CN204730778U - Screw thread automatic detection device feed arrangement - Google Patents
Screw thread automatic detection device feed arrangement Download PDFInfo
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- CN204730778U CN204730778U CN201520380626.XU CN201520380626U CN204730778U CN 204730778 U CN204730778 U CN 204730778U CN 201520380626 U CN201520380626 U CN 201520380626U CN 204730778 U CN204730778 U CN 204730778U
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- Prior art keywords
- feed arrangement
- mounting table
- nut
- photoemitter
- rotating disc
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- 238000001514 detection method Methods 0.000 title claims abstract description 20
- 238000012546 transfer Methods 0.000 claims abstract description 27
- 230000009286 beneficial effect Effects 0.000 abstract description 2
- 238000005259 measurement Methods 0.000 description 9
- 238000010586 diagram Methods 0.000 description 6
- 230000002950 deficient Effects 0.000 description 4
- 238000000034 method Methods 0.000 description 4
- 230000004308 accommodation Effects 0.000 description 3
- 238000005516 engineering process Methods 0.000 description 2
- 238000012360 testing method Methods 0.000 description 2
- 230000002159 abnormal effect Effects 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 238000011161 development Methods 0.000 description 1
- 238000009499 grossing Methods 0.000 description 1
- 238000012372 quality testing Methods 0.000 description 1
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Abstract
Screw thread automatic detection device, relate to a kind of feed arrangement, comprise rotating disc, feed arrangement, rotating disc is provided with mounting table, mounting table is provided with several clamp devices, clamp device comprises several pneumatic pinch blocks, feed arrangement involving vibrations dish, vibrating disk is connected with inclined ramp, feed arrangement also comprises charging pick-up, charging pick-up comprises first electric track, first electric track is provided with first transfer table, first transfer table is provided with several pickup pawls, first electric track one end is positioned at the other end above described inclined ramp and is positioned at above described rotating disc, first transfer table is provided with first photoemitter, mounting table is provided with the first photelectric receiver matched with described first photoemitter, pneumatic pinch block is provided with dip plane.Compared with prior art, the beneficial effects of the utility model are: can fast and accurately nut is put on mounting table, and when solving in the past placement automatically, precision was not high misplaces the problem needing manual placing nut often.
Description
Technical field
The utility model relates to a kind of feed arrangement of screw thread automatic detection device.
Background technology
Have to pass through the detection of drift and no-go gage after nut creates, to determine that whether nut is qualified, if the drift energy tested threaded hole of precession smoothly, it is qualified that tested threaded hole is considered as, otherwise defective need are done over again.If no-go gage can enclose or more by the tested threaded hole 2.5 of precession smoothly, tested threaded hole is considered as defective, otherwise qualified, and now bastard thread hole should be scrapped.Drift is carried out in the also a large amount of use artificial means double thread hole of present good multiple enterprises and no-go gage detects, and has dragged slowly detection efficiency greatly, uses manual detection to be also very easy to the damage causing drift and no-go gage so that nut simultaneously.Moreover, along with the development of exact instrument, now also more and more higher to the requirement of nut profile, be necessary also to detect the impermeability of nut profile.
Summary of the invention
The utility model, for deficiency of the prior art, provides screw thread automatic detection device feed arrangement, can fast and accurately nut is put on mounting table, and when solving in the past placement automatically, precision was not high misplaces the problem needing manual placing nut often.
In order to solve the problems of the technologies described above, the utility model is solved by following technical proposals: screw thread automatic detection device feed arrangement, comprise rotating disc, feed arrangement, described rotating disc is provided with mounting table, described mounting table is provided with several clamp devices, described clamp device comprises several pneumatic pinch blocks, described feed arrangement involving vibrations dish, described vibrating disk is connected with inclined ramp, described feed arrangement also comprises charging pick-up, described charging pick-up comprises first electric track, described first electric track is provided with first transfer table, described first transfer table is provided with several pickup pawls, described first electric track one end is positioned at the other end above described inclined ramp and is positioned at above described rotating disc, described first transfer table is provided with first photoemitter, described mounting table is provided with the first photelectric receiver matched with described first photoemitter, described pneumatic pinch block is provided with dip plane.
In technique scheme, preferably, described first photoemitter is arranged on described first transfer table center, and described pickup dog collar is around described first photoemitter.
In technique scheme, preferably, described first photelectric receiver is arranged on described mounting table center, and described clamp device is around described first photelectric receiver.
The utility model captures nut by pickup pawl, then first transfer table to be alignd with first photelectric receiver mounting table by first photoemitter, after alignment, pickup pawl puts down nut, and now nut is between pneumatic pinch block, just can carry out detection and operate after pneumatic pinch block grip nut.The utility model can be carried nut by first transfer table is ceaselessly mobile between rotating disc and inclined ramp, achieves robotization during nut quality testing.
Compared with prior art, the beneficial effects of the utility model are: can fast and accurately nut is put on mounting table, and when solving in the past placement automatically, precision was not high misplaces the problem needing manual placing nut often.
Accompanying drawing explanation
Fig. 1 is the utility model schematic top plan view.
Fig. 2 is the utility model rotating disc schematic top plan view.
Fig. 3 is the utility model rotating disc lateral parts perspective diagram.
Fig. 4 is the utility model drift monitor station side status schematic diagram A.
Fig. 5 is the utility model drift monitor station front schematic view.
Fig. 6 is the utility model no-go gage monitor station side status schematic diagram A.
Fig. 7 is the utility model no-go gage monitor station side status schematic diagram B.
Fig. 8 is the utility model no-go gage monitor station front schematic view.
Fig. 9 is the utility model profile measurement platform front schematic view.
Figure 10 is the utility model first transfer table schematic diagram.
Figure 11 is the utility model second transfer table schematic diagram.
Embodiment
Below in conjunction with accompanying drawing and embodiment, the utility model is described in further detail.
As Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10, shown in Figure 11, screw thread automatic detection device, comprise base station 100, described base station 100 is provided with feed arrangement 5, pick-off unit 6 and pick-up unit, described pick-up unit comprises the rotating disc 1 be arranged on described base station 1, described rotating disc 1 is provided with rotary-tray 11, on rotary-tray 11, uniform circular is provided with several mounting tables 8, described mounting table 8 is provided with several through holes 83, described mounting table 8 is provided with dismountable clamp device 81, described clamp device 81 comprises several pneumatic pinch blocks 82 that uniform circular is arranged centered by described through hole 83, described pneumatic pinch block 82 clamps described nut to be measured and seamless between now described pneumatic pinch block 82.Described pneumatic pinch block 82 top is provided with dip plane, and described dip plane tilts to through hole 83 direction from outside to inside.Be provided with the spatial accommodation 12 communicated with described through hole 83 in described rotating disc 1, described air jet system 13 is arranged in described spatial accommodation 12.
Described pick-up unit also comprises drift monitor station 2, no-go gage monitor station 3 and profile measurement platform 4, described drift monitor station 2 is provided with several drift rotating shafts, described drift rotating shaft is provided with drift groove 22, first electromagnet 23 is provided with in described drift groove 22, drift box 24 is provided with in described drift monitor station 2, several drifts 29 are provided with in described drift box 24, described drift box 24 is provided with the first electric slide rail 25 that quantity is consistent with described drift rotating shaft, described first electric slide rail 25 moves and is provided with second electromagnet 27, the first drive motor 26 controlling described first electric slide rail 25 and move up and down also is provided with in described drift monitor station 2, described drift monitor station 2 is provided with the drift opening 28 matched with described drift rotating shaft.Described second electromagnet 27 can draw described drift 29 along described drift opening 28 outwards movement, and described drift 29 to be inserted in described drift groove 22.In like manner, described second electromagnet 27 is extracted described drift 29 in 22 to be retracted in drift monitor station 2 by drift opening 28 and drift 29 is placed in drift box 24 in described drift groove.
Described no-go gage monitor station 3 is provided with several no-go gage rotating shafts 31, described no-go gage rotating shaft 31 is provided with no-go gage groove 32, the third electromagnet 33 is provided with in described no-go gage groove 32, no-go gage box 34 is provided with in described no-go gage monitor station 3, several no-go gages 39 are provided with in described no-go gage box 34, described no-go gage box 34 is provided with the second electric slide rail 35 that quantity is consistent with described no-go gage rotating shaft 31, described second electric slide rail 35 moves and is provided with fourth electromagnet 37, the second drive motor 36 controlling described second electric slide rail 35 and move up and down also is provided with in described no-go gage monitor station 3, described no-go gage monitor station 3 is provided with the no-go gage opening 38 matched with described no-go gage rotating shaft 31.Described fourth electromagnet 37 can draw described no-go gage 39 along described no-go gage opening 38 outwards movement, and described no-go gage 39 is inserted into described no-go gage groove 32.In like manner, described second electromagnet 27 is extracted described no-go gage 39 to be retracted in no-go gage monitor station 3 by no-go gage opening 38 and no-go gage 39 is placed in no-go gage box 34 in described no-go gage groove 32.
Described profile measurement platform 4 is movably set with several stoppers 41 matched with described nut to be measured and described profile measurement platform 4 is arranged on above described air jet system 13, described stopper 41 side is provided with baroceptor 42.
Described feed arrangement 5 involving vibrations dish 51, described vibrating disk 51 is connected with inclined ramp 52, described feed arrangement 5 also comprises charging pick-up, described charging pick-up comprises first electric track 53, described first electric track 53 is provided with first transfer table 54, described first transfer table 54 is provided with several pickup pawls 55, described first electric track 53 one end is positioned at the other end above described inclined ramp 52 and is positioned at above described rotating disc 1, described first transfer table 54 is provided with first photoemitter 56, described mounting table 8 is provided with the first photelectric receiver 57 matched with described first photoemitter 54.
Described pick-off unit 6 comprises pickup pick-up, described pickup pick-up comprises second electric track 61, described second electric track 61 is provided with second transfer table 62, described second transfer table 62 is provided with several pickup pawls 55, described second electric track 61 one end is in the other end above described rotating disc 1 and is in above body feed tank 71 and ash can 74, described second transfer table 62 is provided with first photoemitter 56, second photoemitter 63 and the third photoemitter 64, described body feed tank 71 is provided with the second photelectric receiver 73 matched with described second photoemitter 56, described ash can 74 is provided with the third photelectric receiver 76 matched with described third photoemitter 64.
During use, first determine the model of nut to be measured, after determining the model of nut to be measured, choose the size of no-go gage 39 and drift 29 and clamp device 81 according to nut to be measured.Then nut to be measured enters inclined ramp 52 from vibrating disk 51, first transfer table 54 moves to above inclined ramp 52, nut to be measured is captured by the pickup pawl 55 on first transfer table 54, then move on rotating disc 1, when aiming at the first photelectric receiver 57 on mounting table 8 when the first photoemitter 56 on first transfer table 54, pickup pawl 55 on first transfer table 54 puts down nut to be measured, be provided with dip plane owing to being positioned on the through hole pneumatic pinch block 82 of 83 1 weeks, nut to be measured always can be placed on through hole 83.Then pneumatic pinch block 82 clamps nut to be measured, and now pneumatic pinch block 82 is only shown in seamless and fits tightly with nut to be measured.Subsequently rotary-tray 11 rotates, this mounting table 8 is allowed to turn to drift monitor station 2 times, by the drift 29 on drift monitor station 2, nut to be measured is detected, if nut detection to be measured is qualified when drift detects, then proceed the detection of next item, if nut to be measured detects defective, this nut to be measured no longer carries out the detection of next item and carries out underproof mark to this nut to be measured.After drift has detected, rotate rotary-tray 11, allow this mounting table 8 turn to no-go gage monitor station 3 times.By the no-go gage 39 on no-go gage monitor station 3, nut to be measured is detected, if nut detection to be measured is qualified when no-go gage detects, then proceed the detection of next item, if nut to be measured detects defective, this nut to be measured no longer carries out the detection of next item and carries out underproof mark to this nut to be measured.After no-go gage has detected, rotate rotary-tray 11, allow this mounting table 8 turn to profile measurement platform 4 times.When mounting table 8 forwards profile measurement platform 4 to, through hole 83 on mounting table 8 aims at the air jet system 13 in spatial accommodation 12, the stopper 41 on profile measurement platform 4 is now allowed to push down nut to be measured downwards, then allow air jet system 13 jet, if nut surface smoothing to be measured is indefectible, then stopper 41 and pneumatic clamp 82 can seal up nut to be measured, the air pressure that the baroceptor 42 of stopper 41 both sides detects is normal value, if there is flaw on nut surface to be measured, the air pressure that air-flow can allow baroceptor 42 detect by pneumatic pinch block 82 or the gap between stopper 41 and nut to be measured is abnormal lift-off value.When profile measurement, underproof mark is carried out to underproof nut to be measured.After profile measurement completes, rotate rotary-tray 11, this mounting table 8 is allowed to forward on pick-off unit 6, unclamp pneumatic pinch block 82, the pickup pawl 55 on second transfer table 62 is allowed to capture nut to be measured, whether according to qualified on nut to be measured, nut to be measured is put in body feed tank 71 or ash can 74 respectively, second transfer table 62 judges the position of body feed tank 71 and ash can 74 according to second photoemitter 56 and second photelectric receiver 73 and the contact between the third photoemitter 64 and the third photelectric receiver 76.Rotary-tray 11 intermittent rotation in whole testing process, allows whole testing process continue to carry out.Meanwhile, drift monitor station 2 and no-go gage monitor station 3 automatically with changing drift 29 and no-go gage 39, can be replaced after being detected the nut to be measured of some and occurring the drift 29 that the precision that wearing and tearing cause reduces and no-go gage 39.
Claims (3)
1. screw thread automatic detection device feed arrangement, comprise rotating disc (1), feed arrangement (5), described rotating disc (1) is provided with mounting table (8), described mounting table (8) is provided with several clamp devices (81), described clamp device (81) comprises several pneumatic pinch blocks (82), it is characterized by, described feed arrangement (5) involving vibrations dish (51), described vibrating disk (51) is connected with inclined ramp (52), described feed arrangement (5) also comprises charging pick-up, described charging pick-up comprises first electric track (53), described first electric track (53) is provided with first transfer table (54), described first transfer table (54) is provided with several pickups pawl (55), described first electric track (53) one end is positioned at described inclined ramp (52) the top other end and is positioned at described rotating disc (1) top, described first transfer table (54) is provided with first photoemitter (56), described mounting table (8) is provided with the first photelectric receiver (57) matched with described first photoemitter (56), described pneumatic pinch block (82) is provided with dip plane.
2. screw thread automatic detection device feed arrangement according to claim 1, it is characterized by, described first photoemitter (56) is arranged on described first transfer table (52) center, and described pickup pawl (55) is around described first photoemitter (56).
3. screw thread automatic detection device feed arrangement according to claim 1, it is characterized by, described first photelectric receiver (57) is arranged on described mounting table (8) center, and described clamp device (81) is around described first photelectric receiver (57).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520380626.XU CN204730778U (en) | 2015-06-04 | 2015-06-04 | Screw thread automatic detection device feed arrangement |
Applications Claiming Priority (1)
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CN201520380626.XU CN204730778U (en) | 2015-06-04 | 2015-06-04 | Screw thread automatic detection device feed arrangement |
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CN204730778U true CN204730778U (en) | 2015-10-28 |
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CN201520380626.XU Expired - Fee Related CN204730778U (en) | 2015-06-04 | 2015-06-04 | Screw thread automatic detection device feed arrangement |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104864788A (en) * | 2015-06-04 | 2015-08-26 | 宁波创世轴业有限公司 | Automatic detection device for thread |
CN107449598A (en) * | 2017-09-05 | 2017-12-08 | 机科发展科技股份有限公司 | Measurement apparatus and needle-valve body flow measurement device |
-
2015
- 2015-06-04 CN CN201520380626.XU patent/CN204730778U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104864788A (en) * | 2015-06-04 | 2015-08-26 | 宁波创世轴业有限公司 | Automatic detection device for thread |
CN107449598A (en) * | 2017-09-05 | 2017-12-08 | 机科发展科技股份有限公司 | Measurement apparatus and needle-valve body flow measurement device |
CN107449598B (en) * | 2017-09-05 | 2024-03-26 | 机科发展科技股份有限公司 | Measuring device and needle valve flow measuring device |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20151028 |