| US5653497A | 1997-08-05 | |||
| US5211438A | 1993-05-18 | |||
| US5158324A | 1992-10-27 | |||
| US5044688A | 1991-09-03 | |||
| US5280989A | 1994-01-25 | |||
| US5618073A | 1997-04-08 |
| 1. | A method of protecting vehicle bodies comprising the steps of: cutting one or more sheets of heavy gauge polyprene plastic into patterns correspondingly configured to coextensively overlie an outer surface of one or more exterior body components; applying each of said one or more sheets to a respective exterior body component in a position so as to overlie and be coextensive with said outer surface of said respective component; and permanently bonding said one or more heavy gauge polyprene sheets to said outer surface in said position thereon, providing a high impact barrier for said vehicle bodies. |
| 2. | The method according to claim 1 wherein in said cutting step, sheets of a thickness of 40 millimeters or greater ranging from 40250 millimeters of polyprene are cut into said patterns. |
| 3. | The method according to claim 2 wherein in said cutting steps SUNPRENEw polyprene sheets are cut into said patterns. |
| 4. | The method according to claim 2 further including the steps of cutting a correspondingly configured sheet of polyprene for said outer surface of each body panel of said automobile body into said outer pattern to be fit to the outer surface thereof and each of said sheets is applied to a corresponding body panel outer surface to be coextensive therewith and bonded thereto in said position, whereby a vehicle passenger space within said body panels is enclosed in a protective barrier. |
| 5. | The method according to claim 2 wherein a sheet of clear polyprene is cut into a pattern corresponding to a windshield outer surface and said clear polyprene sheet is permanently bonded to an outer surface of said windshield and bonded thereto. |
| 6. | The method according to claim 5 further including the step of cutting a sheet of clear polyprene into a pattern corresponding to the inner surface of said windshield and wherein said sheet is applied to said inner surface and bonded thereto. |
| 7. | The method according to claim 6 further including the steps of cutting correspondingly configured polyprene sheets to outer surfaces of a rear window glass of said automobile and including the steps of applying said clear sheet to said rear window glass outer surface in a position to be coextensive therewith, and bonding the same thereto in said position. |
| 8. | The method according to claim 6 further including the step of cutting a clear polyprene sheet into a pattern correspondingly configured to an inside surface of said rear window glass, applying said sheet to said rear window glass inner surface in a position to be coextensive therewith, and bonding the same thereto in said position. |
| 9. | The method according to claim 1 wherein in said cutting step, a clear polyprene sheet is cut into a pattern correspondingly configured to an outer surface of a bumper included in said automobile body and further including the steps of applying said clear polyprene sheet to said bumper outer surface in a position to be coextensive therewith and bonding the same thereto in said position. |
| 10. | The method according to claim 1 further including the steps of cutting a sheet of clear polyprene plastic into a pattern having a configuration corresponding to an outer surface of a light lens included in said automobile body and further including the steps of applying said clear sheet to said outer surface of said light lens in a position to be coextensive therewith and bonding the same thereto in said position. |
| 11. | The method according to claim 1 including the further step of cutting one or more sheets into a configuration corresponding to the outer surface of a door panel of said automobile body, but with a portion thereof extending beyond the perimeter of said door panel along a hinged edge and wherein said sheet is applied to said door panel outer surface with said edge projecting beyond a hinging edge of said door panel and bonding the sheet thereto in said position. |
| 12. | The method according to claim 1 wherein in said cutting steps said polyprene sheets are of 200 millimeter or greater thickness. |
| 13. | The method according to claim 1 wherein said polyprene sheets comprises SUNPRENEw F8000. |
| 14. | A high impact barrier for an automobile body comprising: one or more sheets of heavy gauge polyprene plastic cut into patterns correspondingly configured to coextensively overlie an outer surface of one or more exterior body components; each of said one or more sheets applied to a respective exterior body component in a position so as to overlie and be coextensive with said outer surface of said respective component; said one or more heavy gauge polyprene sheets permanently bonded to said outer surface in said coextensive position thereon. |
| 15. | The high impact barrier according to claim 14 wherein said polyprene sheets are of a thickness of 40 millimeters or greater. |
| 16. | The high impact barrier according to claim 15 wherein said polyprene sheets are comprised of SUNPRENE«. |
| 17. | The high impact barrier according to claim 15 further including a correspondingly configured sheet of polyprene for said outer surface of each body panel of said automobile body applied to a corresponding body panel outer surface to be coextensive therewith and bonded thereto in said position so as to enclose a passenger compartment with said high impact barrier. |
| 18. | The high impact barrier according to claim 15 wherein a sheet of clear polyprene in a pattern corresponding to an outer surface of a windshield included in said automobile body and said clear polyprene sheet is applied to an outer surface of said windshield and bonded thereto. |
| 19. | The high impact barrier according to claim 18 further including a sheet of clear polyprene in a position to be coextensive therewith in a pattern corresponding to an inner surface of said windshield, said sheet applied to said inner surface in a coextensive position, and bonded thereto in said position. |
| 20. | The high impact barrier according to claim 19 further including polyprene sheets correspondingly configured to outer surfaces of a rear window glass of said automobile body, said clear sheet to be applied to said rear window glass outer surface in a position to be coextensive therewith, and bonded thereto in said position. |
| 21. | The high impact barrier according to claim 19 further including a clear polyprene sheet in a pattern correspondingly configured to an inside surface of said rear window glass, said sheet applied to said rear window glass inner surface in a position to be coextensive therewith, and bonded thereto in said position. |
| 22. | The high impact barrier according to claim 14 further including a clear polyprene sheet, a pattern correspondingly configured to an outer surface of a bumper included in said automobile body and applied to said bumper outer surface in a position to be coextensive therewith and bonded thereto in said position. |
| 23. | The high impact barrier according to claim 14 further including a sheet of clear polyprene plastic in a pattern corresponding to an outer surface of a light lens included in said automobile body, said clear sheet applied to said outer surface of said light lens outer surface in a position to be coextensive therewith and bonded thereto in said position. |
| 24. | The high impact barrier according to claim 14 further including one or more sheets in a configuration corresponding to outer surface of a door panel of said automobile body, but with a portion thereof extending beyond a perimeter of said door panel along a hinged edge and wherein said sheet is applied to said door panel outer surface in a position with said edge projecting beyond a hinging edge of said door panel and bonded thereto in said position. |
| 25. | The high impact barrier according to claim 14 wherein said one or more polyprene sheets are on the order of 200 millimeters or greater thickness. |
| 26. | The high impact barrier according to claim 14 wherein said polyprene sheets are comprised of SUNPRENEw F8000. |
The present day emphasis on fuel economy has resulted in a very substantial reduction in the thickness of the sheet metal used in the construction of car bodies, and the full box frame is no longer used in passenger cars.
This in turn has dramatically increased the danger to occupants when an automobile is involved in a moderately severe collision in that the metal is much more likely to be torn to produce jagged-edged exposed metal fragments and overall gross distortion of the car body.
The reduced strength of the body creates greater fragmentation of other frangible components such as the windshield and rear glass. Traditional safety glass and tempered glass construction no longer provides sufficient protection from fractured glazing panels.
The reduced integrity of the body also allows crushing and penetration of the passenger compartment to a greater degree than when heavier body panels and frame construction were the norm in auto design and construction.
There have been various efforts heretofore proposed to stiffen body panels and to protect the exterior surfaces from minor damage.
U. S. Patent No. 3,836,192 issued on September 17, 1974 for a "Body for Vehicles and Especially Passenger Motor Vehicles" describes a thick layer of a resinous plastic to the exterior body section subject to collision damage. The end result is not an overall reinforcement of body integrity. Also, such reinforcement cannot easily be applied as an aftermarket item and does not provide increased strength to the glazing panels and other
components.
U. S. Patent Nos. 4,378,395 issued onMarch 29, 1983 for a "Reinforcing Material" and 4,399,174 issued on August 16, 1983 for a "Reinforcing Material" describe a stiffening of body panels with resin layers on the inside of a body panel.
While stiffening the panel, the resistance to tearing of the metal is not substantially improved, nor to penetration of the passenger compartment. Also, the exterior surfaces are not protected from minor cosmetic damage.
U. S. Patent No. 4,635,996 issued on January 13, 1987 for a "Vehicle Body Cover" describes an aftermarket applied covering sheet which serves to protect the surface finish, but which is not sufficiently strong to reduce appreciably the tearing and penetration of the auto body during a severe collision.
U. S. Patent No. 5,002,326 issued on March 26, 1991 for an "Automobile Windshield Laminated Protector" describes the application of adhesive backed multilayer sheet polycarbonate resin to the outside of a windshield. Again, while reducing the incidence of minor damage to the windshield, fragmentation and the launching of sharp-edged shards of glass during a severe collision is not avoided by this approach.
The object of the present invention is to provide a high impact barrier for the exterior components of an automobile body sufficient to create a substantially improved resistance to tearing and fragmentation and passenger compartment penetration caused by collisions.
It is a further object of the invention to provide such barrier which can be applied as an aftermarket item and which also protects the exterior surface against minor damage.
SUNMARY OF THE INVENTION These and other objects of the present invention, which will be understood upon a reading of the following specification and claims, are achieved by substantially enclosing the passenger compartment of an automobile by installing a high impact barrier structure over each of the body components to create a much strengthened body structure. This barrier structure can be created
by adhesively bonding precut heavy gauge sheets of a particularly tough, rubbery PVC plastic, preferably a polyprene marketed under the tradename "SUNPRENE". This material may be provided in fully weatherable colors, clear, and metallics, and in matte or high gloss surface finishes so as to provide a fully satisfactory appearance.
The barrier sheets are preferably of 200-250 millimeter thickness such as to convert a lightweight sheet steel automobile body into a greatly strengthened structure, resistant to tearing failure of the panels and penetration of the passenger compartment.
The sheets can be configured to overlap seams such as along the hinged side of a door to provide further strength.
Sheets of clear, optical grades of polyprene are adhesively fastened to the inside and outside of both the windshield and rear glass to provide a similar barrier for the vehicle glass preventing penetration by flying objects.
The sheets can be provided in kits for aftermarket application, with individual panels precut into patterns computer generated to be fit to door panels, hoods, fenders, etc.
DESCRIPTION OF THE DRAWINGS Figure 1 is a perspective view of an automobile having the reinforcement according to the invention applied thereto.
Figure 2 is a side elevational fragmentary view of an automobile showing partially peeled back clear reinforcing sheets for both the inside and outside of the windshield.
Figure 3 is a plan view of two reinforcing sheet. precut and joined together for use in an aftermarket kit.
Figure 4 is a view of the section labelled 4-4 in Figure 1.
Figure 5 is a view of both sections labelled 5-5 in Figure 1.
Figure 6 is a fragmentary perspective view of the front of an automobile having clear reinforcing sheets applied to the surface of headlight lens and bumper, shown partially peeled back for clarity.
Figure 7 is a fragmentary side elevational view of an automobile having reinforcing sheets applied to a door panel so as to overlap the clearance gap along the hinged side of the door.
Figures 8A-8F are diagrammatic views illustrating the preferred method of installing the barrier sheets.
DETAILED DESCRIPTION In the following detailed description, certain specific terminology will be employed for the sake of clarity and a particular embodiment described in accordance with the requirements of 35 USC 112, but it is to be understood that the same is not intended to be limiting and should not be so construed inasmuch as the invention is capable of taking many forms and variations within the scope of the appended claims.
According to the concept of the present invention, sheets of a tough, rubber-like plastic material are adhesively bonded to the outer surfaces of the various exterior components of an automobile.
This material is a type of polyprene (EDPM Ethylene Polychoroprene- Diene Modomer Rubber) which is a PVC based high molecular weight resin elastomer which can be extruded into sheet form and resembles rubber, but is a true thermoplastic. SUNPRENEw (F8000) is polyprene marketed by Perma-Chem, Inc., and is preferred for practice of the present invention.
This material is tough and flexible, and indeed is almost indestructible. It has superior heat aging, flexing fatigue strength, abrasion resistance, weatherability, chemical resistance, cold impact resistance, and ozone resistance. It is also lightweight and has a high coefficient of thermal stability, and can be made in colors and surface finishes suitable for exterior auto styling.
Sheets of SUNPRENEw (F8000) of heavy gauge are used, of a thickness preferably on the order of 200-250 millimeters thickness, precut into pattern blanks which are configured so as to be able to be shaped to the outer surface of each component at installation to be coextensive therewith.
At substantial thicknesses of 40 millimeters or greater, the high impact barrier sheets have greater resistance to impact tearing than the sheet steel forming modern body panels.
Precut clear sheets of SUNPRENEw are also bonded to the inside and outside of the windshield and rear window surfaces to eliminate fragmentation in crashes. The outer surfaces of headlights and bumpers may also be covered with clear SUNPRENEw sheets to protect the same from breakage in the case of headlights and marring in the case of bumpers.
The precut sheets can also be configured to overlap the gaps occurring where the hinged side of the door meets the front fender to provide additional strength.
The auto body having the high impact barrier will offer considerably reduced tendency for tearing and fragmentation of the metal panel sections in severe collisions, and also much improved resistance to penetration of the passenger compartment.
Figure 1 illustrates an automobile 10 having exterior components covered so as to form an enclosing barrier for the passenger compartment, according to the concept of the present invention. All metal panels have a heavy gauge sheet 12 of SUNPRENEw adhesively bonded thereto to be permanently attached.
These include roof panel 14, door panel 16, quarter panels 18, front fenders 20, and hood 22.
In addition, clear heavy gauge sheets 24 of SUNPRENEw are bonded to the outer surfaces of the windshield 26 and rear window glass 28, as well as to the inside surfaces as indicated in Figure 2. Such sheets create a barrier protecting the windshield and rear glass from penetration, as from heavy objects dropped from overpasses. This barrier will prevent shattering and penetration even by relatively heavy objects such as cinder blocks, pieces of concrete, etc. The vehicle occupants are thus much more secure from such acts of vandalism.
The SUNPRENEw sheets 12 and 24 are preferably precut into blanks as by computer controlled laser beam devices correspondingly configured to an outer surface of a respective body component exterior.
Each body panel, windshield, etc. for each car model requires a correspondingly designed sheet configuration to enable molding individual sheet pieces to its corresponding body part outer surface.
This could be accomplished by precoating one side of four-by- eight sheets of SUNPRENEw with a suitable adhesive such as
Superbonderw 430, 493, 495, or Speedbonderw 312, 324, or 325 available from the Loctite Company. W cured formulations are preferred for clear sheets 24.
An adhesive curtain of weakly adhering treated paper is laid over the adhesive coated side of the four-by-eight sheets prior to laser cutting of the individual pieces. The body parts are coated with the proper primer/activator and the curtain covering peeled off the sheets 16, 24, which are then pressed onto the body part surface.
This may be done as an aftermarket procedure with kits containing some of the body part reinforcing pieces 30 attached along one side, as shown in Figure 3. This could also provide for repair of damaged body panels by covering holes, small dents, etc.
As indicated in Figure 6, thin gauge (i.e., 40 millimeters) clear sheets 32 of SUNPRENEw can be applied to the bumper 36 and headlights 38 to reduce the incidence of marring and breakage.
Figure 7 shows a barrier sheet 40 bonded to a door panel which is configured to extend over the front hinged edge of the door panel, overlapping the gap which occurs at that point. The superior flexing ability of SUNPRENEw allows the door to be opened, with the gap bridged to provide additional reinforcement.
The barrier structure created by the above-described installation encloses the passenger compartment and greatly strengthens the vehicle body.
As a further development, very heavy gauge sheets in excess of 250 millimeters can be applied to tanker trucks as a structural strengthening of the tank, and to protect against penetration of the tank. This could also be done with other heavy vehicles such as off-road heavy equipment, quarry trucks, etc. so as to provide better protection against damage and injury from impact with boulders, etc.
Figures 8A-8F show the preferred steps of installation of a barrier sheet, as on the windshield. Installation of large panels would likely be done by aftermarket services, such as auto glass shops, etc.
The sheet 42 has weakly adhering backing paper split on one side at 44.
The left side of the sheet 42A is positioned and held against the windshield on the left side, as shown in Figure 8B. The right side 42B is curled up and the backing paper removed (Figure 8C) and then the right side 42B rolled up to remove air bubbles (Figure 8D).
The left side is then curled back, the backing paper removed, and then rolled out to complete the installation.