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1. Field of the Invention
The present invention relates generally to an automatic wood planer, and more particularly to an wood planer which enables the lift assembly of the cutter shaft to be implemented by adapting two front columns with two rotary supports.
2. Description of Related Art Including Information Disclosed Under 37 CFR 1.97 and 37 CFR 1.98.
An automatic wood planer is a woodworking machine used for automatically guiding, planing and leveling timber.
A typical automatic wood planer is formed in such a manner that the cutter shaft mechanism is assembled onto a preset location of a lifting footstock on the machine. The lifting footstock is supported by four columns at four corners, enabling it to slide along four columns when adjusting the planing height. However, it is found from actual application that the footstock of the automatic wood planer expands upward, thus bringing about a bulky and cumbersome structure. Moreover, higher fabrication costs and sales price impair its market competitiveness. From the perspective of mechanical operation of the typical automatic wood planer with four columns, screwing clearance exists between the columns and lifting rootstock, resulting in an obvious error during height adjustment of the lifting footstock.
Thus, to overcome the aforementioned problems of the prior art, it would be an advancement in the art to provide an improved structure that can significantly improve efficacy.
Therefore, the inventor has provided the present invention of practicability after deliberate design and evaluation based on years of experience in the production, development and design of related products.
The present structure of two front columns and two rotary supports reduces the number of components and reduces the volume and fabrication costs, having improved economic efficiency and applicability.
With the improved structure, the screwing portion for adjustment of the cutter shaft will be reduced, resulting in little error and improved adjustment accuracy.
Although the invention has been explained in relation to its preferred embodiment, it is to be understood that many other possible modifications and variations can be made without departing from the spirit and scope of the invention as hereinafter claimed.
The features and the advantages of the present invention will be more readily understood upon a thoughtful deliberation of the following detailed description of a preferred embodiment of the present invention with reference to the accompanying drawings.
The automatic wood planer A comprises a main body 10, including a supporting portion 11 and feed table 12. The feed table 12 is provided with an input end 121 and an output end 122.
There are two front columns 20, arranged separately at both sides of input end 121 of the feed table 12 of the main body 10. The bottom of two front columns 20 is screwed with the feed table 12 for a swinging state, and the top of two front columns 20 is connected via a cross bracket 21.
A lifting seat 30 transversely bridges between two front columns 20 in a sliding state.
A brake unit 40 controls the sliding state of the lifting seat 30.
Two rotary supports 50 are obliquely assembled between the lifting seat 30 and the output end 122 of the feed table 12. The rotary support 50 is available with pin joint end 51, which could be screwed at both sides of the output end 122 of the feed table 12, or screwed on the protruding framework of the feed table 12. The other end of the rotary support 50 is a swinging end 52 connected at both sides of the lifting seat 30. The rotary support 50 is also of a prefabricated structure.
A cutter shaft 60 is assembled at a central section between pin joint end 51 and swinging end 52 of two rotary supports 50, so that the bottom of the cutter shaft 60 is placed opposite to the feed table 12.
A brake unit 70 of the cutter shaft 60 is used to drive the cutter shaft 60 for rotation.
A feed unit 80 includes at least a front roller 81 and a rear roller 82, which are separately assembled at the bottom of the rotary support 50. The rollers 81, 82 are transversely positioned at intervals with the cutter shaft 60.
The brake unit 40 comprises a screw 41 and a rotary table 42 fixed onto top of the screw 41. Then, the cross bracket 21 at the tops of two front columns 20 is provided with a screw hole 22 (shown in
The cutter shaft's brake unit 70 comprises a motor 71, drive unit 72 (belt and belt wheel, or chain and chain wheel) and a gearbox 73. The motor 71 is assembled at the top of two rotary supports 50 adjacent to the pin joint end 51. The drive unit 72 is placed laterally onto the rotary support 50, and then connected with the motor 71, cutter shaft 60 and front and rear rollers 81, 82, so the motor 71 simultaneously drives the cutter shaft 60 and front/rear rollers 81, 82. The feedstock could be shifted with forward drive of the front and rear rollers 81, 82. Moreover, said feed unit 80 comprises a conveyor belt 83, which is assembled onto the feed table 12 for recycling operations. The conveyor belt 83 could also be driven by the cutter shaft's brake unit 70. Additionally, the feed unit 80 drives the feedstock forward via the conveyor belt 83. In such a case, the front and rear rollers 81, 82 just press the feedstock without being driven by the cutter shaft's brake unit 70. (Note: this view shows that the front and rear rollers 81, 82 and conveyor belt 83 are driven by the cutter shaft's brake unit 70 simultaneously).
A swinging rack 91 and traction frame 92 are arranged between the swinging end 52 of two rotary supports 50 and the feed table 12. The swinging rack 91 is provided with front and rear extensions 911, 912, which are available with stoppers 913, 914. Both ends of the traction frame 92 are separately connected to the front extension 911 of the swinging rack 91 and the feed table 12, so that the front and rear rollers 81, 82 are separately adapted with the rotary support 50 and swinging rack 91 via front and rear cantilever 811, 821. The front and rear cantilevers 811, 821 are separately supported on the stopper 913, 914 of the front and rear extension 911, 912 of the swinging rack 91. Furthermore, an elastic member 93 (a spring) is arranged between the front and rear extensions 911, 912 and front and rear cantilevers 811, 821.
A plurality of reinforced rods 53 is arranged between two rotary supports 50. Referring to
Based upon above-specified structures, the present invention operates as follows:
Referring to
On the other hand, the traction frame 92 and swinging rack 91 are arranged to make the front and rear rollers 81, 82 press horizontally against the feedstock during oblique swinging of two rotary supports 50. Referring to
Referring to
Number | Date | Country | Kind |
---|---|---|---|
097204027 | Mar 2008 | TW | national |