KR20160004304U - Electronic unit test apparatus with noise prevention mechanism and test sorting equipment applying the same - Google Patents

Abstract

An electronic unit testing apparatus having a noise preventing mechanism, the testing apparatus comprising a testing apparatus and a noise preventing mechanism, the testing apparatus having a circuit board having at least one test socket, testing the electronic unit with a test socket, The instrument has an isolation chamber with at least one containment space, the isolation chamber accommodating a test socket of the test instrument and having at least one workpiece carrier leading to the containment space and to the outside, Wherein at least one actuator is provided with at least one fixture and a closure for closing a workpiece transporting the fixture and the closure so that the fixture and the closure are displaced in synchronization with each other, To the test socket through the material carrier of the isolation chamber Practical effect to effect the work of pushing the electronic unit and to improve the quality of the test effectively by using the closure to directly block the material transfer port of the quarantine room to prevent the noise disturbance outside the quarantine room from affecting the electronic unit test operation .

Description

TECHNICAL FIELD [0001] The present invention relates to an electronic unit testing apparatus having a noise preventing mechanism and an apparatus for testing and classifying the electronic apparatus according to an application thereof. BACKGROUND OF THE INVENTION < RTI ID =

When the actuator causes the fixture to perform the task of bringing the fixture into and out of the test socket by passing the fixture and the closure through the material transporting port of the isolation chamber using the synchronized displacement of the fixture and the closure, The present invention provides an electronic unit testing apparatus having a noise preventing mechanism that effectively increases the quality of a test by directly closing a material transporting port of a quarantine chamber using a closure to prevent the unit testing operation from being affected.

Currently, wireless communication electronic units (for example, radio frequency integrated circuits (RFICs)) are already widely used in mobile phones, base stations or wireless internet, and in order to secure the quality of the output of wireless communication electronic units, 1 and 2, the present test method is characterized in that a test instrument is installed in the open space of the mechanical equipment 11 of the electronic unit test facility, And the test socket 12 is provided with a circuit board 121 having a test socket 122. The test socket 122 is electrically connected to the contact 131 of the radio communication electronic unit 13 (Not shown) of the test equipment is provided with a plurality of probes 123 for contact with a material which is displaced in primary, secondary and tertiary directions (for example, X and Y, Z directions) And a carrier 14, The material carrier 14 has a suction nozzle fix 141 and sucks the wireless communication electronic unit 13 which is waiting for a test with the suction nozzle fix 141 and sends the wireless communication electronic unit 13 to the test socket The test equipment is pressed against the pressing unit 15 of the pressing mechanism so that the contact 131 of the radio communication electronic unit 13 and the probe 123 of the test socket 122 are brought into firm contact with each other. Is displaced in the Z direction to push the radio communication electronic unit 13 so that the contact 131 of the radio communication electronic unit 13 and the probe 123 of the temporary socket 122 maintain electrical contact, (Not shown) to transmit a test signal received by the wireless communication electronic unit 13 to perform a test operation on the wireless communication electronic unit 13 on the test socket 122, and judges as a defective product according to the test result Freedom before wireless communication And screening (13). However, the test socket 122 of the test instrument 12 performs a test operation on the wireless communication electronic unit 13 in an open space, because there is another noise in the open space, The electronic unit 13 receives not only the test signal transmitted from the tester but also other noise, so that it is easily disturbed by other noises in the course of the test operation. As a result, Resulting in errors.

The object of the present invention is to provide a test fixture comprising a test instrument and an anti-noise instrument, the test instrument having a circuit board with at least one test socket and testing the electronic unit with a test socket, Wherein the isolation chamber houses a test socket of a test instrument and at least one work transport is provided which leads to the receptacle and to the exterior and wherein the top of the isolation chamber is provided with at least one actuator Wherein at least one actuator is provided with at least one fixture for performing a predetermined operation and a closure for closing a workpiece transporting the fixture and the closure to displace the fixture and the closure to synchronize the fixture, The electronic unit is brought in from the test socket through the transport The mints are used to perform tasks and to achieve a practical effect of effectively shutting down the material transport of the isolation chamber directly using the closure to prevent the noise disturbance outside the isolation chamber from affecting the electronic unit test operation And an electronic unit testing apparatus having a noise preventing mechanism.

It is another object of the present invention to provide an electronic unit testing apparatus having the noise preventing mechanism, wherein the actuator of the noise preventing mechanism includes a compaction fixture having at least one suction nozzle and at least one closing member, And the suction nozzle pipeline of the pressure fixture leads to the outside of the isolation chamber, when the electronic unit is brought into the test socket at the pressure fixture on the actuator and the pressure is applied to the electronic unit to securely connect the test socket, By closing the suction nozzle by attaching and closing the material transport in the isolation chamber with the closure, the compaction fixture and workpiece carrier are reliably closed and tested to effectively prevent noise interference outside the isolation chamber from affecting the electronic unit test operation The quality of the And an electronic unit testing apparatus having a noise preventing mechanism for achieving a practical effect of height.

It is another object of the present invention to provide an electronic unit testing apparatus having the noise preventing mechanism, wherein the noise preventing mechanism is provided with a primary actuator on the outside of the quarantine chamber, and the primary actuator is provided with at least one primary closing And displacing said at least one secondary enclosure in at least one direction by means of said secondary actuators, and displacing said at least one secondary enclosure in at least one direction, When the suction nozzle on the actuator brings the electronic unit into the test socket, that is, when it leaves the electronic unit, the secondary actuator drives the secondary closure to press the electronic unit to make sure contact with the test socket, Since the pipeline of the nozzle leads to the outside of the isolation chamber, the primary actuator immediately drives the suction nozzle fixture to displace it, Closing the inlet port of the quenching chamber with the primary closure to reliably close the suction nozzle and the material carrier to effectively prevent noise interference outside the quenching chamber from affecting the electronic unit testing operation, And a noise preventing mechanism that achieves a practical effect of effectively increasing the noise level of the electronic unit.

Another objective of the present invention is to provide a machine tool, Material supply device; Material recovery device; Test equipment; Conveying device; And at least one feedstock loader for receiving at least one test waiting electronic unit, wherein the material feeder is mounted on the machine equipment, And at least one recovered material stacker for receiving at least one tested battery unit, wherein the testing apparatus is mounted on the machine equipment, and performs a separate test operation on the battery unit, Wherein the conveying device is mounted on the machine equipment and has at least one material conveyor for carrying and loading the electronic unit, By controlling and integrating the operation of each device And an electronic unit testing apparatus having a noise preventing mechanism that achieves a practical effect of increasing the efficiency of the operation.

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

3, this is a test apparatus 20 according to a first embodiment of the present invention, which includes a test apparatus 21 and a noise prevention mechanism 22, And a circuit board 211 having at least one test socket 212 for the circuit board 210. In addition, the circuit board may be a circuit board with a test program, or a circuit board electrically connected to the testing machine, The electronic unit is configured as a wireless communication unit, on which a test socket 212 is disposed and electrically connected to a testing machine, and the test socket 212 has a plurality of probes 213 (22) is electrically connected to the contact of the radio communication electronic unit, and is used to test whether the reception / transmission signal function of the radio communication electronic unit is abnormal or not, and the noise prevention mechanism (22) And the isolation chamber accommodates the test socket 212 of the push-in mechanism 21, and additionally, the isolation chamber may be mounted on the outside of the test socket 212 by being configured as a housing The test strip may be composed of a stand-alone plate for mounting and placing a circuit board, or may be used as a test board using a circuit board of the test apparatus, The receptacle 221 is formed of a housing made of a barrier material and a receptive space 2211 is provided therein and the receptacle 221 is connected to the test socket 212, And placed on the machine equipment to place the test socket 212 in the receiving space 2211, The accommodating space 2211 and the at least one material transporting port leading to the outside are formed in the upper end surface of the inserting room 221 so as to communicate with the outside of the inserting room 221. [ And the material transporting port (2212) corresponds to the test socket (212), and the noise preventing mechanism (22) further comprises at least one actuator, and the at least one (Not shown), or a material carrier with a suction nozzle fixture (not shown), or with a push-fit fixture A pressure reducer is disposed and used as an actuator of the noise prevention mechanism 22 or a pusher having a compression fixture of a compression mechanism (not shown) In the present embodiment, the noise prevention mechanism 22 is provided with an actuator at the upper end of the isolation chamber 221, and the actuator is driven by a primary motor for driving at least one mobile shelf and displacing it in at least one direction The actuator 222 is provided with a primary drive source 2221 for driving the movable rack 2222 to displace it in the Z direction and on the movable rack 2222, A pressure fixture 2223 for pressing a radio communication electronic unit inside the socket 212 is mounted and the noise suppression mechanism 22 is further provided with at least one closure for closing the material carrier 2212 above the actuator 222. [ The closing member 223 is made of a barrier material and mounted on a moving shelf 2222 of the actuator 222 so as to be displaced in the Z direction so as to move in the Z direction, Material transport (2212) Lt; / RTI >

4, since the test socket 212 of the test mechanism 21 is located inside the isolation chamber 221 of the noise prevention mechanism 22 in use, the material conveyor 31 of the material conveyance mechanism is tested The wireless communication electronic unit 40 which is waiting for the test is displaced in the Y direction by driving the sucked suction nozzle fixture 311 before waiting wireless communication is moved to the upper end of the material transportation port 2212 of the isolation chamber 221 The material carrier 31 drives the suction nozzle fixture 311 again to displace it downward in the Z direction so that the suction nozzle fixture 311 passes through the material transportation port 2212 of the separation chamber 221, The wireless communication electronic unit 40 that enters the inside of the receiving space 2211 of the test apparatus 221 and is waiting for the test is loaded into the test socket 212 of the test apparatus 21 and is transported.

5, when the wireless communication electronic unit 40 waiting for a test is loaded on the test socket 212 of the test mechanism 21, the suction nozzle fixture of the material carrier is displaced upward in the Z direction and returns. The actuator 222 of the noise prevention mechanism 22 is connected to the primary drive source 222 by the moving rack 2222, The fixture 2223 and the closing member 223 are driven to displace downward in the Z direction so that the suction nozzle fixture 311 passes through the material transporting port 2212 of the separating chamber 221 and enters the containing space 2211 of the separating chamber 221, Enters the inside of the test socket 212 and pushes the wireless communication electronic unit 40 waiting for a test on the test socket 212 so that the contact 41 of the wireless communication electronic unit 40 in the test waiting state is contacted with the probe 213 of the test socket 212 Make sure you are in touch so you can test However, when the actuator 222 drives the pressing fixture 2223 to displace it to the lower side in the Z direction, it is possible to prevent the noise from the outside of the isolation chamber 221 from completely obstructing the test operation by using the closure 223, The material transporting port 2212 of the inserting room 221 is closed to perform a test operation for the wireless communication electronic unit 40 in the test chamber waiting for the test to achieve a practical effect of increasing the quality of the test.

6, when the test operation is completed, the actuator 222 of the noise prevention mechanism 22 drives the moving shelf 2222, the pressing fixture 2223, and the closing member 223 to displace upward in the Z direction To cause the closure 223 to open the workpiece carrier 2212 of the isolation chamber 221 and the compression fixture 2223 to leave the tested telecomunication electronic unit 40 on the test socket 212, And passes through the material transporting port 2212 of the separating chamber 221 to leave the receiving space 2211 of the separating chamber 221. This is because the suction nozzle fixture 311 of the material transporting unit 31 of the material transporting mechanism The tested wireless communication electronic unit 40 is moved to the next device by taking out the tested wireless communication electronic unit 40 on the test socket 212 via the material transportation port 2212 of the isolation chamber 221 So that they can be loaded and transported.

7 and 8, this is an actuator of the anti-noise mechanism 22 according to another embodiment of the present invention, wherein the actuator of the anti-jamming mechanism 22 is mounted on the electronic unit of the test socket 212 A push fixture having at least one suction nozzle for compressing is mounted and arranged, and the actuator further comprises a primary drive source for driving at least one mobile shelf to displace it in at least one direction, wherein the at least one idle stand The actuator 222 drives the movable shelf 2222 with the primary drive source 2221 to displace the movable shelf 2222 in the YZ direction and moves the movable shelf 2222 to a position above the movable shelf 2222. In this embodiment, And the suction nozzle of the pressure fixture 2224 is deformed or deformed by a suitable shock absorbing action when subjected to compression, To displacement is contracted, the suction nozzle according to the present embodiment, the apchwi fixture 2224 is displaced is retracted into the interior when subjected to pressure. In use, the noise prevention mechanism 22 is connected to a primary drive source 2221 of the actuator 222, a mobile shelf 2222, a push-fix fixture 2224 to which the wireless communication electronic unit 40 is being tested, The water 223 is driven and displaced in the YZ direction so that the compaction fixture 2224 drives the wireless communication electronic unit 40 in the test waiting state to pass through the material transportation port 2212 of the isolation chamber 221, The electronic unit 40 is loaded into the test socket 212 of the test mechanism 21 and is transported and the radio communication electronic unit 40 in the test waiting state is pushed, The test operation is performed by making the contact 41 securely contact the probe 213 of the test socket 212. Since the push fixture 2224 is pressed onto the radio communication electronic unit 40, (2224) It is possible to close the suction nozzle of the compaction fixture 212 using the wireless communication electronic unit 40 to prevent it from interfering with the testing operation inside the isolation chamber 221 via the pipeline, It is possible to close the work transporting port 2212 of the isolation chamber 221 by using the closed object 223 when the wireless communication electronic unit 40 is placed in the test socket 212 by driving the wireless communication electronic unit 402 that is waiting for the test. Therefore, the noise preventing mechanism 22 can prevent the noise disturbance outside the isolation chamber 221 from effectively affecting the electronic unit test work, It is possible to achieve a practical effect of effectively increasing the quality of the test.

9, when the test operation is completed, the actuator 222 of the noise prevention mechanism 22 moves the movable rack 2222, the compaction fixture 2224, and the closure 223 to the primary drive source 222 So as to cause the closure 223 to open the material transporting port 2212 of the isolation chamber 221 and allow the suction nozzle of the compaction fixture 2224 to move the tested cordless The passage electronics unit 40 is taken out and the separation room 221 is passed through the material transporting port 2212 of the isolation chamber 221 to load and carry the tested wireless communication electronic unit 40 to the next device.

Referring to FIG. 10, this is a testing apparatus 20 according to a second embodiment of the present invention, which includes a testing mechanism 21 and a noise preventing mechanism 23, Wherein the electronic unit is comprised of a wireless communication electronic unit and a test socket 212 is mounted above the circuit board 211. The circuit board 211 has at least one test socket 212, And the test socket 212 is a transmission having a plurality of probes 213 electrically connected to a contact of the wireless communication electronic unit to receive / transmit the wireless communication electronic unit The noise isolation mechanism 23 has an isolation chamber having at least one accommodation space and the isolation chamber accommodates the test socket 212 of the integration mechanism 21, In the embodiment The receptacle 231 is formed of a housing made of a barrier material and a receptive space 2311 is formed in the receptacle 231. The receptacle 231 is mounted on the outside of the test socket 212, And the test socket 212 is placed in the accommodating space 2211. The inserting chamber 231 is provided with the accommodating space 2311 and a material transporting port for communicating with the outside, A material transporting port 2312 is formed on the upper surface of the separating chamber 231 to allow the receiving space 2311 to communicate with the outside of the separating chamber 231. The material transporting port 2312 is connected to the test socket 212), and wherein the noise protection mechanism (23) comprises at least one primary actuator, at least one fixture for performing a preset operation is mounted on the at least one primary actuator, The noise preventive mechanism 23 may be provided with an independent primary actuator or a material carrier having a suction nozzle fixture of a material transport mechanism (not shown), or a pusher having a push- (Not shown) can be used as the actuator of the noise prevention mechanism 23, and the primary actuator can be driven by at least one mobile shelf to drive at least one In this embodiment, the noise prevention mechanism 23 is used as a primary driving source 232 by using a material carrier of a material conveying mechanism, and the primary driving source 232 The secondary drive source 2321 drives the movable shelf 2322 to displace it in the YZ direction and drives the suction nozzle fixture 2324 over the movable shelf 2322 And a third driving source 2323 for taking out and disposing the wireless communication electronic unit through the load carrying system by displacing it with a short stroke in the Z direction and mounting the noise eliminating mechanism 23 to the primary actuator 232 And at least one secondary actuator 234 is provided in the interior of the isolation chamber 231 and at least one secondary actuator 234 is provided in the interior of the isolation chamber 231, 234 drive and displace at least one secondary closure 235 closing the fixture and additionally the secondary actuator 234 drives the secondary closure 235 to displace in a plurality of directions And in this embodiment the primary closure 233 is made of a barrier material and mounted on a moving shelf 2322 of the primary actuator 232, And is driven by the primary actuator 232 to move in the YZ direction And the secondary actuator 234 is used to drive the fifth-stage driving source 2342 to move the fourth stage driving source 2341 in the Y direction. , The fifth power source 2342 drives the secondary closure 235 to displace it in the Z direction and the secondary closure 235 presses the wireless communication electronics unit inside the test squeegee 212, And is used to close the nozzle fixture 2324.

11, in use, since the test socket 212 of the test mechanism 21 is mounted and disposed inside the isolation chamber 231 of the noise prevention mechanism 23, the noise prevention mechanism 23 is connected to the primary actuator 232 and 233 are connected to a secondary drive source 2321 of the main body 231. The suction nozzle fixture 2324 and the primary closure 233 which are adsorbed by the mobile communication rack 2322, the tertiary drive source 2322, So as to cause the suction nozzle fixture 2325 to load and carry the radio communication electronic unit 40 under test standby to the upper end of the material transporting port 2321 of the isolation chamber 231. Subsequently, The suction nozzle fixture 2324 drives the movable shelf 2322, the tertiary drive source 2323, the suction nozzle fixture 2324 and the primary closing member 233 to displace in the Z direction so that the suction nozzle fixture 2324 causes the suction nozzle fixture 2324, 231 to enter the receiving space 23311 of the isolation chamber 231, The tertiary drive source 2323 drives the suction nozzle fixture 2324 again to displace it to a short stroke downward in the Z direction so that the suction nozzle fixture 2324 sets the radio communication electronic unit 40, And the noise preventing mechanism 23 closes the material transporting port 2312 of the isolation chamber 231 by using the primary closing material 233. In this case,

12 and 13, when the wireless communication electronic unit 40 waiting for a test is loaded on the test socket 212 of the test mechanism 21, the primary actuator 232 of the noise prevention mechanism 23 The suction nozzle fixture 2324 is driven by the tertiary drive source 2323 to displace the suction nozzle fixture 2324 to a small stroke upward in the Z direction so that the suction nozzle fixture 2324 allows the wireless communication electronic unit 40, The secondary actuator 234 drives the secondary enclosure 235 by using the fourth driving source 2341 and the fifth driving source 2342 so as to be positioned inside the isolation chamber 231 in the YZ direction The secondary closing portion 235 pushes the wireless communication electronic unit 40 in the test socket 212 waiting for a test and the contact 41 of the wireless communication electronic unit 40 in the test standby state is moved to the test socket 212 to ensure contact with the probe 213, It performs bit operations. At this time, since the air suction pipeline of the suction nozzle fixture 2324 leads to the outside of the isolation chamber 231, external noise interferes with the test operation inside the isolation chamber 231 through the suction suction pipeline of the suction nozzle fixture 2324 The noise prevention mechanism 23 is configured so that the secondary closure 235 presses the wireless communication electronic unit 40 under test and makes a contact with the test socket 212 and then the primary actuator 232 The suction nozzle fixture 2324 is displaced to a short stroke downward in the Z direction to attach the suction nozzle fixture 2324 to the upper surface of the secondary enclosure 235 So that the suction nozzle fixture 2324 is closed. The noise prevention mechanism 23 therefore closes the workpiece transport 2312 of the isolation chamber 231 using the primary closure 233 on the primary actuator 232 and the upper closure 234 on the secondary actuator 234 It is possible to effectively prevent noise outside the isolation chamber 231 from interfering with the test operation of the wireless communication electronic unit 40 by closing the suction nozzle fixture 2324 with the secondary closing member 235 of the wireless communication electronic unit 40, .

14, when the test operation is completed, the primary actuator 232 of the noise prevention mechanism 23 drives the suction nozzle fixture 2324 using the tertiary drive source 2323 to generate a short The suction nozzle fixture 2324 is first moved away from the upper end surface of the secondary closure 235 and then the secondary actuator 234 is moved back to the quadratic drive source 2341 and the fifth drive source 2324, The second closing member 235 is returned to the opposite direction of the YZ direction so that the second closing member 235 moves away from the tested free wireless communication tip 40. At this time, Since the first actuator 2324 is still positioned inside the isolation chamber 231, the first actuator 232 directly drives the suction nozzle fixture 2324 using the tertiary drive source 2323 and displaces it to a short stroke downward in the Z direction The suction nozzle fixture 2324 causes the suction nozzle fixture 2324 to move over the test socket 212 And the secondary driving source 2321 of the primary actuator 232 is directly connected to the mobile rack 2322, the tertiary driving source 2323, the tested wireless communication electronic unit 2323, The suction shroud fixture 2324 and the primary closing member 233 on which the adsorbing member 40 is adsorbed is displaced to a relatively long stroke upward in the Z direction so that the primary closing member 233 can be moved to a position And the first actuator 232 is again moved to the suction nozzle fixture 2324. The suction nozzle fixture 2324 is then opened to remove the wireless communication electronic unit 40 that has been tested with the suction nozzle fixture 2324 from the isolation chamber 231, The primary closure 233 and the tested wireless communication electronic unit 40 to displace them in the Y direction and transfer them to the next device.

15 and 16, this is the primary actuator of the anti-noise mechanism 23 according to another embodiment of the present invention, which actuates at least one moving shelf to displace it in at least one direction The primary actuator 232 drives the movable shelf 2322 with the secondary drive source 2321 to displace it in the YZ direction while the primary actuator 232 moves the movable shelf 2322 in the YZ direction on the movable shelf 2322. In this embodiment, The suction nozzle of the oil presser fixture 2325 is deformed or contracted and displaced through an appropriate buffering action when it is pressed under the pressure, The suction nozzle of the pressure fixture 2225 is contracted and displaced inward when pressed and the secondary actuator 234 of the noise prevention mechanism 23 drives at least one secondary closure 235 , And the secondary closure The secondary actuator 234 closes the pressure fixture 2325 with the second actuator 235. In this embodiment, the secondary actuator 234 includes a fourth drive source 2341 for driving at least one secondary closure 235 to displace it in the YZ direction And a fifth driving source 2342. In use, the noise preventing mechanism 23 includes a secondary driving source 2321 of the primary actuator 232, a moving shelf 2322, a wireless communication electronic unit The pusher fixture 2325 and the primary closed unit 233 to which the pusher fixture 40 is adsorbed is displaced in the YZ direction so that the pusher fixture 2325 drives the wireless communication electronic unit 40 that is waiting for the test, The wireless communication electronic unit 40 passing through the material transporting port 2312 of the test apparatus 21 and waiting for the test is loaded into the test socket 212 of the test apparatus 21 to carry the primary closing material 233 Thereby closing the material transporting port 2312 of the separation chamber 231. [

17 and 18, when the wireless communication electronic unit 40 waiting for a test is loaded on the test socket 212 of the test mechanism 21, the primary actuator 232 of the noise prevention mechanism 23 The second driving source 2321 drives the compaction fixture 2325 to displace the compaction fixture 2325 to a small stroke upward in the Z direction so that the compaction fixture 2325 leaves the wireless communication electronic unit 40 that is waiting for the test, The secondary actuator 234 drives the secondary closing member 235 by using the fourth driving source 2341 and the fifth driving source 2342 and displaces the secondary closing member 235 in the YZ direction, The closing portion 235 urges the wireless communication electronic unit 40 in the test socket 212 waiting for a test and the contact 41 of the wireless communication electronic unit 40 in the test waiting state is detected by the probe of the test socket 212 (213). ≪ / RTI > At this time, in order to prevent the external noise from interfering with the test operation inside the isolation chamber 231 via the supply suction pipeline of the pressure fixture 2325, the noise prevention mechanism 23 is configured such that the secondary shut- The user pushes the standby radio communication electronic unit 40 and makes a firm contact with the test socket 212 and then drives the compaction fixture 2325 using the secondary drive source 2321 of the primary actuator 232 to move the push- The suction nozzle fixture 2324 is attached to the upper surface of the secondary enclosure 235 so as to close the suction nozzle of the pressure fixture 2324 so that the noise outside the isolation chamber 23 is transmitted to the wireless communication electronic It is possible to effectively prevent the unit 40 from interfering with the test operation, thereby achieving a practical effect of improving the quality of the test.

19, when the test operation is completed, the primary actuator 232 of the noise prevention mechanism 23 drives the squeegee fixture 2325 using the secondary drive source 2321, The second actuator 234 is driven again by the fourth drive source 2341 and the fifth drive source 2324 so that the second actuator 234 is driven again by the fourth drive source 2341 and the fifth drive source 2324, The closure 235 is driven to return to the opposite direction of the YZ direction so that the second closure 235 leaves the tested free wireless communication pre-dial 40. At this time, The first actuator 232 directly drives the pressure fixture 2325 using the secondary drive source 2321 and displaces the pressure fixture 2325 to a short stroke downward in the Z direction so that the pressure fixture 2325 The tested wireless communication electronics (212) on the test socket (212) The secondary drive source 2321 of the primary actuator 232 is again driven by the moving shelf 2322 and the push compaction fixture 2325 to which the tested wireless communication electronic unit 40 is adsorbed, And the primary closing member 233 is displaced to a relatively long stroke upward in the Z direction to allow the primary closing member 233 to open the material transporting port 2312 of the separating chamber 231, And then the primary actuator 232 is again driven out of the quenching fixture 2325, the primary closure 233 and the tested wireless communication electronic unit 233, (40) to displace in the Y direction and transfer it to the next device.

Referring to FIG. 20, this is a testing apparatus 20 according to a third embodiment of the present invention, which includes a testing mechanism 21 and a noise preventing mechanism 24, And the test mechanism 21 comprises a circuit board 211 having a plurality of test sockets 212. The circuit board 211 has at least one test socket And electrically connected to the circuit board 211 tester, wherein each test socket 212 is a transmission having a plurality of probes 213 electrically connected to the contacts of the wireless communication electronic unit , And the noise prevention mechanism (24) is provided with an isolation chamber having at least one accommodation space, and the isolation chamber is used for testing the state of the signal transmission mechanism In this embodiment, the isolation chamber 241 is constituted by a housing made of a barrier material, and a housing space 2411 is provided therein, and the isolation chamber 241 is provided with the test And is placed on the machine equipment to place the test socket 212 in the receiving space 2411 and the receiving chamber 241 is placed on the receiving space 2411 and the outside A material transportation port 4312 is formed in the upper surface of the isolation chamber 241 to allow the accommodation space 2411 to communicate with the outside of the isolation chamber 241 , Said noise prevention mechanism (24) further comprising at least one actuator, said at least one actuator being mounted with at least one fixture for performing a preset operation, and additionally, said at least one The synchronizer includes a sixth driving source and a seventh driving source for driving at least one mobile shelf in at least one direction. In this embodiment, the noise preventing mechanism 24 includes an actuator 242 And the actuator 242 is provided with a sixth driving source 2421 for driving the seventh driving source 2422 to displace it in the Z direction and the seventh driving source 2422 drives the moving shelf 2423 And a plurality of pressing fixtures 2424 for pressing the wireless communication electronic units in the plurality of test sockets 212 are provided on the movable shelf 2423. Further, The mechanism 24 is provided with at least one closure that closes the workpiece transport over the actuator 242 wherein a plurality of closures 243 are provided on the moving shelf 2423 of the actuator 242 , Each closure (243) has an isolation chamber (241) Consists of a barrier material for a plurality of materials and transportation equipment 241 is closed.

21, since the plurality of test sockets 212 of the test mechanism 21 are mounted and disposed inside the isolation chamber 241 of the noise prevention mechanism 24 in use, The driving source 2421 drives the seventh driving source 2422, the moving shelf 2423, the plurality of pressing fixtures 2424 and the plurality of closures 243 to displace in the Y direction to provide a plurality of closing members 342 The material conveying unit 31 of the material conveying mechanism drives the suction nozzle fixture 311 in which a plurality of test waiting radio communication electronic units 40 are adsorbed to move in the YZ direction A plurality of wireless communication electronic units 40 are placed in the isolation chamber 241 through the work transporting port 2412 and transported to the test socket 212 of the test apparatus 21 .

22, when the wireless communication electronic unit 40 waiting for a test is loaded in each test socket 2122 of the test mechanism 21, since the work transportation port 2412 of the isolation chamber 241 is not closed A sixth driving source 2421 of the actuator 242 of the noise prevention mechanism 24 is provided so as to prevent the wireless communication electronic unit 40 that is waiting for a test in each test socket 212 from being disturbed by external noise. A plurality of pressing fixtures 2424 and a plurality of closures 243 are displaced in the Y direction by driving the seventh driving source 2422, the movable shelf 2423, the plurality of pressing fixtures 2424 and the plurality of closures 243, 243 correspond to the plurality of workpiece transport ports 2412 of the isolation chamber 241 and then the actuator 242 is moved to the seventh drive source 2422 by the moving shelf 2423, the plurality of pressing fixtures 2424, Drives the closure members 243 to displace downward in the Z direction The plurality of pressing fixtures 2424 presses the wireless communication electronic units 40 waiting for a test on the test socket 212 so that the contacts 41 of each of the wireless communication electronic units 40 waiting for a test are tested The test operation is performed by individually inserting the isolation chamber 241 into the accommodating space 4211 of the isolation chamber 241 through the material transport port 2412 so as to contact the probe 213 of the socket 212, When the push fixture 2424 presses the wireless communication electronic unit 40 that is waiting for a test, the plurality of closures 243 on the actuator 242 cause the noise outside the isolation chamber 241 to interfere with the test operation The material transporting port 2412 of the isolation chamber 241 is closed immediately so that the wireless communication electronic unit 40 under test is tested in the closed isolation chamber 241 so that the practical effect of improving the quality of the test is obtained The Castle.

23, when the test operation is completed, the seventh driving source 2422 of the actuator 242 drives the moving shelf 2423, the plurality of pressing fixtures 2424 and the plurality of closures 243, So that a plurality of the closures 243 are opened to open the material transporting ports 2412 of the isolation chamber 241 and the plurality of compression fixtures 2424 are connected to the radio communication electronic units 40 And the sixth driving source 2421 of the actuator 242 is caused to pass through the seventh driving source 2422 and the third driving source 2421 of the actuator 242, The movable shelf 2423, the plurality of pressing fixtures 2424 and the plurality of closures 243 are driven to displace in the Y direction so that the plurality of closures 243 are displaced relative to the plurality of work transport ports 2412 This is because a plurality of sucking operations of the material conveyor 31 of the material conveying mechanism The mouth nozzle fixture 311 is displaced in the YZ direction to take out the wireless communication electronic unit 40 that has been tested in the test socket 212 of the isolation chamber 241 and the tested wireless communication electronic unit 40 to the next device So that they can be loaded and transported.

Referring to FIG. 24, this is a test classification apparatus to which the test apparatus 20 according to the present invention is applied. The test classification apparatus includes a mechanical apparatus 50; A material supply device 60; A material recovery device (60); A test apparatus 20; A transport device (80); And a central control device, wherein the material supply device (60) is mounted to the mechanical equipment (50) and has at least one supply material loader (61) for receiving at least one test waiting electronic unit , The material recovery device (70) is mounted on the mechanical equipment (50), and at least one recovery material loader (71) for receiving at least one tested electronic unit is provided, And the noise preventing mechanism 22 is used for the electronic unit test and the noise preventing mechanism 22 is used for the electronic device test, (For example, a pressing operation) for the unit and preventing the other noise from interfering with the test operation of the test apparatus 21, and the input end conveying mechanism 81 of the conveying apparatus 80, Lt; / RTI > The electronic unit is taken out of the waiting test unit 60 and the taken out electronic unit is transported to the primary supply material stocking unit 81 and the secondary supply stocking stock 83 respectively, 82 and the secondary supply material stock 83 transport the electronic unit under test to the testing apparatus 20 and the primary material transport mechanism 84 and the secondary material transport mechanism 85 performs a test operation by carrying the test standby intermediate electronic units on the primary supply material rack 82 and the secondary supply material rack 83 to the test apparatus 20 respectively and then the test apparatus 20 ) Are loaded and carried by the primary recovered workpiece stocker 86 and the second recovered workpiece stocker 87, respectively, and the first recovered workpiece stocker 86 and the second recovered workpiece stocker 86, (87) loads and exports the tested electronic unit, and the output stage transport mechanism (86) of the transport device (80) The tested electronic unit is taken out from the material stocking stand 86 and the second recovered work stocking stage 87, and the tested electronic units are transported to the material collecting apparatus 70 according to the test result, And the central control device is used to control and integrate the operation of each device to perform an automation operation, thereby achieving a practical effect of increasing the efficiency of the operation.

Fig. 1 is a perspective view (1) of a use state in which a test operation for a wireless communication electronic unit is performed as a conventional testing apparatus.
2 is a perspective view (1) of a state-of-use in which a test operation for a wireless communication electronic unit is performed as a conventional testing apparatus.
3 is a perspective view of a testing apparatus according to a first embodiment of the present invention.
4 is a perspective view (1) of the state of use of the test apparatus according to the first embodiment of the present invention.
5 is a perspective view (2) of the state of use of the test apparatus according to the first embodiment of the present invention.
Fig. 6 is a perspective view (3) of the use state of the test apparatus according to the first embodiment of the present invention.
7 is a perspective view of another embodiment of the actuator of the test apparatus according to the first embodiment.
8 is a perspective view (1) of the operating state of the actuator according to another embodiment.
9 is a use state perspective view (2) of the actuator according to another embodiment.
10 is a perspective view of a testing apparatus according to a second embodiment of the present invention.
11 is a perspective view (1) of the state of use of the test apparatus according to the second embodiment of the present invention.
12 is a perspective view (2) of the state of use of the test apparatus according to the second embodiment of the present invention.
Fig. 13 is a perspective view (3) of the state of use of the test apparatus according to the second embodiment of the present invention.
Fig. 14 is a perspective view (4) of the state of use of the test apparatus according to the second embodiment of the present invention.
15 is a perspective view of another embodiment of the primary actuator of the test apparatus according to the second embodiment.
16 is a use state perspective view (1) of a primary actuator according to another embodiment.
17 is a use state perspective view (2) of a primary actuator according to another embodiment.
18 is a use state perspective view (3) of the primary actuator according to another embodiment.
19 is an exploded perspective view (4) of the primary actuator according to another embodiment.
20 is a perspective view of a test apparatus according to a third embodiment of the ball design.
Fig. 21 is a perspective view (1) of the state of use of the test apparatus according to the third embodiment of the present invention.
22 is a perspective view (2) of the state of use of the test apparatus according to the third embodiment of the present invention.
Fig. 23 is a perspective view (3) of the use state of the test apparatus according to the third embodiment of the present invention.
Fig. 24 is a perspective view (4) of the state of use of the test apparatus according to the third embodiment of the present invention.

[Convention]
11: Mechanical equipment 12: Test equipment
121: circuit board 122: test socket
123: probe 13: radio communication electronic unit
131: Contact point 14: Material carrier
141: suction nozzle fixture 15: pressing device
[Design]
20: Test apparatus 21: Test apparatus
211: circuit board 212: test socket
213: probe 22: noise prevention mechanism
221: isolation chamber 2211: accommodation space
2212: Material transport 222: Actuator
2221: primary driving source 2222: mobile shelf
2223: compression fixture 2224:
223: Closed object 23: Noise prevention device
231: isolation chamber 2311: accommodation space
2312: Material transport 232: Primary actuator
2321: Secondary driving source 2322: Mobile shelf
2323: tertiary driving source 2324: suction nozzle fixture
2325: Compression Fixture 233: Primary Closure
234: Secondary actuator 2341: Fourth driving source
2342: fifth driving source 235: secondary closing
24: noise prevention mechanism 241: isolation chamber
2411: accommodation space 2412: material transport
242: Actuator 2421: Sixth driving source
2422: 7th driving source 2423: mobile shelf
2424: compression fixture 243: closure
31: Material transport 311: Suction nozzle fixture
40: wireless communication electronic unit 41: contact
50: Mechanical equipment 60: Material supply device
61: Feed material stacker 70: Material recovery device
71: Collected material loader 80: Transport device
81: input stage conveying device 82: primary supply material stacking bed
83: Secondary material supply stand 84: Primary material carrier
85: Secondary material carrier 86: Primary collection material stack
87: Secondary recovery material stack 88: Output stage transport mechanism

Claims (10)

A test instrument having a circuit board with at least one test socket for testing an electronic unit; And
And an isolation chamber having at least one containment space for receiving a test socket of the test apparatus, the isolation chamber having at least one material transport port leading to the containment space and to the outside, and at least one actuator Wherein the at least one actuator is mounted with at least one fixture for performing a preset operation, and wherein at least one actuator is provided with at least one closure for closing the work transport;
And an electronic unit test apparatus having an anti-noise mechanism. The method according to claim 1,
Wherein the isolation chamber of the noise prevention mechanism is constituted by a hollow chamber having a housing or a redesigned plate. The method according to claim 1,
Wherein the actuator of the noise prevention mechanism comprises a primary drive source for driving at least one mobile shelf and displacing it in at least one direction, at least one fixture being arranged on the at least one mobile shelf, Characterized in that at least one closure is mounted and arranged above the mobile shelf. The method according to claim 1,
Wherein the actuator of the noise prevention mechanism is mounted and arranged with a pressure fixture having at least one suction nozzle for pressing and positioning the electronic unit of the test socket. The method according to claim 1,
Wherein the noise control mechanism is provided with a primary actuator outside the isolation chamber and the primary actuator drives at least one fixture and a primary closure that closes at least one work carrier to displace it in at least one direction, A secondary actuator is provided in the interior of the isolation chamber, and the secondary actuator drives the secondary enclosure closing at least one of the fixtures to displace the at least one fixture in at least one direction. Unit testing equipment. 6. The method of claim 5,
Wherein said primary actuator has a secondary drive source for driving at least one moving shelf and displacing it in at least one direction, said at least one fixture and said primary enclosure being mounted and disposed above said at least one mobile shelf, , And the secondary actuator comprises a quadratic source and a quaternary driving source for driving the secondary enclosure to displace in a plurality of directions. 6. The method of claim 5,
Wherein the primary actuator comprises a secondary drive source for displacing at least one moving shelf in at least one direction, a primary closure is provided on the at least one moving shelf, and the at least one fixture is driven to move in the Z direction And a quadratic driving source and a fifth driving source for displacing the secondary enclosure in a plurality of directions by driving the secondary enclosure, wherein the quadratic driving source is provided with a noise source Electronic unit testing apparatus. The method according to claim 1,
Wherein the testing mechanism includes a plurality of test sockets, a plurality of material transporting ports are formed in the isolation chamber of the noise preventing mechanism, and a plurality of closing materials closing the plurality of material transporting ports are provided on the actuator. The electronic unit testing apparatus having a noise preventing mechanism. 9. The method of claim 8,
Wherein the actuator comprises a sixth driving source and a seventh driving source for driving at least one moving shelf and displacing the moving shelf in a plurality of directions, wherein a plurality of the fixed fixtures and the plurality of closures are provided on the at least one moving shelf The electronic unit testing apparatus having a noise preventing mechanism. Mechanical equipment;
A material supply device disposed on the machine equipment and having at least one supply material loader for receiving an electronic unit waiting for a test;
A material collecting device disposed on the machine equipment and having at least one recovered material stacker for receiving a tested electronic unit;
An electronic unit testing apparatus having a noise preventing mechanism according to claim 1; And
A central control device used to control and integrate the operation of each device to perform automated tasks;
And an electronic unit testing apparatus having the noise preventing mechanism.

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