1. Field of the Invention
This invention relates to a wood processing machine, and more particularly to a floating caterpillar feeder for a wood processing machine.
2. Description of the Related Art
When a wooden plate dries, it deforms to thereby have uneven side surfaces. When the deformed wooden plate is moved by a feeder under pressure on a worktable of a wood processing machine, such as a wood planing machine, not only can it not be moved smoothly, but also, the service life of the feeder is reduced.
Referring to
The aforesaid conventional caterpillar feeder suffers from the following disadvantages:
The object of this invention is to provide a caterpillar feeder for a wood processing machine, which can be made easily and which can move a workpiece smoothly on a worktable.
According to this invention, a floating caterpillar feeder is used for moving a workpiece on a worktable. The feeder includes a housing unit having a bottom edge, a driving unit including two pairs of sprockets and two chains respectively trained on the pairs of the sprockets, and a plurality of feeding units connected between the chains. Each feeding unit includes two mounting members connected respectively and fixedly to two corresponding links of the chains, parallel horizontal inner and outer rods connected fixedly between the mounting members, parallel pushing plates sleeved on the inner and outer rods, and resilient members for biasing the pushing plates to project from the bottom edge. Each pushing plate has a pair of inner and outer holes engaging respectively and movably the inner and outer rods so as to allow the corresponding pushing plate to move relative to the inner and outer rods in an inner-to-outer direction.
These and other features and advantages of this invention will become apparent in the following detailed description of a preferred embodiment of this invention, with reference to the accompanying drawings, in which:
Referring to
The housing unit 10 includes a hanging plate 11 having an inverted U-shaped cross-section, two side plates 12 disposed respectively at two opposite sides of the housing unit 10 and connected fixedly to the hanging plate 11, and a foot frame 13 for connecting the hanging plate 11 to the worktable 110. Each side plate 12 has a straight bottom edge 121 adjacent to the worktable 1120. The foot frame 13 includes a base 131 fixed on the worktable 110, and a rotary tube 132 disposed rotatably on the base 131 and connected fixedly to the hanging plate 11.
The driving unit 20 includes a motor 21 disposed on one of the side plates 12, two pairs of sprockets 22 disposed respectively and rotatably on inner surfaces of the side plates 12 and driven by the motor 21, and two chains 23 trained respectively on the pairs of the sprockets 22. Each chain 23 includes a plurality of links 230 and a plurality of positioning plates 231 each connected fixedly to a corresponding one of the links 230.
The feeding units 30 are connected between the chains 23, and are arranged along each chain 23. One feeding unit 30 will be described in the succeeding paragraphs.
With further reference to
Each of the inner and outer rods 33, 32 has a cylindrical outer surface 333, 323 formed with a plurality of axially spaced-apart annular grooves 331, 321, each of which defines a diameter-reduced rod portion 332, 322.
Each pushing plate 34 has inner and outer holes 342, 341 engaging respectively the inner and outer rods 33, 32, a toothed pushing portion 343, and a lower positioning portion 344 configured as a projection. Each of the inner and outer holes 342, 341 has a generally circular wide hole portion 342′, 341′ allowing extension of the cylindrical outer surface 333, 323 of a corresponding one of the inner and outer rods 33, 32 during assembly, and a uniform-width narrow hole portion 342″, 341″ narrower than the wide hole portion 342′, 341′ and receiving the diameter-reduced rod portion 332, 322 of a corresponding one of the inner and outer rods 33, 32. As such, each of the inner and outer rods 33, 32 is movable along the corresponding narrow hole portion 342″, 341″ in an inner-to-outer direction (Y). Each narrow hole portion 342″, 341″ has a position-limiting end 345 distal from the corresponding wide hole portion 342′, 341′. With further reference to
Each spacer 35 has a tubular portion 351 sleeved rotatably on the inner rod 33, a flat plate portion 352 connected to the tubular portion 351 and having a curved edge 352′ abutting against the outer rod 32 so as to prevent rotation of the tubular portion 351 on the inner rod 33, and an upper positioning portion 353 connected to the flat plate portion 352 and configured as a projection.
Each resilient member 36 is configured as a coiled compression spring, and has two ends sleeved respectively on the upper positioning portion 353 of the corresponding spacer 35 and the lower positioning portion 344 of the corresponding pushing plate 34. As such, each resilient member 36 biases the pushing portion 343 of the corresponding pushing plate 34 to move away from the bottom edges 121 when the corresponding pushing plate 34 moves along the bottom edges 121.
The shielding unit 40 includes a resilient member 41 made of a high-rigidity metal and connected to one of the side plates 12, and a shielding plate 42 mounted to the resilient member 41. As such, the shielding plate 42 is biased to abut against a lateral side of the worktable 110 for covering the cutter 120 (see
With particular reference to
With particular reference to
In view of the foregoing, the floating caterpillar feeder of this invention has the following advantages:
With this invention thus explained, it is apparent that numerous modifications and variations can be made without departing from the scope and spirit of this invention. It is therefore intended that this invention be limited only as indicated by the appended claims.