Continuous bulk bag discharging facility
An installation and method for rapidly and efficiently unloading material from bulk bags in an unloading station surrounded by an air lock enclosure while the bags move suspended from a closed look conveyer in continuous progress from a loading station to said unloading station then through a bag dumping station. The material is dumped on an air slide and directed into a trough from which it is conveyed to a temporary tank before being repackaged in smaller containers or otherwise distributed.
This invention relates to bulk material handling equipment and more specifically to bulk bag emptying and discharging systems.
BACKGROUNDPowder and granular materials such as salt, sugar, rice, flour, cement, aggregates, detergents, skimmed milk are commonly carried in so-called “bulk bags” made of synthetic fabric with a moisture-proof liner. The typical capacity of such bags varies from 1 cubic meter (35 cubic feet) to 4 cubic meters (140 cubic feet). They usually weigh from 1 to 2 metric tons. The whole process of conveying a bag and lowering it into the discharging device, opening and shaking the bag, then removing and disposing of the emptied bag is time consuming and labor extensive. As the use of bulk bags in transportation becomes prevalent in many industries, there appears to be a need for a more rapid and more cost effective way of unloading bulk bags. For example, Portland cement which used to be processed at limestone and chalk quarries relatively close to use or distribution centers is now manufactured halfway around the globe in countries like the Peoples Republic of China, shipped in bulk bags on cargo ships then repackaged in small bags or otherwise distributed domestically. Concrete aggregates, coal and other such commodities are similarly handled in large numbers of bulk bags.
The invention results from attempts to expedite the discharging of bulk bags and reduce the cost of the labor involved in such a process.
SUMMARYBulk bags are automatically picked up one by one by an overhead closed loop conveyer at a loading station, then carried to a bag unloading station where a lower portion of the bag is ripped open allowing its contents to be dumped into a gathering facility that carries the material into a temporary storage tank from which it can be either repackaged into smaller containers or otherwise disposed of.
After ripping off the lower portion, each bag is driven by the conveyer into momentary bumping contacts with barriers in order to dislodge any remaining contents. The empty bags are then carried by the conveyer to another station where they are dumped for disposal. The various operations are conducted while the bags are passing through the various stations in a continuous process. The unloading station and material gathering facilities are contained in an airlock enclosure which prevents escape of vapors or dust particles.
The installation for unloading material from bulk bags, gathering said unloaded material and conveying it to a storage tank comprises a bag loading station (BLS), a bag unloading station (BUS), an empty bag dumping station (BDS), a closed loop conveyer (CLC) for transporting said bags along a closed circuit path from said BLS, through said BUS and to said BDS, at the BUS, a bag ripping means (BRM) and a material gathering facility (MGF); wherein said bags are loaded, emptied and dumped as they successively enter said stations.
The BRM comprises at least one tool sized and positioned to come in ripping contact with a lower portion of each bag, and the tool comprises a rotating sawing blade having a vertically adjustable support.
The BUS further comprises a bag shaking device (BSD) including at least one barrier sized and positioned to momentarily contact said bags as they move past the tool.
The BSD comprises a plurality of said barriers disposed at a different heights at spaced apart intervals along said path.
The BUS further comprises an airlock enclosure.
The MGF comprises a material collecting pit and means for moving material from said pit to said storage tank.
The pit comprises a slide under said tool and said BSD, a trough at the end of the slide and, means for conveying material out of said trough to the tank.
The installation may also comprise a bag loading station (BLS), a bag unloading station (BUS), an empty bag dumping station (BDS), a closed loop conveyer (CLC) for transporting said bags along a closed circuit path from said BLS, through said BUS and to said BDS, in said BUS, a bag ripping means (BRM) and a material gathering facility (MGF), wherein said bags are loaded, emptied and dumped as they continuously move through said stations, and said BRM comprises at least one tool sized and positioned to come in ripping contact with a lower portion of each of said bags.
The BLS comprises means for lifting the bags according to their sizes for ease or attachment to said conveyor.
The tool comprises at least two rotating sawing blades positioned astride said lower portion.
The BUS further comprises a bag shaking device (BSD) including at least one barrier sized and positioned to momentarily contact the bags as they move past said tool.
The BSD further comprises a plurality of said barriers disposed at a different heights at spaced apart intervals along said path.
The storage tank comprises a silo having a plurality of delivery chutes.
The BUS further comprises an airlock enclosure and means for maintaining a negative air pressure within the enclosure.
The MGF comprises a material collecting pit and means for moving material from the pit to the silo.
The pit comprises an air slide under said tool and the BSD, a trough at the end of the slide, and means for conveying material out of the trough to the silo.
The method for emptying contents of bulk bags comprises, at a bag loading station (BLS), loading said bags on closed loop conveyer passing through a bag unloading station (BUS) and a bag dumping station (BDS); at the BUS, ripping open a lower portion of said bags to unload said contents into a material gathering facility (MGF); at the BDS, removing the bags from the conveyer; performing said steps during continuous progress of the conveyer through the stations, moving said material from the MGF to a storage tank, and performing said step of ripping in an enclosure, and maintaining a negative air pressure inside the enclosure.
The step of ripping comprises cutting a slit through said lower portion with a rotating blade positioned in the path of the bags.
The method further comprises shaking the bags after ripping in the enclosure.
The method further comprises dispensing material out of the tank to a plurality of means such as a repackaging plant, a concrete mixer, or a bulk carrier.
Referring now to the drawing there is diagrammatically illustrated in
The BUS 4 is surrounded by an airtight enclosure 7 into which is maintained a negative pressure in order to prevent escape of dust particles or vapors into the surroundings. In the BUS, the bags are contacted by a bag ripping means (BRM) 8 which cuts a slit in the lower portion of each bag causing its contents to drop into a material gathering facility (MGF) 9. The bags are then dragged by the conveyer against a bag shaking device (BSD) 10 in order to dislodge any material remaining therein. The conveyer then moves the empty bag 11 to the BDS 5 where it is automatically detached from the conveyer and dumped for disposal. The MGF comprises a pit that lies under the BRM and BSD and the material gathered therein is fed to an extractor (EXT), that is a pump, Archimedes screw or other apparatus 12 for moving the material into a storage tank or silo 13 from which it is later packaged in smaller containers or otherwise distributed. The EXT 12, depending upon its construction, may be within or without the enclosure 7.
As shown on
At the BLS, the bulk bags 6, filled with material 6a are fed over a roller mat 24 to an hydraulic lift 25 positioned under the conveyer 2 as shown in
If the stevadoring strap is to be used, it may be advantageous, in some cases, to add a spring clip ring 17a between the strap and the hook 19, as illustrated in
The trolleys and hooks dangling from the conveyer are spaced apart every 7 meters (21 feet) approximately. The conveyer speed is preferably between 30 to 60 centimeters (12 to 24 inches) per second. Accordingly, one bag may be loaded every 10 to 20 seconds approximately. The rate of bag pickup can be slowed by skipping one or more trolleys between bag pickups.
It should be noted that the various stations can be spaced at a regular interval along the conveyer 2 that may be momentarily stopped as the bag arrive into a station in order to allow manual loading and unloading.
As shown in
As shown in connection with saw 30, the blade can slice the entire lower corner of the bag for a more reliable cut in some applications. Further, the saw 30a,30b may alternately be positioned under the bag as shown in dotted lines in
At this point, a rod cam 36 projecting laterally from the hook 19 as shown on
As more specifically illustrated in
In order to improve the fluidity of certain powder materials such as Portland cement, the walls of the pits are provided with a pair of air slides 50, 51. The air slides comprise an air pump 52, 53 injecting air drawn from the upper ridges of the enclosure 7 surrounding the BUS into a manifold 54, 55 that feeds the pressurized air to an array of small holes 56 in the entire surface of the pit walls 45, 46. These holes have a diameter within a range of about 2 to 5 millimeters (80 to 200 mils).
A negative pressure is maintained within the enclosure according to techniques well-known in the art by a powerful blower 66. The trolley suspension passes through a slot in the ceiling of the enclosure.
The edges of the slot are provided with feathered strips of elastomeric material that minimize leakage of outside air into the enclosure.
At the BDS, the empty bag 11 is released by a withdrawing movement of the suspending hook 19 when the roller cam 57 mounted at the end of the shaft 58 projecting from the back of the hook as shown in
The material moves through the pipe 49 which feeds a silo or other type of temporary storage 13. The material out of the silo can be fed to a bagging plant 61 where it is packaged in smaller bags 62 for the trade or the retail business.
In the case of Portland cement, the material can also be fed to a concrete mixer 63 that also receives aggregate from an adjacent storage 64, and delivers it to concrete trucks 65. The material can also be delivered in bulk through an alternate chute 66.
It should be understood that depending on the type of material being handled, other types of processing equipment can draw material from the temporary storage 13.
While the preferred embodiment of the invention has been described, modifications can be made and other embodiments may be devised without departing from the spirit of the invention and the scope of the appended claims.
Claims
1. An installation for unloading material from bulk bags, gathering said unloaded material and conveying it to a storage tank, said installation comprising:
- a bag loading station (BLS);
- a bag unloading station (BUS);
- an empty bag dumping station (BDS);
- a closed loop conveyer (CLC) for transporting said bags along a closed circuit path from said BLS, through said BUS and to said BDS;
- in said BUS, a bag ripping means (BRM) and a material gathering facility (MGF); and wherein said bags are loaded, emptied and dumped as they successively enter said stations.
2. The installation of claim 1, wherein said BRM comprises at least one tool sized and positioned to come in ripping contact with a lower portion of each of said bags.
3. The installation of claim 2, wherein said tool comprises a rotating blade.
4. The installation of claim 2, wherein said tool comprises a vertically adjustable support.
5. The installation of claim 2, wherein said BUS further comprises a bag shaking device (BSD).
6. The installation of claim 5, wherein said BSD comprises at least one barrier sized and positioned to momentarily contact said bags as they move past said tool.
7. The installation of claim 6, wherein said BSD further comprises a plurality of said barriers disposed at a different heights at spaced apart intervals along said path.
8. The installation of claim 2, wherein said BUS further comprises an airlock enclosure.
9. The installation of claim 2, wherein said MGF comprises a material collecting pit and means for moving material from said pit to said storage tank.
10. The installation of claim 9, wherein said pit comprises:
- a slide under said tool and said BSD;
- a trough at the end of said slide; and
- means for conveying material out of said trough to said tank.
11. An installation for unloading material from bulk bags, gathering said unloaded material and conveying it to a temporary storage tank, said installation comprising:
- a bag loading station (BLS);
- a bag unloading station (BUS);
- an empty bag dumping station (BDS);
- a closed loop conveyer (CLC) for transporting said bags along a closed circuit path from said BLS, through said BUS and to said BDS;
- in said BUS, a bag ripping means (BRM) and a material gathering facility (MGF); and wherein said bags are loaded, emptied and dumped as they continuously move through said stations.
12. The installation of claim 11, wherein said BRM comprises at least one tool sized and positioned to come in ripping contact with a lower portion of each of said bags.
13. The installation of claim 12 wherein said BLS comprises means for lifting the bags according to their sizes for ease or attachment to said conveyer.
14. The installation of claim 12, wherein said tool comprises at least two rotating sawing blades positioned astride said lower portion.
15. The installation of claim 12, wherein said BUS further comprises a bag shaking device (BSD) including at least one barrier sized and positioned to momentarily contact said bags as they move past said tool.
16. The installation of claim 15, wherein said BSD further comprises a plurality of said barriers disposed at a different heights at spaced apart intervals along said path.
17. The installation of claim 12 wherein said storage tank comprises a silo having a plurality of delivery chutes.
18. The installation of claim 12, wherein said BUS further comprises an airlock enclosure and means for maintaining a negative air pressure within said enclosure.
19. The installation of claim 17, wherein said MGF comprises a material collecting pit and means for moving material from said pit to said silo.
20. The installation of claim 19, wherein said pit comprises:
- an air slide under said tool and said BSD;
- a trough at the end of said slide; and
- means for conveying material out of said trough to said silo.
21. A method for emptying contents of bulk bags which comprises:
- at a bag loading station (BLS), loading said bags on closed loop conveyer passing through a bag unloading station (BUS) and a bag dumping station (BDS);
- at said BUS, ripping open a lower portion of said bags to unload said contents into a material gathering facility (MGF);
- at said BDS, removing said bags from said conveyer; and
- performing said steps during continuous progress of said conveyer through said stations.
22. The method of claim 21 which further comprises moving said material from said MGF to a storage tank.
23. The method of claim 21 which further comprises performing said step of ripping in an enclosure, and maintaining a negative air pressure inside said enclosure.
24. The method of claim 21, wherein said step of ripping comprises cutting a slit through said lower portion with a rotating blade positioned in the path of said bags.
25. The method of claim 23 which further comprises shaking said bags after ripping in said enclosure.
26. The method of claim 22 which further comprises dispensing said material out of said tank to a pluralities of means.
Type: Application
Filed: Aug 25, 2006
Publication Date: Feb 28, 2008
Inventor: Edward R. Showalter (Laguna Hills, CA)
Application Number: 11/509,936
International Classification: B65B 69/00 (20060101);