CN112444645A

CN112444645A - Detection device and detection method using same

Info

Publication number: CN112444645A
Application number: CN201910886115.8A
Authority: CN
Inventors: 蔡俊良; 吕明宪; 陈思戎; 游蕙华
Original assignee: Endiamond Tech Co ltd
Current assignee: Endiamond Tech Co ltd
Priority date: 2019-09-03
Filing date: 2019-09-19
Publication date: 2021-03-05
Also published as: TW202111327A; TWI695170B

Abstract

The invention discloses a detection device capable of being assembled on an electronic product, which comprises a detection module, a box body, a detection platform, a brake unit, a flat cable socket and a detection flat cable; the detection platform is arranged on the outer surface of the box body, and the flat cable socket is arranged on the detection platform; the brake unit is arranged in the box body and comprises a lifting rod and a starting assembly connected with the lifting rod, a plate body is arranged at the tail end of the lifting rod, the plate body corresponds to the position of the detection platform, the detection module is arranged on the plate body, and the probe seat of the detection module corresponds to the position of the flat cable socket on the detection platform; therefore, the components can be rapidly inserted and assembled aiming at the object to be tested, so that the time efficiency during testing is effectively improved, and the technical characteristics and the purpose which are required to be claimed by the invention are achieved.

Description

Detection device and detection method using same

Technical Field

The invention relates to the field related to the testing technology of electronic products, in particular to a detection device for testing electronic products with PCBs or displays and a detection method using the detection device.

Background

The development of current science and technology is a refinement of the requirements of electronic product performance and quality index, and the development of function testing technology is closely related to the development of electronic product industry. In addition, due to the development of new test theory and the sequential optimization of test technical means, the test precision and the test technology are developed rapidly. Therefore, the electronic products with display (such as navigation display, car recorder, etc.) are mainly used to distinguish whether the electronic products are qualified or not when the electronic products are installed in the front and back of the object to be tested for functional detection.

However, if the existing testing jig or auxiliary tool commits to the single item test, in addition to the time and labor consuming test procedure and indirectly affecting the production efficiency, it is often necessary to perform the detection after inserting the flat cable or pin array for all the functional modules when analyzing whether the product is a bad product, and the repeated operation of inserting or releasing the pins is also complicated.

In view of the above, the present invention is directed to a jig or an auxiliary tool for a tester to insert or assemble an object to be tested quickly, so as to improve the efficiency of repeatedly inserting or releasing a wire or pin arrangement.

Disclosure of Invention

In view of the foregoing, the present invention provides a detection apparatus for detecting an electronic product having a PCB or a display, by which a component can be quickly inserted into an object to be tested, thereby effectively improving the time efficiency during testing.

To achieve the above object, the present invention provides a detecting device, which comprises at least one detecting module, a box, a detecting platform, a braking unit, at least one flat cable socket, and at least one detecting flat cable.

The at least one detection module comprises a base and a probe seat arranged on the base, and one end of the at least one detection flat cable is inserted into the probe seat of the detection module.

The box body is provided with an accommodating space which can be communicated with the outside.

The detection platform is arranged on the outer surface of the box body, and the at least one row of wire sockets are arranged on the detection platform.

The braking unit is arranged in the accommodating space of the box body and comprises a lifting rod which can be communicated with the outside and a starting component connected with the lifting rod, so that the lifting rod is controlled by the starting component to act; wherein, a plate body has been installed to the end of this lifter, and this plate body is corresponding to this testing platform's position, lets this at least one detection module set up on this plate body through this base, makes this at least one detection module's probe seat correspond to this at least one row of line socket's on this testing platform position.

Preferably, the starting assembly of the braking unit comprises a handle which can be communicated with the outside, a connecting rod which is connected to one end of the handle, a rotating member which is arranged on the connecting rod and a bearing member which is used for bearing the rotating member; the lifting rod of the braking unit is connected with the bearing piece of the starting component, so that the lifting rod and the plate body of the braking unit are controlled by the starting component to act.

Preferably, the starting assembly of the braking unit comprises an air pressure source, an electromagnetic valve and an air pressure valve which can be communicated with the outside, and the lifting rod of the braking unit is connected with the air pressure valve communicated with the starting assembly; the air pressure source and the electromagnetic valve are connected and communicated between the two through a first pipeline, and the electromagnetic valve and the air pressure valve are connected and communicated between the two through a second pipeline, so that the electromagnetic valve is used for controlling the air flow or air pressure from the air pressure source to flow through the electromagnetic valve and can be conducted to the air pressure valve, and the lifting rod and the plate body of the braking unit are controlled by the air flow or air pressure in the air pressure valve of the starting assembly to act.

Drawings

FIG. 1 is a perspective view of a detecting device according to embodiment 1 of the present invention;

FIG. 2 is a schematic view of a portion of the components of FIG. 1 at another angle;

FIG. 3 is an enlarged view of a portion of the components of FIG. 1;

FIG. 4 is an exploded perspective view of a portion of the detection module of FIG. 1;

FIG. 5 is a schematic view of another angle and an initial position shown in FIG. 2;

FIG. 6 is a schematic view of another angle and a detection position of FIG. 2;

FIG. 7 is a schematic initial position and perspective view of another detecting device according to embodiment 2 of the present invention;

FIG. 8 is a perspective view of a portion of the components of FIG. 7;

FIG. 9 is another perspective view of a portion of the components of FIG. 7;

FIG. 10 is an exploded perspective view of a portion of the detection module of FIG. 9;

FIG. 11 is a schematic view of an actuating assembly and another angle of FIG. 7;

FIG. 12 is a perspective view illustrating a detecting position of the detecting device shown in FIG. 7.

Description of the symbols:

1. 1A detection device

2. 2A detection module

21. 21A base

23. 23A probe seat

231. 231A metal guide pin

3. 3A box

31 accommodating space

5. 5A detection platform

6. 6A brake unit

61. 61A lifting rod

63. 63A plate body

7 starting assembly

71 handle

73 connecting rod

75 rotating part

77 carrying member

7A start-up subassembly

701A first pipeline

702A second line

71A air pressure source

73A electromagnetic valve

75A pneumatic valve

8. 8A bus socket

9. 9A detection flat cable

Detailed Description

In the following description, for the purpose of illustrating the technical contents and features of the present invention, directional terms such as "upper", "lower", "left", "right", "inner", "outer", "top" or "bottom" and the like mentioned in the description are only used as terms of description based on the normal use direction and are not intended to limit the claimed scope of the present invention, and sequencing terms such as "first", "second" or "third" and the like mentioned in the description are only used as terms of description for identifying components and are not used as terms of limitation of the claimed technical features or the claimed scope of the present invention.

Referring to fig. 1 to 6, a detecting device 1 for detecting an electronic product having a PCB or a display according to embodiment 1 of the present invention is disclosed. The detecting device 1 includes: two detection modules 2, a box 3, a detection platform 5, a brake unit 6, two flat cable sockets 8 and two sets of Flexible Printed Circuit (FPC) detection flat cables 9.

The box 3 has an open receiving space 31 communicating with the outside.

The testing platform 5 is disposed on the outer surface of the box 3, and the two flat cable sockets 8 are disposed on the testing platform 5 at intervals.

The braking unit 6 is disposed on the box 3, and the braking unit 6 includes a lifting rod 61 and a starting component 7 connected to the lifting rod 61, so that the lifting rod 61 is controlled by the starting component 7 to be actuated; a plate 63 is installed at the end of the lifting rod 61, and the plate 63 corresponds to the position of the detecting platform 5, so that the two detecting modules 2 are arranged on the plate 63 at intervals, and the two detecting modules 2 correspond to the positions of the two flat cable sockets 8 on the detecting platform 5 respectively.

Any of the detecting modules 2 includes a base 21 and a probe seat 23 installed on the base 21, and a plurality of metal leads 231 protruding from the probe seat 23 are disposed in the probe seat 23. It should be noted that one end of any of the detecting flat cables 9 is inserted into the probe seat 23 of the detecting module 2 and electrically connected to the plurality of metal leads 231, and the other end of any of the detecting flat cables 9 is electrically connected to an external control unit and can be controlled by the external control unit to transmit data or signals. In addition, depending on the number of the actual objects to be detected, only one detecting module 2 may be mounted on the plate 63 of the braking unit 6.

The starting assembly 7 comprises a handle 71, a connecting rod 73 with one end connected to the handle 71, a rotating member 75 disposed on the connecting rod 73, and a bearing member 77 for bearing the rotating member 75; the lifting rod 61 of the braking unit 6 is connected to the bearing member 77 of the actuating assembly 7, so that the lifting rod 61 and the plate 63 of the braking unit 6 are controlled by the actuating assembly 7 to operate.

Based on the above technical features regarding the components disclosed in embodiment 1 of the present invention, please refer to fig. 1 to 6, the detection method using the detection apparatus 1 disclosed in embodiment 1 of the present invention includes the following steps:

step a): providing the detecting device 1, mounting the two detecting modules 2 on the plate 63 of the braking unit 6 at intervals, so that the two detecting modules 2 correspond to the two flat cable sockets 8 on the detecting platform 5, respectively. It should be noted that, in step a), only one detecting module 2 may be mounted on the plate 63 of the braking unit 6 according to the number of the detected objects.

Step b): two objects to be detected (for example, electronic products with a PCB or a display) are provided and disposed on the detecting platform 5 of the detecting device 1, and the two objects to be detected are electrically connected to the two flat cable sockets 8 on the detecting platform 5, respectively. It should be noted that, in step b), only one of the detecting objects may be disposed at any position of the flat cable socket 8 on the detecting platform 5 according to the number of the detecting objects.

Step c): pulling the handle 71 of the actuating assembly 7 to move from an initial position toward a detection position, so that the connecting rod 73 rotates clockwise or counterclockwise along with the movement of the handle 71, and the rotating member 75 generates an acting force moving in the same direction as the handle 71 based on the supporting member 77, and is sufficient to drive the lifting rod 61 of the braking unit 6 to move vertically downward, so that the two detection modules 2 mounted on the plate 63 of the braking unit 6 also gradually move toward the two flat cable sockets 8 on the detection platform 5 along with the movement direction of the lifting rod 61, until the probe bases 23 of the two detection modules 2 are respectively connected to the two flat cable sockets 8, and then the electrical detection of the two detection objects can be performed. It should be noted that, in the step c), preferably, the plurality of metal leads 231 of the probe seat 23 of any one of the detecting modules 2 are inserted into the corresponding positions of the flat cable socket 8 so as to be electrically connected to the detecting platform 5.

Step d): after the two detection objects are electrically detected in step c), the handle 71 of the starting assembly 7 is pulled to move back and forth from the detection position to the initial position, so that the connecting rod 73 moves along with the handle 71 and rotates clockwise or counterclockwise along with the movement, the rotating member 75 generates a force back and forth in the same direction as the handle 71 again on the basis of the supporting member 77, and the force is enough to drive the lifting rod 61 of the braking unit 6 to move back and forth vertically, so that the plurality of metal guide pins 231 of the probe bases 23 of the two detection modules 2 originally connected to the two flat cable sockets 8 respectively are released, and gradually move away from the two flat cable sockets 8 on the detection platform 5 in the opposite directions until the two detection objects return to the initial position and stop.

Fig. 7 to 12 are also shown a detecting device 1A for detecting an electronic product having a PCB or a display according to embodiment 2 of the present invention. The detecting device 1A includes: two detection modules 2A, a box 3A, a detection platform 5A, a brake unit 6A, two flat cable sockets 8A, and two sets of Flexible Printed Circuit (FPC) detection flat cables 9A. The main structure of the detecting device 1A is similar to that of the first preferred embodiment of the disclosure, and the differences are:

the brake unit 6A is disposed on the box 3A, and the brake unit 6A includes a lifting rod 61A and a starting component 7A connected to the lifting rod 61A, so that the lifting rod 61A is controlled by the starting component 7A to be actuated; similarly, a plate 63A is mounted at the end of the lifting rod 61A, and the plate 63A corresponds to the position of the detecting platform 5A, so that the two detecting modules 2A are disposed on the plate 63A at intervals, and the two detecting modules 2A respectively correspond to the positions of the two flat cable sockets 8A on the detecting platform 5A.

The starting assembly 7A includes a pneumatic source 71A, an electromagnetic valve 73A and a pneumatic valve 75A, and the lifting rod 61A of the braking unit 6A is connected to the pneumatic valve 75A of the starting assembly 7A. The air pressure source 71A and the electromagnetic valve 73A are connected and communicated between the two through a first pipeline 701A, and the electromagnetic valve 73A and the air pressure valve 75A are connected and communicated between the two through a second pipeline 702A, so that the electromagnetic valve 73A is used for controlling the air flow or air pressure from the air pressure source 71A to flow through the electromagnetic valve 73A and be conducted to the air pressure valve 75A, thereby allowing the lifting rod 61A and the plate body 63A of the braking unit 6A to be controlled by the air flow or air pressure in the air pressure valve 75A of the starting assembly 7A to be actuated.

Based on the above technical features regarding the components disclosed in embodiment 2 of the present invention, referring to fig. 7 to 12, another detection method using the detection apparatus 1A disclosed in embodiment 2 of the present invention includes the following steps:

step a): providing the detecting device 1A, mounting the two detecting modules 2A on the plate 63A of the braking unit 6A at intervals, so that the two detecting modules 2A correspond to the positions of the two flat cable sockets 8A on the detecting platform 5A, respectively. It should be noted that, in step a), only one detecting module 2A may be installed on the plate 63A of the braking unit 6A according to the number of the actual detected objects.

Step b): two detecting objects (for example, electronic products with a PCB or a display) are provided and disposed on the detecting platform 5A of the detecting device 1A, and the two detecting objects are electrically connected to the two flat cable sockets 8A on the detecting platform 5A, respectively. In step b), only one of the objects to be detected may be disposed at any position of the flat cable socket 8A on the detecting platform 5A according to the number of the objects to be detected.

Step c): activating the air pressure source 71A of the activation assembly 7A to direct the air flow or air pressure to the solenoid valve 73A through the first line 701A and to the air pressure valve 75A through the second line 702A; at this time, the lifting rod 61A of the braking unit 6A controlled by the pneumatic valve 75A of the starting assembly 7A is moved from the initial position toward the detection position, so that the two detection modules 2A mounted on the plate 63A of the braking unit 6A are gradually moved toward the two flat cable sockets 8A of the detection platform 5A along with the movement of the lifting rod 61A until the probe bases 23A of the two detection modules 2A are respectively connected to the two flat cable sockets 8A, and then the electrical detection of the two detection objects can be performed. It should be noted that, in step c), the plurality of metal leads 231A of the probe seat 23A of any one of the detecting modules 2A are inserted into the corresponding positions of the flat cable socket 8A, so as to be electrically connected to the detecting platform 5A.

Step d): after the two detection objects are electrically detected in step c), the air pressure source 71A of the starting assembly 7A is turned off, so that the air flow or the air pressure is not guided to the electromagnetic valve 73A through the first pipeline 701A any more, and is not guided to the air pressure valve 75A through the second pipeline 702A any more; at this time, the lifting rod 61A of the braking unit 6A is no longer affected by the air flow or air pressure of the air pressure valve 75A of the starting assembly 7A, and further moves back upward, so that the plurality of metal guide pins 231A of the probe bases 23A of the two detection modules 2A originally respectively connected to the two flat cable sockets 8A are released, and gradually move in the opposite direction away from the two flat cable sockets 8A on the detection platform 5A until the two flat cable sockets 8A return to the initial position and stop.

Finally, it should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are given by way of illustration only, and are not intended to limit the scope of the invention as claimed.

Claims

1. A detection device, comprising:

the device comprises at least one detection module, a box body, a detection platform, a brake unit, at least one flat cable socket and at least one detection flat cable;

the at least one detection module comprises a base and a probe seat arranged on the base, and one end of the at least one detection flat cable is inserted into the probe seat of the detection module;

the box body is provided with an accommodating space which can be communicated with the outside;

the detection platform is arranged on the outer surface of the box body, and the at least one row of wire sockets are arranged on the detection platform;

2. The detecting device according to claim 1, wherein the actuating assembly of the braking unit comprises a handle capable of communicating with the outside, a connecting rod connected to one end of the handle, a rotating member disposed on the connecting rod, and a bearing member for bearing the rotating member; the lifting rod of the braking unit is connected with the bearing piece of the starting component, so that the lifting rod and the plate body of the braking unit are controlled by the starting component to act.

3. The detecting device according to claim 1, wherein the actuating assembly of the braking unit comprises an air pressure source, an electromagnetic valve and an air pressure valve, the air pressure source, the electromagnetic valve and the air pressure valve being capable of being communicated with the outside, and the lifting rod of the braking unit is connected to the air pressure valve communicated with the actuating assembly; the air pressure source and the electromagnetic valve are connected and communicated between the two through a first pipeline, and the electromagnetic valve and the air pressure valve are connected and communicated between the two through a second pipeline, so that the electromagnetic valve is used for controlling the air flow or air pressure from the air pressure source to flow through the electromagnetic valve and can be conducted to the air pressure valve, and the lifting rod and the plate body of the braking unit are controlled by the air flow or air pressure in the air pressure valve of the starting assembly to act.

4. The detecting device according to any one of claims 1 to 3, wherein the probe seat of the at least one detecting module is provided therein with a plurality of metal leads protruding from the probe seat, such that one end of the at least one detecting cable is inserted into the probe seat of the detecting module to form electrical connection with the plurality of metal leads.

5. The detecting device according to any one of claims 1 to 3, wherein the other end of the at least one detecting cable is electrically connected to an external control unit and is controlled by the external control unit to transmit data or signals.

6. A testing method using the testing device as claimed in claim 2, wherein the probe seat of the at least one testing module of the testing device is provided with a plurality of metal leads protruding from the probe seat, so that one end of the at least one testing cable is inserted into the probe seat of the testing module to form electrical connection with the plurality of metal leads; the detection method comprises the following steps:

a) providing the detection device, and installing the at least one detection module on the plate body of the brake unit through the base, so that the probe seat of the at least one detection module corresponds to the position of the at least one row of wire sockets on the detection platform;

b) providing at least one detection object, arranging the detection object on a detection platform of the detection device, and electrically connecting the at least one detection object to the at least one row of wire socket on the detection platform;

c) pulling the handle of the starting assembly to move from an initial position to a detection position, so that the connecting rod rotates clockwise or anticlockwise along with the movement of the handle, the rotating piece generates an acting force which moves in the same direction as the handle on the basis of the bearing piece and is enough to drive the lifting rod of the braking unit to vertically move downwards, the at least one detection module arranged on the plate body of the braking unit also gradually moves towards the direction of the at least one row of wire sockets on the detection platform along with the movement direction of the lifting rod until the plurality of metal guide pins of the probe seat of the at least one detection module are respectively connected with the at least one row of wire sockets, and then the electrical detection can be carried out on the at least one detected object; and

d) after the electrical property detection of the at least one object to be detected is completed, the handle of the starting assembly is pulled to move back and forth from the detection position to the initial position, the connecting rod rotates clockwise or counterclockwise along with the movement of the handle, the rotating part generates an acting force which moves back and forth in the same direction as the handle again by taking the bearing part as a reference, and the acting force is enough to drive the lifting rod of the braking unit to move back and forth vertically, so that the plurality of metal guide pins of the probe seat of the at least one detection module originally connected and arranged in the at least one wire arranging socket are released, and gradually move away from the at least one wire arranging socket on the detection platform in the opposite direction until the at least one wire arranging socket returns to the initial position and stops.

7. The detecting method according to claim 6, wherein the other end of the at least one detecting cable is electrically connected to an external control unit and is controlled by the external control unit to transmit data or signals.

8. A testing method using the testing device as claimed in claim 3, wherein the probe seat of the at least one testing module of the testing device is provided with a plurality of metal leads protruding from the probe seat, so that one end of the at least one testing cable is inserted into the probe seat of the testing module to form electrical connection with the plurality of metal leads; the detection method comprises the following steps:

c) starting the air pressure source of the starting assembly to lead the air flow or air pressure to the electromagnetic valve through the first pipeline and to the air pressure valve through the second pipeline, and moving the lifting rod of the braking unit controlled by the air pressure valve of the starting assembly from an initial position to a detection position, so that the at least one detection module arranged on the plate body of the braking unit gradually moves to the direction of the at least one row of wire sockets on the detection platform along with the movement of the lifting rod until the plurality of metal guide pins of the probe seat of the at least one detection module are respectively connected with the at least one row of wire sockets, and then carrying out electrical detection on the at least one detected object; and

d) after the electrical detection of the at least one object is completed, the air pressure source of the starting assembly is closed, so that the air flow or the air pressure is not guided to the electromagnetic valve through the first pipeline any more, and is not guided to the air pressure valve through the second pipeline any more, the lifting rod of the braking unit is not influenced by the air flow or the air pressure of the air pressure valve of the starting assembly and generates resetting movement, the plurality of metal guide pins of the probe seat of the at least one detection module which are originally respectively connected in the at least one row of wire sockets can be released, and the metal guide pins gradually move in the opposite direction away from the at least one row of wire sockets on the detection platform until the metal guide pins are reset to the initial position and then stop.

9. The detecting method according to claim 8, wherein the other end of the at least one detecting cable is electrically connected to an external control unit and is controlled by the external control unit to transmit data or signals.