BOOM MOUNTED PUMP

Abstract

A liquid pumping vehicle has: a frame; a platform rotatably mounted on the frame; an articulated boom mounted on the platform; a liquid pump mounted on the boom; and, an engine mounted on the platform, so that a rotation axis of the platform is between the boom and the engine and so that a first turning moment created on a first moment arm relative to the rotation axis by weight of the engine and other components on an engine-side of the platform is balanced under operational conditions of the pumping vehicle by a second turning moment created on a second moment arm relative to the rotation axis by weight of the boom and other components on a boom-side of the platform. The vehicle is better balanced for greater stability when in use for pumping a liquid, e.g., liquid manure.

Claims

1. A liquid pumping vehicle comprising: a frame; rotatable ground-engaging elements mounted on the frame to permit driving the vehicle on ground; a platform rotatably mounted on the frame, the platform rotatable about a vertically oriented rotation axis relative to the ground; an articulated boom mounted on the platform proximate a first end of the boom; a liquid pump mounted on the boom proximate a second end of the boom, the liquid pump immersible in a liquid reservoir for pumping liquid out of the reservoir; an engine mounted on the platform, the engine operably connected to the liquid pump for operating the liquid pump, the engine situated so that the rotation axis of the platform is between the boom and the engine and so that a first turning moment created on a first moment arm relative to the rotation axis by weight of the engine and other components on an engine-side of the platform is balanced under operational conditions of the pumping vehicle by a second turning moment created on a second moment arm relative to the rotation axis by weight of the boom and other components on a boom-side of the platform; and, a flow discharge outlet mounted on the frame, the flow discharge outlet connected to the liquid pump by a fluid conduit through which the liquid is pumped by the liquid pump from the liquid reservoir to the flow discharge outlet.

2. The vehicle of claim 1, wherein the platform is continuously rotatable through 360°, and the engine and the boom are fixedly mounted on the platform to be carried by the platform as the platform is being rotated while maintaining the balance of the first turning moment and the second turning moment.

3. The vehicle according to claim 1, further comprising a direct-drive hydraulic pump mounted on the engine-side of the platform, the hydraulic pump driven by the engine, the hydraulic pump operatively connected to the liquid pump for operating the liquid pump.

4. The vehicle according to claim 3, wherein the liquid pump comprises a hydraulic motor for operating the liquid pump, the hydraulic motor operatively connected to the hydraulic pump by hydraulic fluid lines extending between the hydraulic fluid pump and the hydraulic motor along the boom.

5. The vehicle of claim 4, wherein the operational conditions of the pumping vehicle comprise the hydraulic fluid lines being full of hydraulic fluid, the boom being extended and the fluid conduit containing liquid being pumped by the liquid pump.

6. The vehicle according to claim 1, further comprising stabilizer legs mounted on the frame, the stabilizer legs moveable between a ground-disengaging position and a ground-engaging position, the stabilizer legs assisting with stabilizing the vehicle on the ground when the stabilizer legs are in the ground-engaging position.

7. The vehicle according to claim 1, wherein the fluid conduit is at least partially housed in the boom between the liquid pump and the flow discharge outlet.

8. The vehicle according to claim 1, wherein the fluid conduit is at least partially housed in the frame between the boom and the flow discharge outlet.

9. The vehicle according to claim 1, wherein the boom comprises at least two boom sections, the at least two boom sections pivotable relative to each other by one or more hydraulic cylinders connected between adjacent boom sections.

10. The vehicle according to claim 1, wherein the rotatable ground-engaging elements comprise wheels.

11. The vehicle according to claim 1, wherein the vehicle is a trailer.

12. The vehicle according to claim 1, wherein the liquid is liquid manure.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] For clearer understanding, preferred embodiments will now be described in detail by way of example, with reference to the accompanying drawings, in which:

[0018] FIG. 1 depicts a front perspective view of a liquid pumping trailer with a boom extended in a first direction.

[0019] FIG. 2 depicts a rear perspective view of the trailer in FIG. 1.

[0020] FIG. 3 depicts a front perspective view of the trailer of FIG. 1 with the boom extended in a second direction.

[0021] FIG. 4 depicts a side view of the trailer in FIG. 3.

[0022] FIG. 5 depicts a front view of the trailer in FIG. 3.

[0023] FIG. 6 depicts a rear view of the trailer in FIG. 3.

[0024] FIG. 7 depicts a top view of the trailer in FIG. 3.

[0025] FIG. 8 depicts the trailer in FIG. 7 with the boom extended further.

[0026] FIG. 9 depicts a top view of the trailer of FIG. 1 with the boom extended in a third direction.

[0027] FIG. 10 depicts a top view of the trailer of FIG. 1 with the boom extended in a fourth direction.

[0028] FIG. 11 depicts a top view of the trailer of FIG. 1 with the boom extended in a fifth direction.

[0029] FIG. 12 depicts a magnified top perspective view of the trailer of FIG. 1 showing a location of a hydraulic pump on the trailer.

[0030] FIG. 13 depicts a side view of the trailer of FIG. 1 with the boom folded into a transport configuration.

[0031] FIG. 14 depicts a top view of the trailer of FIG. 1 with the boom removed.

[0032] FIG. 15 depicts a magnified view of a liquid pump that is mounted at a distal end of the boom of the trailer of FIG. 1.

DETAILED DESCRIPTION

[0033] With reference to the Figures, a liquid pumping vehicle in the form of a liquid pumping trailer 1 is shown. The trailer 1 comprises a frame 2 on which are rotatably mounted four wheel 3 (only one labeled), two on each transverse side of the trailer 1 in a tandem axle configuration. The wheels may be other rotatable ground-engaging elements such as tracks or combinations of tracks and wheels. For example, two tracks, one on each transverse side of the trailer may be used instead of four wheels. Extending longitudinally forward from the frame 2 is a tongue 4 terminating in a hitch 5, which can be coupled to a prime mover (not shown) such as a truck, a tractor or other motorized vehicle. The trailer 1 further comprises four stabilizer legs 6 coupled to the frame 2, the stabilizer legs 6 moveable between raised stowed positions and lowered ground-engaging positions. The stabilizer legs 6 in the lowered ground-engaging positions serve to take some of the weight of the trailer 1 thereby stabilizing the trailer 1 during a pumping operation. The stabilizer legs 6 are pivotally connected to the frame 2 and are raised and lowered by operation of stabilizer leg actuators 7. The stabilizer leg actuators 7 may be any suitable actuator, for example hydraulic cylinders, pneumatic cylinders or linear actuators, but hydraulic cylinders are preferred.

[0034] A hydraulic swivel 10 (see FIG. 14) is supported on the frame 2 over the axles of the wheels 3 so that most of the load placed on the swivel 10 is supported over the axles. The swivel 10 comprises a slewing bearing that is capable of continuous rotation in both rotational directions about a vertical rotation axis R through successive 360° rotations. Mounted on the swivel 10 is a platform 20. The platform 20 is mounted on the swivel 10 proximate a proximal end of the platform 20 so that as the platform 20 rotates with the swivel 10, a distal end of the platform 20 moves through an outer circular path. An articulated boom 40 having a first boom section 41, a second boom section 42 and third boom section 43 is mounted on the platform 20 through a boom mount 44. The boom mount 44 is rigidly secured to the platform 20 directly over the swivel 10. A proximal end of the first boom section 41 is pivotally connected to the boom mount 44 at pivot 45. A proximal end of the second boom section 42 is pivotally connected to a distal end of the first boom section 41 at pivot 46. A proximal end of the third boom section 43 is pivotally connected to a distal end of the second boom section at 42 at pivot 47. Pivoting of the boom sections 41, 42, 43 relative to each other is accomplished by actuating first, second and third boom section hydraulic cylinders 48, 49, 50. Actuation of the first boom section hydraulic cylinder 48 connected between the boom mount 44 and the first boom section 41 permits rotation of the first boom section 41 about pivot 45. Actuation of the second boom section hydraulic cylinder 49 connected between the first boom section 41 and the second boom section 42 permits rotation of the second boom section 42 about pivot 46. Actuation of the third boom section hydraulic cylinder 50 connected between the second boom section 42 and the third boom section 43 permits rotation of the third boom section 43 about pivot 47. Independent operation of the boom section hydraulic cylinders 48, 49, 50 permits extension and retraction of the boom 40 into a variety of configurations as evidenced by comparing the Figures, including folding the boom 40 into a folded transport configuration as seen in FIG. 13.

[0035] In operation, the boom 40 extends away from the platform 20 in a fixed direction relative to the platform 20. The length and height to which the boom 40 can reach is adjustable by operating the boom section hydraulic cylinders 48, 49, 50, but the radial orientation of the boom 40 relative to the frame 2 of the trailer 1 is only adjustable by rotating the entire platform 20.

[0036] To balance the weight of the boom 40 so that the center of gravity of the trailer 1 remains over the frame 2, an engine 60 and a hydraulic pump 61 (see FIG. 12), preferably a high-pressure direct-drive hydraulic pump, are fixedly mounted on the platform 20 on an engine-side of the platform 20 at or proximate the distal end of the platform 20 in a position opposite the boom 40 through the rotation axis R. Therefore, as the platform 20 is rotated, the boom 40 remains on a boom-side of the platform 20 opposite the engine 60 and the hydraulic pump 61 so that the engine 60 and the hydraulic pump 61 always act as a counterbalance to the boom 40 irrespective of the radial orientation of the boom 40. Such an opposed configuration is maintained at all times as the platform 20 is rotated through a full circle. Also mounted on the engine-side of the platform 20 are hydraulic fluid reservoirs 62 and a hydraulic fluid cooler 63, which are respectively used to supply hydraulic fluid to the hydraulic pump 61 and to cool the hydraulic fluid heated by operation of the hydraulic pump 61. The weights of the hydraulic fluid reservoir 62 and the hydraulic fluid cooler 63 also serve to counterbalance the boom 40. The hydraulic pump 61 drives a hydraulic motor of the hydraulic swivel 10, as well as driving other hydraulic components of the trailer 1.

[0037] With specific reference to FIG. 15, a liquid pump 70, for example a liquid manure pump as described in U.S. Pat. No. 8,944,758 issued Feb. 3, 2015, the entire contents of which is herein incorporated by reference, is mounted on the boom 40 at a distal end of the boom 40. The liquid pump 70 is mounted on a pump mount 51 connected to the third boom section 43. The liquid pump 70 comprises a main pipe 73 and a pump head 71 mounted at a distal end of the main pipe 73, the pump head 71 immersible in a liquid reservoir such as a liquid manure lagoon. The pump head 71 is equipped with an impeller (not shown) driven by a hydraulic motor 72 in hydraulic communication through hydraulic fluid lines with the hydraulic pump 61. The main pipe 73 is in fluid communication with a fluid conduit 80 connected to a proximal end of the main pipe 73. Operation of the impeller in the pump head 71 forces liquid to flow into the main pipe 73 and thence into the fluid conduit 80. Some of the liquid flow may be diverted from the main pipe 73 through a knife valve 75 into an agitator nozzle 74. Pressurized liquid flow through the agitator nozzle 74 is used to mix the liquid in the liquid reservoir, which is especially useful for liquid manure lagoons, which have a high solids content. The agitator nozzle 74 can be swiveled around the main pipe 73 by virtue of swiveling mechanism 76 in order to change the direction of the pressurized liquid flow so that an area in the liquid reservoir entirely around the liquid pump 70 can be mixed.

[0038] The fluid conduit 80 is connected to the main pipe 73 at a distal end of the fluid conduit 80. A proximal end of the fluid conduit 80 is connected to a flow discharge outlet 81 situated on the frame 2 of the trailer 1. The fluid conduit 80 therefore extends between the main pipe 73 of the liquid pump 70 at the distal end of the boom 40 and the flow discharge outlet 81 on the frame 2. To protect the fluid conduit 80 from damage over the long length of the fluid conduit 80, the fluid conduit 80 is at least partially housed in the boom 40 nestled between the walls of the boom 40. Further, once the fluid conduit 80 reaches the proximal end of the boom 40, the fluid conduit 80 is routed between frame elements of the frame 2 so that the fluid conduit 80 is at least partially housed in the frame 2 before reaching the flow discharge outlet 81. In order for the fluid conduit 80 to continue from the boom 40 into the frame 2, the fluid conduit 80 passes through a central aperture 11 in the swivel 10 (see FIG. 14).

[0039] The hydraulic pump 61 is driven by a drive shaft of the engine 60. The engine 60 is preferably a combustion engine, more preferably a diesel engine. Fuel of the engine is stored in one or more fuel tanks 65 and supplied to the engine by fuel lines (not shown). The hydraulic pump 61 is used to operate all hydraulic components of the trailer 1 including the liquid pump 70, the first, second and third boom section hydraulic cylinders 48, 49, 50, the hydraulic swivel 10 and the stabilizer leg actuators 7. Hydraulic fluid lines (not shown) and hydraulic fluid valves (not shown) are used to complete hydraulic circuits that supply and control hydraulic fluid flow between the hydraulic pump 61 and the other hydraulic components of the trailer 1. Because the hydraulic pump 61, the liquid pump 70, the first, second and third boom section hydraulic cylinders 48, 49, 50 and the hydraulic swivel 10 are ultimately connected to the platform 20, rotation of the swivel 10 and therefore the platform 20 does not cause wrapping of the hydraulic fluid lines connecting the hydraulic pump 61 to the above-mentioned hydraulic components. The hydraulic fluid lines move with the platform 20 in synchronicity with the both the hydraulic pump 61 and the hydraulic components, therefore the hydraulic fluid lines do not need to be coiled through the swivel 10. However, because the stabilizer legs 6 are not mounted on the platform 20, the hydraulic fluid lines connecting the stabilizer leg actuators 7 to the hydraulic pump 61 should be disconnected once the stabilizer legs 6 are locked in the ground-engaging position, or a separate dedicated hydraulic pump could be used to power the stabilizer leg actuators 7.

[0040] The novel features will become apparent to those of skill in the art upon examination of the description. It should be understood, however, that the scope of the claims should not be limited by the embodiments, but should be given the broadest interpretation consistent with the wording of the claims and the specification as a whole.