Multi-purpose foldable M-frame transport and storage apparatus for slabs, panels and other flat sheet products
An improved apparatus and method for the transport of multiply slabs of panels including slabs of marble, granite, stone, glass, and heavy objects. At least one set of foldable A-frames hinged and secured to the base and an optional securing assembly. The base is an elongated frame comprising of at least two tunnels to provide means for fork lifting and U bars for over head lifting, cross members for support, pad plates covered by rubber wedge to stabilize cargo. The top supports, A-frames, are cushioned with appropriate resilient material.
This application claims the benefit of provisional patent application Ser. No. 60/782,035, filed Mar. 14, 2006 the present inventors.
FEDERALLY SPONSORED RESEARCHNot Applicable
SEQUENCE LISTING OR PROGRAMNot Applicable
BACKGROUND OF THE INVENTION1. Field of the Invention
This invention relates to machines and processes used to transport and store flat sheet products, specifically to an improved method and apparatus for transport of heavy stone marble and granite panels or slabs.
2. Prior Art
Heavy flat sheets or slabs pose safety issues in additions to excessive storage and transport expenses. An average individual truckload of rock or marble slabs can weigh between 20,000 to 40,000 pounds.
Cranes have been used for years in the transport of rock and marble. Presently rock and marble slabs are transported vertically on storage racks strapped to the bed of trucks or placed in wood crates sometimes nailed together for support and stability. Often A-frame structures are used in the slab and panel transport industry by strapping the slabs to the A-frame.
The heavy weight and size of granite and marble slabs create safety hazards, storage and space limitations, and excessive transport and delivery expenses. Additional expenses are incurred in returning the transport devices back to the supplier after cargo has completed its destination.
Pursuant to the Occupational Safety and Health Act; stating, “employers must provide their employees with a workplace free from recognized hazards likely to cause death or serious harm,” necessities new development. The Occupational Safety and Health Administration issued several bulletins alerting employers to the hazards associated with handling and transporting heavy slabs and challenged the industry to design adequate means and methods for storage and transfer of rock slabs (shib Sep. 8, 2005).
Storage problems occur during and after transport. During transport shifting occurs on the A-frames, wooden crates and storage racks. The racks and frames become deformed and fail, as a result, the slabs may shift or fall while they are being unloaded. The present A-frames have not been designed to take into account the weight of the slabs. The A-frames also have not been designed to prevent shifting of other slabs if one of the slabs either shifts or is removed. The slabs can also shift or fail due to failure, or to improper placement of the restraining devices.
The A-frame appears to be the most popular means for transporting slabs, and after delivery the A-frame is returned to the supplier empty taking up just about as much space on the return trip as it did during delivery. Problems with the wooden crate after delivery evolve around having to hand saw them out one at a time and separate with a forklift. Due to the size and weight of the crates the probability of tipping over during lifting and forklift use is probable. There is very little space for the forklift positioning pickup from the bottom location of the slabs. Tausheck, in U.S. Pat. No. 3,765,550 (1971) presents a dolly for lifting and transporting large flat sheet products, which is limited to one flat sheet product.
Several examples of transport dollies used for panels exist, but very few exist for the support of heavy slabs. In U.S. Pat. No. 2,006,197,298 to Shore (2006) Dock Plates are used at loading docks to provide a path for loading and unloading goods between a truck bed and a loading dock. Normally dock plates are made of heavy metal; therefore, requiring frequent replacement of the wheels used to transport and store the dock plate dolly.
U.S. Pat. No. 5,085,329 to Crowell and Kellerman (1992), a sheeting or panel support invention using an A-frame at each end with a base to create a support system that stores and holds panels in place. Such a sheeting support system is difficult to transport, but the system can maintain heavy weighted objects. U.S. Pat. No. 6,866,463 Riordan, Liggins, Colberg, A dolly known as the E-Frame system is used in manufacturing operations. Each E-frame dolly is removable and the wheels are used for mobility. E-frame has ease of mobility but limited to objects that do not have excessive weight.
Transporting apparatuses using lifting platforms, such as in U.S. Pat. No. 5,411,360 to Hilliker and Malley (1995) create complexity in the use of inflated airbags to lift and transport slabs. The A-frames must be disassembled and the racks stacked in relationship for return shipment and storage. Disassembly takes time and man power.
Clamps and pins are used in U.S. Pat. No. 5,899,560 to Collins (1999) to prevent the slab cart frame assembly from spreading apart when the clamps are engaged. The slab cart is built strong enough to carry marble, granite, stone, glass and other heavy objects, but it is limited to one slab placed between a pair of elongated frame members and wheels mounted hereto. A clamp for shock absorption is also used in U.S. Pat. No. 4,695,067 to Willey (1987), which is a wheeled article carrier for transporting elongated articles.
U.S. Pat. No. 6,601,892 to Scarborough (2003) discloses the use of two channels connected by a cable. Lifting of the cable lifts the channels and the slab for moving and relocation. Moving and transporting heavy slabs of marble and rock panels by crane in U.S. Pat. No. 1,272,359 to Bell (1918) challenges the same problems of today. Transport and storage of heavy marble and stone slabs suffer from a number of disadvantages:
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- (a) The use of A-frames strapped to the bed of a truck creates safety hazards due to unbalance loads in transit and deliver.
- (b) Wood crates nailed together can shift in transit and must be hand sawed out one at a time and separated with a forklift.
- (c) Extra tools are needed to assemble and disassemble wood crates.
- (d) Transport means lack accountability for heavy weighted slabs.
- (e) Restraining devices are not strong enough to withstand weight and shifting of slabs.
- (f) After delivery, the A-frames are returned to the supplier empty, thus taking up as much space on the return trip as they did during delivery of cargo.
Several objects and advantages of said invention are:
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- (a) to provide safe mobilization and transport balanced loads and multiply means of maneuvering loads of slabs;
- (b) to provide a means to carry multiple slabs per load;
- (c) to provide pick-up from either end or either side with a forklift;
- (d) to provide lifting from an overhead crane;
- (e) to provide a method to fold, nest and stack after use to conserve space;
- (f) to provide a storage device for slabs during and after transporting;
- (g) to provide a means to erect and fold A-frames without external hardware;
- (h) to provide strength through design to support heavy loads;
- (i) to provide pad plates to eliminate fasteners;
- (j) to provide a secure strapping mechanism;
- (k) to provide a system with no legs or wheels;
- (l) to provide a smooth surface material to prevent marble from damage and scratches.
Further objects and advantages are to provide an invention of durability with an improved transport and storage means. Still further objects and advantages will become apparent from a consideration of the ensuing description and drawings.
SUMMARYIn accordance with the present invention, named M-Frame, an improved multi-purpose transport and storage apparatus designed to adhere to safety concerns for use in heavy slabs, panels and sheets of stone, marble or other flat sheets. Said M-Frame represents a substantial improvement in the means of transport, delivery, pick-up, stacking, storage, and to everyone's surprise the M-Frame accomplishes all of the above with no need for extra hardware and the need for fasteners (which damage forklifts and cargo) is eliminated.
DRAWINGS—FIGURESIn the drawings, closely related figures have the same number but different alphabetic suffixes.
- 4 flat strip of steel used to form tunnel
- 8 steel channel positioned next to steel strip to form tunnel
- 12 end cross member (metal bar)
- 16 cross member near U bars
- 20 cross member near pivot points of A-frames
- 26 short piece of c-channel—helps support cross member 16
- 30 corner gusset—(all 4 corners) quadrilateral
- 35 rectangular gusset—helps support base
- 40 pad plates—thin steel plates
- 49 U-bars—horseshoe shaped bars
- 53 A receivers—steel pockets to receive floating A-frames when in raised position
- 57 locator angles—narrow strips of angle, helps center frame
- 61 rubber wedge shaped blocks—slips over steel pad plates (40)
- 70 bolts
- 74 square steel tubing (A-frames)
- 78 extruded rubber strip inserted along 74 steel tubing
- 82 flat steel brace
- 86 steel brace at cross member 16
- 90 pivoted sleeve for A-frame anchor A
- 94 welded bar belonging to Floating A assembly welded to tunnels
- 96 flat washers
- 99 hinged barrels
- 100 nuts that affix the rubber blocks to steel pad plates
- 104 long bolt—joining halves of hinge
- 108 nut installed
- 112 short pieces of square tubing
- 118 mounting plate
- 122 solid round bar
In accordance with said M-frame, various embodiments of a folding, transport and storage apparatus generally comprises a base. With reference now to drawings, and in particular to
Generally the base is a horizontal frame that, and along with the rest of the apparatus is constructed of welded, steel tubing connected by welding. Although other materials may be used with appropriate strength and durability to accommodate the size ands weight of the objects to be loaded, we substantially desire the use of steel and welding.
Base 4, 8 and 12 supports at least one folding A-frame stanchion set 74. Attached to the base are members 49, 40, 30, 57, 35, 53, 122, 16, 20, 26,
Referring particularly to
OPERATION—FIGS 1, 2, 4, 5, 6, 7, 8, 9, 10
The manner of using said M-frame, with reference to the drawings begins with
Said U-bars 49 provide pick up locations to attach chains or ropes for lifting points with a crane or can be used in conjunction with strapping support to maintain cargo. Rectangular gusset 35 welds on across the face of 4 to prevent all of the lifting force from being concentrated at the end welds inside the tunnel.
Pad plates 40 are thin rectangular steel plates, each having two threaded studs protruding from the top surface. A-shaped frames 74 with base points 122, 112,94, 118, and top hinge points 82. A-shaped frame consisting primarily of square section tubing with an extruded rubber strip 78 to protect cargo from scratching and damage.
The pivot assembly is built as a unit and dropped into the tunnel valley
The hinged assembly for A-fame structures
Said M-Frame
Method for depicting A-frame into working position
Unlike a stepladder, The A-frame 74 assembly is not portable. In
The act of raising a pair of A-frames consistent with
Said M-Frame in working position
M-frame weight capacity is approximately 9,000 pounds. Cargo panels or marble slabs are placed on both sides of the M-frame structure. Strapping mechanism is optional and can be attached to or around frames, over frames, used in conjunction with U-bars or tunnels. Loaded M-Frame can be lifted by overhead crane or Forklift.
Advantages
From the description above, a number of advantages of said M-Frame become evident:
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- (a) Safety hazards are minimized by the structural design.
- (b) Minimal storage space is used upon return trip to supplier after cargo has been delivered, as M-frame in the resting position can be stacked as high as necessary.
- (c) Substantially no shifting occurs on the M-Frames during storage and transport.
- (d) Forklift has ample space for insertion from both ends, center, and overhead lifting is simplified by use of U-bars
- (e) No parts are removed for folding or in working position, no tools need
- (f) Substantially no damage to cargo due to rubber tubing over frames and rubber block situated on the base of said M-frame
Conclusion, Ramification, and Scope
Accordingly, the reader will see that said M-frame is different in the respect that commercial success has been obtained in an art long felt, but with unsolved need and failure of others. At the request of the Occupational Safety and Health Administration. said M-Frame substantially meets the challenge in reducing hazards to human life, thus the most important aspect of said apparatus. Challenged by the prior art that was not working, namely the A-frame, crates nailed together, and racks, we developed a new combination of the old features and the M-Frame was born. The re-arranged A-frames, no nails, no disassembly; is an unexpected surprise to those in the field.
Furthermore, said M-Frame has additional advantages in that:
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- It eliminates the need for disposable A-frames or wood crates
- folds down to 10″ in height, no tools required
- stackable, saves space in plant and truck
- side and end fork openings, overhead crane and tie down lugs
- 9,000 lb. Capacity
Although the descriptions above contain many specifications, these should not be construed as limiting the scope of said M-Frame.
Claims
1. A multi-purpose foldable transport and storage apparatus for slabs, panels, and other flat sheet products, comprising:
- A horizontal base;
- One or more supports,
- One or more A-frame members joined to said base, said A-frame members having hinged joined upper and lower portions and wherein one or more A-frame member is hinged allowing folding and stack ability,
- an elongate receiving guide way for receiving the lower edge of a flat sheet;
- said frame with a base containing side and end fork openings, overhead crane and tie down U-bars,
- said invention is constructed of substantial material of sufficient size and strength to accommodate cargo.
Type: Application
Filed: Jul 17, 2007
Publication Date: Nov 29, 2007
Inventors: Richard Gardner (Knoxville, TN), Chris Dozier (Knoxville, TN)
Application Number: 11/716,797
International Classification: A47G 19/08 (20060101);