Synthetic foam surface contouring machine

Cutting – Other than completely through work thickness or through work... – Splitting

Reexamination Certificate

Rate now

  [ 0.00 ] – not rated yet Voters 0   Comments 0

Details

C083S019000, C083S176000, C264S163000, C425S304000

Reexamination Certificate

active

06477931

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention pertains to machinery used in the cutting and shaping of synthetic foam and more particularly is directed to foam cutting machines particularly adapted for the efficient surface contouring of resilient synthetic foam materials, including a cutting machine convertible between such surface contouring and conventional profiling applications.
2. State of the Prior Art
The profiling of compressible synthetic foam is a well known process in which a sheet of resilient foam material is compressed between two profiling rollers and driven against a cutting blade in a compressed condition. The profiling rollers typically have teeth which mesh together in the gap or nip defined between the rollers. The foam compressed between the meshing teeth is sliced along a midpoint in its thickness into two sheets of equal thickness. When the two resulting sheets return to an uncompressed state, the two foam surfaces created by slicing the original sheet expand to define similar surfaces with alternating peaks and depressions which are geometrically complementary to each other.
Profiling machines designed for this purpose are commercially available from several manufacturers. The basic design of all such profilers is similar. Profilers are characterized in that the two rollers are of equal diameter and both rollers have a surface pattern or geometry designed to selectively compress the foam material in accordance with a desired surface geometry of the complementary profiled surfaces created by slicing the thickness of the foam sheet. Another characteristic of such profilers is that the two rollers must be driven in precise step with each other. A mismatch in speed between the rollers results in geometric distortion of the profiled surfaces or actual tearing of the foam. Even a very small difference in relative speed of the rollers causes sufficient distortion to make the resulting foam product commercially worthless. To avoid this problem, conventional profiling machines employ a gear arrangement by which both rollers are synchronously driven by a single drive motor.
U.S. Pat. NO. 5,534,208 discloses a method for shaping resilient foam materials which differs from conventional profiling in that foam material is shaped or contoured to a desired surface geometry by selectively compressing portions of foam material below a cutting blade and cutting away uncompressed portions of the foam. This process differs from profiling in that foam is selectively removed from the existing surface of the original foam blank, and typically the thickness of the desired foam article is substantially the thickness of the original foam sheet. The surface contouring process further differs from conventional profiling in that three dimensional foam surfaces of arbitrary geometry can be produced with a high degree of fidelity because the cutting edge is positioned very near the surface of a pattern or die surface, so that little or no foam thickness is interposed between the pattern surface and the cutting edge. On the other hand, in conventional profiling a considerable thickness of foam is compressed between the profiler rollers and the cutting edge, resulting in a characteristic loss of fidelity of the resulting profiled surface relative to the roller geometry. Sharp edges on the profiler rollers are reproduced as smooth curves on the profiled surface. By contrast, the foam surface contouring process disclosed in the U.S. Pat. No. 5,534,208 patent can closely reproduce a great variety of sharp edged surface geometries not possible by previously known profiling technology. These and other advantages of the proprietary surface contouring process are described in the specification of that patent.
The foam surface contouring process as described in the U.S. Pat. No. 5,534,208 was initially practiced on a conventional, commercially obtained profiling machine adapted for the novel process by substituting a pattern roller and a smooth surfaced backup roller for the conventional profiling rollers. The pattern and backup rollers could be driven by the original unmodified motor drive, so that both rollers were driven at equal speed by the single motor of the original machine. This arrangement was found effective for relatively modest roller speeds and relatively shallow pattern geometries.
For conventional foam profiling the blade is typically spaced significantly in a downstream direction from the point of minimum separation of the rollers, and is also equidistant between the rollers since the foam sheet is to be sliced midway in its thickness. A typical setup is to space the profiling rollers about one inch apart and the cutting blade midway in the gap one half inch from each roller. Furthermore, the spacing of the blade downstream of the point of minimum separation of the rollers is normally not critical within a relatively substantial range of positions.
As explained in the aforementioned U.S. Pat. No. 5,534,208, surface contouring-of the foam material requires that the cutting blade be brought into a tangential position with the pattern roller. For typical surface contouring the cutting edge of the blade is positioned so that little or no foam is removed from the foam blank sheet other than the foam which is pressed into the recesses and depressions defined in the surface of the pattern roller. The optimal location of this tangent point on the pattern roller corresponds to the point of minimum separation between the two rollers and maximum compression of the foam. This requires the blade to be moved forward, i.e. towards the rollers and into actual contact or very near contact with the surface of the pattern roller. The commercial profile cutters permit repositioning of the blade towards and away from the rollers, and also permit the rollers to be individually indexed up or down within the machine frame relative to the blade. Consequently, the cutting edge can be brought into tangential relationship with a pattern roller in the original profile cutter by a combination of roller and blade adjustments.
The surface contouring process of the '208 patent lends itself to the efficient production of foam articles of many different types. Some articles are cut in one revolution of the pattern roller, and larger articles require a larger pattern circumference. Larger pattern rollers bring out limitations inherent in the commercial machines originally intended for profiling foam. Firstly, conventional profile cutting machines are designed to turn both rollers at the same speed. Consequently, a change in diameter of the pattern roller requires a similar change in the diameter of the compression roller if the original drive mechanism of the profile cutter is used for surface contouring. Also, larger patterns call for roller dimensions greater than those typically used in conventional profiling, until it is no longer possible to bring the cutting blade into optimum tangential position for surface contouring. This happens because of two characteristics common to all known commercially available profile cutting machines. The first is that the cutting blade has a very limited range of adjustment towards and away from the rollers in the cutting plane of the blade, typically about one half inch. The second is that raising and lowering of each roller is done along a corresponding roller indexing guide which is inclined, typically at an angle of 12 to 15 degrees away from the vertical, in a direction away from the cutting blade as the roller is moved away from the cutting plane. This angling of the roller indexing guides is advantageous because as the foam comes under compression between the rollers and the rollers are consequently urged apart, the rollers are not simply forced apart in a direction transverse to the cutting plane, but instead are forced resiliently apart and also slightly away from the cutting blade. The compressive force of the rollers therefore includes a force component which urges the compressed foam towards the edge of the cutting blade and improves t

LandOfFree

Say what you really think

Search LandOfFree.com for the USA inventors and patents. Rate them and share your experience with other people.

Rating

Synthetic foam surface contouring machine does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Synthetic foam surface contouring machine, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Synthetic foam surface contouring machine will most certainly appreciate the feedback.

Rate now

     

Profile ID: LFUS-PAI-O-2976780

  Search
All data on this website is collected from public sources. Our data reflects the most accurate information available at the time of publication.