US20040182059A1

US20040182059A1 - Hinge system for articulating mower decks

Info

Publication number: US20040182059A1
Application number: US10/763,899
Authority: US
Inventors: Mark Bland; Edward Foxworthy; Burl Tichenor
Original assignee: Individual
Current assignee: Individual
Priority date: 2002-07-19
Filing date: 2004-01-23
Publication date: 2004-09-23
Also published as: US6684615B1

Abstract

A hinge assembly hingedly connects a first mower frame member defining a first frame hole to a second mower frame member defining a second frame hole, wherein at least one of the first and second frame members is a frame member of a mower deck of the mower. The hinge assembly comprises a first bushing having a first bushing hole and a first bushing axis, being sized for press fit receipt in the first frame hole, and being sized to rotatably coaxially receive a pin therein; a second bushing having a second bushing hole and a second bushing axis, being sized for axially non-rotating receipt in the second frame hole, and being sized to rotatably coaxially receive a pin therein; a pin having inboard and outboard ends and a pin axis, the pin sized to extend coaxially through the first and second bushing holes; a connector connected to the outboard end of the pin and for connecting the pin to the second frame member and holding the pin against horizontal movement relative to the second frame member and for providing a stop for limiting movement of the second bushing toward the outboard end of the pin; and, a retention member connected proximal to the inboard end of the pin and limiting movement of the bushings inwardly of the retention member.

Description

REFERENCE TO RELATED APPLICATIONS

This is a continuation of my prior application, Ser. No. 10/200,838, filed on Jul. 19, 2002.[0001]

FIELD OF THE INVENTION

The present invention relates to the field of lawn mowers, and more particularly, to hinge systems for interconnecting articulating lawn mower decks.

BACKGROUND OF THE INVENTION

To decrease the amount of time needed for cutting large areas of grass, mowers with multiple blades providing greatly increased cutting widths were designed. But because the world of grass is not flat, the cut was usually uneven and patches of grass were often scalped. Mounting the blades in individual mower decks and articulating the decks—that is, hingedly connecting the decks to one another—permitted the multiple deck mower to more closely follow the contour of the grass being cut. Over time, and especially in commercial applications of such articulating deck mowers, such as on golf courses, the constant articulation caused the hinge pins connecting adjacent decks to wear down. Replacement of the pins can be a time consuming, multi-step process, requiring the decks to be disassembled.

What is needed is a hinge system that resists wear and facilitates servicing and replacement.

SUMMARY OF THE INVENTION

Generally speaking, a hinge system is provided that resists wear and facilitates servicing and replacement. The hinge system include a front and a rear hinge assembly that hingedly connects a first mower deck to a second mower deck or a first mower deck to a portion of the mower that is not a mower deck.

It is an object of the present invention to provide an improved hinge system for articulating mower decks.

Further objects and advantages will become apparent from the following description of the preferred embodiment.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a front, perspective view of a [0009] lawn mower 10 incorporating a hinge system for hingedly connecting the articulating mower decks in accordance with the present invention.
FIG. 2 is a front, perspective view of the mower decks [0010] 11-14 of the lawn mower 10 of FIG. 1.
FIG. 3 is an exploded, perspective view of a [0011] hinge assembly 22 of the hinge system 17 for hingedly interconnecting decks 12 and 13 of the lawn mower 10 of FIG. 1.
FIG. 4 is a perspective view of the [0012] hinge assembly 22 of FIG. 3 and shown in the assembled condition.
FIG. 5 is an end view of the [0013] hinge assembly 22 of FIG. 4.
FIG. 6 is a side, cross-sectional view of the [0014] hinge assembly 22 of FIG. 5 taken along the lines 6-6 and viewed in the direction of the arrows.
FIG. 7 is a perspective view of the [0015] pin assembly 34 of FIG. 6.

DESCRIPTION OF THE PREFERRED EMBODIMENT

For the purposes of promoting an understanding of the principles of the invention, reference will now be made to the embodiment illustrated in the drawings and specific language will be used to describe the same. It will nevertheless be understood that no limitation of the scope of the invention is thereby intended, and that any alterations or modifications in the illustrated device, and any further applications of the principles of the invention as illustrated therein are contemplated as would normally occur to one skilled in the art to which the invention relates. [0016]
Referring to FIGS. 1-3, there is shown a [0017] lawn mower 10 having articulating decks 11-14 and hinge systems 16-18 for interconnecting each adjacent pair of mower decks 11-12, 12-13, and 13-14, respectively. Each hinge system 16-18 includes a pair of hinge assemblies operable to allow one deck to pivot about an axis relative to an adjacent deck. Only the forward hinge assemblies 21-23 for each hinge system 16-18, respectively, are shown in FIG. 1, at the front side of the decks. The companion, rear hinge assemblies for each forward hinge assembly 21-23 hingedly interconnect their decks at the opposing, rear and unshown sides of the decks. Only one hinge assembly 22 will be described herein, it being understood that the other two forward hinge assemblies 21 and 23 and the three rear, unshown companion hinge assemblies each includes the same components and each interconnects its pair of decks in the same manner as hinge assembly 22, except where otherwise indicated.
Referring to FIGS. 3-7, the outer frame of [0018] deck 10 extends laterally at frame extension 26 toward deck 11. Frame extension 26 (a frame member of deck 10) has defined therein an upper, limit hole 27 and a lower, hinge hole 28. Deck 11 includes a forward frame panel 29 and an angle bracket 30 that is fixed to panel 29 by any appropriate means such as welding. Panel 29 and bracket 30 (both frame members of deck 11) together define a slot 31 into which frame extension 26 is received when decks 10 and 11 are brought together.
Hinge [0019] assembly 22 includes a pin assembly 34, an anti-rotation bushing 35, a spacer 36, a main bushing 37, a retention ring 38, and a shaped hole 39 that is defined in bracket 30. Pin assembly 34 (FIG. 6) includes a hinge pin 42 and a pin mount 43 that is fixedly connected to pin 42 by any appropriate means such as welding. In alternative embodiments, mount 43 may be removably connected to pin 42 by any appropriate means such as threading. Pin 42 is generally a rod made of die hardened chrome to reduce wear, but other compositions of pin 42 are contemplated. Pin 42 has defined therein three circumferential recesses 44, 45 and 46. Recess 44 is actually a circumferential weldment groove 44 located near the outboard end 48 of pin 42. Weldment applied at the juncture of pin mount 43 and pin 42 at groove 44 lodges partially within groove 44, which provides a stronger bond between pin 42 and mount 43, especially as mount 43 is pulled away from the decks, as will be described herein. The outboard end 48 includes the outermost face or surface of pin 42 (as directly indicated at 48 in FIG. 6) as well as a portion of pin 42 proximal the outermost face or surface of pin 42. Opposite outboard end 48 is inboard end 49, which likewise includes not only the innermost surface or face (as directly indicated at 49), but also a portion of pin 42 proximal the innermost surface or face of pin 42.
[0020] Recesses 45 and 46 are located closer to the inboard end 49, as shown in FIG. 6. Recess 45 is actually an annular grease channel 45, and recess 46 is actually a circumferential retention pin slot 46. A central passageway 50 is defined to extend from outboard end 48 and approximately to channel 45 where a radial passageway 51 extends to provide fluid communication between central passageway 50 and channel 45. A grease fitting 53 is secured to outboard end 48 and in communication with central passageway 50 to permit the injection of grease from fitting 53 to channel 45. A cylindrical collar 54 is secured to the end of pin 42 by any appropriate means, such as welding, to protect grease fitting 53 from debris and damage.
[0021] Pin mount 43 includes a central opening 56, a bolt mounting hole 57, and a pair of opposing, threaded thrust holes 58 and 59. Main bushing 37 is made of oil impregnated powered metal and is sized externally for a press fit into hinge hole 28. The internal diameter of bushing 37 is set to be just slightly larger than the outer diameter of pin 42 to permit pin 42 to rotate freely within bushing 37. The axial length of bushing 37 is substantially equal to the thickness of frame extension 26, as shown in FIG. 6.
Like [0022] main bushing 37, anti-rotation bushing 35 has an inner diameter that is just slightly larger than the outer diameter of pin 42 so that pin 42 may rotate freely within bushing 35. However, in assembly as shown in FIG. 6 and during operation, both pin 42 and bushing 35 are constrained from rotating relative to angle bracket 30, and consequently, pin 42 does not rotate relative to bushing 35. That is, similar to a standard nut, the outer surface 60 of anti-rotation bushing 35 is hexagonally shaped. Shaped hole 39 is likewise hexagonally sized and shaped to snugly and matingly receive anti-rotation bushing 35 whereby bushing 35 is prevented from rotating relative to bracket 30 while it disposed within hole 39. Anti-rotation bushing 35 has an axial length that is either equal to or greater than the thickness of angle bracket 30. In the embodiment shown in FIGS. 1-6, the axial length of anti-rotation bushing 35 is greater than the thickness of angle bracket 30 to accommodate a spacer plate 62 that is interposed between pin mount 43 and angle bracket 30. Spacer plate 62 has a shaped hole 63 that is identically sized and shaped to align with shaped hole 39 and to likewise snugly and matingly receive anti-rotation bushing 35. Spacer plate 62 also defines a bolt mounting hole 64 that will align with bolt mounting hole 57 of pin mount 43 when shaped holes 39 and 63 are aligned, as shown in FIGS. 3 and 6. The axial length of anti-rotation bushing 35 is equal to the combined thickness of angle bracket 30 and spacer plate 62. If no spacer plate 62 is not used, then the axial length of anti-rotation bushing 35 will be substantially equal to the thickness of angle bracket 30.
In the assembled condition shown in FIG. 6, [0023] spacer 36 is a ring that surrounds pin 42 between anti-rotation bushing 35 and main bushing 37. Spacer 36 has an axial length designed to position main bushing 35 in the proper position along pin 42 whereby, when frame extension 26 is properly positioned within slot 31 of deck 11, anti-rotation bushing 35 and main bushing 37 will both be properly aligned within their respective openings (63 and 39 and 28), as shown in FIG. 6. Retention ring 38 is secured within retention ring slot 46 to limit the inward movement of main bushing 37 beyond slot 46. Retention ring 38 is a coil retention ring and permits slight radial expansion and assembly onto pin 42. Alternatively, retention ring 38 may comprise other configurations or structure, such as a C-clip, so long as it may be applied to and/or used with pin 42 to limit the inward movement of main bushing 37 beyond the desired point. Frame panel 29 defines a hole 66 that is aligned with shaped hole 39 of angle bracket 30 so that when pin assembly 34 is inserted, the inboard end 49 of pin 42 will pass through hole 66 for support.
In assembly, [0024] anti-rotation bushing 35, spacer 36 and main bushing 37 are telescopically positioned onto pin 42, up against the inward surface of pin mount 43 and in the order shown. Retention ring 46 is secured in retention ring slot 46 to hold bushing 35, spacer 36 and bushing 37 in position. With decks 10 and 11 positioned to properly position frame extension 26 within slot 31 so that shaped hole 39 axially aligns with hinge hole 28, the inboard end of pin assembly 34 is inserted through the aligned holes 63, 39 and 28 until main bushing 37 reaches hinge hole 28. Because hole 28 and bushing 37 are sized for a press fit, bushing 37 will not easily enter hole 28, and additional force such as by a mallet must be applied to the outboard side of pin assembly 34. After several blows have been applied, main bushing 37 will have been forced into hinge hole 28. As pin assembly is being struck and bushing 37 is forcibly moved into hinge hole 28, anti-rotation bushing 35 will approach shaped holes 63 and 39. The assembler will manually rotate anti-rotation bushing 35, as necessary, at the start of entry of bushing 35 into its mating, shaped hole 63 (or at the start of entry into shaped hole 39 if spacer plate 62 is not included). Thereafter, anti-rotation bushing 35 will slide easily into shaped holes 63 and 39. Likewise, as pin assembly 34 advances into holes 63, 39 and 28, the assembler will rotate pin mount 43, as necessary, to align bolt mounting hole 57 with mating, bolt mounting hole 64 and threaded bolt mounting hole 68 (or just mating threaded bolt mounting hole 68 if spacer plate 62 is not present). A bolt 70 is inserted through a bolt locking tab 72 and then through holes 57 and 64 and then threadedly through hole 68 until tight.
[0025] Bolt locking tab 72 is a flat metal member with a central hole 73 for receiving bolt 70. Extending radially outward from hole 73 are a plurality of bendable tabs. In the embodiment of FIG. 5, there are three tabs 75-77, and the angle formed between two adjacent tabs is not equal to the angle formed between a different two adjacent tabs. For example, tabs 76 and 77 are about 90° apart, while the angle formed between tabs 75 and 76 is about 65°. When bolt 70 is tightened as desired, tab 77 is bent down and flat against flat side edge 80 of pin mount 43, and at least one of the tabs 75 and 76 should be in a position to bend up and flat against one of the six side faces of hexagonal bolt head 78. If one of the tabs 75 and 76 is not sufficiently aligned with one of the six side edges, then bolt 70 need be backed out or tightened no more than about 30° to align one of tabs 75 and 76 with a side edge of hexagonal head 78.
With the tabs bent as described, [0026] bolt 70 is held firmly in place and restrained from backing out. Alternative elements may be employed to restrain or lock bolt 70 from backing out, including but not limited to lock washers, Loctite adhesive, and a wire retainer tied through a hole in the head of the bolt. Whatever element is used, it should be able to hold the bolt in place, preferably until it is intentionally and manually removed, despite the often severe vibration to which it is subjected from the mower action. Alternative elements are contemplated to connect pin mount 43 to the mower frame member including, but not limited to, one or more screws, clamps, clips, hasps or other mechanical configurations that securely hold pin mount 43 to angle bracket 30 or similar mower frame element, as necessary to hold pin 42 in place for its intended operation, and where such element may be unfastened with little difficulty to release pin mount 43 from its secure connection to the mower frame element. Alternative configurations are contemplated for securely mounting pin 42 to pin mount 43 including, a threaded connection between pin 42 and pin mount 43, an insert and twist key-hole type connection between pin 42 and pin mount 43, alternative elements such as brackets connected separately to both pin 42 and pin mount 43, and any other configuration that securely connects pin 42 with pin mount 43, either permanently or removably.
Eventually, [0027] pin 42, one or more of the bushings, other of the hinge assembly elements, or other parts of the mower will require hinge assembly 22 (or one of the other hinge assemblies) to be disassembled. This is accomplished by first bending back the tabs of bolt locking tab 72 and removing bolt 70. Then, a pair of thrust bolts 91 and 92 are inserted into threaded thrust holes 58 and 59 and advanced until their leading ends contact spacer plate 62 (or angle bracket 30 if a thrust plate is not used). Alternatively, each thrust bolt 91 and 92 is then advanced a small increment (e.g. a quarter turn). As the leading ends of the thrust bolts bear against spacer plate 62 (or angle bracket 30), pin mount 43 is forcibly backed away from spacer plate 62 and angle bracket 30, which by virtue of retention ring 38, pulls anti-rotation bushing 35 and spacer 36 therewith and, most importantly, pulls main bushing 37 out of its press fit position within hinge hole 28.
[0028] Angle bracket 30 defines a threaded hole 83 (FIG. 6) that, when decks 10 and 11 are hingedly connected by pin assembly 34, aligns with limit hole 27 of frame extension 26. A bolt 84 is threadedly received within hole 83 and extends into oversized hole 27. The clearance 85 provided between bolt 84 and hole 27 permits deck 11 to pivot about the axis of pin 42 (and its companion pin, which is not shown, but hingedly connects decks 10 and 11 at the rear side of the decks). The difference in diameter between the shank of bolt 84 and hole 27 defines the degree of articulation (hinged movement) about the corresponding hinge pins 42. This bolt and oversized hole combination that governs the limits of deck articulation is provided at hinge systems 16 and 17, but not at hinge system 18. The limits of articulation between decks 13 and 14 is provided by a deck pivoting system 88 that controls the angle of pivot of deck 14 relative to deck 13, which includes deck 13 pivoting up approximately 90 degrees for a narrower mowing width and for transport.
The present invention has been described as including pin assemblies for hingedly connecting articulating mower decks to one another. Alternative embodiments are contemplated wherein one or more pin assemblies may hingedly connect a mower deck to a portion of the mower that is not a mower deck, but may instead be a section of the mower frame. The present invention shows the shaped [0029] hexagonal holes 39 and 63 as being on the angle bracket 30. Alternative embodiments contemplate other shapes of holes 39 (and hole 63 if a spacer plate 62 is used) and include other manners of making bushing 35 non-rotational. For example, alternative embodiments contemplate bushing 35 having a round outer shape and being press fit into its hole to preclude rotation. Other embodiments contemplate bushing 35 being permitted to rotate within its corresponding hole. Other embodiments contemplate the shaped hole 39 being located in the frame extension 26, or in either one of a first mating mower deck and a second mower deck or mower structure. Alternative embodiments are contemplated wherein spacer 36 is replaced by having one or both of bushings 35 and 37 having a greater in axially length or similarly modified in any appropriate manner to achieve the desired spacing among the corresponding components.
While the invention has been illustrated and described in detail in the drawings and foregoing description, the same is to be considered as illustrated and not restrictive in character, it being understood that only the preferred embodiment has been shown and described and that all changes and modifications that come within the spirit of the invention are desired to be protected. [0030]

Claims

What is claimed is:

1. In a mower having articulating mower decks, a hinge assembly for hingedly connecting a first mower frame member defining a first frame hole with a first axis to a second mower frame member defining a second frame hole with a second axis, wherein at least one of the first and second frame members is a frame member of a mower deck of the mower, the hinge assembly comprising:

a first bushing having a first bushing hole and a first bushing axis, being sized for press fit receipt in the first frame hole, and being sized to rotatably coaxially receive a pin therein;

a second bushing having a second bushing hole and a second bushing axis, being sized for axially non-rotating receipt in the second frame hole, and being sized to rotatably coaxially receive a pin therein;

a pin having inboard and outboard ends and a pin axis, said pin sized to extend coaxially through the first and second bushing holes;

a connector connected to the outboard end of said pin and for connecting said pin to the second frame member and holding said pin against horizontal movement relative to the second frame member and for providing a stop for limiting movement of said second bushing toward the outboard end of said pin; and,

a retention member connected proximal to the inboard end of said pin and limiting movement of said bushings inwardly of said retention member.