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Beware ta of ck ha? I- ? {s
eccentricity of column loading. Each manufacturer designates a style of beam-to-column connection, either tabbed, slotted, bolted or clipped with locking clips.
Solution: Each beam-to-column connection should be checked to make sure it is consistent with the manufacturer's connection style and installation instructions.
5 Inadequate Clearances
tures. Often the front frame is anchored out of alignment in one bay and spreading support rails in the adjacent bay, which could contribute to pallet fall-through. Fork truck and stacker interference caused by rack misalignment can also lead to permanent deformation of the rack.
Solution: Most misalignment hazards can be safely eliminated by adherence to the manufacturer's installation drawings and specifications. Check all connections to make sure they are on the proper levels; all plumbing should be done on the vertical plane to make sure that the rack is properly aligned from front to back. Shimming and plumbing should be done on the horizontal plane to make sure the rack is level.
2. I-p.op"r Beam Installation
Improper beam installation can adversely affect shelf capacities and
Inadequate clearances involve improper openings for handling equipment and inadequate load-toload dimensions at various levels. Improper and unsafe clearances are caused by placing loads too close together or on top of each other, making material more easily dislodged.
Solution: Set up the rack for prop er clearance as outlined by the manufacturer. Make sure that when a pallet is lifted out from a set of beans or from a bay level there is ample room to clear the front and back beams.
4. f-p-p"r Aisle Width
Changes in the size of loads or type of forklift used or protrusions into the aisle may result in undersized aisles. Inadequate clearance may prevent op€rators from turning into a bay opening or pulling a load out of an opening.
Solution: Refer to the original drawings of the manufacturer's designs and the original layous ofthe racks at installation and verifv the consistency of the pallet load to the beam spacing to the aisle width. Determine what size aisle best accommodates the particular material handling equipment and ensure adequate load-to-load dimensions. If necessary, change the rack positioning for new material handling equipment.
t D. Dislodgment of Accessories
Many rack installations have accessories (front-to-rear supports, straight decks, grid decks, ledges, cradles) that can be dislodged by material handling equipment.
Solution: Have a professional maintenance program that requires checking fasteners and verifying that all loose accessories. cradles and materials are indeed fastened as prescribed by the manufacturer.
D. Spillage of Goods
If unstable loads are stored, items may fall behind racks, into adjacent sections or protrude into the aisle. Bulk material that hangs over a pallet can be easily dislodged when the pallet is raised. The spillage can harm the materials as well as the rack system.
Solution: In bulk storage racks, take care to ensure loads are intact and bound by plastic wrap or secured in bins or by ledging materials. Make periodic inspections to ensure there are no loose packages that will be dislodged when the load is removed from the rack. Spilled material should be picked up immediately.
7. obstructions
Often when there is not enough room in the rack for the material to be stored, aisles become filled with pallets, threatening the safe operation of the racking system. Floor obstructions and litter in aisles and around the rack are also serious hazards.
Solution: Prohibit pallets on the floor and institute a'Janitorial" program around the racks on a fixed schedule.
8. Delicient Handling Equipment
The condition of forklifts. sideloaders and hand trucks and the way they are operated can directly affect the safety of rack structures. Equipment deficiencies include poorly maintained equipment (e.g., bad wheels or hydraulic units, defective or misaligned forks and inexperienced operators.
Solution: Have fixed programs for equipment maintenance, inspection and operator training.
0. Da-aged Racks
Most rack damage is due to continuous battering over the years by trucks and handling equipment. The battering can accumulate in magnitude, gradually reducing the overall structural capacity of the rack and possibly resulting in rack failure.
Solution: To minimize collision damage, use aisle guards. A guard can either be a device that is secured to a column to strengthen it or a sacrificial type of structure that protects the column, particularly at important traffic areas.
Damaged racks should be replaced. As soon as a column becomes twisted or distorted, the rack should be unloaded and the section removed and
Story at a Glance
11 potential perils in storage racks steps to detect problems and prevent disaster.
replaced with a new upright section.
10. n"t".iorated Racks
Some racks are set up outdoors, near heat treating areas, or where acid and salt corrosion is in the atmosphere. They may deteriorate and rust, reducing rack capacities.
Solution: Inspection and maintenance are the solution. Vulnerable systems should be bolted with plated bolts. When rust appears, racks should be wire-brushed and coated with a corrosion-resistant coating, such as an epoxy or suitable corrosion protection material. If there is any indication that the connections are impaired, corroded racks should be removed.
ll. n""- Spreading
Spreading results from shocking or overloading a set of beams, causing deformation at the connection, pulling away from the upright column, and possible collapse.
Solution: A routine inspection program is needed. To verify this condition, remove all damaged beams, replace them with proper beams and realign the rack using manufacturer' s instructions.
Maintaining Your Racks For Safety
Inspecting Racks
Inspection programs vary in accordance with :the size and intended use of each rack installation. Make timely visual inspections to::ensure the integrity of racks. Enqourage and expect personnel to report any rack dam4ge as soon as it occurs.
E. correcting Damage
Since 907o of rack damage occurs between the floor anO nrst horizontal beam, most damage can be seen from floor leiel. Check with the ra"t *anufacturer for advice on the proper means to correct damage. In most cases, dimpled, buckled or severely bent rack components should be replaced. Moderate damage, such as denting or,,sli,ghtlV, skewingr:uprigh.t Col:Umns:,: Can be, Corrected ,by adding b'racing or splices or simply heating the member and returning it to vertiiit.
E, Preventing Rust
Rack use dictates the importance of rust prevention or touch-up painting. Any high rnoisture or cooler application calls for:Careful attention, to paint Cond-itions;, A!! componentS from floor to ceiling should [re Checked, though less frequently than damage:checks;
D. tigt t*oirrg Lags
Racks and con,necting bolts should be tightened in accordance with manufacturer-supplied torque data, since the security of the entire qystem depends on proper fastenint, Conduct random checks to ensure therehas been no loosening.
E. Housekeeping
Cleanliness and proper lighting are keyS to a well-iun operation, hoper lighting facilitates rack enty and pallet placement and aids in reducing rack damage.
- Rack Manufactirers Instirute
