US20050183397A1

US20050183397A1 - Apparatus and methods for enclosing product units

Info

Publication number: US20050183397A1
Application number: US10/785,868
Authority: US
Inventors: Frederick Forgnone; Richard MacLeod
Original assignee: Individual
Current assignee: TRANSFRESH Corp Inc
Priority date: 2004-02-24
Filing date: 2004-02-24
Publication date: 2005-08-25

Abstract

Methods and apparatus for sealing pallets of fresh produce inside enclosures and for filling the interiors of the sealed enclosures with a modified gaseous atmosphere moves pallets loaded with fresh produce to a squeeze station where the packages as a unit are gripped between opposing walls on two opposing sides and between additional opposing squeeze members on two other opposing sides.

Description

BACKGROUND OF THE INVENTION

The invention relates to the field of enclosing product units on a production line, and in particular to methods and apparatus for enclosing agricultural produce pallets in preparation for modifying the atmosphere surrounding the produce inside the enclosure with a gas or gas mixture to retard ripening and spoilage, or to otherwise promote freshness and extend the shelf life of such produce. See, in particular, the disclosures, drawings and claims of U.S. Pat. No. 5,046,302, issued Sep. 10, 1991, and entitled “Method and Apparatus for Bagging Product Units”; of U.S. Pat. No. 5,111,639, issued May 12, 1992, and entitled “Method and Apparatus for Bagging Product Units”; and of U.S. Pat. No. 5,314,286, issued May 24, 1994, and entitled “Apparatus for Bagging Product Units”. These disclosures are incorporated herein as though fully set forth here.

SUMMARY OF THE INVENTION

This invention provides methods and apparatus for enclosing pallets of fresh produce in sealed enclosures and furnishing the interiors of the sealed enclosures with a modified gaseous atmosphere for preserving such produce. Pallets loaded with fresh produce are transported from cooling tunnels to an input conveyor. The input conveyor moves the pallets automatically one at a time to an in-line squeeze station. When a pallet is positioned on the squeeze station, the conveyor stops automatically. These methods and apparatus deposit a plastic sheet lining onto the pallet base while the produce load is suspended above the pallet base. The plastic sheet lining is deposited onto the pallet base while the produce load is suspended above it.
These methods and apparatus deposit a plastic sheet lining onto the pallet base while the produce load is suspended above the pallet base. The plastic sheet lining is deposited onto the pallet base while the produce load is suspended above it.
Typically, a bulk roll of plastic sheet lining is located adjacent to the in-line squeeze station. Once the produce load is suspended above the pallet base, the downwardly movable floorplate, and the pallet base resting thereon, descends. The pallet drops into a position substantially equidistant from the squeeze sidewalls. At that time, a pair of gripping members grasp the leading edge of plastic sheet lining from the bulk roll and guide the plastic sheet lining over the pallet deck surface resting below the suspended produce load. The Doorplate is raised to its former level to bear the weight of the loaded pallet. The pallet is unsqueezed and the plastic sheet lining is then severed from the supply. The loaded pallet then continues along the conveyor to the enclosing stations.
These apparatus comprise gripping interior surfaces on opposed vertical walls (squeeze sidewalls) at a squeeze station. Pneumatically operated “stops” at the squeeze station ensure precise alignment of the produce load with the gripping surfaces of the vertical walls when engaged.
Before, concurrent with or after the squeezing of the load between two opposed vertical walls, additional squeeze members, such as foot plates, engage and squeeze two additional opposing sides of the load. Such additional squeeze members are positioned adjacent to, and engage, the load on surfaces other than the load surfaces engaged by the opposed vertical squeeze walls. In some embodiments, one, two or more additional squeeze members engage and squeeze the produce load on one of the opposing two sides, and one, two, or more additional squeeze members engage and squeeze the produce load on an opposing side. In some embodiments, these squeeze members are positioned to engage a load at specific, adjustable locations along the horizontal plane of the load.
In some embodiments, these additional squeeze members are plates or blades, and are square or rectangular in shape. Each preferably has a surface area in the range of about 0.5 to about 16 square feet. Rectangular plates or blades may have their longer sides aligned with the vertical plane of the load, and their shorter sides aligned with the horizontal plane of the load. These plates or blades may be attached to members, such as rods or arms, that move the plates or blades toward, and into engagement with, and away from, and out of engagement with, the produce load. Such members may be air-actuated, hydraulically-actuated or mechanically-actuated. Such members may be positioned to engage a load below its vertical midpoint and above the pallet carrying the load. These squeeze members may squeeze a load of cartons stacked in a pattern where the carton strong points do not necessarily align within the horizontal plane of the load stack.
In some embodiments, at least some of such plates or blades are the same size and shape. Such plates or blades may include features such as protrusions, e.g. pointed, rounded or otherwise, from the surface of the plate, that penetrate, upon engagement, into the load. In some embodiments, the plates or blades are moveable laterally with respect to the load and with respect to one another.

BRIEF DESCRIPTION OF THE DRAWINGS

The various features and advantages of the present invention will become apparent in light of the following detailed description taken together with the accompanying drawings, in which:
FIG. 1 is a perspective view of an embodiment of the apparatus of this invention showing the structure of the squeeze station;
FIG. 2 is an exploded view of one side of the squeeze station shown in FIG. 1;
FIG. 3 is an exploded view of the opposite side of the squeeze station in FIGS. 1-2;
FIG. 4 shows a palletized load of produce in the squeeze station shown in FIGS. 1-3, with squeeze members engaging opposing sides of the load;
FIG. 5 is a top perspective view of the apparatus shown in FIGS. 1-4, and shows additional squeeze members engaging the load;
FIG. 6 is an overall end view of the squeeze station of FIGS. 1-5;
FIG. 7 is a top plan view of a six down pattern of boxes of produce on a pallet;
FIG. 8 is a top plan view of a five down pattern of boxes of produce on a pallet; and
FIG. 9 is a schematic plan view of the layout of a squeeze station, and of a related pallet enclosing and sealing system.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

By way of example, the method and apparatus are described in terms of pallets loaded with strawberries. Minor modifications may be appropriate for other types of produce. A plurality of strawberry packages is stacked onto the upper surface of a pallet. A fully loaded pallet may contain 18 tiers of 6 trays in each tier and an overall height of about 88 inches. Each tray may contain 8 one-pound packages of strawberries, so that a fully loaded pallet has 108 boxes containing 8 one-pound packages of strawberries (see FIG. 7). Alternatively, a fully loaded pallet may contain 18 tiers of 5 trays in each tier, and may have an overall height within the range of about 90 inches to about 100 inches (See FIG. 8).
A strawberry pallet is generally 48 inches by 40 inches. Other produce pallets may also be 48 inches by 40 inches, or have different dimensions. The strawberries are cooled to around 33 degrees F., which is about 4 degrees above the freezing point of the strawberries, depending on their sugar content. The gassing operation is usually done on produce which has been cooled to its optimum storage temperature.
FIG. 9 is a schematic plan view of the layout of enclosing apparatus 10. An infeed portion 12 of apparatus 10 comprises a conveyor line using metal rollers 100 which are actuated by a belt drive. Multiple pallets are brought by forklift and unloaded at infeed 14 of the conveyor line. When a loaded pallet reaches pallet squeeze station 16, the drive mechanism for the conveyor line is shut off.
Pallet squeeze station 16 comprises a moveable pair of opposed vertical walls above a moveable floorplate. Vertical squeeze walls are positioned clear of the loaded pallet as the loaded pallet moves into the squeeze area. When the loaded pallet is in position, the vertical walls, which are mounted with a counterweight, move downward, to a horizontal position, bringing the two opposing squeeze walls to positions adjacent to the forward and back vertical surfaces of the loaded pallet. These walls approach each other by a distance calculated to squeeze the pallet load a sufficient amount to support it against the force of gravity. The floorplate on which the loaded pallet normally rests is moved downward to allow placement of a plastic lining sheet onto the pallet. The sheet is generally flat and its edge margins extend several inches beyond the edges of the pallet. The Doorplate is then raised to its original position to support the pallet load, the plastic sheet underlying the stack is cut away from the plastic feed roll, the pallet load is unsqueezed, the opposed squeeze walls rotate upward, and out of the path of the loaded pallet, and the loaded pallet is moved to pallet bagging station 18.
FIGS. 1-6 show an embodiment of pallet squeeze station 16. Metal rollers 100 convey a loaded pallet to the area between wall 103, which is located near the front of a loaded pallet, and wall 102, which is located near the back of a loaded pallet. When loaded pallet 104 reaches squeeze station 16, rollers 100 are shut off.
Palletized load 104 is squeezed between opposing vertical walls 102 and 103, which move downward to horizontal positions near the forward-facing and rearward-facing vertical surfaces of loaded pallet 104. Walls 102 and 103 move toward each other by a distance calculated to squeeze the pallet load a sufficient amount to support it against the force of gravity.
Before, concurrently, or thereafter, squeeze plates 50, 51, 52, and 55 engage loaded pallet 104 on two additional opposing sides. Squeeze plates 50, 51, 52, and 55 are carried on hydraulically-actuated arm members such as arms 60 and 61 (see FIG. 5) which move the plates into, and out of engagement with palletized load 104. Squeeze members 50, 51, 52 and 55 include a plurality of protrusions, such as protrusions 53, 54, 58 and 59 that penetrate into loaded pallet 104 to reinforce engagement with the pallet. Squeeze members 54, 55, 50 and 51 travel on hydraulically moveable arms such as arms 60 and 61.
After walls 102 and 104, and squeeze plates 50, 51, 52, and 55, have all engaged pallet load 104, the floor plate on which loaded pallet 104 rests in squeeze station 16 is moved downward to allow placement of a plastic lining sheet onto the pallet. The Doorplate is then raised to its original position to support the pallet load, and the plastic sheet underlying the stack is cut away from the plastic feedroll. The plastic load is unsqueezed, the opposed squeeze walls 102 and 103 rotate upward and out of the path of the loaded pallet. The opposed squeeze plates 50, 51, 52, and 55 move out of engagement with and out of the path of loaded pallet 104, and loaded pallet 104 is moved to pallet bagging station 18. U.S. Pat. No. 5,314,286, issued May 24, 1994, and entitled “Apparatus for Bagging Product Units”, describes a preferred embodiment of pallet bagging station 18 and of the remaining structure and features of apparatus 10.
FIGS. 7 and 8 show a six down pattern and a five down pattern of stacked boxes of produce that may constitute palletized load 104, respectively. In FIG. 7, palletized load 104 comprises 18 tiers with six trays in each tier. In FIG. 8, palletized load 104 comprises 18 tiers with five trays in each tier.
The above-described embodiments are furnished as illustrative of the principles of the invention, and are not intended to define the only embodiments possible in accordance with our teaching. Rather, the invention is to be considered as encompassing not only the specific embodiments shown, but also any others falling within the scope of the following claims.

Claims

1. An apparatus for temporarily supporting a load over a pallet, comprising a pair of opposed vertical, substantially planar sidewalls that engage said load on two opposing sides, at least one of said sidewalls being movable independently of the other to control the distance therebetween, and additional opposed squeeze members that engage said plurality of packages as a unit near the bottom of said unit on two additional opposing sides.

2. The apparatus of claim 1 comprising means for moving one of said opposed vertical sidewalls toward the other vertical sidewall, and into a fixed predetermined, desired position for engaging said load, before said other sidewall engages said load with sufficient force to support said load between said sidewalls.

3. The apparatus of claim 2 further comprising means for conveying said load to a position between said sidewalls and, at said position between said sidewalls, movable means for lowering support means from beneath said load to a location below said desired position when said load is supported by said opposed vertical sidewalls and by said additional opposed squeeze members.

4. The apparatus of claim 1 further comprising means for conveying said load to a position between said sidewalls and, at said position between said sidewalls, movable means for lowering support means from beneath said load to a location below said desired position when said load is supported by said opposed vertical sidewalls and by said additional opposed squeeze members.

5. An apparatus for temporarily supporting a load comprising two opposed, vertical sidewalls on two opposing sides of said load, and between additional opposed squeeze members that engage said load near the bottom of said load on two additional opposed sides of said load, at least one of the sidewalls being movable independently of the other to control the distance between said sidewalls.

6. The apparatus of claim 5 comprising means for moving one of said opposed vertical sidewalls toward the other vertical sidewall, and into a fixed predetermined desired position for engaging said load before the other sidewall engages said load with sufficient force to support said load between said sidewalls and between said additional squeeze members.

7. The apparatus of claim 6 further comprising means for conveying said load to a desired position between said opposed vertical sidewalls, and, at said desired position, movable means for removing support from beneath said load to a location below said desired position when said load is supported by said opposed vertical sidewalls and by said additional squeeze members.

8. The apparatus of claim 5 further comprising means for conveying said load to said desired position between said opposed vertical sidewalls and, at said desired position between said opposed sidewalls, movable means for lowering support from beneath said load to a location below said desired position when said load is supported by said opposed vertical sidewalls and by said additional squeeze members.

9. Apparatus comprising:

squeezer means including opposing wall-like grippers that engage a plurality of packages as a unit on two opposing sides of said packages and opposing additional squeeze members that engage said plurality of packages as a unit near the bottom of said unit, and then place said unit onto a plastic-lined pallet;

dispensing means for dispensing plastic enclosures;

positioner means for positioning a loaded plastic-lined pallet beneath said enclosure dispensing means;

sealing means for sealing said plastic-lined pallet to one of said enclosures with said pallet inside said enclosure;

atmosphere replacing means for replacing the atmosphere inside a sealed enclosure; and

means for moving a pallet from said squeezer and pallet replacer means, to said positioner means, to said sealing means, and to said atmosphere replacing means.

10. The apparatus of claim 9 wherein said squeezer means comprises a downwardly movable Doorplate and a pair of opposed vertical walls, at least one of which is movable to control the distance therebetween.

11. The apparatus of claim 9 wherein said enclosure dispensing means comprises a frame with a plurality of radial arms for the suspension of enclosures therefrom.

12. The apparatus of claim 9 wherein said arms are rotatable with respect to a vertical axis.

13. The apparatus of claim 9 wherein said sealing means comprises means for sealing said plastic-lined pallet to one of said plastic enclosures with adhesive tape.

14. The apparatus of claim 9 wherein said atmosphere replacing means comprises:

probe means for transporting gases into or out of said plastic enclosure;

hose means connecting said probe means to a multiposition valve;

evacuation means including a vacuum pump connected to said valve and open to said probe means in one position of said valve for evacuating said plastic enclosure to a predetermined pressure below atmospheric pressure; and

filling means for introducing a gas including a source of gas at a predetermined pressure connected to said valve and open to said probe means in another position of said valve, and timer means connected to said valve for controlling the length of time said valve is in said other position to introduce a predetermined volume of gas into said enclosure.

15. The apparatus of claim 10 wherein said at least one wall is hydraulically movable.