TW201925809A - Continuous automatic inspection apparatus that includes a plurality of carrying devices, a plurality of inspection fixtures, a support frame, an inspection device, a reading device, and a driving member - Google Patents

Continuous automatic inspection apparatus that includes a plurality of carrying devices, a plurality of inspection fixtures, a support frame, an inspection device, a reading device, and a driving member Download PDF

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Publication number
TW201925809A
TW201925809A TW106143279A TW106143279A TW201925809A TW 201925809 A TW201925809 A TW 201925809A TW 106143279 A TW106143279 A TW 106143279A TW 106143279 A TW106143279 A TW 106143279A TW 201925809 A TW201925809 A TW 201925809A
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Taiwan
Prior art keywords
detecting
automatic
reading
disposed
support frame
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Application number
TW106143279A
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Chinese (zh)
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TWI636270B (en
Inventor
謝協利
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昀業科技有限公司
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Priority to TW106143279A priority Critical patent/TWI636270B/en
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Publication of TWI636270B publication Critical patent/TWI636270B/en
Publication of TW201925809A publication Critical patent/TW201925809A/en

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Abstract

The present invention discloses a continuous automatic inspection apparatus that is arranged on an inspection host machine. The continuous automatic inspection apparatus at least includes a plurality of carrying devices, a plurality of inspection fixtures, a support frame, an inspection device, a reading device, and a driving member. As such, the continuous automatic inspection apparatus provides a hardware design that allows at last one circuit board to be inspected on the inspection fixtures that are on the carrying devices and effectively uses a control member and the driving member to drive the inspection device to move along a plurality of rails in order to inspect all sorts of parameters and information of the circuit board for effectively achieving primary advantages of increasing the speed and efficiency of inspection of circuit boards.

Description

Continuous automatic detection equipment
This creation is about a continuous automatic detection device, especially an automatic detection device for improving the detection speed and efficiency of a circuit board.
According to the current electrical products, in order to achieve easier control and reduce the production process, when designing electrical products, designers will modularize the control devices or operating devices that control home appliances on the circuit board. Especially in today's digital information products, all functions come from the circuit board, and various electronic components and electronic circuits on the circuit board are combined with each other to achieve different control functions.
The early circuit board production method was almost exclusively produced by manual or semi-automatic methods, that is, the electronic components were manually connected to the circuit board, and the electronic components were soldered to the circuit board through the sir, and finally manually. Subtracting the excess feet; with the popularity of production line automation and modularization, automated production lines can be purchased for a large number of production processes during circuit board re-production to significantly reduce the manufacturing cost of the board; regardless of the production of the board The method is manual, semi-automatic or automatic. It must pass various types of tests before leaving the factory, such as electromagnetic wave test, power consumption test or anti-interference test, so that the parameters of the circuit board can meet the requirements, and the circuit board In the test, the test fixture must be designed according to the type of the board and the test type. The tester must place the board to be tested on the test fixture, and then press the test device down on the board to start the test. After the board test is completed, follow the original method, so that it is not only time-consuming to take the board manually. Moreover, when the test device is pressed down, it is easy for some people to suffer from the disadvantages of the loss and consume more test costs; therefore, how to effectively improve the detection speed and efficiency of the circuit board by the innovative hardware design is the circuit board detection related industry. Development companies and related researchers need to continuously strive to overcome and solve problems.
The reason is that the creators, in view of this, and through their rich professional knowledge and years of practical experience, have improved and created a continuous automatic detection device, which aims to provide a speed and efficiency for improving the detection speed of the circuit board. The automatic detecting device mainly uses the hardware design of the detecting fixture for placing at least one circuit board to be detected on the carrying device, thereby effectively driving the detecting device and the driving member to drive the detecting device on the plurality of sliding rails, Detecting various parameters and information on the circuit board does achieve the main advantages of improving the detection speed and efficiency of the board.
According to the purpose of the present invention, a continuous automatic detecting device is provided, which is disposed on a detecting host, wherein the continuous automatic detecting device comprises at least a plurality of carrying devices, a plurality of detecting fixtures, a supporting frame and a detecting device. a reading device, and a driving member; each of the supporting devices is provided with a moving component under the group; each detecting fixture is correspondingly disposed above the carrying device; the supporting frame is movably disposed on the detecting machine The detecting device is disposed below the support frame, and the detecting device is movable to move above the detecting fixture; the reading device is disposed above the support frame corresponding to the detecting device; and the driving component is electrically connected and detected The device and the reading device drive the detecting device and the reading device simultaneously.
In an embodiment of the present invention, the moving component can be further assembled on a first sliding rail, and the moving component is attached to the first sliding rail for displacement in the X-axis direction.
In one embodiment of the present creation, the continuity automatic detecting device may be further provided with a control member that drives and controls the displacement of the moving assembly.
In an embodiment of the present invention, a detection platform may be further disposed under the detection fixture.
In an embodiment of the present invention, a circuit board having a code and at least one light emitting diode may be further disposed above the detecting platform.
In one embodiment of the present invention, the bar code is disposed at one of a position above or below the circuit board.
In one embodiment of the present invention, the detecting device is electrically connected to an analog load component when the bar code is disposed above the circuit board.
In one embodiment of the present invention, when the bar code is disposed below the circuit board, the detection platform is provided with an opening, and the bar code is located above the opening.
In an embodiment of the present invention, a lower one of the detection platform and a second mirror are respectively disposed under the detection platform.
In one embodiment of the present invention, the first mirror has a first mirror surface that is beveled.
In an embodiment of the present invention, the second mirror has a second mirror surface disposed corresponding to the first mirror surface.
In an embodiment of the present invention, a sub-support frame may be further disposed between the support frame and the inspection machine.
In an embodiment of the present invention, the sub-support frame and the detecting machine are further provided with at least one second sliding rail, and the sub-supporting frame is attached to the second sliding rail for displacement in the Y-axis direction.
In an embodiment of the present invention, a third slide rail may be further disposed between the support frame and the sub-support frame, and the support frame drives the detecting device and the reading device to perform displacement in the Z-axis direction on the third slide rail.
In an embodiment of the present creation, the detecting device may be further provided with at least one probe to detect the circuit board.
In one embodiment of the present creation, the reading device is a code machine to read the barcode.
In one embodiment of the present invention, the reading device is further electrically connected to a PCL interface, and the reading device transmits the read bar code information to the PCL interface or the PC interface display.
In an embodiment of the present invention, a camera module may be further disposed on the reading device.
In one embodiment of the present invention, the camera module is electrically connected to the PCL interface or the PC interface, and the camera module captures one of the brightness or chromaticity of the LED and transmits the signal to the PCL interface or the PC interface. display.
In one embodiment of the present creation, the continuity automatic detecting device may be further provided with two corresponding sensors.
In one embodiment of the present creation, the sensor is electrically coupled to the driver.
Therefore, the automatic automatic detecting device of the present invention mainly uses the hardware design of the detecting jig for placing at least one circuit board to be tested on the carrying device, and effectively drives the detecting device in the plurality of control members and the driving member. The movement on the slide rails to detect various parameters and information on the circuit board does achieve the main advantages of improving the detection speed and efficiency of the circuit board.
In order to understand the technical characteristics, content and advantages of the creation and the effects that can be achieved by the examiner, the author will use the drawings in detail and explain the following in the form of the examples, and the drawings used therein The subject matter is only for the purpose of illustration and supplementary instructions. It is not necessarily the true proportion and precise configuration after the implementation of the original creation. Therefore, the proportions and configuration relationships of the attached drawings should not be interpreted or limited in the actual implementation scope. First described.
First, please refer to FIG. 1 and FIG. 2, which is a right side view of the device according to a preferred embodiment of the automatic continuity detecting device of the present invention, and a left side view of the device, wherein the automatic continuity detecting device of the present invention ( 1) is disposed on a detection host (2), and the continuity automatic detection device (1) includes at least:
a plurality of carrying devices (11), each of the supporting devices (11) is provided with a moving component (111); and the moving component (111) can be further assembled on a first sliding rail (112) The moving component (111) can be displaced in the X-axis direction on the first sliding rail (112); further, the continuity automatic detecting device (1) can further be provided with a control member (17), The control member (17) drives and controls the displacement of the moving assembly (111); in a preferred embodiment of the present invention, the continuity automatic detecting device (1) includes two carrying devices (11), each of which The moving component (111) is disposed under the carrying device (11), and the moving component (111) is disposed above the first sliding rail (112) and disposed inside the detecting machine (2) The control member (17) is configured to drive the moving component (111) to perform displacement in the X-axis (front and rear) direction on the first sliding rail (112);
a plurality of detection fixtures (12), each of the detection fixtures (12) being disposed above the carrier device (11); in addition, the detection fixture (12) may further include a detection platform (121) Further, above the detection platform (121), a circuit board (3) having a code (31) and at least one light-emitting diode (not shown) may be further disposed; in addition, the barcode (31) Is disposed at a position above or below the circuit board (3); in a preferred embodiment of the present invention, the detection fixture is disposed correspondingly above each of the carrying devices (11) ( 12), and the detecting fixture (12) includes the detecting platform (121), and the detecting board (121) is placed with the circuit board (3) above, and the upper side of the circuit board (3) is set The bar code (31); please refer to FIG. 3 together, which is a schematic diagram of the detection jig of the second embodiment of the present invention, wherein the bar code (31) is set on the circuit board. (3) below, the detection platform (121) is provided with an opening (1211), and the barcode (31) is located above the opening (1211); Below the detection platform (121), a corresponding first mirror (5) and a second mirror (6) are respectively disposed; in addition, the first mirror (5) has a beveled surface. a first mirror surface (51); further, the second mirror (6) has a second mirror surface (61) disposed corresponding to the first mirror surface (51); In the example, the barcode (31) is disposed under the circuit board (3), and the detection platform (121) is provided with the opening (1211) corresponding to the barcode (31), and the detection platform (121) The lower part is respectively provided with a first mirror (5) having a first mirror surface (51) having a beveled surface, and a second mirror surface (61) corresponding to the first mirror surface (51). The second mirror (6);
A support frame (13) is movably disposed on the detecting machine (2); further, a sub-support frame may be further disposed between the support frame (13) and the detecting machine (2) ( 131); further, between the sub-support frame (131) and the detecting machine (2), at least one second sliding rail (132) may be further disposed, and the sub-supporting frame (131) is attached to the second The slide rail (132) is displaced in the Y-axis direction; further, a third slide rail (133) is further disposed between the support frame (13) and the sub-support frame (131), the support frame (13) Driving the detecting device (14) and the reading device (15) to perform displacement in the Z-axis direction on the third sliding rail (133); in a preferred embodiment of the present invention, the supporting frame (13) It is movably disposed on the detecting machine (2), and a sub-support frame (131) is disposed between the support frame (13) and the detecting machine (2), and the sub-support frame (131) And a second sliding rail (132) is disposed between the detecting machine (2), so that the sub-supporting frame (131) can perform a Y-axis (left and right) direction on the second sliding rail (132) Displacement, and the support frame (13) and the sub-support frame (131) are provided with The third sliding rail (133), the supporting frame (13) can drive the detecting device (14) and the reading device (15) to perform displacement in the Z-axis (up and down) direction on the third sliding rail (133) ;
A detecting device (14) is disposed below the support frame (13), and the detecting device (14) is movable to move above the detecting jig (12); in addition, when the bar code (31) The detecting device (14) is electrically connected to an analog load component (4) when disposed above the circuit board (3); and the detecting device (14) is further provided with at least one probe (141). For detecting the circuit board (3); please refer to FIG. 4, which is a schematic diagram of a detecting device of a preferred embodiment of the automatic continuity detecting device of the present invention, wherein the circuit board (3) is placed Above the detection platform (121), the detecting device (14) is operated by the first sliding rail (112), the second sliding rail (132), and the third sliding rail (133). Moving to the top of the circuit board (3) on the test fixture (12), and the detecting device (14) is provided with a plurality of probes (141) for detecting the circuit board (3);
A reading device (15) is disposed above the support frame (13) corresponding to the detecting device (14); further, the reading device (15) is a code machine for reading the bar code (31) Furthermore, the reading device (15) can be further electrically connected to a PCL interface (18) or a PC interface, and the reading device (15) transmits the read barcode (31) information to the PCL interface. (18) or PC interface display; please refer to FIG. 5 together, which is a bar code reading diagram of a preferred embodiment of the automatic continuity detecting device, wherein the bar code (31) is set in the circuit When the upper part of the board (3) is present, the reading device (15) which is presented in the barcode mode and is disposed on the support frame (13) is the first slide rail (112) and the second slide rail (132). And the third slide rail (133) moves to the top of the circuit board (3) on the test fixture (12) for reading the information of the barcode (31); Referring to FIG. 6, a schematic diagram of bar code reading according to a second preferred embodiment of the automatic continuity detecting device of the present invention, wherein when the bar code (31) is disposed under the circuit board (3), the bar code machine is used. Aspect The reading device (15) disposed on the support frame (13) is mutually coupled by the first slide rail (112), the second slide rail (132), and the third slide rail (133). Operating to move above the first mirror (5), and the reading device (15) emits a light beam (151) toward the first mirror (5), and the beam (151) is via the first A first mirror surface (51) of a mirror (5) is refracted to the second mirror (6), and then refracted upward by a second mirror surface (61) of the second mirror (6), the light beam (151) Projected onto the bar code (31) of the circuit board (3) via the opening (1211), the information of the bar code (31) is reflected downward through the light beam (151) to the second mirror (6), and then Refracted by the second mirror surface (61) of the second mirror (6) to the first mirror (5), and finally refracted upward by the first mirror surface (51) of the first mirror (5) to the reading a device (15) for reading information of the barcode (31), the reading device (15) transmitting the information of the barcode (31) to a PCL interface (18) or a PC interface electrically connected thereto Recording and management of the test data of the circuit board (3);
A driving member (16) is electrically connected to the detecting device (14) and the reading device (15), and the driving member (16) simultaneously drives the detecting device (14) and the reading device (15) to actuate In a preferred embodiment of the present invention, the driving member (16) is electrically connected to the detecting device (14) and the reading device (15), and the driving member (16) can drive the first The slide rail (112), the second slide rail (132), and the third slide rail (133) operate to drive the detecting device (14) on the support frame (13) and the reading device (15) ) Move to the desired location.
In addition, the reading device (15) is further provided with a camera module (19), wherein the camera module (19) is electrically connected to the PCL interface (18) or the PC interface, and the camera module (19) The system captures one of the brightness or chromaticity of the LED and transmits it to the PCL interface (18) or PC interface display; please refer to Figures 7 and 8 for the creation. The automatic detection device of the continuous automatic detection device has the camera module detection schematic diagram (1) and the camera module detection diagram (2), wherein the detection device (14) is provided with a plurality of corresponding light-emitting diodes a hole (142) at a position for the light (32) of the light-emitting diode to be emitted by the camera module (19), and the camera module (19) further captures the brightness or color of the light One of the signals is transmitted to the PCL interface (18) or PC interface that is electrically connected thereto, and an abnormal LED can be viewed through the record for maintenance.
Furthermore, the continuity automatic detecting device (1) can be further provided with two corresponding sensors (7); please refer to FIG. 9 together, which is a preferred automatic continuity detecting device. A schematic diagram of the sensor operation of the embodiment, wherein when the sensors (7) sense that a foreign object or a limb is close, an audible warning or a flashing warning is issued, and the driving member (16) electrically connected thereto is Slow down the movement speed, in order to have more buffer time for the operator to react, in order to improve the safety of handling.
That is to say, please refer to FIG. 10 to FIG. 15 together, which is a schematic diagram of the operation of the device (1), the device operation diagram (2), and the device operation diagram of a preferred embodiment of the automatic continuity detecting device. (3) Schematic diagram of equipment operation (4), equipment operation diagram (5), and equipment operation diagram (6). When a tester wants to test the performance of the circuit board (3), the continuity of the creation can be used. The automatic detecting device (1) performs detection; first, the detector must separately place two of the circuit boards (3) on the detecting platforms (121) of the two detecting fixtures (12); and then, use the control members (17) driving the moving component (111) to move inward on the first sliding rail (112) (as shown in FIG. 10); connecting, driving the supporting frame (13) to the third sliding rail (133) Moving up and down, when the probe (141) of the detecting device (14) approaches the circuit board (3), the detecting operation of the circuit board (3) is started (as shown in FIG. 11); then, Driving the support frame (13) to move upward on the third slide rail (133) to move the detecting device (14) away from the circuit board (3) (as shown in FIG. 12) And continuing to drive the support frame (13) to move to the left on the second slide rail (132) (as shown in FIG. 13); thereafter, driving the support frame (13) to the third slide rail (133) Moving up and down, when the probe (141) of the detecting device (14) approaches another circuit board (3), the detecting operation of the circuit board (3) is started (as shown in Fig. 14); Finally, the support frame (13) is driven to move upward on the third slide rail (133) to move the detecting device (14) away from the circuit board (3) (as shown in FIG. 15) to complete the circuit. The detection action of the board (3).
It can be seen from the above description that the present invention has the following advantages compared with the prior art and the product:
1. The continuous automatic detecting device of the present invention mainly uses the hardware design of the detecting jig for placing at least one circuit board to be tested on the carrying device, and effectively drives the detecting device to the plurality of sliding members by the control member and the driving member. The movement on the track to detect various parameters and information on the circuit board does achieve the main advantages of improving the detection speed and efficiency of the board.
In summary, the continuous automatic detection device of the present invention can achieve the intended use effect by the above disclosed embodiments, and the creation has not been disclosed before the application, and the company has fully complied with the provisions of the patent law. With requirements.提出Issuing an application for the creation of a patent in accordance with the law, and asking for a review, and granting a patent, it is really sensible.
However, the illustrations and descriptions disclosed above are only preferred embodiments of the present invention, and are not intended to limit the scope of protection of the present invention; those who are familiar with the skill are otherwise characterized by the scope of the creation. Equivalent changes or modifications shall be considered as not departing from the design of this creation.
(1) ‧‧‧Continuous automatic testing equipment
(11)‧‧‧ Carrying device
(111)‧‧‧Mobile components
(112)‧‧‧First slide rail
(12)‧‧‧Test fixtures
(121)‧‧‧Detection platform
(1211) ‧‧‧ Opening
(13)‧‧‧Support frame
(131)‧‧‧Sub-bracket
(132)‧‧‧Second slide
(133)‧‧‧ Third slide
(14)‧‧‧Detection device
(141) ‧ ‧ probe
(15)‧‧‧Reading device
(151)‧‧‧ Beam
(16)‧‧‧ Drives
(17)‧‧‧Controls
(18)‧‧‧PCL interface
(19)‧‧‧ Camera Module
(2) ‧‧‧Check host
(3) ‧‧‧Circuit board
(31)‧‧‧ barcode
(32) ‧‧‧Light
(4) ‧‧‧simulated load components
(5) ‧‧‧ first mirror
(51)‧‧‧First mirror
(6) ‧‧‧second mirror
(61)‧‧‧Second mirror
(7)‧‧‧ Sensors
Fig. 1 is a right side elevational view of the apparatus of a preferred embodiment of the present invention. Fig. 2 is a left side view of the device appearance of a preferred embodiment of the present invention. Figure 3: Schematic diagram of the detection fixture setting of the second embodiment of the present invention. Fig. 4 is a schematic view showing the arrangement of detecting means of a preferred embodiment of the present invention. Figure 5 is a schematic diagram of bar code reading of a preferred embodiment of the present invention. Figure 6 is a schematic diagram of bar code reading of the second preferred embodiment of the present automatic continuity detecting device. Figure 7: Schematic diagram of the camera module detection of the three preferred embodiments of the present automatic continuity detecting device (1). Figure 8: Schematic diagram of the detection of the camera module of the three preferred embodiments of the automatic continuity detecting device of the present invention (2). Figure 9 is a schematic diagram of the operation of the sensor of a preferred embodiment of the automatic continuity detecting device of the present invention. Figure 10: Schematic diagram of the operation of the apparatus of the present invention for a continuous automatic detection device (1). Figure 11 is a schematic diagram of the operation of the apparatus of the present invention for a continuous automatic detection device (2). Figure 12: Schematic diagram of the operation of the device of a preferred embodiment of the automatic continuity detecting device (3). Figure 13: Schematic diagram of the operation of the apparatus of the present invention for a continuous automatic detection device (4). Figure 14: Schematic diagram of the operation of the apparatus of the present invention for a continuous automatic detection device (5). Figure 15 is a schematic diagram of the operation of the apparatus of the present invention for a continuous automatic detection device (6).

Claims (16)

  1. A continuous automatic detecting device is disposed on a detecting host (2). The continuous automatic detecting device (1) includes at least: a plurality of carrying devices (11), each of which is under the carrying device (11) The group is provided with a moving component (111); a plurality of detecting fixtures (12), each of the detecting fixtures (12) is correspondingly arranged above the carrying device (11); a supporting frame (13) is Actively disposed on the detecting machine (2); a detecting device (14) is disposed below the support frame (13), and the detecting device (14) is movable to the detecting and treating Above the device (12); a reading device (15) disposed above the support frame (13) corresponding to the detecting device (14); and a driving member (16) electrically connected to the detecting device (14) In conjunction with the reading device (15), the driving member (16) simultaneously drives the detecting device (14) and the reading device (15).
  2. The automatic automatic detecting device of claim 1, wherein the moving component (111) is further disposed on a first sliding rail (112), and the moving component (111) is attached to the first sliding The rail (112) is displaced in the X-axis direction.
  3. The continuity automatic detecting device according to claim 1 or 2, wherein the continuity automatic detecting device (1) is further provided with a control member (17) that drives and controls the movement. Component (111) displacement.
  4. The continuity automatic detecting device of claim 1, wherein the detecting fixture (12) further comprises a detecting platform (121).
  5. The automatic automatic detecting device of claim 4, wherein the detecting platform (121) is further provided with a circuit board (3) having a code (31) and at least one light emitting diode.
  6. The automatic continuity detecting device of claim 5, wherein the bar code (31) is disposed above or below the circuit board (3).
  7. The automatic automatic detecting device of claim 6, wherein the detecting device (14) is electrically connected to an analog load component when the bar code (31) is disposed above the circuit board (3). 4).
  8. The automatic automatic detecting device of the sixth aspect of the invention, wherein when the bar code (31) is disposed under the circuit board (3), the detecting platform (121) defines an opening (1211). The bar code (31) is located above the opening (1211).
  9. The automatic automatic detecting device of claim 8, wherein the detecting platform (121) is provided with a corresponding one of the first reflecting mirror (5) and a second reflecting mirror (6) respectively. The first mirror (5) has a first mirror surface (51) in a beveled manner, and the second mirror (6) has a slope corresponding to the first mirror surface (51). Second mirror (61).
  10. The automatic automatic detecting device of claim 1, wherein the supporting frame (13) and the detecting machine (2) are further provided with a sub-support frame (131), the sub-support frame (131) And the detecting machine (2) is further provided with at least one second sliding rail (132), wherein the sub-supporting frame (131) is displaced on the second sliding rail (132) in the Y-axis direction.
  11. The automatic automatic detecting device of claim 10, wherein a third sliding rail (133) is further disposed between the support frame (13) and the sub-support frame (131), the support frame (13) The detection device (14) and the reading device (15) are displaced in the Z-axis direction on the third slide rail (133).
  12. The automatic automatic detecting device according to claim 1 or 6, wherein the detecting device (14) is further provided with at least one probe (141).
  13. The automatic automatic detecting device according to claim 1 or 6, wherein the reading device (15) is a code machine.
  14. The automatic automatic detecting device according to claim 5 or 6, wherein the reading device (15) is further electrically connected to a PCL interface (18) or a PC interface, and the reading device (15) is The bar code (31) information read is transmitted to the PCL interface (18) or the PC interface display.
  15. The automatic detection device of the invention of claim 14, wherein the reading device (15) is further provided with a camera module (19) electrically connected to the PCL interface. (18) or the PC interface, the camera module (19) captures one of the brightness or chromaticity of the LED and transmits it to the PCL interface (18) or PC interface display.
  16. The continuity automatic detecting device according to claim 1, wherein the continuity automatic detecting device (1) is further provided with two corresponding sensors (7), wherein the sensor (7) is electrically The drive member (16) is connected sexually.
TW106143279A 2017-12-08 2017-12-08 Continuous automatic detection equipment TWI636270B (en)

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TW201925809A true TW201925809A (en) 2019-07-01

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI719681B (en) * 2019-09-24 2021-02-21 思達科技股份有限公司 Probing apparatus and method of operating the same

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WO2012144703A1 (en) * 2011-04-21 2012-10-26 주식회사 이노비즈 Led chip classifying apparatus
JP6083140B2 (en) * 2012-07-20 2017-02-22 セイコーエプソン株式会社 Electronic component conveying device and electronic component inspection device
TWM500894U (en) * 2014-12-10 2015-05-11 Optiviz Technology Inc Testing apparatus
CN107192900A (en) * 2016-03-15 2017-09-22 纬创资通(昆山)有限公司 The tester table of handheld electronic apparatus
TWM537217U (en) * 2016-11-02 2017-02-21 Testbox Co Ltd Printed circuit board inspection device

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI719681B (en) * 2019-09-24 2021-02-21 思達科技股份有限公司 Probing apparatus and method of operating the same

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