1. Field of the Invention
The present invention relates to two-sided planer.
2. Description of the Related Art
Generally, a planer usually comprises a base having a working platen. An adjusting pedestal is arranged above the working platen via several adjusting shafts. A plane is disposed on the working platen, and a plurality of pressing shafts as well as a progressing shaft are installed on the adjusting pedestal. Thereby, while a workpiece such as a plank is disposed on the working platen, the workpiece is moved by the progressing shaft toward the plane. Concurrently, the pressing shafts press and fix the workpiece for preventing the workpiece from an adverse movement. Consequently, the plane executes the planing on the workpiece for removing the uneven surface of the workpiece. However, before the workpiece is planed even, the workpiece is usually warped. Herein, since the pressing shafts are integrally formed, and a certain internal stress exists in the planed workpiece that was originally warped, the workpiece unfavorably recovers the warped state after the planing operation. As a result, the planing task cannot be effectively achieved. In addition, the adjusting pedestal is in fact limited on the adjusting shafts, so an adjustment in the adjusting pedestal of the conventional planer is usually achieved by amending one to two of the adjusting shafts for the whole adjusting pedestal to be moved upward or downward along the adjusting shafts. Nonetheless, such adjustment readily results in a slanted adjusting pedestal, and thereby an inferior processing surface on the workpiece is incurred. Therefore, the conventional planer needs an amendment.
It is an object of the present invention to provide a two-sided planer comprising a base, an adjusting base, and a floated pressing unit. Wherein, the base includes a working platen. A plurality of adjusting shafts are disposed adjacent to the working platen. A lower plane is pivoted on the base corresponding to the working platen. The lower plane is served as a reference line for the working platen to be longitudinally divided into a front working area and a rear working area. The adjusting base has adjusting holes disposed corresponding to the adjusting shafts for being penetrated by the adjusting shaft, so that the adjusting base is mounted above the working platen. An accommodating room is depressed on one side of the adjusting base facing the working platen. A pre-pressing plate, at least one pressing shaft, an upper plane, and a progressing shaft are sequentially pivoted within the accommodating room along a longitudinal direction of the working platen. The pre-pressing plate is arranged at the front working area. Whereas, the pressing shaft, the upper plane, and the progressing shaft are arranged at the rear working area. The floated pressing unit is pivoted within the accommodating room of the adjusting base. The floated pressing unit is further situated between the pre-pressing plate and the pressing shaft as well as arranged at the front working area. The floated pressing unit includes an axle shaft, plural pressing rings and plural elastic propping elements. Wherein, the axle shaft pivoted to the adjusting base radially defines a plurality of cross-sections, each of which has a plurality of receiving recesses disposed around an outer surface of the axle shaft. The pressing rings are respectively superimposed on the axle shaft with respect to the cross-sections. A spacing is defined between an inner surface of the pressing ring and the axle shaft. The elastic propping elements are received in the receiving recesses. One end of the elastic propping element protrudes from the receiving recess to elastically prop against the inner surface of the pressing ring. Thereby, in the planing operation, the pressing ring upward and downward adjusts its position in accordance with the configuration of the workpiece, so that the workpiece will be properly restricted without deforming. Thus, such planed workpiece will not resume warped, and the two-sided planer achieves the preferable planing operation.
A base 10 includes a working platen 11. A plurality of adjusting shafts 12 are disposed adjacent to the working platen 11. The base 10 further has a lower plane 13 pivoted on the working platen 11. The lower plane 13 is served as a reference line for the working platen 11 to be longitudinally divided into a front working area 111 and a rear working area 112.
An adjusting base 20 has adjusting holes 21 disposed corresponding to the adjusting shafts 12 for being penetrated by the adjusting shaft 12. The adjusting base 20 is mounted above the working platen 11. An accommodating room 22 is concavely disposed on one side of the adjusting base 20 facing the working platen 11. A pre-pressing plate 23, an anti-receding gear 24, two pressing shafts 25, an upper plane 26, and a progressing shaft 27 are sequentially pivoted within the accommodating room 22 along a longitudinal direction of the working platen 11. Wherein, the pre-pressing plate 23 and the anti-receding gear 24 are arranged at the front working area 11. Whereas, the pressing shaft 25, the upper plane 26, and the progressing shaft 27 are arranged at the rear working area 112.
A floated pressing unit 30 is pivoted within the accommodating room 22 of the adjusting base 20. The floated pressing unit 30 is further situated between the pre-pressing plate 23 and the pressing shaft 25 as well as arranged at the front working area 111. As shown in
Wherein, the axle shaft 31 pivoted to the adjusting base 20 has a plurality of longitudinal recesses 311 axially disposed on the outer surface thereof at equivalent intervals. Accompanying with
The pressing rings 32 are respectively superimposed on the axle shaft 31 with respect to the receiving recesses 312. A spacing is defined between an inner surface of the pressing ring 32 and the axle shaft 31. A prominent element 321 is arranged on the inner surface of the pressing ring 32 corresponding to the longitudinal recess 311. In addition, a circle of one-way gear 322 is surrounded on the outer surface of the pressing ring 32.
The elastic propping elements 33 are received in the receiving recesses 312. One end of the elastic propping element 33 protrudes from the receiving recess 312 to elastically prop against the inner surface of the pressing ring 32. In this embodiment, the elastic propping element 33 includes a rod 331 and a spring 332. One end of the rod 331 protrudes out of the receiving recess 312 for forming a head portion 333. The spring 332 places around the rod 331 and stays between the head portion 333 and the receiving recess 312 for elastically pushing the head portion 333, so that the head portion 333 props against the inner surface of the pressing ring 32.
The limiting plates 34 are respectively positioned at two ends of the axle shaft 31, corresponding to an exterior of the pressing rings 32. The limiting rings 35 are respectively positioned at two ends of the axle shaft 31, corresponding to an exterior of the limiting plates 34. Thereby, the pressing rings 32 are limited to the axle shaft 31 for preventing the pressing rings 32 from being slipped out of the axle shaft 31.
Besides, referring to
Referring to
As it should be, referring to
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2552367 | Carlson | May 1951 | A |
2619997 | Gaskell | Dec 1952 | A |
2624382 | Moore | Jan 1953 | A |
2780251 | Williams | Feb 1957 | A |
3067788 | Eschenburg | Dec 1962 | A |
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Number | Date | Country | |
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20120042989 A1 | Feb 2012 | US |