CN203508412U - Automatic lens sorting machine - Google Patents
Automatic lens sorting machine Download PDFInfo
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- CN203508412U CN203508412U CN201320667493.5U CN201320667493U CN203508412U CN 203508412 U CN203508412 U CN 203508412U CN 201320667493 U CN201320667493 U CN 201320667493U CN 203508412 U CN203508412 U CN 203508412U
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- conveyer belt
- sorting
- eyeglass
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- lens
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Abstract
The utility model discloses an automatic lens sorting machine belonging to the technical field of lens manufacturing. The automatic lens sorting machine comprises a frame (1), wherein a feeding mechanism and a PLC (programmable logic controller) control unit (2) are arranged on the frame (1); a thickness detection mechanism and a focal power detection mechanism are arranged on the feeding mechanism in sequence; a sorting mechanism is arranged at the tail end of the feeding mechanism and comprises a sorting platform (3) and lens recovery conveying belts; a feeding part is arranged on the sorting platform (3); a sorting platform driving device is fixedly arranged on the frame (1) below the sorting platform (3); the lens recovery conveying belts comprise a certified product recovery conveying belt (4) and a waste recovery conveying belt (5); the PLC control unit (2) is in signal connection with the feeding mechanism, the thickness detection mechanism, the focal power detection mechanism and the sorting mechanism respectively. The automatic lens sorting machine disclosed by the utility model can realize automatic feeding, automatic detection and sorting of lenses, is high in automation degree, and can completely replace manual sorting, improve the detection quality and working efficiency and reduce the production cost.
Description
Technical field
The utility model belongs to eyeglass manufacturing technology field, relates to a kind of sorting machine, particularly relates to the whether qualified a kind of eyeglass automatic sorting machines of lens quality that energy district office produces.
Background technology
In eyeglass production process, comprise the production of glass lens material and resin lens material, due to the different requirements to thickness, diopter etc., so eyeglass has various specifications.Even in the eyeglass production process of same specification, due to the difference of processing technology, the fine degree of production equipment is different, and the lens quality of producing is also different.For example in the production process of resin lens, to first carry out the cast of mould and cushion rubber, again mould is delivered in curing oven and solidified, die sinking and edging again, clean, carry out again heat cure, because operation is many, the lens quality of producing is not necessarily all qualified, therefore, to the eyeglass of producing, must test, comprise light transmittance, center thickness, hardness, vertex lens power etc., traditional method is all that workman utilizes the instruments such as lens thickness measuring instrument and focal power machine to detect one by one eyeglass, analyze the quality of judgement eyeglass, if find the substandard eyeglasses of data such as thickness and focal power, rejected, due to manual detection eyeglass, so efficiency is lower.
Therefore, for the larger eyeglass manufacturing enterprise of output, if a kind of device can be set, can realize automatic detection eyeglass, and carry out automatic distinguishing, so just can save workman's labour, increase work efficiency.
Utility model content
The technical problems to be solved in the utility model is to need workman check the quality of eyeglass and distinguished eyeglass by hand in production process, and a kind of eyeglass automatic sorting machines that can automatically detect produced lens quality and carry out automatic sorting that has is provided.
In order to solve the problems of the technologies described above, the utility model provides a kind of eyeglass automatic sorting machines, comprise frame, feed mechanism and PLC control module are set in described frame, on described feed mechanism, set gradually thickness detection mechanism and focal power testing agency, end at described feed mechanism arranges mechanism for sorting, described mechanism for sorting comprises that sorting platform and eyeglass reclaim conveyer belt, on described sorting platform, feeding part is set, this feeding part can be delivered to eyeglass eyeglass and reclaim conveyer belt, described sorting platform is slidably connected in frame, in frame below described sorting platform, be fixedly installed sorting platform drive unit, sorting platform drive unit can drive sorting platform to slide, described eyeglass reclaims conveyer belt and comprises that certified products reclaims conveyer belt and waste recovery conveyer belt, described PLC control module is connected with the signal of described feed mechanism, thickness detection mechanism, focal power testing agency and mechanism for sorting respectively, and PLC control module receives can be controlled feed mechanism, thickness detection mechanism, focal power testing agency and mechanism for sorting after the detection data of thickness detection mechanism and focal power testing agency and do corresponding motion.
In the frame of above-mentioned sorting platform below, be fixedly installed two parallel slide rails, the promotion cylinder that one end of slide rail described in described sorting platform drive unit is included in is fixedly installed, the piston rod of described promotion cylinder is fixedly connected on sorting platform, described sorting platform is slidably connected on slide rail, and sorting platform can slide under the effect that promotes cylinder on slide rail.
Feeding part on above-mentioned sorting platform comprises that being fixed on sorting pushes away eyeglass cylinder on platform, and the block rubber of circular arc is set at the described piston rod part that pushes away eyeglass cylinder, and block rubber can prevent from, when pushing eyeglass, eyeglass is caused to damage.
In above-mentioned certified products recovery conveyer belt one side and waste recovery conveyer belt one side, buffer stopper is set respectively.Buffer stopper can prevent sorting platform and hard collision appears in frame, and can make to sort the position of platform and the aligned in position that certified products reclaims conveyer belt or waste recovery conveyer belt, the feeding part that is conducive to sort on platform is delivered to respectively certified products recovery conveyer belt or waste recovery conveyer belt eyeglass.
Above-mentioned feed mechanism comprises motor and conveyer belt, described conveyer belt comprises conveyer belt one, conveyer belt two, conveyer belt three, conveyer belt four, conveyer belt five, it is step-like that above-mentioned conveyer belt is successively, being step-like conveyer belt can make the eyeglass on conveyer belt one when conveyer belt rotates, automatically slide on conveyer belt two, and eyeglass on conveyer belt two can slide on conveyer belt three automatically, carry successively.Above-mentioned conveyer belt one is set to two conveyer belts arranged side by side, and two conveyer belt alternate rotation arranged side by side can allow staff once put into more eyeglass like this, saves the blowing time.
Above-mentioned thickness detection mechanism comprises lens thickness measuring instrument and lens orientation device one, lens thickness measuring instrument can be measured the thickness of eyeglass, described lens orientation device one comprises and is arranged on a pair of clamping slot one that conveyer belt four tops are controlled by clamping slot controller one, in the both sides of described clamping slot one, barrier rib one is set, this barrier rib one is driven by barrier rib drive unit.
Above-mentioned focal power testing agency comprises focal power machine and lens orientation device two, focal power machine can be measured the vertex lens power of eyeglass, described lens orientation device two comprises and is arranged on a pair of clamping slot two that conveyer belt five tops are controlled by clamping slot controller two, in the both sides of described clamping slot two, barrier rib two is set, described barrier rib two is driven by barrier rib drive unit.
Above-mentioned conveyer belt four and conveyer belt five are set to Timing Belt, described Timing Belt matches with synchronizing wheel, and described synchronizing wheel is fixedly connected on the both sides of turning cylinder, and described turning cylinder is driven by motor, utilize synchronizing wheel, can accurately regulate the displacement of eyeglass.
The clamping area of above-mentioned clamping slot is set to circular arc, this circular arc can match with the edge of eyeglass, be conducive to clamp eyeglass, two ends at described circular arc arrange bearing, on described bearing, be socketed roller, when clamping slot clamps eyeglass, due to the rotation of roller, prevent bearing and lens edge extruding and the edge of damage eyeglass like this.
The beneficial effect of above-mentioned eyeglass automatic sorting machines is, due to PLC control module and pay-off being installed, lens thickness measuring instrument, focal power machine, can automatically control eyeglass carries, and eyeglass is carried out to thickness detects and focal power can detect, the data of analysing and comparing and detecting by PLC control module, the eyeglass that judgement detects is certified products or waste product, by mechanism for sorting, classify again, therefore can realize the self-feeding of eyeglass, automation detects and sorting, its automaticity is high, replace manual go-on-go completely, can improve and detect quality and operating efficiency, reduce production costs.
Accompanying drawing explanation
Fig. 1 is the utility model eyeglass automatic sorting machines structural representation.
Fig. 2 is the utility model eyeglass automatic sorting machines top view.
Fig. 3 is the utility model transport conveyor constructions schematic diagram.
Fig. 4 is the utility model lens thickness measuring instrument structural representation.
Fig. 5 is conveyer belt four in the utility model, conveyer belt five structural representations.
Fig. 6 is the utility model sorting equipment structural representation.
Fig. 7 is the utility model lens orientation apparatus structure schematic diagram.
Drawing reference numeral explanation: 1-frame, 2-PLC control module, 3-sorts platform, 4-certified products reclaims conveyer belt, 5-waste recovery conveyer belt, 6-slide rail, 7-promotes cylinder, 8-piston rod, 9-pushes away eyeglass cylinder, 10-block rubber, 11-buffer stopper, 12a-clamping slot controller one, 12b-clamping slot controller two, 13a-clamping slot one, 13b-clamping slot two, 14a-barrier rib one, 14b-barrier rib two, 15-focal power machine, 16-synchronizing wheel, 17-turning cylinder, 18-bearing, 19-roller, 21-conveyer belt one, 22-conveyer belt two, 23-conveyer belt three, 24-conveyer belt four, 25-conveyer belt five, 30-lens thickness measuring instrument, 31-support plate, 32-motor fixing plate, 33-thickness detects stepper motor, 34-screw mandrel, 35-slide block, 36-thickness grating scale, 37-thickness detects blow head.
The specific embodiment
Below in conjunction with accompanying drawing, the utility model is described in further detail.
As Fig. 1, Fig. 2, eyeglass automatic sorting machines as shown in Figure 3, comprise machine 1, feed mechanism and PLC control module 2 are set in frame 1, this feed mechanism comprises motor and conveyer belt, conveyer belt is rotated by driven by motor, conveyer belt comprises conveyer belt 1, conveyer belt 2 22, conveyer belt 3 23, conveyer belt 4 24 and conveyer belt 5 25, it is step-like that the position of each above-mentioned conveyer belt is successively, being step-like conveyer belt can make the eyeglass on conveyer belt 1 when conveyer belt rotates, automatically slide on conveyer belt 2 22, and eyeglass on conveyer belt 2 22 can slide on conveyer belt 3 23 automatically, carry successively, can realize eyeglass transmits automatically.As a kind of preferred version, above-mentioned conveyer belt 1 is set to two conveyer belts arranged side by side, article two, conveyer belt arranged side by side can alternate rotation, allow like this staff once put into more eyeglass, can save the blowing time, above-mentioned conveyer belt is concave shape to be arranged, and can make full use of the space in frame 1.
As Fig. 1, Fig. 2, shown in Fig. 4, on conveyer belt, set gradually thickness detection mechanism and focal power testing agency, thickness detection mechanism comprises lens thickness measuring instrument 30 and lens orientation device one, and this lens thickness measuring instrument 30 comprises support plate 31, support plate 31 is fixedly connected with frame 1, upper at support plate 31, lower end arranges respectively, lower motor fixing plate 32, upper, on lower motor fixing plate 32, arrange respectively, lower thickness detects stepper motor 33, upper, lower thickness detects stepper motor 33 respectively with upper, lower screw mandrel 34 connects, upper, on lower screw mandrel 34, connect, sliding block 35, on, sliding block 35 is with upper, lower thickness grating scale 36 matches, upper, one end of sliding block 35 arranges, lower thickness detects blow head 37, above-mentioned on, lower thickness detects stepper motor 33 and rotates, and can drive, lower screw mandrel 34 rotates, thereby on driving, sliding block 35 slides, on, on lower thickness grating scale 36 can be determined, the position relationship of sliding block 35, on, lower thickness detects the air pressure that blow head 37 can be measured blown out gas, and the position of measuring according to thickness grating scale 36 and thickness detect the air pressure that blow head 37 is measured, and can detect the thickness of eyeglass.
As Fig. 1, Fig. 2, the device of lens orientation shown in Fig. 4 one comprises and is arranged on a pair of clamping slot one 13a that conveyer belt 4 24 tops are driven by clamping slot controller one 12a, by clamping slot controller one 12a, handle clamping slot one 13a and carry out corresponding on-off action, on the eyeglass on conveyer belt 4 24 being clamped and is fixed on by clamping slot one 13a, lower thickness detects between blow head 37, clamping slot controller one 12a can regulate the position of clamping slot one 13a, make on the center of eyeglass aims in eyeglass thickness measurement equipment 30, lower thickness detects blow head 37 center, the position that lens thickness measuring instrument 30 can be measured according to thickness grating scale 36 and thickness detect blow head 37 calculating of mensuration and are positioned at, lower thickness detects the thickness of the object between blow head 37, and record data are sent in PLC control module 2, automatic Memory is stored data, so just can make 30 pairs of eyeglasses of lens thickness measuring instrument make Measurement accuracy.Both sides at conveyer belt 4 24 throughput direction clamping slot one 13a arrange barrier rib one 14a, this barrier rib one 14a is driven by barrier rib drive unit, eyeglass can be blocked on conveyer belt 4 24, prevents from further travelling forward, after eyeglass has detected, the eyeglass of can letting pass.
Focal power testing agency as shown in Figure 1 and Figure 2 comprises focal power machine 15 and lens orientation device two, and focal power machine 15 is fixedly connected with frame 11; Focal power machine 15 can be measured the vertex lens power of eyeglass, measurement pattern, automatic measurement, automatic reading can automatically switch, described lens orientation device two comprises and is arranged on a pair of clamping slot two 13b that conveyer belt 5 25 tops are driven by clamping slot controller two 12b, handles clamping slot two 13b carry out corresponding on-off action by clamping slot controller two 12b.By clamping slot, two 13b clamp and fix position by the eyeglass on conveyer belt 5 25, clamping slot controller two 12b can regulate the position of clamping slot two 13b, make the center of eyeglass aim at focal power Ji15 inspection center, can make like this 15 pairs of eyeglasses of focal power machine make Measurement accuracy, the measurement result that 15 pairs of eyeglasses of focal power machine are made is sent to PLC control module 2.Both sides at conveyer belt 5 25 throughput direction clamping slot two 13b arrange barrier rib two, described barrier rib two is driven by barrier rib drive unit, eyeglass can be blocked on conveyer belt 5 25, prevents that eyeglass from further travelling forward, after eyeglass has detected, the eyeglass of can letting pass.
As shown in Figure 5, conveyer belt 4 24, conveyer belt 5 25 are set to Timing Belt, article two, Timing Belt is arranged in parallel, Timing Belt matches with synchronizing wheel 16, synchronizing wheel 16 is fixedly connected on the both sides of turning cylinder 17, turning cylinder 17 is driven by motor, utilizes synchronizing wheel 16, can accurately regulate the displacement of eyeglass.
As Fig. 1, Fig. 2, shown in Fig. 6, end at feed mechanism arranges mechanism for sorting, mechanism for sorting comprises that sorting platform 3 and eyeglass reclaim conveyer belt, sorting platform 3 and eyeglass reclaim conveyer belt and are arranged in same level, sorting platform drive unit is set below sorting platform 3, as a kind of embodiment of the present utility model, in frame 1 below sorting platform 3, be fixedly installed two parallel slide rails 6, article two, parallel slide rail 6 is fixedly connected with frame 1, in one end of slide rail 6, be fixedly installed and promote cylinder 7, the piston rod 8 of this promotion cylinder 7 is fixedly connected on sorting platform 3, sorting platform 3 is slidably connected on slide rail 6.As another kind of embodiment of the present utility model, in the frame 1 of above-mentioned sorting platform 3 belows, be fixedly installed stationary platen, on described stationary platen, groove is set, one end at described stationary platen is fixedly installed cylinder, the piston rod of described cylinder is fixedly connected on sorting platform 3, described sorting platform 3 is slidably connected in groove, utilizes like this cylinder can drive sorting platform 3 to slide.On sorting platform 3, feeding part is set, as a kind of embodiment of the present utility model, feeding part comprises that being fixed on sorting pushes away eyeglass cylinder 9 on platform 3, the block rubber 10 of circular arc is set at the piston rod part that pushes away eyeglass cylinder 9, the piston rod that pushes away eyeglass cylinder 9 can be delivered to eyeglass recovery conveyer belt eyeglass, and eyeglass reclaims conveyer belt and comprises that certified products reclaims conveyer belt 4 and waste recovery conveyer belt 5.
As shown in Figure 6; in certified products recovery conveyer belt 4 one sides and waste recovery conveyer belt 5 one sides, buffer stopper 11 is set respectively; buffer stopper 11 can prevent from sorting platform 3 and occur hard collision with frame 1 sidewall; play protection sorting platform 3; and can make to sort platform 3 positions and reclaim respectively the position alignment of conveyer belt 4 or waste recovery conveyer belt 5 with certified products, be conducive to sort feeding part on platform 3 and eyeglass is delivered to respectively to certified products reclaim conveyer belt 4 or waste recovery conveyer belt 5.
As shown in Figure 7, the clamping area of clamping slot one 13a, clamping slot two 13b is set to circular arc, this circular arc can match with the edge of eyeglass, be conducive to clamp eyeglass, at the two ends of described circular arc, bearing 18 is set, on described bearing 18, is socketed roller 19, like this when clamping slot one 13a, clamping slot two 13b clamp eyeglass, due to the rotation of roller 19, prevent that bearing 18 from damaging the edge of eyeglass with lens edge extruding.
Practical work process is as follows: during use, as Fig. 1, shown in Fig. 2, convex lens surface is upwards placed on conveyer belt 1, by the central processing unit in PLC control module 2, control, make conveyer belt one 21 alternate rotation, eyeglass on conveyer belt 1 is delivered on conveyer belt 2 22, conveyer belt 2 22 is delivered to eyeglass on conveyer belt 3 23, conveyer belt 3 23 is delivered to eyeglass on the conveyer belt 4 24 of thickness measurement equipment, at this moment one 14a of the barrier rib in conveyer belt 4 24 moves upward under barrier rib drive unit drives, eyeglass is blocked on conveyer belt 4 24, prevent from further travelling forward, at this moment by clamping slot controller one 12a, handle clamping slot one 13a and carry out corresponding holding action, by clamping slot, one 13a clamps and fixes position by the eyeglass on conveyer belt 1, make the center of eyeglass aim at the upper of eyeglass thickness measurement equipment 30, lower thickness detects blow head 37 centers, the measurement that 30 pairs of eyeglasses of lens thickness measuring instrument are made is also sent to central processing unit by measurement result, central processing unit is sent to database analysis these information, after analysis, these data are stored, then, barrier rib one 14a moves downward under barrier rib drive unit drives, clamping slot controller one 12a handles clamping slot one 13a and carries out corresponding opening action, eyeglass is put on conveyer belt 4 24, central processing unit is controlled conveyer belt 4 24 and is rotated, eyeglass is delivered to focal power to be detected on conveyer belt 5 25, at this moment two 14b of the barrier rib in conveyer belt 5 25 move upward under barrier rib drive unit drives, eyeglass is blocked on conveyer belt 5 25, prevent from further travelling forward, at this moment by clamping slot controller two 12b, handle clamping slot two 13b and carry out corresponding holding action, by clamping slot, two 13b clamp the eyeglass on conveyer belt, eyeglass is placed on eyeglass bearing, with fixing len support, push down eyeglass, mobile eyeglass makes target move to center, measure, according to setting situation, automatic Memory is stored data, and measurement result is sent to central processing unit, central processing unit is sent to database analysis these information, together with the data of after analysis, these vertex lens power data being measured with thickness measurement equipment are above stored in, then, barrier rib two 14b move downward under barrier rib drive unit drives, clamping slot controller two 12b handle clamping slot two 13b and carry out corresponding opening action, eyeglass is put on conveyer belt 5 25, central processing unit is controlled conveyer belt 5 25 and is travelled forward, eyeglass is delivered on sorting platform 3, central processing unit is the result to vertex lens power data and lens thickness data analysis according to database, judge that whether eyeglass is qualified, when being judged as certified products, promoting cylinder 7 drives sorting platform 3 to slide into certified products recovery conveyer belt 4 one sides, by propelling movement cylinder 9 motions on sorting platform 3, eyeglass is pushed to certified products to be reclaimed on conveyer belt 4, when being judged as defective work, promote cylinder 7 and drive sorting platform 3 to slide into waste recovery conveyer belt 5 one sides, propelling movement cylinder 9 motions by sorting platform 3, are pushed to eyeglass on waste recovery conveyer belt 5.Thereby the classification of carrying out eyeglass is reclaimed, and database can be processed the data of collecting, and can help to analyze the reason that eyeglass exists quality problems simultaneously, for improving eyeglass production, provide foundation.
By reference to the accompanying drawings the utility model embodiment is explained in detail above; but the utility model is not limited to above-mentioned embodiment; to those skilled in the art; can also make some modification and improvement not departing under prerequisite of the present utility model, these also should be considered as belonging to protection domain of the present utility model.
Claims (9)
1. an eyeglass automatic sorting machines, comprise frame (1), feed mechanism and PLC control module (2) are set in described frame (1), be characterised in that: on described feed mechanism, set gradually thickness detection mechanism and focal power testing agency, end at described feed mechanism arranges mechanism for sorting, described mechanism for sorting comprises that sorting platform (3) and eyeglass reclaim conveyer belt, on described sorting platform (3), feeding part is set, described sorting platform (3) is slidably connected in frame (1), in the frame (1) of described sorting platform (3) below, be fixedly installed sorting platform drive unit, described eyeglass reclaims conveyer belt and comprises that certified products reclaims conveyer belt (4) and waste recovery conveyer belt (5), described PLC control module (2) is connected with the signal of described feed mechanism, thickness detection mechanism, focal power testing agency and mechanism for sorting respectively.
2. eyeglass automatic sorting machines according to claim 1, it is characterized in that: in the frame (1) of described sorting platform (3) below, be fixedly installed two parallel slide rails (6), the promotion cylinder (7) that one end of slide rail (6) described in described sorting platform drive unit is included in is fixedly installed, it is upper that the piston rod (8) of described promotion cylinder (7) is fixedly connected on sorting platform (3), and described sorting platform (3) is slidably connected on slide rail (6).
3. eyeglass automatic sorting machines according to claim 1 and 2, it is characterized in that: the feeding part on described sorting platform (3) comprises being fixed on and pushes away eyeglass cylinder (9) in sorting platform (3), and the block rubber (10) of circular arc is set at the described piston rod part that pushes away eyeglass cylinder (9).
4. eyeglass automatic sorting machines according to claim 1 and 2, is characterized in that: in described certified products recovery conveyer belt (4) one sides and waste recovery conveyer belt (5) one sides, buffer stopper (11) is set respectively.
5. eyeglass automatic sorting machines according to claim 1, it is characterized in that: described feed mechanism comprises motor and conveyer belt, described conveyer belt comprises conveyer belt one (21), conveyer belt two (22), conveyer belt three (23), conveyer belt four (24) and conveyer belt five (25), above-mentioned conveyer belt is successively step-like, described conveyer belt one (21) and is set to two conveyer belts arranged side by side.
6. eyeglass automatic sorting machines according to claim 1, it is characterized in that: described thickness detection mechanism comprises lens thickness measuring instrument (30) and lens orientation device one, described lens orientation device one comprises and is arranged on a pair of clamping slot one (13a) that conveyer belt four (24) top is controlled by clamping slot controller one (12a), in the both sides of described clamping slot one (13a), barrier rib one (14a) is set.
7. eyeglass automatic sorting machines according to claim 1, it is characterized in that: described focal power testing agency comprises focal power machine (15) and lens orientation device two, described lens orientation device two comprises and is arranged on a pair of clamping slot two (13b) that conveyer belt five (25) top is controlled by clamping slot controller two (12b), in the both sides of described clamping slot two (13b), barrier rib two (14b) is set.
8. according to the eyeglass automatic sorting machines described in claim 6 or 7, it is characterized in that: described conveyer belt four (24) and conveyer belt five (25) are set to Timing Belt, described Timing Belt matches with synchronizing wheel (16), described synchronizing wheel (16) is fixedly connected on the both sides of turning cylinder (17), and described turning cylinder (17) is driven by motor.
9. according to the eyeglass automatic sorting machines described in claim 6 or 7, it is characterized in that: described clamping slot one (13a), the clamping area of clamping slot two (13b) are set to circular arc, bearing (18) is set, at the upper socket of described bearing (18) roller (19) at the two ends of described circular arc.
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CN201320667493.5U CN203508412U (en) | 2013-10-28 | 2013-10-28 | Automatic lens sorting machine |
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CN201320667493.5U CN203508412U (en) | 2013-10-28 | 2013-10-28 | Automatic lens sorting machine |
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Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103611688A (en) * | 2013-10-28 | 2014-03-05 | 临海市锦铮机械有限公司 | Automatic lens sorting machine |
CN104941919A (en) * | 2015-06-29 | 2015-09-30 | 深圳市京田精密科技有限公司 | Fully-automatic precision detecting equipment |
CN104998835A (en) * | 2015-06-23 | 2015-10-28 | 江苏大学 | Automatic detection and classification device for belt type lenses |
CN106140646A (en) * | 2016-07-04 | 2016-11-23 | 简丽 | A kind of saw blade single-piece separating mechanism |
CN106353336A (en) * | 2016-10-27 | 2017-01-25 | 哈尔滨理工大学 | Lens coating automatic detection system |
CN107537790A (en) * | 2017-10-10 | 2018-01-05 | 中山市光维智能科技有限公司 | The full-automatic proper circle detection of optical mirror slip stores classifiedly device |
CN108246645A (en) * | 2018-04-18 | 2018-07-06 | 深圳市灿弘自动化科技有限公司 | A kind of lens processing full-automatic detection apparatus and method |
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2013
- 2013-10-28 CN CN201320667493.5U patent/CN203508412U/en not_active Withdrawn - After Issue
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103611688A (en) * | 2013-10-28 | 2014-03-05 | 临海市锦铮机械有限公司 | Automatic lens sorting machine |
CN103611688B (en) * | 2013-10-28 | 2016-05-11 | 临海市锦铮机械有限公司 | Eyeglass automatic sorting machines |
CN104998835A (en) * | 2015-06-23 | 2015-10-28 | 江苏大学 | Automatic detection and classification device for belt type lenses |
CN104941919A (en) * | 2015-06-29 | 2015-09-30 | 深圳市京田精密科技有限公司 | Fully-automatic precision detecting equipment |
CN106140646A (en) * | 2016-07-04 | 2016-11-23 | 简丽 | A kind of saw blade single-piece separating mechanism |
CN106353336A (en) * | 2016-10-27 | 2017-01-25 | 哈尔滨理工大学 | Lens coating automatic detection system |
CN107537790A (en) * | 2017-10-10 | 2018-01-05 | 中山市光维智能科技有限公司 | The full-automatic proper circle detection of optical mirror slip stores classifiedly device |
CN107537790B (en) * | 2017-10-10 | 2019-11-26 | 中山市光维智能科技有限公司 | The full-automatic proper circle detection of optical mirror slip stores classifiedly device |
CN108246645A (en) * | 2018-04-18 | 2018-07-06 | 深圳市灿弘自动化科技有限公司 | A kind of lens processing full-automatic detection apparatus and method |
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