Summary
Proteus are looking for a CAD apprentice to join their busy and forward-thinking team. It is an incredible opportunity to start a career with one of the industry leaders. Duties will include preparing engineering designs, working with clients, and assisting the development of 3D models.
Wage
£14,918.80 a year
The pay may be negotiated and may rise after a probation period has been successfully completed.
Training course
Engineering design technician (level 3)
Hours
Monday - Thursday between 8.00am - 5.00pm. Friday, 8.00am-3.00pm.
38 hours a week
Possible start date
Monday 1 September
Duration
2 years 6 months
Positions available
2
Work
As an apprentice, you’ll work at a company and get hands-on experience. You’ll gain new skills and work alongside experienced staff.
What you’ll do at work
An incredible opportunity has arisen to join Proteus Facades as an Apprentice CAD Engineer. Proteus delivers projects all over the world under some of the most challenging logistical circumstances.
This apprenticeship is for anyone looking to start a career in facades and structural metalwork detailing, you will learn about modelling/detailing; co-ordination between work packages; onsite buildability and construction methods. You will be developing skills that will put you at the leading edge of modern construction techniques.
You will be responsible for:
* Preparing detailed engineering designs for structural metalwork.
* Producing technical drawings and schedules.
* Working with clients and contractor partners.
* Assisting with the development of 3D Revit models to contract design information and deadlines.
Utilising various methods of communication as and when required.
Where you’ll work
1 GERRARD PLACE
SKELMERSDALE
WN8 9SU
Training
An apprenticeship includes regular training with a college or other training organisation. At least 20% of your working hours will be spent training or studying.
College or training organisation
T3 TRAINING & DEVELOPMENT LTD
Your training course
Engineering design technician (level 3)
Equal to A level
Course contents
* Apply health and safety procedures and safe systems of work in compliance with regulations and standards.
* Work in accordance with the design process, company management systems, policies and procedures.
* Review and interpret technical information and requirements from different sources such as specifications, engineering drawings, concepts, stakeholders.
* Identify and assess factors that affect designs such as materials, application, location, risk and environment.
* Select materials and parts.
* Propose and evaluate ideas for sustainable engineering concepts to solve engineering challenges.
* Develop solutions that can be manufactured or built, and proven, operated and maintained during their operational life and decommissioned or recycled at the end of their operational life.
* Provide feedback on engineering designs.
* Apply quality assurance procedures to engineering drawings or models, including own designs and those of peers.
* Communicate with others verbally for example, colleagues and stakeholders.
* Produce written documents, schedules and reports.
* Identify, organise and use resources to complete tasks with consideration for cost, quality, safety, security and environmental impact.
* Identify inaccuracies or discrepancies in drawings and specifications and propose solutions.
* Incorporate changes to an existing design as a result of any modifications made during the as-built implementation.
* Create concepts for system layouts and associated components.
* Read, interpret and establish design intent.
* Determine the correct tolerances for components of the design.
* Follow equality, diversity and inclusion procedures.
* Perform simple calculations to use in design drawings.
* Use measuring techniques for reverse engineering.
* Option 1. Produce general arrangements of electrical power.
* Option 1. Produce detailed drawings of electrical power components such as wires connection, voltage, capacity, main switches.
* Option 1. Identify cable types and application.
* Option 1. Use digital tools such as CAD and BIM to produce electrical power project deliverables such as output drawings and electrical designs.
* Option 2. Produce general arrangements of control and instrumentation designs.
* Option 2. Produce detailed drawings of control and instrumentation components such as cable numbers, wire colours, junction block numbers and panel identification.
* Option 2. Identify different cable types and appropriate application.
* Option 2. Use digital tools such as CAD to produce control and instrumentation project deliverables.
* Option 3. Produce general arrangements of mechanical designs.
* Option 3. Produce detailed drawings of mechanical components such as part dimensions, shape and manufacture.
* Option 3. Use digital tools such as CAD to produce mechanical project deliverables.
* Option 4. Produce general arrangements of piping design.
* Option 4. Produce detailed drawings of piping components such as pipework, ducts and fittings and including supports and skids.
* Option 4. Use digital tools such as CAD or Plant Design Management Systems to produce piping design project deliverables.
* Option 5. Produce general arrangements of structures showing multiple materials such as steel, concrete, masonry, timber.
* Option 5. Produce detailed drawings for multiple materials such as steel, concrete, timber or masonry.
* Option 5. Use digital tools such as CAD and BIM to produce structural project deliverables.
* Apply health and safety procedures and safe systems of work in compliance with regulations and standards.
* Work in accordance with the design process, company management systems, policies and procedures.
* Review and interpret technical information and requirements from different sources such as specifications, engineering drawings, concepts, stakeholders.
* Identify and assess factors that affect designs such as materials, application, location, risk and environment.
* Select materials and parts.
* Propose and evaluate ideas for sustainable engineering concepts to solve engineering challenges.
* Develop solutions that can be manufactured or built, and proven, operated and maintained during their operational life and decommissioned or recycled at the end of their operational life.
* Provide feedback on engineering designs.
* Apply quality assurance procedures to engineering drawings or models, including own designs and those of peers.
* Communicate with others verbally for example, colleagues and stakeholders.
* Produce written documents, schedules and reports.
* Identify, organise and use resources to complete tasks with consideration for cost, quality, safety, security and environmental impact.
* Identify inaccuracies or discrepancies in drawings and specifications and propose solutions.
* Incorporate changes to an existing design as a result of any modifications made during the as-built implementation.
* Create concepts for system layouts and associated components.
* Read, interpret and establish design intent.
* Determine the correct tolerances for components of the design.
* Follow equality, diversity and inclusion procedures.
* Perform simple calculations to use in design drawings.
* Use measuring techniques for reverse engineering.
Your training plan
* 2 ½ Year Apprenticeship Programme.
* Design and Draughting Skills, Knowledge & Behaviours – delivered in the workplace.
* Level 3 BTEC in Construction and the Built Environment – Day Release or Remote Delivery (Optional qualification).
* Specialist Training Programme Blocks of your choice.
* End Point Assessment – Knowledge Test, Practical Test and Presentation/Interview.
Requirements
Essential qualifications
GCSE in:
* English (grade 4+)
* Mathematics (grade 4+)
Let the company know about other relevant qualifications and industry experience you have. They can adjust the apprenticeship to reflect what you already know.
Skills
* IT skills
* Attention to detail
* Problem solving skills
* Number skills
Other requirements
Apprentices must show commitment to the following: •To achieve apprenticeship standard within the specified time frame •Attend the apprenticeship induction programme •Attend all of the training sessions for the programme whenever necessary •Undertake any other required development work as part of the apprenticeship programme as requested •Any other duties as deemed appropriate by senior staff. Computer literacy is essential: Candidates must be competent in Word, Excel, and Outlook. Experience of CAD software is not essential as full training will be given. The role of a digital engineering apprentice could be the first step into a varied and exciting career! You will need to have an interest in engineering and design, alongside the ability to manage your time well and work to strict deadlines. The role is mainly office-based, but there will also be opportunities to visit different sites, where you will be able to see what you have designed come to life. You will need to be aware of, and work to different industry standards. A mentor will work alongside you to support your development during the apprenticeship but you will also need to take responsibility for managing your own workload and show initiative.