1. Field of the Invention
The present invention relates to bulk containers for flowable materials and, more specifically, to a flexible bulk container system which allows for the more complete evacuation of a viscous material from a container.
2. Description of the Prior Art
It is known in the art when moving viscous material, such as grease and the like, to utilize a container having a rigid exterior frame and a flexible interior pocket. Typically the interior pocket contains a top mounted inlet and a side mounted drain. The pocket is filled from the top inlet, which is capped for transportation and storage. When it is desired to evacuate the container, the drain is opened and the material is allowed to flow out of the container through the drain.
When dealing with viscous materials such as grease, especially when the grease is cooled and thereby less flowable, it is desirable to provide a mechanism for forcing the grease from the container through the drain.
It is known in the art to provide a two-ply pocket having an inner pocket coupled to an outer pocket, such as that shown in U.S. Pat. Nos. 6,427,873 and 6,234,351, both of which are incorporated herein by reference. In such a construction, the inner pocket is welded or otherwise secured to the outer pocket along the exterior seams. The inner pocket and outer pocket are also welded to one another along one perpendicular line behind the inlet, and across another perpendicular line below the drain. The outer pocket is provided with a hose which allows for the pumping of air into the inner stice between the inner pocket and the outer pocket. As air is pumped into the inner stice, the air biases the inner pocket away from the outer pocket. The welds prevent the air from causing the inner pocket to cover a portion of the drain, thereby stemming the flow of material therethrough.
While such prior art constructions aid in the evacuation of viscous material such as grease and the like, such prior art pockets have certain drawbacks. One drawback associated with such prior art devices is that the straight weld between the inner pocket and outer pocket positioned below the drain frustrates complete evacuation of the flowable material from the portion of the pocket where the weld meets the edges of the inner pocket and outer pocket. An additional drawback associated with such prior art devices is that the failure of the system to more completely evacuate the flowable material at the points where the weld below the drain meets the edges of the inner pocket and outer pocket leads to the evacuation process taking an undesirably long time. Additionally, as most prior art evacuation systems are provided with a system for providing a vacuum around the drain, the additional time required to attempt to evacuate the flowable material leads to the increased likelihood that the pressure on the inner pocket will force a portion of the inner pocket across the drain opening, thereby stalling or at least substantially slowing the evacuation of the system. The difficulties encountered in the prior art discussed hereinabove are substantially eliminated by the present invention.
In an advantage provided by the present invention, a container evacuation system is provided which provides for more complete evacuation of a container of flowable material.
Advantageously, this invention provides a container evacuation system which evacuates a fluid material with increased efficiency.
Advantageously, this invention provides a container evacuation system which allows for faster evacuation of a flowable material from the container.
Advantageously, this invention provides a container evacuation system which is of a low-cost, lightweight manufacture.
Advantageously, this invention provides a container evacuation system which allows for the evacuation of highly viscous flowable materials.
Advantageously, this invention provides a container evacuation system which provides for higher recovery rate of liquid and semi-liquid products from a container.
Advantageously, this invention provides a container evacuation system which reduces clogging of an evacuation drain with container material during the evacuation process.
Advantageously, this invention provides a container evacuation system which allows for the heating of a liquid or semi-liquid product within the container to reduce viscosity and aid in the evacuation process.
Advantageously, this invention provides a container evacuation system which allows for more positive coupling of an air supply to a container to aid in the evacuation process, and to prevent tearing or ripping of the air supply line from the container.
In an advantage provided by this invention, a container system is provided with a flexible container in supporting engagement with a rigid frame. The flexible container includes a first flexible pocket coupled to a second flexible pocket. An inlet and drain are coupled to the first flexible pocket, and a fill port is connected to the second flexible pocket.
When it is desired to utilize the container, the first pocket is filled with a flowable material. When it is desired to evacuate the container, an air supply line is coupled to the fill port and the drain is opened. The air is pumped into the second flexible pocket, thereby forcing material out of the first flexible pocket through the drain. In a preferred embodiment, the first flexible pocket is secured to the second flexible pocket along a seam which angles around the drain to allow for more complete evacuation of the first flexible pocket.
The present invention will now be described, by way of example, with reference to the accompanying drawings in which:
A container evacuation system according to the present invention is shown generally as (10) in
The rigid outer container (12) is provided with a sidewall (16) coupled to a bottom (18) and a top (20). If desired, the top (20) may be removable and provided with a cutout (22) to accommodate an inlet (24). Alternatively, the rigid outer container (12) may be provided without a top (20). The sidewall (16) is preferably provided with circular opening (26) to accommodate a drain (28).
As shown in
At the folded side (42), the polyethylene sheets (32), (33) and (34) are not welded. The polyethylene sheets (32), (33) and (34) are welded together along a straight line weldment (44) extending from the weldment (36) to the weldment (40). However, whereas the weldments (36), (38) and (40) are across all six plys created by the folded polyethylene sheets (32), (33) and (34), the weldment (44) is merely a two-ply weldment between the top three layers of the polyethylene sheets (32), (33) and (34). Similarly, on the underside of the flexible containment system (30), a fourth seam is created by a fourth weldment (46) and a fifth seam is created by a fifth weldment (48). Extending from the weldment (38) to a point (50) in line with the drain (28). The weldments (46) and (48) are preferably only weldments between the three bottom layers of the polyethylene sheets (32), (33) and (34).
As shown in
As shown in
In the preferred embodiment, the polyethylene sheets (32), (33) and (34), and weldments (36), (38), (40), (44), (46) and (48) are preferably designed to withstand a temperature in excess of ninety degrees Celsius, and more preferably, one hundred degrees Celsius to allow the flowable material (62), such as grease or the like, to be heated during filling and evacuation of the flexible containment system (30) to decrease the viscosity of the flowable material (62).
As shown in
As shown in
As shown in
Once the container containment system (30) has been filled, the rigid container (12) may be transported or stored as desired. Once the rigid container (12) has reached its destination, or it is otherwise desired to remove some or all of the flowable material (62) from the flexible containment system (30), the threaded plug (74) is removed from the drain (28) an evacuation pump, such as those known in the art, is sealed over the drain (28). (
As shown in
As shown in
Once the first pocket (58) has been sufficiently evacuated, the flexible containment system (30) may either be disposed of or returned to the producer for refilling. Similarly, the rigid container (12) may be destroyed or returned for refill. In the preferred embodiment, given the cost of the flexible containment system (30), it is desirable that upon evacuation of the flexible containment system (30) of a flowable material (62), such as grease, the flexible containment system (30) is thereafter discarded and only the rigid container (12) returned for refill. Given the extreme weight of prior art containers, such as steel framed containers, steel barrels and the like, the return cost associated with the rigid containers is substantially less, given the ability of the rigid containers (12) to fold flat and the inherent lightweight nature of their corrugated cardboard construction.
Although the invention has been described with respect to a preferred embodiment thereof, it is to be understood that it is not to be so limited since changes and modifications can be made therein which are within the full, intended scope of this invention as defined by the appended claims. For example, any desired number of pockets may be created using any desired number of sheets constructed of polyethylene or any other desired material. Additionally, the weldments may be more or less, or differently configured as long as at least a portion of the weldments preferably angles around the drain. The angle may be a sharp angle or a curve as desired.
Number | Name | Date | Kind |
---|---|---|---|
3822806 | Grimes | Jul 1974 | A |
3936334 | Kushida et al. | Feb 1976 | A |
4796788 | Bond | Jan 1989 | A |
5096092 | Devine | Mar 1992 | A |
6120181 | Wilcox | Sep 2000 | A |
6234351 | Wilcox | May 2001 | B1 |
6627873 | Wilcox | Aug 2002 | B2 |
6467652 | Wilcox et al. | Oct 2002 | B2 |
Number | Date | Country | |
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20080302819 A1 | Dec 2008 | US |