This application relates to apparatus and methods for handling pallets.
Pallets have been used for many years in connection with the storing, shipment, and handling of goods. Pallets are normally constructed of wood and are subject to damage because of the rough handling they receive. Therefore, it is necessary to periodically inspect pallets for damage and wear and to sort pallets according to their condition.
One example of a conventional pallet sorting system is shown in
As the pallets 106 are pushed on their side surfaces over the support surface 110, the leading pallet 106′ of the stack 104 is moved into contact with and temporarily restrained by a pallet restraining arm 112 suspended downwardly from a support structure 114. The pallet restraining arm 112 has a counterweight 116 and functions to keep the leading pallet 106′ generally upright until the advancing stack 104 overcomes the resistance of the pallet restraining arm 112 and discharges the leading pallet 106′ from the end of the support surface 110. When discharged, the leading pallet 106′ drops onto a catch plate 118, and its top edge is caused to pivot forwardly so that the leading surface of the leading pallet 106′ (i.e., usually the top major surface of the leading pallet 106′) lies in contact with the off-bearing conveyor 108. As a result, the opposing trailing surface of the leading pallet 106′ (i.e., usually the bottom major surface of the leading pallet 106′) is now oriented upwardly as the leading pallet 106′ moves along the conveyor, which allows for it to be inspected by the operator.
In a subsequent operation, it is often desirable to “turn over” a pallet moving along the conveyor so that its top surface is oriented upwardly. Such an operation might be done manually or with a device called a flipper that rotates one or more pallets 180 degrees to reorient them as desired.
Manually turning over the pallets is usually not desired, and for some applications, the costs and/or space requirements of an additional device such as a flipper or other similar device cannot be justified.
To address these and other problems, the support surface or other similar structure can be configured to allow inspection of both sides of the pallet, as well as to allow each pallet to be placed onto the conveyor with its top surface oriented upwardly, thereby eliminating the need for a subsequent operation to reorient the pallet.
In some implementations, the support surface has a second pallet restraining arm to supplement the first pallet restraining arm. The first pallet restraining arm functions to restrain the leading pallet from pivoting until the advancing stack overcomes the first pallet restraining arm's resistance and the leading pallet is discharged. When discharged, the leading pallet drops vertically, such that its upper edge is below the first pallet restraining arm, which allows the pallet to pivot forwardly.
As the leading pallet pivots forwardly, it contacts the second pallet restraining arm which is positioned to stop additional forward pivoting of the pallet beyond a predetermined range. This range may be adjusted to provide an appropriate opportunity to inspect the trailing surface of the pallet (usually its bottom surface). Meanwhile, while the upper edge of the pallet is restrained, the lower edge of the leading pallet is pulled forwardly by the advancing conveyor. With the forward pivoting halted, the forward movement of the lower edge of the pallet effects a rearward pivoting of the pallet, resulting in the bottom surface of the pallet coming into contact with the conveyor.
Described below are apparatus and methods providing streamlined handling of pallets. An exemplary apparatus is shown in the perspective views of
Referring to
The support surface 12 may be horizontal or may be inclined in the direction T at a slight angle as shown in the figures. Various devices may be used to displace the pallets along the support surface, such as pushing devices attached to a separate assembly (e.g., a pallet tilting mechanism) or incorporated as part of the support surface.
The position of the leading pallet L as shown in
Suitable positioning of the leading pallet L, e.g., the forward pivoting as shown in
The second pallet restraining arm 16 is spaced forwardly of a first pallet restraining arm 14 in the direction T. In
In the illustrated implementation, the first pallet restraining arm 14 has a counterweight 18 and is pivotably connected to a supporting member, such as a support frame 22 as shown in
The first pallet restraining arm 14 and the conveyor 30 are positioned relative to each other such that discharged pallets can pivot forwardly without contacting the first pallet restraining arm 14. In the illustrated implementation, the conveyor 30 is positioned at a lower height than the support surface 12, which allows a discharged pallet to pivot forwardly without interference from the first pallet restraining arm 14.
The second pallet restraining arm 16 can be connected to same supporting member as the first pallet restraining arm 14, i.e., to the support frame 22 as shown, or to a separate member. In the illustrated implementation, the second pallet restraining arm 16 has a counterweight 20. The second pallet restraining arm 16 can have an adjustment device 24 that permits its free end to be angled as desired. In the illustrated implementation, the second pallet restraining arm 16 can pivot, which tends to soften the impact when the leading pallet L initially comes into contact with the second pallet restraining arm 16. The pivoting action of the second pallet restraining arm 16 also allows an operator to easily reorient an occasional upside down pallet by manually pivoting the pallet in the forward direction F past the second pallet restraining arm 16.
Next in sequence after
As shown, the conveyor 30 is positioned downstream of the support surface 12. The conveyor 30 is typically operated intermittently to provide some delay as necessary between various steps of the operation. Such intermittent operation can be programmed to occur on a predetermined cycle, or may be controlled by the operator, i.e., through use of a control to start and stop the conveyor 30.
As best shown in
As also shown in
The support surface 12 and arrangement of the first and second pallet restraining arms 14 and 16 has been described consistent with a role of receiving pallets from an upstream operation, such as from a pallet tilting mechanism (sometimes referred to as a “tipper”), and distributing pallets for subsequent downstream operations. The support surface 12 functions to receive and guide pallets along their side surfaces, and thus can be used in other situations, including cases without other upstream and/or downstream operations. The first and second pallet restraining arms 14 and 16, and particularly the second pallet restraining arm 16, can be used in applications other than as illustrated in connection with the support surface 12. For example, the concept of the second pallet restraining arm 16 can be used in any application where it may be desirable to rotate an object, such as a pallet, from its upright orientation to a generally level orientation, in either direction of rotation depending upon the particular circumstances.
If desired, one or more aspects of the operation of the second pallet restraining arm 16 can be automated. Referring to the illustrated implementation, power can be provided, e.g., to permit the second pallet restraining arm 16 to “unlatch” and allow movement of a pallet past the second pallet restraining arm 16 when pivoted forwardly in the direction F. This may be advantageous in situations where minimal manual handling of pallets is desired. A powered second pallet restraining arm 16 may be configured in a longer length and with an attached idler wheel at its free end to facilitate automatic handling.
In
The described arm arrangement can be implemented in conjunction with a pallet repair table having a pair of separate conveyor belts spaced from each other (instead of the single belt shown in the figures) and an integrated pallet tipping arrangement.
Although the invention has been disclosed in this patent application by reference to the details of some preferred embodiments, it is to be understood that this disclosure is intended in an illustrative rather than in a limiting sense, as it is contemplated that modifications will readily occur to those skilled in the art within the spirit of the invention.
This application claims the benefit of U.S. Provisional Application No. 60/536,908, filed Jan. 16, 2004, which is incorporated herein by this reference.