CN204228908U - Multifunctional power board test apparatus - Google Patents
Multifunctional power board test apparatus Download PDFInfo
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- CN204228908U CN204228908U CN201420474808.9U CN201420474808U CN204228908U CN 204228908 U CN204228908 U CN 204228908U CN 201420474808 U CN201420474808 U CN 201420474808U CN 204228908 U CN204228908 U CN 204228908U
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Abstract
The utility model discloses multifunctional power board test apparatus, comprise the first proving installation and the second proving installation, power panel enters after flowing through the first proving installation in the second proving installation, and the first proving installation and the second proving installation include frame, be across the conveying belt of frame and be arranged at the measurement jig of frame; First proving installation also comprises ICT mechanism for testing, Hi-pot mechanism for testing and FCT mechanism for testing, and ICT mechanism for testing, Hi-pot mechanism for testing and FCT mechanism for testing are set in turn in the frame of the first proving installation; Second proving installation also comprises DPMS mechanism for testing, ATE mechanism for testing and TV mechanism for testing, and DPMS mechanism for testing, ATE mechanism for testing and TV mechanism for testing are set in turn in the frame of the second proving installation.The utility model improves work efficiency and the robotization of PCBA test, and the quality that PCBA is tested is more stable.
Description
Technical field
The utility model belongs to testing apparatus technical field, particularly relates to multifunctional power board test apparatus.
Background technology
PCBA is the abbreviation of English Printed Circuit Board+Assembly, namely on PCB hollow plate first through the upper part of SMT (surface mounting technology), then through the manufacturing process of DIP (dual-in-line package technology) plug-in unit.PCBA board is just widely used before the industrial age, and it is the core of computing machine and embedded system.Making due to PCBA is in the second half of electronic equipment manufacturing, is therefore known as the downstream industry of electronics industry.Nearly all electronic equipment all needs the support of printed circuit board, and therefore printed circuit board is the product that in global electronic component products, market share occupation rate is the highest.Current Japan, China, Taiwan, West Europe and the U.S. are main printed circuit board manufacture base.Because electronic product makes rapid progress, rate war changes the structure of supply chain, and China has industry distribution, cost and the market advantage concurrently, has become global most important PCBA production base.In the process of producing PCBA, some artificial or uncertain factors can cause some underproof PCBA.In order to control and improve the qualification rate in production.Aobvious particularly important of the testing of Control platform stability.
Utility model content
The purpose of this utility model is: for the deficiencies in the prior art, and multifunctional power board test apparatus is provided, this p-wire solves some artificial or that uncertain factor causes underproof problems of PCBA, and improve the work efficiency of PCBA test, the quality that PCBA is tested is more stable.
For achieving the above object, the technical solution adopted in the utility model is:
Multifunctional power board test apparatus, comprise the first proving installation and the second proving installation, described power panel enters after flowing through described first proving installation in described second proving installation, and described first proving installation and described second proving installation include frame, be across the conveying belt of described frame and be arranged at the measurement jig of described frame; Described first proving installation also comprises ICT mechanism for testing, Hi-pot mechanism for testing and FCT mechanism for testing, and described ICT mechanism for testing, described Hi-pot mechanism for testing and described FCT mechanism for testing are set in turn in the frame of described first proving installation; Described second proving installation also comprises DPMS mechanism for testing, ATE mechanism for testing and TV mechanism for testing, and described DPMS mechanism for testing, described ATE mechanism for testing and described TV mechanism for testing are set in turn in the frame of described second proving installation.
Described first proving installation and described second proving installation are provided with seat in the plane, sweep barcode machine and buffer memory position, the quantity of described buffer memory position is set to four, wherein, a described buffer memory position is arranged between described ICT mechanism for testing and described Hi-pot mechanism for testing, and a described buffer memory position is arranged between described Hi-pot mechanism for testing and described FCT mechanism for testing; In addition, a described buffer memory position is arranged between described DPMS mechanism for testing and described ATE mechanism for testing, and a described buffer memory position is arranged between described ATE mechanism for testing and described TV mechanism for testing.
Described measurement jig is set to single supply board test tool or dual power supply board test tool.
Described single supply board test tool comprises testing jig, feeding sorting translation stage, needle-bar, fool-proof mechanism, stop detent mechanism and elevating mechanism, described feeding sorting translation stage is arranged at described testing jig bottom, described feeding sorting translation stage is provided with track, described needle-bar is positioned at the below of described track, described fool-proof mechanism and described stop detent mechanism are arranged on described track respectively, described elevating mechanism is positioned at the top of described track, and the lower end of described elevating mechanism is provided with probe.
Described dual power supply board test tool comprises testing jig, feeding sorting translation stage, needle-bar, fool-proof mechanism, stop detent mechanism, elevating mechanism and synchronous scraping plate mechanism, described feeding sorting translation stage is arranged at described testing jig bottom, described feeding sorting translation stage is provided with track, described needle-bar is positioned at the below of described track, described fool-proof mechanism and described stop detent mechanism are arranged on described track respectively, described elevating mechanism is positioned at the top of described track, and the lower end of described elevating mechanism is provided with probe, described synchronous scraping plate mechanism is arranged between described elevating mechanism and described track.
Described feeding sorting translation stage is also provided with location sensing chip, two track limit photoelectricity and manually adjusts track width wheel, described location sensing chip is arranged at the end of described track, two described track limit photoelectricity lay respectively at starting point and the terminal of described track, and described manual adjustment track width wheel is arranged at the side of described track.
The plug that described fool-proof mechanism comprises mount pad, is arranged at the U-shaped photoelectricity at described mount pad back and is electrically connected with described U-shaped photoelectricity.
Described stop detent mechanism comprises holder, wiring block, stops positioning body, stops cylinder, magnetic switch and exhaust shutter, described wiring block is arranged at the bottom of described holder, and described stop cylinder, described magnetic switch and described exhaust shutter are installed on described stop positioning body successively.
Described elevating mechanism comprises lift cylinder, cylinder adjusting gear and pressing plate, described pressing plate is arranged at the output terminal of described lift cylinder, described cylinder adjusting gear is corresponding with described lift cylinder, and described probe is arranged at the bottom of described pressing plate, and described probe and testing tool are electrically connected.
Described synchronous scraping plate mechanism comprises synchronous frame, synchronous cylinder, syncmotor, Timing Belt, synchronizing wheel and initial point inductor, described synchronous frame comprises synchronous orbit, be arranged at the support portion above described synchronous orbit and be fixed on the top board of described support portion, described synchronous cylinder is arranged at described top board, described syncmotor is arranged at described support portion, and described Timing Belt, described synchronizing wheel and described initial point inductor are all arranged at described synchronous orbit; Described synchronous orbit is provided with the first screens and is close to the second screens of described first screens.
Compared with prior art, the utility model passes through the cooperating of the first proving installation and the second proving installation, isolate defective products and non-defective unit, solve some artificial or that uncertain factor causes underproof problems of PCBA, improve work efficiency and the robotization of PCBA test, the quality that PCBA is tested is more stable.
Accompanying drawing explanation
Fig. 1 is the structural representation of the first proving installation of the present utility model.
Fig. 2 is the structural representation of the second proving installation of the present utility model.
Fig. 3 is the structural representation of single supply board test tool of the present utility model.
Fig. 4 is the structural representation of dual power supply board test tool of the present utility model.
Fig. 5 is the structural representation of feeding of the present utility model sorting translation stage.
Fig. 6 is the structural representation of fool-proof mechanism of the present utility model.
Fig. 7 is the structural representation of stop detent mechanism of the present utility model.
Fig. 8 is the structural representation of synchronous scraping plate mechanism of the present utility model.
Embodiment
Below in conjunction with embodiment and Figure of description, the utility model is described in further detail, but embodiment of the present utility model is not limited to this.
Embodiment 1, with reference to figure 1 and Fig. 2, multifunctional power board test apparatus, comprise the first proving installation 100 and the second proving installation 110, power panel flows through after the first proving installation 100 and enters in the second proving installation 110, and the first proving installation 100 and the second proving installation 110 include frame 101, be across the conveying belt 102 of frame 101 and be arranged at the measurement jig 109 of frame 101; First proving installation 100 also comprises the frame 101 that ICT mechanism for testing 103, Hi-pot mechanism for testing 104 and FCT mechanism for testing 105, ICT mechanism for testing 103, Hi-pot mechanism for testing 104 and FCT mechanism for testing 105 are set in turn in the first proving installation 100; Second proving installation 110 also comprises the frame 101 that DPMS mechanism for testing 106, ATE mechanism for testing 107 and TV mechanism for testing 108, DPMS mechanism for testing 106, ATE mechanism for testing 107 and TV mechanism for testing 108 are set in turn in the second proving installation 110.
First proving installation 100 and the second proving installation 110 are provided with seat in the plane 111, sweep barcode machine 112 and buffer memory position 113, the quantity of buffer memory position 113 is set to four, wherein, a buffer memory position 113 is arranged between ICT mechanism for testing 103 and Hi-pot mechanism for testing 104, and a buffer memory position 113 is arranged between Hi-pot mechanism for testing 104 and FCT mechanism for testing 105; In addition, a buffer memory position 113 is arranged between DPMS mechanism for testing 106 and ATE mechanism for testing 107, and a buffer memory position 113 is arranged between ATE mechanism for testing 107 and TV mechanism for testing 108.
During work, PCBA (power panel) flow to through upper seat in the plane 111 and sweeps barcode machine 112 pairs of bar codes and scan; Buffer memory position 113 is entered by the PCBA of scanning; PCBA flows into ICT mechanism for testing 103 through buffer memory position 113, be completed rear inflow buffer memory position 113, defective products is transferred band 102 and delivers to defective products output line, non-defective unit be transported to next station carry out Hi-pot test (PCBA can distribute according to the room situation of testing station, front and back by equipment automatically, after testing station all have this function.), be completed rear inflow buffer memory position 113, then flow into FCT mechanism for testing 105 and test; Defective products is transferred band 102 and delivers to defective products output line, and non-defective unit is transported to non-defective unit output line and flows into next station; PCBA, after multiple tracks handwork, flows into the upper seat in the plane 111 of the second proving installation 110 automatically.PCBA (power panel) flow to through upper seat in the plane 111 and sweeps barcode machine 112 pairs of bar codes and scan; Be transferred band 102 by the PCBA of scanning to deliver to DPMS mechanism for testing 106 and test, be completed rear inflow buffer memory position 113, then flow into ATE mechanism for testing 107 and test; Be completed rear inflow buffer memory position 113, then flow into TV mechanism for testing 108 and test; Defective products is transferred band 102 and delivers to defective products output line, and non-defective unit is transferred band 102 and delivers to non-defective unit output line and flow into next station, so completes and once circulates.
With reference to figure 3,5,6 and 7, measurement jig 109 is set to single supply board test tool 114 to be comprised testing jig 1, feeding sorting translation stage 2, needle-bar 3, fool-proof mechanism 4, stops detent mechanism 5 and elevating mechanism 6, feeding sorting translation stage 2 is arranged at testing jig 1 bottom, feeding sorting translation stage 2 is provided with track 21, needle-bar 3 is positioned at the below of track 21, fool-proof mechanism 4 and stop detent mechanism 5 are arranged on track 21 respectively, elevating mechanism 6 is positioned at the top of track 21, and the lower end of elevating mechanism 6 is provided with probe 61.Described feeding sorting translation stage 2 is also provided with location sensing chip 22, two track limit photoelectricity 23 and manually adjusts track width wheel 24, location sensing chip 22 is arranged at the end of track 21, two track limit photoelectricity 23 lay respectively at starting point and the terminal of track 21, and manually adjustment track width wheel 24 is arranged at the side of track 21.The plug 43 that described fool-proof mechanism 4 comprises mount pad 41, is arranged at the U-shaped photoelectricity 42 at mount pad 41 back and is electrically connected with U-shaped photoelectricity 42.Described stop detent mechanism 5 comprises holder 51, wiring block 52, stops positioning body 53, stops cylinder 54, magnetic switch 55 and exhaust shutter 56, wiring block 52 is arranged at the bottom of holder 51, stops that cylinder 54, magnetic switch 55 and exhaust shutter 56 are installed on successively and stops positioning body 53.Described elevating mechanism 6 comprises lift cylinder 62, cylinder adjusting gear 63 and pressing plate 64, pressing plate 64 is arranged at the output terminal of lift cylinder 62, cylinder adjusting gear 63 is corresponding with lift cylinder 62, probe 61 is arranged at the bottom of pressing plate 64, and probe 61 and testing tool (not shown) are electrically connected.
Single supply board test tool 114 in use, first PCBA being sorted translation stage 2 by feeding delivers in the platform between track 21, then positioned by stop detent mechanism 5, lift cylinder 62 declines, track 21 carries PCBA and together declines, PCBA falls on the register pin of needle-bar 3, accurately locate, if this process PCBA direction puts back, PCBA mistake, PCBA do not flow into and put in place, fool-proof mechanism 4 all can sense, now fool-proof mechanism 4 can make warning, thus the lift cylinder 62 that conveys a message makes it stop decline preventing PCBA from being damaged by pressure by pressing plate 64; Then buffer memory position 113 is entered by the PCBA of scanning; If PCBA is accurately positioned, lift cylinder 62 times generals who has surrendered can not stop, until just stop after dropping to the position preset, now PCBA depressed by pressing plate 64, and PCBA is fully contacted with probe 61, and testing tool starts test; After having tested, lift cylinder 62 rises, and pressing plate 64 is separated with PCBA, and track 21 carries PCBA and is also lifting cylinder 62 and mentions precalculated position; Now stop that detent mechanism 5 lifts, let pass by PCBA, PCBA is transported to next test bit by track 21; So complete and once circulate.
Embodiment 2, with reference to figure 4 and Fig. 8, as different from Example 1, the measurement jig 109 of the present embodiment is set to dual power supply board test tool 115, described dual power supply board test tool 115 is provided with synchronous scraping plate mechanism 7, synchronous scraping plate mechanism 7 comprises synchronous frame 71, synchronous cylinder 72, syncmotor 73, Timing Belt 74, synchronizing wheel 75 and initial point inductor 76, synchronous frame 71 comprises synchronous orbit 77, be arranged at the support portion 78 above synchronous orbit 77 and be fixed on the top board 79 of support portion 78, synchronous cylinder 72 is arranged at top board 79, syncmotor 73 is arranged at support portion 78, Timing Belt 74, synchronizing wheel 75 and initial point inductor 76 are all arranged at synchronous orbit 77.Synchronous orbit 77 is provided with the first screens 771 and is close to the second screens 772 of the first screens 771.
When the PCBA tested is two pieces, this practicality of inflow two pieces of PCBA are set to PCBA3 and PCBA4, and that tests before it is set to PCBA1 and PCBA2.Operationally, the PCBA2 in test with do not enter the PCBA3 of test respectively in the below of the first screens 771, second screens 772; Now, synchronous cylinder 72 is dynamic makes support portion 78 do descending motion, and PCBA2, PCBA3 enter in the first screens 771, second screens 772 respectively; Syncmotor 73 and track motor (not shown) synchronization action, make PCBA1, PCBA2 just flow out test module, and PCBA3, PCBA4 flow in test module (replacing the position of original PCBA1, PCBA2) simultaneously.
Other identical with the structure of embodiment 1, repeats no more here.
More than in conjunction with most preferred embodiment, the utility model is described, but the utility model is not limited to the embodiment of above announcement, and amendment that the various essence according to the present embodiment carries out, equivalent combinations should be contained.
Claims (10)
1. multifunctional power board test apparatus, it is characterized in that: comprise the first proving installation and the second proving installation, described power panel enters after flowing through described first proving installation in described second proving installation, and described first proving installation and described second proving installation include frame, be across the conveying belt of described frame and be arranged at the measurement jig of described frame; Described first proving installation also comprises ICT mechanism for testing, Hi-pot mechanism for testing and FCT mechanism for testing, and described ICT mechanism for testing, described Hi-pot mechanism for testing and described FCT mechanism for testing are set in turn in the frame of described first proving installation; Described second proving installation also comprises DPMS mechanism for testing, ATE mechanism for testing and TV mechanism for testing, and described DPMS mechanism for testing, described ATE mechanism for testing and described TV mechanism for testing are set in turn in the frame of described second proving installation.
2. multifunctional power board test apparatus as claimed in claim 1, it is characterized in that: described first proving installation and described second proving installation are provided with seat in the plane, sweep barcode machine and buffer memory position, the quantity of described buffer memory position is set to four, wherein, a described buffer memory position is arranged between described ICT mechanism for testing and described Hi-pot mechanism for testing, and a described buffer memory position is arranged between described Hi-pot mechanism for testing and described FCT mechanism for testing; In addition, a described buffer memory position is arranged between described DPMS mechanism for testing and described ATE mechanism for testing, and a described buffer memory position is arranged between described ATE mechanism for testing and described TV mechanism for testing.
3. multifunctional power board test apparatus as claimed in claim 1, is characterized in that: described measurement jig is set to single supply board test tool or dual power supply board test tool.
4. multifunctional power board test apparatus as claimed in claim 3, it is characterized in that: described single supply board test tool comprises testing jig, feeding sorting translation stage, needle-bar, fool-proof mechanism, stop detent mechanism and elevating mechanism, described feeding sorting translation stage is arranged at described testing jig bottom, described feeding sorting translation stage is provided with track, described needle-bar is positioned at the below of described track, described fool-proof mechanism and described stop detent mechanism are arranged on described track respectively, described elevating mechanism is positioned at the top of described track, and the lower end of described elevating mechanism is provided with probe.
5. multifunctional power board test apparatus as claimed in claim 3, it is characterized in that: described dual power supply board test tool comprises testing jig, feeding sorting translation stage, needle-bar, fool-proof mechanism, stop detent mechanism, elevating mechanism and synchronous scraping plate mechanism, described feeding sorting translation stage is arranged at described testing jig bottom, described feeding sorting translation stage is provided with track, described needle-bar is positioned at the below of described track, described fool-proof mechanism and described stop detent mechanism are arranged on described track respectively, described elevating mechanism is positioned at the top of described track, and the lower end of described elevating mechanism is provided with probe, described synchronous scraping plate mechanism is arranged between described elevating mechanism and described track.
6. the multifunctional power board test apparatus as described in claim 4 or 5, it is characterized in that: described feeding sorting translation stage is also provided with location sensing chip, two track limit photoelectricity and manually adjusts track width wheel, described location sensing chip is arranged at the end of described track, two described track limit photoelectricity lay respectively at starting point and the terminal of described track, and described manual adjustment track width wheel is arranged at the side of described track.
7. the multifunctional power board test apparatus as described in claim 4 or 5, is characterized in that: the plug that described fool-proof mechanism comprises mount pad, is arranged at the U-shaped photoelectricity at described mount pad back and is electrically connected with described U-shaped photoelectricity.
8. the multifunctional power board test apparatus as described in claim 4 or 5, it is characterized in that: described stop detent mechanism comprises holder, wiring block, stops positioning body, stops cylinder, magnetic switch and exhaust shutter, described wiring block is arranged at the bottom of described holder, and described stop cylinder, described magnetic switch and described exhaust shutter are installed on described stop positioning body successively.
9. the multifunctional power board test apparatus as described in claim 4 or 5, it is characterized in that: described elevating mechanism comprises lift cylinder, cylinder adjusting gear and pressing plate, described pressing plate is arranged at the output terminal of described lift cylinder, described cylinder adjusting gear is corresponding with described lift cylinder, described probe is arranged at the bottom of described pressing plate, and described probe and testing tool are electrically connected.
10. multifunctional power board test apparatus as claimed in claim 5, it is characterized in that: described synchronous scraping plate mechanism comprises synchronous frame, synchronous cylinder, syncmotor, Timing Belt, synchronizing wheel and initial point inductor, described synchronous frame comprises synchronous orbit, be arranged at the support portion above described synchronous orbit and be fixed on the top board of described support portion, described synchronous cylinder is arranged at described top board, described syncmotor is arranged at described support portion, and described Timing Belt, described synchronizing wheel and described initial point inductor are all arranged at described synchronous orbit; Described synchronous orbit is provided with the first screens and is close to the second screens of described first screens.
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CN201420474808.9U CN204228908U (en) | 2014-08-21 | 2014-08-21 | Multifunctional power board test apparatus |
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CN201420474808.9U CN204228908U (en) | 2014-08-21 | 2014-08-21 | Multifunctional power board test apparatus |
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CN204228908U true CN204228908U (en) | 2015-03-25 |
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CN201420474808.9U Withdrawn - After Issue CN204228908U (en) | 2014-08-21 | 2014-08-21 | Multifunctional power board test apparatus |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104267330A (en) * | 2014-08-21 | 2015-01-07 | 东莞市冠佳电子设备有限公司 | Multifunctional power panel testing production line |
-
2014
- 2014-08-21 CN CN201420474808.9U patent/CN204228908U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104267330A (en) * | 2014-08-21 | 2015-01-07 | 东莞市冠佳电子设备有限公司 | Multifunctional power panel testing production line |
CN104267330B (en) * | 2014-08-21 | 2017-05-24 | 东莞市冠佳电子设备有限公司 | Multifunctional power panel testing production line |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20150325 Effective date of abandoning: 20170524 |