Abstract:
A method of thin printed circuit board wet process consistency on the same carrier, and more particularly to a printed circuit board in the developing, copper plating, stripping, etching and other wet processes uses the same frame as a carrier from the beginning to the end of the wet process, such that the thin printed circuit board is conducted a continuous and automatic wet process to avoid disassembly, storage and transportation between each process. Moreover, when using the flame, the thin printed circuit board is smooth and flattening in the wet process for avoiding “water effect,” the effective area is not exposed to any mechanical members for preventing scratches, and there are point contacts between the thin printed circuit board and the frame for preventing chemical residue. Accordingly, the present invention can not only enhance the yield of the thin printed circuit board but also shorten the production time.

Description:
BACKGROUND OF THE INVENTION 
       [0001]    1. Field of the Invention 
         [0002]    The present invention relates to a method of thin printed circuit board wet process consistency on the same carrier and more particularly, to a continuous auto-consistent wet process method for enhancing the efficiency of the printed circuit board wet process by means of the same frame as a carrier. 
         [0003]    2. Description of the Related Art 
         [0004]    The process of a printed circuit board (PCB) includes a dry process and a wet process, wherein the printed circuit board requires immersing in different liquid in the wet process. For example, the printed circuit board requires being sprayed the developer in the developing process after the exposure process, and the printed circuit board requires being sprayed the rinsing fluid in the rinsing process, and so as the follow-up of plating, stripping, etching and other processes within the wet process. 
         [0005]    The manufacturing method of the printed circuit board wet process can be broadly divided into two ways, horizontal production and vertical production. The so-called horizontal production as shown in  FIG. 1  illustrates a developing process device  10  including a loading unit  11 , a first developing unit  12 , a second developing unit  13 , a rinsing unit  14 , a drying unit  15 , a baking unit  16  and an unloading unit  17 . The printed circuit board is conveyed through aforementioned various units by a conveying roller  18 . 
         [0006]    A slippery phenomenon sometimes happens between the conveying roller  18  and the printed circuit board resulting in the problems of sticking boards or stacking boards. When spraying the chemical liquid on the horizontal printed circuit board, the chemical liquid is easily left in the printed circuit board, resulting in so-called “water effect.” In other words, the horizontal machine will cause two types of effects; one effect is that the discharging speed of the liquid on an edge of the printed circuit board is faster than the center thereof. That is, the liquid on the center of the printed circuit board requires a longer distance for discharging, such that the liquid on the edge of the printed circuit board has discharged while the liquid on the center of the printed circuit board has not discharged yet and thus an accumulation of liquid is produced on the thin printed circuit board, such that the accumulation of the liquid lower the chemical reaction on the printed circuit board. Another effect is that the accumulation of the liquid affects the new liquid entering to the printed circuit board. That is, the liquid on the edge of the printed circuit board is thinner than the liquid on the center of the printed circuit board, thus the new liquid on the edge of the printed circuit board can easily enter into the printed circuit board and vice versa to cause a difference of chemical reaction speed. 
         [0007]    Due to the printed circuit board are more and more precise now, it is easy to contact with the circuits and cause the damage of the circuits by using the roller to covey the printed circuit board and thus affects the production yield of the printed circuit board. 
         [0008]    Another manufacturing method of the printed circuit board wet process is the vertical production method providing many printed circuit boards arranged in a matrix manner and being fixed on a rack, and then being moved to the designated treatment cell to conduct the wet process by a hoist. 
         [0009]    In the traditional wet process such as developing, plating, stripping, and etching processes has separated device. For example, the developing process belongs to horizontal production, and the plating process belongs to vertical production. Thus, when moving the printed circuit board from the developing device to the plating device, the printed circuit board is easy to be scratched and damaged, more particularly to a thin printed circuit board or a soft printed circuit board. TW Patent No. M381635 as shown in  FIG. 2  discloses a mainframe  20  serves as a carrier for copper plating on a printed circuit board  21 . The contacted surface between the mainframe  20  and the printed circuit board  21  is large so the chemical liquid can be easily remained on the mainframe  20 . If using one frame for one process or chemical liquid, it may not have the problem of cross-contamination between different cells. However, this kind of mainframe  20  does not apply to different processes thus cannot be used in a continuous process. 
         [0010]    The non-continuous device is used in the conventional printed circuit board wet process, wherein the printed circuit board is conveyed through the developing device to plating device or to other devices by manual labor, resulting in higher cost and lower capacity. Therefore, there is room for improvement. 
       SUMMARY OF THE INVENTION 
       [0011]    It is the main object of the present invention to provide a method of thin printed circuit board wet process consistency on the same carrier, which provides a plurality of flanges corresponding to a plurality of positioning holes of a thin printed circuit board being evenly spread on a frame, and uses a securing member with a small contacted surface to fix on a positioning member in order to form a point contact, such that a chemical liquid is not easy to remain in the thin printed circuit board and the even point contacts enable a copper to evenly be spread on the thin printed circuit board while plating. 
         [0012]    Another object of the present invention is to provide a method of thin printed circuit board wet process consistency on the same carrier, which enables the thin printed circuit board wet process such as developing, copper plating, stripping, and etching to set on an automated route, and each piece of the printed circuit board is hanged by the same frame from the beginning to the end of the wet process. The printed circuit board is moved to each designated treatment cell by a hoist, and one thin printed circuit board is vertically immersed in one treatment cell without moving the printed circuit board from one process to another, such that the chemical reaction or the plating reaction on the thin printed circuit board is evenly reacted. 
         [0013]    A further object of the present invention is to provide a method of thin printed circuit board wet process consistency on the same carrier, which enables the thin print circuit board to be hanged by the same frame in whole wet process to avoid the water effect, and enables the wet process of the thin printed circuit board become an automation process which can not only save spaces and costs, but also prevent damages of the precise circuits on the printed circuit board for enhancing the yield and quality of the thin printed circuit board. 
         [0014]    To achieve the above objects, a method of thin printed circuit board wet process consistency on the same carrier comprises the steps of: 
         [0015]    a) providing a frame including a rectangular rigid frame body made of conductive material, a plurality of flanges inwardly extending from an inside frame edge thereof, and an electroconductive positioning member being set on the flange; 
         [0016]    b) providing a thin printed circuit board being smaller than the inside frame edge of the frame, an edge of the thin printed circuit board having a positioning hole corresponding to the positioning member for hanging the thin printed circuit board on the frame, such that the thin printed circuit board stays smooth and flat, and the edge of the thin printed circuit board being not contacted with the inside frame edge of the frame; that is, there is only a point contact between the periphery of the positioning hole and the positioning member; 
         [0017]    c) providing a plurality of securing members fixing on the positioning members, and the securing member corresponding to a surface of the thin printed circuit board has an electroconductive contacted surface, such that the surface of the thin printed circuit board is electronically connected to the frame by the securing members and positioning members; 
         [0018]    d) providing a plurality of treatment cells being arranged in sequence, and a predetermined chemical being required for the wet process is respectively arranged in the treatment cells; and 
         [0019]    e) providing a plurality of hoist devices being arranged above a plurality of treatment cells, moving back and forth for the frame to be clamped and moved to each designated treatment cell in order to conduct the wet process. 
         [0020]    Based on the technical features disclosed, wherein the frame illustrated in step a) is composed of metal plate. 
         [0021]    Further, the frame includes a hanger made of conductive material has a contacted part on both ends thereof, and a purity of fixtures are provided on the hanger for clamping the frame. 
         [0022]    Further, the treatment cells illustrated in step d) include a plurality of developing cells, copper plating cells, stripping cells, etching cells, and peeling cells. A V-shaped block is provided on both top sides of the treatment cells, and both ends of the hanger corresponding to the V-shaped block have the contacted part for setting across on the V-shaped block. 
         [0023]    Furthermore, the V-shaped block on both sides of the copper plating cell is connected to the power supply, such that the hanger conducts electricity when the contacted part on both ends of the hanger sets across on the V-shaped block, and the fixture on the hanger is electronically connected to the frame, such that a current passes through the positioning member and the securing member of the frame to the thin printed circuit board for copper platting on through holes of the thin printed circuit board. 
         [0024]    The securing member as illustrated in step c) comprises: an external cover being made of elastic material and a metallic buckle provided at the bottom of the external cover, the middle of the metallic buckle corresponding to the positioning member has a buckling hole for clamping the positioning member, and the metallic buckle having the eletroconductive contacted surface contacting with the surface of the thin printed circuit board. 
         [0025]    Moreover, the external cover is made of rubber and the metallic buckle is made of copper. The positioning member serves as a pin which is perpendicular to the surface of the flange for hanging the positioning hole of the thin printed circuit board. 
         [0026]    Based on the technical features disclosed, a method of thin printed circuit board wet process consistency on the same carrier in accordance with the present invention enables wet process: the developing, copper plating, stripping, and etching to be integrated into the same carrier for saving the number of the loading and unloading machines and manpower, and reducing the dust attached on the printed circuit board while moving the printed circuit board from one machine to another such improves the yield and saves the costs. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0027]      FIG. 1  is a schematic view of a conventional horizontal wet process; 
           [0028]      FIG. 2  is a schematic view of a conventional frame; 
           [0029]      FIG. 3  is an exploded schematic view of the frame in accordance with the present invention; 
           [0030]      FIG. 3A  is a cross-sectional view taken along the line  3 A- 3 A in  FIG. 3 ; 
           [0031]      FIG. 3B  is a cross-sectional view taken along the line  3 B- 3 B in  FIG. 3 ; 
           [0032]      FIG. 4  is schematic view of the frame assembly in accordance with the present invention; 
           [0033]      FIG. 4A  is an enlarged plan view of  4 A in  FIG. 4 ; 
           [0034]      FIG. 4B  is a cross-sectional view taken along the line  4 B- 4 B in  FIG. 4A ; 
           [0035]      FIG. 4C  is a cross-sectional view taken along the line  4 C- 4 C in  FIG. 4 ; 
           [0036]      FIG. 5  is a schematic view of the plurality of the treatment cells in accordance with the present invention; 
           [0037]      FIG. 6  is an application example of the moving hoist device in accordance with the present invention; 
           [0038]      FIG. 7A  is an application example of the present invention illustrating the printed circuit board being moved up by the hoist device; 
           [0039]      FIG. 7B  is an application example of the present invention illustrating the printed circuit board being moved down by the hoist device; and 
           [0040]      FIG. 8  is an application example of the present invention illustrating the printed circuit board being moved to the different treatment cells by the hoist device. 
       
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
       [0041]    Referring to  FIGS. 3 and 4 , the preferred embodiment of a method of thin printed circuit board wet process consistency on the same carrier in accordance with the present invention comprises the steps of: 
         [0042]    a) providing a frame  30  including a rectangular rigid frame body made of conductive material and a plurality of flanges  32  inwardly extending from an inside frame edge  31  thereof, and an electroconductive positioning member  33  being set on the flange  32 ; in this embodiment as shown in  FIG. 4C , the frame  30  is composed of metal plate, and the left and right sides of the outer frame extend outwardly to form a stepped surface  34  which has a good mechanical strength; and the frame  30  can be horizontally placed on a horizontal machine, such that the stepped surface  34  can be moved on a roller  35  of the horizontal machine, and an effective area of a thin printed circuit board  40  does not come into contact with any mechanical members to prevent scratches; in another embodiment as shown in  FIG. 8  is a vertical machine; the frame  30  further includes a hanger  80  being made of conductive material has a contacted part  82  on both ends thereof, and a plurality of fixtures  81  being provided on the hanger  80  for clamping the frame  30 ; thus, the frame  30  can be used for horizontal or vertical machine; 
         [0043]    b) providing the thin printed circuit board  40  as shown in  FIG. 3A , being smaller than the inside frame edge  31  of the frame  30 , an edge of the thin printed circuit board  40  having a positioning hole  41  corresponding to the positioning member  33  for hanging the thin printed circuit board  40  on the frame  30 , such that the thin printed circuit board  40  stays smooth and flat, and the edge of the thin printed circuit board  40  does not contact with the inside frame edge  31  of the frame  30 ; that is, there is only a point contact between the periphery of the positioning hole  41  and the positioning member  33 ; in this embodiment, the positioning member  33  serves as a pin which is perpendicular to the surface of the flange  32  for hanging the positioning hole  41  of the thin printed circuit board  40 , but it is not a limitation; 
         [0044]    c) providing a plurality of securing members  50  as shown in  FIGS. 3B ,  4 A, and  4 B, fixing on the positioning members  33 , and the securing member  50  corresponding to a surface of the thin printed circuit board  40  has an electroconductive contacted surface  522 , such that the surface of the thin printed circuit board  40  is electronically connected to the frame  30  by the securing members  50  and positioning members  33 ; in this embodiment, the securing member  50  comprises an external cover  51  being made of elastic material and a metallic buckle  52  being provided at the bottom of the external cover  51 ; the middle of the metallic buckle  52  corresponding to the positioning member  33  has a buckling hole  521  for clamping the positioning member  33 ; the metallic buckle  52  having the eletroconductive contacted surface  522  contacting with the surface of the thin printed circuit board  40 ; in the preferred embodiment, the external cover  51  is made of rubber, and the metallic buckle  52  is made of copper; 
         [0045]    For example, the size of the thin printed circuit board  40  is 415×511 mm, and the size of the inside frame edge  31  of the frame  30  is 419×515 mm, wherein the size of thin printed circuit board  40  is larger than the inside frame edge  31 , so there is a gap between the thin printed circuit board  40  and the inside frame edge  31 , such that the thin printed circuit board  40  does not come into contact with any objects; on the other hand, the thin printed circuit board  40  is fixed by the combination of the plurality of securing members  50 , the positioning members (pin)  33  and the flanges  32 . The flanges  32  and the plurality of the securing members  50  with a small area are evenly spread on the predetermined area of the thin printed circuit board  40  with a large area. 
         [0046]    d) providing a plurality of treatment cells  60  as shown in  FIGS. 5 and 6 , being arranged in sequence, and a predetermined chemical liquid  69  being required for the wet process is respectively arranged in the treatment cells  60 ; in this embodiment, the treatment cells  60  mainly includes a plurality of developing cells  62 , copper plating cells  63 , stripping cells  64 , etching cells  65 , and may include a peeling cell  66 ; besides, a loading area  61  and an unloading area  67  are respectively arranged in the front and the back of the treatment cells  60 ; moreover, the rinsing cells or buffering cells are arranged between the plurality of the treatment cells  60  of each process; for example, there are the rinsing cells or the buffering cells between the developing cell  62  and the copper plating cell  63 , and also between the stripping cell  64  and the etching cell  65 ; this is generally required for the wet process and thus will not be described here; a V-shaped block  68  is provided on both top sides of the treatment cells  60 , and both ends of the hanger  60  corresponding to the V-shaped block  68  has the contacted part  82  for setting across on the V-shaped block  68 ; in this embodiment, the V-shaped block  68  on both sides of the copper plating cell  63  is connected to the power supply, such that the hanger  80  conducts electricity when the contacted part  82  on both ends of the hangers  80  sets across on the V-shaped block  68 , and the fixture  81  on the hanger  80  is electronically connected to the frame  30  for a current passing through the positioning member  33  and the securing member  50  of the frame  30  to the thin printed circuit board  40 ; and 
         [0047]    e) providing a plurality of hoist devices  70  as shown in  FIGS. 7A ,  7 B and  8 , being arranged above the plurality of treatment cells  60 , moving back and forth for the frame  30  to be clamped and moved to each designated treatment cell in order to conduct the wet process; in this embodiment, the hoist device  70  includes a set of track  71  being arranged at the both sides of the plurality of treatment cells  60 , a hoist  72  being in the           shape sets across on the set of track  71  and having a power source  73  and a transmission member  74  for the hoist to be moved back and forth on the track  71 , and a cross rod  75  being arranged in the middle of the hoist  72  for being vertically hoisted by the transmission member  74 , and the hanger  80  can be held by the cross rod  75  and moved to the designated treatment cell for vertically hoisting; however, the structure of the hoist device  70  is a prior art and thus will not be described in details here. 
         [0048]    According to steps d) and e), the frame  30  is carried and moved to a loading area by the hoist device  70  and the thin printed circuit board  40  is fixed by using above-mentioned steps a) to c), and the order of the treatment cells  60  in accordance with the wet process is illustrated as following: the developing cell  62 , the copper plating cell  63 , the stripping cell  64 , the etching cell  65 , and the buffering cell or the peeling cell  66  to the unloading area  67 . However, the wet process is a prior art and thus will not be described in details here. The present invention is to use the same frame  30  for the thin printed circuit board  40  to be moved to the treatment cells  60  with different chemical liquid, and the chemical liquid does not remain on the frame  30  after being cleaned in the rinsing cell to achieve automation consistency by using the frame  30  as the same carrier. 
         [0049]    Based on the technical features disclosed, a method of thin printed circuit board wet process consistency on the same carrier in accordance with the present invention is effective to improve the problems of the prior art, the effects are clarified as following: 
         [0050]    1. The frame  30  and the thin printed circuit board  40  are fixed together and conducted electricity by the point contacts which can reduce the contacted area between the two, such that the chemical liquid  69  does not remain on the frame  30 . Therefore, the present invention can avoid the mix of the chemical liquid between different cells and avoid the impact of the mechanical stress against the thin printed circuit board  40  when fixing improperly, thus it solves the problems of the conventional rack of the printed circuit board. 
         [0051]    2. The integration of the conventional process is very difficult because each process has different chemical liquid which is easily attached to the conventional rack of the printed circuit board; thus, it is easy to cause the mixing of different chemical liquid and lead to different chemical reactions. The power supply is needed only in the plating part of the wet process, but the conventional rack is not universal. Therefore, the present invention enables the thin printed circuit board wet process such as developing, copper plating, stripping, and etching to set on an automatic route, and each piece of the thin printed circuit board  40  is hanged by the same frame  30  from the beginning to the end of the wet process; wherein, the plating cell is formed when the V-shaped block  68  on any of the treatment cells  60  connect to the power supply, such that each process is integrated to form a continuous auto-consistent process. 
         [0052]    3. Through the continuous auto-consistent process, the thin printed circuit board  40  is moved to the designated treatment cell by the hoist  72 . In the preferred embodiment of the present invention, one thin printed circuit board is vertically immersed in one treatment cell without moving the printed circuit board from one process to another, such that the chemical reaction or the plating reaction on the printed circuit board is evenly reacted. 
         [0053]    4. A normal horizontal machine uses nozzle pressure independent adjustment, swing spray, etching compensation and so on to overcome the water effect. However, it is complicated and hard to control. Therefore, the frame  30  of the present invention enables the thin printed circuit board  40  to stay smooth and flat and thus reduces the water effect caused by the horizontal process. The vertical process not only can avoid the water effect but enable the chemical liquid to react evenly. Due to the even reaction on both sides of the thin printed circuit board  40  and the fast reaction of the chemical liquid  69 , the productivity of the vertical process is higher than the horizontal process. 
         [0054]    Many changes and modifications in the above-described embodiment of the invention can, of course, be carried out without departing from the scope thereof. Accordingly, to promote the progress in science and the useful arts, the invention is disclosed and is intended to be limited only by the scope of the appended claims.