KR100772936B1 - A conductive, adhesive roller adhering dust and static electricity - Google Patents

Abstract

A conductive adhesion roller for removing the dust of a PCB(Printed Circuit Board) is provided to reduce a defect rate and a manufacturing cost by preventing a substrate from being rolled by the static electricity on a cleaning roller. A conductive adhesion roller(10) for removing the dust of a PCB includes a roller axis(12), and a conductive adhesion tape(11). The conductive adhesion tape is mounted at the roller axis, and includes a silicon release agent(111) as a base material, a conductive composition layer(112) as an antistatic layer which prevents the generation of static electricity at the upper surface of the silicon release agent, a synthetic resin film(113) at the upper surface of the conductive composition layer, and an acryl adhesion layer(114) which adheres foreign substances like dust or static electricity at the upper surface of the synthetic resin film.

Description

      A conductive, adhesive roller adhering dust and static electricity}

      1 is a schematic view showing a conventional foreign material removal apparatus,

      2 is a block diagram schematically illustrating a foreign matter removal apparatus of a printed circuit board on which a conductive adhesive roller for a foreign matter removal apparatus of a printed circuit board according to the present invention is installed.

      3 is a cross-sectional view of a conductive adhesive roller for removing foreign matter of a printed circuit board according to the present invention.

      Explanation of symbols on the main parts of the drawings

      A: Foreign material removal device of printed circuit board

      10: conductive adhesive roller 20: cleaning roller

      30: ionizer 40: substrate

      50: dust and static electricity 60: adhesive tape roller

      11: conductive adhesive tape 12: roller shaft

      111 silicon release agent 112 conductive composition layer

      113: synthetic resin film 114: acrylic adhesive layer

According to the present invention, when loading a printed circuit board onto a conveyor line to mount surface-mounted components on a printed circuit board such as a film, such as a film, various dusts, powders or static electricity present on the printed circuit board are removed. In the foreign material removal device of a printed circuit board to remove, the curling phenomenon that the substrate is rolled up on the cleaning roller by the dust or static electricity generated in the cleaning roller by repeated engagement rotation operation of the cleaning roller and the adhesive tape roller. The present invention relates to a conductive adhesive roller used in an apparatus for removing foreign substances from a printed circuit board by minimizing defects occurring in the process of removing foreign substances on a printed circuit board.

The apparatus for removing a printed circuit board includes an antistatic function added to a cleaning roller which removes dust or static electricity of various particulates present on the substrate, and an adhesive tape which sticks dust or static electricity adhering to the cleaning roller from the cleaning roller again. It consists of an electroconductive adhesion roller and the ionizer which is respectively located before and behind a cleaning roller.

Referring to FIG. 1, in the conventional method of removing foreign substances such as dust and static electricity, a dust or static electricity 50 remaining on the substrate 40 before the substrate 40 is introduced into the cleaning roller 20 may be electrically charged. When the substrate 40 is introduced into the cleaning roller 20, the neutralized dust or static electricity 50 is transferred to the cleaning roller 20 and collected and transferred to the cleaning roller 20. In addition, the static electricity 50 is separated from the cleaning roller 20 by the adhesive tape mounted on the adhesive tape roller 60 to adhere to the adhesive tape roller 60. However, in accordance with the tendency to become thin and short, the adhesive tape roller 60 has an antistatic function that suppresses the generation of static electricity in spite of the neutralization operation of the ionizer 30 as the substrate 40 is formed from thin to ultra thin plates. Therefore, due to the static electricity generated in the cleaning roller 20 and the adhesive tape roller 60 by repeated engagement rotation operation of the cleaning roller 20 and the adhesive tape roller 60, a thin film or ultra-thin substrate such as a film ( 40) The curling phenomenon that is rolled up to the cleaning roller 20 is generated, the product failure rate and the raw material purchase cost increases due to the curling phenomenon caused by the static electricity generation, there is a problem that the production time is delayed and productivity is lowered .

The present invention has been invented to solve the above conventional problems, and provided with a conductive adhesive roller with an antistatic function to suppress the generation of static electricity in place of the adhesive tape roller installed in the foreign material removing apparatus of the printed circuit board, The cleaning roller and the conductive adhesive roller do not generate static electricity due to the antistatic and antistatic effect of the conductive adhesive roller even after repeated rotation operation.The curling or ultra thin substrate curls up on the cleaning roller. It is possible to achieve the object by providing a conductive adhesive roller for a foreign matter removal device of a printed circuit board that can prevent excellent antistatic and foreign matters that do not occur.

In the foreign material removing apparatus (A) of a printed circuit board composed of a cleaning roller (20), a conductive adhesive roller (10) and an ionizer (30), in order to achieve the above object, The conductive adhesive roller 10 for the foreign matter removing apparatus includes a roller shaft 12, which is mounted on the roller shaft 12, forms a silicon release agent 111 as a base, and is formed on an upper surface of the silicon release agent 111. Forming a conductive composition layer 112 that is an antistatic layer to suppress the generation of static electricity, forming a synthetic resin film 113 on the upper surface of the conductive composition layer 112, dust or neutralized static electricity on the upper surface of the synthetic resin film 113 And an electrically conductive tape 11 formed by forming an acrylic adhesive layer 114 for adhering foreign substances such as 50, and the like.

The conductive adhesive tape 11 included in the conductive adhesive roller 10 for the foreign matter removing apparatus according to the present invention is a conductive composition for forming the conductive composition layer 112 which is an antistatic layer that suppresses generation of static electricity. It is formed of polyaniline, which is a conductive polymer, which is a blend of aniline.

The polyaniline has been published as a known use, particularly excellent antistatic and anti-rust effect. In general, polyaniline is divided into fully oxidized, partially oxidized, and reduced according to the degree of oxidation, and polyaniline (PANI-EB) in the form of emeraldine is insulated, but conductive when doped with a positive asset such as hydrochloric acid (HCL) Is transferred to polyaniline (PANI-ES) in the form of an emeraldine salt. The electrical conductivity varies with the doping level, the organic solvent used, the type of additives, and the molecular weight. As the doping level increases, an insulator-metal transition occurs. Polyaniline in the form of emeraldine salt (PANI-ES) has been reported to play a role as a charge carrier by the formation of a polaron, a mobility defect in a one-dimensional chain structure.

Polyaniline was difficult to process because both base and salt did not dissolve in solvents.However, after an excellent solvent called NMP (N-methyl-2-pyrollidinone) was reported in 1986, it was processed into films, fibers, and elastomers. In the case of stretching 4 times and then doped with 1M HCL showed an electrical conductivity of 220 S / cm. At this time, the degree of cross-linking is controlled by varying the molecular weight of polyaniline used in the manufacture of the film, the use of the solution, the evaporation rate of the solvent, and the like, and these various types of films have crystallinity, electrical conductivity after doping, It has been reported that the electrical conductivity mechanism and electromagnetic shielding efficiency have different results.

In addition, in the case of polyaniline doped with functional acids such as camphorsulfonic acid and dodecylbenzenesulfonic acid, solubility in non-polar or weak polar solvents such as m-cresol and chromoform is increased to increase conductivity. In the phosphorus state, direct processing as a film or fiber is possible, and the film produced therefrom depends on the solvent but exhibits a high electrical conductivity of up to 400 S / cm. Site's concept has been described, and unlike conventional doped polyaniline films, large negative dielectric constants are observed in these films, and the temperature dependence of the electrical conductivity is insignificant.

The antirust effect, which is another use of polyaniline, is a use irrelevant to the antistatic and antistatic effects of the present invention, and a detailed description thereof will be omitted.

Preferred operating effects of the present invention will be described in detail below with reference to the accompanying drawings.

2 is a conductive adhesive roller 10, a cleaning roller 20, an ionizer 30, and a roller shaft 12 of the conductive adhesive roller 10, which are main components of the foreign material removing apparatus A of a printed circuit board. And a conductive adhesive tape 11 mounted thereon, a substrate 40 introduced into the foreign substance removing device A, and dust and static electricity 50 remaining on the substrate. Sectional drawing of the conductive adhesive roller for foreign material removal apparatus of a printed circuit board which concerns on this invention.

First, as shown in FIG. 3, the conductive adhesive tape 11 mounted on the roller shaft 12 included in the conductive adhesive roller 10 for a foreign material removal apparatus of the printed circuit board according to the present invention is as described above. The conductive composition layer 112 formed of polyaniline, a conductive polymer that is an antistatic layer that is formed on the roller shaft 12 and forms a silicon release agent 111 as a base and suppresses generation of static electricity on the upper surface of the silicon release agent 111, is formed. Forming and forming a synthetic resin film 113 on the upper surface of the conductive composition layer 112, and formed by forming an acrylic adhesive layer 114 for adhering dust or neutralized static electricity 50 on the upper surface of the synthetic resin film 113 do.

The conductive adhesive tape 11 formed of the silicone release agent 111, the conductive composition layer 112 formed of polyaniline, the synthetic resin film 113, and the acrylic adhesive layer 114 is mounted on the roller shaft 12 to be electrically conductive. As shown in FIG. 2, the adhesive roller 10 is installed on the upper and lower portions of the cleaning roller 20 of the foreign matter removing device A such as dust and static electricity, respectively, and the surface of the cleaning roller 20 and the surface thereof. It is placed face to face. Referring to FIG. 2, the substrate 40, which is gradually thinned, is subjected to a foreign material removal device A such as dust and static electricity before being loaded onto a conveyor line and introduced into a surface mount apparatus, wherein air is provided on the substrate 40. Various particles suspended in the air and foreign matters such as static electricity 50 are adsorbed to pass through the ionizer 30 which neutralizes the dust and static electricity 50 and neutralized by the ionizer 30. 50 is transferred to and collected by the cleaning roller 20. The conductive adhesive tape 11, which is transferred and collected in the idle state according to the rotational driving of the cleaning roller 20, is in contact with the cleaning roller 20 in the face-to-face with the transferred dust or static electricity 50. The adhesive roller 10 is removed from the cleaning roller 20 by the conductive adhesive roller 10 for removing foreign matter of the printed circuit board of the present invention, and adheres to the conductive adhesive roller 10. However, the substrate 40 formed of a thin plate or an ultra thin plate has the cleaning roller 20 and the conductive adhesive roller due to the generation of static electricity and the antistatic effect of the conductive adhesive tape 11 mounted on the conductive adhesive roller 10. In spite of the repeated engagement rotation operation of (10), no static electricity is generated in the cleaning roller 20 so that a film-like substrate 40 curls up on the cleaning roller 20 so that the curling phenomenon does not occur. 40) is safely inserted into the surface mounting apparatus, which is the next process step.

On the other hand, the conductive adhesive roller 10 serves to adhere and remove various dusts and static electricity 50 collected and transferred to the cleaning roller 20, dust and static electricity (50) that is adhered at the appropriate time, etc. According to the degree of contamination of the foreign matter of the conductive adhesive tape (10) mounted on the conductive adhesive roller (10) after cutting the removed to a predetermined length to remove after adjustment to clean tape, the conductive adhesive roller (10 When the conductive adhesive tape 11 mounted on the substrate is completely used, the conductive adhesive tape 11 is separated and detached from the roller shaft 12 and replaced with a new conductive adhesive tape 11 to replace the roller shaft 12. ) Can be installed again. In order to cut and replace the conductive adhesive tape 11, the conductive adhesive roller 10 has a structure to be slid out from the foreign substance removing device A, but the outside of the conductive adhesive roller 10 is removed. Configuration and operation effects of the component for drawing out the detailed description will be omitted to clearly limit the technical spirit of the present invention.

The cleaning roller 20, which is another main component of the foreign material removing device A of the printed circuit board, is driven by a drive shaft and is in face-to-face contact with the conductive adhesive roller 10 of the present invention, and the ionizer 30 ) Is installed before and after each of the cleaning rollers 20, and the ionizer 30 installed in the front first operates to neutralize static electricity when the substrate 40 is introduced into the foreign substance removing device A such as dust and static electricity. The ionizer 30 installed at the rear side performs the neutralization operation of the static electricity once again after the dust collection by the cleaning roller 20 of the substrate 40 and the transfer of the static electricity 50. It is injected into the surface mount apparatus without generating static electricity, and in order to more reliably remove foreign substances such as dust and static electricity neutralized by the ionizer 30, phosphorus is placed on the lower ends of the ionizers 30. It will be also installed an air injector (also not shown in the drawing). Specific construction and operation effects of the cleaning roller 20, ionizer 30, and the air sprayer (not shown in the drawing) are known constructions and operation effects, and technical concept of the conductive adhesive roller 10 according to the present invention. Detailed description thereof will be omitted below.

The conductive adhesive roller for a foreign material removal device of a printed circuit board according to the present invention, in the foreign material removal device such as dust and static electricity, suppresses the generation of static electricity of the conductive adhesive roller despite the repeated engagement rotation operation of the conductive adhesive roller and the cleaning roller. Due to the antistatic effect, static electricity is not generated on the cleaning roller which is engaged with the conductive adhesive roller and rotates, so that a substrate formed of a thin film or an ultra thin plate is rolled up on the cleaning roller without causing a curling phenomenon. By entering the surface-mounting device, static electricity is generated on the cleaning roller that repeatedly engages and rotates with the existing adhesive tape roller, and the product defect rate due to the curling phenomenon of the substrate, which causes the substrate to be rolled up by the cleaning roller. Can dramatically lower This can reduce the purchase cost of raw materials and a superior effect of being able are shorter production times can increase productivity.

Claims (2)

In the foreign matter removing apparatus (A) of a printed circuit board for removing foreign substances such as dust and static electricity (50), A roller shaft 12; It is mounted to the roller shaft 12 to form a silicone release agent 111 as a base body, Forming a conductive composition layer 112 which is an antistatic layer to suppress the generation of static electricity on the upper surface of the silicon release agent 111, Forming a synthetic resin film 113 on the upper surface of the conductive composition layer 112, A conductive adhesive tape (11) formed by forming an acrylic adhesive layer (114) for adhering foreign substances such as dust or static electricity (50) on the upper surface of the synthetic resin film (113) of the printed circuit board Conductive adhesive roller for debris removal device. The method of claim 1, The conductive composition layer 112 is a conductive adhesive roller for a foreign material removal device of a printed circuit board, characterized in that it comprises a conductive adhesive tape (11) formed of polyaniline is a conductive polymer.

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