Meco Omaha       Cantilever Rack Shelving Series 1000-5000
	What is Cantilever Rack?
	How to design a Cantilever Rack System?
	Cantilever rack and accessories and heavyweight structural cantilever rack
	Cantilever FREE Quote Request

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Cantilever Shelving Quote Request Form

This sheet is an initial contact form to primarily assist you in designing the best possible system available for your facility. Once you fill out the initial information, we may request additional information. It is important that you complete the quick questionnaire as detailed as possible. We will contact you on the same day of your request or no later than the following work day.

Note: We spend a considerable amount of time and energy designing your system quote to your specifications. In many cases, we spend several hours of pre planning work into your new system so it is a perfect match for your business needs.

Please answer the questions as accurately as possible for your best quote.

Contact Information     Name  Business Name  Street Address Address Continued  City  State Select a State Alabama Alaska Arizona Arkansas California Colorado Connecticut Delaware District of Columbia Florida Georgia Hawaii Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maine Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska Nevada New Hampshire New Jersey New Mexico New York North Carolina North Dakota Ohio Oklahoma Oregon Pennsylvania Rhode Island South Carolina South Dakota Tennessee Texas Utah Vermont Virginia Washington West Virginia Wisconsin Wyoming Zip Code  Telephone E-Mail     Web Site Address International                                           When do you need this Equipment? - Please Select - In 2 weeks In 3 weeks In 4 weeks In over 4 weeks I Need My Quote - Please Select - ASAP In 3 days In 5 days         Pallet & Load     Approximate Specifications   H = Height    W = Width    D = Depth DS - Distance between shelves       Height? Width? Depth? Weight?     Same size pallet and Load? - Select - Yes No     Overhang?       Loading Equipment   Does the customer have a lift truck? If not, how will loads be placed up into the racks? - Select - Yes No     Lift Capacity   Turning Radius   Max lift Height       Building     Length? Width? (Look for obstructions and doors) Height? (Clear)   Seismic Zone? - Please Select - I don't know? 0 1 2a 2b 3a 3b 4     Shelf Loading     Please select Ledge Loading or Shelf Loading below?     Ledge Loading   Shelf Loading   - Please Select - Don't Know? Shelf Loading Ledge Loading   Would you like wire decking?   - Please Select - Yes No Not sure yet   Layout   Once we receive your initial request, we may contact you for a detailed sketch.       Number of Rows? Number of Bays? Number of Pallets per Bay? Flue Space?   Once we receive your initial request, we will contact you for a detailed sketch.   Additional information   Please specify additional detailed information that will help us create      your custom quote.     Thank you for requesting a Free Quote. We pride ourselves in serving our customers!

How to design a Cantilever Rack System

The key to a successful cantilever rack system is the answer to one question: What is the product (load) being stored? The answer must include the length, depth, height and weight of the product. Once this data is ascertained it becomes a simple matter to determine the required arms, uprights and braces.

A. DETERMINE THE NUMBER AND SPACING OF ARMS

The load must be supported by enough arms to prevent load deflection. Deflection may cause damage to the load being stored as well as the arms (figure A1 as shown below).

To detect deflection, place the load over two wooden blocks (to represent cantilever arms) as shown in figure A2.

If deflection is not present it is acceptable to use a two arm system as long as this does not create an overload condition. If the load shows deflection use three blocks as shown in figure A3 or four blocks as in figure A4.

IMPORTANT: The load should overhang the end arms by one-half the distance from upright centerline to upright centerline. Failure to observe this measure may cause an overload condition on the arms.

B. DETERMINE THE LENGTH OF THE ARMS

The depth of the load should never exceed the length of the arm. A 48" wide bundle of plywood requires a 48" long arm, bundles of steel 24" wide require a 24" arm and so on. Rated arm capacities may be seriously diminished if proper loading techniques are not observed. Figures B1, B2 and B3 illustrate correct and incorrect arm loading.

NOTE: All arm capacities are based on an evenly distributed load as in figures B4 and B5 below.

C. DETERMINE THE HEIGHT OF THE UPRIGHT

When determining the height of the upright it is important to consider the ceiling height, forklift reach, sprinkler systems and other factors, such as local building codes that might affect the overall height. The height of the upright in figure C1 is determined by adding the base height, the number of loads to be stored, the arm thickness plus 6" clearance between the load and next arm.

IMPORTANT: The load placed on the base does not diminish the rated capacity of the upright. Thus, the heaviest loads should be placed on the base.

D. DETERMINE ARM AND UPRIGHT CAPACITIES

As previously discussed, each arm supports an equal amount of the load’s weight. By determining the number of arms per level and dividing it into the weight per level, the required arm capacity can be determined (see example at above). To determine the required capacity of each upright, multiply the number of arms per side by the load on each arm. In figure D1, each arm holds 2500 lbs. Twelve arms per side times 2500 lbs. per arm equals 30,000 lbs., which when divided by three uprights, results in a required minimum capacity of 10,000 lbs. per upright. The correct upright can be selected by matching the minimum upright capacity of 10,000 lbs. with the upright capacities set forth on the following pages. Assuming a 48" arm, the U1061-NS on page 22 with 10,200 lbs. capacity and the U1061 on page 23 with 12,600 lbs. capacity are the only uprights that will handle the load. NOTE: The Series 1000 MU1057 has only 3100 lbs. capacity while the Series 2000 2U1062 has 8600 lbs. capacity.

E. DETERMINE BRACE LENGTH

Brace length is defined as the horizontal distance from centerline of upright to centerline of the next upright. Refer to the various brace set charts for the brace length that most closely matches the arm spacing determined in step A.

Now that you know how to design a Cantilever Rack System, all you have to do, is to add the specifications into our on-line quote system and we will provide you with a free quote.

Click here to request your Free Quote for your custom Cantilever Shelving project.