BTEC LEVEL 3 ENGINEERING.

STUDENT

SUBJECT

TUTOR GROUP

BTEC LEVEL 3 ENGINEERING.

   

UNIT 16 ENGINEERING DRAWING. 10 CREDITS 60 GLH

UNIT 01 HEALTH AND SAFETY IN THE WORKPLACE. 10 CREDITS

On completion of this unit a learner should:

 

1. Be able to sketch engineering components. 2. Be able to interpret engineering drawings that comply with drawing standards. 3. Be able to produce engineering drawings. 4. Be able to produce engineering drawings using a computer aided drafting (CAD) system.

On completion of this unit a learner should:

MY PROGRESS  

1. Understand the key features of health and safety legislation and regulations. 2. Know how to identify and control hazards in the workplace. 3. Be able to carry out a risk assessment, identifying control measures.

60 GLH

4. Understand the methods used when reporting and recording accidents and incidents.

UNIT 23

On completion of this unit a learner should:

WELDING TECHNOLOGY.

1. Know about health and safety legislation, regulations and safe working practices in the welding industry.

10 CREDITS

2. Be able to prepare for welding operations.

60 GLH

MY PROGRESS

3. Be able to produce welded joints to a quality standard 4. Understand how quality inspection processes are applied to welded joints in components.

MY PROGRESS  

 

Assessment and grading criteria To achieve a PASS grade the evidence must show that the learner is able to:

 

To achieve a MERIT grade the evidence must show that, in addition to the pass criteria, the learner is able to:

P1 create sketches of M1 explain the importance engineering components of working to recognised using a range of techniques  standards, when producing engineering drawings  P2 describe the benefits and limitations of using pictorial techniques to represent a given engineering component P3 interpret the main features of a given engineering drawing which complies with drawing standards  P4 produce detail drawings of three given single-piece components P5 produce an assembly drawing of a product containing three parts  P6 produce a circuit diagram with at least five different components which uses standard symbols  P7 prepare a template drawing of a standardised A3 sheet using a CAD system and save to file  P8 produce, store and present 2D CAD drawings of a given single-piece component and an assembly drawing of a product containing three parts 

M2 explain how a given engineering drawing would be used and the reasons it is suitable for its intended audience.

To achieve a DISTINCTION grade the evidence must show that, in addition to the pass and merit criteria, the learner is able to: D1 evaluate the use of different methods to produce engineering drawings including manual and computer aided methods.

 

 

 

 

 

 

 

 

 

 

 

 

 

   

Assessment and grading criteria To achieve a PASS grade the evidence must show that the learner is able to:

To achieve a MERIT grade the evidence must show that, in addition to the pass criteria, the learner is able to:

To achieve a DISTINCTION grade the evidence must show that, in addition to the pass and merit criteria, the learner is able to:

P1 explain the key features of relevant regulations on health and safety, as applied to a working environment in two given engineering organisations

M1 explain the consequences of management not abiding by legislation and regulations and carrying out their roles and responsibilities in a given health and safety situation

D1 justify the methods used to deal with hazards, in accordance with workplace policies and legal requirements

P2 describe the roles and responsibilities under current health and safety legislation and regulations, of those involved

M2 explain the importance of carrying out all parts of a risk assessment in a suitable manner

D2 determine the cost of an accident in the workplace from given data. 

P3 describe the methods used to identify hazards in a working environment 

M3 explain how control measures are used to prevent accidents. 

 

P4 describe how hazards which become risks can be controlled P5 carry out a risk assessment on a typical item or area of the working environment P6 suggest suitable control measures after a risk assessment has been carried out and state the reasons why they are suitable P7 explain the principles that underpin reporting and recording accidents and incidents  P8 describe the procedures used to record and report accidents, dangerous occurrences or near misses 

 

 

 

 

 

 

 

 

 

 

 

 

Assessment and grading criteria To achieve a PASS grade the evidence must show that the learner is able to:

To achieve a MERIT grade the evidence must show that, in addition to the pass criteria, the learner is able to:

To achieve a DISTINCTION grade the evidence must show that, in addition to the pass and merit criteria, the learner is able to:

P1 identify aspects of health and safety legislation, regulations and safe working practices applicable to welding 

M1 analyse the effect of using incorrect welding parameters for a selected welding process including the effects on quality and safety when producing welded components 

D1 justify the selection of a welding process for a given application when producing welded components

P2 use information sources to select a welding process for a given application, and suggest suitable parameters for the welding process

M2 discuss advantages and disadvantages for two welding processes considering consumables, equipment, technique and quality for a given welding application.

D2 evaluate the benefits and limitations of using nondestructive inspection methods on welded components.

 

 

 

 

 

 

 

 

 

 

 

 

P3 produce a list of consumables that are required for a selected welding process  P4 plan the tools and equipment needed to produce welded components safely using a selected welding process P5 use appropriate welding positions and materials to produce two welded joints safely with a manual or mechanised welding process  P6 produce two welded joints/ components to a quality standard using a manual or mechanised welding process P7 use appropriate welding positions and materials to produce two welded joints safely with a machine-based welding process 

 

In year 12, I will complete three units; each unit consists of 10 credits. When I have completed all three units this will give me the 30 credits I need to achieve the BTEC level 3 Certificate.  

Health and Safety in the Engineering Workplace

10 credits. 

UNIT 16:

Engineering Drawing for Technicians

10 credits. 

 

UNIT 23:

Welding Technology

 

[Optional]

10 credits.   

The total number of credits available on completion of all three Units

30 credits.

UNIT 1:

 

[Mandatory]  [Optional]  

 

YEAR 12 Certificate

Edexcel BTEC Level 3 30 credits

 

Qualification minimum credit value  Minimum credit to be achieved at, or above the qualification level  A single mandatory unit credit  Two optional units at 10 credits each 

30 credits.  23 credits.  10 credits.  20 credits. 

 

In year 13, I will complete three more units; each unit consists of 10 credits. Once I complete all three units I will have the 60 credits I need to achieve the BTEC level 3 Subsidiary Diploma.  

UNIT 6:

Electrical and Electronic Principles

10 credits.

 

UNIT 21:

Engineering Secondary and Finishing Techniques

10 credits.

 

UNIT 22:

Fabrication Processes and Technology

10 credits.

 

[Mandatory]   [Optional]  

[Optional] The total number of credits available on completion of all six Units

YEAR 12 – YEAR 13 Subsidiary Diploma

Edexcel BTEC Level 3 60 credits

  Qualification minimum credit value  Minimum credit to be achieved at, or above the qualification level  Two mandatory units at 10 credits each  Four optional units at 10 credits each   

60 credits.

60 credits.  45 credits.  20 credits.  40 credits. 

BTEC UNIT

POINTS AWARDED FOR EACH CREDIT

[QCF] LEVEL

BTEC LEVEL 3 

PASS

MERIT 

DISTINCTION

7

8

9

EXAMPLE OF POINTS AWARDED FOR THE BTEC LEVEL 3 CERTIFICATE

UNIT 16

[10 credits]

PASS

7 CREDITS

7 x 10 = 70 POINTS

UNIT 1

[10 credits]

MERIT

8 CREDITS

8 x 10 = 80 POINTS

UNIT 23

[10 credits]

MERIT

8 CREDITS

8 x 10 = 80 POINTS

THIS BTEC LEVEL 3 CERTIFICATE OVERALL GRADE IS A MERIT

       

MERIT = 230 PONTS

 

BTEC LEVEL 3 CERTIFICATE.

POINTS AWARDED AT PASS GRADE

GRADE AWARDED FOR LEVEL 3 CERTIFICATE

210

PASS

P

 

POINTS RANGE ABOVE PASS GRADE GRADE AWARDED FOR LEVEL 3 CERTIFICATE 230 - 249

MERIT 

M

250 - 259

DISTINCTION

D

260 + ABOVE

DISTINCTION*

D*

BTEC Level 3 Engineering

YEAR 12

2013-14 

  Module 1

W1

W2

 

 

Day- tbc P1P2,P3 JNE

Introduction

Day- tbc P4P5P6 JNE

BEGIN UNIT 16

Module 2

PROJECT PLAN  

       

W3 DEADLINE UNIT 16 Assignment 1   

W4

W5

W6

W7

 

 

  Presentation

 

DEADLINE UNIT 16

 

 

 

W5

W6

W7

 

Assignment 2 

ENGINEERIN G DRAWING

W1

W2

Day- tbc P1P2,P3 JNE

W3

W4

DEADLINE UNIT 16 Assignment 6 UNIT 16

DEADLINE UNIT 16 Assignment 4

Day- tbc P4P5P6 JNE

COMPLETED

DEADLINE UNIT 16 Assignment 3

Module 3

W1

W2

Day- tbc P1P2,P3 JNE

Visit to industry RAYDON

Visit to industry RAYDON

W3

W4

DEADLINE UNIT 16 Assignment 5

BEGIN UNIT1 HEALTH AND SAFETY IN THE WORKPLACE

W5

W6

   

Day- tbc P4P5P6 JNE Module 4 Day- tbc P1P2,P3 JNE

Day- tbc P4P5P6 JNE  Module 5

W1

W2

DEADLINE UNIT 1 Assignment 3

BEGIN UNIT 23 WELDING TECHNOLOGY  

DEADLINE UNIT 1

DEADLINE UNIT 1

Assignment 1

Assignment 2

W3

W4

 

 

 

 

 

DEADLINE UNIT 23 Assignment1  

 

   

W3

W4

W5

UNIT 1 COMPLETED

W1

W2

DEADLINE UNIT 23 Assignment 2&3

Day-tbc P4P5P6 JNE

Day tbc P4P5P6 JNE

 

W5

Day- tbc P1P2,P3 JNE

Module 6 Day- tbc P1P2,P3 JNE

 

W1

W2

W3 DEADLINE UNIT 23 Assignment 4 UNIT 23 COMPLETED

W4

W5

Business Challenge Green-Power RACES   Year 13 Induction 

W6

 

 

 

 

 

W6

Exemplar Assignment Briefs + Learner Responses.      

 

STUDENT

SUBJECT

TUTOR GROUP

BTEC LEVEL 3 ENGINEERING.