LOW FRICTION SKID BARS FOR MATERIAL HANDLING EQUIPMENT

Abstract

A low friction construct attached to a top plate of forks of a material handling device. The low friction construct is positioned under the forks and inboard of downwardly extending sides of the forks. The low friction construct has an elongated low friction material that extends below the downwardly extending and spaced apart sides of the forks. The low friction material contacts a pallet as the pallet is engaged. The low friction material tends to slide over the lower frame of the pallet, reducing the likelihood of pushing the pallet away.

Claims

1. A low friction construct for a material handling device, comprising: a first elongated support frame, a first elongated low friction material, wherein the first elongated low friction material is attached to the first elongated support frame, and wherein the first elongated support frame and first elongated low friction material are constructed and arranged to be positioned beside and generally parallel to a first downwardly extending side of a fork of a material handling device and inboard of the first downwardly extending side of the fork of the material handling device, and wherein the first elongated support frame is constructed and arranged to be attached to a top surface of the fork of the material handling device, and wherein the first elongated low friction material extends below a bottom surface of the first downwardly extending side of the fork of the material handling device.

2. A low friction construct for a material handling device as described in claim 1, further comprising: a second elongated support frame, a second elongated low friction material, wherein the second elongated low friction material is attached to the second elongated support frame, and wherein the second elongated support frame and second elongated low friction material are constructed and arranged to be positioned beside and generally parallel to a second downwardly extending side of a fork of a material handling device and inboard of the second downwardly extending side of the fork of the material handling device, and the second elongated low friction material is spaced apart from the first elongated low friction material, and wherein the second elongated support frame is constructed and arranged to be attached to the top surface of the fork of the material handling device, and wherein the second elongated low friction material extends below a bottom surface of the second downwardly extending side of the fork of the material handling device.

3. A low friction construct for a material handling device as described in claim 2, further comprising a bridge constructed and arranged for positioning under the top surface of the fork of the material handling device, wherein the bridge connects the first elongated support frame to the second elongated support frame.

4. A low friction construct for a material handling device as described in claim 2, further comprising a bridge constructed and arranged for positioning under the top surface of the fork of the material handling device, wherein the bridge connects the first elongated support frame to the second elongated support frame, wherein the bridge is constructed and arranged to be attached to the top surface of the fork of the material handling device.

5. A low friction construct for a material handling device as described in claim 1, wherein the first elongated support frame is constructed and arranged to contact the downwardly extending side of the fork of the material handling device.

6. A low friction construct for a material handling device as described in claim 1, wherein the first elongated low friction material is constructed and arranged to contact the downwardly extending side of the fork of the material handling device.

7. A low friction construct for a material handling device as described in claim 2, wherein the first elongated low friction material is positioned generally parallel to the second elongated low friction material.

8. A low friction construct for a material handling device as described in claim 1, wherein the first elongated low friction material is a thermoplastic having an ASTM coefficient of friction of 0.25 or less.

9. A low friction construct for a material handling device as described in claim 1, wherein the first elongated low friction material is ultra high molecular weight polyethylene.

10. A low friction construct for a material handling device as described in claim 1, wherein the first elongated low friction material is tapered along its length to extend further beyond a bottom surface of the first downwardly extending side of the fork near a rear of the elongated low friction material.

Description

BRIEF DRAWING DESCRIPTION

[0005] FIG. 1 is a side elevation of a pallet jack and having the elongated low friction construct attached to a fork of the pallet jack.

[0006] FIG. 2 is a partial perspective view of an embodiment of the low friction construct mounted to an underside of a fork of a material handling device.

[0007] FIG. 3 is an exploded view of the embodiment of the low friction construct of FIG. 2.

[0008] FIG. 4 is a sectioned view of the low friction construct and fork, with the low friction construct engaging a pallet.

[0009] FIG. 5 is a partial perspective view of another embodiment of the low friction construct mounted to an underside of a fork of a material handling device.

[0010] FIG. 6 shows the pallet jack of FIG. 1 engaging a pallet.

DESCRIPTION OF PREFERRED EMBODIMENTS

[0011] FIG. 1 shows a typical manual pallet jack 20 or hand truck having a tow bar 22, forks, front wheels 24 and rear wheels 26. The low friction construct 2 of the invention is shown as extending below the downwardly extending sides 4 of the forks 6. The forks as shown are in a lowered position. The manual pallet jack is shown as an example for demonstration purposes. The invention is also applicable to and useful with powered pallet jacks and other material handling devices having forks constructed to engage and transport pallets.

[0012] Typical forks 6 of material handling devices comprise a top plate 8 having a general flat and planar top surface. FIG. 4. On opposing sides of the top plate 8 are downwardly extending sides 4. The downwardly extending sides are typically positioned under the top plate at, or near, opposite terminal sides of the top plate, as shown in the drawing figures. The downwardly extending sides extend downwardly from the top plate of the fork. The pair of downwardly extending sides on each fork are generally parallel to each other so as to leave an open area between them. The sides of the downwardly extending sides that face the open area are defined as the inboard sides of the downwardly depending sides.

[0013] The low friction construct 2 for a material handling device comprises a length of low friction material 10. The elongated low friction material has a coefficient of friction relative to a wood pallet or concrete floor that is substantially less than steel of which the downwardly extending sides of typical forks are formed, which is critical to the invention. The elongated low friction material is preferred to have an ASTM coefficient of friction of 0.25 or less. Ultra high molecular weight polyethylene (UHMW) is preferred to be used as the elongated low friction material for both its low friction characteristics and its wear resistance to abrasion when used with wood pallets and a concrete floor. Other materials that may be used for the low friction and abrasion resistant material are plastics, ultra-high molecular weight plastics, high-density polyethylene, or ultra high-density polyethylene. Specific materials may include including acetal, polyimide, nylon, PTFE, PEEF, and polyester resins including acetal, polyimide, nylon, PTFE, PEEF, and polyester resins. These plastics, thermoplastics and other materials have a coefficient of friction that is substantially less than steel when used in the described application.

[0014] As shown in FIG. 2, the low friction material 10 is mounted under the top plate 8 of the fork and to an elongated support 12. In this embodiment the elongated support 12 is substantially as long as the elongated low friction material. The elongated support 12 is attached to the top plate of the fork. The low friction material and elongated support are mounted adjacent to, and may be in contact with the downwardly extending sides of the fork. The low friction material and elongated support are mounted to the top of the fork inside/inboard the downwardly extending sides of the fork. Two (2) of the elongated low friction material are used for each fork in a preferred embodiment, with each low friction material mounted to its corresponding support frame, with one elongated support material adjacent to one of the downwardly extending sides as shown in the drawings.

[0015] In the embodiment shown in FIG. 2, a bridge 14 is provided in the space formed between the downwardly extending sides 4 and the top of the fork 8. The bridge is mounted to the top of the fork, and may provide the mounting contact for the elongated support. Use of the bridge, and mounting the elongated low friction material and the elongated support adjacent to the inside of the downwardly extending sides provides support for the low friction material as it contacts skids, provides a unitary construct that is beneficial to assembly, and improves rigidity and durability of the construct.

[0016] The elongated low friction material extends below the downwardly extending sides. The elongated low friction material also extends below steel skid bars 16 that are attached to many forks currently in use.

[0017] FIG. 3 shows an embodiment of the low friction skid bar construct 2 having the elongated low friction material 10, the elongated skid bars 4, the elongated supports 12, and the bridge 14 formed as a unitary construct. The low friction skid bar construct is shown as exploded away from the fork. The unitary construct may be assembled as a unit, and then mounted as shown to the top of the fork. Fasteners such as screws 18 may be used to attach the construct to the top of the fork 8. Fasteners are preferred to be sunk below the top surface of the fork on the upper side of the fork to not extend above the top surface of the fork and interfere with pallet loading. In another embodiment, bridge 14 and/or the support frames 12 are welded to the underside of the top plate of the fork.

[0018] The support frames are formed with recesses 30 as required to conform to any support structure 32 or other items that are present under the fork. Bridge 14 may be a generally flat plate that extends between and connects the elongated supports. The unitary low friction skid bar construct 2 is formed and arranged so that the elongated skid bars are generally parallel to and adjacent to the downwardly extending sides of the fork.

[0019] FIG. 4 shows a sectioned view of a fork for a material handling device having with elongated low friction material 10 mounted adjacent to each of the opposing downwardly extending sides 4 of the fork and inside/inboard of the downwardly extending sides of the fork. The elongated supports are mounted to the top of the fork either by direct attachment to the top plate of fork 8, or by providing a bridge 14 that connects the elongated supports 12. The elongated low friction material extends below the downwardly extending sides of the fork, so as to contact a lower surface or wooden board of a pallet 34.

[0020] FIG. 5 shows another embodiment of the low friction skid bar construct 2 according to the invention. This embodiment is substantially the same as the embodiment of FIG. 3 as described herein, but the bridge 114 is formed in a ladder type configuration, with multiple spaced apart and generally parallel ribs extending from one end of the elongated and generally parallel supports 12 toward an opposite end of the elongated and generally parallel supports.

[0021] In one embodiment, the elongated low friction material 10 and/or the elongated supports 12 are tapered along their length, with the front of the elongated low friction material having less extension below the downwardly extending sides, and increasing in the amount of extension below the downwardly extending sides toward the rear of the elongated low friction material. The low surface of the elongated low friction material forms a wedge shape for engaging the lower boards of a pallet. In another embodiment, a substantially equal dimension of the low friction material along its length extends below the downwardly extending sides.

[0022] The low friction skid bar construct may be retrofitted to forks of material handling devices currently in use. Alternatively, the low friction skid bar may be attached to the forks at the time of assembly of new material handling devices having forks.

[0023] In use, the pallet jack 20 (or other material handling device having forks) engages a pallet, such as a wooden pallet in the manner for which forks of material handling devices are intended. FIG. 6. The pallet jack in this example enters the space between the upper and lower boards. The wheels then extend to raise the forks for movement of the pallet. When the elongated low friction skid bars engage the first lower board of an empty or nearly empty pallet, the elongated low friction skid bars tend to slide over the board (as well as other lower boards of the pallet) rather than pushing the pallet away from the pallet jack, as steel skid bars having higher friction tend to do. Similarly, when forks of a material handling device are withdrawn from the pallet, the forks slide over the boards of the pallet with less friction due to the low friction skid bars.

[0024] By way of example and not limitation, material handling devices and industrial trucks with which the low friction skid bars may be used are low lift pallet trucks, either powered or walkie. The powered trucks may be electrically powered.