The present invention relates to gypsum wallboard manufacturing, and more specifically, relates to an improved system for recycling gypsum wallboard panels so that waste paper is separated from reusable stucco.
Gypsum wallboard manufacturing plants customarily incorporate varying amounts of recycled materials into the production process. In many cases, scrap or defective wallboard panels are recycled to extract the reusable core, which as a primary ingredient includes calcium sulfate hemihydrate, also known as land plaster or stucco. For the purposes of this application, “stucco” will refer to the core material of wallboard panels. As is well known in the art, gypsum wallboard panels are made of a core of set gypsum composition, covered by layers of face and back paper, which provide structural support for the core. In this application “stucco paper” will refer to these facing layers. During the recycling process, the existing panels are ground up, and the ground material is forwarded from the grinder by an auger conveyor to a rotating, drum-like screen separator. The separator is constructed and arranged to retain the scraps of face and backing paper, and allow the stucco powder and particles to fall through by gravity to a hopper. Collected stucco is then reused in the wallboard manufacturing process.
A common drawback of this recycling process is that the separator screen, typically woven wire mesh, collects scraps of paper in the screen, causing an effect referred to as “blinding over,” and/or paper and oversized material is not removed from the screen fast enough, resulting in the accumulation of paper. Blinding over refers to a condition where the paper scraps block the openings in the screen to the extent that the flow of stucco into the collection hopper is impeded. Instead of falling to its intended location, a percentage of the recyclable stucco flows with the waste paper towards the paper collection receptacle, which is usually disposed of. Attempts to reuse the diverted stucco have suffered from an excess of paper in the stucco. Also, due to limited space at the wallboard plant, any effective recycling apparatus needs to be relatively compact.
Thus, there is a need for an improved wallboard recycling apparatus which prevents “blinding over” and improves separation of paper and stucco.
The above-listed need is addressed by the present stucco paper screen assembly, including an inner screw conveyor shaft and flights, with a cylindrical screen connected around the outer diameter of the inner screw, creating a permeable membrane around the screw. On the outer face of the screen, a second, larger diameter set of flights is connected, forming an outer screw. The outer screw flights are configured for directing material flow in a desired direction, preferably an opposite direction from that of the inner screw flights, however a co-current direction with the first flights is also contemplated, depending on the location of a stucco discharge opening. Both the inner screw, screen and outer screw flights are interconnected and rotate together. An advantage of the present assembly is that it is installed around an existing auger conveyor that is used to transport ground recycled wallboard panel materials in a wallboard manufacturing plant to the stucco discharge opening. Power for the dual flighted screen is obtained from the same motor, pulley and belt system of the existing woven wire conveyor.
As the ground wallboard material enters the inner screw, undersize material, preferably stucco powder and small particles, falls through the screen to the stucco discharge opening. If the opening is missed for some reason, such as the stucco being temporarily entrained with paper scraps, the stucco eventually falls through the screen to be engaged by the outer flights. These outer flights have a preferably helical design configured to move the collected stucco powder in the outer casing trough in a direction to a desired output, preferably the stucco discharge opening. In the preferred embodiment, the movement is reverse relative to the movement of material internal to the screen by the inner flights. The latter flights move the material to a paper scrap collection apparatus. It is preferred that the outer flights direct the collected material to the stucco discharge opening. Larger size material from the ground wallboard, primarily paper scraps, is retained within the screen, and is moved by the inner flights toward the paper collection apparatus.
In the present assembly, the screen is generally cylindrical-drum-shaped, and is fabricated from steel sheet material that is perforated, with the holes approximately ¼ inch in diameter. After perforation, the sheets of screen are shaped to fit around peripheral edges of the first or inner flights. It is preferred that the screen is removable in semi-cylindrical portions which provide operator access to the inner screw conveyor in the event of a clog.
Another feature of the present screen assembly is an air knife system, which includes several air knife outlets constructed and arranged for emitting compressed air. The knives are directed at, and in operational relation to, the screen openings and are periodically fed compressed air for dislodging larger scraps of paper or other debris from the screen openings. Compressed air periodically fed to individual air knife jets forces material from the screen towards the interior of the drum, where the material is then caught by the inner flights for movement towards the paper scrap collection apparatus. This pattern of air pulse distribution allows the use of existing factory air supply, optionally at 80-100 psi but variable as to specific plant location, and subject to reduction by a regulator as desired, for obtaining desired pressure, such as, for example 70 psi, however other values are contemplated, yet provides sufficiently strong pulses for dislodging paper scraps from the screen.
Regarding the paper collection apparatus, this assembly includes a collected oversize material discharge chute with a significant vertical component that is in communication with a paper collection container. The oversize material discharge chute is preferably provided with a rotary valve for preventing updrafts of air in the chute from preventing the fall of paper scraps to the container by gravity. Since the collection container is typically located outside, a hood is provided for protecting the collected paper from exposure to the elements.
More specifically, the present screen assembly includes a housing defining a material flow chamber and having an inlet end and an outlet end, and a stucco discharge opening being located in the chamber between the inlet end and the outlet end. An auger shaft is located in the housing for axial rotation and having at least one first helical flight arranged in a flight pattern oriented so that material engaging the first helical flight is conveyed from the inlet end to the outlet end. A screen surrounds the at least one first helical flight for common rotation and extends generally from the inlet end to the outlet end. At least one second helical flight is disposed on an exterior surface of the screen and is arranged in a flight pattern oriented so that material engaging the second helical flight is conveyed in a direction to the stucco discharge opening.
In another embodiment, a screen assembly is provided, including a housing defining a material flow chamber and having an inlet end and an outlet end. A stucco discharge opening is located in the chamber between the inlet end and the outlet end, and an auger shaft is located in the housing for axial rotation. The shaft has at least one first helical flight arranged in a flight pattern oriented so that material engaging the first helical flight is conveyed from the inlet end to the outlet end.
A screen surrounds the at least one first helical flight for common rotation and extends generally from the inlet end to the outlet end. The screen is fabricated from perforated sheet material, and is provided in a plurality of semi-cylindrical segments individually attachable to the at least one first flight. At least one second helical flight is disposed on an exterior surface of the screen and is arranged in a flight pattern oriented so that material engaging the second helical flight is conveyed in a direction toward the stucco discharge opening. Also, at least one air knife is constructed and arranged for directing compressed air to the screen for dislodging material caught on an interior surface of the screen.
Referring now to
A main conveyor 18 featuring an axially rotating helical auger 20 conveys the comminuted or chopped up wallboard fragments from a source area (not shown) for separation of the desired ground stucco 16 from unwanted paper scraps 22. As is known in the art, the paper scraps 22 were originally used to form face or backing surfaces of the wallboard panels. Since the used paper 22 has less recyclable value than the stucco, and impedes the quality of the stucco, it needs to be separated for efficient reuse of the stucco. Stucco powder 16 falls from the conveyor 18 into the hopper 14 through a stucco discharge opening 24.
Referring now to
The material discharge chute 42 is preferably oriented generally vertically. An opposite end 46 of the chute 42 is connected to a collection bin 48 for collecting material, namely the paper scraps 22, separated out from the discarded wallboard by the present paper separating apparatus 30. In the preferred embodiment, the collection bin 48 is provided with a protective cover 50, since the bin is typically located outside and exposed to the elements. In the preferred embodiment, to promote the vertically downward flow of paper scraps 22 through the collected oversize material discharge chute 42 to the collection bin 48, against ambient air currents, a rotary valve 52 is connected to, and in fluid communication with, the tube as is known in the art.
Referring now to
Referring now to
A common problem of prior paper separating devices, which typically employed screens made of woven wire filaments, is that paper scraps often became caught or lodged in the wire screen, thus inadvertently blinding the screen to the flow of powdered stucco. To prevent this problem, the present screen 76 is preferably a sheet or plate of steel or similar material in which a plurality of holes 78 (
Referring now to
The apparatus 30 is constructed and arranged so that mixed stucco 16, scrap paper 22 and chunks of discarded wallboard panels are conveyed by the conveyor 18 into the material flow chamber 34. Ideally, the screen holes 78 creating the perforations are dimensioned so that the paper scraps 22 are retained within the screen on the side of the first helical flight 72, which conveys the collected scraps to the outlet end 40 and ultimately, through the chute 42 to the collection bin 48.
At the same time, the stucco powder 16 is preferably of a relatively small particle size compared to the paper scraps 22, and has a granular or powdery consistency that readily passes through the screen holes 78 into the chamber 34, where the particles are collected by the second helical flight 80 and conveyed towards the inlet end 36, more specifically toward the stucco discharge opening 24.
Referring now to
In the preferred embodiment, there are a plurality of the air knives 90 disposed in spaced, linear arrangement so that an entire length of the screen 76 is exposed to compressed air jets. It is preferred that the screen 76 extends almost the full length of the housing 32, with appropriate clearance to promote free rotation of the combined screen and flights 72, 80.
As seen in
Referring to
To conserve the compressed air, a control unit 102, preferably including a processor and associated circuitry that is connected to a distribution manifold 104. The manifold 104 is part of the piping system 94 and includes at least one valve 106, and under the control of the control unit 102, is provided to generate periodic pulses of compressed air from the knives 90a, 90b. The result is a periodic flushing or dislodgement of trapped scrap paper 22 from the screen 76 with a more efficient use of compressed air.
Referring again to
While a particular embodiment of the present stucco paper screen assembly has been described herein, it will be appreciated by those skilled in the art that changes and modifications may be made thereto without departing from the invention in its broader aspects and as set forth in the following claims.
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