JP2013251524A - Sheet type fpcb automatic vacuum attaching/detaching device having structure enabling sequential close contact - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an automatic vacuum attaching/detaching device having a structure capable of performing a perfect contact sequentially by which a sheet-type FPCB is perfectly brought into close contact with a vacuum chuck in a pre-inspection stage of the FPCB.SOLUTION: An automatic vacuum attaching/detaching device includes: air suction means provided on a lower side of a vacuum chuck, vacuum-communicating with a plurality of air holes and sucking air on a stably-attaching groove, and attaching a sheet-type FPCB to a surface of the stably-attaching groove; air discharge means provided on the lower side of the vacuum chuck, vacuum-communicating with a plurality of air holes and discharging air on the stably-attaching groove, and detaching the FPCB from the surface of the stably-attaching groove; a movable body connected to a distance adjustment base provided on a side part of the vacuum chuck and moving on the distance adjustment base; and an air blower connected to and provided on the movable body, located in an upper part of the FPCB stably attached on the upper part of the vacuum chuck, having a plurality of air discharge holes formed, and bringing the FPCB into close contact with the stably-attaching groove of the vacuum chuck while discharging air above the vacuum chuck and sequentially moving.

Description

  The present invention relates to a PCB automatic vacuum adsorption / desorption device, and more particularly, to a sheet type FPCB automatic vacuum adsorption / desorption device having a structure in which a sheet type FPCB is in close contact with a vacuum chuck in a pre-inspection stage of the sheet type FPCB.

  In general, a PCB (printed circuit board) is a substrate in which a circuit line pattern is formed of a conductive material such as copper on an electrically insulating substrate, and is a substrate immediately before an electronic component is mounted.

  PCBs are divided into flexible PCBs (FPCB) manufactured with a material that can be bent easily, such as rigid PCBs made of phenol and epoxy and polyimides, depending on the type of substrate material.

  Recently, personal portable electronic devices such as mobile phones, PDAs, and digital cameras have become popular, and PCBs with stabilized circuit characteristics and reduced size and weight have been used as main boards for personal portable electronic devices. It is mainly used as a circuit of a bent part in a folder-like mobile communication terminal or the like.

  In order for components to be mounted on the FPCB and used in an electronic device, appearance, microsection and dimension inspection, electrical performance inspection, mechanical performance inspection, and the like are required.

  Among them, the electrical performance inspection is for inspecting the electrical characteristics required for the FPCB, and judges whether or not the circuit pattern mounted on the FPCB is abnormal, judges the function of the electric circuit, and the like.

The FPCB is classified into a sheet type and a roll type, and an operator manually touches the sheet type FPCB with a roller or the like in order to bring the sheet type FPCB into close contact with the seating base before moving the conventional sheet type FPCB to the inspection table. I have done it.
When the sheet-type FPCB is brought into close contact with the conventional process, it becomes difficult to form a complete contact state between the sheet-type FPCB and the seating platform, thereby causing a problem in that a defect occurs during inspection.

  An object of the present invention is invented to solve the problems of the prior art as described above, and has a structure in which the sheet mold FPCB is sequentially brought into close contact with the vacuum chuck in a pre-inspection stage of the sheet mold FPCB. An FPCB automatic vacuum adsorption / desorption device is provided.

  In order to achieve the above object, the present invention is a vacuum adsorption / desorption device for adsorbing and desorbing a sheet type FPCB as a stage before electrical performance inspection of the sheet type FPCB, and is provided on an upper part of a fixed frame installed on the ground. A vacuum chuck in which a seating groove is formed in the upper part so that the mold FPCB is seated, and a plurality of air holes are formed on the surface of the seating groove; installed on the lower side of the vacuum chuck, Air suction means for sucking air on the seating groove by vacuum communication and adsorbing the sheet type FPCB on the surface of the seating groove; installed on the lower side of the vacuum chuck and communicating with the plurality of air holes in vacuum. Air discharging means that discharges air on the groove and desorbs the sheet type FPCB on the surface of the seating groove; connected to the distance adjusting table installed on the side of the vacuum chuck and moved on the distance adjusting table A moving body connected to the moving body and positioned on the upper part of the sheet type FPCB that is seated on the upper part of the vacuum chuck. A plurality of air discharge holes are formed, and the air is discharged sequentially from the upper part of the sheet type FPCB. There is provided a sheet type FPCB automatic vacuum adsorbing / desorbing device having a structure capable of being in close contact with each other, characterized in that it includes an air blower for bringing the sheet type FPCB into close contact with a seating groove of a vacuum chuck while moving.

  The sheet-type FPCB automatic vacuum adsorption / desorption device according to the present invention, which has a structure that can be in close contact with each other, sequentially moves a vacuum chuck in which air suction means and air discharge means are formed, and an air blower that discharges air above the vacuum chuck. Therefore, the sheet type FPCB can be adsorbed to a vacuum chuck used as a seating means for the sheet type FPCB so that the sheet type FPCB is automatically and completely adhered so as to be pushed by a roller, and there is an advantage that it can be easily detached.

1 is a perspective view of a sheet-type FPCB automatic vacuum adsorption / desorption device having a structure capable of sequentially adhering according to the present invention. 1 is a perspective view of a vacuum chuck according to the present invention. It is a side view which can understand the composition of the air suction means and the air discharge means concerning the present invention. It is a side view which understands the composition of the air blower concerning the present invention. It is an expanded sectional view of the principal part in FIG.

  Specific contents for carrying out the present invention will be described in more detail with reference to the accompanying drawings.

  Referring to FIGS. 1 to 5, a sheet type FPCB automatic vacuum adsorption / desorption device having a structure that can be brought into close contact with each other according to the present invention is a vacuum absorption / desorption method for pre-electrical inspection of the sheet type FPCB2. The detaching apparatus includes a vacuum chuck 10, an air suction unit 20, an air discharge unit 30, a moving body 40 and an air blower 50.

  The vacuum chuck 10 is configured to seat the sheet-type FPCB 2, and is provided on the upper portion of the fixed frame 5 installed on the ground, so that the seat-type FPCB 2 is seated on the upper portion of the seat. 12 are formed, and a plurality of air holes 14 are formed on the surface of the seating groove 12 in a vertical and horizontal arrangement for air movement.

  The sheet type FPCB 2 is detached from the surface of the vacuum chuck 10 by the air moving through the air holes 14, and the air holes 14 are preferably formed as fine holes. The size of is preferably about 0.01 to 0.5 mm.

  When the diameter of the fine hole is 0.01 mm or less, the air is difficult to move, and when the diameter is 0.5 mm or more, the air movement cross-sectional area is wide and the sheet type FPCB2 is in close contact with the surface of the inspection table. There is a risk that the surface of the metal will not be inserted into the fine holes and will not have a flat shape in an optimal state during inspection.

  The vacuum chuck 10 in which the air holes 14 are formed is usually formed of a metal material. In the present invention, the vacuum chuck 10 is formed of a ceramic material so as to be easily detached from the sheet type FPCB2.

Air suction means 20 for sucking air through the air holes 14 is installed on the lower side of the vacuum chuck 10.
The air suction means 20 is installed on the lower side of the vacuum chuck 10 and sucks air around the surface of the seating groove 12 of the vacuum chuck 10 so that the sheet type FPCB 2 is in close contact with the seating groove 12. It is.

  At this time, the air suction means 20 is not installed as a single unit, but is installed in a plurality so as to correspond to the air holes 14 formed in a vertical and horizontal arrangement, and is configured to sequentially suck in air.

  As one embodiment of the present invention, as shown in FIGS. 2 and 3, the air suction means 20 in the present invention is formed of twelve pieces, and is installed in a plurality of air holes 14 in a vacuum communication manner so as to be operated with a time difference to be sequentially seated. By sucking the air on the groove 12 and adsorbing the sheet type FPCB 2 so as to be in close contact with the surface of the seating groove 12, it is possible to achieve perfection with poor adhesion while automating the process of sequentially adhering using the conventional roller. It was in close contact.

  After the sheet-type FPCB 2 is brought into close contact with the seating groove 12 using the air suction means 20, the sheet-type FPCB 2 is moved on the seating groove 12 when the inspection process is completed after moving to the inspection table (not shown). However, at this time, the sheet type FPCB 2 can be smoothly and sequentially detached by discharging air using the air discharging means 30 installed on the lower side of the vacuum chuck 10.

The configuration of the air discharge means 30 is the same as that of the air suction means 20 described above. However, the operation is configured to be performed in reverse.
To explain again, the air discharge means 30 is in vacuum communication with the plurality of air holes 14 and discharges air on the seating grooves 12, thereby detaching the sheet type FPCB 2 from the surface of the seating grooves 12.

  As shown in FIG. 4, the air suction means 20 and the air discharge means 30 are integrally connected to one single hose and selectively operate. Further, the air suction means 20 and the air discharge means 30 are individually configured. However, it may be configured by a single device.

  On the other hand, when the sheet type FPCB 2 is brought into close contact with the seating groove 12 by the air suction means 20, in order to maintain a more reliable adhesion, the upper part of the sheet type FPCB 2 is sequentially passed through FIGS. The air blower 50 is provided.

  The air blower 50 is connected to a moving body 40 which is connected to a distance adjusting table 42 installed on the side of the vacuum chuck 10 and moved on the distance adjusting table 42, and is seated on the upper part of the vacuum chuck 10. A plurality of air discharge holes 52 are formed in the upper part of the sheet mold FPCB 2 to be moved, and the sheet mold FPCB 2 is moved to the upper part of the sheet mold FPCB 2 while being sequentially moved while being completely adhered to the seating groove 12 of the vacuum chuck 10. Configured to let

  At this time, unexplained reference numeral 45 is a motor, and 55 is an air supply means.

2 Sheet type FPCB
5 fixed frame 10 vacuum chuck 12 seating groove 14 air hole 20 air suction means 30 air discharge means 40 moving body 42 distance adjustment stand 50 air blower 52 air discharge hole

Claims (4)

In the vacuum adsorption / desorption device that adsorbs and desorbs the sheet type FPCB as a stage before the electrical performance inspection of the sheet type FPCB,
A seating groove 12 is formed on the top of the fixed frame 5 installed on the ground so that the seat-type FPCB 2 is seated. A plurality of air holes 14 are formed on the surface of the seating groove 12. A vacuum chuck 10;
Air suction means installed on the lower side of the vacuum chuck 10, communicates with the plurality of air holes 14 in vacuum, sucks air on the seating groove 12, and adsorbs the sheet type FPCB 2 to the surface of the seating groove 12. 20 and
Air discharge means installed on the lower side of the vacuum chuck 10, communicates with the plurality of air holes 14 in a vacuum, discharges air on the seating grooves 12, and detaches the sheet type FPCB 2 on the surface of the seating grooves 12. 30 and
A moving body 40 that is connected to a distance adjusting table 42 installed on a side of the vacuum chuck 10 and moves on the distance adjusting table 42;
A plurality of air discharge holes 52 are formed and connected to the moving body 40 and positioned on the upper part of the sheet type FPCB 2 seated on the upper part of the vacuum chuck 10, while discharging air at the upper part of the sheet type FPCB 2. A sheet type FPCB automatic vacuum adsorbing / desorbing device having a structure capable of being in close contact with each other, comprising an air blower 50 for closely attaching the sheet type FPCB2 to the seating groove 12 of the vacuum chuck 10 while sequentially moving.   2. The sheet type FPCB automatic vacuum adsorption / desorption apparatus according to claim 1, wherein the vacuum chuck is made of a ceramic material.   The air suction means 20 and the air discharge means 30 are connected to each other in a plurality of arrangements on the vacuum chuck 10 so as to operate sequentially with a time difference, so that the air suction means 20 and the air discharge means 30 are arranged on the seating groove 12 of the vacuum chuck 10. 2. The sheet type FPCB automatic vacuum adsorbing / desorbing device having a structure capable of sequentially contacting according to claim 1, wherein the sheet type FPCB2 is sequentially contacted. 2. The sheet type FPCB automatic vacuum adsorption / desorption apparatus according to claim 1, wherein the air suction means 20 and the air discharge means 30 are selectively used by being connected to a single hose. .