Structure for Attaching a Tool to a Frame Tube

Abstract

Gang tube rail structure is attached to the lower front and rear corners of the implement gang tube to provide a lower clamp support. Two pivoting clamp jaws are attached to the clamp support and secured against the support by tightening a single clamp bolt extending between the lowermost portions of the jaws. A locator shoe is secured between the tube and the c-spring and includes a protrusion that projects into a hole in the c-spring. The ends of the locator shoe include short legs that wrap around the gang tube rail. The single clamp bolt provides a vertical clamp force that is approximately twice the tension generated in the bolt when the nut is tightened.

Description

FIELD OF THE INVENTION

The present invention relates generally to attaching structure for mounting tools on a frame tube of an implement and, more specifically, to attaching structure for mounting structure such as a disk gang c-springs or standard to the lower portion of a frame or gang tube.

BACKGROUND OF THE INVENTION

Traditional disk gang c-spring attachments wrap around the gang tube with u-bolts or bolts and plates. The c-spring is typically clamped to the lower surface of the gang tube. Bolts and plates or u-bolts clamp over the top of the tube. Having portions of components projecting over the tube introduces interference problems when utilizing a common gang tube for multiple disk blade spacings because several locations on the top of the gang tube must be kept free of hardware to attach other frame members or other implement components.

SUMMARY OF THE INVENTION

Formed gang tube rail structure is attached to the lower front and rear corners of the implement gang tube to provide a lower clamp support. Two pivoting clamp jaws are attached to the clamp support and secured against the support by tightening a single clamp bolt extending through trunions in the lowermost portions of the jaws. To positively position a c-spring, a locator shoe is secured between the tube and the c-spring and includes a protrusion that projects into a hole in the c-spring. In addition to the protrusion, the ends of the locator shoe include short legs that wrap around the gang tube rail to prevent relative motion, and short downturned legs embrace the sides of the c-spring. The geometry of the clamp jaw and bolt result in a vertical clamp force that is a multiple of the tension generated in the bolt when the nut is tightened. The resulting mechanical advantage reduces the force needed to provide a tight joint. A single clamp bolt and nut provide quick assembly for reduced cost and quick and easy field service. Different mounting locations along the length of the rail structure can be selected while avoiding any interference with hardware near the top of the frame tube.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a portion of a tillage implement frame including a tool clamp supporting a shank on frame rails.

FIG. 2 is an enlarged lower perspective view of the tool clamp and frame rails of FIG. 1.

FIG. 3 is a perspective view of the tool clamp of FIG. 1 removed from the frame rails to better show the locator shoe.

DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring to FIG. 1, therein is shown a portion of an implement 10 having a main frame 12 with a generally transversely extending frame member or frame tube 14 of rectangular cross section. The frame tube 14 includes an uppermost wall 14a and lowermost wall 14b joined by upright fore-and-aft spaced walls 14c. The implement 10 is shown as a tillage implement supporting disk structure (not shown) from a tool support or shank assembly 16. However, it is to be understood that other types of tool supports or shank assemblies may also be used with the structure described below.

The shank assembly 16 includes a c-shank 18 and a standard 19 supported by tool mount structure 20 from the lower extremity of the frame tube 14 so that none of the structure 20 projects above the plane of the uppermost wall 14a of the frame tube 14. Additional mounting structure 22 may be connected to the frame tube 14 directly above the tool mount structure 20 for supporting frame components or other implement structure.

The tool mount structure 20 includes clamping structure 24 and rail structure 26 releasably supporting the clamping structure 24 adjacent lower front and rear corners 14f and 14r of the frame tube 14. The clamping structure 24 includes front and rear generally identical clamps or castings 24f and 24r, respectfully, having transversely spaced J-shaped legs 28f, 28r (FIG. 2) that generally embrace the sides of the c-shank 18 and extend upwardly and around the rail structure 26. Each casting 24f, 24r includes a lower connecting portion 30 supporting a pivoting bolt-receiving member 34 to define a trunnion member. A single clamping bolt 36 extends through the bolt-receiving members 34, and a nut 38 is threaded onto one end of the bolt 36 to draw the lower connecting portions 30 together and tighten the castings 24f and 24r against the rail structure 26. As the clamping bolt 36 is tightened, the lower connecting portions 30 of the clamping structure 24 will move upwardly against the c-shank 18.

The rail structure 26 includes front and rear rails 26f, 26r with a J-shaped cross section. Upturned flanges 40 on the rails 26f,26r are welded to the respective walls 14c near the lower front and rear corners 14f,14r. Leg portions 42 are welded to the lowermost wall 14b. The rails 26f,26r include curved portions 44 conforming to the shape of the ends of the castings 24r, 24f and support the castings in both a loosened state during assembly and a tightened state when the bolt 36 is tensioned to secure the c-shank 18 to the frame tube 14.

To positively position the c-spring 18 or other tool support member, an insert or locator shoe 50 is supported between the frame tube 14 and the c-spring 18. The locator shoe 50 conforms to the shape of the c-spring 18 or other supported member. As shown, the locator shoe 50 includes a protrusion 52 that projects into a hole in the c-spring 18. In addition to the protrusion 52, ends 56 of the locator shoe 50 include short legs 56 that wrap around the rails 26f,26r and downturned sides 58 that embrace the c-shank to help prevent relative motion between components.

As the clamping bolt 36 is tightened to draw the lower connecting portions 30 together, the top face of the locator shoe 50 is urged upwardly against lower surfaces on the leg portions 42 of the rail structure 26, and the c-shank 18 is firmly secured in position between the shoe 50 and the clamping structure 24. The geometry of the castings 24f,24r and bolt 36 result in a vertical clamp force that is a multiple of the tension generated in the bolt 36 when the nut 38 is tightened. The single clamping bolt 36 and nut 38 provide a mechanical advantage that reduces the force needed to provide a tight joint. The above-described structure and reduce the number of tightening operations during assembly compared to a conventional mounting arrangement.

Having described the preferred embodiment, it will become apparent that various modifications can be made without departing from the scope of the invention as defined in the accompanying claims.

Claims

1. A tool mount for connecting a tool shank to a frame member of an implement, the tool mount comprising: first and second spaced rail members connected to a lower portion of the frame member;opposed clamp jaws engaging the spaced rail members and depending from the rail members to define a tool support-receiving portion below the frame member;a jaw tightening member extending between the opposed clamp jaws below the spaced rail members and the tool support-receiving portion to urge lower portions of the clamp jaws towards each other to clamp the tool support to the lower portion of the frame member independently of additional fasteners above the rail members.

2. The tool mount as set forth in claim 1 including a positioning member located in the tool support-receiving portion mating with the clamp jaws and the tool support and preventing relative movement of the tool support and the rail members.

3. The tool mount as set forth in claim 2 wherein the positioning member includes legs embracing the rail members.

4. The tool mount as set forth in claim 1 wherein the jaw tightening member includes a trunnion.

5. The tool mount as set forth in claim 1 wherein the rails comprise J-shaped formed metal members located at corners of the tubular frame member.

6. The tool mount as set forth in claim 1 wherein the jaw tightening member includes a bolt extending between the jaws and tightenable to draw the lower portions together and upwardly towards the frame member.

7. A tool mount for connecting a tool shank to a tubular frame member of an implement, the frame member having upper and lower faces, the tool mount comprising: spaced rail members connected to a lower portion of the frame member;a clamp having opposed clamp jaws extending between and engaging the spaced rail members, the clamp jaws depending from the rail members to define a tool support-receiving portion below the frame member;a jaw tightening member extending between the opposed clamp jaws and the tool support-receiving portion below the lower face of the frame member to urge the clamp jaws towards each other to clamp the tool support to the lower face of the frame member, the jaws and rails located substantially below the upper face of the frame.

8. The tool mount as set forth in claim 7 wherein the spaced rail members comprise first and second rails connected to lowermost corners of the frame member.

9. The tool mount as set forth in claim 7 wherein the clamp jaws are j-shaped and the rail members have a mating cross section.

10. The tool mount as set forth in claim 9 wherein the jaw-tightening member comprises bolt member extending between the jaws.

11. The tool mount as set forth in claim 7 further comprising a tool mounting insert connected between the jaws for engaging the tool shank and the rails.

12. The tool mount as set forth in claim 11 wherein the insert includes an indexing portion for mating with the tool shank.

13. The tool mount as set forth in claim 11 wherein the insert includes tool shank wrapping legs.

14. The tool mount as set forth in claim 11 wherein the insert includes ends embracing the rail members.

15. The tool mount as set forth in 7 wherein the clamp and the jaw tightening members are supported from the rail members independently of additional fasteners.

16. The tool mount as set forth in claim 15 wherein the jaw tightening member comprises a single bolt extending through pivoting members on the jaws.