Type B may be simply sloped or benched. “All simple slope excavations 20 feet or less in depth... ...shall have a maximum allowable slope of 1 : 1.” ( 45 degrees )

Type B may be simply sloped or benched. “All simple slope excavations 20 feet or less in depth... ...shall have a maximum allowable slope of 1 : 1.” ( 45 degrees ) The blue slope represents 1: 1 (45 degrees)

...shall have a maximum allowable slope of 1 : 1.” Type B may be benched. “All simple slope excavations 20 feet or less in depth... ...shall have a maximum allowable slope of 1 : 1.” ( 45 degrees )

...shall have a maximum allowable slope of 1 : 1.” Type B may be benched. “All simple slope excavations 20 feet or less in depth... ...shall have a maximum allowable slope of 1 : 1.” ( 45 degrees )

Will this work? No benching in Type C soil. If the soil was Type A, the degree of these benched slopes would be too steep.

Type A may be simply sloped or benched. “All simple slope excavations 20 feet or less in depth... ...shall have a maximum allowable slope of 3/4 : 1.” ( 53 degrees )

Type A may be simply sloped or benched. “All simple slope excavations 20 feet or less in depth... ...shall have a maximum allowable slope of 3/4 : 1.” ( 53 degrees ) The blue slope represents 1: 1 (45 degrees)

...shall have a maximum allowable slope of 1/2 : 1.” Type A (short term dig) “Simple slope excavations which are open 24 hours or less (short term) and which are 12 feet or less in depth... ...shall have a maximum allowable slope of 1/2 : 1.” ( 63 degrees ) The blue slope represents 1: 1 (45 degrees)

Sloping & Benching Tips The maximum allowable slopes apply when above a shield, too.

Sloping & Benching Tips The top of the shield needs to be at least 18 inches above the soil.

Sloping and Benching Tips Type C soil cannot be benched. (even if incorrectly identified as Type B) No sloping or benching when deeper than 20 feet. Unless a Registered Professional Engineer designs the sloping or benching system. The maximum allowable slopes are maximums. Many factors can reduce the maximum allowable.

Sloping and Benching

Working in the Affected Zone

Where is the Affected Zone? Use 45 degrees to determine the affected zone. (Some say the Affected Zone should be even bigger)

Cave-ins strike the Affected Zone. (that’s where the hole is) Most cave-ins occur in the affected zone (that’s where the hole is)

What are some causes of cave-ins? Improper sloping or benching Mass of spoil pile or equipment Vibrations from traffic, equipment, etc. How long the excavation is open Rain Cave-ins happen in the Affected Zone...

What are some causes of cave-ins? Improper sloping or benching Mass of spoil pile or equipment Vibrations from traffic, equipment, etc. How long the excavation is open Rain These are the factors we can control.

Greenwood rescuers pull injured worker from trench “The construction crew hadn’t built a trench box to prevent the sides of the trench from collapsing, so firefighters were forced to spend about an hour shoring up the sides of the ditch before they were able to give assistance. The man was rescued about 80 minutes after the accident...” These guys will not enter an unprotected trench. (It caved in)

Dealing with Spoil Piles

Dealing with Spoil Piles Keep any pile two feet from the excavation. Ideally, keep them farther away. Is the spoil pile near the hole in the ground? If so, the maximum height should be two or three feet. More liberty may be taken the farther the spoil pile is from the excavation. Registered Professional Engineers (RPEs) will include the height of spoil piles in their tabulated data.

Spoil, Equipment, and Slopes “ When surcharge loads from stored material or equipment, operating equipment, or traffic are present...

...shall have a maximum allowable slope of 1 ½ : 1.” Remember this? “All simple slope excavations 20 feet or less in depth... ...shall have a maximum allowable slope of 1 ½ : 1.” ( 34 degrees ) The blue slope represents 1: 1 (45 degrees)

Spoil, Equipment, and Slopes “ When surcharge loads from stored material or equipment, operating equipment, or traffic are present... ... a competent person shall determine the degree to which the actual slope must be reduced below the maximum slope. ”

Walls are sloped. Spoil piles can be, too. the likelihood of cave-ins. Sloping the spoil pile may reduce the likelihood of cave-ins.

Dealing with Equipment

Dealing with Equipment Is equipment being used near the excavation? Probably, it’s a construction site. But, there may be equipment not being used. If machinery is not being used, move it away. Are there dump trucks on site? Are they loading or unloading materials? If not, get them out of there ASAP.

Dealing with Equipment

Working in the Affected Zone

Shields and Shores

Here’s a shield.

Shield Design Options 1926.652(c) An engineer designs it and you build it according to specs. An engineer designs it and somebody else builds it for you. and, then you use it according to specs. If using shores or shields, they need to be used as recommended, advised, and specified by the manufacturer. Have the user’s manual available. aka “Tabulated Data”

Here’s another shield.

There’s no shield here.

The rules for working in or around shields. Stay inside it! That’s what it’s there for. Is there a ladder within 25 feet of any worker? that means a ladder inside the box. No moving the shield when workers are inside it. No digging beyond two feet under the box. Has lateral movement been restricted?

A big chunk of soil moves a big box easily.

When the box is snug, it can’t go anywhere.

What if a shield is damaged? It happens. In general, damaged units are not allowed. If they’re found to be unsafe, then they’re not used. If a shield or box is banged up... The competent person takes a look at it. If the CP says so, the box is back in action. If the CP is unsure, an engineer is brought in to look at it. The engineer will say what to do. In the meantime, the box is not used.

Protect the protected workers, too. Are there loose materials that could roll down into the protected area below? Scrape away loose debris from sloped or benched walls. If it’s not there, it’s not a hazard. Install protective barricades or nets along the face to stop or slow incoming debris. Workers on slopes could become hazards to those below. Permit no work along the face without a system of protection (barricade, net) for those below.

Timber Shoring Use Appendices A & C. Not allowed when deeper than 20 feet.

Depending on the application, you may use... Mixed oak or equivalent (with a bending strength not less than 850 psi) Douglas fir or equivalent (with a bending strength not less than 1500 psi) These materials can be expensive, one of the reasons timber shoring is not common.

Aluminum Hydraulic Shoring Use Appendix D. Not allowed when deeper than 20 feet.

Aluminum Hydraulic Shoring If going this route, there are two options MacGyver it yourself in accordance with Appendix D. Buy a kit and use it exactly the way the manufacturer says.

Shields and Shores

Other Matters

Only qualified people operate equipment. 1926.20(b)(4) The employer shall permit only those employees qualified by training or experience to operate equipment and machinery. Get away from that!

General Safety Ideas for Equipment Do an inspection before every shift. Is that safety glass in the cab? Wear the seat belt. (Unless there’s no rollover protective structure) Is there a warning or signaling system? If you can’t see the edge, use signals. Is there a reverse signal alarm?

General Safety Ideas for Equipment Is the equipment unattended? Set the parking brake (if equipped) Use chocks or something to secure it. If left overnight, make it visible with reflectors, flashing lights, or barricades. Always lower the bucket to ground when not in use, even if temporarily. Clear loose debris from dump trucks before you hit the highway and the DOT sees you.

Before you dig, you should... Check local digging laws and requirements. Call 811 or, visit http://www.call811.com Mark the locations

Underground Utilities Estimating the location of utilities (by marking) isn’t enough... Before digging starts, an exact determination must be made. No one else can use your marking lines, and vice versa.

APWA Uniform Color Code

Undercutting and Underpinning Excavation below the level of the base or footing of any foundation or retaining wall that could be reasonably expected to pose a hazard to employees shall not be permitted except when: A support system, such as underpinning, is provided to ensure the safety of employees and the stability of the structure; or The excavation is in stable rock; or A registered professional engineer says the structure will not be affected by activity. The RPE says activity will not pose a hazard to employees.

Don’t undercut without first supporting.

Undercutting and Underpinning Excavation below the level of the base or footing of any foundation or retaining wall that could be reasonably expected to pose a hazard to employees shall not be permitted except when: A support system, such as underpinning, is provided to ensure the safety of employees and the stability of the structure; or The excavation is in stable rock; or A registered professional engineer says the structure will not be affected by activity. The RPE says activity will not pose a hazard to employees.

A back-up plan in case the hydrant goes.

Confined Spaces and Hazardous Atmospheres If there’s less than 19.5% oxygen in the air you’ll be breathing or, if it’s reasonable to assume that’s the case... ... it’s time for testing.

If it’s hazardous in there... Rescue equipment (just in case) You’re going to need protection. PPE Ventilation Monitors Rescue equipment (just in case)

Fall protection while on the ground? Guardrails. Fences. Barricades. Walkways or access ramps six feet or greater above next lowest level. A pit or well six feet or greater in depth If foliage or other visual barrier obstructs the excavation’s edges... Then you need to barricade the area.

Other Matters

Quick Review

Common causes of cave-ins Mass of spoil pile or equipment Vibrations from traffic, equipment, etc. Improper sloping or benching How long the excavation is open Rain

A competent person... Can identify and is authorized to remedy hazards. Is familiar with protective systems (shields, shores, and sloping configurations), soils analysis, and standard requirements. Does lots of inspections. Consults with RPEs in certain situations. Do you have authority?

Soil Types Stable Rock = stable rock Type A: pristine clay More cohesive Type B: angular gravel Type C: anything less Less cohesive There are many downgrading conditions. Water, vibration, prior activity, weather, stability ...

Let the shield protect you. Stay inside the trench box, not a few feet from it. Proper exit should involve the ladder... ... which is inside the box, and no more than 25 feet away. Don’t move a shield with workers inside. Is lateral movement of the shield minimized? Dig as little below a box as possible. Two feet is the maximum allowed by OSHA.

Simple Slopes and Benches The maximum allowable sloping configurations are the maximums. Any number of reasons could reduce them. The configurations apply above shields, too. Benching isn’t allowed in Type C soil. Anything deeper than 20 feet must be designed by a Registered Professional Engineer (RPE).

Quick Review

Call 811 – Know what’s below http://www.call811.com/ Safety and Health Topics: Trenching and Excavation http://www.osha.gov/SLTC/trenchingexcavation/construction.html OSHA Construction eTool: Trenching and Excavation http://www.osha.gov/SLTC/etools/construction/trenching/mainpage.html Trench Safety Version 4.0 http://www.trenchsafety.org/

Occupational Health & Safety Specialist Excavation 1926 Subpart P for construction Maurizio Delcaro Occupational Health & Safety Specialist That’s it! Questions, Comments? Thanks for attending! www.montanasafety.com