SIMPLE MACHINES, MECHANISMS AND TECHNIQUES 1
Relating to the program Forces and movements Simple machines Some notions about drawing Techniques and capsules The mechanism of motion The systems in projects 2
The program… In the material world, on page 174 of the QEP, you will find…
Learning progression On page 6 of the learning progression in science and technology in primary school, you will find:
Still on page 6 in the learning progression for science and technology, you will also find:
Forces There are several types of forces. Today we will look at two, compression and tension. Generally, forces act on bodies one of two ways: 1. By pushing: This is what is called compression; 2. By pulling: This is what is called tension. 6
Compression Compression is a force that exerts a push on a body. When this force is applied, it causes or modifies the motion of the body. It may also distort it. F F 7
Tension Tension is the force that pulls a body. When this force is applied, it may cause or modify the motion of the body. Finally, it may also cause distortion. F F 8
Movements The mobile parts of a technical object may move according to three types of movement. 1. Rotation 1. Translation 1. Helical movement 9
Types of movement 10
Simple machines Simple machines are machines used to reduce the force necessary for the accomplishment of a task. Humans have learned to use simple machines to help in their everyday tasks. With an arrangement of simple machines, we obtain complex machines. 11
Simple machines (continued) Simple machines serve three main functions: 1. They transmit forces; 2. They change the direction of a force; 3. They modify the intensity of the force. 12
Simple machines (continued) Here are five simple machines: 1. The lever 2. The inclined plane and the wedge 3. The screw 4. The pulley 5. The wheel, the winch and gears 13
The lever 14
The inclined plane or the wedge 15
The screw 16
The pulley 17
The wheel and gears 18
Some notions about drawing … For technical drawing, there are international conventions such as: ◦ Type of line Thick Medium Fine ◦ Basic lines Visible contour line (thick, continuous line) Hidden contour line (medium dashed line) Axis line (fine line with stroke at the center) Dimension line (fine, continuous line with arrows) Extension line (fine, continuous line) Leader line (fine line with one arrow) ◦ Views ◦ Dimensions (in mm) 19
Basic lines Ø 8 FACING Ø14 X 3 DEEP ° Extension line Visible contour line Hidden contour line Axis line Dimension line Leader line
Basic lines (continued)
Multiple views Among the six possible views, we choose to show those that are necessary to describe the shape of the object. FACE VIEW RIGHT VIEW TOP VIEW LEFT VIEW BACK VIEW BOTTOM VIEW Three views are usually sufficient to describe an object. Many simple objects only require one or two views.
Making a complex machine 23 Cartridge
A glance at the materials 24
25 THE LEVER TEETER-TOTTER WHEELBARROW
26 WEDGE AND INCLINED PLANE NAIL CLIPPER
Techniques and capsules Work techniques Safety capsules 27
Construction of a complex machine Your turn to play….. 28
Movement mechanisms There are many mechanisms, classified into two categories: 1. The transmission of motion; 2. The transformation of motion. 29
Movement mechanisms 1. Transmission of motion A transmission of motion mechanism is a mechanism that transmits the same movement from one part of an object to another. Here are three of the most common mechanisms: Gears; Friction wheels; Pulleys and belts. 30
Gears 31
Friction wheels 32
Pulleys and belts 33
Movement mechanisms (continued) Your turn to play….. 34
Movement mechanisms (continued) 2. Transformation of motion A transformation of motion mechanism is a mechanism that changes the nature of the movement, that is from a translation to a rotation or vice versa.. Here are the transformation mechanisms: Rod and crank; Cam and rod; Rack and pinion; Nut and bolt; Crankshaft. 35
Rod and crank 36 Crank: Mechanical part by which a force can transmit a rotary movement around an axis. Rod: Rigid rod that is used to produce a movement. Axis
Cam and rod 37 Rod or roller: Rigid rod leaned on the cam. Cam: Mechanical part whose function is to push an element to move it.
Rack and pinion 38 Rack: Straight geared rod. Pinion: Gear
Nut and bolt 39 Bolt: Threaded cylindrical rod. Nut: Female part of bolt
Crankshaft 40 Crankshaft: « U » shaped axle with at least one rod that transforms a rectilinear movement into a rotary movement.
Movement mechanisms (continued) Your turn to play….. 41
The systems in projects Rod and crank: periscope Rod and cam: mouse/croc Rack and pinion: periscope Rod and crankshaft: Mechanical bugs Wheels: odometer Others… 42
Thank you! 43