None
None
1. Field of the Invention
Scraper-chain conveyors adapted to carry hot asphalt, in particular the type having two endless loop link chains of the type known “as roller chains” with transverse scraper bars between. Where the transverse scraper bars urge the conveyed material along a supporting surface. These are sometimes called scraper-chain conveyors or drag-chain conveyors. In the presently described embodiment, the scraper-chain type conveyor has outwardly extending sweeps integral with some of the roller chain links wherein said sweeps clear pebbles, sand, and tar from the guide ways outside the central asphalt transport channel.
2. Description of the Prior Art
Asphalt surface roads are constructed by an asphalt laying machines of the type having a receiving hopper on the front end, a chain link conveyor assembly for moving the asphalt from the hopper to the back end of the machine, where a screw conveyor or equivalent mechanism distributes the asphalt transversely across the back end of the machine and dumps it onto a prepared roadbed. A screed then spreads and levels the asphalt to a constant depth and smooth surface. The asphalt thus placed is compacted by a following compacting machine which may be part of the spreader or an independent compactor machine. The result is a paved road surface which after suitable setting time for hardening, is ready to receive traffic.
The present art makes good roadways, but the machine suffers from small amounts of asphalt coated pebbles, sand, and tar getting into the channels between the outer roller chains and the up-turned edges of the slide pan (bottom pan) over which the scrapers push the asphalt along. This is leads to excessive wear on the heads of the chain link pins, and when the paving machine is retired for the night, the outer channels must be cleaned. If not, the hot tar cools and forms solid masses of pebbles, sand, and tar in the conveyor which must be chipped or burned out before the paving machine can be re-started. Failure to do so, often results in a broken paving machine.
The present invention is to fit at least one link, preferably many, on each side with outwardly extending sweeps to clear the spilled asphalt from the outer channels.
Four patents from the prior art utilize outward extensions on the chain links. While having similarities, none individually or in combination have all the characteristics of the present invention.
PN 2,766,979, “Cutter or Disintegrating Chain with Dirt Scraping Means”, by Alexander Caulder, is basically a large chain saw used in the coal mining industry, '979 shows a link chain with two projections extending outwardly. These projections are not part of a cleaning system, but are stabilizers to keep the chain upright.
There are several notable differences between Caulder's device and the present invention. In particular, the Caulder device is not a materials conveyor, it is a cutter in the general design of a chain saw and particularly adapted for cutting coal. It has a single chain riding in a narrow channel accommodating the only chain and the links are in bicycle chain configuration. The dirt scraping means is a transverse cut (17) in the bottom of the link (22), not extending outwardly, and cleans only the bottom of the channel.
If the Caulder cleaning means (17) were to be adapted for use in an asphalt conveyor, the slot (17) would quickly fill with gooey tar. Furthermore, bottom of link 22 would ride on a tar film which would harden and glue the link to the channel. Which, among other things, is what the present invention is to prevent.
Outwardly extending lip (14) is not a scraper, but a lever cooperating with channel liner 13 (
PN 4,505,379, “Scrapers for Scraper-Chain Conveyors”, by Helmitt Temme. Temme's scrapers of interest are the shaped and treated edges of the transverse bars between the chains. What appear in the figures as outward projections (“locking devices”) (17) from the links are the connectors to connect the product urging scraper bars (16) to the driving chains (15). The extent of the locking devices (17) beyond the chain line is not discussed, nor is any other purpose for them revealed.
Within the text, the words “scraper”, “scraping”, and derivatives are clearly always used in connection with the scraper bars, which are the focus of the patent. The phrase “scrapers for . . . ” in the title is more ambiguous, but surely is intended to mean the portions (24 & 26) of the scraper bars (16) dedicated to scraping either or both the top pans (12) or the closing pans (13) on the underside of the conveyor.
The text describes two embodiments of the locking device (17).
Any other assertion about the operation and function of the locking device (17) is pure speculation.
Note that the Temme disclosure uses common loop chain, not the type having interdigitated side panels linked by pivot pins (roller chain) as described for the present invention. Note also that re-designing the Temme locking devices to accommodate the roller chains of the present invention would change the structure and mode of operation of the Temme locking devices. Such a revision would be outside the permissible modifications to assert a 103 rejection.
PN 5,280,833, “Turn Conveyor with Reduced Friction Feature” by Andre Robin. Robin's friction reducing feature is an add-on to conventional conveyors designed to carry boxes and bulk goods around corners. The conveyors he describes, both as prior art and as new are not suitable for moving loose material such as sand, gravel, or mixtures, and especially when such loose material is conglomerated with sticky liquids like asphalt. The edges of his conveyors are fitted with glides having very low coefficients of friction. The glides in some embodiments are projections extending outwardly from the glide body.
Robin's preferred projections are two sets of bars Robin calls “V shaped portions” or “plows”, arranged in a chevron pattern with the points in the center of the projections and facing forward. Robin asserts that the chevrons (“plows”) are adapted to remove debris from between the belt and frame (see 'abstract, 2:51-53, 4:64-5:5). While, the Robin “plows” might push the kind of debris expected from transporting boxes and bulky items, they would not work with gooey, sticky, viscous tar-sand-pebbles mixture. They would ride over and compact tar-sand, and would ride over pebbles stuck or dragging in the tar. The present invention overcomes this limitation by utilizing projecting cleaning bars of different configuration from those of Robin.
PN 7,600,632, “End Protector Link for a Conveyor Chain”, by William C. Hall. This disclosure teaches a retaining clip something like a D ring that slips over enlarged heads of the link pins. The retainer is U shaped in cross section and one side slips behind the link pins and the other side slides along the conveyor frame, trough, or track. The retainer/protector is not part of the link itself, and there is no teaching that the retainer cleans the conveyor guide trough, nor is there a teaching that the retainer clip reduces friction of the chain against the guide trough. Indeed, the clip is not capable of exerting much force against dirt and other debris in the guide trough without becoming disengaged from the link pins. Furthermore, being open on 3 sides and hollow, the interior of the protection clip will pack with fines, which in the case of asphalt and other hardening material, will make removal of the clip and links difficult if not impossible.
3. Objects of the Invention
The object of the invention is to provide a means for clearing the guide channels of an asphalt carrying conveyor of entrapped components of the asphalt, thereby preventing the entrapped asphalt from hardening and jamming the conveyor.
Another object of the invention is to reduce the wear on the roller chain link pivot pins by removing much of the grit that accumulates in the chain guide ways.
Another object of the invention is to have the clearing means simple and retrofit able to existing paving machines at reasonable cost.
Another object of the invention is to reduce wear on the link pins by preventing the pin-heads from rubbing against the channel walls or being abraded by accumulated sand and grit.
In accordance with these and other objectives of the invention, there is provided an improvement to a roller chain conveyor of the scraper-chain variety wherein bosses extending into the guide channels outboard from the chains to sweep said channels clear of spilled loose material.
Selected links of a roller chain conveyor adapted to move heated unconsolidated asphalt paving material are fitted with lateral extensions that both sweep away asphalt that has spilled out of the primary conveyor belt system and to provide separation of the chain links and the sides of the conveyor guide trough, often called the conveyor track.
The sweeps comprising a bar of steel are fixedly attached to selected links of the link chain, and extend outwardly to the proximity of the conveyor guide trough.
Thus any material spilling beyond the chain will be swept away and at the same time, the chain links will be held away from the trough edges, thereby preventing the heads of the link pins from rubbing and wearing away, thus extending the chain life. Field trials indicate an increase in conveyor life of more than double over the present art, plus the labor saved by not having to clean the outer guide channels.
a is a view of the invention applied to a chain link.
b is the same link turned around.
Referring to
The driving chains (8) used in the conveyor of paving machines are of the type known as a “roller chain” of the form shown in either
The illustration of
a and 4b show the debris clearing bars or sweeps (13) attached to the outside panels (14) of some links, preferably to the links carrying the cross-bars. The cross bars (6) provide stability to resist twisting, overturning, and lateral movement of the clearing links.
The debris clearing bars, or sweeping bars, (13) in the clearance channel (10) comprise a projection extending outwardly from the outer link panel to the proximity of the up-turned edge of the bottom pan which is the outer wall of the clearance channel (10), and perpendicularly to the direction of travel from the proximity of the bottom to the proximity of the top of the link outer panel, whereby the projection sweeps paving material from said clearance channel, thereby preventing said paving material from abrading the roller chain or from hardening in the clearance channel.
The preferred, and tested, material for the sweeping bars (13) is steel, but other materials such as woods, plastics, filled plastics, ceramics, and micarta, may work well in various applications. In general, filled plastics are characterized as having the chemical properties of the plastic, and the mechanical properties of the filler material. Tungsten carbide, silicon carbide, and ferrites are in the family of ceramics and may be used as the material of the sweeps, or in powder or granular form as filler.
The preferred method of attaching the sweeps (13) to the link panels (14) is to construct the link plates with the bars formed integrally by forging, casting, or machining. However, this disclosure does not preclude other fastening methods such as brazing, welding, bolting, glueing, etc.
The sweeps (13) do wear against the residual grit in the channel (10), but are easily replaced. Much more easily replaced than all the link pins in a worn-out chain. It is known that sometimes softer materials withstand abrasion better than hard materials. That is why some softer materials are suggested.
Referring to
The roller chain design shown in
The sweep bar (13), may in some applications, be removably attached by various means such as T slots, bolting, pins through the plate secured by D rings, nuts, cotter pins, etc.
The outer link panel of one or more links carrying the scraper bars is replaced with a link panel having laterally extending projections adapted to extend from the chain to the guide channel wall. These projections then travel with the chain and clear the channel between the chain and guide channel wall of spilled loose material lodged therein. Wear on the projections is expected, and the outer link panels may be repeatedly replaced until the rest of the chain wears beyond its effective life.
Having described preferred embodiments of the invention with reference to the accompanying drawings, it is to be understood that the invention is not limited to those precise embodiments, and that various changes and modifications may be effected therein by one skilled in the art without departing from the scope or spirit of the invention as defined in the appended claims.