This invention relates to woodworking machines and more particularly to a guide fence or stop for timber in sawmills or sawing machines.
In sawmills various timber handling machinery is provided to cut and shape the timber into wood products such as veneers, board products and the like. In forming a board product, the tree or flitch material is cut to the desired cross section of the three dimensional shape desired for the lumber product being produced and the piece are then cut to length. When board lumber is handled within a mill, automation is generally provided throughout the mill to transport the material to be cut or worked within the sawmill. Frequently, the board lumber is transported from one work position to another on a flat bed roller system.
Once the flitch has been cut to the desired cross section, it is supplied to saw equipment for cutting to length. To cut the material to length, one arrangement of transport equipment has a conveyor that has a flat bed lug chain transport table to carry the lumber pieces toward the length cutting saws. The lumber pieces are carried along the conveyor in equidistantly spaced succession based on the lug spacing of the lug chains. The conveyor has a set of lateral alignment rollers. The lateral alignment rollers form a roller bed system placed at right angles to the lug chain, which operate to urge one end of the lumber material toward a stop or fence. In this arrangement, each successive piece of lumber is spaced from the other in the direction of travel along the lumber conveyor by the lugs of the lug chain and one of the ends of the lumber is laterally aligned to the stop or fence.
The piece to be cut to length is positioned for contact with a saw. In the configuration of sawmill conveyor equipment just described, the saw is stationary relative to the conveyor and the board is laterally positioned on the conveyor relative to the saw blade. A positioning fence, which one end of the lumber piece abuts against, controls the lateral position of the lumber piece on the feed conveyor. Numerous prior art arrangements for adjustable positioning fences for use with such a feed conveyor arrangement have been proposed in the past. For example a step positioning fence is disclosed in the published Canadian Patent application 2,241,481 of Wight et al. The stepped positioning fence of Wight has a plurality of rigid elevated faces, or steps that extend longitudinally along a side of the fence in an adjacent stepped array of differing offset spacing. The fence is oriented to present one of the steps for contact with the lumber piece to align the lumber end to the corresponding offset of that step. The lumber is urged into contact with the fence by the lateral alignment rollers resulting in alignment of the lumber end to the fence step offset. The stepped fence provides fixed incremental ending settings and a positioning mechanism to ensure the board is presented with a step suitable to obtain the desired or intended lateral translation of the board piece.
Another flexible trimmer position fence is disclosed in Canadian Patent 2,191,390 to Jackson, which discloses a board positioning fence comprised of a plurality of adjustable fence elements each staged one after the other in the downstream direction of travel of the lumber to be positioned. The lumber is urged against the positioning fence by lateral alignment or ending rollers. The ending rollers urge the lumber laterally across the feed conveyor into contact with the successive fence elements of the board positioning fence. When the desired lateral positioning of the board is achieved, lift skids are engaged to remove the lumber from contact with the lateral urging end rollers. This arrangement has multiple flexible fence elements, which are adjusted to allow the board to be ended to the desired positioning or ending location. Once the board has been displaced laterally to the desired position offset, skids are engaged that lift the positioned lumber piece away from the ending rollers.
Another arrangement to provide board lumber end positioning is disclosed in the Canadian patent 2,236,508 of Hannebauer et al. Hannebauer discloses a circulating paddle positioning fence with a flexible guide track. Actuators position the flexible guide track, which results in corresponding positioning of a paddle to a desired offset or ending position.
And yet another positioning mechanism is disclosed in the published Canadian Patent application 2,345,872 of Jobin, for apparatus for positioning pieces of wood for precise cutting. Jobin discloses an adjustable barrier, which is provided with actuators to position the barrier to the desired offset location. Various forms of adjustable barrier are shown including ones which have a face that remains perpendicular to the board as well as providing for incline planes that have a set displacement selected by an actuator to achieve an ending or offset of the lumber laterally to the desired offset amount.
The present invention provides a board positioning fence that includes individual paddles displaced along a continuous track loop at a spacing corresponding to the spacing of the lumber to be positioned or ended. The paddles are laterally displacable across the width of the track and include a brake to lock the paddle from lateral movement. When lateral adjustment is desired, a positioning cam engages the paddle to release the paddle brake allowing the released paddle travels across the track long a bearing. When the desired lateral offset amount is achieved, the positioning cam is disengaged from the paddle allowing the brake to halt further lateral displacement of the lumber in the feed assembly. A reset cam returns the paddles to a zero position on the return travel of the track loop.
A preferred embodiment of the invention will now be described with reference to the accompanying drawings in which like features of the invention are depicted by the same reference numerals throughout the various figures of the drawings.
Each paddle assembly includes cam followers to effect movement and positioning of the paddle assembly 18 along bearing way 20. A positioning cam follower 36 is used to urge the paddle assembly 18 in a right-to-left direction along bearing way 20 and a reset cam follower 38 is used to urge paddle assembly 18 in the opposite direction, that is, in a left-to-right direction. Engagement of cam followers 36 or 38 releases the brake 34. For example, when a cam contacts the positioning cam follower 36 in the direction of arrow “P”, pivot arm 30 rotates to release brake 34 allowing the cam to move the paddle assembly to the left. Similarly, when a cam contacts the reset cam follower 38 in the direction of arrow “R”, pivot arm 30 rotates to release brake 34 allowing the cam to move the paddle assembly to the right. Consequently cam followers 36 and 38 are used to position the paddle assembly 18 at a desired location on bearing way 20.
A positioning cam 41 is provided on the opposite paddle travel side of the track, that is in the upper area of the board lumber position fence. The positioning cam is moveable between a released position or a locked position. When the positioning cam segment is in the released position, it is oriented to engage the lower cam follower 36 of each successive paddle assembly 18 passing along it. When the positioning cam 41 is in the released position, it comes into contact with the positioning cam follower 36 of a paddle assembly 18 and the paddle assembly is freed to move in a right-to-left direction along bearing way 20. In operation of the lumber positioning fence, a lumber piece 46 is seated on the paddle lumber seat 28 and is urged in the direction of arrow “F”. Thus when the positioning cam 41 is oriented into released position as shown in
Preferably, the positioning cam 41 is constructed from a plurality of positioning cam segments, where each segment being orientable between a released position 42 and a locked position 52. An actuator 50 orients a corresponding respective positioning cam segment between the released orientation 42 and the locked orientation 52. The positioning cam segments 42 are all oriented in a released orientation or position 42, with the exception of positioning cam segment 52, which is in the locked orientation or position. The positioning cam is preferably provided in segments each with its own respective actuator to facilitate separate control of each individual paddle even with a shallow cam angle and close spacing of the paddles 18 along track 16. Therefore, cam segments on the positioning cam permit gradual lateral adjustment of the lumber pieces, even with a close spacing of the paddle/lumber piece along the length of the continues track loop 16.
The locked orientation of cam segment 52 illustrates operation of the positioning fence. As the displaced or offset paddle 48 passed along the positioning cam 41, contact of that paddle's lower cam follower with the segments of the positioning cam allowed the board lumber piece 46 (shown in dotted outline form) to move laterally and be positioned at an off set from the zero position. When the board lumber piece reaches the desired offset amount, the positioning cam segment was actuated away from contact with the cam follower of the associated paddle, causing the paddle brake to lock, thereby halting further lateral displacement of the lumber piece 46.
Now that the invention has been described numerous variations, substitutions and equivalents will come to the mind of those skilled in the art. The invention, is not however, limited to the specific embodiments described herein with reference to the attached drawings, but rather, the scope of the invention is defined by the claims appended hereto.