CA1131869A - Reticulated web making process and apparatus - Google Patents
Reticulated web making process and apparatusInfo
- Publication number
- CA1131869A CA1131869A CA349,460A CA349460A CA1131869A CA 1131869 A CA1131869 A CA 1131869A CA 349460 A CA349460 A CA 349460A CA 1131869 A CA1131869 A CA 1131869A
- Authority
- CA
- Canada
- Prior art keywords
- film
- perforated
- pips
- forming
- perforations
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Landscapes
- Blow-Moulding Or Thermoforming Of Plastics Or The Like (AREA)
- Extrusion Moulding Of Plastics Or The Like (AREA)
Abstract
ABSTRACT OF THE DISCLOSURE
The invention is process and apparatus for forming a reticulated web net oriented from a perforated film wherein the perforated film is produced by thermoforming projections or pips on an endless perforated surface and subsequently skiving the pips off flush with the film, said thermoforming, fashion.
The invention is process and apparatus for forming a reticulated web net oriented from a perforated film wherein the perforated film is produced by thermoforming projections or pips on an endless perforated surface and subsequently skiving the pips off flush with the film, said thermoforming, fashion.
Description
~3~
Commonly owned ~.S. Patent No. 4,140,821 issued E'ebruary 20, 1979 in the name of C. Liu, discloses a reticulated web structure and a method for making said structure wherein small holes in a tight pattern are punched in film stock and then the film stock is biaxially oriented into a reticulated web net. Punching, however, has inherent mechanical and economic limitations when applied to high volume thruput of material.
These limitations become critically prohibitive when dealing with complex configurations of small perforations. The in-stant invention provides a novel continuous process and appar-atus or producing a perEorated film and resulting net without punching said film. U.S. Patent No. 3,054,148 to Zimmerli vacuum forms a thermoplastic net and then does selective stre-tching to make decorative sheets~for curtains but does not 15 rupture the sheet. U.S. Patent No. 3,682,760 to Fair~anks discloses a patterned thermoplastic, orientable sheet which is drawn to a selective pattern or design and/or strength, but does not teach perforation of the sheet. U.S. Patent No.
Commonly owned ~.S. Patent No. 4,140,821 issued E'ebruary 20, 1979 in the name of C. Liu, discloses a reticulated web structure and a method for making said structure wherein small holes in a tight pattern are punched in film stock and then the film stock is biaxially oriented into a reticulated web net. Punching, however, has inherent mechanical and economic limitations when applied to high volume thruput of material.
These limitations become critically prohibitive when dealing with complex configurations of small perforations. The in-stant invention provides a novel continuous process and appar-atus or producing a perEorated film and resulting net without punching said film. U.S. Patent No. 3,054,148 to Zimmerli vacuum forms a thermoplastic net and then does selective stre-tching to make decorative sheets~for curtains but does not 15 rupture the sheet. U.S. Patent No. 3,682,760 to Fair~anks discloses a patterned thermoplastic, orientable sheet which is drawn to a selective pattern or design and/or strength, but does not teach perforation of the sheet. U.S. Patent No.
2,286,117 to Sidnell discloses molding a rubber sheet with pips or nubs and then cutting them of~ leaving holes. The method disclosed by Sidnell is not suggestive of continuous ; thermoforming, but rather a batch process utilizing pins to mechanically displace material into recesses in the inner mold and therefore is analogous to manufacturing a net by hole pun-25 ching. U.S. Patent No. 2,032,923 to Eldridge discloses using gas to rupture a rubber sheet through a perforated belt. Eld-ridge fails to disclose the thermoforming and skiving process and apparatus which produce the precisely defined openings necessary to produce the reticulated web net. U.S. Patent No.
3,929,155 issued to H.A. Thompson discloses sheet which is vacuum : ~ "~
~, .
.
--2~
formed over conical pins to produce a sheet with protuber-ences. The apex of the protuberences formed could be removed by abrasion or melting to produce openings. Abrasion leaves an irreg~lar shaped hole and melting reinforce~ the edge of ~he hole with a collar of material detrimental to uniform orientation. The Thompson patent and the other sheet forming references mentioned above do not suggest that their final products are suitable for orientation for production of net-like structures~
The principal objec~ of the instant invention is to pro-vide a process for preparation of film in a continuous and less expensive method than that produced by the use of recip-rocating punch presses. It is an object of the instant in-vention to provide a process which is inherently quiet and is made up of low maintenance hardware having no reciprocating functional parts.
It is also an object of the invention to provide process and apparatus which has inherently higher speed potential than a process utili~ing a punch press.
2Q It is yet another objec~ of the instant invention to provide apparatus suited for non-round hole patternsO
According to the invention a process for forming a reticulated web net comprises: providing a fllm of thermo-plastic polymeric material; heating said film to a tempera-ture suitable for thermoforming; then placing said film in contact with a perforated surface; then subjecting said film to a pressure differential to force portions of the film into the perforations of said perforated surface thus forming pips; then cooling said film to harden the film; then strip-ping the film from the perforated surface; then skiving offthe pips substantially parallel to the surface of said film;
and then biaxially stretching and orienting said film into a reticulated web net.
Further according to the invention, apparatus for forming a reticulated web net comprises: film supply means ;~ providing a thermoplastic polymer~c film in a thermoformable condition; perforated continuous surface means adjacent said film supply means, said film contacting the surface of said perforated continuous surface means; pressure differential means adjacent said perforated continuous surface means to ~orce portions of said film into the perforations o~ said surface thus forming pips; cooling means positioned adjacent said pressure differential means and said perforated contin-UOU9 surface means to harden said film; stripping means adjacent said cooling means to strip the film from sai.d per-forated continuous surface means; skiving means adjacent said stripping means to cut off said pips at the surface of the film thereby creating the perforated film; and orienting means adjacent said skiving means to biaxially orient the film into a reticulated web net.
FIG. 1 is a schematic view of the apparatus of the instant invention.
FIG. 2 is a schematic view of an alternate embodiment of the instant invention.
With continued reference to the drawing, FIG. 1 illus-trates process and apparatus for film perforation by skiving off thermoformed projections or pips. Thermoplastic poly-meric film 10 is supplied to heated s-wrap rolls 12 which raise the temperature of the film to that suitable for ther-moforming. The heated film is then placed in contact with a perforated continuous surface means such as stainless steel belt 14. Perforated stainless steel beLt 14 is driven by drive roll 16. Belt 14 is heated prior to contact with film 10 in belt-heat oven 18. Film 10 is conveyed by belt 14 through a pressure differential means in the form of vacuum box 20. The thermoformable film 10 is drawn into the perfor-ations of the belt 14 thus forming "pips". The film is drawn into but not through the perforations due to the pressure differential. It is within the scope of the invention to provide additional or alternative positive pressure on the other side of film 10 to force portions of the film into the perforations of the belt 14. It is important that the ~hick-ness of the belt 14 be greater than the length of the pipsformed to prevent premature destruction of the pips by say ~he edge of the vacuum box 20 or by other portions of the conveyor mechanism. The thermoformed film 10 is then passed : .
:
under cooling means 22 which hardens the film. The cooled thermoformed film 10 is then stripped at the end of conveyor roll at location 24 and passed to a skiving means such as between mandrel roll 26 and continuous razor knife 28 thus skiving the pips oEf parallel to the surEace of the Eilm to remove a substantial portion of the pips. Vacuum means 30 is juxtapositioned to continuous razor knife 28 to collect skived pips which may be reground and r.eprocessed into film 10. It is most important that the skived pips be recovered and not destroyed due to the large percentage of the material the pips represent. The perforated film thus produced is then passed through an orienting tenter and longitudinal stretcher means 31 which stretches the film into the desired reticulated web net. The finished net is then wound on rolls lS (not shown). Likewise, the film 10 is provided by supply rolls (not shown).
FIG. 2 illustrates an alternate embodiment of the in-stant invention wherein a film 32 ls provided by direct extrusion from film supply means such as extruder head 34O
Film 32 is preferably extruded vertically downwardly onto the surface of thermoformins drum 36. Vertical extrusion elimin-ates the type of distortion of film in its plastic condit.ion that occurs in horizontal extrusion. It is also within the scope of the invention to eliminate distortion by extruding film directly into contact with the surface of thermoforming drum 36. The surface of thermoforming drum 36 consists o a perforated stainless steel belt, for example, .050 inch holes, 133 per square inch, straight pattern, having a thick-ness of 20 gauge (.037 inch). As thermoforming drum 36 re-volves, it places the film in contact with a pressure .~ diferential means in the form of internal vacuum chamber 38.
Again it is within the scope of the invention to provide ex-ternal pressure as well as or in substitutlon for vacuum to thermoform. Film 32 is drawn by the vacuum into the perfora-tions of the belt to produce pipso Thermoforming drum 36 : continues to rotate and places the film in contact with cooling means in the form of chamber 3~ wherein cooling is applied internally to harden the film. External cooling may --5~
also or alternatively be provided. Film 32 then passes over ta~e-of roll 39 where it leaves the surface of thermoforming drum 36 and is conveyed to mandrel roll 40 and complementary skiving blade 42 which slices off the thermoformed pips. The film thus perforated then passes through orienting means 44 which preferably biaxially orients the film into reticulated web net. The skiving blade 42 i5 preferably a single bevel blade which will maintain continuity of cutting over long periods of time.
The materials that the above reticulated web net can be formed from include any thermoplastic film-forming polymer.
Among these are polyethylene, polypropylene homopolymer, ran-dom copolymers of propylene containing up to 10 percent of another olefin, bloclc copolymers of propylene containing up to 25 percent of another olefin, nylon-6, nylon-66, poly-ethylene terephthalate, other 'nigh molecular weight thermo-plastic polyesters, and vinyl polymers such as polyvinyl chloride, polystyrene and poly(methyl methacrylate). Conju-gate or bicomponent plastic sheets in which two or more different polymers are extruded together to form sheets containing layers of separate polymers are also applicable.
~, .
.
--2~
formed over conical pins to produce a sheet with protuber-ences. The apex of the protuberences formed could be removed by abrasion or melting to produce openings. Abrasion leaves an irreg~lar shaped hole and melting reinforce~ the edge of ~he hole with a collar of material detrimental to uniform orientation. The Thompson patent and the other sheet forming references mentioned above do not suggest that their final products are suitable for orientation for production of net-like structures~
The principal objec~ of the instant invention is to pro-vide a process for preparation of film in a continuous and less expensive method than that produced by the use of recip-rocating punch presses. It is an object of the instant in-vention to provide a process which is inherently quiet and is made up of low maintenance hardware having no reciprocating functional parts.
It is also an object of the invention to provide process and apparatus which has inherently higher speed potential than a process utili~ing a punch press.
2Q It is yet another objec~ of the instant invention to provide apparatus suited for non-round hole patternsO
According to the invention a process for forming a reticulated web net comprises: providing a fllm of thermo-plastic polymeric material; heating said film to a tempera-ture suitable for thermoforming; then placing said film in contact with a perforated surface; then subjecting said film to a pressure differential to force portions of the film into the perforations of said perforated surface thus forming pips; then cooling said film to harden the film; then strip-ping the film from the perforated surface; then skiving offthe pips substantially parallel to the surface of said film;
and then biaxially stretching and orienting said film into a reticulated web net.
Further according to the invention, apparatus for forming a reticulated web net comprises: film supply means ;~ providing a thermoplastic polymer~c film in a thermoformable condition; perforated continuous surface means adjacent said film supply means, said film contacting the surface of said perforated continuous surface means; pressure differential means adjacent said perforated continuous surface means to ~orce portions of said film into the perforations o~ said surface thus forming pips; cooling means positioned adjacent said pressure differential means and said perforated contin-UOU9 surface means to harden said film; stripping means adjacent said cooling means to strip the film from sai.d per-forated continuous surface means; skiving means adjacent said stripping means to cut off said pips at the surface of the film thereby creating the perforated film; and orienting means adjacent said skiving means to biaxially orient the film into a reticulated web net.
FIG. 1 is a schematic view of the apparatus of the instant invention.
FIG. 2 is a schematic view of an alternate embodiment of the instant invention.
With continued reference to the drawing, FIG. 1 illus-trates process and apparatus for film perforation by skiving off thermoformed projections or pips. Thermoplastic poly-meric film 10 is supplied to heated s-wrap rolls 12 which raise the temperature of the film to that suitable for ther-moforming. The heated film is then placed in contact with a perforated continuous surface means such as stainless steel belt 14. Perforated stainless steel beLt 14 is driven by drive roll 16. Belt 14 is heated prior to contact with film 10 in belt-heat oven 18. Film 10 is conveyed by belt 14 through a pressure differential means in the form of vacuum box 20. The thermoformable film 10 is drawn into the perfor-ations of the belt 14 thus forming "pips". The film is drawn into but not through the perforations due to the pressure differential. It is within the scope of the invention to provide additional or alternative positive pressure on the other side of film 10 to force portions of the film into the perforations of the belt 14. It is important that the ~hick-ness of the belt 14 be greater than the length of the pipsformed to prevent premature destruction of the pips by say ~he edge of the vacuum box 20 or by other portions of the conveyor mechanism. The thermoformed film 10 is then passed : .
:
under cooling means 22 which hardens the film. The cooled thermoformed film 10 is then stripped at the end of conveyor roll at location 24 and passed to a skiving means such as between mandrel roll 26 and continuous razor knife 28 thus skiving the pips oEf parallel to the surEace of the Eilm to remove a substantial portion of the pips. Vacuum means 30 is juxtapositioned to continuous razor knife 28 to collect skived pips which may be reground and r.eprocessed into film 10. It is most important that the skived pips be recovered and not destroyed due to the large percentage of the material the pips represent. The perforated film thus produced is then passed through an orienting tenter and longitudinal stretcher means 31 which stretches the film into the desired reticulated web net. The finished net is then wound on rolls lS (not shown). Likewise, the film 10 is provided by supply rolls (not shown).
FIG. 2 illustrates an alternate embodiment of the in-stant invention wherein a film 32 ls provided by direct extrusion from film supply means such as extruder head 34O
Film 32 is preferably extruded vertically downwardly onto the surface of thermoformins drum 36. Vertical extrusion elimin-ates the type of distortion of film in its plastic condit.ion that occurs in horizontal extrusion. It is also within the scope of the invention to eliminate distortion by extruding film directly into contact with the surface of thermoforming drum 36. The surface of thermoforming drum 36 consists o a perforated stainless steel belt, for example, .050 inch holes, 133 per square inch, straight pattern, having a thick-ness of 20 gauge (.037 inch). As thermoforming drum 36 re-volves, it places the film in contact with a pressure .~ diferential means in the form of internal vacuum chamber 38.
Again it is within the scope of the invention to provide ex-ternal pressure as well as or in substitutlon for vacuum to thermoform. Film 32 is drawn by the vacuum into the perfora-tions of the belt to produce pipso Thermoforming drum 36 : continues to rotate and places the film in contact with cooling means in the form of chamber 3~ wherein cooling is applied internally to harden the film. External cooling may --5~
also or alternatively be provided. Film 32 then passes over ta~e-of roll 39 where it leaves the surface of thermoforming drum 36 and is conveyed to mandrel roll 40 and complementary skiving blade 42 which slices off the thermoformed pips. The film thus perforated then passes through orienting means 44 which preferably biaxially orients the film into reticulated web net. The skiving blade 42 i5 preferably a single bevel blade which will maintain continuity of cutting over long periods of time.
The materials that the above reticulated web net can be formed from include any thermoplastic film-forming polymer.
Among these are polyethylene, polypropylene homopolymer, ran-dom copolymers of propylene containing up to 10 percent of another olefin, bloclc copolymers of propylene containing up to 25 percent of another olefin, nylon-6, nylon-66, poly-ethylene terephthalate, other 'nigh molecular weight thermo-plastic polyesters, and vinyl polymers such as polyvinyl chloride, polystyrene and poly(methyl methacrylate). Conju-gate or bicomponent plastic sheets in which two or more different polymers are extruded together to form sheets containing layers of separate polymers are also applicable.
Claims (7)
1. A process for forming a reticulated web net comprising:
providing a film of thermoplastic polymeric material;
heating said film to a temperature suitable for thermo-forming;
then placing said film in contact with a perforated surface;
then subjecting said film to a pressure differential to force portions of the film into the perforations of said per-forated surface thus forming pips;
then cooling said film to harden the film;
then stripping the film from the perforated surface;
then skiving off the pips substantially parallel to the surface of said film; and then biaxially stretching and orienting said film into a reticulated web net.
providing a film of thermoplastic polymeric material;
heating said film to a temperature suitable for thermo-forming;
then placing said film in contact with a perforated surface;
then subjecting said film to a pressure differential to force portions of the film into the perforations of said per-forated surface thus forming pips;
then cooling said film to harden the film;
then stripping the film from the perforated surface;
then skiving off the pips substantially parallel to the surface of said film; and then biaxially stretching and orienting said film into a reticulated web net.
2. A process as in claim 1 wherein the thermoformable film is provided in thermoformable condition by extruding said film directly onto the perforated surface.
3. A process as in claim 2 wherein said thermoplastic film is extruded vertically downwardly into contact with said perforated surface thereby preventing distortion of said thermoplastic film.
4. Apparatus for forming a reticulated web net comprising:
film supply means providing a thermoplastic polymeric film in a thermoformable condition;
perforated continuous surface means adjacent said film supply means, said film contacting the surface of said per-forated continuous surface means;
pressure differential means adjacent said perforated continuous surface means to force portions of said film into the perforations of said surface thus forming pips;
cooling means positioned adjacent said pressure differ-ential means and said perforated continuous surface means to harden said film;
stripping means adjacent said cooling means to strip the film from said perforated continuous surface means;
skiving means adjacent said stripping means to cut off said pips at the surface of the film thereby creating the perforated film; and orienting means adjacent said skiving means to biaxially orient the film into a reticulated web net.
film supply means providing a thermoplastic polymeric film in a thermoformable condition;
perforated continuous surface means adjacent said film supply means, said film contacting the surface of said per-forated continuous surface means;
pressure differential means adjacent said perforated continuous surface means to force portions of said film into the perforations of said surface thus forming pips;
cooling means positioned adjacent said pressure differ-ential means and said perforated continuous surface means to harden said film;
stripping means adjacent said cooling means to strip the film from said perforated continuous surface means;
skiving means adjacent said stripping means to cut off said pips at the surface of the film thereby creating the perforated film; and orienting means adjacent said skiving means to biaxially orient the film into a reticulated web net.
5. A device as in claim 4 wherein said perforated con-tinuous surface means comprises a conveyor belt having a certain thickness wherein the thickness of the belt is greater than the length of pips formed in said perforations to prevent premature destruction of the pips.
6. A device as in claim 4 wherein said perforated con-tinuous surface means comprises a cylindrical drum mounted for rotation about a horizontal axis and said film supply means is an extruder which extrudes said film vertically downwardly onto the surface of said drum.
7. A device as in claim 6 wherein the surface of said drum has a certain thickness greater than the length of the pips formed in the perforations of said surface to prevent premature destruction of said pips.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA349,460A CA1131869A (en) | 1980-04-09 | 1980-04-09 | Reticulated web making process and apparatus |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA349,460A CA1131869A (en) | 1980-04-09 | 1980-04-09 | Reticulated web making process and apparatus |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1131869A true CA1131869A (en) | 1982-09-21 |
Family
ID=4116670
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA349,460A Expired CA1131869A (en) | 1980-04-09 | 1980-04-09 | Reticulated web making process and apparatus |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1131869A (en) |
-
1980
- 1980-04-09 CA CA349,460A patent/CA1131869A/en not_active Expired
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| MKEX | Expiry |