TW201825915A - Detection system - Google Patents

Abstract

A detection system comprises a fixing mechanism and a activity mechanism. The fixing mechanism comprises a control device and a first electric connection assembly. The control device connected to power supply system. The activity mechanism can be controlled to move in the space. The activity mechanism is for carrying to-be-tested electronic device. The activity mechanism comprises a second electric connection assembly, and the second electric connection can be controlled to connect to the first electric connection assembly. The to-be-tested electronic device can be tested by the control device when the first electric connection assembly connect to the second electric connection assembly.

Description

 Detection Systems  

The present invention relates to a detection system, and more particularly to a detection system for an electronic device.

With the increasing complexity of various electronic devices, the process steps of manufacturing, assembling, detecting, and packaging of various electronic devices have been greatly improved. In addition, various brands have different functional requirements for similar electronic devices. Therefore, for related manufacturers, how to improve the production and assembly of various electronic devices in accordance with the customized requirements of different customers. The effectiveness of process steps such as inspection, packaging, etc. has become one of the most important issues at present.

Generally speaking, the detection process of various electronic devices is roughly: a plurality of detection stations are arranged in a plant area, and each station is equipped with relevant detection equipment and personnel. After receiving the electronic device to be tested, the inspecting personnel of each station need to first connect the relevant lines (such as power lines, transmission lines, etc.) of the relevant detecting devices with the electronic device to be tested, and then pass the detecting device to the electronic device to be tested. After the test is completed, the relevant personnel must first remove the relevant line and then transport the electronic device to be tested to the next detection station. The personnel of the next detection station repeat the insertion and removal of the relevant line and perform related detection. operation. Such a detection method requires a large amount of personnel, and in the case of diversification of electronic devices, it takes a lot of personnel, time, and cost. Therefore, for each manufacturer, how to improve the production process of existing electronic devices, especially the detection process, is the most important issue. Accordingly, the inventors have diligently studied and cooperated with the application of the theory, and proposed a present invention which is rational in design and effective in improving the above problems.

The main object of the present invention is to provide a detection system for solving the problem of low performance of the related detection process in the prior art.

In order to achieve the above object, the present invention provides a detection system comprising: at least one fixing mechanism and at least one movable mechanism. The detection system is placed in a space. The fixing mechanism is fixedly disposed in the space, and the fixing mechanism comprises at least one control device and at least one first electrical connection component. At least one control device is electrically connected to a system power supply. The first electrical connection component is electrically connected to the control device. At least one active mechanism can be controlled to move in the space, the active mechanism is configured to carry the plurality of electronic devices to be tested, and the movable mechanism includes at least one second electrical connection component, and the second electrical connection component can be electrically connected to the to-be-tested The electronic device, and the second electrical connection component is selectively electrically connectable to the first electrical connection component. Wherein, when the movable mechanism is controlled and electrically connected to the fixed mechanism, the electronic devices to be tested can be electrically connected to the system power supply, and the control device can control the electronic devices to be tested to perform the detecting operation.

The beneficial effects of the present invention may be that the relevant detecting personnel only need to place the electronic devices to be tested on the movable mechanism, and when the electronic devices to be tested are removed from the movable mechanism, the relevant lines are inserted and removed, and relevant During the detection process, the relevant lines of the electronic devices to be tested can be inserted and removed, so that the time and cost of the related detection can be greatly reduced. Through the design of the first electrical connection component and the second electrical connection component, the active mechanism can be freely restricted by the relevant power line or transmission line, and can be freely moved in the environment set by the detection system, thereby accelerating the overall detection process. speed.

For a better understanding of the features and technical aspects of the present invention, reference should be made to the accompanying drawings.

1, 1' ‧ ‧ fixed institutions

10‧‧‧ fixed ontology

11‧‧‧First electrical connection assembly

111‧‧‧First motherboard

112‧‧‧First electrical connection unit

113‧‧‧First transfer unit

114‧‧‧Fixed plate

115‧‧‧Sliding members

1151‧‧‧rails

1152‧‧‧ Slider

116‧‧‧Data Transfer Unit

12‧‧‧First fixed component

121‧‧‧First magnetic unit

122‧‧‧Electromagnetic lock

13‧‧‧First positioning component

131‧‧‧Guide unit

132‧‧‧Limit unit

133‧‧‧Guide members

134‧‧‧Limited components

135‧‧‧Abutment member

136‧‧‧Detection unit

14‧‧‧Control device

15‧‧‧Warning device

2, 2’‧‧‧ activities

20‧‧‧Active Ontology

201‧‧‧ frame

202‧‧‧Bearing board

21‧‧‧Second electrical connection assembly

211‧‧‧second motherboard

212‧‧‧Second electrical connection unit

213‧‧‧Second transfer unit

214‧‧‧ fixed board

215‧‧‧Sliding members

2151‧‧‧Slide rails

2152‧‧‧ Slider

216‧‧‧Data Transfer Unit

22‧‧‧Second fixed component

221‧‧‧Second magnetic unit

222‧‧‧Electromagnetic lock

23‧‧‧Second positioning assembly

231‧‧‧Guide unit

232‧‧‧Limited components

233‧‧‧Abutment member

24‧‧‧Processing unit

3‧‧‧Reading device

4‧‧‧System control unit

41‧‧‧Memory Module

411‧‧‧Detection program

412‧‧‧Test parameters

5‧‧‧Activity carrying device

A‧‧‧Assembled area

BS‧‧‧burning machine inspection space

CID‧‧‧Car identification information

D, D’‧‧‧electronic devices to be tested

DI‧‧‧Checkpoint Information

EID‧‧‧Measurement information to be tested

H‧‧‧Factory

P‧‧‧ system power supply

S‧‧‧Detection System

T, T’‧‧‧ test station

TI‧‧‧Test Information

TIE‧‧‧Wrong information

TS, TS'‧‧‧ detection signal

1 is a schematic view showing the fixed mechanism and the electrical connection of the movable mechanism and the fixing mechanism of the detecting system of the present invention.

2 is an exploded perspective view of the movable mechanism and the fixing mechanism of the detecting system of the present invention.

3 is a block diagram of a first embodiment of a detection system of the present invention.

4 is a block diagram showing a second embodiment of the detection system of the present invention.

Figure 5 is a block diagram showing a third embodiment of the detection system of the present invention.

Figure 6 is a block diagram showing a fourth embodiment of the detection system of the present invention.

Figure 7 is a schematic view of the detection system of the present invention disposed in a factory building.

Figure 8 is a block diagram showing a fifth embodiment of the detection system of the present invention.

Figure 9 is a block diagram showing a sixth embodiment of the detection system of the present invention.

Figure 10 is a schematic illustration of the securing mechanism of the detection system of the present invention.

11 and 12 are schematic views of a first electrical connection assembly of a fixing mechanism of the detection system of the present invention.

Figure 13 is a schematic illustration of the active mechanism of the detection system of the present invention.

14 and 15 are schematic views of a second electrical connection assembly of the movable mechanism of the detection system of the present invention.

Please refer to FIG. 1 to FIG. 3 together, which is a schematic diagram of the detection system S of the present invention. As shown, the detection system S includes a fixed mechanism 1 and a movable mechanism 2. The fixing mechanism 1 is fixedly disposed in the space provided by the detecting system S, and the fixing mechanism 1 is electrically connected to a system power source P. The system power source P may be a power source generated by the utility power or the related power supply device. The movable mechanism 2 can be controlled to move in the space provided by the detecting system S. The movable mechanism 2 is used to carry a plurality of electronic devices D to be tested, and the movable mechanism 2 can be fixedly and electrically connected to the fixing mechanism 1 in a controlled manner. The electronic device D to be tested is electrically connected to the system power source P, so that the electronic devices D to be tested perform the detecting operation. In FIG. 1 and FIG. 2, only a schematic diagram of the combination and separation of the single fixing mechanism 1 and the movable mechanism 2 is shown. However, in practical applications, the detecting system S may include a plurality of fixing mechanisms 1 and a plurality of movable mechanisms 2, and Each of the movable mechanisms 2 can be fixed and electrically connected to any of the fixing mechanisms 1, and each of the fixing mechanisms 1 can be a detecting station that is different from each other.

In this way, the design of the movable mechanism 2 and the fixing mechanism 1 can be selectively connected and separated, so that the relevant inspectors can only start the electronic devices D to be tested in the overall detecting operation of the electronic devices D to be tested. Before the detection, the electronic devices D to be tested are mounted on the movable mechanism 2, and after the electronic testing devices D are completed, the electronic devices to be tested D are removed from the movable mechanism 2; In the various detection operations of the electronic device D to be tested, the relevant personnel need not remove the electronic device D to be tested from the movable mechanism 2, and can simply move the movable mechanism 2 to different fixing mechanisms. The 1 phase connection allows the electronic devices D to be tested to perform different detection operations. This can greatly improve the overall detection efficiency.

In a specific embodiment, the fixing mechanism 1 can include a fixing body 10, two first electrical connection components 11, a first fixing component 12, two first positioning components 13, four control devices 14, and a warning. Device 15. The movable mechanism 2 can include a movable body 20, two second electrical connection components 21, a second fixed component 22, and a second positioning component 23.

The fixing body 10 is configured to fix a floor or a wall surface disposed in a space provided by the detecting system S. The fixing body 10 can be, for example, a frame structure, and the shape of the fixing body 10 can be designed corresponding to the appearance of the movable mechanism 2. In order to be fixed to the movable mechanism 2. Two first electrical connection components 11, a first fixed component 12, two first positioning components 13, four control devices 14, and a warning device 15 are disposed on the fixed body 10; two first electrical connection components 11 and The warning device 15 is electrically connected to the four control devices 14. The number of components included in the fixing mechanism 1 and the movable mechanism 2 can be changed according to requirements, and is not limited to the number given in the embodiment.

The movable body 20 can include a frame 201 and a plurality of carrier boards 202. The carrier boards 202 are fixedly disposed in the frame 201, and each carrier board 202 can be used to carry a plurality of electronic devices D to be tested. A plurality of wheels are disposed under the frame 201, and the movable body 20 as a whole can be controlled by manual pushing or electric means (for example, by using an unmanned vehicle or directly controlling the wheels of the movable mechanism 2 itself), and the detecting system Any activity in the space set by S; of course, in a special application, each activity mechanism 2 may have no wheels, but only through other mobile devices (such as an automated guided vehicle) to drive its activities. Two second electrical connection components 21 , a second fixed component 22 , and a second positioning component 23 are disposed on the movable body 20 .

The two first electrical connection components 11 can be electrically connected to the two second electrical connection components 21; when the first electrical connection components 11 and the second electrical connection components 21 are electrically connected to each other, the movable mechanism The electronic device D to be tested can be connected to the system power source P through the second electrical connection components 21 and the first electrical connection components 11, whereby the control device 14 can control the corresponding devices. The electronic device D to be tested performs related detection operations. In other applications, the number of the control devices 14 is not limited to the one shown in the figure, and may be increased or decreased according to requirements; the four control devices 14 exemplified in the embodiment may respectively control different types. Electronic device D to be tested.

The first fixing component 12 and the second fixing component 22 are used to fix the movable mechanism 2 and the fixing mechanism 1 to each other, and each of the first positioning component 13 and each of the second positioning components 23 is used to assist the first electrical connection component 11 and the first The two electrical connection assemblies 21 are electrically connected to each other. The specific implementations of the first fixing component 12, the second fixing component 22, the first positioning component 13, and the second positioning component 23 can be designed according to requirements, and are not limited herein.

 [First Embodiment]  

Please refer to FIG. 1 and FIG. 3 together. FIG. 3 is a block diagram of a first embodiment of the detection system S of the present invention. As shown in the figure, when the movable mechanism 2 and the fixing mechanism 1 are fixedly and electrically connected to each other, the control device 14 can transmit the relevant detection signals TS to the first electrical connection component 11 and the second electrical connection component 21 to the corresponding The electronic device D to be tested controls the electronic devices D to be tested to perform corresponding detection operations. When the electronic device D to be tested completes the detecting operation, each electronic device D to be tested may be correspondingly transmitting the relevant detection information TI to the control device 14. After receiving the detection information TI, the control device 14 may perform storage. For subsequent inspection and analysis by relevant personnel. The detection information TI is generated corresponding to the electronic device D to be tested in the process of being detected; in actual application, the detection information TI may be a product number, a detection result, and a detection including the electronic device D to be tested. The time spent, etc., can be changed according to needs.

Preferably, after receiving the detection information TI, the control device 14 may determine whether to retransmit the relevant detection signal TS to the specific electronic device D to be tested according to the detection information TI, so as to perform related detection operations again. . For example, when the detection information TI corresponding to the electronic device D to be tested includes an error data TIE, the control device 14 can control the electronic device D to be tested to perform the detection operation again, thereby confirming the electronic device to be tested. Whether the error data TIE previously generated by the device D is a false positive; if the control device 14 repeatedly (preferably three times) detects the same electronic device D to be tested, and the electronic device D to be tested continues to generate the same error data TIE, then The control device 14 can be the control alert device 15 to issue an associated alert, thereby prompting the relevant personnel to come forward for error elimination.

When the control device 14 receives the error data TIE generated by one of the electronic devices to be tested D, the control device 14 may control to prevent the fixing mechanism 1 from being separated from the active mechanism 2, and wait for the relevant person to solve the occurrence of the electronic device D to be tested. The problem, and after re-detection, allows the movable mechanism 2 to be separated from the fixed mechanism 1. Specifically, the first fixing component 12 can be an electromagnet component, and the control device 14 can control the magnetic state of the first fixing component 12 to control the fixed state of the fixing mechanism 1 and the movable mechanism 2 to each other.

In addition, the control device 14 may also perform the detection operation when the electronic devices D to be tested of the activity mechanism 2 complete the detection operation, and when the error data TIE is not generated, the control alarm device 15 emits different sounds or lights to prompt the related use. The electronic device D to be tested of the activity mechanism 2 has completed the detection, so that the user can move the activity mechanism 2 to another fixing mechanism 1 to perform different detection operations.

Therefore, the detection system S of the present invention can be used in the detection process by using the movable mechanism 2 to be movable in the space, and selectively and electrically connected to the fixing mechanism 1 to perform the detection operation. Performing an assembly operation of the electronic device D to be tested; and automatically detecting and recording the electronic device D to be tested by the active device 2 through the control device 14 so that the relevant personnel can subsequently use the record recorded by the control device 14 A large amount of data is analyzed, thereby assisting the relevant personnel to improve the yield of the electronic device D to be tested.

 [Second embodiment]  

Please refer to FIG. 4, which is a block diagram of a second embodiment of the detection system of the present invention. As shown in the figure, the movable mechanism 2 may be different electronic devices D, D' provided with different types (especially, different detection operations are required), and the movable mechanism 2 and the fixing mechanism 1 are fixed and electrically connected to each other. The control device 14 may first detect a certain identification information EID corresponding to each electronic device D to be tested, and correspondingly transmit different detection signals TS, TS' according to different identification information to be tested, so as to make different waiting The electronic measuring device D performs different detection operations. The identification information to be tested EID may be a product model including a product to be tested D, a detection serial number, and the like.

In an actual application, the control device 14 may be configured to store different identification information EIDs corresponding to the electronic device D to be tested and corresponding detection signals, detection programs, etc.; the identification information EID of the control device 14 and detection The update of the signal and the detection program may be, for example, updating (ie, remotely updating) the control device 14 by means of an external or internal network connection to a specific processing device (such as a server or a specific industrial computer). In addition, the first electrical connection component 11 and the second electrical connection component 21 may have a plurality of transmission lines independent of each other, and the transmission lines are electrically connected to the electronic devices D to be tested, and the control device 14 may directly The different detection signals TS are transmitted to different electronic devices D to be tested through different transmission lines, so that the electronic devices D to be tested perform corresponding detection operations.

Therefore, the identification information EID of each electronic device D to be tested is detected by the control device 14 so that different electronic devices D to be tested perform different detection operations, which can greatly improve a small variety of product detection performance. In the actual application, when the user places the untested electronic device D to be tested, or the electronic device D to be tested that does not need to be detected on the movable mechanism 2, the control device 14 may pass the identification information to be tested. It is judged that the electronic device D is not detected, and at the same time, the corresponding sound or light is sent through the warning device 15 to prompt the relevant person to make an error.

 [Third embodiment]  

Please refer to FIG. 5, which is a block diagram of a third embodiment of the detection system of the present invention. As shown in the figure, unlike the above embodiment, the movable mechanism 2 may include a processing unit 24 electrically connected to the second electrical connection component 21, and the processing unit 24 can be electrically connected to the mobile device 2 The electronic device D to be tested, and the processing unit 24 can correspondingly read and record the identification information EID of the electronic device D to be tested D, for example, the product number of the electronic device D to be tested, and the electronic device D to be tested. The processing unit 24 can transmit the recorded identification information EID that is read and recorded to the control device 14 when the movable mechanism 2 and the fixing mechanism 1 are electrically connected to each other. The control unit 14 can transmit different detection signals TS, TS' to the processing unit 24 according to different identification information EIDs to be tested, and the processing unit 24 can correspondingly transmit different detection signals TS, TS' to corresponding ones. The electronic devices D to be tested D, D, whereby the different types of electronic devices D to be tested carried on the same movable mechanism 2 can simultaneously perform different detection operations.

The manner in which the processing unit 24 reads the identification information EID of the electronic device D, D′ to be tested, for example, when the processing unit 24 is electrically connected to the movable mechanism 2 and the fixing mechanism 1 , the power is transmitted through the system power supply P. After that, the identification information EID of each electronic device D to be tested is read and recorded; or, the active mechanism 2 may be provided with an associated rechargeable storage unit (not shown), and the processing unit 24 can When the relevant person electrically connects the electronic device D to be tested and the second electrical connection component 21, the corresponding identification information EID of the electronic device D to be tested is correspondingly read and recorded.

In other applications, when the control device 14 receives the detection information TI having the error data TIE, it may be stored in the processing unit 24 correspondingly, or the processing unit 24 may record the detection information TI having the error data TIE. Specifically, the control device 14 receives the detection information TI including the error data TIE, and after a predetermined number of repeated tests, the detection information TI including the error data TIE may be correspondingly stored in the processing unit 24, thereby The control device 14 may be configured to separate the movable mechanism 2 from the fixed mechanism 1 in a state in which the detection information TI includes the error data TIE, and the related user may be the majority of the electronic device D to be tested in the active mechanism 2. After the detection is completed, it is determined by the fixing mechanism 1 or the related electronic device whether the electronic device D of the active mechanism 2 is detected to have a detection error, thereby preventing detection error of one of the electronic devices D to be tested of the active mechanism 2 , the remaining electronic devices D to be tested must wait for the relevant personnel to perform error elimination.

 [Fourth embodiment]  

Please refer to FIG. 6, which is a block diagram of a fourth embodiment of the detection system of the present invention. As shown in the figure, the detection system S can further include a reading device 3, which can read an in-vehicle identification information CID of the activity mechanism 2 and the identification information EID of the electronic device D to be tested carried by the activity mechanism 2, The reading device 3 can transmit the in-vehicle identification information CID and the identification information to be tested EID to the control device 14 of the fixing mechanism 1 . The reading device 3 can be electrically connected to the control device 14 via a wireless or wired method to transmit the in-vehicle identification information CID and the identification information EID to be tested, and the control device 14 can receive and store the vehicle. Identification information CID and the identification information EID to be tested.

When the fixing mechanism 1 and the movable mechanism 2 are fixed and electrically connected to each other, the control device 14 may be the vehicle identification information CID of the reading activity mechanism 2 (or the control device 14 may be the vehicle identification information CID transmitted by the receiving activity mechanism 2) According to the in-vehicle identification information CID transmitted by the reading device 3, the type of the electronic device D to be tested on the active mechanism 2 is determined, thereby determining which detection signal TS is transmitted to the electronic devices to be tested. D, thereby causing different types of electronic devices D to be tested to perform different detection operations. In a specific implementation, the reading device 3 may read the in-vehicle identification information CID and the to-be-identified identification information EID by means of contact or wireless; the in-vehicle identification information CID and the electronic devices to be tested D may be It is stored in a one-dimensional label, a two-dimensional label, or any electronic label (such as an RFID electronic label, an NFC electronic label, etc.), and is not limited thereto. Of course, the vehicle identification information CID and the electronic device D to be tested may be It can also be stored in other electronic components.

Specifically, when the electronic device D to be tested is mounted on the activity mechanism 2, the relevant device can display the in-vehicle identification information CID of the activity mechanism 2 and the to-be-tested identification of the electronic device D to be tested through the reading device 3. The information EID is transmitted to the control device 14, and after the relevant person installs the electronic device D to be tested on the movable mechanism 2, the movable mechanism 2 and the fixed mechanism 1 can be directly fixed and electrically connected, and the control device 14 of the fixed mechanism 1 The types of the electronic devices D to be tested on the active mechanism 2 can be automatically determined and controlled to perform corresponding detection operations.

 [Fifth Embodiment]  

Please refer to FIG. 7 and FIG. 8 together, which are schematic diagrams of a fifth embodiment of the detection system of the present invention. As shown in FIG. 7 , in practical applications, different detection stations T in the plant H may be provided with a plurality of fixing mechanisms 1 , and the movable mechanism 2 may be a fixing mechanism of each detecting station T, T′ one by one. 1 fixed and electrically connected to each other for different testing operations. Specifically, the plant H may include two detection stations T, T', and one of the detection stations T is used for detecting the electronic device D to be tested under a general environment. Another detection station T' may be in a specific environment, the detection of the electronic device D to be tested, that is, the commonly known Burn-in detection; according to the actual state of the machine detection, the control of the fixed mechanism 1 The device 14 may be disposed outside the burning machine detection space BS, and electrically connected to the first electrical connection component 11 disposed in the burning machine detection space BS by wire or wirelessly.

As shown in FIG. 8, the detection system S may include a system control device 4 electrically connected to the fixing mechanisms 1, 1' of the detection stations T, T', and the system control device 4 and each fixing mechanism 1 , 1 'exchange information. Specifically, each of the fixing mechanisms 1 and 1 ′ may be instant or when the electronic devices D to be tested of the activity mechanism 2 complete the detection operation, and transmit a detection station information DI to the system control device 4 for storage, and relevant personnel Then, the system control device 4 can monitor the related information of each of the fixing mechanisms 1, 1' of the respective detection stations T, T'. The detection station information DI transmitted by each of the fixing mechanisms 1, 1 ' may include, for example, detection time, detection station information (for example, number of detection stations, main detection item data, etc.), vehicle identification information CID, and each electronic device D to be tested. The corresponding identification information EID and the detection information TI, the detection program 411 performed by each electronic device D to be tested, and the like may be changed according to requirements, and are not limited thereto.

In other applications, the system control device 4 may include a memory module 41 in which a plurality of detection programs 411 and a plurality of detection parameters 412 may be stored. When any of the fixing mechanism 1 and the movable mechanism 2 are electrically connected to each other, the system control device 4 can transmit the corresponding detection program 411 and the corresponding detection parameter 412 to the fixing mechanism 1 according to the detection station information DI transmitted by the fixing mechanism 1. The fixing mechanism 1 can perform the detecting operation on the electronic devices D, D' of the movable mechanism 2 by the detecting program 411. In a preferred application, the related personnel may directly modify, adjust, and delete the detection programs 411 and the detection parameters 412 through the direct operating system control device 4, so that the relevant personnel can quickly and conveniently adjust, The detection operations performed by the fixing mechanisms 1 and 1' on the electronic devices D and D to be tested are replaced or maintained. In other words, the relevant personnel may quickly change or adjust the detection operations performed by the respective fixing mechanisms 1 in the entire plant H on the electronic devices D to be tested according to different needs.

 [Sixth embodiment]  

Please refer to FIG. 9, which is a block diagram of a sixth embodiment of the detection system of the present invention. As shown, the detection system S may include the aforementioned reading device 3, and the reading device 3 may be an electrical connection system control device 4, and the reading device 3 may read each of the movable mechanisms 2 The vehicle identification information CID and the identification information EID of each electronic device D to be tested are transmitted to the system control device 4. The detection system S can further comprise a plurality of active carrying devices 5, which are respectively electrically connected to the system control device 4, and each movable carrying device 5 can controlly carry any active mechanism 2 so that any active mechanism 2 is in the detecting system. The space provided by S moves; and each movable carrying device 5 can fix or separate any movable mechanism 2 carried by it from any fixed mechanism 1. The movable carrying device 5 can be, for example, an Auto Guided Vehicle (AGV).

Please refer to FIG. 7 and FIG. 9 together. Specifically, when a plurality of electronic devices D to be tested are mounted on the movable mechanism 2 in the assembly area A of the factory H, the movable mechanism 2 can be read through the reading device 3 in succession. The vehicle identification information CID and the identification information EID of each electronic device D to be tested carried by the activity organization 2 are determined. At this time, the reading device 3 transmits the in-vehicle identification information CID and the to-be-tested identification information EID to the system control device 4, and after receiving the information, the system control device 4 controls an active carrying device 5 to move the active mechanism. 2 Move to the first detection station T. The movable carrying device 5 is controlled by the system control device 4, and the movable mechanism 2 and one of the fixing mechanisms 1 of the first detecting station T are fixedly and electrically connected to each other, whereby the control device 14 of the fixing mechanism 1 is moved to the movable mechanism. The electronic devices D to be tested on 2 perform a detection operation.

When the electronic devices D to be tested carried by the movable mechanism 2 connected to the fixing mechanism 1 complete the detecting operation (for example, the system control device 4 may be the detecting station information DI transmitted by each fixing mechanism 1) Determining whether the electronic device D to be tested carried by the activity mechanism 2 completes the detection operation), the system control device 4 can further control a movable carrier device 5 to separate the movable mechanism 2 from the fixed mechanism 1 and move the movable mechanism 2 to The next inspection station T' is either moved to a specific location (such as a packaging area or a terminal artificial detection area, etc.).

In practical applications, the fixing mechanism 1 may be provided with an associated detecting unit 136 (as shown in FIG. 10, for example, may be any type of proximity switch), thereby judging whether or not the movable carrying device 5 is in proximity. When the movable carrying device 5 carries the movable mechanism 2 close to the fixing mechanism 1, and the control device 14 determines through the detecting unit 136 that the movable mechanism 2 has reached a position where the fixing mechanism 1 can be fixed to each other, the control device 14 can control the first fixing. The assembly 12 (for example, an electromagnet) and the second fixing assembly 22 are fixed to each other, whereby the fixing mechanism 1 and the movable mechanism 2 are fixed to each other, and then the control device 14 can control the first electrical connection assembly 11 and the second electrical connection assembly 21 Electrically connected. When the electronic devices D to be tested of the active mechanism 2 have completed the detecting operation, the control device 14 can determine whether the movable carrying device 5 is close by the detecting unit 136, and when the movable carrying device 5 approaches and reaches a predetermined position, The first fixing assembly 12 of the control fixing mechanism 1 is separated from the movable mechanism 2 from each other. In different applications, the control device 14 may also be in telecommunication with the mobile carrier 5 when the mobile carrier 5 is in close proximity, thereby determining whether the mobile carrier 5 has reached a predetermined location.

In particular, in the aspect of the detection system S having the system control device 4, each of the fixing mechanisms 1 may have no control device 14; when the movable mechanism 2 and the fixing mechanism 1 are electrically connected to each other, the system controls The device 4 will control the electronic devices D to be tested of the movable mechanism 2 to perform a detecting operation through the first electrical connection component 11 and the second electrical connection component 21.

As in the previous embodiment, in the embodiment without the system control device 4, the detection system S may also include a plurality of active carrying devices 5, and the control device 14 of each fixed mechanism 1 may be in the active mechanism 2 When the electronic measuring device D completes the detecting operation, the movable carrying device 5 is controlled to move the movable mechanism 2 to another detecting station. In addition, the reading device 3 may be connected to the movable carrying device 5, and after the user mounts the electronic device D to be tested to the movable mechanism 2, the movable carrying device 5 may be controlled by the reading device 3 to enable the active carrying device. The device 5 moves the movable mechanism 2 to the fixing mechanism 1 to perform a detecting operation. Of course, the user can also control the activity carrying device 5 by other means to carry the activity mechanism 2 in time.

In a preferred application, each of the fixing mechanism 1 and each movable mechanism 2 may have the following components, but not limited thereto. In other applications, the fixing mechanisms 1 and the movable mechanisms 2 are connected to each other. It can be designed according to actual needs.

As shown in FIG. 11 to FIG. 12 , the first electrical connection component 11 includes a first main board 111 , a plurality of first electrical connection units 112 , and a plurality of first switching units 113 . The first electrical connection unit 112 and the first electrical connection unit 112 . The first switching units 113 are respectively fixedly disposed on the first main board 111. The first electrical connection unit 112 is configured to provide a plurality of electrical connection lines (not shown), and the first electrical connection component 11 can pass through several electrical connection lines (not shown), and the control device 14 and system. At least one of the power sources P is electrically connected.

Specifically, the types of the first electrical connection units 112 may be various standard connection ports, and the types of the first electrical connection units 112 may be changed according to different electronic devices D to be tested; for example, The electronic device D to be tested shown in the figure is a display, and the first electrical connection units 112 can be respectively a video connection port, a network port, a power port, a USB port, and other communication ports. . In practical applications, the first electrical connection units 112 may be electrically connected to each other or not electrically connected to each other according to requirements.

The first switching unit 113 and the first electrical connecting units 112 are connected to each other, and the first switching unit 113 is electrically connected to the second electrical connecting component 21 of the movable mechanism 2 . That is, when the movable mechanism 2 and the fixing mechanism 1 are fixed to each other, the first switching units 113 electrically connect the structures corresponding to the second electrical connection components 21 of the movable mechanism 2 to each other (for example, plugging each other with each other). The control device 14 connected to the first electrical connection unit 112, the system power supply P, and the like can be electrically connected to the second electrical connection through the electrical connection line, the first electrical connection unit 112, and the first switching units 113. The component 21 is electrically connected. In a practical application, each of the first switching units 113 and the first electrical connection unit 112 connected thereto may be modularized, or may be electrically connected directly through an external electrical connection. The position of the interface where each of the first electrical connection units 112 is connected to the electrical connection line is not in the same plane as the position where each of the first switching unit 113 and the second electrical connection component 21 of the movable mechanism 2 are electrically connected.

Referring to FIG. 10 , the first fixing component 12 includes four first magnetic units 121 , and the first magnetic units 121 may be respectively disposed on two sides of the two first electrical connection components 11 . The first magnetic units 121 can fix the fixing mechanism 1 and the movable mechanism 2 to each other when the movable mechanism 2 and the fixing mechanism 1 are electrically connected to each other. Preferably, the first magnetic units 121 are electromagnets and are electrically connected to the control device 14, and the first magnetic units 121 are controlled by the control device 14 to selectively adsorb the movable mechanism 2. Please refer to FIG. 11 , which is a schematic diagram of a single first electrical connection component 11 . In different applications, the first fixing component 12 may further include a plurality of electromagnetic locks 122 respectively fixed to the first main board 111 and corresponding to The two sides of the first main plate 111 are opposite to each other, thereby reinforcing the fixing strength between the fixing mechanism 1 and the movable mechanism 2.

Referring to FIG. 11 and FIG. 12 , the first positioning component 13 can include a plurality of guiding units 131 , a plurality of limiting units 132 , a plurality of guiding members 133 , a plurality of limiting members 134 , and a plurality of abutting members 135. The guiding unit 131 and the limiting unit 132 may be disposed on the fixed body 10 to perform preliminary guiding and limiting on the movable mechanism 2 . In a practical application, each guiding unit 131 can be disposed at a position opposite to the outer side of the fixed body 10, so that the movable mechanism 2 can be guided and restricted by the guiding unit 131 when entering the fixed body 10; The lead unit 131 can be, for example, a device having a plurality of rollers. The plurality of limiting units 132 may be disposed adjacent to the first electrical connection component 11 and may be used to limit the distance between the movable mechanism 2 and the fixing mechanism 1; for example, each limiting unit 132 may be an elastic material component. .

The guiding members 133, the limiting members 134 and the abutting members 135 may be fixedly disposed on the first main plate 111 for guiding and positioning the movable mechanism 2 and the fixing mechanism 1 in detail. Specifically, the limiting members 134 may be disposed adjacent to the first electrical connecting units 112 and the first switching units 113, and the limiting members 134 may be combined to form a frame structure when active. When the mechanism 2 and the fixing mechanism 1 are fixed to each other and electrically connected to each other, the limiting members 134 are correspondingly located around the first main board 111 and the second main board 211, thereby limiting the range of movement of the second main board 211. In other applications, the size of the frame structure may be slightly smaller than the size of the second main board 211, and the guiding members 133 may be elastic materials, whereby the first electrical connection component 11 and the second electrical connection component When the 21 is electrically connected, the guiding members 133 can correspondingly clamp the second main board 211.

The limiting members 134 can be, for example, a structure having a recessed hole, and each of the limiting members 134 is configured to engage with the protruding structure corresponding to the movable mechanism 2, thereby reinforcing the first electrical connecting component 11 and the second electrical component. The connection components 21 are electrically connected to each other. The distance between the guiding members 133 and the first main plate 111 is greater than the distance between the limiting members 134 and the first main plate 111. The guiding members 133 can assist the first electrical connection components 11 and The two electrical connection components 21 perform preliminary positioning, and each of the limiting components 134 can assist the first electrical connection component 11 and the second electrical connection component 21 to perform precise positioning.

The abutting members 135 may be disposed at the periphery of the first switching units 113. The distance between each of the abutting members 135 and the first main board 111 may be slightly higher than each of the first switching units 113 and the first main board. The distance of the abutting member 135 is used to limit the distance that the second electrical connection component 21 of the movable mechanism 2 moves toward the first switching units 113. That is, the abutting members 135 serve to prevent the second electrical connection assembly 21 of the movable mechanism 2 from excessively moving toward the first main board 111, thereby causing damage to the first switching unit 113 or other components.

Referring to FIG. 10 to FIG. 12 together, in a preferred application, the first main board 111 can be movable relative to the fixed body 10 along a lateral axis (ie, the Y axis in the figure). In this way, the second electrical connection component can be made when the position of the second electrical connection component 21 is slightly deviated by the relative movable characteristics of the first main board 111 and the guiding and limiting of the first positioning components 13 . 21 can still be electrically connected to the first electrical connection component 11 correctly. Of course, the first main board 111 can also move along a longitudinal axis with respect to the fixed body 10, which is not limited herein.

In a specific implementation, the first electrical connection component 11 can include a fixing plate 114 and a sliding member 115. The fixing plate 114 is fixedly disposed on the fixed body 10 . The sliding member 115 can include a sliding rail 1151 and a slider 1152. The fixing plate 114 is provided with a plurality of sliding rails 1151. The first main board 111 is opposite to the side having the plurality of first switching units 113, and correspondingly, a plurality of sliders 1152 are disposed, and the first main board 111 transmits the sliders 1152 and The engagement of the slide rails 1151 will be movable along the transverse axis relative to the fixed body 10 within a predetermined range. The sliding member 115 is not limited to the cooperation of the sliding rail 1151 and the slider 1152, and may be a linear bearing as shown in the drawing, which is not limited herein.

As shown in FIG. 13 and FIG. 14 , each second electrical connection component 21 includes a second main board 211 , a plurality of second electrical connection units 212 , a plurality of second switching units 213 , a fixing plate 114 , and a plurality of sliding members 115. The second main board 211 is fixedly disposed on the movable body 20, and the second electric connection unit 212 and the second switching unit 213 are respectively fixedly disposed on the second main board 211, and each of the second electric connection units 212 can be electrically connected through several wires. The wires are electrically connected to the electronic devices D to be tested. The second switching unit 213 is electrically connected to the second electrical connecting units 212 , and the second switching units 213 are electrically connected to the first switching units 113 . Thereby, the electronic device D to be tested can be electrically connected to the system power source P and the control device 14, and the detection operation can be performed under control.

In a preferred application, each of the second fixing components 22 may be a second magnetic unit 221 corresponding to the first magnetic unit 121, and the first magnetic unit 121 and the second magnetic unit 221 opposite to each other may be in the movable mechanism 2 The fixing mechanisms 1 are attracted to each other when they are close to each other, and the movable mechanism 2 and the fixing mechanism 1 are fixed to each other. In addition, the second fixing component 22 may also include a plurality of electromagnetic locks 222, and each of the electromagnetic locks 222 is a member corresponding to the electromagnetic lock 122 of the first fixing component 12.

The second positioning component 23 can include a plurality of guiding units 231, a plurality of limiting members 232, and a plurality of abutting members 233. The guiding units 231 can be fixedly disposed on opposite sides of the frame 201, and the guiding units 231 of the movable mechanism 2 can be used to cooperate with the guiding unit 131 of the fixing mechanism 1 to make the movable mechanism 2 can be fixed to the fixing mechanism 1 smoothly.

As shown in FIG. 14 and FIG. 2 , the limiting members 232 of the movable mechanism 2 may be disposed on the second main board 211 , and the limiting members 232 are disposed corresponding to the limiting members 134 of the fixing mechanism 1 , and The limiting members 134, 232 are engageable and fixed to each other to assist in fixing the first electrical connection assembly 11 and the second electrical connection assembly 21 to each other. As shown in FIG. 14 , the second main board 211 may be provided with a plurality of abutting members 233 , and the abutting members 233 are matched with the abutting members 135 of the fixing mechanism 1; and the abutting members 233 , The 135 cooperate with each other to prevent the first electrical connection assembly 11 and the second electrical connection assembly 21 from being excessively inserted and destroyed.

Specifically, in a preferred application, the second electrical connection unit 212 and the second switching units 213 are independently disposed on the second motherboard 211 (of course, the first electrical connections The unit 112 and the first switching units 113 are also disposed independently of each other, and each of the second electrical connecting units 212 can be electrically connected to different electronic devices D to be tested, so that the relevant user can A plurality of different types of electronic devices D to be tested are disposed on the movable mechanism 2, and when the fixed mechanism 1 and the movable mechanism 2 are fixed to each other and electrically connected to each other, the plurality of different electronic devices D to be tested carried by the movable mechanism 2 can simultaneously Perform different testing tasks.

Referring to FIG. 14 and FIG. 15 , in a preferred application, the second electrical connection component 21 further includes a fixing plate 214 and a plurality of sliding members 215 . The fixing plate 214 is fixedly disposed on the movable body 20, and the sliding members 215 are disposed between the second main plate 211 and the fixing plate 214, and the second main plate 211 is in a predetermined range with respect to the fixing plate 214 in a longitudinal direction ( That is, the Z-axis direction shown in the figure is active. In a practical application, each of the sliding members 115 may include a sliding rail 2151 and a corresponding slider 2152 respectively disposed on the fixing plate 214 and the second main plate 211. In particular, the second electrical connection component 21 is movable relative to the movable body 20 (ie, the Z-axis direction shown in the drawing), and is different from the movable direction of the first electrical connection component 11 relative to the fixed body 10. (and the Y-axis direction shown in FIG. 12); that is, the first electrical connection assembly 11 and the second electrical connection assembly 21 may be movable in the lateral and longitudinal directions, respectively.

Specifically, please refer to FIG. 11 and FIG. 14. In a preferred application, the first electrical connection component 11 and the second electrical connection component 21 may respectively include a data transmission unit 116, 216. When the first electrical connection component 11 and the second electrical connection component 21 are electrically connected to each other, the two data transmission units 116, 216 are electrically connected to each other, whereby the activity mechanism 2 can correspondingly transmit relevant identification data (for example, the activity) The identity number corresponding to the mechanism 2, the identity numbers of the electronic devices D to be tested set on the activity mechanism 2, and the like are transmitted to the control device 14.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Therefore, equivalent technical changes made by using the present specification and the contents of the drawings are included in the protection scope of the present invention. .

Claims (10)

 A detection system is disposed in a space, the detection system includes: at least one fixing mechanism fixedly disposed in the space, the fixing mechanism comprising: at least one control device electrically connected to a system power supply; at least one An electrical connection component electrically connected to the control device; at least one movable mechanism that can be controlled to move in the space, the active mechanism for carrying a plurality of electronic devices to be tested, and the active mechanism includes at least one a second electrical connection component, the second electrical connection component is electrically connected to the electronic device to be tested carried by the movable mechanism, and the second electrical connection component is selectively electrically connected to the first electrical connection component When the active mechanism is controlled to be electrically connected to the fixed mechanism, the electronic devices to be tested can be electrically connected to the power supply of the system, and the control device can control each of the electronic devices to be tested to perform a detecting operation.    The detection system of claim 1 includes a plurality of the fixing mechanisms, and the different fixing mechanisms are capable of controlling a plurality of the electronic devices to be tested carried by the movable mechanism to perform different detecting operations.    The detection system of claim 2, further comprising a system control device, wherein the control device of each of the fixing mechanisms is electrically connected to the system control device, and the control device of each of the fixing mechanisms is electrically connected to the active mechanism And transmitting an in-vehicle identification information corresponding to the activity mechanism and a to-be-identified identification information of each of the electronic devices to be tested carried by the activity organization.    The detection system of claim 3, wherein the system control device stores a plurality of detection programs, and the system control device can transmit the corresponding at least one detection program according to the detection station information transmitted by each of the fixing mechanisms to The fixing mechanism is configured to enable the fixing mechanism to perform a detecting operation on the plurality of electronic devices to be tested carried by the movable mechanism connected thereto according to the detecting program.    The detection system of claim 4, wherein each of the fixing mechanisms is capable of transmitting a detection station information to the system control device when the electrical connection is electrically connected to the movable mechanism, the detection station information including at least the vehicle identification information, each of the waiting The detection information of the electronic device and the detection information corresponding to each of the electronic devices to be tested are detected.    The detecting system of claim 3, further comprising a reading device capable of reading the in-vehicle identification information of each of the fixing mechanisms and the waiting for the electronic device to be tested carried by the movable mechanism Detecting the identification information, and the reading device can transmit the in-vehicle identification information and the plurality of the identification information to be tested to the system control device; the system control device can compare the in-vehicle identification information transmitted by the reading device and each of the The vehicle identification information transmitted by the fixing mechanism is controlled to control the detection operations of the plurality of the electronic devices to be tested carried by the activity mechanism.    The detection system of claim 3, further comprising a plurality of active carrying devices, each movable carrying device capable of carrying the movable mechanism to move in the space; each of the movable carrying devices being connectable to the system control device The system control device can control each of the movable carrying devices such that they carry the movable mechanism to be separated from or fixed to any one of the fixed mechanisms.    According to the detecting system of claim 7, the control device of each of the fixing mechanisms can be connected to any of the movable carrying devices, and each of the control devices can selectively make a position information according to the movable carrying device. The fixing mechanism and the moving mechanism are not fixed to each other.    The detection system of claim 1, comprising a plurality of the activity mechanism and a reading device, wherein the reading device can read an in-vehicle identification information of each of the activity mechanisms and the electronic devices to be tested carried by the activity device And the reading device can be connected to the control device to transmit the in-vehicle identification information and the identification information to be tested; any one of the fixing mechanism and the movable mechanism are electrically connected to each other The control device can receive the vehicle identification information transmitted by the activity mechanism, and the control device can control the vehicle identification information transmitted by the reading device and the vehicle identification information transmitted by the fixing mechanism. The electronic device to be tested performs a detection operation.    The detection system of claim 1, wherein the control device is capable of receiving a detection information corresponding to each of the electronic devices to be tested when the detection mechanism is electrically connected to the active device; the control device receives When the detection information including the error data is included, the corresponding electronic device to be tested can be controlled to repeatedly perform the detection operation.