CN205120910U - Full -automatic testing arrangement of core plate - Google Patents

Full -automatic testing arrangement of core plate Download PDF

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Publication number
CN205120910U
CN205120910U CN201520479034.3U CN201520479034U CN205120910U CN 205120910 U CN205120910 U CN 205120910U CN 201520479034 U CN201520479034 U CN 201520479034U CN 205120910 U CN205120910 U CN 205120910U
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CN
China
Prior art keywords
axis
pcb board
cylinder
tested cylinder
automatic testing
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201520479034.3U
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Chinese (zh)
Inventor
谭志军
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Dongguan victory Electronic Equipment Co., Ltd.
Original Assignee
Dongguan Yuanjian Automation Technology Co Ltd
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Priority to CN201520479034.3U priority Critical patent/CN205120910U/en
Application granted granted Critical
Publication of CN205120910U publication Critical patent/CN205120910U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a full -automatic testing arrangement of core plate, including frame, PCB board test fixture, manipulator and conveyer belt, PCB board test fixture install in the both sides of frame, PCB board test fixture go up slidable installed X axle test cylinder and detachable install in test module on the X axle test cylinder, the manipulator is fixed install in the frame middle part, the conveyer belt is installed on the frame. Since PCB board test fixture go up slidable installed X axle test cylinder and detachable install in test module on the X axle test cylinder can be according to the adjustment of size test module's of PCB board test position, and consequently testable not unidimensional PCB board has reduced test cost. Full -automatic testing arrangement of core plate is last be equipped with eight PCB board test fixture install in the test of a plurality of PCB boards can be carried out simultaneously in the both sides of frame, has improved efficiency of software testing.

Description

Machine core board full-automatic testing device
Technical field
The utility model relates to a kind of proving installation, is specifically related to a kind of machine core board full-automatic testing device.
Background technology
Along with the progress of science and technology, electronics industry development is advanced by leaps and bounds, and electronic system becomes increasingly complex, and the reliability and maintainability of electronic system requires also more and more higher.Pcb board is as the important component part in electronic system research and production, and the quality of its quality directly affects the quality of whole equipment, and production cycle length can have influence on machine debugging progress and delivery time.Therefore, pcb board debugging is related to the quality of electronic system and the important step of production cycle.
Traditional machine core board full-automatic testing device customizes different machine core board full-automatic testing devices according to the pcb board of different size size, and for the test of the pcb board of different size size, its testing cost is high, and testing efficiency is low.
Utility model content
For above-mentioned deficiency, the utility model provides a kind of machine core board full-automatic testing device, can test, not only reduce testing cost low, and improve testing efficiency the pcb board of different size.
For achieving the above object, technical scheme provided by the utility model is:
A kind of machine core board full-automatic testing device, comprise support, pcb board measurement jig, mechanical arm and travelling belt, described pcb board measurement jig is installed in the both sides of described support, pcb board measurement jig is slidably equiped with X-axis tested cylinder and dismountable test module be installed in described X-axis tested cylinder, described mechanical arm is fixed in the middle part of described support, and described travelling belt is installed on support.
Improve as one of the present utility model, described pcb board measurement jig comprises test platform, be fixed at X-axis guide rail on described test platform and Y-axis guide rail, be slidably installed in two X-axis tested cylinder on described X-axis guide rail and two the Y-axis tested cylinder be slidably installed on described Y-axis guide rail and be installed on described test platform and multiple fixed legs between described X-axis tested cylinder and Y-axis tested cylinder.
Improve as one of the present utility model, dismountablely respectively in described X-axis tested cylinder and Y-axis tested cylinder be equiped with press plate mechanism, described press plate mechanism comprises fabricated section, pressing plate right cylinder and spring, described fabricated section is dismountable to be installed in described X-axis tested cylinder and Y-axis tested cylinder, the cylindrical one end of described pressing plate is slidably installed on described fabricated section, the other end cuts and forms downward-sloping inclined-plane, and described spring is mobilizable to be sheathed on described pressing plate right cylinder.
Improve as one of the present utility model, described pcb board measurement jig also comprises line mechanism for testing frequently, described test module is dismountable to be installed in an X-axis tested cylinder, described frequency line mechanism for testing is dismountable to be installed in another X-axis tested cylinder, described frequency line mechanism for testing comprises mounting blocks, frequently line card extender and cylinder, described mounting blocks is dismountable to be installed in an X-axis tested cylinder, described cylinder is fixed at mounting blocks upper surface, described frequency line card extender is fixed between described mounting blocks and cylinder, and the end of line card extender protrudes out the end of described mounting blocks and cylinder frequently.
Improve as one of the present utility model, described pcb board measurement jig also comprises the latch mechanism be fixed in described X-axis tested cylinder and Y-axis tested cylinder, this latch mechanism to be slidably installed on described X-axis guide rail and Y-axis guide rail and to be fixed in described X-axis tested cylinder and Y-axis tested cylinder, described latch mechanism runs through this latch mechanism and is provided with bolt.
Improve as one of the present utility model, two locking arms are extended to form in the both sides of described latch mechanism are relative after downward-extension, mounting groove is formed between two locking arm ends, described mounting groove is slidably installed on described X-axis guide rail and Y-axis guide rail, described latch mechanism runs through locking arm and offers threaded hole, and described bolt is installed on latch mechanism through the threaded hole on locking arm.
Improve as one of the present utility model, described mechanical arm comprises holder, movable machine frame, suction disc and adsorbing mechanism, described holder is fixed in the middle part of described support, described movable machine frame can any direction activity be installed on holder, described suction disc to be installed on movable machine frame and to be positioned at horizontal direction, and described adsorbing mechanism is installed in suction disc lower surface.
Improve as one of the present utility model, described travelling belt comprises infeed conveyor and discharge belt, described infeed conveyor to be installed on described support and to be positioned at the side of described mechanical arm, described discharge belt to be installed on described support and to be positioned at the opposite side of described mechanical arm, described discharge belt comprises non-defective unit travelling belt and defective products travelling belt, described non-defective unit travelling belt to be installed on described support and to be positioned at the downstream of described infeed conveyor, and described defective products travelling belt is installed in the top of described non-defective unit travelling belt.
Improve as one of the present utility model, described machine core board full-automatic testing device also comprises shell, and this casing is located at outside pcb board measurement jig, mechanical arm and the travelling belt on described support, and one end of described travelling belt protrudes out shell.
The beneficial effects of the utility model are: the utility model machine core board full-automatic testing device is owing to pcb board measurement jig being slidably equiped with X-axis tested cylinder and dismountable test module be installed in described X-axis tested cylinder, can according to the test position of the adjusted size test module of pcb board, therefore the pcb board of different size can be tested, reduce testing cost, improve testing efficiency.Described machine core board full-automatic testing device is provided with the both sides that eight pcb board measurement jigs are installed in described support, can carry out the test of multiple pcb board simultaneously, improve testing efficiency.Be installed in described X-axis tested cylinder relative after downward-extension with the both sides of the latch mechanism in Y-axis tested cylinder in extend to form two locking arms, bolt-through locking arm is installed on latch mechanism, make described locking arm generation microdeformation reach fixed effect by precession bolt, this locking mechanism structure is simple, volume is little and cost is low.
Below in conjunction with accompanying drawing and embodiment, the utility model is further illustrated.
Accompanying drawing explanation
Fig. 1 is perspective view of the present utility model.
Fig. 2 is the perspective view of pcb board measurement jig in Fig. 1.
Fig. 3 is the partial enlarged drawing at Fig. 2 intermediate frequency line mechanism for testing place.
Fig. 4 is the structural representation of latch mechanism in Fig. 2.
Fig. 5 is the structural representation of mechanical arm in Fig. 1.
Fig. 6 is the structural scheme of mechanism of adsorbing mechanism in Fig. 5.
In figure, each description of reference numerals is as follows.
Support-10, pcb board measurement jig-20, test module-21, test platform-22, X-axis guide rail-221, Y-axis guide rail-222, X-axis tested cylinder-23, Y-axis tested cylinder-24, fixed leg-25, centrum portion-251, fabricated section-261, pressing plate right cylinder-262, spring-263, inclined-plane-264, frequently line mechanism for testing-27, mounting blocks-271, frequently line card extender-272, cylinder-273, latch mechanism-28, locking arm-281, mounting groove-282, threaded hole-283, mechanical arm-30, holder-31, movable machine frame-32, suction disc-33, adsorbing mechanism-34, matrix-341, magnet-342, sucker-343, driving-belt-40, infeed conveyor-41, discharge belt-42, non-defective unit travelling belt-421, defective products travelling belt-422, pcb board-50, holding part-51, shell-60.
Embodiment
By describing technology contents of the present utility model, structural attitude in detail, realized object and effect, accompanying drawing is coordinated to be explained in detail below in conjunction with embodiment.
Refer to Fig. 1, the utility model machine core board full-automatic testing device comprises support 10, pcb board measurement jig 20, mechanical arm 30 and travelling belt 40.Described pcb board measurement jig 20 is installed in the both sides of described support 10, pcb board measurement jig 20 is slidably equiped with X-axis tested cylinder 23 and dismountable test module 21 be installed in described X-axis tested cylinder 23.Described mechanical arm 30 is fixed at the middle part of described support 10, and described travelling belt 40 is installed on support 10.
In the present embodiment, described machine core board full-automatic testing device is provided with the both sides that eight pcb board measurement jigs 20 are installed in described support 10, can carry out simultaneously multiple pcb board 50 test, improve testing efficiency.
Refer to Fig. 1 to Fig. 5, described pcb board measurement jig 20 comprises test platform 22, be fixed at X-axis guide rail 221 on described test platform 22 and Y-axis guide rail 222, be slidably installed in two X-axis tested cylinder 23 on described X-axis guide rail 221 and two the Y-axis tested cylinder 24 be slidably installed on described Y-axis guide rail 222 and be installed on described test platform 22 and multiple fixed legs 25 between described X-axis tested cylinder 23 and Y-axis tested cylinder 24.In the present embodiment, described fixed leg 25 is for fixing installing pcb board 50.Particularly, the drift angle place of described pcb board 50 offers fixed orifice (figure does not indicate), the top cut of described fixed leg 25 forms cone portion 251, when described machine core board full-automatic testing device is tested pcb board 50, described cone portion 251 is fixed in the fixed orifice of pcb board 50, the structural design of the cone portion 251 at the top of described fixed leg 25, so that the installing of pcb board 50 is with fixing.
Dismountablely respectively in described X-axis tested cylinder 23 and Y-axis tested cylinder 24 be equiped with press plate mechanism, described press plate mechanism comprises fabricated section 261, pressing plate right cylinder 262 and spring 263.Described fabricated section 261 is dismountable to be installed in described X-axis tested cylinder 23 and Y-axis tested cylinder 24, one end of described pressing plate right cylinder 262 is mobilizable to be installed on described fabricated section 261, the other end cuts and forms downward-sloping inclined-plane 264, when pcb board 50 be installed in pcb board measurement jig 20 test time, pcb board 50 is positioned on pcb board measurement jig 20 and easily occurs placing the test that the situations such as not steady and tilting will affect this pcb board 50, now computer can control the slip of described press plate mechanism and press pcb board 50 downwards by described inclined-plane 264 to make it be positioned on correct test position automatically.Described spring 263 is mobilizable to be sheathed on described pressing plate right cylinder 262, plays buffer action when the inclined-plane 264 of pressing plate right cylinder 262 presses pcb board 50, and then protection pcb board 50 prevents it from damaging.
Described pcb board measurement jig 20 also comprises line mechanism for testing 27 frequently, and described test module 21 is dismountable to be installed in an X-axis tested cylinder 23, and described frequency line mechanism for testing 27 is dismountable to be installed in another X-axis tested cylinder 23.Described test module 21 is installed in X-axis tested cylinder 23 with line mechanism for testing 27 is dismountable frequently, arbitrarily can convert the position of described test module 21 and frequency line mechanism for testing 27 according to the specification of pcb board 50.
Particularly, described frequency line mechanism for testing 27 comprises mounting blocks 271, frequently line card extender 272 and cylinder 273.Described mounting blocks 271 is dismountable to be installed in an X-axis tested cylinder 23, described cylinder 273 is fixed at the upper surface of mounting blocks 271, described frequency line card extender 272 is fixed between described mounting blocks 271 and cylinder 273, and the end of line card extender 272 protrudes out the end of described mounting blocks 271 and cylinder 273 frequently.When testing with frequency line mechanism for testing 27 pairs of pcb boards 50, computer automatically can control described frequency line card extender 272 and insert it in instrument connection on pcb board 50 (figure does not indicate), holding part 51 is hinged with above the instrument connection of described pcb board 50, when rotating described holding part 51 along frequency line card extender 272 along direction of insertion, holding part 51 fixes described frequency line card extender 272 so that test data is more accurate.In the present embodiment, the thickness of described frequency line card extender 272 increases, therefore its intensity becomes large so that the successful insertion of frequency line card extender 272, the setting of described frequency line mechanism for testing 27 top cylinder 273 can be convenient to frequency line mechanism for testing 27 when inserting pcb board 50, can promote the rotation of described holding part 51 along direction of insertion makes it fix described frequency line card extender 272, when being completed, described computer automatically can control described frequency line mechanism for testing 27 and move along the opposite direction inserted, described cylinder 273 can promote in the other direction described holding part 51 and rotates so that the exiting of line card extender 272 frequently along inserting.Adopt the structural design of the mounting blocks 271 of above-mentioned frequency line mechanism for testing 27, frequently line card extender 272 and cylinder 273, solve the tradition design that line card extender 272 is thin and soft frequently, and do not need to adopt artificial insertion line card extender 272 and the described holding part 51 of rotation frequently, achieve automatic test, save human resources.
Described pcb board measurement jig 20 also comprises the latch mechanism 28 be fixed in described X-axis tested cylinder 23 and Y-axis tested cylinder 24.This latch mechanism 28 to be slidably installed on described X-axis guide rail 221 and Y-axis guide rail 222 and to be fixed in described X-axis tested cylinder 23 and Y-axis tested cylinder 24, described latch mechanism 28 runs through this latch mechanism 28 and is provided with bolt.
Particularly, two locking arms 281 are extended to form in the both sides of described latch mechanism 28 are relative after downward-extension, mounting groove 282 is formed between two locking arm 281 ends, described mounting groove 282 is slidably installed on described X-axis guide rail 221 and Y-axis guide rail 222, described latch mechanism 28 runs through locking arm 281 and offers threaded hole 283, and described bolt is installed on latch mechanism 28 through the threaded hole 283 on locking arm 281.When described pcb board measurement jig 20 is tested described pcb board 50, described X-axis tested cylinder 23 and Y-axis tested cylinder 24 determine its shift position according to the size of described pcb board 50, are then fixed the test position of X-axis tested cylinder 23 and Y-axis tested cylinder 24 by the latch mechanism 28 be fixed in described X-axis tested cylinder 23 and Y-axis tested cylinder 24.Particularly, when after the test position determining described X-axis tested cylinder 23 and Y-axis tested cylinder 24, make described locking arm 281 that microdeformation occur by precession bolt and clamp described X-axis guide rail 221 and Y-axis guide rail 222 reaches fixed effect, this latch mechanism 28 structure is simple, volume is little and cost is low.
Refer to Fig. 5 and Fig. 6, described mechanical arm 30 comprises holder 31, movable machine frame 32, suction disc 33 and adsorbing mechanism 34.Described holder 31 is fixed in the middle part of described support 10, described movable machine frame 32 can any direction activity be installed on holder 31, described suction disc 33 to be installed on movable machine frame 32 and to be positioned at horizontal level direction, and described adsorbing mechanism 34 is installed in the lower surface of suction disc 33.In the present embodiment, machine core board full-automatic testing device also comprises camera (not shown), this camera to be installed on machine core board full-automatic testing device and to be positioned at the upstream of described mechanical arm 30, when travelling belt 40 transports pcb board 50 ingress engine central layer full-automatic testing device, when described camera determines that by taking pictures then the position of pcb board 50 feeds back to the computer be connected with this machine core board full-automatic testing device, pcb board 50 is drawn and is positioned on described pcb board measurement jig 20 and tests by mechanical arm 30 described in conputer controlled.
Particularly, described adsorbing mechanism 34 comprises matrix 341, magnet 342 and sucker 343.Described magnet 342 is fixed at the upper surface middle part of matrix 341, and described sucker 343 is fixed at the lower end of described matrix 341.Described suction disc 33 is iron plate, adsorbing mechanism 34 is fixed on described suction disc 33 lower surface by magnet 342 absorption, and then the position of adsorbing mechanism 34 arbitrarily can be converted according to the size of pcb board 50, described sucker 343 is connected with a tracheae, is deflated adsorb described pcb board 50 by tracheae.
Please continue to refer to Fig. 1, described travelling belt 40 comprises infeed conveyor 41 and discharge belt 42.Described infeed conveyor 41 to be installed on described support 10 and to be positioned at the side of described mechanical arm 30, and described discharge belt 42 to be installed on described support 10 and to be positioned at the opposite side of described mechanical arm 30.Described discharge belt 42 comprises non-defective unit travelling belt 421 and defective products travelling belt 422, described non-defective unit travelling belt 421 to be installed on described support 10 and to be positioned at the downstream of described infeed conveyor 41, and described defective products travelling belt 422 is installed in the top of described non-defective unit travelling belt 421.After described pcb board measurement jig 20 pairs of pcb boards 50 are completed, the pcb board 50 of test passes to be positioned on described non-defective unit travelling belt 421 by conputer controlled and to send by described mechanical arm 30, to be positioned over by the pcb board 50 of test failure on described defective products travelling belt 422 and to send.
Described machine core board full-automatic testing device also comprises shell 60, and this shell 60 is sheathed on outside pcb board measurement jig 20, mechanical arm 30 and the travelling belt 40 on described support 10, and one end of described travelling belt 40 protrudes out shell 60.In the present embodiment, described camera is installed on the shell 60 above infeed conveyor 41.
Refer to Fig. 1 to Fig. 6, during the work of the utility model machine core board full-automatic testing device: first, pcb board 50 to be tested is delivered in machine core board full-automatic testing device by described infeed conveyor 41, now to be taken pictures the position feedback to the computer of determining pcb board 50 by camera, pcb board 50 to be drawn by sucker 343 and is positioned in the cone portion 251 at fixed leg 25 top of described pcb board measurement jig 20 by computer automatic control manipulator 30.Then, described X-axis tested cylinder 23 and Y-axis tested cylinder 24 position relative to described pcb board 50 is manually adjusted according to the size of described pcb board 50, after X-axis tested cylinder 23 and Y-axis tested cylinder 24 position are determined, make described locking arm 281 that microdeformation occur by precession bolt and clamp described X-axis guide rail 221 and Y-axis guide rail 222 fixes X-axis tested cylinder 23 and Y-axis tested cylinder 24.When there is the uneven or situation of tilting of placement location in pcb board 50, now computer can automatically control described X-axis tested cylinder 23 and Y-axis tested cylinder 24 drive press plate mechanism to move and by described inclined-plane 264 downwards pressing pcb board 50 make it be positioned on correct test position.Then conputer controlled X-axis tested cylinder 23 drives described test module 21 and frequency line mechanism for testing 27 move and are electrically connected with pcb board 50.After to be tested, the cylinder 273 that described computer can control described frequency line mechanism for testing 27 promotes described holding part 51 in the other direction rotate so that the exiting of line card extender 272 frequently along inserting.Finally, mechanical arm 30 described in conputer controlled is sent by the pcb board 50 being positioned on non-defective unit travelling belt 421 by the pcb board 50 of test passes after sucker 343 adsorbs test, to be positioned over by underproof pcb board 50 on defective products travelling belt 422 and to send.
As mentioned above, the utility model machine core board full-automatic testing device is owing to pcb board measurement jig 20 being slidably equiped with X-axis tested cylinder 23 and dismountable test module 21 be installed in described X-axis tested cylinder 23, the test position of test module 21 can be regulated according to the size of pcb board 50, therefore the pcb board 50 of different size can be tested, reduce testing cost, improve testing efficiency.Described machine core board full-automatic testing device is provided with the both sides that eight pcb board measurement jigs 20 are installed in described support 10, can carry out simultaneously multiple pcb board 50 test, improve testing efficiency.Be installed in described X-axis tested cylinder 23 relative after downward-extension with the both sides of the latch mechanism 28 in Y-axis tested cylinder 24 in extend to form two locking arms 281, bolt-through locking arm 281 is installed on latch mechanism 28, make described locking arm 281 that microdeformation occur by precession bolt and reach fixed effect, this latch mechanism 28 structure is simple, volume is little and cost is low.
The announcement of book and instruction according to the above description, the utility model those skilled in the art can also change above-mentioned embodiment and revise.Therefore, the utility model is not limited to embodiment disclosed and described above, also should fall in the protection domain of claim of the present utility model modifications and changes more of the present utility model.In addition, although employ some specific terms in this instructions, these terms just for convenience of description, do not form any restriction to the utility model, adopt other device same or analogous with it, all in the utility model protection domain.

Claims (10)

1. a machine core board full-automatic testing device, it is characterized in that: comprise support, pcb board measurement jig, mechanical arm and travelling belt, described pcb board measurement jig is installed in the both sides of described support, pcb board measurement jig is slidably equiped with X-axis tested cylinder and dismountable test module be installed in described X-axis tested cylinder, described mechanical arm is fixed in the middle part of described support, and described travelling belt is installed on support.
2. machine core board full-automatic testing device as claimed in claim 1, is characterized in that: described pcb board measurement jig comprises test platform, be fixed at X-axis guide rail on described test platform and Y-axis guide rail, be slidably installed in two X-axis tested cylinder on described X-axis guide rail and two the Y-axis tested cylinder be slidably installed on described Y-axis guide rail and be installed on described test platform and multiple fixed legs between described X-axis tested cylinder and Y-axis tested cylinder.
3. machine core board full-automatic testing device as claimed in claim 2, it is characterized in that: dismountablely respectively in described X-axis tested cylinder and Y-axis tested cylinder be equiped with press plate mechanism, described press plate mechanism comprises fabricated section, pressing plate right cylinder and spring, described fabricated section is dismountable to be installed in described X-axis tested cylinder and Y-axis tested cylinder, the cylindrical one end of described pressing plate is slidably installed on described fabricated section, the other end cuts and forms downward-sloping inclined-plane, and described spring is mobilizable to be sheathed on described pressing plate right cylinder.
4. machine core board full-automatic testing device as claimed in claim 2, it is characterized in that: described pcb board measurement jig also comprises line mechanism for testing frequently, described test module is dismountable to be installed in an X-axis tested cylinder, described frequency line mechanism for testing is dismountable to be installed in another X-axis tested cylinder, described frequency line mechanism for testing comprises mounting blocks, frequently line card extender and cylinder, described mounting blocks is dismountable to be installed in an X-axis tested cylinder, described cylinder is fixed at mounting blocks upper surface, described frequency line card extender is fixed between described mounting blocks and cylinder, and the end of line card extender protrudes out the end of described mounting blocks and cylinder frequently.
5. machine core board full-automatic testing device as claimed in claim 2, it is characterized in that: described pcb board measurement jig also comprises the latch mechanism be fixed in described X-axis tested cylinder and Y-axis tested cylinder, this latch mechanism to be slidably installed on described X-axis guide rail and Y-axis guide rail and to be fixed in described X-axis tested cylinder and Y-axis tested cylinder, described latch mechanism runs through this latch mechanism and is provided with bolt.
6. machine core board full-automatic testing device as claimed in claim 5, it is characterized in that: in the both sides of described latch mechanism are relative after downward-extension, extend to form two locking arms, mounting groove is formed between two locking arm ends, described mounting groove is slidably installed on described X-axis guide rail and Y-axis guide rail, described latch mechanism runs through locking arm and offers threaded hole, and described bolt is installed on latch mechanism through the threaded hole on locking arm.
7. machine core board full-automatic testing device as claimed in claim 1, it is characterized in that: described mechanical arm comprises holder, movable machine frame, suction disc and adsorbing mechanism, described holder is fixed in the middle part of described support, described movable machine frame can any direction activity be installed on holder, described suction disc to be installed on movable machine frame and to be positioned at horizontal direction, and described adsorbing mechanism is installed in suction disc lower surface.
8. machine core board full-automatic testing device as claimed in claim 7, it is characterized in that: described adsorbing mechanism comprises matrix, magnet and sucker, described magnet is fixed at the upper surface middle part of matrix, described sucker is fixed at the lower end of described matrix, described suction disc is iron plate, and adsorbing mechanism is fixed on described suction disc lower surface by magnet adsorption.
9. machine core board full-automatic testing device as claimed in claim 1, it is characterized in that: described travelling belt comprises infeed conveyor and discharge belt, described infeed conveyor to be installed on described support and to be positioned at the side of described mechanical arm, described discharge belt to be installed on described support and to be positioned at the opposite side of described mechanical arm, described discharge belt comprises non-defective unit travelling belt and defective products travelling belt, described non-defective unit travelling belt to be installed on described support and to be positioned at the downstream of described infeed conveyor, and described defective products travelling belt is installed in the top of described non-defective unit travelling belt.
10. machine core board full-automatic testing device as claimed in claim 1, it is characterized in that: described machine core board full-automatic testing device also comprises shell, this casing is located at outside pcb board measurement jig, mechanical arm and the travelling belt on described support, and one end of described travelling belt protrudes out shell.
CN201520479034.3U 2015-07-06 2015-07-06 Full -automatic testing arrangement of core plate Expired - Fee Related CN205120910U (en)

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Application Number Priority Date Filing Date Title
CN201520479034.3U CN205120910U (en) 2015-07-06 2015-07-06 Full -automatic testing arrangement of core plate

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Application Number Priority Date Filing Date Title
CN201520479034.3U CN205120910U (en) 2015-07-06 2015-07-06 Full -automatic testing arrangement of core plate

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108020771A (en) * 2017-11-07 2018-05-11 苏州秋叶义机械有限公司 A kind of PCBA tests the movable track with tower gauge
CN108840098A (en) * 2018-07-11 2018-11-20 江苏富联通讯技术有限公司 A kind of single track automatically testing platform and its test method
CN110235008A (en) * 2017-01-17 2019-09-13 斯贝亚股份有限公司 Flight probe electron plate tester and its test method

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110235008A (en) * 2017-01-17 2019-09-13 斯贝亚股份有限公司 Flight probe electron plate tester and its test method
CN108020771A (en) * 2017-11-07 2018-05-11 苏州秋叶义机械有限公司 A kind of PCBA tests the movable track with tower gauge
CN108840098A (en) * 2018-07-11 2018-11-20 江苏富联通讯技术有限公司 A kind of single track automatically testing platform and its test method

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C41 Transfer of patent application or patent right or utility model
TR01 Transfer of patent right

Effective date of registration: 20160617

Address after: 523570 Dongyang Road, Changping Town, Guangdong, Dongguan Province

Patentee after: Dongguan victory Electronic Equipment Co., Ltd.

Address before: 523000 No. 36, one Changling street, Dongguan Town, Liaobu Town, Guangdong, China

Patentee before: DONGGUAN YUANJIAN AUTOMATION SCIENCE & TECHNOLOGY CO., LTD.

CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20160330

Termination date: 20180706