KR20130134806A - Automated absorbing-desorbing apparatus for sheet type fpcb - Google Patents

Abstract

The present invention relates to a sheet type FPCB automatic vacuum absorbing-desorbing device having a sequentially attachable structure. The vacuum absorbing-desorbing device absorbs and desorbs a sheet type FPCB as a previous step of an electric performance test of the FPCB to completely attach the FPCB to a vacuum chuck. The device includes the vacuum chuck included in the top of a fixing frame on the ground, having a receiving groove for the FPCB on the top, and having a plurality of air holes on a surface of the groove; an air absorbing unit installed on the bottom of the chuck and attaching the FPCB to the surface of the groove by absorbing air on the groove by being connected to the air holes; an air discharge unit installed on the bottom of the chuck, separating the FPCB from the surface by discharging the air into the groove by being connected to the air holes; a moving body moving on a distance adjusting bar installed on a side of the chuck by being connected with the distance adjusting bar; and an air blower placed on the top of the FPCB and attaching the FPCB to the groove of the chuck while sequentially moving and discharging the air on the top of the FPCB.

Description

Automated absorbing-desorbing apparatus for sheet type FPCB}

The present invention relates to an FPCB automatic vacuum desorption apparatus, and more particularly, to a sheet-type FPCB automatic vacuum desorption apparatus having a sequentially close structure that allows the sheet-type FPCB to be completely adhered to the vacuum chuck in a pre-inspection step of the sheet-type FPCB.

Generally, a printed circuit board (PCB) is a circuit line pattern formed of a conductive material such as copper on an electrically insulating substrate, and refers to a substrate immediately before mounting an electronic component.

PCBs are divided into flexible PCBs (FPCBs) made of easily bendable materials such as rigid PCBs made of phenol and epoxy and polyimides, depending on the type of substrate material.

Recently, as personal portable electronic devices such as mobile phones, PDAs and digital cameras are popularized, the circuit characteristics are stabilized, and small and light weight PCBs are used as main boards of personal portable electronic devices. It is mainly used as a circuit.

In order for components to be mounted on such FPCBs and used in electronic devices, they need to undergo external appearance, microsection and dimensional inspection, electrical performance inspection, and mechanical performance inspection.

Among them, the electrical performance test is to check the electrical characteristics required for the FPCB, and to determine the abnormality of the circuit pattern mounted on the FPCB and the function of the electric circuit.

The FPCB is divided into a sheet type and a roll type, and the worker has adhered by hand with a roller or the like to closely adhere the sheet type FPCB to the seating table before moving the conventional sheet type FPCB to the inspection table. When the sheet-like FPCB is brought into close contact with the conventional process, it is difficult to achieve a perfect contact between the sheet-like FPCB and the seating table, thereby causing a problem in inspection.

The present invention has been invented to solve the problems of the prior art as described above, the sheet-type FPCB automatic vacuum adsorption and desorption device having a sequentially close structure that allows the sheet-type FPCB is completely in contact with the vacuum chuck in the pre-inspection step of the sheet-type FPCB The purpose is to provide.

In order to realize the above object, the present invention is a vacuum adsorption and desorption apparatus for adsorbing and detaching a sheet-type FPCB as a step before the electrical performance test of the sheet-type FPCB, is provided on the top of the fixed frame installed on the ground, so that the sheet-type FPCB is seated A seating groove is formed in an upper portion, and a vacuum chuck having a plurality of air balls formed on a surface of the seating groove; An air suction means installed at a lower side of the vacuum chuck and in vacuum communication with a plurality of air holes to suck air on a seating groove to adsorb the sheet-like FPCB to the surface of the seating groove; An air discharge means installed at a lower side of the vacuum chuck and vacuumly communicating with a plurality of air holes to discharge air onto a seating groove to detach the sheet-like FPCB from the surface of the seating groove; A moving body connected to the distance adjuster installed on the side of the vacuum chuck and moved on the distance adjuster; Located in the upper part of the sheet-type FPCB is connected to the movable body and seated on the upper portion of the vacuum chuck, a plurality of air discharge holes are formed to move in sequence while discharging air from the upper portion of the sheet-type FPCB to closely adhere the sheet-type FPCB to the seating groove of the vacuum chuck It provides a sheet-type FPCB automatic vacuum adsorption and desorption device having a sequentially close structure characterized in that the air blower is made.

Sheet FPCB automatic vacuum adsorption and desorption apparatus having a structure that can be in close contact according to the present invention made in this way is installed so that the air chuck and the air blower for discharging the air in the upper portion of the vacuum chuck is formed with air suction means and air discharge means sequentially As a result, the sheet type FPCB can be automatically and completely adhered to the vacuum chuck used as the seating means of the sheet type FPCB as if it is pushed by a roller.

1 is a perspective view of a sheet-type FPCB automatic vacuum desorption apparatus having a sequentially close contact structure according to the present invention,
2 is a perspective view of a vacuum chuck according to the present invention;
3 is a side view showing the configuration of the air suction means and the air discharge means according to the present invention,
Figure 4 is a side view showing the configuration of the air blower according to the present invention
5 is an enlarged cross-sectional view of a main part of FIG. 4.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 5, the sheet-type FPCB automatic vacuum adsorption and desorption apparatus having a sequentially close contact structure according to the present invention is a vacuum desorption apparatus for adsorbing and desorbing the sheet-type FPCB as a preliminary step of electrical performance test of the sheet-type FPCB 2. The vacuum chuck 10, the air suction means 20, the air discharge means 30, the moving body 40 and the air blower (50).

The vacuum chuck 10 is a configuration for seating the sheet-like FPCB (2), is provided in the upper portion on the fixed frame (5) installed on the ground, the seating groove 12 in the upper portion so that the seat-shaped FPCB (2) is seated ) Is formed, and a plurality of air holes 14 in which air is moved are formed in the vertically and horizontally arranged on the surface of the seating groove 12.

The sheet-shaped FPCB 2 is detachably attached on the surface of the vacuum chuck 10 by the air moving through the air hole 14, and the air hole 14 may be formed as a micro hole. It is preferable to make the size of the hole about 0.01-0.5 mm.

If the diameter of the micropores is 0.01 mm or less, air is difficult to move. If the diameter is 0.5 mm or more, the air cross-sectional area of the air is wide, and the surface of the sheet-like FPCB 2 is fine when the sheet-like FPCB 2 is in close contact with the surface of the inspection table. Inserted into the hole, there is a risk of failing to achieve the optimum flat shape during the inspection.

In addition, although the vacuum chuck 10 in which the air hole 14 is formed is usually formed of a metal material, in the present invention, the sheet-like FPCB 2 is formed of a ceramic material to facilitate attachment and detachment.

The lower side of the vacuum chuck 10 is provided with air suction means 20 for sucking the air through the air hole (14). The air suction means 20 is installed at the lower side of the vacuum chuck 10 to suck the air around the surface of the seating groove 12 of the vacuum chuck 10 so that the sheet-like FPCB 2 is in close contact with the seating groove 12. To lose.

At this time, the air intake means 20 is not to be installed as one, but to be installed in a plurality of corresponding to the air hole 14 formed in the vertical and horizontal arrangement so as to sequentially suck the air.

As an embodiment, as shown in Figures 2 and 3 in the present invention, the air intake means 20 is formed of 12, the vacuum communication is installed in a plurality of air holes 14 are operated in staggered time slots sequentially By suctioning the air on the (12) to adsorb the sheet-like FPCB (2) in close contact with the surface of the seating groove 12 to realize a perfect close contact state without a poor adhesion while automating the process of sequentially contacting using a conventional roller will be.

After the sheet-type FPCB 2 is brought into close contact with the seating groove 12 using the air suction means 20, the sheet-shaped FPCB 2 is moved onto the seating groove 12 when the inspection process is completed. In this case, the sheet-type FPCB 2 is smoothly and sequentially removed by discharging air by using the air discharge means 30 installed on the lower side of the vacuum chuck 10.

The configuration of the air discharge means 30 is the same as the above-described air suction means 20, it is configured so that the operation is reversed. In other words, the air discharging means 30 is in vacuum communication with the plurality of air holes 14 to discharge air onto the seating grooves 12 to detach the sheet-like FPCB 2 from the surface of the seating grooves 12. .

The air suction means 20 and the air discharge means 30 is selectively operated by being integrally connected to one single hose as shown in FIG. 4, and also separates the air suction means 20 and the air discharge means 30 separately. It may be configured, but may be implemented as a single device.

On the other hand, in order to maintain a more secure adhesion when the seat-shaped FPCB (2) in close contact with the seating groove 12 by the air suction means 20, to sequentially pass through the top of the sheet-like FPCB (2) 1, 4 and As shown in FIG. 5, an air blower 50 is provided.

The air blower 50 is connected to the moving body 40 which is connected to the distance adjuster 42 is installed on the side of the vacuum chuck 10 is moved on the distance adjuster 42, the vacuum chuck 10 Located in the upper portion of the sheet-like FPCB (2) seated on the top of the plurality of air discharge hole 52 is formed to move the sequential while discharging air from the upper portion of the sheet-like FPCB (2) vacuum chuck the sheet-like FPCB (2) It is comprised so that it may fully adhere to the mounting groove 12 of (10).

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

2: sheet type FPCB 5: fixed frame
10: vacuum chuck 12: seating groove
14: air ball 20: air suction means
30: air discharge means 40: mobile body
42: distance control 50: air blower
52: air discharge hole

Claims (4)

In the vacuum adsorption and desorption apparatus for adsorption and desorption of sheet-type FPCB as a step before the electrical performance test of the sheet-type FPCB,
It is provided on the upper part of the fixed frame (5) is installed on the ground, the seating groove 12 is formed in the upper portion to seat the sheet-like FPCB (2), a plurality of air holes 14 on the surface of the seating groove 12 A vacuum chuck 10 formed;
It is installed on the lower side of the vacuum chuck 10, and is in vacuum communication with a plurality of air holes 14 to suck the air on the seating groove 12 to adsorb the sheet-like FPCB (2) to the surface of the seating groove 12 Air suction means 20;
It is installed on the lower side of the vacuum chuck 10, it is in vacuum communication with a plurality of air holes 14 to discharge the air on the seating groove 12 to remove the sheet-like FPCB (2) from the surface of the seating groove 12 To air discharge means (30);
A moving body 40 connected to the distance adjuster 42 installed on the side of the vacuum chuck 10 and moving on the distance adjuster 42;
It is connected to the movable body 40 is located on the upper portion of the sheet-like FPCB (2) which is seated on the upper portion of the vacuum chuck 10, a plurality of air discharge holes 52 are formed to form air on the upper portion of the sheet-like FPCB (2) The sheet-type FPCB automatic having a sequentially close structure characterized in that it comprises an air blower (50) to closely adhere to the seating groove 12 of the vacuum chuck 10 while being sequentially moved while discharging Vacuum adsorption and desorption device. The method of claim 1,
The vacuum chuck 10 is a sheet-type FPCB automatic vacuum desorption apparatus having a sequentially close structure, characterized in that formed of a ceramic material. The method of claim 1,
The air suction means 20 and the air discharge means 30 are installed on the vacuum chuck 10 in a plurality of arrangements, respectively, to be sequentially operated at a time difference on the seating groove 12 of the vacuum chuck 10. Sheet-type FPCB automatic vacuum adsorption and desorption apparatus having a sequentially closeable structure, characterized in that the sheet-like FPCB (2) is configured to be in close contact with each other. The method of claim 1,
The air suction means 20 and the air discharge means (30) is a sheet-type FPCB automatic vacuum adsorption and desorption device having a sequentially close structure, characterized in that it is selectively installed and connected to one hose.

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