni

Dayananda Sagar College of Engineering (DSCE), Bengaluru

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Institute of Aeronautical Engineering (IARE), Hyderabad

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< 19 Piston Pumps Calculators

Efficiency of Jet Pump

Go Efficiency of Jet Pump = (Discharge through Suction Pipe*(Suction Head+Delivery Head))/(Discharge through Nozzle*(Pressure Head on Delivery Side-Delivery Head))

Angle of Swash Plate Inclination given Volumetric Displacement

Go Swash Plate Inclination = atan(Theoretical Volumetric Displacement in Piston Pump/(Number of Pistons*Area of Piston*Pitch Circle Diameter of Bore))

Theoretical Volumetric Displacement given Bore Diameter and Swash Plate Inclination

Go Theoretical Volumetric Displacement in Piston Pump = Number of Pistons*Area of Piston*Pitch Circle Diameter of Bore*tan(Swash Plate Inclination)

Tan of Angle of Swash Plate Inclination given Volumetric Displacement

Go Tan of Angle of Inclination = Theoretical Volumetric Displacement in Piston Pump/(Number of Pistons*Area of Piston*Pitch Circle Diameter of Bore)

Piston Pump Constant K

Go Piston Pump Constant = (pi*Number of Pistons*Piston Diameter^2*Pitch Circle Diameter of Bore)/4

Stroke Length of Piston Pump given Volumetric Displacement

Go Stroke Length of Piston Pump = Theoretical Volumetric Displacement in Piston Pump/(Number of Pistons*Area of Piston)

Area of Piston Pump given Volumetric Displacement

Go Area of Piston = Theoretical Volumetric Displacement in Piston Pump/(Number of Pistons*Stroke Length of Piston Pump)

Theoretical Volumetric Displacement given Area of Piston and Stroke Length

Go Theoretical Volumetric Displacement in Piston Pump = Number of Pistons*Area of Piston*Stroke Length of Piston Pump

Theoretical Power of Piston Pump

Go Theoretical Power for Piston Pump = 2*pi*Angular Speed of Driving Member in Piston Pump*Theoretical Torque

Theoretical Discharge given Angular Speed of Driving Member of Hydraulic Pump

Go Theoretical Discharge of Pump = Theoretical Volumetric Displacement in Piston Pump*Angular Speed of Driving Member in Piston Pump

Swash Plate Inclination with Axis of Cylinder

Go Swash Plate Inclination = atan(Stroke Length of Piston Pump/Pitch Circle Diameter of Bore)

Stroke Length of Axial Piston Pump

Go Stroke Length of Piston Pump = Pitch Circle Diameter of Bore*tan(Swash Plate Inclination)

Actual Torque Developed in Piston Pumps

Go Actual Torque = (60*Input Power)/(2*pi*Angular Speed of Driving Member in Piston Pump)

Volumetric Efficiency of Pump given Actual and Theoretical Discharge of Pump

Go Volumetric Efficiency of Piston Pump = Actual Discharge of Pump/Theoretical Discharge of Pump

Tan of Angle of Inclination of Swash Plate

Go Tan of Angle of Inclination = Stroke Length of Piston Pump/Pitch Circle Diameter of Bore

Overall Efficiency of Piston Pump

Go Overall Efficiency = Mechanical Efficiency*Volumetric Efficiency of Piston Pump

Overall Efficiency given Actual and Theoretical Discharge

Go Overall Efficiency = Actual Discharge of Pump/Theoretical Discharge of Pump

Mechanical Efficiency given Theoretical and Actual Power Delivered

Go Mechanical Efficiency = Theoretical Power Delivered/Actual Power Delivered

Mechanical Efficiency given Theoretical and Actual Torque

Go Mechanical Efficiency = Theoretical Torque/Actual Torque

Stroke Length of Axial Piston Pump Formula

Stroke Length of Piston Pump = Pitch Circle Diameter of Bore*tan(Swash Plate Inclination)
L_s = d_b*tan(θ)

What are the two major types of piston pumps?

The two major types of piston pumps are: 1. Axial piston pumps and 2. Radial piston pumps. This classification is based on their orientation.

How to Calculate Stroke Length of Axial Piston Pump?

Stroke Length of Axial Piston Pump calculator uses Stroke Length of Piston Pump = Pitch Circle Diameter of Bore*tan(Swash Plate Inclination) to calculate the Stroke Length of Piston Pump, Stroke Length of Axial Piston Pump refers to the distance traveled by each individual piston in a single stroke or cycle of the pump. It is a critical parameter that determines the volume of fluid displaced by each piston during its motion. Stroke Length of Piston Pump is denoted by L_s symbol.

How to calculate Stroke Length of Axial Piston Pump using this online calculator? To use this online calculator for Stroke Length of Axial Piston Pump, enter Pitch Circle Diameter of Bore (d_b) & Swash Plate Inclination (θ) and hit the calculate button. Here is how the Stroke Length of Axial Piston Pump calculation can be explained with given input values -> 0.373205 = 0.1*tan(1.1070623445398).

FAQ

What is Stroke Length of Axial Piston Pump?

Stroke Length of Axial Piston Pump refers to the distance traveled by each individual piston in a single stroke or cycle of the pump. It is a critical parameter that determines the volume of fluid displaced by each piston during its motion and is represented as L_s = d_b*tan(θ) or Stroke Length of Piston Pump = Pitch Circle Diameter of Bore*tan(Swash Plate Inclination). Pitch Circle Diameter of Bore is the diameter of the bore of a piston pump & Swash plate inclination is the inclination of the swash plate with axis of cylinder.

How to calculate Stroke Length of Axial Piston Pump?

Stroke Length of Axial Piston Pump refers to the distance traveled by each individual piston in a single stroke or cycle of the pump. It is a critical parameter that determines the volume of fluid displaced by each piston during its motion is calculated using Stroke Length of Piston Pump = Pitch Circle Diameter of Bore*tan(Swash Plate Inclination). To calculate Stroke Length of Axial Piston Pump, you need Pitch Circle Diameter of Bore (d_b) & Swash Plate Inclination (θ). With our tool, you need to enter the respective value for Pitch Circle Diameter of Bore & Swash Plate Inclination and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Stroke Length of Piston Pump?

In this formula, Stroke Length of Piston Pump uses Pitch Circle Diameter of Bore & Swash Plate Inclination. We can use 1 other way(s) to calculate the same, which is/are as follows -

Stroke Length of Piston Pump = Theoretical Volumetric Displacement in Piston Pump/(Number of Pistons*Area of Piston)

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