CN105467299A - FPCB automatic test device - Google Patents

Abstract

The invention discloses an FPCB automatic test device, which comprises a work bench (2); the work bench (2) at least comprises two adjacent work places (4) and a loading position (6) and an unloading position (8), wherein the loading position (6) and the unloading position (8) are adjacent to one of the two work places (4) respectively. The FPCB automatic test device also comprises test mechanisms (10) right above the work places (4) and positioning mechanisms (18) right above the test mechanisms (10). The problem which exists in the prior art is solved, and FPCB automatic accurate measuring is realized.

Description

A kind of FPCB ATE (automatic test equipment)

Technical field

The present invention relates to a kind of FPCB ATE (automatic test equipment).

Background technology

FPCB is a kind of printed circuit board (PCB) with figure utilizing flexible parent metal to make, and it is widely used among various electronic and electrical equipment, as mobile phone, and panel computer, automotive electronics.FPCB feature is that kind is many, updates fast.FPCB is manufactured by OEM mostly, and the manufacturer of FPCB many times will produce hundreds of FPCB simultaneously.Because the quality control requirement of client to FPCB is high, all FPCB dispatched from the factory have to pass through ICT and the FCT test of 100%, and some even needs to carry out burning.Current FPCB test is carried out substantially or manually, and efficiency is low, and error is many, poor reliability.So increasing FPCB manufacturer proposes the demand of FPCB test automation.China is FPCB big producing country, and the robotization of FPCB test not only can improve the production efficiency of FPCB, also can strengthen China in the leading position of FPCB production field simultaneously.

Summary of the invention

The object of this invention is to provide a kind of FPCB automatic measurement mechanism.

For solving the problem, the invention provides a kind of FPCB ATE (automatic test equipment), comprising worktable, described worktable at least comprises two adjacent working positions and upper material level adjacent with one of them working position respectively and lower material level, it is characterized in that, also comprises:

-be positioned at mechanism for testing directly over described working position, described mechanism for testing comprises the fixed frame of rectangular configuration, the adjuster bar be slidably connected on described fixed frame, and to be slidably connected on described adjuster bar and the measuring head moved up and down under the driving of jacking gear, described adjuster bar is driven can be moved reciprocatingly along the first straight path wherein parallel on one side with described fixed frame by the first propulsion system, described measuring head is also provided with the second propulsion system driving it to move reciprocatingly along the second straight path vertical with described first straight path;

-be positioned at detent mechanism directly over described mechanism for testing, described detent mechanism comprises the positioning framework be fixedly installed, the 3rd propulsion system being positioned at the locating piece on described positioning framework and drive described locating piece to move reciprocatingly along described 3rd straight path and the 4th straight path respectively and the 4th propulsion system, described first straight path is parallel with described 3rd straight path, described second straight path is parallel with described 4th straight path, also infrared emittance is provided with below described locating piece, photoelectric sensor is provided with above described measuring head, after described photoelectric sensor receives the infrared signal that described measuring head sends, energy controls described first propulsion system and the second propulsion system quit work.

As a further improvement on the present invention, two described working positions, upper material level and lower material levels are matrix arrangements.

As a further improvement on the present invention, described positioning framework comprises the fixed bar arranged along the parallel lines with described 3rd track, and driven by the 3rd propulsion system, be slidably connected at the motion bar on described fixed bar, described locating piece is driven by the 4th propulsion system, is slidably connected on described motion bar.

As a further improvement on the present invention, described first propulsion system, the second propulsion system, the 3rd propulsion system and the 4th propulsion system are cylinder.

As a further improvement on the present invention, described first propulsion system, the second propulsion system, the 3rd propulsion system and the 4th propulsion system control by PLC, and the motion initial point of described first propulsion system, the second propulsion system, the 3rd propulsion system and the 4th propulsion system is the central point of described worktable.

Beneficial effect of the present invention is, the invention solves problem in prior art, can realize automatically accurately measuring of FPCB.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention;

Wherein: 2-worktable; 4-working position; The upper material level of 6-; Material level under 8-; 10-mechanism for testing; 12-fixed frame; 14-adjuster bar; 16-measuring head; 18-detent mechanism; 19-positioning framework; 20-locating piece; 22-fixed bar; 24-motion bar.

Embodiment

Below the specific embodiment of the present invention is described in further detail.

As shown in Figure 1, the present invention includes worktable 2, described worktable 2 at least comprises two adjacent working positions 4 and upper material level 6 adjacent with one of them working position 4 respectively and lower material level 8, it is characterized in that, also comprises:

-be positioned at mechanism for testing 10 directly over described working position 4, described mechanism for testing 10 comprises the fixed frame 12 of rectangular configuration, be slidably connected at the adjuster bar 14 on described fixed frame 12, and to be slidably connected on described adjuster bar 14 and the measuring head 16 moved up and down under the driving of jacking gear, described adjuster bar 14 is driven can be moved reciprocatingly along the first straight path wherein parallel on one side with described fixed frame 12 by the first propulsion system, described measuring head 16 is also provided with the second propulsion system driving it to move reciprocatingly along the second straight path vertical with described first straight path,

-be positioned at detent mechanism 18 directly over described mechanism for testing 10, described detent mechanism 18 comprises the positioning framework 19 be fixedly installed, the 3rd propulsion system being positioned at the locating piece 20 on described positioning framework 19 and drive described locating piece 20 to move reciprocatingly along described 3rd straight path and the 4th straight path respectively and the 4th propulsion system, described first straight path is parallel with described 3rd straight path, described second straight path is parallel with described 4th straight path, also infrared emittance is provided with below described locating piece 20, photoelectric sensor is provided with above described measuring head 16, after described photoelectric sensor receives the infrared signal that described measuring head 16 sends, energy controls described first propulsion system and the second propulsion system quit work.

As a further improvement on the present invention, two described working position 4, upper material level 6 and lower material levels 8 are in matrix arrangements.

As a further improvement on the present invention, described positioning framework 19 comprises the fixed bar 22 arranged along the parallel lines with described 3rd track, and driven by the 3rd propulsion system, be slidably connected at the motion bar 24 on described fixed bar 22, described locating piece 20 is driven by the 4th propulsion system, is slidably connected on described motion bar 24.

As a further improvement on the present invention, described first propulsion system, the second propulsion system, the 3rd propulsion system and the 4th propulsion system are cylinder.

As a further improvement on the present invention, described first propulsion system, the second propulsion system, the 3rd propulsion system and the 4th propulsion system control by PLC, and the motion initial point of described first propulsion system, the second propulsion system, the 3rd propulsion system and the 4th propulsion system is the central point of described worktable 2.

Concrete principle of the present invention is as follows:

(1) arrange working position 4, upper material level 6 and lower material level 8 can carry out testing and upper and lower workpiece, and two working positions 4 can ensure to carry out FCT and ICT simultaneously simultaneously;

(2) when testing, its degree of accuracy is realized by detent mechanism 18, the work of detent mechanism 18 is realized by the 3rd propulsion system and these two cylinders of the 4th propulsion system, the impulse stroke of cylinder is controlled by PLC, first the 3rd propulsion system (cylinder) drive rear motion bar 24 to move to the position of setting along Z axis, then the 4th propulsion system (cylinder) work, drive locating piece 20 to move to the position of setting along X-axis, now locating piece 20 is positioned at directly over measured position;

(3) first propulsion system, the second propulsion system respectively regulating and controlling bar 14 and measuring head 16 move, when measuring head 16 moves to immediately below locating piece 20, photoelectric sensor on measuring head 16 is receive the infrared ray that below locating piece 20, infrared emittance sends, thus control the first propulsion system and the second propulsion system out of service, now measuring head 16 is positioned at immediately below measured position, and then jacking gear drives measuring head 16 decline to test.

Above embodiment is only the present invention's a kind of embodiment wherein, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (5)

1. a FPCB ATE (automatic test equipment), comprise worktable (2), described worktable (2) at least comprises two adjacent working positions (4) and upper material level (6) adjacent with one of them working position (4) respectively and lower material level (8), it is characterized in that, also comprise:

-be positioned at mechanism for testing (10) directly over described working position (4), described mechanism for testing (10) comprises the fixed frame (12) of rectangular configuration, be slidably connected at the adjuster bar (14) on described fixed frame (12), and be slidably connected at the upper and measuring head (16) moved up and down under the driving of jacking gear of described adjuster bar (14), described adjuster bar (14) is driven can be moved reciprocatingly along the first straight path wherein parallel on one side with described fixed frame (12) by the first propulsion system, described measuring head (16) is also provided with the second propulsion system driving it to move reciprocatingly along the second straight path vertical with described first straight path,

-be positioned at detent mechanism (18) directly over described mechanism for testing (10), described detent mechanism (18) comprises the positioning framework (19) be fixedly installed, the 3rd propulsion system being positioned at the locating piece (20) on described positioning framework (19) and drive described locating piece (20) to move reciprocatingly along described 3rd straight path and the 4th straight path respectively and the 4th propulsion system, described first straight path is parallel with described 3rd straight path, described second straight path is parallel with described 4th straight path, described locating piece (20) below is also provided with infrared emittance, described measuring head (16) top is provided with photoelectric sensor, after described photoelectric sensor receives the infrared signal that described measuring head (16) sends, energy controls described first propulsion system and the second propulsion system quit work.

2. a kind of FPCB ATE (automatic test equipment) according to claim 1, is characterized in that, two described working positions (4), upper material level (6) and lower material levels (8) are in matrix arrangements.

3. a kind of FPCB ATE (automatic test equipment) according to claim 2, it is characterized in that, described positioning framework (19) comprises the fixed bar (22) arranged along the parallel lines with described 3rd track, and driven by the 3rd propulsion system, be slidably connected at the motion bar (24) on described fixed bar (22), described locating piece (20) is driven by the 4th propulsion system, is slidably connected on described motion bar (24).

4. a kind of FPCB ATE (automatic test equipment) according to claim 3, is characterized in that, described first propulsion system, the second propulsion system, the 3rd propulsion system and the 4th propulsion system are cylinder.

5. a kind of FPCB ATE (automatic test equipment) according to claim 4, it is characterized in that, described first propulsion system, the second propulsion system, the 3rd propulsion system and the 4th propulsion system control by PLC, and the motion initial point of described first propulsion system, the second propulsion system, the 3rd propulsion system and the 4th propulsion system is the central point of described worktable (2).