PUMP HAVING A FLANGE FOR MOUNTING AN AUXILIARY PUMP

Abstract

A pump is disclosed. The pump may have a housing connectable to a transmission of a machine adjacent a front end of the pump. The pump may also have a flange attached to the housing adjacent a rear end of the pump. The flange may have a longitudinal axis extending along a length of the flange, and a transverse axis extending along a width of the flange. The flange may also have a first mounting hole configured to connect an auxiliary pump to the flange. Further, the flange may have a second mounting hole configured to connect a bracket to the flange. The first mounting hole may be positioned on a first axis inclined at an acute angle relative to the longitudinal axis of the flange.

Claims

1. A pump, comprising: a housing connectable to a transmission of a machine adjacent a front end of the pump; and a flange attached to the housing adjacent a rear end of the pump, the flange comprising: a longitudinal axis extending along a length of the flange; a transverse axis extending along a width of the flange; a first mounting hole configured to connect an auxiliary pump to the flange; and a second mounting hole configured to connect a bracket to the flange, wherein the first mounting hole is positioned on a first axis inclined at a first acute angle relative to the longitudinal axis of the flange.

2. The pump of claim 1, wherein the second mounting hole is positioned on a second axis inclined at a second acute angle relative to the longitudinal axis of the flange.

3. The pump of claim 1, wherein the first mounting hole and the second mounting hole are positioned on opposite sides of the longitudinal axis.

4. The pump of claim 1, the first mounting hole includes a pair of first mounting holes positioned diametrically opposite to each other.

5. The pump of claim 4, wherein the pair of first mounting holes are threaded.

6. The pump of claim 1, wherein the second mounting hole includes a pair of second mounting holes positioned on a pair of respective axes inclined at a third acute angle relative to each other.

7. The pump of claim 6, wherein the pair of second mounting holes are threaded.

8. The pump of claim 6, wherein the first mounting hole includes a pair of first mounting holes positioned diametrically opposite to each other, and the pair of second mounting holes are positioned on one side of the first axis passing through the pair of first mounting holes.

9. The pump of claim 1, further including a pump shaft configured to engage with a shaft of the auxiliary pump.

10. The pump of claim 9, wherein the pump shaft includes a splined recess configured to receive the shaft of the auxiliary pump.

11. The pump of claim 9, wherein the first mounting hole and the second mounting hole are located at different radial distances relative to the pump shaft.

12. A pump stack for a machine, comprising: a first pump mounted at a front end to a gearbox of the machine; a second pump mounted to a rear end of the first pump, a housing of the second pump including a flange, comprising: a longitudinal axis extending along a length of the flange; a transverse axis extending along a width of the flange; a first pair of mounting holes configured to connect an auxiliary pump to the housing; and a second pair of mounting holes configured to connect a bracket to the housing, wherein the first pair of mounting holes are positioned on a first axis inclined at a first acute angle relative to the longitudinal axis of the flange.

13. The pump stack of claim 12, wherein the second pair of mounting holes are positioned on respective axes inclined at a second acute angle relative to each other.

14. The pump stack of claim 13, wherein the respective axes are each inclined at a third acute angle relative to the longitudinal axis of the flange.

15. The pump stack of claim 12, wherein the second pair of mounting holes are positioned on one side of the first axis.

16. The pump stack of claim 12, wherein the first pair of mounting holes are positioned on opposite sides of the longitudinal axis.

17. The pump stack of claim 12, wherein at least one mounting hole of the first pair of mounting holes and the second pair of mounting holes is threaded.

18. The pump stack of claim 12, wherein the second pump includes a pump shaft including a splined recess configured to receive a shaft of the auxiliary pump.

19. The pump stack of claim 12, wherein the bracket is attached to the housing of the second pump via the second pair of mounting holes, the bracket also being attached to one of the gearbox or a chassis of the machine.

20. A machine, comprising: a chassis supported by a plurality of wheels; at least one working implement connectable to the chassis; an engine; a gearbox driven by the engine and connectable to the engine and the wheels; a pump stack driven by the engine and configured to supply hydraulic fluid to the at least one working implement, the pump stack including: a first pump having a front end mounted to the gearbox; a second pump mounted to a rear end of the first pump, a housing of the second pump including a flange located at the rear end, the flange comprising: a longitudinal axis extending along a length of the flange; a transverse axis extending along a width of the flange; a first pair of mounting holes configured to connect an auxiliary pump to the housing; and a second pair of mounting holes, wherein the first pair of mounting holes are positioned on a first axis inclined at an acute angle relative to the longitudinal axis of the flange; and a pump shaft configured to be driven by the engine and including a splined recess configured to engage with a shaft of the auxiliary pump; and a bracket having one end connected to the pump stack via fasteners passing through the second pair of mounting holes, an opposite end of the bracket being connected to at least one of the gearbox or the chassis.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0010] FIG. 1 is a pictorial illustration of an exemplary disclosed machine

[0011] FIG. 2 is an illustration of an exemplary disclosed pump stack assembly for the machine of FIG. 1;

[0012] FIG. 3 is a side view of the exemplary disclosed pump stack assembly of FIG. 2, showing a pump stack having a pair of pumps; and

[0013] FIG. 4 is an elevation view of an exemplary disclosed flange of a pump included in the pump stack of FIG. 3.

DETAILED DESCRIPTION

[0014] FIG. 1 illustrates an exemplary mobile machine 10. In the depicted embodiment, the machine 10 is a wheel loader. It is contemplated, however, that machine 10 may embody another type of mobile machine such as an excavator, a shovel, a continuous miner, a loader, a truck, a track-type-tractor, a motor grader, an articulated haul truck, an off-highway mining truck, or another construction machine known in the art. Machine 10 may include chassis 12, one or more traction devices 14 that support chassis 12 on a ground surface, at least one working implement 16, and engine 18. In one exemplary embodiment as illustrated in FIG. 1, traction devices 14 may take the form of wheels 14, although other types of traction devices such as crawler tracks are also contemplated.

[0015] Engine 18 may be any suitable type of internal combustion engine, such as a gasoline, diesel, natural gas, or hybrid-powered engine. It is contemplated, however, that in some exemplary embodiments, engine 18 may be driven by electrical power. Engine 18 may be configured to propel the one or more traction devices 14 via transmission 20. Engine 18 may also be configured to deliver power to operate one or more other components or accessory devices (e.g. pumps, fans, motors, generators, belt drives) associated with machine 10. For example, engine 18 may be configured to drive one or more pumps that may be configured to deliver hydraulic fluid to hydraulic actuator 22, which may be configured to move working implement 16.

[0016] FIG. 2 illustrates an exemplary pump stack assembly 30. Pump stack assembly 30 may include pump stack 32 attached to a portion of transmission 20 of machine 10. In one exemplary embodiment as illustrated in FIG. 2, pump stack 32 may be attached to gearbox 34 that may be included in transmission 20. Gearbox 34 and/or transmission 20 may in turn be attached to chassis 12 of machine 10. Pump stack 32 may include one or more pumps that may be configured to pump fluids such as fuel, lubricant, coolant, and/or hydraulic fluid to various components of machine 10. In one exemplary embodiment as illustrated in FIG. 2, pump stack 32 may include pumps 36, 38, and 40. Although only three pumps 36, 38, and 40 are illustrated as making up pump stack 32, it is contemplated that pump stack 32 may include more than or less than three pumps 36, 38, and 40. Further, pumps 36, 38, and 40 may include a same type of pump (e.g., vane pump, piston pump, gear pump). Alternatively, some or all of pumps 36, 38, and/or 40 may be of different types from each other. Similarly, pumps 36, 38, and 40 may be configured to pump the same kind of fluid (e.g., hydraulic fluid) or may be configured to pump different kinds of fluids (e.g., fuel, coolant, lubricant).

[0017] First pump 36 may be attached to gearbox 34 and may include pump shaft 50 (see FIG. 3) that may engage with one or more gears within gearbox 34. Second pump 38 may be attached to a rear end of first pump 36 and may include pump shaft 98 (see FIG. 4) that may engage with pump shaft 50. Third pump 40 may be connected to rear end 48 of second pump 38 via one or more fasteners. Third pump 40 may also include a shaft that may engage with pump shaft 98 (see FIG. 4) of second pump 38. Thus, engine 18 may be configured to drive first pump 36, second pump 38, and/or third pump 40 by causing the rotation of pump shaft 50 via gearbox 34. It is contemplated, that some exemplary embodiments of machine 10 may include only first pump 36 and second pump 38. Other exemplary embodiments of machine 10 may include third pump 40, which may be an auxiliary pump that may be added to pump stack 32 to provide additional fluid to one or more existing components of machine 10. Alternatively, auxiliary pump 40 may be added to pump stack 32 to provide fluid to a new component or working implemented being added to machine 10.

[0018] FIG. 3 illustrates a side view of pump stack 32, including pumps 36 and 38. As illustrated in FIG. 3, first pump 36 may extend from front end 42 of pump 36 to rear end 44 of pump 36. First pump 36 may be connected to gearbox 34 adjacent front end 42. First pump 36 may include pump shaft 50 that may be configured to engage with one or more gears of gearbox 34 and may be driven by engine 18 via gearbox 34. Second pump 38 may extend from front end 46 of pump 38 to rear end 48 of pump 38. Front end 46 of pump 38 may be connected to rear end 44 of first pump 36 via one or more fasteners. Second pump 38 may include pump shaft 98 (see FIG. 4) that may engage with pump shaft 50 of first pump 36. Thus, rotation of pump shaft 50 by engine 18 may also drive second pump 38 by rotating pump shaft 98.

[0019] As also illustrated in FIG. 3, second pump 38 may include housing 54. In one exemplary embodiment as illustrated in FIG. 3, housing 54 may be a two-part housing, including front housing 56 and rear housing 58. Front housing 56 may be connected to rear end 44 of pump 36. Rear housing 58 may be connected to front housing 56. Rear housing 58 of pump 38 may include flange 52. Although second pump 38 has been illustrated in FIG. 3 as having a two-part housing, it is contemplated that in some exemplary embodiments, pump 38 may have a single housing 54. In some exemplary embodiments, flange 52 may be integral with housing 54 in the form of a single casting. It is contemplated, however, that in other exemplary embodiments, flange 52 may be a separate piece that may be removably attached to housing 54 (or rear housing 58) via fasteners. Alternatively, in some exemplary embodiments, flange 52 may be fixedly attached to housing 54 (or rear housing 58) by welding, brazing, or other attachment methods.

[0020] Returning to FIG. 2, third pump 40 (or auxiliary pump 40) may be attached to flange 52 of rear end 48 of second pump 38 via fasteners 60. As also illustrated in FIG. 2, in some exemplary embodiments, pump stack assembly 30 may include bracket 62. One end 64 of bracket 62 may be attached to flange 52 via fasteners 66. Opposite end 68 of bracket 62 may be attached to gearbox 34, another portion of transmission 20, and/or to chassis 12 via fasteners 70. Thus, a weight of pump stack 32 may be supported by gearbox 34 adjacent front end 42 of pump 36 and by bracket 62 adjacent rear end 48 of pump 38. It is contemplated, however, that some exemplary embodiments of pump stack assembly 30 may not include bracket 62.

[0021] FIG. 4 illustrates an elevation view of an exemplary disclosed flange 52 of pump 38 included in pump stack 32. Flange 52 may be an elongated plate-like structure having two generally linear vertical edges 82 spaced apart from each other, and two generally linear horizontal edges 84 spaced apart from each other. Curvilinear edges 86 may connect vertical edge 82 with an adjacently located horizontal edge 84. It is contemplated, however, that flange 52 may have other shapes, for example, rectangular, square, circular, oval, etc. In one exemplary embodiment as illustrated in FIG. 4, flange 52 may have a length “L” that may be larger than a width “W.” It is contemplated, however, that in other exemplary embodiments, length L of flange 52 may be equal to or smaller than width W of flange 52. As further illustrated in FIG. 4, flange 52 may include longitudinal axis 90 extending along a length of flange 52. Longitudinal axis 90 may be disposed generally parallel to vertical edges 82 of flange 52. In one exemplary embodiment as illustrated in FIG. 4, vertical edges 82 may be symmetrically positioned on opposite sides of longitudinal axis 90. Flange 52 may also include transverse axis 92 extending along a width of flange 52. Transverse axis 92 may be disposed generally parallel to a horizontal edges 84 of flange 52. In one exemplary embodiment as illustrated in FIG. 4, horizontal edges 84 may be symmetrically positioned on opposite sides of transverse axis 99. Longitudinal axis 90 may be disposed generally perpendicular to transverse axis 92 of flange 52. The term generally as used in this disclosure encompasses typical machining and manufacturing tolerances. Thus, for example, generally perpendicular may encompass angles in the range 90°±1°, and generally parallel may encompass angles in the range of 0°±1°.

[0022] Flange 52 may include one or more mounting holes 94 configured to receive one or more fasteners 60 for attaching auxiliary pump 40 to flange 52. In one exemplary embodiment as illustrated in FIG. 4, flange 52 may include a pair of mounting holes 94 positioned diametrically opposite from each other. Mounting holes 94 may be positioned at a radius “R.sub.1” relative to axis of rotation 96 (see FIG. 3) of pump shaft 98 of pump 38. In one exemplary embodiment, mounting holes 94 may be positioned on opposite sides of longitudinal axis 90, for example, on an axis 100 that may be inclined at an acute angle θ relative to longitudinal axis 90 of flange 52. In one exemplary embodiment, axis 100 may pass through centers of mounting holes 94. Flange 52 may also include one or more mounting holes 102 configured to receive one or more fasteners for attaching bracket 62 to flange 52. Mounting holes 102 may be disposed at a radius “R.sub.2” relative to axis of rotation 96 of pump shaft 98 of pump 38. In one exemplary embodiment as illustrated in FIG. 4, radius R.sub.1 may be smaller than radius R.sub.2. It is contemplated, however, that in other exemplary embodiments, radius R.sub.1 may be larger than or equal to radius R.sub.2. As also illustrated in the exemplary embodiment of FIG. 4, the pair of mounting holes 102 may be positioned on a pair of axes 104 inclined at an acute angle ψ relative to each other. In one exemplary embodiment, each axis 104 may pass through a center of an associated mounting hole 102. In some exemplary embodiments as illustrated in FIG. 4, the pair of mounting holes 104 may be positioned on one side of longitudinal axis 90 and/or on one side of axis 100 passing through mounting holes 94. As further illustrated in FIG. 4, at least one mounting hole 102 may be positioned on an axis inclined at an acute angle ϕ relative to transverse axis 92. In one exemplary embodiment as illustrated in FIG. 4, at least one mounting hole 94 and at least one mounting hole 102 may be positioned on opposite sides of longitudinal axis 90. In one exemplary embodiment, some or all of mounting holes 94 and/or 104 may be through holes. It is contemplated, however, that in other exemplary embodiments, some or all of mounting holes 94 and 104 may be threaded. Although particular locations of mounting holes 94 and 104 have been discussed above, it is contemplated that mounting holes 94 and 104 may be disposed at other positions on flange 52.

[0023] Pump shaft 98 of pump 38 may engage with pump shaft 50 of pump 36 adjacent rear end 44 of pump 38. Pump shaft 98 of pump 38 may include a generally cylindrical recess 106 extending into pump shaft 98 from adjacent rear end 48 of pump 38 towards front end 46 of pump 38. In one exemplary embodiment as illustrated in FIG. 4, a wall of recess 106 may include a plurality of splines 108. A shaft of auxiliary pump 40 may be configured to engage with splines 108 when auxiliary pump 40 is attached to flange 52. Thus, pump shaft 50 of pump 36 may drive pump shaft 98 of pump 38, which in turn may drive the shaft of auxiliary pump 40.

INDUSTRIAL APPLICABILITY

[0024] The disclosed pump 38 with flange 52 may provide several advantages. For example, the arrangement and positions of mounting holes 94 on flange 52 may help ensure ease of assembly of an auxiliary pump 40 to pump 38, particularly on an existing pump stack 32 during maintenance or repair of machine 10. In some exemplary embodiments, an auxiliary pump 40 may be added to supply fluid when replacing an existing component on machine 10 with a component of larger size or when adding a new component to machine 10. For example, an additional auxiliary pump 40 may be required to provide hydraulic fluid to a working implement added to machine 10 during maintenance or at a construction site. Positioning mounting holes 94 on axis 100 that is inclined relative to longitudinal axis 90 may allow for attachment of auxiliary pump 40 to pump 38 without the need for replacement, resizing, or machining of pump 38 and/or a need for changing a size of flange 52. Further, use of removable fasteners 60 to attach auxiliary pump 40 may allow pump 38 and/or pump 40 to be easily connected to or disconnected from each other, for example, for maintenance and/or repair. The use of fasteners 60 in mounting holes 94 may also allow pump 38 to be tightly fastened to pump 40 to help decrease the likelihood of lateral movement of pump 40 relative to pump 38, minimizing the amount of radial forces that may be exerted on bearings supporting pump shaft 98 and/or a shaft of auxiliary pump 40.

[0025] Additionally, mounting holes 102 on flange 52 may allow for attachment of bracket 62 to flange 52. One end 64 of bracket 62 may be attached to flange 52 fasteners 66. An opposite end 68 of bracket 62 may be attached to gearbox 34, transmission 20 and/or chassis 12 via fasteners 70. Thus, a weight of pump stack 32 may be supported by gearbox 34 adjacent front end 42 of pump 36 and by gearbox 34, transmission 20 and/or chassis 12 adjacent rear end 48 of pump 38 via bracket 62. Supporting pump stack 32 on both ends in this manner may minimize the effect of the weight of pump stack 32 on radial forces exerted on the fasteners attaching pump stack 32 machine 10 and/or on the bearings supporting pump shafts 50 and 98. This in turn may help increase the reliability of pumps 36, 38, and 40 and of pump stack assembly 30. Thus, the disclosed flange 52 and its arrangement of mounting holes 94 and 102 may help ensure ease of assembly/disassembly of auxiliary pump 40 to/from pump stack 32, and may also minimize the risk of damage to shaft 50, pump shaft 98, and/or bearings supporting shaft 50 and/or pump shaft 98 due to a weight of pumps 36, 38, and 40.

[0026] It will be apparent to those skilled in the art that various modifications and variations can be made to the disclosed pump and flange. Other embodiments will be apparent to those skilled in the art from consideration of the specification and practice of the disclosed pump and flange. It is intended that the specification and examples be considered as exemplary only, with a true scope being indicated by the following claims and their equivalents.