A portable trommel has a chassis, including support wheels at one end thereof for movement of the trommel. A trommel is rotatably mounted on the chassis and has an input and an output end. A hopper and an input conveyor, for supplying material to be screened to the input end of the trommel, are mounted on the chassis adjacent the input end of the trommel. An output or fines conveyor, for collecting material passing through the trommel screen, is mounted on the chassis, below the trommel. A stockpiling conveyor is mounted on the chassis and has a lower end adapted to receive screened material from the fines conveyor and an upper end for discharging screened material to form a stockpile. The stockpiling conveyor can be in two parts, which can be folded into a retracted position for storage and transportation, and further can be mounted for rotation about a vertical axis to enable an arcuate storage pile to be formed.
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1. A portable trommel comprising:
a chassis, including support wheels at one end thereof for the movement of the portable trommel;
a trommel rotatably mounted on the chassis and having an input end, an output end, and a trommel screen;
input means for supplying material to be screened to the input end of the trommel, the input means being mounted on the chassis adjacent the input end of the trommel;
output means for collecting material passing through the trommel screen, the output means being mounted on the chassis, below the trommel; and
a stockpiling conveyor mounted on the chassis and having a lower end for receiving screened material from the output means and having an upper end for discharging screened material to form a stockpile, wherein the stockpiling conveyor comprises a first lower part, pivotally attached to the chassis and a first upper part, which is pivotally attached to the first lower part, the first lower and the fist first upper parts being movable between an extended, operational position, in which the stockpiling conveyor extends upwardly and outwardly from the chassis and a retracted position for transportation, in which the first lower part is at an angle to the first upper part and the first upper part extends over the chassis, and further wherein the first lower part of the stockpiling conveyor has a lower end mounted to the chassis for rotation about a vertical axis, to enable the stockpiling conveyor to form an arc-shaped stockpile;
wherein the lower end of the first lower part is pivotally mounted to the chassis for motion about a horizontal axis, and wherein the portable trommel includes a body extending upwardly from the chassis and including an upper support bracket providing a support point, with the vertical axis of rotation of the stockpiling conveyor extending through the support point, and wherein a support extends between the support point and the stockpiling conveyor for support thereof.
0. 2. A portable trommel as claimed in
3. A portable trommel as claimed in claim 2 1, wherein in the input means comprises an input hopper and an input conveyor at the bottom of the input hopper which , wherein the input conveyor discharges into the input end of the trommel, and wherein the output means comprises a fines conveyor extending along the portable trommel from beneath the trommel to the stockpiling conveyor.
4. A portable trommel as claimed in
0. 5. A stockpiling conveyor as claimed in
6. A portable trommel as claimed in claim 5 1, wherein the support comprises an elongate flexible element attached to the first upper part of the stockpiling conveyor.
7. A portable trommel as claimed in claim 2 1, wherein a turntable is mounted on the chassis, for rotation about a the vertical axis, and wherein the first lower part of the stockpiling conveyor is mounted to the turntable.
8. A portable trommel as claimed in
9. A portable trommel as claimed in
10. A portable trommel as claimed in claim 8 1, wherein first which includes an actuation means for displacing the first lower and first upper parts between the extended and the retracted positions.
11. A portable trammel as claimed in
12. A portable trommel as claimed in
13. A portable trommel as claimed in claim 12 1, which includes a support for the first lower part of the stockpiling conveyor, for support thereof in the retracted position.
14. A portable trommel as claimed in claim 7 1, wherein the input means comprises an input hopper and an input conveyor at the bottom of below the input hopper which, wherein the input conveyor discharges into the input end of the trommel, wherein the output means comprises a fines conveyor extending along the portable trommel from beneath the trommel to the stockpiling conveyor, and wherein the fines conveyor is inclined at an angle and has a lower end located beneath the trommel and an upper end located above the lower end of the stockpiling conveyor.
15. A portable trommel as claimed in
16. A portable trommel as claimed in claim 14 1, which includes a rejected material conveyor, attached to the chassis and extending from the output end of the trommel, for removal of coarse material that has travelled through the trommel.
17. A portable trommel as claimed in
18. A portable trommel as claimed in
19. A portable trommel as claimed in
20. A portable trammel as claimed in
21. A portable trommel as claimed in
22. A portable trommel as claimed in claim 21 1, wherein the input hopper and the input conveyor are provided means is between the trommel and the stockpiling conveyor.
0. 23. A portable trommel comprising:
a chassis, including support wheels at one end thereof for movement of the trommel;
a trommel rotatably mounted on the chassis and having an input end and an output end and having a trommel screen;
input means for supplying material to be screened to the input end of the trommel, the input means being mounted on the chassis adjacent the input end of the trommel;
output means for collecting material passing through the trommel screen, the output means being mounted on the chassis below the trommel;
a rejected material conveyor, attached to the chassis and extending from the output end of the trommel, for removal of coarse material that has travelled through the trommel; and
a stockpiling conveyor mounted on the chassis and having a lower end for receiving screened material from the output means and having an upper end for discharging screened material to form a stockpile;
wherein each of the rejected material conveyor and the stockpiling conveyor is movable between an extended, operational position extending upwardly and outwardly from the chassis, and a retracted position for transportation, the rejected material conveyor and the stockpiling conveyor not extending substantially beyond the chassis in their retracted positions.
0. 24. A portable trommel as claimed in
0. 25. A portable trommel as claimed in
wherein the rejected material conveyor comprises a second lower part pivotally attached to the one end of the chassis and a second, upper part pivotally connected to the second lower part, which second lower and upper parts are movable between the extended, operational position and the retracted position for transportation.
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This invention relates to trommel equipment. More particularly, it relates to a portable trommel for cleaning and separating various types of material.
Trommel equipment is widely used for sorting material by size in various industries including construction, waste disposal, landscaping, and building demolition. It is also used by aggregate producers. Trommel screens are cylindrical in shape, open at both ends, and in use are rotated. The trommel is inclined, so that material naturally tends to travel from the higher end to the lower end. The material to be processed is dumped into the higher end of a trommel screen and rotation causes the material to tumble towards the lower end. Some of the material, the ‘fines’, falls down through the trommel screen and the balance, the coarse material, is discharged out the lower end.
Portable trommels are known. Conventional portable trommel equipment typically comprises a rotary trommel, an input conveyor, and a fines conveyor. These are mounted together on chassis, which is provided with wheels at one end and a “fifth wheel” at the other, for connection to a conventional tractor unit. The input conveyor serves to feed the trommel with materials that are deposited on it. The fines conveyor collects ‘fines’ falling through the trommel screen, and can extend the length of the machine from underneath the trommel to a discharge end.
In order to stockpile screened materials or direct them into a transporter container, typically a separate stacking conveyor must be used. This additional conveyor must be positioned accurately relative to the trommel equipment such that it properly receives screened materials from the fines conveyor. The use of a separate stockpiling conveyor results in substantial costs associated with installing and transporting an additional piece of equipment. These costs can result in trommel machines being inconvenient or impractical for many applications.
Once a stockpiling conveyor has been configured for operation with a trommel machine, its position is fixed and it is not usually practical to adjust its position. Hence, the size of a stockpile that it can make is limited. A tractor or loader is then required to remove processed materials from the stockpile at regular intervals. The processed material is transported to a separate ground area for storage or deposited into a truck. This extra step requires the use and operation of costly loading equipment.
By its very nature, a portable trommel is intended to be frequently and readily moved between different locations. With current portable trommels it is often necessary to provide a stockpiling conveyor. This requires transportation of two separate pieces of equipment. Also, setting up the two pieces of equipment and ensuring they are properly aligned can take from 2 to 4 hours. This results in considerable additional cost.
Further, the material stockpile must be continually serviced by loading equipment in order to prevent the pile from exceeding its maximum height and so that the trommel may process a constant amount of material feed. Over a period of a day, a substantial amount of material must be removed from the fixed stockpile area underneath the stockpiling conveyor. In order to maintain operation of the trommel equipment at an efficient level, two tractors or loading units are required.
Accordingly, there is a need for a stockpiling arrangement for a portable trommel machine, which provides a stockpiling facility and reduces equipment and set up costs as much as possible. Preferably, such an arrangement should also operate as a loader and be capable of rapidly changing from stockpiling to depositing processed materials into a truck or other transport vehicle. Finally, there is a need for a trommel machine which can stack a larger volume of material than is currently possible, without substantially interrupting or reducing the efficient operation of the trammel equipment. Finally, any such modification should still enable a portable trommel to be transported readily on ordinary roads, i.e., it should not be of excessive height or width.
In accordance with the present invention, there is provided a portable trommel comprising:
The stockpiling conveyor includes a lower part and an upper part, which are movable between an extended, operational position, and a retracted position for transportation. Advantageously, the lower part of the stockpiling conveyor has a lower end mounted to the chassis for rotation about a vertical axis, to enable the stockpiling conveyor to form an arc-shaped stockpile. Preferably, the stockpiling conveyor then includes a collection chute at a lower end thereof for collecting and directing material onto the conveyor belt thereof, and the fines conveyor includes a discharge chute at the output end thereof, which directs material downwardly onto the stockpiling conveyor.
More preferably, the lower end of the lower part is pivotally mounted to the chassis for motion about a horizontal axis, and the portable trommel includes a body extending upwardly from the chassis and including an upper support bracket providing a support point, with the vertical axis of rotation of the stockpiling conveyor extending through the support point, and a support extends between the support point and the stockpiling conveyor for support thereof. The support can comprise an elongate flexible element, for example a chain, attached to the upper part of the stockpiling conveyor.
To enable the conveyor to rotate, the lower part of the stockpiling conveyor is preferably pivotally mounted to a turntable, which is mounted for rotation about the vertical axis. A pair of hydraulic piston and cylinder assemblies, or other drive means, can then be pivotally connected between the chassis and the turntable, for rotation thereof.
Advantageously, the lower and upper parts are pivotally connected, and include an actuation means for displacing the lower and upper parts between the extended and retracted positions. The actuation means can comprise a pair of hydraulic pistons and cylinders assemblies and a corresponding pair of mechanical linkages on either side of the stockpiling conveyor, with each hydraulic piston and cylinder assembly and one mechanical linkage providing a connection between the lower and upper parts of the stockpiling conveyor.
Each mechanical linkage can comprise a first extension member pivotally connected to the lower part of the stockpiling conveyor, a second extension member secured to the upper part of the stockpiling conveyor, a connection member pivotally connected to the first and second extension members, with the respective hydraulic piston and cylinder assembly pivotally connected between the first extension member and the first part of the stockpiling conveyor. Preferably, a support for supporting the lower part of the stockpiling conveyor in the retracted position is then provided.
To handle coarse rejected material, discharged from the output end of the trommel, a rejected material conveyor can be provided. This is preferable pivotally mounted to the chassis, adjacent the output end of the trommel, so as to be movable between an extended or working position and a retracted position. More preferably, this rejected material conveyor, like the stock piling conveyor, comprises a lower part and an upper part, which can be pivoted relative to one another. The lower part is dimensioned so that, when retracted, it extends to the top of the trommel itself, so that the upper part can be pivoted to lie across the top of the trommel. Both to pivot the rejected material conveyor relative to the chassis and to cause the lower and upper parts to pivot relative to one another, appropriate hydraulic mechanisms can be provided. The output end of the trommel is then advantageously fitted with a pair of plates forming a discharge chute, for directing rejected material onto the rejected material conveyor. These plates can be bolted to the chassis, for quick removal for transportation.
In accordance with another aspect of the present invention, there is provided a portable trommel comprising:
For a better understanding of the present invention, and to show more clearly how it may be carried into effect, reference will now be made, by way of example, to the accompanying drawing which show preferred embodiments of the present invention and in which:
Referring first to
Referring to
As shown in
The rotary trommel 16, shown in various views in
The rotary trommel 16 is supported and retained in position by four support rollers and one thrust roller, not shown. The trommel rollers are supported from welded brackets on the chassis 12. A fully enclosed chute, not shown embraces the lower half of the rotary trommel 16 and directs the processed materials onto the fines conveyor 20. The chute has inclined surfaces made from conventional industrial sheeting with a low co-efficient of friction to lessen material build up. A drive means for rotating the trommel screen cage 48 is connected to a heavy plate sprocket, not shown, which is fixed to the inlet ring 50. The drive means principally comprises an hydraulic motor, a smaller drive sprocket and a roller chain. The plate sprocket is driven by means of the roller chain and from the smaller drive sprocket powered by the drum hydraulic motor. The hydraulic motor is conventional and is connected via hydraulic lines to the control unit which is detailed below. The hydraulic motor is mounted on a mounting plate which is welded or otherwise secured to the body 14. An adjustable control valve in the control unit, not shown, provides a variable speed range for the rotation of the trommel screen cage 48.
Referring to FIGS. 1,2,3,4 and 5, the input conveyor 18 forms the base of a feed hopper 58 which is fabricated from four steel plates. The input conveyor 18 is conventional, comprises a belt which is vulcanised in place, and is mounted to the chassis 12 in known manner. The input conveyor 18 is driven by way of a hydraulic motor, not shown, which is connected to the control unit. In known manner, belt support rollers support the belt of the input conveyor 18 and side guide idlers fitted to this belt assist in maintaining true belt alignment. Continuous adjustable rubber flashing 62 is in close contact with the input conveyor.
The input conveyor belt 18 has 4″ diameter steel support rollers spaced at 1′ centres and the drive pulley is lagged, i.e. provided with a rubber cover. The tail pulley is a wing type, with manual, protected screw take up adjustment. The belt is 36″ wide.
Referring to
Now, in accordance with the present invention and as shown in
As shown in
As shown in
As shown in
Now, in use, the stockpiling conveyor is moved between its retracted and extended positions, when aligned with the chassis of the trommel 10 shown in
In use, as the conveyor 22 is lowered, the lower part 88 drops down between the locating tabs 122. The dimensions are such that the lower part 88 simply drops far enough to securely engage the support frame 118. Motion of the lower part 88 then ends, and the upper part continues to fold towards the retracted or storage position, shown in dotted outline in
Further retraction of the upper part 90 permits the chain 110 and the bracket 107 to fold or collapse downwards. Thus, the bracket 107 pivots until it is hanging down, and the chain 110 is slack. This enables the upper part 90 to fold down, between the vertical frame members 109, until it abuts a roof 25 of the engine compartment 24 (as shown in
To extend the stockpiling conveyor, this operation is essentially reversed. No elaborate preparation procedures are required. The hydraulic cylinders 92 are activated to cause their piston rods to retract. The upper part of the conveyor then rotates clockwise as viewed in
The conveyor can be considered to have a gravitational projection or shadow. As shown in FIG. 1, the gravitational projection would extend the length of the extended or deployed conveyor. However, the conveyor when in its retracted or stowed position has a smaller gravitational projection since the second part of the conveyor has folded over the first part of the conveyor.
Referring to
To guide rejected or coarse material from the trommel onto the conveyor 130, a chute assembly comprising an upper chute 138 and a lower chute 140 is provided. The upper chute 138 comprises a pair of ¼″ thick plastic sheets bolted to the frame adjacent to the outlet end of the trommel. For transportation, these sheets would be removed and stored within the trommel, but they could alternatively be mounted by hinges, to permit them to be folded into a storage or transportation position.
The lower chute 140 comprises a pair of side, guide plates secured to the frame of the conveyor 130.
To move the conveyor 130 between its extended and retracted positions, a pair of hydraulic piston and cylinder assemblies 142 are provided between the lower and upper parts 131, 132. These fold the upper part 132 relative to the lower part 131. To fold the whole conveyor 130 relative to the chassis 12, a pair of hydraulic piston cylinders 144 are provided.
The lower end of the rejected material conveyor 130 has a subframe 150 having a cross member 152 and two upright members 154, as shown in
For each of the upright members 154, one side has a pair of plates 158, with bores, for pivotable connection to a piston rod of a hydraulic piston and cylinder 144, the other end of which is pivotally attached to the chassis 12.
Side members 160 of the lower part 131 are welded to the cross member 152 and braced by bracing pieces 162. It will be appreciated that actuation of hydraulic piston cylinders connected to the plates 158 causes the whole rejected material conveyor 130 to pivot about a pivot axis through the bores 156, for movement between extended and retracted positions. As
As shown, for the lower or tail part 131, the end of each side member 160 is provided with a pair of plates 174 with through bores defining a hinge axis. Correspondingly, the lower ends of the upper side members 168 are provided with plates 178 adapted to be received between the plates 174 and having a corresponding through bore for a pivot pin.
To mount an hydraulic cylinder and piston between each pair of side members 160, 168, a short length of square tube 180 is welded to each side member 160. On either side of the tube 180, there are plates, defining a pivot axis. Correspondingly, a smaller section square tube piece 184 is welded to the end of each side member 168 and is cut at its end to form a pivot point. A hydraulic piston cylinder 142 assembly would be connected between this pivot point and the plates on the tube 180. It can be noted that the tube piece 184 extends down below the plates 178, so that when the hydraulic piston and cylinders are extended to displace the upper and lower parts 131, 132 from the extended position to the retracted position, the hydraulic piston cylinders tend to be displaced away from the side members 160 and more particularly do not interfere with them.
The rejected material conveyor 130 enables coarse or rejected material to be discharged into a truck or skip for transportation. Alternatively, it simply enables a sizable stockpile of material to be formed, before the material has to be moved. In comparison to the stockpiling conveyor 22, which can form a pile 17′6″ high, the discharge end of the conveyor belt is at a height to form a single, conical pile 10′ in height. This should be sufficient for most purposes.
Another possible use of the conveyor 130 is as a sorting conveyor or table. For this purpose, the chains 133 would need to be detached, and it may then be necessary to provide additional support for the conveyor. The conveyor 130 would then be arranged generally horizontally. Two or more people on either side of the conveyor 130 would then sort through coarse material travelling along it, so as to pick out certain items. For example, various toxic materials, such as batteries etc. are not acceptable at garbage dumps and the like and must be removed.
The engine compartment 24 is mounted on the front portion 28 of the chassis 12 over the fifth wheel king pin 36 and houses the power unit for the trommel machine 10. Hydraulic motors for the trommel and the conveyor belts are conventional and are connected via hydraulic lines to the control unit and a hydraulic pump within the control unit. The required power can be provided by, for example, any available liquid cooled diesel engine. The engine compartment 24 also includes a hydraulic tank and other standard elements of a hydraulic system to feed the hydraulic pump. Hydraulic power is controlled by hand controlled valves and hose lines to adjust the rotating speed of the rotary trommel 16, the speed of the input conveyor 18, the fines conveyor 20, and the stockpiling conveyor 22. All hand control valves are accessible by an operator from ground level. As noted, the engine compartment 24 has an inclined roof 25, sloped to accommodate the conveyor 22 in the retracted position.
All drive functions are controlled from this position. All valves having definite positioning have detents to keep the drive in the desired mode. For servicing, all hydraulic flow from the oil reservoir can be shut off to each circuit by means of gate valves at the exit point from the reservoir. All valves have a built-in adjustable pressure relief device. The control unit may also have remote control means such as conventional radio control equipment so that the individual operating the loading equipment may be able to instantaneously control the apparatus, to instantaneously adjust the rotation speed of the trommel screen cage 48 for optimal screening effect, to adjust the speed of the input conveyor 18, fines conveyor 20, or stockpiling conveyor 22, and to adjust the radial position of the stockpiling conveyor 22 by activating the hydraulic cylinders 82 and 84.
The trommel machine 10 operates as follows. For transportation the stockpiling conveyor 22 and the rejected material conveyor 130 are folded back into their storage positions.
In their storage positions, the conveyors 22, 130 are essentially folded to an L-shape or the like. This effectively releases the tension on the conveyor belts. Consequently, during transportation, wind action could cause the belts to flap around or to become damaged or entangled on other parts of the equipment. To avoid this, the belts can he maintained in tension in the folded position. This is achieved by providing, for each of the conveyor belts 22, 130, a bracket (not shown) that is located on the inside of the angle of the L-shape. This bracket is bolted or otherwise secured to the frame of the conveyor. The bracket is attached for transportation, and removed and stored before each conveyor is unfolded. This bracket is optional and may not be needed for some applications.
Starting from the folded position, the engine motor is started to operate the hydraulic pump. The hydraulic cylinders 92 are then activated to raise the stockpiling conveyor, as described above, into its operational position through a command at the control unit, and similarly the hydraulic units 142, 144 are operated to extend the conveyor 130 to its operational position. With a screen size appropriate for the application, the rotary trommel 16 and consequently the trommel screen cage 48 are rotated at an appropriate speed by selection at the control unit. The input conveyor 18 is started and rotates in a counterclockwise direction with reference to
The rotational speed of the trommel screen cage 48 may be variably and instantly adjusted for optimal operation of the apparatus. The portable trommel 10 can be operational in this manner within as little as 15 minutes of arrival at a site, due to the integration of the stockpiling and rejected material conveyors 22, 130 into the trommel machine. This setup time is significantly lower that the installation time required to locate and position a separate stockpiling conveyor 22 adjacent a conventional trommel machine, which can be from two to four hours.
Material which is larger than the apertures in the trommel screen cloth 57 or is somehow prevented from falling downwardly, is eventually ejected from the discharge end of the trommel screen cage 48. This material is removed by the conveyor 130. The fines conveyor 20 carries the screened material, the fines, slightly upwards towards the front end of the trommel machine 10 as shown in
As shown in
Because of the ability of the trommel machine to rotate the stockpiling conveyor 22, the present invention can stockpile considerable amounts of material before its capacity is reached. Multiple stockpiles can be produced by varying the position of the stockpiling conveyor 22 within its operable range. Because the trommel machine eliminates the need for a separate stockpiling conveyor and an additional loading vehicle, it also eliminates associated purchase, operational, and transport costs involved with these extraneous pieces of equipment.
Referring to
To enable even larger stockpiles to be formed the additional wheels 38 are provided. Then, when a complete stockpile extending through the full 150° arc has been formed, the portable trommel 10 with its stockpiling conveyor 22 can be moved a sufficient distance to enable a further stockpile to be formed. This does not requires an additional piece of equipment and can be achieved by using the tractor or front end loader that is feeding the device.
The hydraulic landing wheels 38 serve a number of different functions. They are hydraulically raised and lowered using the hydraulic power available. Thus, the wheels 38 are lowered, to lift the trommel off a tractor, and are raised, to lower the trommel onto a tractor for towing.
Once the trommel has been detached from a tractor, as noted above, the wheels 38 ensure that the unit is completely mobile. Any suitable piece of machinery, can be used to move the trommel 10, so that the size of the stockpile created is not limited at all. It is not necessary to reattach a conventional tractor unit to move the trommel 10.
A further function of the wheels 38 is to enable the slope of the trommel 10 to be varied slightly. This can be used to accommodate any variations in the slope of the local ground surface, recognizing that in many locations the ground will be uneven. Alternatively, or as well, it can be used to vary the effective inclination of the rotary trommel 16 itself. The principle variables that effect the operation of a trommel are: the nature of the material being processed; required particle size to be recovered; rotational speed of the trommel; and slope of the trommel. If for any particular application, it is found that material is not travelling fast enough along the trommel, so that an excessive amount of coarse material is being retained for too long within the trommel, then the slope can be increased. Conversely, if it is found that material is travelling to quickly through the trommel, so that fines are being discharged out the end of the trommel, rather than passing through the screen, then the slope can be decreased, to increase the residence time within the trommel 16 and ensure that a greater proportion of the fines passes through the screen.
While preferred embodiments of the invention have been described, it will be appreciated that various changes may be made within the scope of the invention, and such changes are intended to be within the scope of the appended claims.
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