Cableway Safety An overview of common problems and issues regarding current USGS cableway systems.
Common Problems Freeboard Anchors and U-bars Sag System hardware
Freeboard Not enough freeboard during high flows Should have 10’ to 15’ between bottom of loaded cable and water level during 100-year flood (Streamgaging Cableways) Place notice in the gage house stating max usable stage (max usable stage = bottom of loaded cable – 10 ft)
Anchors and U-bars Anchors U-bars Many are undersized or don’t know actual dimensions Fortunately, most are not in areas where submergence is possible U-bars Many are undersized, placed in wrong direction or placed at wrong angle Often no auxiliary U-bars Recommend getting all U-bars through the HIF Quality assurance X-rayed to verify structural integrity
Standard Anchor Setup Main U-bar and turnbuckle sized to meet specs Two auxiliary U-bars sized to meet specs (see Streamgaging Cableways for details on specifications for sizes and number of main and auxiliary U-bars)
Sag Systems designed to current standards should use sag curve from Streamgaging Cableways (Note: not a 2% sag curve) Older systems should use sag curve from Circular 17 (Pierce, 1947), presented in Streamgaging Cableways 3% sag line
System Hardware Sheaves Saddle blocks Eyebolts Clips
Sheaves/Saddle Blocks Strength Efficiency - Bending wire rope reduces its strength. To account for the effect of bend radius on wire rope strength when selecting a sheave or saddle block, use the table below: D/d ratio should be > 10 (Streamgaging Cableways) D/d ratio for a pipe A-frame and 1” cable is approximately 6 (not within USGS standards) Ratio D/d Strength Efficiency Compared to Catalog Strength in % 40 95 30 93 20 91 15 89 10 86 8 83 6 79 4 75 2 65 1 50 D: diameter of sheave, saddle block, etc. d: diameter of main cable
Working Load Limit (lbs.) Eyebolts Forged, shoulder-type bolt Bolts must be sized to meet load (1” minimum; Streamgaging Cableways) ONLY 30% efficient at 45° angle!!! Table 1 (In - Line Load) Size (in.) Working Load Limit (lbs.) 1/4 650 5/16 1,200 3/8 1,550 1/2 2,600 5/8 5,200 3/4 7,200 7/8 10,600 1 13,300 1-1/4 21,000 1-1/2 24,000
Backstay Tension Calculations Forces exerted on backstay cables vary for different angels Values were obtained from Sverdrup Technologies report; Sverdrup performed the engineering analysis for current USGS cableway systems *** A 1-inch shouldered eyebolt pulled at a 45° angle is rated for a working load of 3,990 lbs
Failed Eyebolts Not shouldered; not forged Eye is welded shut Long shank; eye should be flush to bearing plate Undersized Placed horizontal not vertical Not-shouldered; not-forged Eye was welded to bolt Undersized (*** This eyebolt failed during a load test before reaching the 2,250 lb design load)
Clips Clips should be installed with saddle on “live” end of cable as shown: NEVER reuse clips; throw old clips away!!! What if clips have been installed the wrong way? Leave original clips in place; install new clips, in the correct direction, in the spaces between the original clips Or if possible; remove clips, cut off “used” portion of cable and install new clips according to manufacturers directions (see Streamgaging Cableways)
Clips-continued When installing new clips on a new cable: Follow instructions in Streamgaging Cableways Install first (one base width from end) and last (as close to the loop as possible) clips and then install remaining clips equally spaced between the first two No standard spacing between clips; depends on turnback length Re-torque after first use and again after any larger than normal loads have been placed on the system If there is a need or you want to check torque during annual inspections, set torque wrench to one setting less than the required torque
Other Issues Cable-cars Load Testing HIF Cars Non-HIF Cars Retrofits are required on all stand-up cars (Nov 1997) (Retrofit kits are available from the HIF; part #2601030) Retrofits are required on all sit-down cars (Sept 2002) (Retrofit kits are available from the HIF; part #2602010) Non-HIF Cars Currently working on a plan for testing non-HIF cars for compliance Load Testing Consult Regional Cableway Specialist before deciding to load test a structure
Inspection Checklist Official Western Region inspection checklist (WR Policy Memo – July 18, 2002) http://1stop.usgs.gov/Safety/Topic/checklists/cableway_inspection_checklist.pdf This checklist should be used by all Western Region Districts for future annual inspections Take note of the “Inspection Results” box (at the end of the inspection, determine whether or not the structure is SAFE to use) UNSAFE cableways must be condemned and removed from service until repaired (WR Policy Memo – June 14, 2002) (includes being locked with a non-USGS lock or having the cable car removed immediately following the inspection; include a sign: “Removed from Service”)