日韩无码

Safety in Workshops and Machine Shops

In the 日韩无码 Laboratory Health and Safety Policy, the definition of a "laboratory" includes campus workshops and machine shops used for research and teaching activities. There are multiple hazards and risks inherent in machine and woodshops; they are more physical and mechanical in nature.

The Shop Safety Program is built around the same values of Safety, Compliance, Productivity and Education that underpin the success of 日韩无码's Laboratory Safety Program.  Supervisors of these areas should review the Laboratory Supervisor Responsibilities.

Safety Practices

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日韩无码's Shop Safety Program includes the following safety practices:

This process is designed to guide safety programming in a vast array of working and learning environments. There are components in each area that may not apply to the specific space for which the program is being designed.  Use the tools cafeteria style - pick and choose the applicable items and leave the rest behind. This approach will provide a foundation for a shop-specific safety program.

For shop-specific needs, such as OSHA standards, self-inspection checklists or training materials, please see the links on this page. Environmental Health & Safety is available to help design a shop safety program to meet your needs. Begin this process by contacting the Lab Safety Coordinators.

Machine Guarding and Mounting

Machine Guarding
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While there are many different types of machine guards, there are a few things that they all have in common. Effective guards:

  • are affixed directly to the equipment,
  • do not create any additional hazard,
  • protect the operator and others in the area from the physical hazards at the point of operation and along the parts of the equipment where exposure to a hazard has the potential to occur.

Use of any power machinery introduces the danger of personal injury due to pinching, cutting, tearing or crushing. This danger can be minimized by the wearing of suitable clothing and fitting suitable guards to protect both the operator and passing traffic.

Guards should be made of unperforated material but designed so as to allow access for inspection and maintenance and should not make the operation of the machine more difficult.

An obvious function of a machine guard is to keep the operator's body, fingers, clothing and arms away from the danger point without impeding the operation or obstructing vision.

Another function, which is less obvious, is to prevent a hazardous piece of material from striking the operator e.g. a grinding wheel guard. A suitable guard should not only be shaped to contain the hazard but must also be of sufficient strength to prevent the hazard from being flung out at the operator.

A guard may serve a further function in preventing the fitting of an unsafe attachment e.g. an oversize wheel to a grinder. This aspect of guard function also applies to interlocks where the machine cannot be started or operated unless the guard is in position.

In addition to needing effective guards, equipment also needs to be anchored so that it cannot 鈥渨alk鈥 across the surface where it is used, which could also create a hazard for the operator and others in the area.

  • For a complete guide to safe and effective machine guarding, see .
  • OSHA provides extensive information about
Mount and Secure Electrical Equipment
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Electric equipment must be bolted/secured to the floor or a table on which it sits so that it will not spin and/or strike the operator. Vibrations caused during the operation of equipment or machinery can cause equipment to unexpectedly move and cause potential injury to the operator or those nearby.

For example, a floor-mounted drill press must be bolted to the floor. A table-mounted drill press must be secured to a properly sized and weighted table so as not to be top-heavy and must be and secured down.

Hand and Power Tools

General
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Hand and power tools have the potential for causing severe injuries when used or maintained improperly. Special attention should be paid toward those working with hand and power tools to eliminate or reduce the potential for injury. Never bring in personal tools from home to use at work. 

Appropriate personal protective equipment, such as safety glasses with side shields, face shields, leather work gloves, or closed-toe shoes, must be worn when using hand tools.

Extension Cords
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  • Extension cords used with any tool are only be used for temporary use.
  • Extension cords must be the 3-pronged type (with ground). Ensure the appropriate extension cord is in use for the work location (indoor, outdoor, etc.) and that it is designed for hard or extra-hard usage. Look for designation types S, ST, STO, SJ, SJO, SJT, and SJTO. 
Hand Tools
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  • Hand tools must only be used for their designed purpose.
  • Hand tools must be inspected before use and maintained properly.
  • Unsafe hand tools should be removed from use immediately and repaired, if possible.
  • Impact tools, such as drift pins, wedges, and chisels, must be free of mushroomed heads.
  • Wooden handles must be free of cracks or splinters and be tight to the tool.
  • Wrenches must not be used when jaws are sprung to the point that slippage occurs.
     
Portable Power Tools and equipment (e.g. circular saws, jigsaws, drills, hammer-drills, sanders, grinders, routers
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  • Use tools for their intended purpose and in the manner intended.
  • Electric power-operated tools must be double-insulated or properly grounded. 
  • Never operate a power tool unless you have been trained and authorized to do so.
  • Inspect tools daily to ensure that they are in proper working order.
  • Tag out and remove damaged or defective tools from use. 
  • Guards and protective devices on any power tool must be in place at all times; never use a tool if guards have been removed.
  • Never use electric power tools while standing in water.
  • Only qualified persons are to repair electric tools or equipment.
Air Tools
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  • Pneumatic power tools must be secured to the hose in such a way as to prevent accidental disconnection.
  • Safety clips or retainers must be securely installed to prevent attachments from being inadvertently expelled.
  • Never exceed the manufacturer鈥檚 safe operating pressure for all fittings.
  • Hoses exceeding 陆 inch inside diameter must have a safety device at the source of supply or branch line to reduce pressure in the event of hose failure.
Powder-Actuated Tools
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  • Manufacturer's instructions must be located with the tool at all times.
  • No employee may operate a powder-actuated tool unless trained in all manufacturers鈥 instructions and authorized by their shop supervisor. 
  • Powder-actuated tools must never be left loaded and unattended.
  • Used shots must be disposed of properly.

Air Quality

Machine Shop Air Quality
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Air quality in shop environments can be affected by:

  • processes (i.e. welding, mixing, cleaning, curing/fixing, laminating, etc.)
  • materials (i.e. particulate, corroding metals, treated or molded wood products, etc.)
  • chemicals (i.e. solvents, aerosols, corrosives, etc.)

The result can be gases, vapors, dusts and mists that drive the need for altered work practices or enhanced environmental controls to assure air quality.

An assessment of all environmental influences within a shop area should be performed: prior to using the area; on an annual basis; and any time the new materials, chemicals or mechanical processes are introduced into the working and learning environment.

Adequate lighting is also essential to shop safety and should be assessed for quantity, placement, guarding, and explosion-proof requirements.

Air quality issues of unknown origin also need to be understood and managed effectively.