1. Field of the Invention
The present invention relates to the collection and removal of refuse from an underground mine and more particularly to a mobile compactor unit that is transported to selected locations in the mine where refuse is collected and compacted and the compacted refuse is transported to a location where it is extracted from the mine to the surface for disposal out of the mine.
2. Description of the Prior Art
Modern advances in underground mining operations have demanded an increase in the use of materials and supplies which has created the generation of a substantial amount of refuse and waste materials that require disposal. The necessity of disposal of the waste material is mandated to comply with mine safety regulations which are strictly enforced, particularly to address the need for fire prevention which can have catastrophic results to personnel and equipment in an underground mine.
The refuse, waste material, and debris that are generated in conducting underground mining operations include a wide category of materials, both organic and inorganic. Commonly collected waste products include oil pails, sealant buckets, cardboard and paper products, cellophane, wood materials including pallets and waste timber products, banding materials, food products and many other items. Inorganic materials include, for example, plastic bottles, plastic sheet material, metal roof bolts and plates, mine ribbing materials, and mined debris, such as rock material.
Overall, the waste material, debris, and refuse that are removed from the mine are generated from the men and equipment for carrying out the mining operation. The refuse must be continually moved out of the mine to prevent its build up that can create a fire hazard. The conventional practice of collecting and transporting refuse out of the mine is a continual process that entails the collection and hauling by a number of methods available to mine personnel, typically by open top receptacles, such as conventional containers known as “dumpsters”.
Once a dumpster is filled, it must be moved to a location where the refuse can be extracted from the mine. This occurs in multiple hauling operations. Dumpsters are heavy and immobile and require loading onto a mine utility vehicle for movement to an airshaft where the dumpster is hoisted out of the mine to the surface. In many cases, the contents of a dumpster are transferred by hand into a stationary compactor which is moved out of the mine to the surface. At the surface, the contents of the dumpster or stationary compactor are picked up by a commercial hauler or emptied into a surface compactor or a pre-crusher compactor to reduce the volume of trash before it is hauled from the mine site by the commercial hauler.
The movement of dumpsters through the ventilated passageways of a mine is cumbersome and expensive because it requires the use of men and machinery for transporting the dumpsters and removes these resources from the tasks that support the production of mined material. One practice to facilitate the removal of dumpsters filled with refuse from the mine has been to connect the dumpsters and haul them to a central site located at an airshaft with a hoist for extraction and compaction on the surface out of the mine. This operation creates congestion in the mine passageways, particularly where the passageways have only one lane for travel. Consequently, the utilization of men and material for carrying out the mining operation is disrupted by the transport of dumpsters filled with refuse out of the mine.
In many underground operations, the dumpsters have open tops. The movement of the dumpster through ventilated mine passageways tends to blow or discharge the waste out of the open top of the dumpster. As a result, the mine passageway is littered with debris, further creating a fire hazard. This requires the mine operation to take additional measures to comply with state and federal safety regulations.
The use of open top dumpsters to haul refuse to a central location in the mine requires multiple trips, creating a greater demand for the services of a commercial hauler to pick up the refuse once it is moved out of the mine to the surface. This imposes upon the mine operator the expense of daily hauling fees for disposal of the refuse. A disposal fee must be paid by the mine operator for each dumpster or receptacle that is picked up by a commercial hauler for transport to a disposal site.
To eliminate the problems associated with bulk handling of refuse and waste material collected in open top receptacles in a mine, hydraulically operated compacting units have been proposed for compacting waste in receptacles in an underground mine to facilitate more convenient transport of the waste material in a compacted condition out of the mine. German Patent 42 40 286 discloses a stationary compactor unit that is positioned at a desired location in the underground mine. The waste material is brought to the compaction unit and deposited through a feed hopper into a compression chamber. In the compression chamber, the waste material is compacted into a bale, and the bale is tied or wrapped by banding. After banding, the bale is ejected from the compaction unit. The banded, compacted bale of waste material is then transported out of the mine.
Use of waste compaction units below ground in excavation pits are disclosed in U.S. Pat. Nos. 4,269,562 and 4,358,238. U.S. Pat. No. 4,358,238 discloses an excavated open pit for receiving a compactor having an open top having a vertically positioned tubular chute. A receptacle containing the refuse is moved into position by a truck over the chute. The refuse is deposited through the chute into the compactor positioned in the pit. U.S. Pat. No. 4,269,562 also discloses a refuse compactor that is positioned below ground level in a ditch or trench. The refuse from a delivery truck is deposited into the below ground compactor.
U.S. Pat. No. 4,144,806 discloses a hydraulically operated trash container unit that slides on transverse rods of a skid. When the trash container unit is full of compacted trash, turnbuckles are loosened to allow the unit to be lifted out of connection with the housing unit by hoist lines and lowered on to a dump vehicle for receiving the compacted trash from the container unit.
U.S. Pat. No. 7,597,045 discloses a hydraulically operated compactor mounted on a base assembly which is bolted or mounted to the floor of a mobile truck or trailer. The compacting apparatus is designed to minimize the height and length in comparison with conventional compacting apparatus. U.S. Pat. No. 6,550,378 also discloses a compacting waste apparatus having a low profile feature for reducing the vertical dimension of the apparatus.
U.S. Pat. No. 3,881,407 discloses a compactor for compacting and storing waste material including in combination a storage box and a portable packing mechanism which is movable into and out of position relative to the storage box. U.S. Pat. No. 7,980,173 discloses a self-contained portable compactor having a hydraulic fluid power supply equipped with a breakaway coupler that facilitates a quick connect/disconnect of the hydraulic fluid lines to the compactor for a movement of the compactor.
There is need in underground mining operations for a system for disposing of waste material collected in the mining operations that allows for efficient collection and compaction of the waste material in the mine before it is removed from the mine. The number of hauls of uncompacted waste material needs to be eliminated and consolidated by compacting the waste material for a more efficient collection and removal from the mine, so as to reduce the expense of commercial waste hauler services. By efficiently collecting and disposing of waste material in a mine, the mining operation is not disrupted to accommodate waste haulage from the mine and the use of mine personnel for this function.
In accordance with the present invention there is provided a method for disposing of waste material in an underground mine that includes the steps of transporting a mobile compactor to selected locations for collecting waste material in an underground mine. The compactor is connected to a power supply for operation at a selected location. Waste material collected at the selected location is deposited into the compactor. The compactor is actuated from the power supply to compact the waste material. The compactor containing the compacted waste material is transported to a location in the mine for removal from the mine. The compacted waste material is removed from the mine.
Further, in accordance with the present invention there is provided a method for collecting and removing waste material from an underground mine that includes the steps of transporting a mobile compactor having a container for receiving waste material to a working section of an underground mine. The waste material collected at the working section is deposited into the container of the compactor. The waste material is compacted in the container at the working section. The compactor with the compacted waste material is transported from the working section to a location for removal from the underground mine. The compactor with the compacted waste material is extracted out of the underground mine.
Additionally, in accordance with the present invention there is provided a system for disposing of refuse in an underground mine that includes a mobile compactor unit positioned at a selected location in the passageway of a working section of an underground mine for collection of refuse. The compactor unit is mounted on a mobile frame to facilitate movement of the compactor unit from a central location in the mine through the mine passageway to the selected location for collection of refuse. The compactor unit includes a compaction chamber for collection of refuse and a refuse receiver for compaction of the collected refuse. A power supply is accessible to the compactor unit at all locations in the mine. The power supply is operable to actuate movement of the collected refuse from the compaction chamber into the refuse receiver for compaction. A utility vehicle is removably connected to the compactor unit for moving the compactor unit through the mine passageway between the central location and the selected location in the mine for collection of refuse. The compactor unit containing the compacted refuse is moved by the utility vehicle to the central location where the compacted refuse is extracted from the mine for disposal out of the mine.
A principal object of the present invention is to provide method and apparatus for efficiently and economically collecting, handling, and removing refuse and waste material from an underground mine.
A further object of the present invention is to reduce the frequency over a period of time of individual hauling operations of refuse and waste material out of an underground mine.
Another object of the present invention is to reduce the cost to the mining operation of commercial haulage of waste material from the mine.
A further object of the present invention is to provide a system for moving mobile compactors to selected locations in an underground mine for collecting and compacting waste material and refuse that are generated as part of the mining operation and movement of the compacted waste material to a central location for transportation out of the mine so that the volume of waste material removed from the mine is reduced by compacting the material before it is transported out of the mine.
An additional object of the present invention is to provide a waste disposal system in an underground mine that permits the collection and compaction of waste material at any location in the mine, including the working face, so as to prevent the accumulation of waste material that presents a threat of fire.
A further object of the present invention is to provide for the transportation of mobile waste compacting units throughout an underground mine to progressively collect and compact waste so as to reduce the accumulation of waste and reduce the haulage of uncompacted waste out of a mine.
These and other objects of the present invention will be more completely disclosed and described in the following specification, the accompanying drawings, and the appended claims.
Referring to the drawings and particularly to
The mobile compactor 10 includes a hydraulically operated compaction device generally designated by the numeral 16 and a removable refuse receiver 18. The compaction device 16 is constructed of sidewalls 20, 22, 24, and 26 secured by frame members 28, 30, and 32 to the support frame 12. The sidewalls 20-26 and the frame members 28-32 form a compaction chamber 34 for receiving refuse, waste material, debris and the like for compaction. The vertical dimensions or height of the compaction device 16 and receiver 18 are selected to facilitate unobstructed movement of the compactor 10 in the mine having height restrictions.
The refuse receiver 18 shown in
In one method of operation to remove the receiver 18 from the support frame 12, lift forks (not shown) of a mine haulage vehicle or a dump truck engage the channel members 44 on the sidewalls 36 of the receiver 18 to lift the receiver and deposit the receiver into the dump truck. The receiver 18 can also be lifted onto the scoop portion of a mine utility vehicle, illustrated in
The refuse receiver 18 is removably connected to the compaction device 16 on the support frame 12 by the provision of a conventional turnbuckle mechanism generally designated by the numeral 46. As shown in
The compaction chamber 34 of the compaction device 16 includes a hydraulically operated ram (not shown) having at one end a ram plate that moves from the compaction chamber 34 through an opening in the receiver 18 opposite the chamber 34. In one embodiment the hydraulic ram includes a pair of single stroke piston cylinder assemblies (not shown) connected to a hydraulic pump (not shown). The hydraulic pump is actuated by an electric motor 48 supported by a frame 50 at the end of the support frame 12. The electric motor 48 is actuated by a switching mechanism, such as a dead man switch, mounted on an operator panel 52. When the electric motor 48 is activated from the panel 52, the motor 48 operates the hydraulic pump which in turn operates the piston cylinder assemblies to push the ram plate through the compaction chamber 34 into the refuse receiver 18. With the compaction chamber 34 filled with refuse and waste material, the ram plate advances the refuse into the receiver 18 where it is compressed or compacted to reduce the volume of the refuse.
With the refuse receiver 18 mounted on the skid platform 14, the mobile compactor 10 is not limited to operation at the locations in the mine only where electric power is accessible but is also operable at remote locations where electric power is not available. In this manner, the compactor 10 can be moved from one location to another in an underground mine, as desired in the system of collecting and removing refuse from the mine.
The mobile compactor 10 is dragged on the floor of a mine passageway by connecting a cable or chain from a mine utility or haulage vehicle, shown in
With the provision of the electric motor 48 on the support frame 12, the hydraulic pump actuates hydraulic cylinders that push the ram plate through the compaction chamber 34. Electrical power is supplied at the power center of the working section of the mine where the mobile compactor 10 is located. The operator panel 52 on the mobile compactor 10 is equipped for connection to a hydraulic power takeoff (PTO) from any piece of mobile equipment in the mine, such as the mine utility vehicle shown in
A connection by quick disconnect fittings, as shown in
As shown in
At the respective working sections 58-64, a wide variety of waste material, refuse, and debris is generated during the mining operation. The refuse must be continuously removed from the working section in compliance with health and safety regulations and principally to eliminate fire hazards.
As shown in
As diagrammatically illustrated in
One example of a mobile mine utility vehicle generally designated by the numeral 84 in
The scoop 96 is controlled by the operator for preselected movements in raising, lowering, advancing, and retracting the scoop 96 to load up dislodged mined material on the mine floor for containment in the compartment 98 and unload the contained material and to perform other material haulage operations in the mine. The movement of the scoop 96 is controlled by hydraulic piston cylinder assemblies 100, one of which is shown in
With the present invention as shown in
Positioned forward of the operator's compartment 90 and behind the scoop 96 on the utility vehicle 84 shown in
Thus in operation, when the compactor 10 leaves the power center of a working section, it is moved to locations in the mine where electric power is not accessible. The compactor continues to operate in the remote locations by connecting the hydraulic pump on the compactor 10 to the hydraulic PTO on the mine utility vehicle 84 that pulls the compactor 10 through the mine passageway. At the remote locations, waste material and debris are deposited in the compaction chamber 34 and compacted in the receiver 18. The compactor 10 is pulled from one location to another for pick-up and compaction of waste material collected throughout the mine passageways, until the receiver 18 is full. When the receiver 18 is full, the compactor 10 is pulled to the central location 82 for removal of the compacted waste material from the mine, as diagrammatically illustrated in
For the embodiment shown in
Another method of collecting and disposing of waste materials in an underground mine is described in
The mine utility vehicle 84 in one method pulls the compactor 10 to slide the skid platform 14 on the mine floor. In this manner, the compactor 10 is dragged from its initial fixed position in a mine working section to the prescribed central location 82. As the compactor 10 is dragged through the mine passageways, waste material, debris and refuse are collected and deposited into the compaction chamber 34 and compacted in the receiver 18.
When the compacting operation is performed in areas of the mine where there is no access to electric power, the hydraulic pump on the compactor 10 is actuated by the hydraulic power takeoff on the mine utility vehicle 84 that drags the compactor 10 in the mine passageways. In this manner, the compaction of the waste material deposited in the compaction device 16 is accomplished without the need for access to electric power. Also, once the compactor 10 is disconnected from the power center in the working section, it continues to operate to compact the waste material as the compactor is moved through the mine passageways to the central location 82.
As shown in
Once the compactors 10 have completed the travel from the respective working sections 58-64 to the central location 82, the compacted waste material from the receiver 18 on each compactor 10 is deposited in one method into a stationary receiver for collecting the compacted waste material from the individual receivers 18. The collected compacted waste material is further compacted and then moved out of the mine via the mine slope or hoisted through a shaft to the mine surface.
In another method of operation of the present invention, once each compactor 10 reaches the central location 82, the receiver 18 is disconnected, in the manner as above described, from the compaction device 16. The separated receiver 18 is moved out of the mine through the mine slope or hoisted through a mine shaft to the mine surface. Once the receiver 18 is out of the mine on the surface, the compacted waste material is transferred from the receiver 18 to a commercial waste hauler for final disposal or to a surface compactor or a pre-crusher compactor.
In a further method in accordance with the present invention, the receiver 18 is disconnected from the compactor device 16 and loaded into the compartment 98 of the utility vehicle scoop 96. The scoop 96 transports the receiver 18 to the central location 82 in the mine where the receiver 18 is extracted out of the mine to the surface. Once removed from the mine, the compacted waste material is transferred from the receiver 18 to an open top container or into a surface compactor. The surface compactor further compacts the waste material for reducing its volume for hauling from the mine site. In this manner, the number of commercial hauls and the expense associated therewith are reduced.
Now referring to
With the embodiment shown in
Each piston cylinder assembly 110, 112 includes a cylinder portion 114 and a piston portion 116. The cylinder portion 114 is conventionally connected to the end wall 22. The piston portion 116 is conventionally connected to the press head 108. The piston cylinder assemblies 110, 112 are hydraulically actuated by the supply of hydraulic fluid from a hydraulic system 118 carried by a mine utility vehicle 120 used in the underground mining operation, such as a tractor, shield hauler, mine scoop, or the like.
A pair of hydraulic lines 122 and 124 are connected by fittings 126 and 128, as illustrated in
In operation, the press head 108 is initially retracted, as shown in
The press head 108 pushes the trash into the receiver 18. When the piston cylinder assemblies 110 and 112 reach their full stroke, the compaction cycle is completed. Thereafter, the piston portions 116 are retracted into the cylinder portions 114 by the supply of hydraulic fluid through line 122 to lines 132 and 134. The lines 132 and 134 are connected to the outer ends of the cylinder portions 114 so that the piston portions 116 are withdrawn into the cylinder portions 114. Retraction of the piston portions 116 into the cylinder portions 114 retracts the press head 108 from the receiver opening 106 and hopper 104 to the position shown in
In the method of the present invention for the embodiment of the compactor 10 shown in
After the receiver 18 is filled, the compactor 10 is transported by the mobile mine utility vehicle 120 to a central location 82, as shown in
With the present invention of collecting and compacting waste material, debris and refuse from a mine, multiple hauls of uncompacted waste material out of the mine are eliminated. This reduces the frequency of contracted services of a commercial waste hauler. The intervals of pick-up of waste material from the mine by the commercial waste hauler are reduced. The pick-up can be based on an “on-call” basis where the pick-up occurs only when needed and does not have to be performed on a daily basis. These benefits of the present invention allow the mine operator to negotiate more competitive commercial hauling contracts whereby waste material is removed only as needed and in a timely manner, further assuring compliance with mine safety standards.
According to the provisions of the patent statutes, we have explained the principle, preferred construction and mode of operation of our invention and have illustrated and described what we now consider to represent its best embodiments. However, it should be understood that, within the scope of the appended claims, the invention may be practiced otherwise than as specifically illustrated and described.
This application is a continuation-in-part of U.S. application Ser. No. 13/506,579 filed Apr. 30, 2012.
Number | Date | Country | |
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Parent | 13506579 | Apr 2012 | US |
Child | 13999862 | US |