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USPTO: us-12653107 · published 2026-06-16 · patents · A01F 12/181· A01F 12/22· A01F 7/06

Rasp bar configuration for an agricultural implement

Dré W.J. Jongmans, Klundert (BE) , Bart M.A. Missotten, Herent (BE) , Sam Reubens, Sint-Michiels (BE) , Pieter Van Overschelde, Sint-Andries (BE) , Bertl Verschaeve, Gits (BE) This is my paper

Pith reviewed 2026-06-20 08:01 UTC · model grok-4.3

classification patents A01F 12/181A01F 12/22A01F 7/06
keywords rasp barrotoragricultural implementcrop engaging portionactuator mechanismconcaveharvested cropsprimary portion
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The pith

A rotor uses a movable primary rasp bar portion to activate or deactivate an immobile secondary crop engaging feature via an actuator.

A machine-rendered reading of the paper's core claim, the machinery that carries it, and where it could break.

The paper presents a rotor for an agricultural implement that processes harvested crops between the rotor and a concave. At least one rasp bar includes a primary crop engaging portion that moves relative to the rotor surface and an immobile secondary portion. Movement of the primary changes the radial position of the secondary's crop engaging feature, allowing it to be fully or partially activated or deactivated. An actuator mechanism drives the primary's movement. A sympathetic reader would care because the design provides a way to vary crop engagement during operation without stopping the implement or swapping components.

Core claim

The rotor rotates about a central longitudinal axis and comprises a cylindrical surface with a plurality of rasp bars mounted on it for processing crop. At least one rasp bar has a primary crop engaging portion movable relative to the rotor surface and relative to a secondary crop engaging portion that is immobile relative to the rotor surface. The secondary portion includes a crop engaging feature whose radial position relative to the primary determines whether its crop engagement function is fully or partially activated or fully deactivated. An actuator mechanism actuates the movement of the primary portion to control this function.

What carries the argument

The actuator mechanism that moves the primary crop engaging portion relative to the immobile secondary crop engaging portion, thereby controlling activation of the secondary's crop engaging feature.

If this is right

  • Crop engagement can be adjusted during operation by changing the position of the primary portion without replacing rasp bars.
  • The secondary feature can occupy a radially outward, same, or inward position relative to the primary depending on the primary's location.
  • The rotor can process varying crop layers by selectively activating or deactivating parts of the rasp bar.
  • The actuator provides controlled, repeatable changes in engagement state across multiple rasp bars on the cylindrical surface.

Where Pith is reading between the lines

These are editorial extensions of the paper, not claims the author makes directly.

  • The mechanism could support continuous adjustment for different crop moisture or density levels encountered in a single field.
  • Integration with automatic controls might allow the actuator to respond to sensor data on crop flow without operator input.
  • Deactivating the secondary feature when not needed could reduce power consumption or component wear over long harvest periods.

Load-bearing premise

The described movement of the primary portion relative to the secondary portion produces the claimed activation or deactivation of the secondary crop engaging feature.

What would settle it

A physical test of the rotor where the primary portion is moved through its range of positions and the radial position plus engagement state of the secondary feature is measured to check whether activation and deactivation occur exactly as described.

read the original abstract

1 . A rotor for an agricultural implement for processing harvested crops, the rotor rotates about a central longitudinal axis, the rotor comprising: a cylindrical surface; a plurality of rasp bars mounted on the cylindrical surface for processing a layer of crop between the rotor and a concave of the agricultural implement, at least one of the rasp bars comprising a primary crop engaging portion and a secondary crop engaging portion, wherein: the secondary crop engaging portion is immobile relative to the rotor surface, the primary crop engaging portion is movable relative to the rotor surface and relative to the secondary crop engaging portion such that a distance between at least part of the primary crop engaging portion and the rotor surface is variable, the secondary crop engaging portion comprises a crop engaging feature that extends radially outwardly from the primary crop engaging portion or that lies at a same radial position or radially inwardly of the primary crop engaging portion, depending on a position of the primary crop engaging portion, that enables a crop engagement function of the crop engaging feature of the secondary crop engaging portion is fully or partially activated or fully deactivated as a function of the relative position of the primary crop engaging portion; and an actuator mechanism that actuates movement of the primary crop engaging portion relative to the secondary crop engaging portion.

Editorial analysis

A structured set of objections, weighed in public.

Desk editor's note, referee report, simulated authors' rebuttal, and a circularity audit. Tearing a paper down is the easy half of reading it; the pith above is the substance, this is the friction.

Referee Report

0 major / 1 minor

Summary. The manuscript is a US patent application describing a rotor for an agricultural implement. The central claim (Abstract, claim 1) is a mechanical configuration in which rasp bars include a movable primary crop engaging portion and an immobile secondary crop engaging portion; the radial position of the primary portion determines whether the secondary portion's crop engaging feature is activated, partially activated, or deactivated, with movement controlled by an unspecified actuator mechanism.

Significance. The proposed variable-geometry rasp bar could, in principle, enable adjustable crop processing between the rotor and concave. However, the text contains no empirical validation, performance data, comparison to prior art, or detailed description of the actuator, so no assessment of practical significance or improvement over existing designs is possible.

minor comments (1)
  1. [Abstract] Abstract, claim 1: the sentence describing activation of the secondary feature is grammatically malformed ('that enables a crop engagement function of the crop engaging feature of the secondary crop engaging portion is fully or partially activated or fully deactivated'), rendering the claim difficult to interpret.

Simulated Author's Rebuttal

4 responses · 0 unresolved

We thank the referee for the review of our US patent application. This document discloses a novel mechanical configuration for adjustable rasp bars on an agricultural rotor; it is not a scientific research paper. We address the concerns point by point below.

read point-by-point responses

  1. Referee: The text contains no empirical validation, performance data

    Authors: A US patent application is not required to include empirical validation or performance data. Its purpose is to provide an enabling description of the invention sufficient for a person skilled in the art to practice it. Experimental results, if any, would be generated during development and are not part of the statutory requirements for patent disclosure. revision: no

  2. Referee: comparison to prior art

    Authors: Detailed comparisons to prior art are addressed during USPTO examination rather than being mandatory in the application text itself. The application includes a background section describing the field and existing rotor/rasp bar technology; any formal prior-art analysis occurs via office actions. revision: no

  3. Referee: or detailed description of the actuator

    Authors: The actuator is recited functionally as the mechanism that moves the primary crop engaging portion relative to the secondary portion. This level of description is standard and sufficient for patent claims; specific actuator embodiments (hydraulic, electric, etc.) can be implemented in multiple ways and are often left broad to preserve claim scope. Additional detail appears in the full specification and figures. revision: no

  4. Referee: so no assessment of practical significance or improvement over existing designs is possible.

    Authors: The practical significance is the claimed ability to vary the effective crop-engaging geometry of the rasp bar (fully activated, partially activated, or deactivated) via radial movement of the primary portion while the secondary portion remains fixed. This variable-geometry feature is the inventive contribution; quantitative performance gains would be evaluated in field testing outside the patent document. revision: no

Circularity Check

0 steps flagged

No significant circularity

full rationale

The document is a US patent application describing a mechanical rotor and rasp-bar assembly for crop processing. It contains no equations, derivations, fitted parameters, predictions, or self-citations that could form a derivation chain. The central claim is a legal description of variable-geometry crop-engaging features actuated by a mechanism; this does not reduce to any input by construction or self-reference. All evaluation axes for circularity (self-definitional claims, fitted inputs renamed as predictions, load-bearing self-citations, etc.) are inapplicable by design. The description is self-contained as a mechanical specification without internal reduction to its own assumptions.

Axiom & Free-Parameter Ledger

0 free parameters · 0 axioms · 0 invented entities

No scientific axioms, free parameters, or invented entities are involved; this is a mechanical patent description with no derivations or empirical claims.

pith-pipeline@v0.9.1-grok · 5809 in / 1073 out tokens · 23652 ms · 2026-06-20T08:01:30.066144+00:00 · methodology

discussion (0)

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