CN210533670U - Detection mechanism of full-automatic LED light splitting machine - Google Patents
Detection mechanism of full-automatic LED light splitting machine Download PDFInfo
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- CN210533670U CN210533670U CN201921313240.1U CN201921313240U CN210533670U CN 210533670 U CN210533670 U CN 210533670U CN 201921313240 U CN201921313240 U CN 201921313240U CN 210533670 U CN210533670 U CN 210533670U
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Abstract
The utility model relates to a detection mechanism of full-automatic LED light splitter, including base, supporting seat, servo motor, cam, first guide rail, bearing frame, upper bearing, lower bearing, extension spring seat, bracing piece, X-Y forked tail slip table, slip table upper fixing base, slip table lower fixing base, second guide rail, guide rail mount pad, probe connecting seat, probe fixing base, probe subassembly, opto-coupler and opto-coupler response piece. The LED product is contacted from top to bottom for testing, the servo motor is a driving part and drives the cam to rotate, and the cam sequentially pushes the bearing seat, the tension spring seat, the probe connecting seat, the probe fixing seat and the probe assembly to lift, so that the probe assembly is contacted with or separated from the LED product, and the detection function is realized; X-Y forked tail slip table realizes the fine setting of probe subassembly in the horizontal plane, and the counterpoint is more accurate, and the test result is more accurate, and the location process is few, and efficiency of software testing is high, and the opto-coupler response piece is arranged in the middle of the opto-coupler, can monitor detection mechanism's running state, and stability is good.
Description
Technical Field
The utility model relates to a LED's manufacture equipment technical field especially relates to a detection mechanism of full-automatic LED light splitting machine.
Background
In the process of producing, processing and packaging LED products, the LED products with different performances are produced according to different use occasions, different packaging intervals are divided for the LED products according to the colors and the performances of the LEDs to distinguish the light colors, the brightness, the performances and the like of the LEDs, some detection equipment is required to be used, and an LED light splitting machine is a machine for classifying and screening the wavelengths, the light intensities and the current and voltage of light emitted by the LEDs. The detection mechanism of the existing LED light splitting machine mainly adopts a probe to clamp an LED product left and right for testing, and has the advantages of complex structure, complex alignment, long time consumption, low testing efficiency and waiting for improvement.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a fine setting function is accurate, and full-automatic LED that efficiency of software testing is high divides detection mechanism of ray apparatus.
The utility model provides a technical scheme is: a detection mechanism of a full-automatic LED spectrometer comprises a base, a supporting seat, a servo motor, a cam, a first guide rail, a bearing seat, an upper bearing, a lower bearing, a tension spring seat, a supporting rod, an X-Y dovetail sliding table, an upper sliding seat, a lower sliding seat, a second guide rail, a guide rail mounting seat, a probe connecting seat, a probe fixing seat, a probe assembly, an optocoupler and an optocoupler induction sheet, wherein the supporting seat is vertically fixed on the base, the servo motor is fixed on one side of the supporting seat, the cam is fixed on a motor shaft of the servo motor, the bearing seat is arranged on the supporting seat in a vertically sliding manner through the first guide rail, the upper bearing and the lower bearing are respectively arranged at the upper end and the lower end of the bearing seat, the lower bearing is contacted with the cam, the lower sliding seat is fixed above the, the fixing base is fixed on the X-Y forked tail slip table on the slip table, the guide rail mount pad is fixed on the slip table fixing base side, the probe connecting seat sets up on the guide rail mount pad through second guide rail with sliding from top to bottom, the probe fixing base is fixed on the probe connecting seat, the probe subassembly is fixed on the probe fixing base, draw spring seat is fixed at probe connecting seat lower extreme to the terminal surface touches with upper bearing, the bracing piece sets up on the supporting seat down, extension spring one end is fixed on draw spring seat, and the other end is connected with the bracing piece, the opto-coupler is fixed on the supporting seat, the opto-coupler response piece is fixed on the probe connecting seat, and in the middle of arranging the opto-coupler in, is used for monitoring detection mechanism's running state, servo motor drives the cam rotation, and the cam promotes the bearing seat through the lower, Probe connecting seat, probe fixing base and probe subassembly go up and down to realize detecting function, fixing base, guide rail mount pad, second guide rail, probe connecting seat, probe fixing base and probe subassembly on driving the slip table in proper order during X-Y forked tail slip table fine setting realize the probe subassembly X in the horizontal plane to finely tuning with Y, the extension spring is used for making extension spring seat, probe connecting seat, probe fixing base and probe subassembly reset.
The probe assembly comprises a probe seat, a probe and a probe positioning seat, the probe is fixed on the probe seat, the probe seat and the probe positioning seat are fixed on the probe fixing seat, the probe positioning seat is located below the probe seat, and a positioning through hole is formed in the probe positioning seat and used for positioning the lower end of the probe.
The probe seat is provided with a plurality of tungsten steel probes, and the lower ends of the tungsten steel probes penetrate through the positioning through holes of the probe positioning seat after being folded.
The utility model has the advantages that: the detection mechanism of the full-automatic LED light splitting machine does not adopt the traditional test mode that the probe clamps the LED product from left to right, but adopts the mode that the LED product is contacted from top to bottom for testing, the servo motor is a driving part and drives the cam to rotate, and the cam sequentially pushes the bearing seat, the tension spring seat, the probe connecting seat, the probe fixing seat and the probe assembly to ascend and descend, so that the probe assembly is contacted with or separated from the LED product, and the detection function is realized; drive fixing base, guide rail mount pad, second guide rail, probe connecting seat, probe fixing base and probe subassembly on the slip table in proper order during X-Y forked tail slip table fine setting, realize that probe subassembly X is to finely tuning with Y in the horizontal plane, and it is more accurate to counterpoint, and the test result is more accurate, and the location process is few, and efficiency of software testing is high, simple structure and easy to carry out, is applicable to and uses in the LED production, and in the middle of the opto-coupler is arranged in to the opto-coupler response piece, can monitor detection mechanism's running state, stability is good.
Drawings
Fig. 1 is a schematic perspective view of a detection mechanism of a full-automatic LED spectrometer according to an embodiment of the present invention;
fig. 2 is a side view of an embodiment of the detection mechanism of the full-automatic LED spectrometer of the present invention;
fig. 3 is a schematic view of an exploded structure of an embodiment of a detection mechanism of the full-automatic LED spectrometer.
The tension spring is shown in the free state, and the tension spring is in a stretched state, and the lower end of the tension spring hooks the support rod.
Wherein, 1, a base; 2. a supporting seat; 3. a servo motor; 4. a cam; 5. a first guide rail; 6. a bearing seat; 7. an upper bearing; 8. a lower bearing; 9. a tension spring; 10. a tension spring seat; 11. a support bar; 12. an X-Y dovetail slide; 13. a fixed seat is arranged on the sliding table; 14. a sliding table lower fixed seat; 15. a second guide rail; 16. a guide rail mounting seat; 17. a probe connecting seat; 18. a probe fixing seat; 19. a probe assembly; 191. a probe base; 192. a probe; 193. a probe positioning seat; 20. an optical coupler; 21. an optical coupling induction sheet.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
As an embodiment of the detection mechanism of the full-automatic LED spectrometer of the present invention, as shown in fig. 1 to 3, the detection mechanism comprises a base 1, a support base 2, a servo motor 3, a cam 4, a first guide rail 5, a bearing seat 6, an upper bearing 7, a lower bearing 8, a tension spring 9, a tension spring seat 10, a support rod 11, an X-Y dovetail sliding table 12, a sliding table upper fixing seat 13, a sliding table lower fixing seat 14, a second guide rail 15, a guide rail mounting seat 16, a probe connecting seat 17, a probe fixing seat 18, a probe assembly 19, an optical coupler 20 and an optical coupler induction sheet 21, wherein the support base 2 is vertically fixed on the base 1, the servo motor 3 is fixed on one side of the support base 2, the cam 4 is fixed on a motor shaft of the servo motor 3, the bearing seat 6 is slidably arranged on the support base 2 up and down through the first guide rail 5, the upper bearing 7 and the lower, the lower bearing 8 is in contact with the cam 4, the sliding table lower fixing seat 14 is fixed above the supporting seat 2, the X-Y dovetail sliding table 12 is fixed on the sliding table lower fixing seat 14, the sliding table upper fixing seat 13 is fixed on the X-Y dovetail sliding table 12, the guide rail mounting seat 16 is fixed on the side surface of the sliding table upper fixing seat 13, the probe connecting seat 17 is arranged on the guide rail mounting seat 16 in a vertically sliding manner through a second guide rail 15, the probe fixing seat 18 is fixed on the probe connecting seat 17, the probe assembly 19 is fixed on the probe fixing seat 18, the tension spring seat 10 is fixed at the lower end of the probe connecting seat 17, the lower end surface is in contact with the upper bearing 7, the supporting rod 11 is arranged on the supporting seat 2, one end of the tension spring 9 is fixed on the tension spring seat 10, the other end is connected with the, optical coupling response piece 21 is fixed on probe connecting seat 17, and arranges in the middle of optical coupling 20 for monitoring detection mechanism's running state, servo motor 3 drives cam 4 rotatory, and cam 4 promotes bearing frame 6 through lower bearing 8 and goes up and down, and last bearing 7 on the bearing frame 6 promotes extension spring seat 10, probe connecting seat 17, probe fixing base 18 and probe subassembly 19 in proper order to realize the detection function, drive fixing base 13, guide rail mount pad 16, second guide rail 15, probe connecting seat 17, probe fixing base 18 and probe subassembly 19 on the slip table in proper order during 12 fine settings of X-Y forked tail slip table, realize probe subassembly 19X in the horizontal plane to finely tuning with Y, extension spring 9 is used for making extension spring seat 10, probe connecting seat 17, probe fixing base 18 and probe subassembly 19 reset.
The detection mechanism of the full-automatic LED light splitting machine does not adopt the traditional test mode that the probe clamps the LED product from left to right, but adopts the mode that the LED product is contacted from top to bottom for testing, the servo motor 3 is a driving part and drives the cam 4 to rotate, and the cam 4 sequentially pushes the bearing seat 6, the tension spring seat 10, the probe connecting seat 17, the probe fixing seat 18 and the probe assembly 19 to ascend and descend, so that the probe assembly 19 is contacted with or separated from the LED product, and the detection function is realized; drive fixing base 13 on the slip table in proper order during 12 fine settings of X-Y forked tail slip table, guide rail mount pad 16, second guide rail 15, probe connecting seat 17, probe fixing base 18 and probe subassembly 19, realize probe subassembly 19X in the horizontal plane to finely tuning with Y, it is more accurate to counterpoint, the test result is more accurate, the location process is few, the efficiency of software testing is high, simple structure and easy to carry out, be applicable to and use in the LED production, the opto-coupler response piece 21 is arranged in the middle of opto-coupler 20, but monitoring detection mechanism's running state, good stability.
In this embodiment, the probe assembly 19 includes a probe base 191, a probe 192 and a probe positioning base 193, the probe 192 is fixed on the probe base 191, the probe base 191 and the probe positioning base 193 are fixed on the probe fixing base 18, the probe positioning base 193 is located below the probe base 191, and a positioning through hole is formed in the probe positioning base 193 and used for positioning the lower end of the probe 192, so that the stability of the contact between the probe 192 and the pin of the LED product during detection is improved, and a tungsten steel probe is adopted, so that the probe is fine, hard and wear-resistant, and has a long service life.
In this embodiment, a plurality of tungsten steel probes are arranged on the probe base 191, the lower ends of the plurality of tungsten steel probes penetrate through the positioning through holes of the probe positioning base 193 after being folded, the upper ends of the tungsten steel probes are used for connecting test wires, the space is large, and the lower ends of the tungsten steel probes are used for contacting pins of an LED product, so that the tungsten steel probes need to be folded and disturbed to adapt to the pins of the LED product.
In this embodiment, the base 1 is provided with a U-shaped groove, so that the position of the whole detection component can be adjusted up and down.
The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.
Claims (3)
1. A detection mechanism of a full-automatic LED spectrometer is characterized by comprising a base, a supporting seat, a servo motor, a cam, a first guide rail, a bearing seat, an upper bearing, a lower bearing, a tension spring seat, a supporting rod, an X-Y dovetail sliding table, a sliding table upper fixing seat, a sliding table lower fixing seat, a second guide rail, a guide rail mounting seat, a probe connecting seat, a probe fixing seat, a probe assembly, an optical coupler and an optical coupler induction sheet, wherein the supporting seat is vertically fixed on the base, the servo motor is fixed on one side of the supporting seat, the cam is fixed on a motor shaft of the servo motor, the bearing seat is vertically and slidably arranged on the supporting seat through the first guide rail, the upper bearing and the lower bearing are respectively arranged at the upper end and the lower end of the bearing seat, the lower bearing is in contact with the cam, the sliding table lower fixing seat, the fixing base is fixed on the X-Y forked tail slip table on the slip table, the guide rail mount pad is fixed on the slip table fixing base side, the probe connecting seat sets up on the guide rail mount pad through second guide rail with sliding from top to bottom, the probe fixing base is fixed on the probe connecting seat, the probe subassembly is fixed on the probe fixing base, draw spring seat is fixed at probe connecting seat lower extreme to the terminal surface touches with upper bearing, the bracing piece sets up on the supporting seat down, extension spring one end is fixed on draw spring seat, and the other end is connected with the bracing piece, the opto-coupler is fixed on the supporting seat, the opto-coupler response piece is fixed on the probe connecting seat, and in the middle of arranging the opto-coupler in, is used for monitoring detection mechanism's running state, servo motor drives the cam rotation, and the cam promotes the bearing seat through the lower, Probe connecting seat, probe fixing base and probe subassembly go up and down to realize detecting function, fixing base, guide rail mount pad, second guide rail, probe connecting seat, probe fixing base and probe subassembly on driving the slip table in proper order during X-Y forked tail slip table fine setting realize the probe subassembly X in the horizontal plane to finely tuning with Y, the extension spring is used for making extension spring seat, probe connecting seat, probe fixing base and probe subassembly reset.
2. The detecting mechanism according to claim 1, wherein the probe assembly includes a probe seat, a probe and a probe positioning seat, the probe is fixed on the probe seat, the probe seat and the probe positioning seat are fixed on the probe fixing seat, the probe positioning seat is located below the probe seat, and the probe positioning seat is provided with a positioning through hole for positioning a lower end of the probe.
3. The detecting mechanism according to claim 2, wherein the probe seat is provided with a plurality of tungsten steel probes, and the lower ends of the plurality of tungsten steel probes are folded and then pass through the positioning through holes of the probe positioning seat.
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CN201921313240.1U CN210533670U (en) | 2019-08-13 | 2019-08-13 | Detection mechanism of full-automatic LED light splitting machine |
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CN201921313240.1U CN210533670U (en) | 2019-08-13 | 2019-08-13 | Detection mechanism of full-automatic LED light splitting machine |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112024432A (en) * | 2020-08-25 | 2020-12-04 | 金动力智能科技(深圳)有限公司 | High-precision implantation testing mechanism for 5G products |
CN112845187A (en) * | 2020-12-31 | 2021-05-28 | 华芯智造微电子(重庆)有限公司 | Automatic sorting machine |
CN112845115A (en) * | 2020-12-31 | 2021-05-28 | 华芯智造微电子(重庆)有限公司 | Efficient automatic sorting method |
-
2019
- 2019-08-13 CN CN201921313240.1U patent/CN210533670U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112024432A (en) * | 2020-08-25 | 2020-12-04 | 金动力智能科技(深圳)有限公司 | High-precision implantation testing mechanism for 5G products |
CN112845187A (en) * | 2020-12-31 | 2021-05-28 | 华芯智造微电子(重庆)有限公司 | Automatic sorting machine |
CN112845115A (en) * | 2020-12-31 | 2021-05-28 | 华芯智造微电子(重庆)有限公司 | Efficient automatic sorting method |
CN112845187B (en) * | 2020-12-31 | 2023-01-10 | 华芯智造微电子(重庆)有限公司 | Automatic sorting machine |
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