Patent Grant
6971504
The invention pertains to surface treatments for conveyor belts. More particularly, the invention relates to conveyor belts having advertisements printed on an outer surface for viewing by consumers in retail establishments and methods of fabricating such belts.
Various techniques have been developed for using the surface area of conveyor belts in supermarkets and other retail establishments as advertising space. Making effective use of this space has often been problematic due to the flexible nature of the conveyor belts, the continuous wear associated with objects placed on the belts and the relative complexity of systems designed to deal with these problems.
U.S. Pat. No. 6,082,525 issued to Vonholm et al. is directed to a method for application of removable information and advertising indicia on a conveyor belt in cashier counters in grocery stores, airports, etc. The method includes use of a heat/pressure press to press down parts of the conveyor belt to form recesses in the conveyor belt surface. Foil/sticker advertising media are inserted into the recesses.
U.S. Pat. No. 5,596,828 issued to Smallwood, discloses a an endless belt display device incorporating a transparent panel having all but one edge bonded to the top surface of the belt. The open edge provides a pocket in the transparent panel in which advertising media may be placed. The unbonded edge and the top edge of the transparent panel are in direct contact with one another as the belt is rotated. Means are provided for tightening and loosening the belt to allow replacement of the advertising media. Patent No. WO 00/69759, issued to Payne is directed to a conveyor belt comprising a substrate layer with an information display formed on the uppermost surface thereof. One or more transparent or translucent coating layers of a thermosetting plastic material overlay the substrate layer such that the information is visible through the coating layers.
Patent No. EP 0 478 866 A1 issued to Munkner is directed to precut posters printed with advertisement that are adhered to belt-plates forming a conveyor belt as at an airport luggage conveyor. The posters are formed of polyethylene or similar synthetics on which advertising messages are printed in indelible scratch-free inks and secured in place with pressure sensitive adhesives or similar adhesive emulsions over the belt-plates of a conveyor.
U.S. Pat. No. 5,358,094 issued to Molinaro et al., the present inventor, reference is directed to checkout conveyor belts incorporating changeable display advertising. The changeable advertising media is printed on static cling sheets that are adhered to the conveyor belt by electrostatic attraction or low friction coating applied to the visible surface of the static cling sheets. An adhesive strip is alternatively employed to secure the leading edge of the static cling sheet to the outer surface of the belt.
While other variations exist, the above-described inventions for providing advertising on conveyor belts are typical of those encountered in the prior art. It is an objective of the present invention to provide advertising on conveyor belts that is bright, colorful and resistant to chemical spills and abrasion. It is a further objective to provide such advertising through methods that are economical and can be easily reproduced. It is a still further objective of the invention to provide the above-described features in a conveyor belt that will resist cracking of the advertising images as the belt is flexed and as it expands and contracts due to temperature changes. While some of the objectives of the present invention are disclosed in the prior art, none of the inventions found include all of the requirements identified.
The present invention addresses all of the deficiencies of prior art conveyor belts with advertising and methods of making same and satisfies all of the objectives described above.
A conveyor belt with advertising providing the desired features may be constructed from the following components. At least one belting member, the belting member has a first predetermined length, an upper surface, a lower surface, first and second parallel side edges and first and second ends. At least one advertising image is provided. The advertising image is printed upon the upper surface. Means are provided for removably attaching one of the first ends to one of the second ends.
In a variant of the invention, at least one belting member is provided. The belting member has a first predetermined length, an upper surface, a lower surface, first and second parallel side edges and first and second ends. A white base coating is provided. The white base coating is adhered to the upper surface. At least one advertising image is provided. The advertising image is printed upon the white base coating. Means are provided for removably attaching one of the first ends to one of the second ends.
In another variant, at least one belting member is provided. The belting member has a first predetermined length, an upper surface, a lower surface, first and second parallel side edges and first and second ends. A vinyl size coating is provided. The vinyl size coating is applied to the upper surface. A white base coating is provided. The white base coating is adhered to the upper surface over the vinyl size coating. At least one advertising image is provided. The advertising image is printed upon the white base coating. Means are provided for removably attaching one of the first ends to one of the second ends.
In still another variant, at least one belting member is provided. The belting member has a first predetermined length, an upper surface, a lower surface, first and second parallel side edges and first and second ends. The belting member is formed of either white or light-colored material. A vinyl size coating is provided. The vinyl size coating is applied to the upper surface. At least one advertising image is provided. The advertising image is printed upon the vinyl size coating. Means are provided for removably attaching one of the first ends to one of the second ends.
In a further variant, the belting member is formed of materials having anti-static properties.
In still a further variant, the belting member is formed of polyvinyl chloride material and the upper surface has a matte smooth surface having a hardness ranging from 80 to 90 duro.
In yet a further variant, the predetermined length of the belting member is less than an entire length of the conveyor belt, permitting replacement of a portion of the entire length of the conveyor belt.
In another variant of the invention, a method for making a conveyor belt for use in a retail establishment, includes the following steps: Developing advertising images for printing onto at least one belting member. Preparing a color separation image for each color to be printed on the belting member for the advertising image. Preparing means to print each of the color separation images successively onto the belting member. The separation images are to be printed in registration with one another. Providing at least one belting member. The belting member having a first predetermined length, an upper surface, a lower surface, first and second parallel side edges and first and second ends. Cleaning the belting member to remove any contaminants. Coating the upper surface of the belting member with a vinyl size material. Applying a white base coating to the upper surface over the vinyl size material. Printing each of the color separation images successively onto the belting member in registration with one another. Curing the advertising image on the belting member. Supporting the belting member to prevent either of flexing and contact with the advertising image for a predetermined post cure period. Inspecting the belting members for printing defects. Connecting attaching means to each of the first and second ends.
In still another variant, a method for making a conveyor belt for use in a retail establishment, includes the following steps: Developing advertising images for printing onto at least one belting member. Preparing a color separation image for each color to be printed on the belting member for the advertising image. Preparing means to print each of the color separation images successively onto the belting member. The separation images are to be printed in registration with one another. Providing at least one belting member, the belting member having a first predetermined length, an upper surface, a lower surface, first and second parallel side edges and first and second ends. The belting member is formed of either white or light-colored material. Cleaning the belting member to remove any contaminants. Coating the upper surface of the belting member with a vinyl size material. Printing each of the color separation images successively onto the belting member in registration with one another. Curing the advertising image on the belting member. Supporting the belting member to prevent either of flexing and contact with the advertising image for a predetermined post cure period. Inspecting the belting members for printing defects. Connecting attaching means to each of the first and second ends.
In still a further variant of the invention, the advertising images are prepared in digital format and the color separation images are produced from the digital format.
In yet a further variant, the means to print each of the color separation images successively onto the belting member is a silkscreen process.
In another variant, the means to print each of the color separation images successively onto the belting member is an offset printing process.
In still another variant, the means to print each of the color separation images successively onto the belting member is a flexographic printing process.
In yet another variant, the belting member is formed of materials having anti-static properties.
In yet a further variant, the belting member is formed of polyvinyl chloride material and the upper surface has a matte smooth surface having a hardness ranging from 80 to 90 duro.
In still a further variant of the invention, the belting member is cleaned using a solution that includes agents chosen from the group including: methyl alcohol and toluene.
In another variant, the advertising image to be printed is composed of only spot colors and the inks printed on the belting member are conventional inks.
In yet another variant, the advertising image to be printed is a four-color process image and the inks printed on the belting member are ultraviolet ink.
In still another variant, the inks are cured using an ultraviolet light source, the ultraviolet light source having a power rating from 100 watts to 300 watts.
In a further variant of the invention, the belting member is moved under the ultraviolet light source at a speed ranging from 20 to 40 feet per minute.
In yet a further variant, the post cure period ranges from 48 to 72 hours.
In still a further variant, a method for making a conveyor belt for use in a retail establishment further includes the steps of: Preparing a silkscreen for each color separation image. Registering a first of the silk screens to the belting member. Printing a first color ink on the belting member through the first silkscreen over the white base coating. Removing the first silkscreen. Registering, printing through and removing succeeding silk screens for each additional color ink for each advertising image.
In yet a another variant, a method for making a conveyor belt for use in a retail establishment further includes the steps of: Preparing a silkscreen for each color separation image. Registering a first of the silk screens to the belting member. Printing a first color ink on the belting member through the first silkscreen. Removing the first silkscreen.
Registering, printing through and removing succeeding silk screens for each additional color ink for each advertising image.
In still another variant of the invention, a method for making a conveyor belt for use in a retail establishment wherein the preparation of a silkscreen for each color separation image further includes the steps of: Preparing a film negative for each color separation image. Preparing a frame for each silkscreen. Tensioning and securing each silkscreen to one of the frames. Registering the film negative on the silkscreen. Exposing the silkscreen to a metal halide light source for a period of time ranging from four to seven minutes. Removing the film negative from the silkscreen.
In a further variant, the film negative is capable of yielding an image having a resolution of at least 84 lines per screen and 600 dots per inch.
In still a further variant, the silk screens are tensioned on the frames with a force 14–25 newtons.
In yet a further variant, the silkscreen has a mesh count ranging between 230 and 420 cells per square inch.
In another variant, the ink is comprised of an adhesion component and a colored ink component.
In still another variant, the adhesion component is comprised of an adhesion promoter and a mixing clear agent, the adhesion promoter is 0.05% to 20% of the adhesion component by weight with the mixing clear agent is the corresponding percentage of the adhesion component by weight.
In yet another variant, the ink is comprised of 0.05% to 20% adhesion component by weight with the colored ink component is the corresponding percentage of the ink by weight.
In a further variant, the colored ink component is comprised of: acrylated oligomers 20–55% by weight, n-vinyl-2 pyrrolidone 12–25% by weight, and acrylated monomers 8–20% by weight.
In still a further variant, the adhesion promoter is comprised of: urethane 10–20% by weight, xylen 20–25% by weight and n-vinyl pyrrolidone 10–20% by weight.
In yet a further variant, the mixing clear agent is comprised of: acrylated monomers 20–60% by weight, furanone 5–10% by weight and cyclohexanome 10–20% by weight.
In a another variant of the invention, the vinyl size material is comprised of: methyl isobutyl ketone 10–20% by weight, 1,3,6-trimethylbenzene 5–10% by weight, xylene 1–5% by weight, vinyl resin 6–10% by weight, light aromatic solvent naptha 20–30% by weight, isophorone 5–10% by weight, vinyl chloride-vinyl acetate-maleic acid terpolyme 1–5% by weight, pseudocumene 20–30% by weight, and cumene 1–5% by weight.
In still another variant, the belting member includes a top surface coating formed of polyvinyl chloride (PVC).
In yet another variant of the invention, the belting member includes laterally stiff fabric having polyester warp and weft threads.
In still another variant, the belting member has an approximate cover hardness of 65 duro shore A.
In still a further variant, the upper surface of the belting member has a matt finish.
In yet a further variant, the means for removably attaching one of the first ends to one of the second ends includes a plurality of individual hooks welded to a common bar.
In another variant of the invention, an apparatus for making a conveyor belt with advertising, includes a roll of flexible belting material. The belting material has a white upper surface. A first motor driven geared winding stand is provided. The first winding stand supports the roll of belting material. A roll-fed digital plotter is provided. The plotter operates at a speed compatible with the first winding stand. Printing ink is provided. The printing ink is formulated for use with the plotter and is suitable for permanent printing upon the upper surface of the belting material. A digital image of advertising material is provided. The digital image is stored on either magnetic or optical media.
Means are provided for transmitting the digital image to the plotter. A drying chamber is provided. The drying chamber dries the ink after the belting material passes through the plotter. A second motor driven geared winding stand is provided. The second winding stand operates at a speed compatible with the plotter and is configured and located to receive the belting material from the drying chamber. A coating material is provided. A coating station is provided. The coating station is located adjacent to the second winding stand and applies the coating material to the upper surface of the belting material after printing. An ultraviolet dryer is provided. The ultraviolet dryer dries the coating material.
A third motor driven geared winding stand is provided. The third winding stand operates at a speed compatible with the second winding stand and is configured and located to receive the belting material from the ultraviolet dryer. A cutting station is provided. The cutting station serves to trim the belting material into a series of belting members. The belting members have a first predetermined length, first and second parallel side edges and first and second ends. A finishing station is provided. The finishing station serves to affix means for removably attaching one of the first ends of the belting members to one of the second ends and prepares the belting members for shipment.
In still another variant, the apparatus for making a conveyor belt with advertising further includes a raster image processing station. The raster image processing station provides color management, color density adjustment and the use of International Color Consortium profiles.
In yet another variant, the apparatus for making a conveyor belt with advertising further includes a color calibration tool.
In yet a further variant of the invention the ink is comprised of propylene glycol monomethyl ether acetate 20–30% by weight, 2-butoxyethanol acetate 50–80% by weight, resin mixture 3–4% by weight; and pigment mixture 4–6% by weight.
In another variant, the coating material is comprised of n-methyl pyrrolidinone less than 10% by weight, 1-mathoxy-2-propanol (PM) less than 5% by weight, aromatic hydrocarbon mixture less than 5% by weight, ultraviolet absorber less than 5% by weight and dipropylene glycol monomethyl ether less than 5% by weight.
A method for making a conveyor belt with advertising, includes the following steps: providing a roll of flexible belting material, the belting material has a white upper surface; providing a first motor driven geared winding stand, the first winding stand supports the roll of belting material; providing a roll-fed digital plotter, the plotter operates at a speed compatible with the first winding stand; providing printing ink, the printing ink is formulated for use with the plotter and is suitable for permanent printing upon the upper surface of the belting material; providing a digital image of advertising material; storing the digital image on either magnetic or optical media; unwinding the belting material from the first winding stand; feeding the belting material into the plotter; transmitting the digital image to the plotter; printing the digital image on the upper surface of the belting material; providing a drying chamber; drying the ink after the belting material passes through the plotter; providing a second motor driven geared winding stand, the second winding stand operates at a speed compatible with the plotter and is configured and located to receive the belting material from the drying chamber; winding the belting material onto the second winding stand; providing a coating station, the coating station is located adjacent to the second winding stand; unwinding the belting material from the second winding stand; feeding the belting material from the second winding stand into the coating station; providing coating material; coating the upper surface of the belting material after printing; providing an ultraviolet dryer; drying the coating material using the ultraviolet dryer; providing a third motor driven geared winding stand, the third winding stand operates at a speed compatible with the second winding stand and is configured and located to receive the belting material from the ultraviolet dryer; winding the belting material onto the third winding stand; providing a cutting station; unwinding the belting material from the third winding stand; feeding the belting material into the cutting station; trimming the belting material into a series of belting members; the belting members have a first predetermined length, first and second parallel side edges and first and second ends; and providing a finishing station; moving the belting members into the finishing station; and affixing means for removably attaching one of the first ends of the belting members to one of the second ends and preparing the belting members for shipment.
An appreciation of the other aims and objectives of the present invention and an understanding of it may be achieved by referring to the accompanying drawings and the detailed description of a preferred embodiment.
a is a plan view of the means of
In a variant of the invention, as illustrated in
In another variant of the invention, at least one belting member 14 is provided. As illustrated in
In still another variant of the invention, as illustrated in
In a further variant, the belting member 14, 62 is formed of materials having anti-static properties.
In still a further variant, the belting member 14, 62 is formed of polyvinyl chloride material and the upper surface 22, 70 has a matte smooth surface having a hardness ranging from 80 to 90 duro.
In yet a further variant, as illustrated in
In another variant of the invention, as illustrated in FIGS. 7 and 9–11, a method for making a conveyor belt 10 for use in a retail establishment, includes the following steps: Developing advertising images 54 for printing onto at least one belting member 14. Preparing a color separation image 106 for each color to be printed on the belting member 14 for the advertising image 54. Preparing means 114 to print each of the color separation images 106 successively onto the belting member 14. The separation images 106 are to be printed in registration with one another. Providing at least one belting member 14. The belting member 14 has a first predetermined length 18, an upper surface 22, a lower surface 26, first 30 and second 34 parallel side edges and first 38 and second 42 ends. Cleaning the belting member 14 to remove any contaminants. Coating the upper surface 22 of the belting member 14 with a vinyl size material 46. Applying a white base coating 50 to the upper surface 22 over the vinyl size material 46. Printing each of the color separation images 106 successively onto the belting member 14 in registration with one another. Curing the advertising image 54 on the belting member 14. Supporting the belting member 14 to prevent either flexing or contact with the advertising image 54 for a predetermined post cure period. Inspecting the belting member 14 for printing defects. Connecting attaching means 58 to each of the first 38 and second 42 ends.
In still another variant, as illustrated in FIGS. 8 and 9–11, a method for making a conveyor belt 10 for use in a retail establishment, includes the following steps: Developing advertising images 54 for printing onto at least one belting member 62. Preparing a color separation image 106 for each color to be printed on the belting member 62 for the advertising image 54. Preparing means 114 to print each of the color separation images 106 successively onto the belting member 62. The separation images 106 are to be printed in registration with one another. Providing at least one belting member 62. The belting member 62 having a first predetermined length, an upper surface 70, a lower surface 74, first 78 and second 82 parallel side edges and first 86 and second 90 ends. The belting member 62 is formed of either white or light-colored material 94. Cleaning the belting member 62 to remove any contaminants. Coating the upper surface 70 of the belting member 62 with a vinyl size material 46. Printing each of the color separation images 106 successively onto the belting member 62 in registration with one another. Curing the advertising image 54 on the belting member 62. Supporting the belting member 62 to prevent either of flexing and contact with the advertising image 54 for a predetermined post cure period. Inspecting the belting members 54 for printing defects. Connecting attaching means 58 to each of the first 86 and second 90 ends.
In still a further variant of the invention, the advertising images 54 are prepared in digital format and the color separation images 106 are produced from the digital format.
In yet a further variant, as illustrated in
In another variant, the means 114 to print each of the color separation images 106 successively onto the belting member 14, 62 is an offset printing process (not shown).
In still another variant, the means 114 to print each of the color separation images 106 successively onto the belting member 14, 62 is a flexographic printing process (not shown).
In yet another variant, the belting member 14, 62 is formed of materials having anti-static properties.
In yet a further variant, the belting member 14, 62 is formed of polyvinyl chloride material and the upper surface 22, 70 has a matte smooth surface having a hardness ranging from 80 to 90 duro.
In still a further variant of the invention, the belting member 14, 62 is cleaned using a solution that includes agents chosen from the group including: methyl alcohol and toluene.
In another variant, the advertising image 54 to be printed is composed of only spot colors and the inks 126 printed on the belting member 14, 62 are conventional inks.
In yet another variant, the advertising image 54 to be printed is a four-color process image and the inks printed on the belting member are ultraviolet ink.
In still another variant, the inks 126 are cured using an ultraviolet light source (not shown), the ultraviolet light source having a power rating from 100 watts to 300 watts.
In a further variant of the invention, the belting member 14, 62 is moved under the ultraviolet light source at a speed ranging from 20 to 40 feet per minute.
In yet a further variant, the post cure period ranges from 48 to 72 hours.
In still a further variant, as illustrated in FIGS. 7 and 9–11, a method for making a conveyor belt 10 for use in a retail establishment further includes the steps of: Preparing a silkscreen 134 for each color separation image 106. Registering a first of the silk screens 134 to the belting member 14. Printing a first color ink 126 on the belting member 14 through the first silkscreen 134 over the white base coating 50. Removing the first silkscreen 134. Registering, printing through and removing succeeding silk screens 134 for each additional color ink 126 for each advertising image 54.
In yet a another variant, as illustrated in FIGS. 8 and 9–11, a method for making a conveyor belt 10 for use in a retail establishment further includes the steps of: Preparing a silkscreen 134 for each color separation image 106. Registering a first of the silk screens 134 to the belting member 62. Printing a first color ink 126 on the belting member 62 through the first silkscreen 134. Removing the first silkscreen 134. Registering, printing through and removing succeeding silk screens 134 for each additional color ink 126 for each advertising image 54.
In still another variant of the invention, as illustrated in
In a further variant, the film negative 138 is capable of yielding an image having a resolution of at least 84 lines per screen and 600 dots per inch.
In still a further variant, the silk screens 134 are tensioned on the frames 142 with a force 14–25 newtons.
In yet a further variant, the silkscreen 134 has a mesh count ranging between 230 and 420 cells per square inch.
In another variant, the ink 126 is comprised of an adhesion component and a colored ink component.
In still another variant, the adhesion component is comprised of an adhesion promoter and a mixing clear agent, the adhesion promoter is 0.05% to 20% of the adhesion component by weight with the mixing clear agent is the corresponding percentage of the adhesion component by weight.
In yet another variant, the ink is comprised of 0.05% to 20% adhesion component by weight with the colored ink component is the corresponding percentage of the ink by weight.
In a further variant, the colored ink component is comprised of: acrylated oligomers 20–55% by weight, n-vinyl-2 pyrrolidone 12–25% by weight, and acrylated monomers 8–20% by weight.
In still a further variant, the adhesion promoter is comprised of: urethane 10–20% by weight, xylen 20–25% by weight and n-vinyl pyrrolidone 10–20% by weight.
In yet a further variant, the mixing clear agent is comprised of acrylated monomers 20–60% by weight, furanone 5–10% by weight and cyclohexanome 10–20% by weight.
In a final variant of the invention, the vinyl size material is comprised of: methyl isobutyl ketone 10–20% by weight, 1,3,6-trimethylbenzene 5–10% by weight, xylene 1–5% by weight, vinyl resin 6–10% by weight, light aromatic solvent naptha 20–30% by weight, isophorone 5–10% by weight, vinyl chloride-vinyl acetate-maleic acid terpolyme 1–5% by weight, pseudocumene 20–30% by weight, and cumene 1–5% by weight.
In still another variant, as illustrated in
In yet another variant of the invention, as illustrated in
In still another variant, the belting member 16 has an approximate cover hardness of 65 duro shore A.
In still a further variant, as also illustrated in
In yet a further variant, as illustrated in
In another variant of the invention, as illustrated in
Means 202 are provided for transmitting the digital image 198 to the plotter 190. A drying chamber 206 is provided. The drying chamber 206 dries the ink 194 after the belting material 178 passes through the plotter 190. A second motor driven geared winding stand 210 is provided. The second winding stand 210 operates at a speed compatible with the plotter 190 and is configured and located to receive the belting material 178 from the drying chamber 206. A coating material 214 is provided. A coating station 218 is provided. The coating station 218 is located adjacent to the second winding stand 210 and applies the coating material 214 to the upper surface 182 of the belting material 178 after printing. An ultraviolet dryer 222 is provided. The ultraviolet dryer 222 dries the coating material 214.
A third motor driven geared winding stand 226 is provided. The third winding stand 226 operates at a speed compatible with the second winding stand 210 and is configured and located to receive the belting material 178 from the ultraviolet dryer 222. A cutting station 230 is provided. The cutting station 230 serves to trim the belting material 178 into a series of belting members 16. The belting members 16 have a first predetermined length, first 32 and second 36 parallel side edges and first 40 and second ends. A finishing station 234 is provided. The finishing station 234 serves to affix means 58 for removably attaching one of the first ends 40 of the belting members 16 to one of the second ends and prepares the belting members 16 for shipment.
In still another variant, as illustrated in
In yet another variant, as also illustrated in
In yet a further variant of the invention the ink 194 is comprised of propylene glycol monomethyl ether acetate 20–30% by weight, 2-butoxyethanol acetate 50–80% by weight, resin mixture 3–4% by weight; and pigment mixture 4–6% by weight.
In another variant, the coating material 214 is comprised of n-methyl pyrrolidinone less than 10% by weight, 1-mathoxy-2-propanol (PM) less than 5% by weight, aromatic hydrocarbon mixture less than 5% by weight, ultraviolet absorber less than 5% by weight and dipropylene glycol monomethyl ether less than 5% by weight.
A method for making a conveyor belt with advertising 10, as illustrated in FIGS. 12 and 14–20, includes the following steps: providing a roll of flexible belting material 178, the belting material 178 has a white upper surface 182; providing a first motor driven geared winding stand 186, the first winding stand 186 supports the roll of belting material 178; providing a roll-fed digital plotter 190, the plotter 190 operates at a speed compatible with the first winding stand 186; providing printing ink 194, the printing ink 194 is formulated for use with the plotter 190 and is suitable for permanent printing upon the upper surface 182 of the belting material 178; providing a digital image of advertising material 198; storing the digital image 198 on either magnetic or optical media; unwinding the belting material 178 from the first winding stand 186; feeding the belting material 178 into the plotter 190; transmitting the digital image 198 to the plotter 190; printing the digital image 198 on the upper surface 182 of the belting material 178; providing a drying chamber 206; drying the ink 198 after the belting material 178 passes through the plotter 190; providing a second motor driven geared winding stand 210, the second winding stand 190 operates at a speed compatible with the plotter 190 and is configured and located to receive the belting material 178 from the drying chamber 206; winding the belting material 178 onto the second winding stand 190; providing coating material 214; providing a coating station 218, the coating station 218 is located adjacent to the second winding stand 210; unwinding the belting material 178 from the second winding stand 210; feeding the belting material 178 from the second winding stand 210 into the coating station 218; coating the upper surface 182 of the belting material 178 after printing; providing an ultraviolet dryer 222; drying the coating material 214 using the ultraviolet dryer 222; providing a third motor driven geared winding stand 226, the third winding stand 226 operates at a speed compatible with the second winding stand 210 and is configured and located to receive the belting material 178 from the ultraviolet dryer 222; winding the belting material 178 onto the third winding stand 226; providing a cutting station 230; unwinding the belting material 178 from the third winding stand 226; feeding the belting material 178 into the cutting station 230; trimming the belting material 178 into a series of belting members 16; the belting members 16 have a first predetermined length, first 32 and second 36 parallel side edges and first 40 and second ends; and providing a finishing station 234; moving the belting members 16 into the finishing station 234; and affixing means 58 for removably attaching one of the first ends 40 of the belting members 16 to one of the second ends and preparing the belting members 16 for shipment.
The conveyor belts with advertising and method of making same 10 have been described with reference to particular embodiments. Other modifications and enhancements can be made without departing from the spirit and scope of the claims that follow.
The instant application is a continuation-in-part of applicant's prior application filed Feb. 28, 2002 and having Ser. No. 10/864,521, now U.S. Pat. No. 6,648,127 the disclosure of which is specifically incorporated by reference herein.
| Number | Name | Date | Kind |
|---|---|---|---|
| 4109543 | Foti | Aug 1978 | A |
| 4199255 | Wilson et al. | Apr 1980 | A |
| 4201002 | Barton | May 1980 | A |
| 4708558 | Musil | Nov 1987 | A |
| 4979591 | Habegger et al. | Dec 1990 | A |
| 5244080 | Bierbaum | Sep 1993 | A |
| 5280831 | Conklin, Jr. | Jan 1994 | A |
| 5335791 | Eason | Aug 1994 | A |
| 5358094 | Molinaro et al. | Oct 1994 | A |
| 5427227 | Crandall et al. | Jun 1995 | A |
| 5596828 | Smallwood | Jan 1997 | A |
| 5620061 | Fraser | Apr 1997 | A |
| 6082525 | Vonholm et al. | Jul 2000 | A |
| 6103349 | Matsumoto | Aug 2000 | A |
| 6186314 | Conklin, Jr. | Feb 2001 | B1 |
| 6276515 | Wayer | Aug 2001 | B1 |
| 6284341 | Robbins et al. | Sep 2001 | B1 |
| Number | Date | Country | |
|---|---|---|---|
| 20030159908 A1 | Aug 2003 | US |
| Number | Date | Country | |
|---|---|---|---|
| Parent | 10086659 | Feb 2002 | US |
| Child | 10377556 | US |
