HORIZONTAL GRINDING MACHINE WITH ENGINE FUEL CONSUMPTION CONTROL

Abstract

A horizontal grinding machine includes a frame, a feed hopper that is adapted to receive material to be processed and a feed conveyor that is associated with the feed hopper and adapted to move material to be processed in a processing direction. The grinding machine includes a grinding cylinder that is adapted to rotate about a generally horizontal grinding axis and a feed roller assembly that is mounted on the frame at the rear end of the feed hopper and in front of the grinding cylinder. The feed roller assembly includes a feed roller that is adapted to rotate about a generally horizontal axis in a first direction that urges the material towards the grinding cylinder and a second direction that urges the material away from the grinding cylinder. A controller is operatively connected to the feed roller and to the feed conveyor and is adapted to control the rotational speed of the feed roller and the speed of the feed conveyor to obtain a predetermined ratio of feed roller rotational speed to feed conveyor speed.

Claims

1. A horizontal grinding machine that is adapted to process material, said grinding machine comprising: (a) a frame; (b) a feed hopper that is adapted to receive the material to be processed; (c) a feed conveyor that is associated with the feed hopper and adapted to move the material in a processing direction; (d) a grinding cylinder that is adapted to rotate about a generally horizontal grinding axis; (e) a feed roller assembly that is mounted on the frame at the rear end of the feed hopper and in front of the grinding cylinder, said feed roller assembly including a feed roller that is adapted to rotate about a generally horizontal axis in a first direction that urges the material towards the grinding cylinder and a second direction that urges the material away from the grinding cylinder; (f) a controller that is: (i) operatively attached to the feed roller and adapted to control the rotational speed of the feed roller; (ii) operatively attached to the feed conveyor and adapted to control the speed of the feed conveyor; (iii) adapted to control the rotational speed of the feed roller and the speed of the feed conveyor to obtain a predetermined ratio of feed roller rotational speed to feed conveyor speed.

2. The horizontal grinding machine of claim 1: (a) which includes a power unit having an engine; (b) which includes an engine control module that is operatively connected to the controller and adapted to communicate to the controller a signal indicating the rate of fuel consumption of the engine; (c) wherein the controller is adapted to adjust the speed of the feed conveyor proportionally to the fuel consumption rate of the engine.

3. The horizontal grinding machine of claim 2 wherein the controller is adapted to increase the speed of the feed conveyor proportionally as the fuel consumption rate of the engine decreases.

4. The horizontal grinding machine of claim 2 wherein the controller is adapted to decrease the speed of the feed conveyor proportionally as the fuel consumption rate of the engine increases.

5. The horizontal grinding machine of claim 2: (a) which includes a lifting mechanism for adjusting the vertical location of the feed roller; (b) wherein the controller is operatively connected to the lifting mechanism and adapted to adjust the vertical location of the feed roller; (c) wherein the controller is adapted to control the rotational speed and the direction of rotation of the feed roller; (d) wherein the controller is adapted to receive a predetermined starting load fuel consumption rate for the engine; (e) wherein the controller is adapted to receive a predetermined minimum operating fuel consumption rate for the engine; (f) wherein the controller is adapted to lift the feed roller and to reverse the direction of rotation of the feed roller when the controller determines that the engine is consuming fuel at a rate which is greater than the predetermined starting load fuel rate and no greater than the predetermined minimum operating fuel consumption rate.

6. The horizontal grinding machine of claim 5 wherein the controller is adapted to adjust the feed conveyor speed and/or the feed roller rotational speed as the feed roller is lifted to reduce the ratio of feed roller rotational speed to feed conveyor speed to a predetermined lower level.

7. The horizontal grinding machine of claim 5: (a) wherein the controller is adapted to receive a predetermined maximum operating fuel consumption rate for the engine; (b) wherein the controller is adapted to increase the speed of the feed conveyor proportionally as the fuel consumption rate of the engine decreases, when the engine fuel consumption rate is between the predetermined minimum operating fuel consumption rate and the predetermined maximum operating fuel consumption rate; (c) wherein the controller is adapted to decrease the speed of the feed conveyor proportionally as the fuel consumption rate of the engine increases, when the engine fuel consumption rate is between the predetermined minimum operating fuel consumption rate and the predetermined maximum operating fuel consumption rate.

8. The horizontal grinding machine of claim 7 wherein the controller is adapted to stop the feed conveyor when the controller determines that the engine is consuming fuel at a rate that is equal to or greater than the predetermined maximum operating fuel consumption rate.

9. The horizontal grinding machine of claim 8 wherein after the controller has stopped the feed conveyor because the engine is consuming fuel at a rate that is equal to or greater than the predetermined maximum operating fuel consumption rate, if the controller determines that the engine is consuming fuel at a rate that is less than the predetermined maximum operating fuel consumption rate for the engine, the controller is adapted to restart the feed conveyor.

10. A method of operating a horizontal grinding machine having a feed hopper with a feed conveyor located therein, a drive system for the feed conveyor that is adapted to drive the feed conveyor in both forward and reverse directions and at variable speeds, a feed roller assembly that is mounted at the rear end of the feed hopper and in front of a grinding cylinder, a drive system for the feed roller that is adapted to rotate the feed roller in both clockwise and counter-clockwise directions and at variable speeds, a lifting mechanism that is adapted to adjust the vertical location of the feed roller, and a power unit that is adapted to operate the grinding cylinder, the drive system for the feed conveyor and the drive system for feed roller, said power unit including an engine, wherein said method comprises: (a) providing a controller that is: (i) operatively connected to the drive system for the feed roller and adapted to control the rotation rotational speed and the direction of rotation of the feed roller; (ii) operatively connected to the drive system for the feed conveyor and adapted to control the operation of the feed conveyor; (iii) adapted to receive a predetermined ratio of feed roller rotational speed to feed conveyor speed; (b) operating the drive system for the feed roller and the drive system for the feed conveyor so that the ratio of feed roller rotational speed to feed conveyor speed is at the predetermined ratio.

11. The method of claim 10 which includes operating the drive system for the feed roller and the drive system for the feed conveyor so that the ratio of feed roller rotational speed to feed conveyor speed is about 1.5.

12. The method of claim 10 which includes operating the drive system for the feed roller and the drive system for the feed conveyor so that the ratio of feed roller rotational speed to feed conveyor speed is about 0.7.

13. The method of claim 10 which includes: (a) operatively connecting the controller to an additive supply system; (b) controlling the application of the additive to the material so that the additive is introduced to the material at a rate that is proportional to the feed conveyor speed.

14. The method of claim 10 which includes: (a) providing an engine control module that is operatively connected to the controller and is adapted to communicate to the controller a signal indicating the rate of fuel consumption of the engine; (b) adjusting the speed of the feed conveyor proportionally to the rate of fuel consumption of the engine.

15. The method of claim 14 which includes: (a) providing the controller with the capability to receive a predetermined starting load fuel consumption rate for the engine; (b) providing the controller with the capability to receive a predetermined minimum operating fuel consumption rate for the engine; (c) providing a lifting mechanism for adjusting the vertical location of the feed roller; (d) operatively connecting the controller to the lifting mechanism so that the controller is adapted to adjust the vertical location of the feed roller; (e) lifting the feed roller and reversing the direction of rotation of the feed roller when the controller determines that the engine is consuming fuel at a rate which is greater than the predetermined starting load fuel rate and no greater than the predetermined minimum operating fuel consumption rate.

16. The method of claim 15 which includes adjusting the feed conveyor speed and/or the feed roller rotational speed as the feed roller is lifted to reduce the ratio of feed roller rotational speed to feed conveyor speed to a predetermined lower level.

17. The horizontal grinding machine of claim 15: (a) providing the controller with the capability to receive a predetermined maximum operating fuel consumption rate for the engine; (b) increasing the speed of the feed conveyor proportionally as the fuel consumption rate of the engine decreases, when the engine fuel consumption rate is between the predetermined minimum operating fuel consumption rate and the predetermined maximum operating fuel consumption rate; (c) decreasing the speed of the feed conveyor proportionally as the fuel consumption rate of the engine increases, when the engine fuel consumption rate is between the predetermined minimum operating fuel consumption rate and the predetermined maximum operating fuel consumption rate.

18. The method of claim 17 which includes stopping the feed conveyor when the controller determines that the engine is consuming fuel at a rate that is equal to or greater than the predetermined maximum operating fuel consumption rate.

19. The method of claim 18 which includes restarting the feed conveyor after the controller has stopped the feed conveyor because the engine is consuming fuel at a rate that is equal to or greater than the predetermined maximum operating fuel consumption rate, if the controller determines that the engine is consuming fuel at a rate that is less than the predetermined maximum operating fuel consumption rate for the engine.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0024] The presently preferred embodiments of the invention are illustrated in the accompanying drawings, in which like reference numerals represent like parts throughout, and wherein:

[0025] FIG. 1 is a side view, partially in section, of a horizontal grinding machine that is equipped with the control system of the invention, showing: (a) the direction of rotation of its feed roller during normal operation; (b) the range of vertical motion of the feed roller support and thus, the feed roller; and (c) the direction of rotation of the grinding cylinder.

[0026] FIG. 2 is a top view of the machine shown in FIG. 1.

[0027] FIG. 3 is a side view, partially in section of a portion of the machine illustrated in FIGS. 1 and 2, showing the placement and direction of rotation of its feed roller relative to a feed stream of uniformly sized feed material.

[0028] FIG. 4 is a graphical illustration of selected operating parameters for a preferred embodiment of the invention.

DESCRIPTION OF THE PREFERRED EMBODIMENT OF THE INVENTION

[0029] This description of preferred embodiments of the invention is intended to be read in connection with the accompanying drawings, which are to be considered part of the entire written description of this invention. The drawing figures are not necessarily to scale, and certain features of the invention may be shown exaggerated in scale or in somewhat schematic form in the interest of clarity and conciseness.

[0030] As shown in FIGS. 1 and 2, machine 10 is a horizontal grinding machine that is adapted to process logs, stumps, brush or other woody materials. The material to be processed is placed on a feed conveyor 12 that is located at the bottom of and is associated with feed hopper 14. Conveyor 12 is operated by a conventional drive system to carry the material in processing direction D (to the right, as shown in FIG. 1) to feed roller assembly 16. This drive system is adapted to drive conveyor 12 in both forward and reverse directions (i.e., to the right and left, respectively, as shown in FIG. 1), and at variable speeds. Feed roller assembly 16 is pivotally mounted on the frame 18 of the machine at the rear end of feed hopper 12 and above and in front of grinding mechanism 20. Feed roller 22 of feed roller assembly 16 is operated by a conventional drive system to drive feed roller 22 in both clockwise and counter-clockwise directions (as shown in FIGS. 1 and 3) about a generally horizontal rotation axis 23 that is perpendicular to the page as viewed in FIG. 3, and at variable speeds. Feed roller 22 is adapted to rotate in a counter-clockwise direction (as shown in FIG. 1) when the machine is operated in its normal mode of operation to urge material in the feed hopper into contact with the grinding mechanism. Grinding mechanism 20 comprises a horizontally mounted grinding cylinder 24 having cutting elements 26 disposed on its annular surface, as shown in FIG. 3. Grinding cylinder 24 is adapted to rotate in a clockwise direction (as shown in FIG. 1) about a generally horizontal grinding axis 25 (shown in FIG. 3 as oriented perpendicular to the page).

[0031] Material that is processed by the grinding mechanism passes through grate 28 and onto discharge conveyor 30 for removal from the machine. Power unit 32, which preferably includes internal combustion engine 34 and a conventional hydraulic circuit containing one or more hydraulic motors (not shown) is provided to power and operate grinding cylinder 24, the drive system for feed conveyor 12, the drive system for feed roller 22 and the drive system for discharge conveyor 30.

[0032] The control system includes controller 36 that is operatively attached to engine control module 38 that is operatively connected to the controller and adapted to communicate to the controller a signal indicating the rate of fuel consumption of engine 34. Controller 36 is also operatively attached to engine 34, the drive systems for feed conveyor 12 and feed roller 22, and to a lifting mechanism, preferably comprising one or more linear actuators 40, for adjusting the vertical location of feed roller 22. Controller 36 is located in operator's station 42 of machine 10 (shown in FIG. 1) and is adapted to control at least some aspects of the operation of engine 34, the operation of the drive systems for feed conveyor 12 and feed roller 22, and the lifting mechanism for adjusting the vertical location of feed roller 22. The controller may be operated from operator's station 42 or remotely via remote controller 44 (shown in FIG. 1). Preferably, the controller operates the drive system for rotating feed roller 22 and the drive system for feed conveyor 12 during normal operating conditions so that the ratio of feed roller rotational speed to feed conveyor speed is about 1.5, when the rotational speed of the feed roller is converted to a linear speed (RPM2r) and both speeds are expressed in terms of linear distance per unit of time.

[0033] Preferably, controller 36 will adjust the speed of feed conveyor 12 proportionally to the engine fuel consumption rate as the machine is operated. FIG. 4 illustrates a preferred mode of operation of the invention for which good results have been obtained by selecting a predetermined starting load fuel consumption rate R.sub.START to be about 20% of the maximum rated fuel consumption rate of the engine, a predetermined minimum operating fuel consumption rate R.sub.MIN to be about 80% of the maximum rated fuel consumption rate of the engine, and a predetermined maximum operating fuel consumption rate R.sub.MAX to be about 93% of the maximum rated fuel consumption rate of the engine. Of course, other rates may be selected, so long as R.sub.MAX is greater than R.sub.MIN and R.sub.MIN is greater than R.sub.START.

[0034] When the engine is started and the engine is consuming fuel at a rate equal to or less than R.sub.START, i.e., at a fuel consumption rate within range A shown in FIG. 4, the controller will operate the drive system for feed conveyor 12 to move material out of feed hopper 14 towards feed roller assembly 16. Then, if the engine fuel consumption rate increases from R.sub.START to a rate that is no greater than R.sub.MIN, i.e., at a fuel consumption rate with range B shown in FIG. 4, controller 36 will cause the lifting mechanism to lift feed roller assembly 16 to a predetermined raised position, such as for example, to raise the bottom of feed roller 22 about 25 inches above the surface of feed conveyor 12, and hold it in the raised position. As the feed roller assembly is lifted, the direction of rotation of the feed roller is reversed, as shown by comparing FIGS. 1 and 3, and the controller adjusts the feed roller rotational speed and/or the feed conveyor speed to reduce the ratio of feed roller rotational speed to feed conveyor speed to a predetermined lower ratio. Preferably, the ratio of feed roller speed to feed conveyor speed in this re-grind mode is reduced to about 0.7. These adjustments cause the feed roller to push the upper portion of the feed stream away from the grinding mechanism inlet instead of towards it. If the controller determines that the engine fuel consumption rate is reduced to R.sub.START, the controller will lower the feed roller assembly to its original position and again reverse its direction of rotation so that it directs material towards the grinding mechanism. The controller will also adjust the feed roller rotational speed and/or the feed conveyor speed to return the ratio of feed roller rotational speed to feed conveyor speed to its normal operating value, i.e., to a value of about 1.5. If a colorant or other additive is being applied in the re-grinder mode, the controller is also operatively attached to a conventional additive supply system (not shown) and is adapted to control the application of the additive through additive nozzle 46 (shown in FIG. 3) so that it is only introduced into the feed stream proportional to the material feed rate and only when feed material is present on the feed conveyor.

[0035] If the controller determines that engine 34 is consuming fuel at a rate greater than R.sub.MIN but no greater than R.sub.MAX, i.e., at a fuel consumption rate within range C shown in FIG. 4, controller 36 will adjust the speed of feed conveyor 12 proportionally to the fuel consumption rate of engine 34. Thus, in this embodiment of the invention, when the engine fuel consumption rate increases between the predetermined minimum operating fuel consumption rate R.sub.MIN and the predetermined maximum operating fuel consumption rate R.sub.MAX, controller 36 will reduce the speed of feed conveyor 12 proportionally. Similarly, when the engine fuel consumption rate decreases within the rates indicated by range C of FIG. 4, controller 36 will increase the speed of feed conveyor 12 proportionally. If the controller determines that engine 34 is consuming fuel at a rate that is greater than R.sub.MAX, i.e., at a fuel consumption rate within range D shown in FIG. 4, controller 36 will stop the feed conveyor until the engine fuel consumption rate falls below R.sub.MAX, at which point the controller will restart the feed conveyor in the forward direction.

[0036] The preferred embodiment of the invention thus comprises a system for controlling and maintaining a choke feed or regulated feed condition of a horizontal grinding machine. This control system includes a controller, means for determining real-time engine fuel consumption rates, a lifting mechanism for lifting the feed roller and a rotational drive for rotating the feed roller in both rotational directions so as to alternatively direct material towards or away from the grinding mechanism. The control system also includes a drive mechanism for the feed conveyor that is adapted to drive the feed conveyor at a variable speed and in both forward and reverse directions. In normal operation, when the engine fuel consumption rate is no greater than R.sub.START, the controller will cause the feed conveyor drive mechanism and the rotational drive for the feed roller to operate at speeds that produce a predetermined desired ratio of feed roller rotational speed to feed conveyor speed. The controller will also cause the feed roller to rotate in the rotational direction that directs material towards the grinding mechanism. When the controller determines that the engine fuel consumption rate has increased beyond R.sub.START, the controller will cause the lifting mechanism to lift the feed roller assembly to a predetermined raised position and hold it in the raised position. As the feed roller assembly is lifted, the direction of rotation of the feed roller is reversed to direct material away from the grinding mechanism, and the feed conveyor speed and/or the feed roller rotational speed are adjusted to reduce the ratio of feed roller rotational speed to feed conveyor speed to a predetermined lower level. In addition, the controller will operate the feed conveyor drive mechanism to drive the feed conveyor at a speed that is proportional to the engine fuel consumption rate. These adjustments cause the feed roller to push the upper portion of the feed stream away from the grinding mechanism inlet instead of towards it, and they prevent the engine from operating at a duty cycle that is outside the recommended range. If the engine fuel consumption rate increases to a rate between R.sub.MIN and R.sub.MAX, the controller will cause the feed conveyor to slow down proportionally in response. If the engine fuel consumption rate decreases in the range between R.sub.MIN and R.sub.MAX, the controller will cause the feed conveyor to speed up proportionally in response. If the engine fuel consumption rate increases so as to be greater than R.sub.MAX, the controller will stop the feed conveyor until the engine fuel consumption rate falls below R.sub.MAX, at which point the controller will restart the feed conveyor in the forward direction.

[0037] The inventors have found that this control system allows the engine of a horizontal grinding machine to operate at a controlled fuel consumption rate and the grinding mechanism of the machine to operate in a steady regulated feed or choke feed condition. When additives are added to the product in the re-grind mode, the additives are uniformly distributed. The regulated feed condition enables the machine operator to obtain maximum fuel economy and engine life. The choke feed condition enables the machine operator to obtain a preferred product quality by producing a more uniform product particle size. In many cases, both the advantages of the regulated feed condition and those of the choke feed condition can be achieved.

[0038] Although this description contains many specifics, these should not be construed as limiting the scope of the invention, but as merely providing illustrations of the presently preferred embodiment thereof, as well as the best mode contemplated by the inventors of carrying out the invention. The invention, as described herein, is susceptible to various modifications and adaptations, as would be understood by those having ordinary skill in the art to which the invention relates.