IL298955B2 - Photo papers and adhesive photo magnets appliction machine - Google Patents

Description

1 PHOTO PAPERS AND SELF-ADHESIVE PHOTO MAGNETS APPLICTION MACHINE 1. ABSTRACT The main goal of the application machine is to apply and stick photo papers on self-adhesive photo magnets (with the same paper sizes) automatically, fast and with minimal misalignment to improve yield. The current known and common procedure is done only manually. The relevant main markets and users of this application machine are photo printer manufacturers and suppliers, wedding photographers, small printing houses, event photographers, photography studios, magnetic business cards etc. 2. FIELD OF THE INVENTION The present invention relates particularly to self-adhesive photo magnets, the present invention relates to photo printer manufacturers and suppliers, wedding, business, events photo magnets, relevant to small printing houses, event photographers, photography studios etc. 3. BACKGROUND OF THE INVENTION The present invention relates in general to the field of self-adhesive magnets. Specifically, the present invention relates to self-adhesive photo magnets with mostly non-transparent protective silicone coated release liner cover sheet layer attached to a self-adhesive coating of self-adhesive magnetic layer. The self-adhesive photo magnets come in a variety of sizes and film thicknesses. The present invention relates specifically to magnetic sheets thickness 0.3mm or more, with square or rectangular shapes. The self-adhesive photo magnets are low cost, and no tooling required to apply them besides if automatic process is required. The present invention comes to solve the automatic process to save time and cost with improved placement accuracy between the photo paper and the self-adhesive magnet. In addition, no heating or cooling are required to activate the adhesive coating, instead just light pressing. Also, no cutting is required. As a result, the process becomes rapid and energy efficient and cost effective. 4. SUMMARY OF THE INVENTION In view of the foregoing, it is another object of the present invention to provide an apparatus designed to make decorative flexible magnets from media of self-adhesive magnetic rolls or strips. It is another object of the invention to demonstrate slitting, trimming, cutting, die cutting, or laser cutting from roll or strip media to rectangular or square shapes. It is another object of the invention to demonstrate applying the printed photos paper media on self-adhesive magnetic roll before cutting into rrectangular or square shapes.

It is another object of the invention to demonstrate deferent tooling and design configurations.

For example, it is another object of the invention to demonstrate side separating knife cleaning wiper. It is another object of the invention to demonstrate applicable different interfaces like photo printers, WIFI, Bluetooth, user interface, product industrial design etc. 2 . DETAIL DESCRIPTIONS OF THE INVENTION .1. All illustrations of the drawings are for the purpose of describing selected versions of the present invention and are not intended to limit the scope of the present invention.

The present invention is to be described in detail and is provided in a manner that establishes a thorough understanding of the present invention. There may be aspects of the present invention that can be apply without the implementation of features as described here. Part of details have not been described in detail to not unnecessarily obscure focus of the invention. .2. Referring to FIG.1 and FIG.2, the present invention is an automatic machine enabling end-users to automatically apply a self-adhesive photo magnet 1 on a photo paper 2 forming photo magnet 13. The relevant media substrates are square or rectangular photo paper 2 and selfadhesive photo magnet 1. .3. Referring to FIG.3 and FIG.4 to utilize the present invention, the end-user first install the present machine to the photo printer via photo paper 2 interface 6 or to external magazine based on the selected configured media substrate size to create a photo magnet 13. Then the end-user load packet of self-adhesive photo magnets 1 in the self-adhesive photo magnets magazine 8 with the magnetic side facing to a pick and place feeder 9. .4. Referring to FIG.3, the present invention machine enabling end-users to interface commercial portable photo printer 15, mostly thermal printers like: HITI-P525L, HITI-M610, HITI-P530D, HITI-750L, HITI-P910L, FUJIFILM-DX100, CITIZEN-CX2, MITSUBISHI-CP-ME1 and similar are suitable to interface with the automatic machine present invention via photo paper interface 6. .5. Referring to FIG.2 and FIG.8 The present invention suitable media are primarily self-adhesive photo magnets 1, 0.3-0.5mm thickness with cover sheet layer 4 at specially sizes: 4” x 4” (10 x 10cm), 4” x 6” (10 x 15cm), 2” x 6” (5 x 15cm), 3.54” x 5.11” (9 x 13cm). For size 4” x 6” the machine speed is 3-5 units/min. Different smaller sizes can be produced by slicing the photo magnets after the machine completed applying the self-adhesive magnetic layer 3 to the photo paper 2 forming photo magnet 13 with a singular composite structure with all the layers bonded together by the self-adhesive coating. .6. Referring to FIG.2 and FIG.5, the embodiment of the present invention comprises a side knife 5 or similar static or rotating tool for separating the cover sheet layer 4 from the self-adhesive magnetic layer 3. .7. Referring to FIG.4 and FIG.5 and FIG.7 one unit of self-adhesive photo magnets 1 is loaded from the bottom of the packet by pick and place feeder 9 made from ferromagnetic material. The pick and place feeder 9 travels towards the photo paper standby magazine 10, in several stages. While the pick and place feeder 9 is traveling, the protective cover sheet 4 is separated from the self-adhesive magnetic layer 3 by the side separating knife 5. At the next stages the protective cover sheet 4 leading edge is lifted by the protective cover sheet lifter 11 and separated from the self-adhesive magnetic layer 3 by the turning separator peeler 12. 3 .8. In the present invention the protective cover sheet lifter 11, moves along the self-adhesive photo magnet 1 front leading edge and forming wider space between the cover sheet 4 and the self-adhesive magnetic layer 3. At the same time the pick and place feeder 9 is in hold position for a short period. .9. Referring to FIG.5 and FIG.6 in the present invention, the pick and place feeder 9 place the selfadhesive magnetic layer 3 below the standby photo paper 2 and wait the photo paper 2 to be pressed on self-adhesive magnetic layer 3. Then the turning separator peeler 12 turn ~90 degrees to press the photo paper 2 against the self-adhesive magnetic layer 3 and to block and release the applied photo magnet 13 from the pick and place feeder while the pick and place feeder 9 travels back to the self-adhesive photo magnets magazine 8 and repeat the applying process sequence from the beginning. .10. To clarify, In the present invention the final stage two things done simultaneously when the turning separator peeler 12 is turning.

One thing is light pressing the photo paper 2 against the self-adhesive magnetic layer 3, and second thing is blocking and releasing the applied photo magnet 13 while the magnetic pick and place feeder 9 travels back to the gravitational magazine 8. Note that the pressing bar 14 is part of the turning separator peeler 12. Mounting the photo paper 2 on the self-adhesive magnetic layer 3 is done with minimal miss alignment thanks to the machine hard stops. .11. In the present invention the sequence applying process repeated automatically as explained previously.

Claims (8)

1. CLAIMS what is claimed is: 1. An application machine for applying photo papers to self-adhesive photo magnets, comprising: a first magazine suitable for self-adhesive photo magnets packet, each having a removable cover sheet layer and self-adhesive magnetic layer; a second magazine suitable for holding photo papers printed in a portable photo printer; a pick and place feeder configured for loading one of the self-adhesive photo magnets from the bottom of the self-adhesive photo magnets packet, traveling the self-adhesive photo magnet via following sections along the machine: a) in a side separation section, a side knife is forming a prelaminar narrow spacing between the self-adhesive magnetic layer and the removable cover sheet layer, along a side edge of the self-adhesive photo magnet thereof; b) in a lifting section, a leading-edge lifter is forming a wider space between the self-adhesive magnet layer and the removable cover sheet layer, along the front leading edge of the self-adhesive photo magnet thereof; c) in a pilling section, while traveling one of the self-adhesive photo magnets on the peek and place feeder towards the second magazine, a turning separator peeler is entering to the wider space, to fully separate the self-adhesive photo magnetic layer and the cover sheet layer from the one of the self-adhesive photo magnets, thereby forming an uncovered self-adhesive magnet layer; d) in a pressing and unloading section, the turning separator peeler with a pressing bar attached to it are turning, thereby the pressing bar is pressing on one of the photo papers against the uncovered self-adhesive magnetic layer, thereby applying the one of the photo papers on the uncovered self-adhesive magnetic layer, to form a photo magnet; e) in a blocking section, while traveling the photo-magnet on the peek and place feeder away from the second magazine and back towards the first magazine, the turning separator peeler is blocking the photo magnet, thereby unloading and releasing it from the pick and place feeder.
2. 2. The application machine of claim 1 wherein the first magazine is configured for containing self-adhesive photo magnets having 0.3-0.5mm (11.82-20mil) thickness, rectangular or square shape, coated with cover sheet at specially sizes: 2”x3" (51x76 mm), 3”x4” (76x1mm), 3.5”x5" (89x127 mm), 4”x4” (102x102mm), 4”x6”(102x152 mm), 2”x6” (51x152 mm), 5”x7" (127x178 mm), 3.54”x5.11” (90x130 mm), 6”x8" (152x203 mm).
3. 3. The application machine of claim 1, wherein the pick and place feeder is made of a ferromagnetic material configured to load one of the self-adhesive photo magnets from the bottom of the first magazine.
4. 4. The application machine of claim 1, wherein the second magazine is configured to interface with the portable photo printer; and at least one of the photo papers is loaded/fed into the second magazine from the commercial portable photo printer.
5. 5. The application machine of claim 4, wherein the commercial portable printer is, mostly thermal printers like: HITI-P525L, HITI-M610, HITI-P530D, HITI-750L, HITI-P910L, FUJIFILM-DX100, CITIZEN-CX2, MITSUBISHI-CP-ME1 and similar.
6. 6. The application machine of claim 1, wherein the side knife is a static or rotating separating side knife.
7. 7. The application machine of claim 1, wherein the leading edge lifter moves along the front leading edge of the self-adhesive photo magnet in the prelaminar narrow spacing; wherein the leading edge lifter a thin cantilever beam that forms a wider space between the self-adhesive magnetic layer and the removable cover sheet layer while passing along the leading edge of the self-adhesive photo magnet, inside the prelaminar spacing.
8. 8. The application machine of any one of the previous claims, wherein after forming the uncovered self-adhesive magnetic layer, the turning separator peeler is turning about 90° on its axis, for pushing and pressing the one of the photo papers positioned in the second magazine against the uncovered self-adhesive magnetic layer loaded on the pick and place feeder and positioned below and adjacent to the one of the photo papers; and wherein the turning separator peeler stays turned to block and to release the photo magnet.