Difference between revisions of "DIY-MedTech Dronen fliegen - Team Dagobert"

From Hackteria Wiki
Jump to: navigation, search
(Propeller Pitch)
Line 1: Line 1:
=== A crash course into multicopters (or drones) ===
+
== Construction ==
 
 
(Work in progress)
 
 
 
Since recently, flying a drone has become easily accessed to more people. Outside the military purposes, drones can be used as art installations ([https://veritystudios.com/work Verity]), aerial imaging/surveying ([https://wingtra.com/ Wingtra]) or lightweight transport systems (such as [https://www.amazon.com/Amazon-Prime-Air/b?ie=UTF8&node=8037720011 Amazon Prime Air]). Recently, drones has started to find its purpose in medical field, mainly to deliver blood packages between hospitals in rural areas (such as ([https://flyzipline.com/ Zipline] in Africa or [https://www.post.ch/en/about-us/company/innovation/swiss-post-s-innovations-for-you/drones] Swiss Post drone).
 
 
 
== Definition ==
 
 
 
Drones often come in two forms: fixed-wing aircraft and aircraft with rotor (helicopter or multicopter).
 
==== Comparison of Rotor and Fixed Wing ====
 
 
 
Multi-rotor drones are made of a central body and multiple rotors that power propellers to take flight and maneuver the aircraft. These usually have four rotors (quadcopter), but can have from two to six or eight rotors (resp. bicopter, hexacopter, octacopter). Once in the air, a multi-rotor drone uses fixed-pitch propeller blades to control the vehicle motion by varying the relative speed of each rotor to change the thrust and torque produced, allowing a unique range of movement.
 
 
 
Fixed wing drones are designed like more traditional types of aircraft — which look similar to an airplane. They are made of a central body that has two wings and a single propeller. Once in the air, the two wings generate lift that compensates for its weight — allowing the aircraft to remain in flight.
 
 
 
{| class="wikitable" border="1"
 
|-
 
!
 
! Multicopter
 
! Fixed wing
 
|-
 
| Pro
 
|
 
* Greater maneuverability
 
* Lower price
 
* More compact
 
* Ease-of-use
 
* Higher payload capacity
 
|
 
* Significant range
 
* Greater stability
 
* Safer recovery from power loss
 
* Linear flight advantage
 
|-
 
| Con
 
|
 
* Shorter range
 
* Less stable in the wind
 
|
 
* Larger takeoff/landing zone required
 
* Higher price
 
* Challenging to fly
 
* Less compact
 
* Less efficient for area mapping
 
|}
 
 
 
For this [[Medizintechnik DIY#Skill Share Sessions]], multicopters are placed in focus.
 
  
== Construction ==
+
The main mechanical components needed for construction are the propellers (either fixed-pitch or variable-pitch), the frame and the electric motors.
  
 
=== Rotor/Propeller ===
 
=== Rotor/Propeller ===
Line 55: Line 9:
 
[[File:Figure-1-Prop-Rotation.png|600px]]
 
[[File:Figure-1-Prop-Rotation.png|600px]]
  
==== Propeller Pitch ====
+
===== Propeller Pitch =====
  
 
The propeller pitch is a measurement of how far that a propeller will move through the air for every single rotation of the motor/propeller. This is only a theoretical approximation since real world factors such as prop material, air density, and efficiency can influence this distance. However, the pitch is a good measurement that will help you better understand your propeller performance.
 
The propeller pitch is a measurement of how far that a propeller will move through the air for every single rotation of the motor/propeller. This is only a theoretical approximation since real world factors such as prop material, air density, and efficiency can influence this distance. However, the pitch is a good measurement that will help you better understand your propeller performance.
Line 63: Line 17:
 
[[File:Figure-2-Pitch.gif|600px]]
 
[[File:Figure-2-Pitch.gif|600px]]
  
==== Propeller Size ====
+
===== Propeller Size =====
  
 
The size of the propeller is the distance from tip to tip. Longer propellers can generate more thrust at the same speed, but requires more torque from the motor to turn the prop. A larger propeller size does not mean that you will be able to fly faster.  
 
The size of the propeller is the distance from tip to tip. Longer propellers can generate more thrust at the same speed, but requires more torque from the motor to turn the prop. A larger propeller size does not mean that you will be able to fly faster.  
Line 75: Line 29:
 
Drone-Frames-2.jpg|Rectangle Frame
 
Drone-Frames-2.jpg|Rectangle Frame
 
</gallery>
 
</gallery>
 +
 +
===== Number of propeller blades =====
 +
 +
Two bladed propellers are more efficient at producing thrust as opposed to four or three bladed propellers so long as the propeller tips do not reach supersonic speeds. Adding blades increases the amount of thrust that is generated, but at the cost of efficiency.
 +
 +
[[File:Figure-5-Number-of-Blades.jpg|600px]]
 +
 +
==== Motor ====
 +
 +
To determine the drone motor size for the drone, there are two parameters that must be taken into consideration
 +
 +
* Total weight
 +
* Frame size
 +
 +
===== Thrust to Weight Ratio =====
 +
 +
The thrust to weight ration (as known as TWR) is the main characteristic that will determine the drone flight profile. Understandably, to maintain steady flight or hover in the air, TWR should be 1. To take off, TWR needs to be greater than 1

Revision as of 11:01, 13 February 2019

Construction

The main mechanical components needed for construction are the propellers (either fixed-pitch or variable-pitch), the frame and the electric motors.

Rotor/Propeller

Drones have at least two rotors (bicopter), but the majority has four rotors (aka quadcopters). Except for bicopter, which behaves quite similarly to fixed-wing aircraft (or the famed V-22 Osprey), the multicopters require that not all rotors should rotate in the same direction

Figure-1-Prop-Rotation.png

Propeller Pitch

The propeller pitch is a measurement of how far that a propeller will move through the air for every single rotation of the motor/propeller. This is only a theoretical approximation since real world factors such as prop material, air density, and efficiency can influence this distance. However, the pitch is a good measurement that will help you better understand your propeller performance.

The higher the pitch value, the faster your aircraft will move. In other words, with both motors/propellers spinning at the same RPM, the higher pitch propeller will travel further in the same amount of time. Changing the propeller pitch will also change the dynamic response of your drone.

Figure-2-Pitch.gif

Propeller Size

The size of the propeller is the distance from tip to tip. Longer propellers can generate more thrust at the same speed, but requires more torque from the motor to turn the prop. A larger propeller size does not mean that you will be able to fly faster.

The surface area of the propeller also determines how much thrust it can generate. The higher surface area allows more air to be moved, thereby generating more thrust. This also comes at the cost of more power draw from the motor.

The length of your quadcopter frame determines the maximum size of propeller that you can use. For a square drone frame as below, the maximum propeller size is X/2. For a rectangle frame, the maximum size is Y/2

Number of propeller blades

Two bladed propellers are more efficient at producing thrust as opposed to four or three bladed propellers so long as the propeller tips do not reach supersonic speeds. Adding blades increases the amount of thrust that is generated, but at the cost of efficiency.

Figure-5-Number-of-Blades.jpg

Motor

To determine the drone motor size for the drone, there are two parameters that must be taken into consideration

  • Total weight
  • Frame size
Thrust to Weight Ratio

The thrust to weight ration (as known as TWR) is the main characteristic that will determine the drone flight profile. Understandably, to maintain steady flight or hover in the air, TWR should be 1. To take off, TWR needs to be greater than 1