Liquid purification or separation – Structural installation – Closed circulating system
Reexamination Certificate
2000-04-05
2002-09-17
Lithgow, Thomas M. (Department: 1724)
Liquid purification or separation
Structural installation
Closed circulating system
C210S172300, C210S461000, C210S489000, C210S416500, C156S073100, C156S073300, C156S073400, C156S580100, C156S580200, C264S232000, C264S234000, C264S413000, C264SDIG004
Reexamination Certificate
active
06451205
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a method of manufacturing a filter, the apparatus used in the method and the filter produced by the method. More particularly, the invention relates to a method of making a filter in which multiple layers of filtration material are sealed together at the edges of the filter and marginal pieces of the filtration material are simultaneously trimmed off at the edges.
Many filters are made with multiple layers of filtration material. Some of these are of an envelope type, where fluid flows into or out of the envelope through all sides of the envelope. Others are unidirectional, where the layers form a series of filters through which the fluid flows one after the other.
Most filters are constructed by forming the filtration material in large quantities in relatively flat sheets. Filters are then constructed by dividing the large sheets of filtration material into individual units, such as by cutting or stamping. In the case of multilayer filters, multiple individual units may be stacked together in layers to form a series of filters. Often the edges of the filter units will be sealed together to prevent fluid from bypassing one of the filters in the series. In the case of a filter made from an envelope, one piece of filtration material may be folded over in half (or folded in some other manner) and the non-folded sides sealed together around the periphery of the filter. In either situation, the size of the individual filter units is usually slightly larger than the size of the desired final filter component. This makes it easier to stack layers of filtration material together or fold an individual filter unit over without worrying about exactness. Marginal edges of the filtration material are then trimmed off, usually after a seal has been made at the periphery of the filter.
A typical sealing mechanism for many filtration materials is ultrasonic welding. In this process layers of filtration material are clamped between a welding horn and an anvil, often referred to as a weld nest. Ultrasonic energy is transmitted to the welding horn. Friction between the layers of filtration material induced by the movement caused by the welding horn relative to the anvil causes the filtration material to heat up and fuse together.
The dimension of the welding horn has some practical limitations. If the welding horn is too narrow, the horn will not have very long endurance, and will need to be replaced frequently. If the interface between the horn and the anvil is not completely covered by filtration material, direct contact between the horn and the anvil will result, also causing damage to the horn.
As a result, most filters made by ultrasonic welding have a weld area of a quarter of an inch or wider. Especially for small filters, this means that a large percentage of the filtration material is fused together. The fused material is unusable for filtration.
After the welding step, the marginal areas of the filter are usually trimmed off, either to make the filter more aesthetically pleasing or because of space limitations when the filter is placed inside of a cavity. Typically, the trimming step is performed using a stamping operation and a steel ruled die. This involves a separate manufacturing step and, tool, adding to the manufacturing cost of the filter. Minimizing the amount of filtration material involved in the weld would be an advantage, as would simplification of the manufacturing process.
BRIEF SUMMARY OF THE INVENTION
A process of manufacturing filters has been invented which overcomes, both of the aforementioned problems. First, the method allows for a narrower ultrasonic welding seal to be made, reducing the amount of filtration material made unusable during the welding process. Second, the welding and trimming steps can be performed in a single manufacturing step.
In a first aspect, the invention is a method of manufacturing a filter comprising the steps of assembling multiple layers of filtration material on top of one another to form an assembly; holding the assembly between an ultrasonic weld horn and a weld nest so that the assembly has a marginal area outside of an edge formed on either the nest or the weld horn; and operating the weld horn so as to cause the marginal area to be cut off from the assembly at said edge and to simultaneously seal together the layers of filtration material of the remaining assembly at said edge.
In a second aspect, the invention is a filter comprising at least two layers of filtration material, each layer having side edges; the side edges of the two layers each having been formed by an ultrasonic weld tool severing a marginal area from a larger piece of filtration material; the side edges being sealed together by the ultrasonic weld tool simultaneously sealing the edges as they are formed by said severing.
In a third aspect, the invention is a fixture for assembling a filter comprising a) an ultrasonic weld horn and b) a weld nest; one of the weld horn and the nest having an edge, the other having a generally flat surface abutting said edge, the edge being sized and shaped so as to cause simultaneous cutting and sealing of multiple layers of filtration material, placed into the weld nest as part of an assembly, when the assembly is held between the weld horn and the nest and ultrasonic welding occurs.
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Brinks Hofer Gilson & Lione
Filtertek Inc.
Lithgow Thomas M.
Shurtz Steven P.
LandOfFree
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