Presses – Automatic or material triggered control – Of actuating means
Reexamination Certificate
1999-08-17
2001-09-18
Gerrity, Stephen F. (Department: 3721)
Presses
Automatic or material triggered control
Of actuating means
C100S090000, C100S102000, C100S215000, C100S22900A
Reexamination Certificate
active
06289799
ABSTRACT:
This invention relates to a bindery compactor utilized for the compression of paper waste in a bindery. More particularly, a bindery compactor is disclosed in which both air conveyed fine paper waste particles and cart transported gross paper particles can be received and compacted into a receiver.
BACKGROUND OF THE INVENTION
Binderies produce paper waste in two gross categories. First, there is relatively large particulate paper waste, which paper waste results from printed paper pages being trimmed preparatory to stitching. Second, and after stitching has occurred, the bound pages are uneven. Trimming of the pages—usually with a machine known as a “three knife”—produces fine paper waste. Binderies produce a surprising tonnage of such waste, with “medium” size binderies producing from 30 to 80 tons of such waste per month.
In many small to medium size binderies, both the large paper waste and the fine paper waste are transported in carts for recycling. Thereafter, removal of the waste material from the bindery in an uncompressed format occurs by van. This results in an inordinate number of van transport trips, increasing the cost of the recycling effort.
In other bindery facilities, processing of the large paper waste and the fine paper waste occurs in a compactor at the bindery. Since this disclosure relates to compactors, a review of the compactor prior art is relevant.
Compactors are well known in the paper waste collection industry. A compactor usually charges a receiver. The receiver is a large closed container in the order of 7 feet high, 7 feet wide, and 22 feet in length. The receiver has an opening at one end in the order of 42 inches high by 60 inches wide.
The compactor includes a chute of corresponding dimension to the opening. This chute leads from the opening of the receiver, a distance away from the receiver. This chute is traversed by a 42 inch high by 60 inch wide platen powered by a hydraulic ram. This hydraulic ram powers the platen through the volume defined by the chute to compact material in the chute. Material to be compacted is placed in the chute. This material is crowded or compacted into the waste receiver.
The ram and platen are normally withdrawn from the chute. This defines a waste receiving volume between the waste receiver and platen. Waste material is dumped into this volume to be compacted until the volume is fill. When the volume to be compacted is fill, compaction of the filled volume of the chute occurs into the receiver. When fully charged with paper waste materials, the receiver can hold in the order of 9,000 to 13,000 pounds of paper waste for recycling.
It is known to have the volume to be compacted in front of the compactor platen monitored by an electric eye. When the volume to be compacted is full, the compactor cycles forward to crowd waste paper material into the receiver. Upon completion of the compacting, the ram retracts the platen to define an emptied volume to be compacted ahead of the platen. During cycling forward of the compactor platen, the volume that was the volume to be compacted is sealed by a sealing plate affixed to the top of the platen and trailing the platen. This sealing plate makes the dumping of material into the compactor behind the platen not possible when the platen of the compactor is cycling to compress material into the receiver.
As binderies increase in product volume, pneumatic transporting of fine waste particles becomes economically feasible. Unfortunately, pneumatic transport and the machines necessary to recycle the pneumatically transported fine paper waste particles are expensive. Typically, the fine paper waste particles are transported in pneumatic ducts. Transporting air pressures within the ducts are in the range of 18 inches of water. Transporting speeds in the ducts as high as 50 mph occur. The pneumatically transported paper waste materials are typically discharged at their destination through a cyclone separator to a baler exterior of the bindery facility. Balers used with such pneumatic systems are expensive, specialized pieces of equipment which compress and thereafter bind the waste. Only large bindery facilities can economically justify installation of balers.
In larger binderies, even where pneumatic transport is utilized, large paper waste is conveyed by cart to a conventional compactor and not a baler. Thus, the use of a single machine for the processing of both the large particulate waste particles and the small waste particles is not known.
SUMMARY OF THE INVENTION
A bindery compactor receives and compacts simultaneously large particulate paper waste and pneumatically conveyed fine paper waste. The compactor operates with a platen cycling within a compactor chute, in which the platen is normally forward in the compacting position with a sealing plate attached to the platen extending to close the top of the chute and form the bottom of two waste paper receiving bins. A first of these paper waste-receiving bins is for large particulate paper waste loaded from a cart dumper. A second bin of these paper waste-receiving bins is for pneumatically transported fine paper waste from a cyclone separator. In the second bin, accumulation of fine particle paper waste occurs to a height where an electric eye triggers cycling of the compactor. When cycling is triggered, the compactor platen retracts from extension to the chute withdrawing the sealing plate and allowing the stored paper waste from either bin to fall into the chute ahead of the retracting platen. Upon reaching full retraction, the platen reverses direction to compact all paper waste falling from either bin in the chute. The platen then closes off the bottom of the bins with the sealing plate, and remains extended in the forward position until the next compactor cycle. Provision is made to manually cycle the compactor where the waste bin for the large particulate paper waste fills ahead of the waste bin for the small particulate paper waste.
An advantage of this apparatus and process is the ability to handle both pneumatically transported fine particulate paper waste and cart transported large particulate paper waste. Specifically, when the platen is in the normally extended position, the bottom of both the bin for the fine particulate paper waste and the bottom of the bin for the large particulate paper waste is closed. This closure prevents residual air pressure from the cyclone separator (in the order of 2 inches of water) from blowing by particulate paper waste.
A further advantage of this invention is that the bin for receiving the fine particulate paper waste is given a buffering volume, which buffering volume exceeds the volume to be compacted. As a consequence, when the platen is cycled for crowding of paper waste into the receiver, the residual volume of fine particulate paper waste dissipates any residual air pressure. Further, and where repeated cycling of the compactor empties the fine particulate bin, residual large particulate paper waste materials prevent the fines from blowing by the compactor receiver.
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Gerrity Stephen F.
Townsend and Townsend / and Crew LLP
Wastestream
LandOfFree
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