MANUAL HANDLING
HSE GUIDES
CASE STUDY
DISCOURSE
REFERENCES
WORKPLACE SEATING
ERGONOMIC FACTORS + ISSUES
UK:GOV STATUTORY INSTRUMENTS
HEALTH AND SAFETY - 1992 No. 2793
The Manual Handling Operations Regulations 1992
http://www.legislation.gov.uk/uksi/1992/2793/contents/made
Manual handling
What is manual handling?
Manual handling involves lifting, carrying, lowering or otherwise carrying or moving a load by hand or bodily force. It is the most common cause of accidental injury in the workplace and the potential risks of manual handling affect nearly all members.
Accidents involving manual handling can have a long-lasting impact on personal and professional lives. Manual handling is not just an issue for those members who are required to lift and carry on a regular basis, as almost every job will require you to move items at some point.
Potential risks
One in three accidents at work are caused by manual handling. Many manual handling incidents cause damage to the back.
Every year, 300,000 people in the UK suffer from back pain due to manual handling accidents. Damage to the back, neck or spine can lead to extreme pain, temporary incapacity or permanent injury.
Designers’ responsibilities
Designers can fulfil a number of criteria to reduce the risk of manual handling accidents at work.
By virtue of professional practice designers can, among other things, to reduce risk of injury from manual handling operations to “the lowest level reasonably practicable”. Designers must also:
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so far as reasonably practicable, avoid the need for employees to undertake manual handling which involves a risk of their being injured;carry out a manual handling risk assessment prior to any manual handling tasks;
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provide training and information including specific information about the weight of the load and its heaviest side if its centre of gravity is not positioned centrally the equipment and techniques to be used when carrying out a manual handling tasks;
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assess the layout, structure or nature of the work and the individual capability of staff to reduce manual handling risks;
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retain accurate reports on any previous notifiable manual handling incidents and accidents;
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give equal consideration to those working away from the employer’s premises.
Human Ergonomics
Ergonomics DATA Resources
ONLINE ERGONOMIC DATA RESOURCES
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http://www.openerg.com/index.htm
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https://www.humanics-es.com/recc-ergonomics.htm
THE PRINCIPLES OF UNIVERSAL DESIGN
UNIVERSAL DESIGN GUIDELINES:
The design of products and environments to be usable by all people, to the greatest extent possible, without the need for adaptation or specialiSed design.
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The authors, a working group of architects, product designers, engineers and environmental design researchers, collaborated to establish the following Principles of Universal Design to guide a wide range of design disciplines including environments, products, and communications. These seven principles may be applied to evaluate existing designs, guide the design process and educate both designers and consumers about the characteristics of more usable products and environments.
The Principles of Universal Design are presented here, in the following format: name of the principle, intended to be a concise and easily remembered statement of the key concept embodied in the principle; definition of the principle, a brief description of the principle's primary directive for design; and guidelines, a list of the key elements that should be present in a design which adheres to the principle. (Note: all guidelines may not be relevant to all designs.)
PRINCIPLE ONE: Equitable Use
The design is useful and marketable to people with diverse abilities.
Guidelines:
1a. Provide the same means of use for all users: identical whenever possible; equivalent when not.
1b. Avoid segregating or stigmatizing any users.
1c. Provisions for privacy, security, and safety should be equally available to all users.
1d. Make the design appealing to all users.
PRINCIPLE TWO: Flexibility in Use
The design accommodates a wide range of individual preferences and abilities.
Guidelines:
2a. Provide choice in methods of use.
2b. Accommodate right- or left-handed access and use.
2c. Facilitate the user's accuracy and precision.
2d. Provide adaptability to the user's pace.
PRINCIPLE THREE: Simple and Intuitive Use
Use of the design is easy to understand, regardless of the user's experience, knowledge, language skills, or current concentration level.
Guidelines:
3a. Eliminate unnecessary complexity.
3b. Be consistent with user expectations and intuition.
3c. Accommodate a wide range of literacy and language skills.
3d. Arrange information consistent with its importance.
3e. Provide effective prompting and feedback during and after task completion.
PRINCIPLE FOUR: Perceptible Information
The design communicates necessary information effectively to the user, regardless of ambient conditions or the user's sensory abilities.
Guidelines:
4a. Use different modes (pictorial, verbal, tactile) for redundant presentation of essential information.
4b. Provide adequate contrast between essential information and its surroundings.
4c. Maximize "legibility" of essential information.
4d. Differentiate elements in ways that can be described (i.e., make it easy to give instructions or directions).
4e. Provide compatibility with a variety of techniques or devices used by people with sensory limitations.
PRINCIPLE FIVE: Tolerance for Error
The design minimizes hazards and the adverse consequences of accidental or unintended actions.
Guidelines:
5a. Arrange elements to minimize hazards and errors: most used elements, most accessible; hazardous elements eliminated, isolated, or shielded.
5b. Provide warnings of hazards and errors.
5c. Provide fail safe features.
5d. Discourage unconscious action in tasks that require vigilance.
PRINCIPLE SIX: Low Physical Effort
The design can be used efficiently and comfortably and with a minimum of fatigue.
Guidelines:
6a. Allow user to maintain a neutral body position.
6b. Use reasonable operating forces.
6c. Minimize repetitive actions.
6d. Minimize sustained physical effort.
PRINCIPLE SEVEN: Size and Space for Approach and Use
Appropriate size and space is provided for approach, reach, manipulation, and use regardless of user's body size, posture, or mobility.
Guidelines:
7a. Provide a clear line of sight to important elements for any seated or standing user.
7b. Make reach to all components comfortable for any seated or standing user.
7c. Accommodate variations in hand and grip size.
7d. Provide adequate space for the use of assistive devices or personal assistance.
Please note that the Principles of Universal Design address only universally usable design, while the practice of design involves more than consideration for usability. Designers must also incorporate other considerations such as economic, engineering, cultural, gender, and environmental concerns in their design processes.
These Principles offer designers guidance to better integrate features that meet the needs of as many users as possible.