Spring lock mechanism for a ground-engaging
Abstract
A spring lock mechanism for a ground-engaging tool, or bit. The spring lock mechanism is provided for engaging a bit into a positive engagement with a bit holder, thereby reducing the failure rate of the bit while also allowing the bit to rotate within the bit block. The spring lock mechanism is configured to be received about the shank of a bit between a support block and a retainer. The spring lock mechanism defines a frustoconical configuration having a selected inside diameter, outside diameter, and uncompressed height. The spring lock mechanism is fabricated from a resilient material to allow it to compress. When compressed, the spring lock mechanism biases the bit into the support block receptor.
Claims
exact text as granted — not AI-modified1 . A spring lock mechanism for engaging a ground-engaging tool into a support block, the support block defining a receptor, the ground-engaging tool defining a bit at a proximal end and a shank adapted to be received within the support block receptor, the shank defining an annular groove, a retainer being provided for being received within the ground-engaging tool annular groove, said spring lock mechanism being adapted to be received on the ground-engaging tool shank and between the support block and the retainer, said spring lock mechanism being adapted to minimize movement of the ground-engaging tool along a longitudinal axis therein and within the support block receptor, said spring lock mechanism being uncompressed when disposed between the support block and the retainer in said assembly.
2 . The spring lock mechanism of claim 1 wherein said spring lock mechanism includes a first spring lock mechanism and a second spring lock mechanism.
3 . The spring lock mechanism of claim 2 wherein said lower end of said first spring lock mechanism is disposed proximate said lower end of said second spring lock mechanism.
4 . The spring lock mechanism of claim 3 wherein said upper end of said first spring lock mechanism is disposed proximate said upper end of said second spring lock mechanism.
5 . The spring lock mechanism of claim 3 wherein said first spring lock mechanism is nested within said second spring lock mechanism.
6 . The spring lock mechanism of claim 1 wherein said spring lock mechanism is selected from at least a wave spring, a compression spring, and a tension spring.
7 . The spring lock mechanism of claim 1 wherein said spring lock mechanism further defines a notch adapted to receive the ground-engaging tool shank, whereby said spring lock mechanism is removable from and insertable on said ground-engaging tool shank without requiring removal of said retainer.
8 . The spring lock mechanism of claim 7 wherein said spring lock mechanism further defines a deformed portion adapted to be grasped by a user, whereby removal and insertion of said spring lock mechanism is simplified.
9 . A ground-engaging tool assembly comprising:
a support block defining a receptor; a ground-engaging tool defining a bit at a proximal end and a shank adapted to be received within said support block receptor, said shank defining an annular groove; a retainer adapted to be received within said ground-engaging tool annular groove; and at least one spring lock mechanism received on said ground-engaging tool shank and between said support block and said retainer, said at least one spring lock mechanism being adapted to minimize movement of the ground-engaging tool along a longitudinal axis therein and within the support block receptor, said at least one spring lock mechanism being uncompressed when disposed between the support block and the retainer in said assembly.
10 . The ground-engaging tool assembly of claim 9 wherein said at least one spring lock mechanism includes a first spring lock mechanism and a second spring lock mechanism.
11 . The ground-engaging tool assembly of claim 10 wherein said lower end of said first spring lock mechanism is disposed proximate said lower end of said second spring lock mechanism.
12 . The ground-engaging tool assembly of claim 10 wherein said upper end of said first spring lock mechanism is disposed proximate said upper end of said second spring lock mechanism.
13 . The ground-engaging tool assembly of claim 10 wherein said first spring lock mechanism is nested within said second spring lock mechanism.
14 . The ground-engaging tool assembly of claim 10 wherein said at least one spring lock mechanism is selected from at least a wave spring, a compression spring, and a tension spring.
15 . The ground-engaging tool assembly of claim 9 wherein said spring lock mechanism further defines a notch adapted to receive the ground-engaging tool shank, whereby said spring lock mechanism is removable from and insertable on said ground-engaging tool shank without requiring removal of said retainer.
16 . The ground-engaging tool assembly of claim 15 wherein said spring lock mechanism further defines a deformed portion adapted to be grasped by a user, whereby removal and insertion of said spring lock mechanism is simplified.Cited by (0)
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