Skid top

A skid top for protecting a skid load of material includes a paperboard sheet having a planar dimension generally corresponding to the length and width of the skid load upon which it is to be used and a peripheral frame laminated thereto formed of laminated paperboard members folded upon themselves and laminated to themselves. In a presently preferred form, the paperboard sheet includes side flaps adapted to be bent down over the top edge of the skid load and paperboard slats laminated to the side flaps. The invention is characterized in part by its improved design, light weight, ease of handling, economies of manufacture, and the improved protection it provides to skid loads.

BACKGROUND OF THE INVENTION 
In the shipment of the wide variety of materials and articles of 
manufacture, a pallet load of material often is accumulated and placed on 
a wooden skid or pallet such that it may be picked up and moved by a 
standard forklift truck. The load is secured to the pallet by means of 
tensioned high strength steel or plastic strapping passing over the load 
and down around the pallet. Material which is shipped in this manner spans 
the gamut from fine paper to printed products, such as newspapers, 
advertising inserts and magazines, to boxed, cartoned or otherwise 
packaged goods, such as bottles, cans and boxes. The range of different 
goods and applications handled in this manner is virtually limitless. In 
each case, the load must be protected both from the force of the tensioned 
strapping itself passing over the edges of the load and damage from 
knocking, denting, and abrasion with adjacent loads or with the truck or 
railway car in which the load is shipped. 
Protection of the load has been provided in the prior art by forming a 
wooden frame having a length and width generally corresponding to the 
length and width of the skid. The wooden frame is placed on top of the 
load and the strapping passed over the edges. The use of wood has a number 
of disadvantages including the accumulation of dirt and the presence of 
moisture which can transfer to the load. Moreover, wood is heavy 
increasing the shipping weight, bulky taking considerable room to store, 
unwieldy making it hard to handle, and expensive. Further, the wood frames 
do not provide complete protection to the top of the load; and, even where 
a separate sheet or moisture barrier material is provided to protect the 
top of the load, provides no protection whatever to the sides of the load 
at the top edges. 
Some shippers have substituted the use of rigid preformed paperboard angles 
for the wood frames. In this application, laminated paperboard which is 
glued, treated and formed into rigid right angles is either glued or 
stapled into a frame which fits down around the top of the skid load. A 
single sheet of paperboard may be interposed between this frame and the 
top of the load to provide protection to the top of the load. The 
strapping is then passed over the right angle to secure the load to the 
skid. This particular form of corner protection has advantages over the 
use of a wood frame in that it cushions the load edges against hard knocks 
and strap indentation, replaces expensive lumber, and provides for some 
protection of the top side edge of the load. On the other hand, the use of 
such paperboard angles has a number of disadvantages in comparison to the 
present invention in that additional labor is required to form the angles 
into a frame and handling problems are encountered in the moving and 
placing of that frame about the top of the skid load. All in all, such 
angles are relatively unwieldy to assemble and to place on the load and 
require additional labor. 
SUMMARY OF THE INVENTION 
It is among the principal objectives of this invention to provide an 
improved skid top overcoming the disadvantages and objections inherent in 
the use of the wooden frames described above and in assembled pieces of 
preformed paperboard angles. In its general aspect, the present invention 
includes a paperboard sheet of planar dimension generally corresponding to 
the length and width of the skid load upon which it is to be used and a 
peripheral frame of paperboard slats laminated to the marginal side 
portion of the paperboard sheet. The paperboard slats are made from 
multiple plies of laminated paperboard which are then folded over and 
laminated to themselves to provide a paperboard slat having excellent beam 
strength as well as a rounded edge at the fold providing a rigid edge to 
resist indentation by the tensioned straps securing the load to the skid. 
In one presently preferred form of the invention, the paperboard sheet 
includes side flaps hinged thereto which are adapted to be bent downwardly 
around the top side edge of the load. Paperboard slats like those adhered 
to the planar face of the paperboard sheet are laminated to these flaps to 
provide substantially improved cushioning of the load edges against hard 
knocks and strap indentation as well as abrasion from adjacent loads 
during handling, storage, and shipping. 
The present invention provides a skid top which is substantially lighter 
than the wooden frame, e.g., on the order of 10 pounds versus 50 to 80 
pounds. It is also cleaner in that it does not trap dirt and does not have 
a moisture problem as wood frames do. It requires less room to store and 
protects the product better particularly in the critical area of the top 
side edge where an adjoining skid or transportation vehicle such as a 
trailer or railway car can abrade or damage the load at the top of the 
skid. Moreover, the paperboard can be coated with a moisture resistant 
compound or polyethylene can be extruded on it. Therefore, there is no 
need to place a separate moisture barrier between the top of the load and 
the skid top thereby providing better protection and saving assembly time. 
Still further, the skid top of the present invention provides a large labor 
savings over the stapling of preformed angles into a frame and is 
substantially easier to handle and place on the top of the load. In the 
embodiment including the side flaps to be bent down around the top side 
edges of the load, the strength of the two paperboard slats laminated to 
the underlying paperboard sheet provides substantial strength at the apex 
to resist strap indentation allowing the straps to be tensioned tightly 
without damaging the product. 
In addition, the present invention is characterized by a wide degree of 
flexibility in design. As stated above, the skid top can be manufactured 
either with or without side flaps depending on application. The particular 
form of the paperboard frame laminated to the underlying paperboard sheet 
may be modified to add additional members and place their joints in any 
configuration to best resist the tension of the straps. The skid top can 
be manufactured such that the paperboard frame and side flaps with 
paperboard slats laminated thereto can be on the outside of the load or 
inverted and placed adjacent the load as desired for a particular 
application. 
In summary, the present invention provides a substantially improved skid 
top for protecting a skid load of material which is cleaner, lighter in 
weight, more economical to manufacture, which provides better protection, 
and which saves time in handling and application than heretofore available 
in the prior art.

DETAILED DESCRIPTION OF THE INVENTION 
Referring now to FIG. 1, there is illustrated a skid load 10 of a stack of 
material such as a stack of fine paper. The paper is stacked on a wooden 
skid 12 which includes a pallet 13 and underlying wooden cross members 14 
permitting the tines of a forklift truck to be inserted below the pallet 
13 for lifting of the skid load 10. A skid top 16 is placed on top of the 
stack of paper and, in the embodiment illustrated in FIG. 1, includes side 
flaps 20 which are bent down to cover the top side edges of the stack. 
Tensioned straps 18 pass over the skid top 16 and down around the skid 
load 10 to secure the skid top 16 and stack of paper tightly to the wooden 
skid 12. 
Referring in addition to FIG. 2, the skid top 16 is shown in more detail. 
The top includes a paperboard sheet 22 having an overall planar dimension 
generally corresponding to the length and width of the skid load upon 
which it is to be used. The paperboard sheet 22 includes four side 
portions 24 integrally hinged thereto which with slats 28 hereinafter 
described form side flaps 20 adapted to be bent downwardly about the top 
of the load as shown in FIG. 1. The paperboard sheet 22 can be either 
laminated or unlaminated depending on the particular application. 
Generally, the thickness of the sheet is in the range of 0.09 to 0.60 
inch. The sheet may be either uncoated or coated with a moisture resistant 
material to protect the top of the load. Alternatively, a coating of 
polyethylene can be extruded on the surface of the paperboard to provide a 
moisture barrier. The width of the side flap portions 24 is generally on 
the order of 2 to 3 inches to protect that portion of the top of the load 
10. 
A peripheral frame 26 is formed of paperboard slats 28. These slats 28 are 
laminated to the top of the paperboard sheet 22 around a peripheral edge 
to form the rigid frame 26. There is no need to join the paperboard slats 
28 to each other at their joints as the individual slats 28 are adhered to 
the surface of sheet 22. However, they can be joined if desired. 
A top paperboard sheet 30 having generally the same dimensions as the 
bottom sheet 22 is then placed upon the frame 26 and laminated thereto 
sandwiching the frame 26 between two sheets of paperboard 22, 30. The top 
sheet 30 may be of the same thickness and weight as the bottom sheet 22 
and again may be coated with a waterproof material to protect the top of 
the skid load. Optionally, the top sheet can be dispensed with altogether 
and the skid top formed solely of the paperboard sheet 22 and the frame 26 
laminated to the top surface thereof. 
Paperboard slats 28 are likewise laminated to the side flap portions 24 as 
shown in FIG. 2. These slats 28 substantially reinforce the side flap 
portions 24. 
Referring now to FIGS. 4A and 4B, the construction of the paperboard slats 
28 is shown in more detail. The paperboard slat 28 may be formed of 
various configurations. Two alternatives are illustrated by FIGS. 4A and 
4B, respectively. In each embodiment, multiple plies 32 of paperboard are 
laminated and glued together. This laminated paperboard is then folded 
upon itself and glued thereto along a line 34 to provide a slat having a 
width "W" and thickness "T". As seen, the slat 28 has at least one rounded 
edge 36 (FIG. 4B) or a pair of rounded edges 36 (FIG. 4A). Although the 
slat 28 could be formed of a width "W" merely by laying up and laminating 
multiple plies of paperboard of width "W", it has been found that 
exceptional beam strength in the slat is provided by first forming the 
multiple plies and then folding the element upon itself and gluing it to 
itself along line 34. This fold gives the slat more strength using the 
same amount of paper or the same strength with less paper then merely 
laminating multiple plies. 
In FIG. 4A, the slat 28 is formed by folding two side edges of width "X" 
("X"="W"/2) and thickness "T"/2 together and laminating them to the center 
section to provide an overall width "W" and thickness "T". In a presently 
preferred form of the invention, the dimension "W" is on the order of 
11/2to 4 inches and the thickness "T" from about 0.040-0.050 inch to 0.04 
inch. 
It has been found that the embodiment shown in FIG. 4A has certain 
advantages over that shown in FIG. 4B in that the double fold tends to 
lessen warpage and give a more even product. Additionally, in the 
embodiment shown in FIG. 4A, a single sheet of paperboard may be placed 
over the top surface to provide uniformity or the outer paperboard ply of 
one of the folded portions can be extended over the other folded portion. 
Referring back to FIGS. 1 and 2, the paperboard slats 28 are laminated to 
the marginal side portions of the paperboard sheet 22 to form a peripheral 
frame 26 and to the side flaps 24. Preferably, the rounded edge 36 created 
on folding is disposed toward the hinge of the paperboard joining flaps 24 
to sheet 22. As is known in the art, the tension applied to the straps 18 
securing the load to the skid can be very high tending to cut into the 
load. The paperboard slats 28 having folded edges 36 at their apexes have 
been found to provide excellent resistance to strap indentation. 
Referring now to FIG. 3, an alternative embodiment is shown differing from 
that shown in FIG. 2 in two respects. First, additional paperboard slats 
28 are provided in the frame 26 to provide additional resistance to the 
tension of the strap. That is, when straps are applied to the load in 
either one direction or in two directions, i.e., both across the length 
and width of the load, the most tension in the strap is in the direction 
of the first strap tensioned. Thus, additional paperboard slats can be 
provided in this direction to resist this tension. For example, arrow A in 
FIG. 3 can represent the direction of the first strap to be tensioned. The 
additional paperboard slats 28 thus lie in the direction of arrow A 
providing increased resistance to strap tension. 
Second, if desired, the corners of the side flaps 20 can be clipped to 
facilitate the downward folding of the side flaps. 
FIG. 5 illustrates in this regard the same embodiment as FIG. 2 with the 
side flaps 20 likewise clipped to facilitate downward folding of the side 
flaps 20. 
As stated above, a number of alternative forms of the skid top can be 
adapted depending on the type of load being shipped. For example, when 
shipping a skid of bottles or cans or anything in cases, side flaps 20 are 
generally not needed. However, when shipping stacks of paper, printed 
newspaper advertising inserts, or cartons or the like, the use of side 
flaps 20 provides substantial protection to abrasion and damage to the 
paper at the top of the skid. Still further, the side flaps can be of any 
desired width and can even include more than one paperboard slat such that 
depending on the width of the load, one or more of the slats can be folded 
downwardly to conform to the load width. 
Still further, in the embodiment shown in FIGS. 1 and 2, the frame 26 and 
slats 28 adhered to the side flaps 24 of sheet 22 are outside of the load, 
i.e., the paperboard sheet 22 is interposed between the slats 28 and the 
load 10. Alternatively, the side flaps 20 could be bent upwardly 
(sufficient clearance with slats 28 of frame 26 being provided) and the 
entire top 16 inverted and placed on the load such that slats 28 of frame 
26 and side flaps 20 face the load with the sheet 22 being outside 
thereof. This may be desired in some applications. 
Although the invention has been described as used in association with a 
wood pallet and with strapping passing therearound, it will be appreciated 
that other forms of packaging could be employed including the use of 
paperboard slip sheets in place of the pallet and plastic film such as 
stretch or shrink wrap film in place of the strapping.