MECHANICAL ENGINEERING, GEARS AND GEAR BOX
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Project Budget£20 - £250 GBP
PLEASE LOOK AT THE ATTACHED FILE FOR THE FULL WORK
PLEASE HAVARD REFERENCING AFTER THE WHOLE WORK IS DONE
Introduction to Engineering design and product development, (2) Engineering systems and products: Concepts, classification and analysis, and (3) Machine elements: Classification, working principles, design, selection and manufacturing aspects.
This coursework is aimed to meet the following expected learning outcomes:
• Know how to analyse engineering systems and products based on functional units and machine elements.
• Understand working principles, design, selection, and manufacturing aspects of machine elements.
4. QUESTIONS OF THE COURSEWORK
4.1 Question No.1 (20 marks)
Investigate the CNC machines at University of Greenwich. You are required to present and discuss about the main functional units and important machine elements of the CNC milling or turning machine at University. It is necessary to present and discuss about the functions, working principles and design requirements of these functional units and machine elements. 2D/3D sketching, images and photos can be used for the presentation and discussions when necessary.
Note: Maximum number of words: 1000
4.2 Question No.2 (20 marks)
Present and discuss about the bearing, a typical mechanical element for friction reduction. Complete Table Q2 about advantages, disadvantages and examples of applications of the following bearings: Plain bearing, Ball Bearing, Cylindrical Roller Bearings, Tapered Roller Bearings, and Spherical Roller Bearings.
Table Q2: Advantages, disadvantages and applications of bearings
Type of Bearings Advantages Disadvantages Application examples
Cylindrical Roller Bearings
Tapered Roller Bearings
Spherical Roller Bearings
Note: Maximum number of words: 1000
4.3 Question No.3 (10 marks)
Present and discuss about the important design features and issues when designing a cam-follower mechanism
Note: Maximum number of words: 500
4.4 Question No.4 (25 marks)
Figure Q4 presents a gearbox that you are going to design. The input shaft rotates at n1 = 2000 rpm in a counterclockwise direction. The gearbox is required to be designed so that the output shaft rotates at n6 = 400 rpm (approximately).
The suggested module m for all gears G1, G2, G3, G4 and G5 is m = 2. The number of teeth and the pith diameter d of the gear G1 are 36 and 72 [mm] respectively. The provided data is summarised and shown in Table Q4.
Table Q4: Design parameters for a gearbox with 5 gears G1, G2, G3. G4 and G5
Design Parameters G1 G2 G3 G4 G5 G6 G4
m 2 2 2 2 2 2 2
d [mm] 72
n [rpm] 2000 400
d = Pitch diameter in [mm]
N = Number of teeth
m = Gear module
n = Rotating speed
Db = Base circle diameter in [mm]
The pressure angles α = 20°. Cos α = [url removed, login to view]
[url removed, login to view]: A gearbox to be designed.
(1) Calculate and select the number of teeth N, pitch diameter d, rotating speeds n, base circle diameter Db, outside diameter Do, root diameter Dr, and write the results in Table Q4.
(2) Present the direction of the rotation of the output shaft.
(3) Explain in detail how to calculate and select these design parameters of the gear box.
4.5 Question No.5 (25 marks)
4.5.1 Question 5.1: Calculate an involute profile for a spur gear with the radius of a base circle r = 34 mm. Present the coordinates of 15 points on the 2D involute profile and generate the 2D involute profile in Excel as shown in Fig. Q5-1 (15 marks).
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