HOW WE WORK

HOW WE WORK:
PROJECT LIFE CYCLE

We have a robust process, expertise and experience which enables us to analyse, design and implement small or large scale automation solutions. (click or touch boxes below for more detail)

STEP 1

USER REQUIREMENT SPECIFICATION

This can be a detailed customer requirement, or a list objectives that Innomech turn into an agreed requirement specification.

STEP 2

CONCEPTUAL DESIGN

  • Establish a clear understanding of the problem
  • Feasibility Studies
  • Risk Analysis

The early stage design work enables a more in depth understanding of the processes involved and will highlight the various approaches and the risks and obstacles that need to be addressed.

STEP 3

USER REQUIREMENT SPECIFICATION

  • FMECA and other tools
  • Practical tests

Understanding risks at an early stage will help focus the design approach and highlight the cost and lead-time implications.

STEP 4

FUNCTIONAL SPECIFICATION

This describes the technical behaviour of the machine, directly relating to the user requirement specification

STEP 5

MECHANICAL DESIGN

Our design engineers use the latest 3D CAD to model and detail the systems components

STEP 6

ELECTRICAL DESIGN

Our design engineers use the latest 3D CAD to model and detail the systems components

STEP 7

MACHINE CONTROL DESIGN

Our control engineers select the most appropriate architecture for the application

STEP 8

SOFTWARE DESIGN

Our control engineers select the most appropriate architecture for the application.

STEP 9

SYSTEM BUILD

Our systems are built ensuring that the build documentation complies with our quality system, ensuring full component traceability. Our Quality System also demands that the equipment is tested to a customer agreed Factory Acceptance Test (FAT) before delivery

STEP 10

CODING

Our systems are built ensuring that the build documentation complies with our quality system, ensuring full component traceability. Our Quality System also demands that the equipment is tested to a customer agreed Factory Acceptance Test (FAT) before delivery

STEP 11

INTEGRATION

Our systems are built ensuring that the build documentation complies with our quality system, ensuring full component traceability. Our Quality System also demands that the equipment is tested to a customer agreed Factory Acceptance Test (FAT) before delivery

STEP 12

TESTING

Our systems are built ensuring that the build documentation complies with our quality system, ensuring full component traceability. Our Quality System also demands that the equipment is tested to a customer agreed Factory Acceptance Test (FAT) before delivery

STEP 13

HANDOVER

Systems handover may include delivery, site acceptance testing and installation but handover is not the end of the story we also support products

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PROJECT MANAGEMENT

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CHANGE CONTROL

COMMUNICATION